--- EXPERIMENT NOTES
--- EXPERIMENT PROPERTIES
#Thu Nov 24 21:18:29 WET 2016
codeml.models=0 1 2 3 7 8
mrbayes.mpich=
mrbayes.ngen=1000000
tcoffee.alignMethod=CLUSTALW2
tcoffee.params=
tcoffee.maxSeqs=0
codeml.bin=codeml
mrbayes.tburnin=2500
codeml.dir=
input.sequences=
mrbayes.pburnin=2500
mrbayes.bin=mb_adops
tcoffee.bin=t_coffee_ADOPS
mrbayes.dir=/usr/bin/
tcoffee.dir=
tcoffee.minScore=3
input.fasta=/opt/ADOPS/30/CadN-PA/input.fasta
input.names=
mrbayes.params=
codeml.params=
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -31161.09 -31178.56
2 -31160.24 -31177.70
--------------------------------------
TOTAL -31160.58 -31178.22
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 1.191116 0.000954 1.130559 1.251042 1.190617 1371.52 1436.26 1.000
r(A<->C){all} 0.082884 0.000029 0.072286 0.093240 0.082795 918.35 970.83 1.000
r(A<->G){all} 0.294682 0.000117 0.272730 0.315165 0.294524 706.59 804.88 1.000
r(A<->T){all} 0.070749 0.000029 0.060226 0.081311 0.070627 1066.90 1069.62 1.001
r(C<->G){all} 0.056770 0.000018 0.048697 0.065060 0.056595 941.79 1047.79 1.000
r(C<->T){all} 0.442286 0.000126 0.420375 0.463780 0.442201 697.89 739.18 1.000
r(G<->T){all} 0.052630 0.000020 0.044024 0.060718 0.052490 870.28 1048.84 1.000
pi(A){all} 0.254187 0.000018 0.245758 0.262013 0.254246 734.81 751.94 1.000
pi(C){all} 0.259641 0.000016 0.252192 0.267790 0.259641 869.77 958.62 1.000
pi(G){all} 0.267676 0.000019 0.259519 0.276447 0.267677 780.76 873.57 1.000
pi(T){all} 0.218496 0.000015 0.210859 0.225858 0.218446 968.30 977.22 1.000
alpha{1,2} 0.085063 0.000009 0.079550 0.091147 0.085041 1401.18 1451.09 1.000
alpha{3} 8.194136 1.670617 5.655607 10.575470 8.073447 1501.00 1501.00 1.000
pinvar{all} 0.437670 0.000118 0.417095 0.458949 0.437571 1378.13 1439.57 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
--- CODEML SUMMARY
Model 1: NearlyNeutral -28960.619106
Model 2: PositiveSelection -28960.619268
Model 0: one-ratio -29029.584805
Model 3: discrete -28930.188501
Model 7: beta -28942.388292
Model 8: beta&w>1 -28939.322122
Model 0 vs 1 137.93139800000063
Model 2 vs 1 3.240000005462207E-4
Model 8 vs 7 6.132339999996475
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_CadN-PA)
Pr(w>1) post mean +- SE for w
33 F 0.657 1.160 +- 0.492
2303 S 0.670 1.189 +- 0.461
>C1
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C2
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C3
MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C4
MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
ARMLAGSPGEVEKSPSHHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSSH
AGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAFS
GSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVINGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDENDN
RPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIAY
RLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPAK
VLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTPI
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGSC
TNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMPT
AKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C5
MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKAPSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSSH
AGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAFS
GSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVINGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDENDN
RPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIAY
RLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPAK
VLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTPI
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGSC
TNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMPT
AKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C6
MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSSH
AGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAFS
GSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVINGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDENDN
RPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIAY
RLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPAK
VLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTPI
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGSC
TNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMPT
AKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C7
MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C8
MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSHHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSSH
SGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAFS
GSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVINGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDENDN
RPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIAY
RLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPAK
VLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTPI
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGSC
TNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMPT
AKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C9
MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSSH
AGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAFS
GSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVINGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDENDN
RPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIAY
RLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPAK
VLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTPI
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGSC
TNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMPT
AKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C10
MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPPHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSSH
AGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPNV
TNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAFS
GSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISGD
DESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDENDN
RPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIAY
RLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPAK
VLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTEA
DGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELG
PEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQ
AVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVR
TRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQF
YMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGP
TSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVND
NAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDHF
AVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKNK
NDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTSS
GQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTST
AVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGVN
GQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKAT
DQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRVS
ASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYRL
RVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVGT
VVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWADI
KVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFTE
REQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFFE
INLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFIR
IGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYEI
TSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTIV
INVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNIV
YFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVFA
QDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMTM
TAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCCL
DRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEVD
ETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDGT
GSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKLR
DINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSIDR
SSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATATL
TVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPPF
QFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMIP
IVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTPV
GRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYHL
RFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRVW
NYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRFS
AHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGSC
TNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPCH
NGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDESH
LSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDFG
SGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDGT
PPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMPT
AKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARCW
EHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPDR
FSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLRT
EERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVGH
QWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLPP
AMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCGE
GRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGENC
ELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGPD
DDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMYP
VMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGSL
SSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE: ], CPU=0.00 sec, SCORE=100, Nseq=10, Len=3097
C1 MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
C2 MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
C3 MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
C4 MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
C5 MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
C6 MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
C7 MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
C8 MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
C9 MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
C10 MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
*******: ******:.::*: :*** **.**::** *************
C1 ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C2 ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C3 ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C4 ARMLAGSPGEVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS
C5 ARMLAGSPGDVEKAPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C6 ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C7 ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
C8 ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS
C9 ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
C10 ARMLAGSPGDVEKSPP-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
*********:***:. ************************** :*****
C1 HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C2 HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C3 HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C4 HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C5 HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C6 HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C7 HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C8 HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C9 HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
C10 HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
*:*.******::**************************************
C1 ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C2 ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C3 ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C4 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C5 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C6 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C7 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C8 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C9 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
C10 VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF
.******************************:******************
C1 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C2 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C3 SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
C4 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING
C5 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C6 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C7 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
C8 SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C9 SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
C10 SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG
*****:****.************ **********:*:*:*:*******.*
C1 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
C2 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
C3 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
C4 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
C5 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND
C6 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
C7 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
C8 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
C9 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
C10 DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
***********************************:*:*****::*****
C1 NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
C2 NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
C3 NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
C4 NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
C5 NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA
C6 NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA
C7 NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
C8 NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA
C9 NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
C10 NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA
******::***********..:********:*******************
C1 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
C2 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C3 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C4 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C5 YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA
C6 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C7 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C8 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
C9 YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA
C10 YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA
****:*********************:******* *********:**:**
C1 KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
C2 KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
C3 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C4 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C5 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C6 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C7 KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
C8 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C9 KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
C10 KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE
**********************::*.************************
C1 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C2 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C3 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C4 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C5 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C6 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C7 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C8 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C9 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
C10 ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
**************************************************
C1 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C2 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C3 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C4 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C5 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C6 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C7 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C8 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C9 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
C10 GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
**************************************************
C1 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C2 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C3 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C4 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C5 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C6 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C7 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C8 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C9 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
C10 QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
**************************************************
C1 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C2 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C3 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C4 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C5 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C6 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C7 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C8 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C9 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
C10 RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
**************************************************
C1 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C2 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C3 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C4 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C5 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C6 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C7 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C8 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C9 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
C10 FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
**************************************************
C1 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C2 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C3 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C4 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C5 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C6 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C7 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C8 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C9 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
C10 PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
**************************************************
C1 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C2 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C3 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C4 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C5 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C6 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C7 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C8 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C9 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
C10 DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
**************************************************
C1 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C2 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C3 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C4 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C5 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C6 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C7 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C8 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C9 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
C10 FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
**************************************************
C1 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C2 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C3 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C4 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C5 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C6 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C7 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C8 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C9 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
C10 KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
**************************************************
C1 SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
C2 SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
C3 SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
C4 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C5 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C6 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C7 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C8 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C9 SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
C10 SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
***********************:**************************
C1 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C2 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C3 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C4 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C5 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C6 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C7 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C8 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C9 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
C10 TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
**************************************************
C1 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C2 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C3 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C4 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C5 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C6 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C7 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C8 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C9 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
C10 NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
**************************************************
C1 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C2 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C3 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C4 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C5 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C6 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C7 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C8 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C9 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
C10 TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
**************************************************
C1 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C2 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C3 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C4 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C5 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C6 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C7 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C8 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C9 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
C10 SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
**************************************************
C1 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C2 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C3 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C4 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C5 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C6 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C7 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C8 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
C9 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
C10 LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
*********************************** :****:********
C1 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C2 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C3 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C4 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C5 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C6 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C7 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C8 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C9 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
C10 TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
**************************************************
C1 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C2 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C3 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C4 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C5 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C6 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C7 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C8 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C9 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
C10 IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
**************************************************
C1 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C2 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C3 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C4 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C5 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C6 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C7 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C8 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C9 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
C10 EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
**************************************************
C1 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C2 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C3 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C4 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C5 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C6 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C7 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C8 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C9 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
C10 EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
**************************************************
C1 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C2 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C3 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C4 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C5 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C6 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C7 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C8 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C9 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
C10 RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
**************************************************
C1 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C2 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C3 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C4 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C5 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C6 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C7 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C8 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C9 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
C10 ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
**************************************************
C1 VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
C2 VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
C3 VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
C4 VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
C5 VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
C6 VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
C7 VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
C8 VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
C9 VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI
C10 VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
************:**:***********.:*********************
C1 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C2 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C3 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C4 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C5 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C6 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C7 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C8 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C9 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
C10 VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
**************************************************
C1 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C2 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C3 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C4 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C5 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C6 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C7 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C8 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C9 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
C10 AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
**************************************************
C1 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C2 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C3 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C4 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C5 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C6 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C7 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C8 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C9 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
C10 MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
**************************************************
C1 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C2 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C3 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C4 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C5 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C6 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C7 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C8 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C9 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
C10 LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
**************************************************
C1 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C2 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C3 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C4 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C5 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C6 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C7 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C8 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C9 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
C10 DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
**************************************************
C1 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C2 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C3 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C4 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C5 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C6 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C7 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C8 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C9 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
C10 TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
**************************************************
C1 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C2 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C3 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C4 RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C5 RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C6 RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C7 RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C8 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C9 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
C10 RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
**********:***************************************
C1 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C2 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C3 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C4 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C5 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C6 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C7 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C8 RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT
C9 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
C10 RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
*********************:****************************
C1 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C2 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C3 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C4 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C5 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C6 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C7 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C8 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C9 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
C10 LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
**************************************************
C1 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C2 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C3 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C4 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C5 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C6 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C7 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C8 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C9 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
C10 FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
**************************************************
C1 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C2 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C3 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C4 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
C5 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C6 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C7 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
C8 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C9 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
C10 PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
***********************************:**************
C1 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C2 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C3 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C4 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C5 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C6 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C7 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C8 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C9 IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
C10 VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
:*************************************************
C1 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
C2 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
C3 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
C4 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C5 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C6 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C7 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C8 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C9 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
C10 LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
*******************************:******************
C1 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
C2 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
C3 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
C4 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF
C5 WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
C6 WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
C7 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
C8 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
C9 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF
C10 WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF
****************************:************ *.***:**
C1 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C2 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C3 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C4 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C5 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C6 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C7 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C8 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS
C9 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
C10 SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
****************************************:*********
C1 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
C2 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
C3 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
C4 CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
C5 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
C6 CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
C7 CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
C8 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
C9 CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
C10 CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
***:***********************************:**********
C1 HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
C2 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C3 HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
C4 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C5 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C6 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C7 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C8 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C9 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
C10 HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
*********************:****************************
C1 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C2 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C3 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C4 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C5 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C6 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C7 HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
C8 HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF
C9 HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
C10 HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
**************************** :********************
C1 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C2 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C3 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C4 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C5 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C6 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C7 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C8 GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
C9 GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
C10 GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
***************************:**********************
C1 TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
C2 TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
C3 TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
C4 TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
C5 TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
C6 TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
C7 TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
C8 TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP
C9 TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
C10 TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
********:**********:**********************:* *****
C1 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C2 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C3 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C4 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C5 TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C6 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C7 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
C8 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
C9 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC
C10 TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
****************:*************:****************:**
C1 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C2 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C3 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C4 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C5 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C6 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C7 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C8 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C9 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
C10 WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
**************************************************
C1 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C2 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C3 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C4 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C5 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C6 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C7 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C8 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C9 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
C10 RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
**************************************************
C1 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C2 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C3 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C4 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C5 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C6 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C7 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C8 TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C9 TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
C10 TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
***:**********************************************
C1 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C2 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C3 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C4 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C5 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C6 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C7 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C8 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C9 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
C10 HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
**************************************************
C1 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C2 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C3 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C4 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C5 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C6 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C7 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C8 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C9 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
C10 PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
**************************************************
C1 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C2 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C3 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C4 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C5 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C6 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C7 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C8 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
C9 EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN
C10 EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
***:****************:*****************************
C1 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C2 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C3 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C4 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C5 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C6 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C7 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C8 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C9 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
C10 CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
**************************************************
C1 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C2 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C3 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C4 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C5 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C6 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C7 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C8 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C9 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
C10 DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
**************************************************
C1 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C2 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C3 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C4 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C5 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C6 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C7 PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C8 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C9 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
C10 PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
******************:*******************************
C1 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
C2 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
C3 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
C4 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
C5 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
C6 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
C7 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
C8 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
C9 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
C10 LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
**********************************************
PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
-full_log S [0]
-genepred_score S [0] nsd
-run_name S [0]
-mem_mode S [0] mem
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-extend_mode S [0] very_fast_triplet
-max_n_pair D [0] 10
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-compact S [0] default
-clean S [0] no
-do_self FL [0] 0
-do_normalise D [0] 1000
-template_file S [0]
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-aln S [0]
-method_limits S [0]
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-lib S [0]
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-profile2 S [0]
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-shrink_lib D [0] 0
-out_lib W_F [0] no
-out_lib_mode S [0] primary
-lib_only D [0] 0
-outseqweight W_F [0] no
-dpa FL [0] 0
-seq_source S [0] ANY
-cosmetic_penalty D [0] 0
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-outfile W_F [0] default
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-output S [1] score_ascii html score_ascii
-len D [0] 0
-infile R_F [1] /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
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-tg_mode D [0] 1
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-transform S [0]
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-dpa_min_score2 D [0]
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-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.alnins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
ins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES [PROTEIN]
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8 Length 3096 type PROTEIN Struct Unchecked
Input File /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9 Length 3096 type PROTEIN Struct Unchecked
Multi Core Mode: 72 processors:
--- Process Method/Library/Aln S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved S/opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [278960]
Library Relaxation: Multi_proc [72]
Relaxation Summary: [278960]--->[278932]
UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1
OUTPUT RESULTS
#### File Type= MSA Format= score_ascii Name= input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.score_ascii
#### File Type= MSA Format= html Name= input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.html
#### File Type= MSA Format= score_ascii Name= input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.score_ascii
# Command Line: t_coffee_ADOPS -infile /opt/ADOPS/30/CadN-PA/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln -output score_ascii -special_mode evaluate -evaluate_mode t_coffee_fast [PROGRAM:T-COFFEE]
# T-COFFEE Memory Usage: Current= 30.810 Mb, Max= 40.428 Mb
# Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
# T-COFFEE is available from http://www.tcoffee.org
# Register on: https://groups.google.com/group/tcoffee/
>C1
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C2
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C3
MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C4
MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
ARMLAGSPGEVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C5
MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKAPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND
NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA
YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C6
MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C7
MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C8
MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS
HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C9
MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C10
MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPP-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF
SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA
KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
FORMAT of file /tmp/tmp2260788611107669708aln Not Supported[FATAL:T-COFFEE]
>C1
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C2
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C3
MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C4
MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
ARMLAGSPGEVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C5
MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKAPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND
NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA
YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C6
MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C7
MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
>C8
MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS
HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C9
MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
>C10
MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPP-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF
SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA
KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln I:3097 S:99 BS:3097
# TC_SIMILARITY_MATRIX_FORMAT_01
# SEQ_INDEX C1 0
# SEQ_INDEX C2 1
# SEQ_INDEX C3 2
# SEQ_INDEX C4 3
# SEQ_INDEX C5 4
# SEQ_INDEX C6 5
# SEQ_INDEX C7 6
# SEQ_INDEX C8 7
# SEQ_INDEX C9 8
# SEQ_INDEX C10 9
# PW_SEQ_DISTANCES
BOT 0 1 99.77 C1 C2 99.77
TOP 1 0 99.77 C2 C1 99.77
BOT 0 2 99.71 C1 C3 99.71
TOP 2 0 99.71 C3 C1 99.71
BOT 0 3 98.93 C1 C4 98.93
TOP 3 0 98.93 C4 C1 98.93
BOT 0 4 98.97 C1 C5 98.97
TOP 4 0 98.97 C5 C1 98.97
BOT 0 5 99.13 C1 C6 99.13
TOP 5 0 99.13 C6 C1 99.13
BOT 0 6 98.90 C1 C7 98.90
TOP 6 0 98.90 C7 C1 98.90
BOT 0 7 99.00 C1 C8 99.00
TOP 7 0 99.00 C8 C1 99.00
BOT 0 8 98.77 C1 C9 98.77
TOP 8 0 98.77 C9 C1 98.77
BOT 0 9 98.84 C1 C10 98.84
TOP 9 0 98.84 C10 C1 98.84
BOT 1 2 99.81 C2 C3 99.81
TOP 2 1 99.81 C3 C2 99.81
BOT 1 3 99.13 C2 C4 99.13
TOP 3 1 99.13 C4 C2 99.13
BOT 1 4 99.16 C2 C5 99.16
TOP 4 1 99.16 C5 C2 99.16
BOT 1 5 99.32 C2 C6 99.32
TOP 5 1 99.32 C6 C2 99.32
BOT 1 6 99.06 C2 C7 99.06
TOP 6 1 99.06 C7 C2 99.06
BOT 1 7 99.19 C2 C8 99.19
TOP 7 1 99.19 C8 C2 99.19
BOT 1 8 98.97 C2 C9 98.97
TOP 8 1 98.97 C9 C2 98.97
BOT 1 9 98.93 C2 C10 98.93
TOP 9 1 98.93 C10 C2 98.93
BOT 2 3 99.10 C3 C4 99.10
TOP 3 2 99.10 C4 C3 99.10
BOT 2 4 99.06 C3 C5 99.06
TOP 4 2 99.06 C5 C3 99.06
BOT 2 5 99.22 C3 C6 99.22
TOP 5 2 99.22 C6 C3 99.22
BOT 2 6 99.00 C3 C7 99.00
TOP 6 2 99.00 C7 C3 99.00
BOT 2 7 99.13 C3 C8 99.13
TOP 7 2 99.13 C8 C3 99.13
BOT 2 8 98.87 C3 C9 98.87
TOP 8 2 98.87 C9 C3 98.87
BOT 2 9 98.84 C3 C10 98.84
TOP 9 2 98.84 C10 C3 98.84
BOT 3 4 99.13 C4 C5 99.13
TOP 4 3 99.13 C5 C4 99.13
BOT 3 5 99.42 C4 C6 99.42
TOP 5 3 99.42 C6 C4 99.42
BOT 3 6 99.16 C4 C7 99.16
TOP 6 3 99.16 C7 C4 99.16
BOT 3 7 98.93 C4 C8 98.93
TOP 7 3 98.93 C8 C4 98.93
BOT 3 8 99.06 C4 C9 99.06
TOP 8 3 99.06 C9 C4 99.06
BOT 3 9 98.71 C4 C10 98.71
TOP 9 3 98.71 C10 C4 98.71
BOT 4 5 99.68 C5 C6 99.68
TOP 5 4 99.68 C6 C5 99.68
BOT 4 6 98.97 C5 C7 98.97
TOP 6 4 98.97 C7 C5 98.97
BOT 4 7 98.97 C5 C8 98.97
TOP 7 4 98.97 C8 C5 98.97
BOT 4 8 99.13 C5 C9 99.13
TOP 8 4 99.13 C9 C5 99.13
BOT 4 9 98.87 C5 C10 98.87
TOP 9 4 98.87 C10 C5 98.87
BOT 5 6 99.26 C6 C7 99.26
TOP 6 5 99.26 C7 C6 99.26
BOT 5 7 99.19 C6 C8 99.19
TOP 7 5 99.19 C8 C6 99.19
BOT 5 8 99.39 C6 C9 99.39
TOP 8 5 99.39 C9 C6 99.39
BOT 5 9 99.10 C6 C10 99.10
TOP 9 5 99.10 C10 C6 99.10
BOT 6 7 98.84 C7 C8 98.84
TOP 7 6 98.84 C8 C7 98.84
BOT 6 8 98.90 C7 C9 98.90
TOP 8 6 98.90 C9 C7 98.90
BOT 6 9 98.58 C7 C10 98.58
TOP 9 6 98.58 C10 C7 98.58
BOT 7 8 98.90 C8 C9 98.90
TOP 8 7 98.90 C9 C8 98.90
BOT 7 9 98.84 C8 C10 98.84
TOP 9 7 98.84 C10 C8 98.84
BOT 8 9 99.13 C9 C10 99.13
TOP 9 8 99.13 C10 C9 99.13
AVG 0 C1 * 99.11
AVG 1 C2 * 99.26
AVG 2 C3 * 99.19
AVG 3 C4 * 99.06
AVG 4 C5 * 99.10
AVG 5 C6 * 99.30
AVG 6 C7 * 98.96
AVG 7 C8 * 99.00
AVG 8 C9 * 99.01
AVG 9 C10 * 98.87
TOT TOT * 99.09
CLUSTAL W (1.83) multiple sequence alignment
C1 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
C2 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
C3 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAG
C4 ATGGCGGCACGACGTTGCCTGAATGAGCTCAGGCAACGGTATATAACCAA
C5 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAAGCAA
C6 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAACCAA
C7 ATGGCGGCACGACGTTGCCTGGATTTGCTCAGGCAACGTTATATAACCAA
C8 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAC
C9 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
C10 ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
*********************.** :************ ******* **
C1 CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTTCCATTTA
C2 CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTCCCATTTA
C3 CCGATTTAATATATGCACCTGCGCGATATTTTTGATATCCCTCCCCTTTA
C4 TCGACTCAACATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTAA
C5 CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTGA
C6 CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTACCGTTAA
C7 CCGATTTAATATATACACCTGCGCGATATATTTGATAGCCCTCCCGTTAG
C8 AAAACTGAATCTCTACACCTGCGCGATACTTTTGATATGCCTCCCGTTCA
C9 CCGATTAAATCTATACACCTGCGCGATATTTTTGATATCTCTACCGTTAA
C10 TCGATTAAATATGTACTCCTGCGCGATATTTTTAATATCACTTCCGTTCA
..* * ** .* *.*:*********** : **.*** ** ** ** .
C1 TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTTTCGGCGGAAAATGCG
C2 TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG
C3 TATTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG
C4 TTTTGGCCACCGAAGAGACCACATTTGCTGGCCTCTCGGCGGAAAATGCG
C5 TTTTGGCCATCGAGGAGACCACATTTGCTGGCCTGTCTGCGGAGAATGCG
C6 TTTTGGCCATCGAGGAGACCACATTTGCCGGTTTGTCTGCGGAAAATGCG
C7 TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTATCGGCGGAAAATGCA
C8 TTTTGGCCATAGAGGAGACCACATTCGCTGGTTTGTCGGCGGAGAATGCG
C9 TTTTGGCCATAGAGGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG
C10 TTTTGGCCATAGAAGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG
*:******* .**.*********** ** ** * ** *****.*****.
C1 GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTGGAAAAGTCCTCGTTGTC
C2 GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTCGAAAAGTCCTCGTCATT
C3 GCTCGCATGTTGGCCGGCAGTCCCGGGGATGTGGAGAAGTCCTCGTCGTC
C4 GCTCGCATGCTAGCCGGCAGTCCAGGCGAAGTGGAGAAGTCGCCGTCG--
C5 GCTCGCATGCTGGCCGGCAGTCCTGGCGACGTGGAAAAGGCCCCCTCG--
C6 GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCCCCATCG--
C7 GCCCGCATGTTGGCTGGCAGTCCAGGGGATGTGGAAAAGTCACCCTCGTC
C8 GCTCGCATGTTGGCTGGCAGTCCTGGCGATGTGGAAAAATCGCCATCG--
C9 GCTCGCATGTTGGCCGGCAGTCCTGGCGATGTGGAAAAGTCACCGTCG--
C10 GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCTCCGCCG--
** ****** *.** ******** ** ** ** **.**. * * .
C1 GCATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
C2 GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
C3 GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
C4 -CATCACAGCGAAATGTCCTTGGTGCTGCCCCACGACACCTATCCTGGAT
C5 -CATCACAGCGAAATGTCCCTGGTCCTGCCACACGACACCTACCCTGGAT
C6 -CATCACAGCGAAATGTCCTTGGTCCTGCCACACGACACCTATCCTGGCT
C7 ACATCACAGTGAAATGTCCCTGGTGCTGCCACACGATACCTATCCTGGAT
C8 -CATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCCGGGT
C9 -CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCAGGAT
C10 -CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCGGGGT
******** ********* **** *****.***** ***** ** ** *
C1 TCAGTATCAAAAAGTTCAAAACCCATCCTGTAAAGATAAACGGTAGCTCC
C2 TCAGCATCAAAAAGTTCAAAACCCATCCTGTGAAAATAAACGGTAGCTCG
C3 TTAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAACGGTAGCTCC
C4 TCAGCATCAAGAAGTTCAAAACCCATCCCGTCAGGATAAACGGCAGCTCG
C5 TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGCAGCTCC
C6 TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGTAGCTCG
C7 TTAGCATCAAGAAGTTCAAAACCCATCCCGCTAAGATAAATGGTAGCTCG
C8 TCAGCATCAAGAAGTTCAAAACCCATCCTCTCAAGATAAATGGCAGCTCG
C9 TTAGCATCAAGAAGTTCAAGACCCATCCCGTTAAGATAAATGGTAGCTCG
C10 TTAGCATCAAGAAGTTCAAGACCCATCCCGTCAAGATAAATGGTAGCTCG
* ** *****.********.******** *..***** ** *****
C1 CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA
C2 CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA
C3 CACTCTGGCGCAGCTGCCTATCACATGCTGGACACTGACTACTCCAAGTA
C4 CATGCCGGCGGTGCCGCCTATCACATGCTCGATAGCGACTACTCCAAGTA
C5 CATGCCGGCGGAGCCGCCTACCACATGCTGGACAGTGACTACTCAAAGTA
C6 CATGCCGGCGGTGCTGCCTATCACATGTTGGACAGTGATTACTCCAAGTA
C7 CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCAAAGTA
C8 CATTCCGGCGCAGCTGCCTACCACATGTTGGATAGCGACTACTCCAAGTA
C9 CATGCCGGCGGAGCTGCCTATCACATGTTGAATAGTGATTACTCCAAGTA
C10 CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCCAAGTA
** * ** * :** ***** ****** * .* * ** *****.*****
C1 CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC
C2 CTTCACCGTACTGGAAGATGGCGTGGTGATGACCACGGCGGATATTTCCC
C3 CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC
C4 CTTCACGGTACTGGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC
C5 CTTTACGGTGCTCGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC
C6 CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCGC
C7 CTTTACCGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCTC
C8 CTTCACGGTACTTGAAGACGGTGTGGTGATGACCACGGCGGACATTTCTC
C9 CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATATCCC
C10 CTTCACGGTGCTGGAAGACGGTGTGGTGATGACCACGGCGGATATATCCC
*** ** **.** **.** ** **************.***** **:** *
C1 CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT
C2 CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAGCAAACGCCCAAT
C3 CCCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT
C4 CGCTCGTCAATCGTCCAGTTCAACTGGTGGTCGTTGAACAGACCCCCAAT
C5 CGCTCGTCAACCGACCGGTTCAGTTGGTGGTCGTGGAGCAGACCCCCAAT
C6 CGCTCGTCAATCGTCCAGTTCAGTTGGTGGTTGTCGAACAAACCCCCAAT
C7 CGCTGGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACTCCCAAT
C8 CGCTGGTAAATCGTCCAGTTCAACTGGTGGTGGTTGAACAAACGCCCAAT
C9 CGCTTGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACGCCCAAT
C10 CGCTGGTCAATCGTCCAGTTCAATTGGTAGTGGTTGAACAAACGCCCAAT
* ** **.** **:**.*****. ****.** ** **.**.** ******
C1 GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT
C2 GCCACAAATACGCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT
C3 GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAACGATAT
C4 GTCACCAACACCCACAACCTCCAGTTGTTCGTGATGCATCGCAACGATAT
C5 GTCACCAACACCCACAACCTGCAGTTGTTCGTGATGCATCGCAACGACAT
C6 GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT
C7 GTCACCAATACCCACAATCTTCAGTTATTCGTAATGCATCGCAATGACAT
C8 GTCACCAACACCCACAATCTTCAGTTGTTCGTGATGCACCGCAACGATAT
C9 GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT
C10 GTCACCAATACCCACAATCTCCAGTTGTTTGTGATGCATCGCAATGATAT
* ***.** ** ***** ** *** *.** **.***** ***** ** **
C1 GCTGCGATTTTCTGGATCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
C2 GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
C3 GCTGCGATTTTCGGGCTCCCTACTCGATGCCAGTGGTGAAGTCAGGGAGA
C4 GCTGCGTTTTTCCGGGTCGCTACTCGATGCCAGCGGTGAGGTGAGGGAGA
C5 GCTGCGATTCTCGGGATCCCTGCTCGACGCCAGTGGCGAGGTGAGGGAGA
C6 GCTGCGATTCTCAGGATCCCTACTCGATGCCAGTGGTGAGGTGAGGGAGA
C7 GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTAAGGGAGA
C8 GCTGAGGTTCTCGGGTTCACTACTTGATGCCAGTGGTGAAGTAAGGGAAA
C9 GCTGCGGTTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
C10 GCTGCGGTTTTCGGGTTCCCTACTCGACGCCAGTGGTGAAGTCAAAGAGA
****.* ** ** ** ** **.** ** ***** ** **.** *..**.*
C1 ATCAACCGGCGGGTACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
C2 ATCAACCGGCGGGTACCAGGGTGAGGGGAGTGCCCCTGATGCAGGCATTC
C3 ATCAACCGGCGGGCACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
C4 ACCAGCCGGCGGGCACCCGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
C5 ACCAGCCAGCGGGCACCAGAGTCAGAGGAGTGCCCCTAATGCAGGCCTTC
C6 ATCAACCGGCGGGCACCAGGGTAAGAGGAGTACCCCTAATGCAGGCCTTC
C7 ATCAACCGGCGGGTACCCGGGTAAGAGGAGTGCCCCTAATGCAGGCCTTC
C8 ACCAGCCAGCGGGAACCAGAGTGAGAGGAGTTCCCCTAATGCAGGCCTTC
C9 ATCAACCGGCAGGAACCAGGGTGCGTGGAGTACCCCTGATGCAGGCCTTC
C10 ATCAGCCAGCGGGTACCAGAGTGAGAGGAGTGCCCCTAATGCAGGCCTTC
* **.**.**.** ***.*.** .* ***** *****.********.***
C1 AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAAAAGGTTCGGTA
C2 AGCGGTTCCATCCTGGACGAGGAACTGGCCACACCCAAGAAGGTTCGGTA
C3 AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAGAAGGTTCGGTA
C4 AGTGGTTCCATCCTGGACGAAGAGCTGGCCACCCCGAAGAAGGTGCGCTA
C5 AGTGGTTCCATCCTAGACGAAGAGCTGGCCACGCCCAAGAAGGTCAGGTA
C6 AGTGGCTCCATCCTAGATGAAGAACTGGCCACACCCAAGAAGGTTAGGTA
C7 AGTGGTTCCATCCTGGATGAAGAACTGGCCACACCCAAGAAAGTTAGGTA
C8 AGTGGATCCATCCTGGAAGAGGAGCTCGCCACGCCCAAGAAGGTCAGGTA
C9 AGCGGATCCATCCTGGACGAAGAACTGGCCACGCCCAAGAAAGTGAGGTA
C10 AGCGGATCCATCCTCGACGAAGAGCTCGCCAAGCCAAAGAAAGTGAGGTA
** ** ******** ** **.**.** ****. ** **.**.** .* **
C1 CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGTA
C2 CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGAA
C3 CACCATTATCGACGGGAACGAGGATGATGCATTCGCTCTGCAGGAACGTA
C4 CACCATCATCGATGGCAACGTGGACGACGCGTTTGCCCTGCAGGAGCGGA
C5 CACCATCATCGATGGCAACGTGGACGACGCCTTCGCCCTGCAGGAACGCA
C6 CACCATCATCGATGGCAACGTGGACGATGCCTTTGCCCTGCAGGAACGCA
C7 CACCATTATTGACGGCAACGTAGATGATGCATTCGCTCTGCAGGAACGCA
C8 CACCATCATCGATGGCAACGTTGATGATGCCTTTGCCCTCCAGGAACGCA
C9 CACCATCATCGATGGCAACGTGGATGATGCATTTGCTCTGCAGGAACGCA
C10 CACCATAATCGACGGCAATGTGGATGACGCATTTGCCCTGCAGGAACGCA
****** ** ** ** ** *: ** ** ** ** ** ** *****.** *
C1 AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAATGGC
C2 AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAACGGC
C3 AGGCCAACAAGAACATACAAATAAGTGCCAAGTCCTTGGTAATTAATGGC
C4 AGGCCAATAGGAATGTTCAGATCAGTGCCAAGTCCCTGGTGATAAATGGA
C5 AGGCGAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATAAATGGC
C6 AGGCCAACAAGAATATTCAGATAAGTGCCAAGTCCTTGGTGATAAATGGT
C7 AGTCCAATAAAAATATTCAATTAAGTGCAAAGTCCTTGGTAATTAATGGT
C8 AGGCCAATAAGAACATTCAAATAAGTGCCAAGTCATTGGTAATTAATGGT
C9 AGGCCAATAAAAACATCCAAATCAGCGCCAAATCCTTGGTAATTAATGGC
C10 AGGCCAATAAAAATATCCAAATAAGCGCCAAATCGTTGGTTATTAGTGGC
** * ** *..** .* **.:*.** **.**.** **** **:*. **
C1 GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCGCTGGATCGAGA
C2 GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTCTGGATCGAGA
C3 GATGACGAATCCGGCGTTTGGTTGGTCACCAATCGTCCTCTGGATCGAGA
C4 GATGACGAGTCCGGCGTTTGGTTGGTCACCAATCGTCCGTTGGATCGGGA
C5 GACGACGAGTCCGGCGTCTGGTTGGTCACCAATCGTCCTTTGGATCGCGA
C6 GACGACGAGTCTGGCGTTTGGTTGGTCACCAATCGTCCTTTGGATCGAGA
C7 GATGATGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGAGA
C8 GATGATGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGCGA
C9 GATGACGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCCTTGGACCGTGA
C10 GATGACGAGTCTGGTGTTTGGCTGGTCACCAATCGTCCACTGGATCGCGA
** ** **.** ** ** *** **************** **** ** **
C1 GGAGAGGGCTCACTATGACCTGTCCGTGGAAGCATCAGATGTCGATGGTT
C2 GGAGCGGGCTCACTATGATCTCTCCGTAGAAGCATCAGATGTCGATGGTT
C3 GGAACGGGCGCACTATGATCTCTCCGTGGAAGCTTCAGATGTCGATGGCT
C4 GGAGCGCGCCCACTATGATCTCTCCGTGGAAGCCTCGGATGTAGATGGTT
C5 GGAGCGCGCCCACTACGATCTCTCCGTGGAGGCATCGGATGTCGATGGCC
C6 GGAACGTGCCCACTATGATCTCTCCGTAGAAGCTTCAGATGTCGATGGCT
C7 GGAAAGGGCTCACTATGATCTCTCCGTGGAAGCTTCAGATGTTGATGGCT
C8 GGAACGAGCTCACTATGATCTCTCCGTGGAAGCCTCCGATGTGGATGGTT
C9 AGAACGGGCTCACTACGATCTCTCCGTGGAAGCATCCGATGTAGATGGCT
C10 GGAACGGGCTCACTACGATCTCTCTGTGGAAGCATCCGATGTGGATGGCT
.**..* ** ***** ** ** ** **.**.** ** ***** *****
C1 TAGACAGGACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC
C2 TGGACAAAACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC
C3 TGGACAAGACAGTTTCCAAAATACAAATCTCCGTGCTGGATGAGAACGAC
C4 TGGATAAGACAGTGTCCAAGATACAGATCTCTGTGCTGGATGAAAACGAC
C5 TGGACAAAACCGTTTCCAAAATACAAATCACTATTTTGGACGAGAACGAC
C6 TGGATAAGACGGTTTCCAAAATACAAATTACTGTATTGGATGAGAACGAT
C7 TGGATAAGACCATATCCAAAATACAAATCTCAGTGCTAGATGAAAACGAT
C8 TGGACAAGACAGTTTCCAAAATCCAGATCACCGTTCTCGATGAAAACGAC
C9 TGGATAAGACAGTTTCCAAAATACAAATCACCGTGCTCGATGAAAACGAC
C10 TGGACAAGACGGTGTCCAAAATCCAGATCACCGTACTCGATGAAAACGAT
*.** *..** .* *****.**.**.** :* .* * ** **.*****
C1 AATAGACCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGACA
C2 AATAGGCCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGCCA
C3 AATAGGCCGATTTTCAAGTCGCTGGACTACAAATTCGCCATTGCTGGTCA
C4 AACAGGCCGATCTTCAAGTCGTTGGACTACAAGTTCGCCATTGCCGGTCA
C5 AACCGACCCATCTTTAAGTCCATGGACTATAAGTTCGCCATTGCCGGTCA
C6 AATAGACCGATCTTCAAGTCCCTAGACTATAAGTTTGCCATTGCCGGCCA
C7 AATAGACCGATTTTCAAGTCATTGGATTATAAATTCGCCATTGCTGGTCA
C8 AACAGACCGATTTTCAAGTCCCTGGATTACAAATTCGCCATCGCTGGTCA
C9 AATAGACCGATATTTAAGTCCCTGGATTATAAGTTCGCCATTGCCGGTCA
C10 AATAGACCGATTTTTAAGGCCCTGGACTATAAGTTCGCCATTGCCGGTCA
** .*.** ** ** *** * *.** ** **.** ***** ** ** **
C1 GAAATCTGCAAGTATGGAAAGCAACAGTAGTGTGACATATCAGCGATTTG
C2 GAAATCTGCAAATATGGAGAGCAACAGTAGTGTGACGTATCAGCGATTTG
C3 GAAATCTGCAAATATGGAGAGCAATAGTAGTGTGACATATCAGCGATTTG
C4 AAAATCAGTCAATATGGAAAGCAACAGTAGTGTGACCTACCAGCGATTCG
C5 AAAGTCTGCAAATATGGAGAGCAACAGTAGCGTGACTTACAAGCGATTCG
C6 GAAATCTGCAAATATGGAGAGCAATAGTAGCGTGACTTATCGGCGATTTG
C7 AAAGTCTGCTAATATGGAGAGCAATAGTAGTGTGACTTATCAGCGATTTG
C8 GAAGTCTGCGAATATCGAGAGCAATAGTAGTGTTACCTATCAGCGATTTG
C9 AAAATCGGTGAATATGGAGAGCAACAGTAGTGTGACCTATCAGCGATTTG
C10 AAAATCCGCAAGTATGGAGAGCAATAGTAGTGTTACTTATCGGCGCTTTG
.**.** * *.*** **.***** ***** ** ** ** ..***.** *
C1 CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC
C2 CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC
C3 CCATCATGGGAAAAGTTGAGGCCACCGATGCGGATGGTGACAAGATTGCC
C4 CGATCATGGGAAAGGTCGAGGCCACCGATGCTGATGGCGATAAGATTGCC
C5 CGATCATGGGCAAAGTGGAGGCCACCGATGCGGATGGCGATAAGATTGCC
C6 CAATTATGGGAAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATTGCC
C7 CGATCATGGGCAAAGTTGAAGCCACCGATGCTGATGGTGATAAAATTGCC
C8 CGATCATGGGAAAAGTGGAGGCCACCGATGCTGATGGGGATAAAATCGCC
C9 CGATCATGGGAAAAGTAGAGGCCACCGATGCTGATGGGGATAAAATTGCC
C10 CGATCATGGGTAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATAGCC
* ** ***** **.** **.*********** ***** ** **.** ***
C1 TATCGGCTAAAGTCGCCCAGTAATGTTGTCATTATTGTACCCCAAACTGG
C2 TATCGGCTGAAGTCGCCCAGTAACGTTGTCATTATTGTACCCCAAACTGG
C3 TATCGGCTGAAGTCGCCCAGTAATGTTGTTATCATTGTACCTCAAACTGG
C4 TATCGGCTCAAGTCGCCCAGCAATGTGGTGATCATTGTCCCCCAAACCGG
C5 TATCGCCTCAAGGCGCCCAGCAACGTTGTGATCATTGTTCCCCAAACTGG
C6 TATCGCCTCAAGTCGCCCAGCAATGTGGTGATCATAGTTCCTCAAACTGG
C7 TACAGGCTGAAGTCACCAAGCAATGTTGTAATTATCGTACCACAAACTGG
C8 TATCGCTTGAAGTCCCCCAGCAATGTTGTGATTATTGTCCCCCAAACTGG
C9 TATCGCCTCAAGTCGCCCAGCAATGTTGTGATTATAGTCCCTCAAACTGG
C10 TATCGCCTCAAGTCCCCCAGCAATGTTGTGATCATAGTCCCTCAAACTGG
** .* * *** * **.** ** ** ** ** ** ** ** ***** **
C1 CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG
C2 CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG
C3 CGAAATAATGCTGGCTGGAGAACCCACTTCAAATGAGCTTCTTATCGAGG
C4 CGAAATAATGCTGGCCGGTGAGCCCACGTCAAATGAACTGCTTATCGAGG
C5 CGAAATTATGCTGGCCGGCGAGCCCACCTCTAACGAACTTCTTATCGAGG
C6 CGAAATAATGCTGGCCGGTGAGCCCACTTCAAACGAACTTCTTATCGAGG
C7 TGAAATAATGCTGGCAGGTGAACCCACTTCAAACGAACTTCTTATCGAGG
C8 GGAAATAATGCTGGCCGGTGAACCCACTTCGAATGAACTTCTTATCGAGG
C9 CGAAATAATGCTGGCGGGTGAGCCCACCTCAAATGAGCTTCTCATCGAGG
C10 CGAAATAATGCTGGCCGGCGAGCCCACCGCCAATGAGCTTCTTATCGAGG
*****:******** ** **.***** * ** **.** ** *******
C1 TGATAGCCCACGATCTAAGGTACCCGAGTTTGGTGAGCGCAAAACCCGCG
C2 TGATAGCCCACGATTTAAGGTACCCGAGTTTGCTGAGCGCAAAACCAGCG
C3 TGATAGCCCACGATCTGAGGTATCCCAGTTTGCTGAGCGCAAAACCCGCA
C4 TTATAGCCCACGATCTGAGATATCCCAGCCTGTTGAGTGCGAAGCCCGCA
C5 TGACAGCCCACGACTTGAGGTATCCCAGTTTATTGAGTGCGAAGCCCGCC
C6 TGATAGCCCACGATCTGAGGTATCCCAGTTTATTGAGTGCCAAGCCCGCC
C7 TGATAGCCCATGACTTGAGGTATCCCAGTCTATTGAGTGCTAAACCAGCG
C8 TGATAGCTCATGACTTAAGGTATCCCAGTCTATTGAGCGCCAAGCCGGCA
C9 TGTTGGCTCATGATTTGAGGTATCCCAGTCTACTGAGTGCCAAGCCCGCA
C10 TGATGGCGCATGATTTGCGATACCCCAGCCTGTTAAGTGCCCAGCCCGCA
* : .** ** ** *..*.** ** ** *. *.** ** .*.** **
C1 AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCATTTATAATGCA
C2 AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA
C3 AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA
C4 AAGGTTCTGTTAGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA
C5 AAGGTCCTCTTGGAATTTCTGGCTGCCGAGCCAGTTTCCTTCATAATGCA
C6 AAGGTCCTCTTGGAGTTTCTGGCTGCCGAACCGGTTTCCTTTATAATGCA
C7 AAGGTTTTGTTGGAATTCTTGGCTGCTGAACCAGTTTCGTTTATCATGCA
C8 AAGGTTTTATTGGAGTTTTTAGCTGCCGAACCAGTATCGTTTATAATGCA
C9 AAGGTCCTGCTGGAATTTTTGGCTGCTGAACCAGTTTCGTTTATTATGCA
C10 AAGGTTCTGTTGGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA
***** * *.**.** *.** ** **.**.**:** ** ** *****
C1 ACATCTGGAACACGATGACATCAACAATCACTCACATCATCGAGAGAAAA
C2 ACACCTGGAACACGATGAGATCAACAATCACTCACATCACCGAGAGAAAA
C3 ACACCTGGAGCACGATGAGGTCAACAATCACTCACATCACCGGGAGAAAA
C4 ACACCTGGAACACGATGAGGTGAATAATCACTCACATCACAGGGAGAAGA
C5 GCATCTGGAGCACGATGAGGTGAACAATCACTCACATCACCGGGAGAAGA
C6 ACATCTGGAACACGATGAGGTCAATAATCACTCACATCACCGAGAGAAAA
C7 ACATCTGGAACATGATGAGATAAATAATCACTCGCATCACCGAGAGAAAA
C8 ACACTTGGAACACGATGAGGTGAACAATCACTCACATCACCGAGAGAAAA
C9 ACATCTGGAACACGATGAGGTGAATAATCACTCACATCACCGCGAGAAAA
C10 ACACCTGGAGCACGACGAGGTCAATAGTCACTCCCATCATCGCGAGAAAA
.** ****.** ** ** .* ** *.****** ***** .* *****.*
C1 GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
C2 GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACGGAA
C3 GACGAGTTACACGAGCGGTGCGACCCACCAAGCGAATTGAGTTCACCGAA
C4 GGAGAGTTACCCGAGCTGTGCGACCCACCAAGCGGATTGAATTCACCGAG
C5 GACGAGTTACCCGAGCAGTGCGACCCACCAAGCGGATTGAGTTCACCGAG
C6 GACGAGTTACCCGAGCTGTGCGACCCACCAAGAGGATCGAATTCACCGAG
C7 GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAATTCACTGAA
C8 GAAGGGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAATTCACCGAA
C9 GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
C10 GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
*..* ** **.***** ** ************.*.** **.***** **.
C1 GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTGGAAAAGGAGAC
C2 GCTGATGGAGATACTGAGGGAAAATCGGTGTTCCAGTTGGAGAAGGAAAC
C3 GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTAGAAAAGGAAAC
C4 GCTGATGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAGAAGGAAAC
C5 GCAGACGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC
C6 GCTGATGGAGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC
C7 GCCGATGGCGATACCGAGGGAAAGTCGGTGTTCCAATTGGAAAAGGAAAC
C8 GCTGACGGCGATACTGAGGGAAAATCGGTGTTCCAATTGGAAAAGGAAAC
C9 GCTGATGGAGATACTGAGGGAAAATCGGTATTTCAGTTGGAAAAGGAAAC
C10 GCCGATGGAGACACTGAGGGAAAATCGGTGTTTCAATTGGAAAAGGAAAC
** ** **.** ** ********.*****.** **.**.**.*****.**
C1 CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
C2 CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
C3 CGATAAGGAAACATTCAAGATCCGCGATGATAATCCCTGGGTGACGGTGG
C4 CGATAAGGAGACCTTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
C5 CGACAAGGAGACGTTCAAGATCAGGGACGATAATCCCTGGGTGACGGTGG
C6 CGATAAGGAAACGTTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
C7 CGATAAGGAAACATTTAAGATCCGAGACGATAACCCCTGGGTGACGGTGG
C8 CGATAAGGAGACCTTCAAGATCCGGGATGACAATCCCTGGGTGACGGTGG
C9 CGACAAGGAAACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
C10 CGACAAGGAGACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
*** *****.** ** ******.* ** ** ** ****************
C1 AAACAAACGGAGCTGTGCGAGTTAAAAAGAAGTGGGACTACGAGGAGTTG
C2 AAACAAATGGAGCTGTTCGAGTGAAGAAGAAGTGGGACTACGAGGAGTTG
C3 AAACAAACGGTGCAGTGCGAGTTAAGAAGAAGTGGGACTACGAGGAACTG
C4 AAACAAATGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG
C5 AAACAAACGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
C6 AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG
C7 AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
C8 AAACCAATGGAGCTGTGCGCGTCAAGAAGAAGTGGGACTACGAGGAGTTG
C9 AAACAAATGGCGCGGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
C10 AAACAAATGGAGCTGTGCGAGTCAAAAAGAAGTGGGACTACGAGGAGTTG
****.** ** ** ** **.** **.********************. **
C1 GGACCAGAGAAGACTATCGATTTTTGGGTCATCATCACAAATATGGGACA
C2 GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAATATGGGACA
C3 GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAACATGGGACA
C4 GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACTAATATGGGACA
C5 GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACCAACATGGGACA
C6 GGACCCGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
C7 GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACAAACATGGGACA
C8 GGTCCAGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
C9 GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGGCA
C10 GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
**:** ******** ******** ******** ***** ** *****.**
C1 CAATGCTGGCATTAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
C2 CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
C3 CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
C4 CAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
C5 CAACGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
C6 TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
C7 TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATTCTGGTGA
C8 TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTAATAATCCTGGTGA
C9 TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
C10 CAACGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTTGTGA
** ******** ***** *****************.***** ** ****
C1 AGGATGTGAACGACGAGCCCCCCTATTTCATCAACCGGCCACTGCCCATG
C2 AGGATGTGAACGACGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG
C3 AGGATGTGAACGATGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG
C4 AGGATGTGAACGACGAGCCACCGTACTTCATCAACCGCCCACTGCCCATG
C5 AGGATGTGAACGATGAGCCGCCGTACTTCATCAACCGCCCGCTGCCCATG
C6 AGGATGTGAACGATGAGCCCCCGTATTTCATCAACCGCCCCCTGCCCATG
C7 AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCACTGCCCATG
C8 AGGACGTGAACGACGAGCCGCCGTACTTCATCAACCGTCCCCTGCCCATG
C9 AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCGCTGCCAATG
C10 AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGGCCACTGCCCATG
**** ******** ***** ** ** *********** ** *****.***
C1 CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT
C2 CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT
C3 CAGGCGGTGGTTCAGCTGAATGCACCACCCAATACTCCAGTGTTTACGCT
C4 CAGGCGGTGGTTCAGCTAAATGCACCACCCAACACGCCGGTTTTCACGCT
C5 CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT
C6 CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT
C7 CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTTTTCACACT
C8 CAGGCGGTGGTGCAACTGAATGCACCGCCCAACACTCCGGTTTTCACCCT
C9 CAGGCGGTGGTCCAGCTAAATGCACCACCTAATACTCCTGTTTTTACGCT
C10 CAGGCGGTGGTTCAGCTAAATGCGCCACCCAACACACCGGTTTTCACGCT
*********** **.**.*****.**.** ** ** ** ** ** ** **
C1 CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
C2 CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
C3 TCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
C4 CCAGGCCCGAGATCCCGATACCGATCATAATATCCACTACTTCATCGTTC
C5 CCAGGCCCGAGATCCCGATACCGACCACAATATCCACTACTTCATCGTGC
C6 CCAGGCCCGAGATCCCGATACCGATCATAATATCCATTATTTCATCGTTC
C7 ACAAGCTCGGGATCCCGATACGGATCATAATATTCATTATTTCATCGTTC
C8 CCAAGCCAGAGATCCCGACACGGATCACAATATCCATTACTTCATCGTTC
C9 CCAAGCCCGAGATCCCGATACCGATCACAATATCCATTACTTCATCGTTC
C10 CCAGGCCCGAGATCCCGATACAGATCATAATATCCATTACTTTATCGTTC
**.** .*.******** ** ** ** ***** ** ** ** ***** *
C1 GCGATCGGACTGGTGGACGTTTCGAGGTGGACGAGCGTTCTGGTGTCGTG
C2 GCGATCGGACCGGCGGACGTTTCGAAGTGGACGAGCGTTCTGGAGTTGTG
C3 GCGATCGGACCGGCGGACGTTTTGAGGTGGACGAGCGTTCTGGTGTTGTG
C4 GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCTGGAGTGGTG
C5 GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCCGGAGTGGTG
C6 GCGATCGAACTGGCGGACGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG
C7 GTGATCGAACTGGTGGGCGTTTCGAGGTGGACGAACGATCTGGAGTAGTC
C8 GCGATCGAACTGGTGGTCGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG
C9 GAGATCGAACTGGCGGACGTTTCGAGGTGGATGAGCGATCTGGAGTGGTG
C10 GCGATCGAACTGGCGGTCGTTTTGAGGTGGATGAGCGATCTGGCGTGGTG
* *****.** ** ** ** ** **.***** **.**:** ** ** **
C1 CGGACCAGGGGCACGGATCTCTTCCAACTGGACATGGAGTATGTGCTGTA
C2 CGGACACGGGGCACGGATCTCTTCCAACTGGATATGGAGTATGTGCTGTA
C3 CGGACAAGGGGCACGGATCTCTTCCAACTGGACATGGAGTACGTGCTGTA
C4 AGGACCAGGGGCACGGATCTCTTTCAGCTAGATATGGAATATGTGCTGTA
C5 AGGACCAGGGGCACGGACCTGTTTCAACTGGATATGGAGTATGTGCTGTA
C6 AGGACCAGGGGCACGGACCTCTTCCAGCTGGATATGGAATATGTCCTGTA
C7 AGGACTAGGGGTACGGATCTCTTTCAACTGGATATGGAATACGTACTGTA
C8 CGAACCAGGGGAACGGATCTCTTCCAGCTCGACATGGAGTACGTCCTGTA
C9 CGAACTAGGGGCACGGACCTCTTTCAACTGGATATGGAGTATGTCCTGTA
C10 AGGACCAGGGGCACCGATCTCTTCCAGCTGGACATGGAGTATGTGCTGTA
.*.** .**** ** ** ** ** **.** ** *****.** ** *****
C1 TGTGAAGGCCGAGGATCAAAACGGAAAGGTCGATGATCGCAGGTTTCAGA
C2 CGTGAAGGCCGAGGATCAGAACGGAAAGGTCGATGATCGCAGGTTCCAGA
C3 CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA
C4 CGTGAAGGCCGAGGATCAGAACGGAAAGGTGGATGATCGCAGGTTCCAGA
C5 CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGACGATCGCAGGTTCCAGA
C6 CGTAAAGGCAGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA
C7 CGTAAAGGCTGAGGATCAAAATGGAAAGGTCGATGATCGCAGATTCCAGA
C8 CGTGAAGGCGGAGGATCAGAACGGAAAGGTCGACGACCGCAGGTTCCAAA
C9 TGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGATTCCAGA
C10 TGTGAAGGCCGAGGACCAGAACGGAAAGGTCGATGATCGCAGATTCCAGA
**.***** ***** **.** ******** ** ** *****.** **.*
C1 GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCGCAG
C2 GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCCCAG
C3 GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCCCCCCAG
C4 GCACTCCAGAGGAGCGGCTCTCGATTGTGGGTGGCAAACGAGCCCCTCAA
C5 GCACCCCCGAGGAGCGCCTCTCGATTGTGGGTGGCAAGCGCGCTCCCCAG
C6 GCACCCCCGAGGAGCGACTCTCGATTGTGGGTGGCAAACGAGCTCCCCAG
C7 GCACTCCCGAGGAGCGACTTTCGATTGTGGGTGGCAAACGCGCCCCTCAA
C8 GCACTCCGGAGGAGCGACTGTCAATCGTGGGAGGCAAACGAGCCCCGCAG
C9 GTACTCCGGAGGAGCGACTGTCTATTGTTGGTGGCAAACGAGCTCCTCAG
C10 GCACCCCCGAGGAGCGACTTTCGATCGTGGGTGGCAAGAGAGCTCCTCAG
* ** ** ******** ** ** ** ** ** *****..*.** ** **.
C1 TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAACCAGAAAAAGGA
C2 TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAATCAGAAAAAGGA
C3 TTCTACATGCCCAGCTATGAAGCCGAGATCCCAGAGAACCAGAAAAAGGA
C4 TTCTACATGCCCAGCTATGAAGCCGAGATACCAGAGAACCAGAAAAAGGA
C5 TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAACCAGAAAAAGGA
C6 TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAATCAGAAAAAGGA
C7 TTCTATATGCCCAGCTATGAAGCCGAGATCCCAGAAAACCAGAAAAAGGA
C8 TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAGAAGGA
C9 TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA
C10 TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA
***** **************.******** **.**.** *****.*****
C1 TTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
C2 CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
C3 CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
C4 CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGTGAGATTC
C5 CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAGATTC
C6 CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCGGACCGCGAGATTC
C7 CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATAC
C8 CTCAGACATCATTTCGATTAAGGCCAAGTCCTTCGCAGACCGCGAAATCC
C9 CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC
C10 CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC
**.************************** *****.***** **.** *
C1 GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTCAACATCGGA
C2 GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA
C3 GCTATACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTCAACATCGGA
C4 GGTACACTCTGAAGGCCCAGGGCCAGGGAGCCGGCACTTTCAACATCGGA
C5 GCTATACCTTGAAGGCCCAGGGCCAGGGCGCCGGCACCTTCAACATCGGA
C6 GCTATACCCTGAAGGCCCAGGGCCAGGGGGCCGGCACCTTTAACATCGGA
C7 GTTATACTTTAAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAACATTGGA
C8 GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA
C9 GCTACACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAATATCGGA
C10 GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAATATCGGA
* ** ** *.**************.** ******** ** ** ** ***
C1 CCCACGTCGGGTATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C2 CCCACTTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C3 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C4 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C5 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C6 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGCTGGACTTTGAGGATCT
C7 CCCACGTCGGGCATTGTCAAGTTGGCCAAAGAGTTGGACTTTGAGGATCT
C8 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C9 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
C10 CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGATTTCGAGGATCT
***** ***** *****************.*** **** ** ********
C1 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG
C2 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG
C3 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
C4 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
C5 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCGG
C6 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
C7 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCAACGGAGGACTCTG
C8 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCAG
C9 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
C10 GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
************************************.** ***** ** *
C1 GAGGATTTTCAACCTCCGTTGATCTCACCATTCGCGTTACGGATGTGAAT
C2 GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC
C3 GAGGATTTTCCACTTCGGTCGATCTCACCATTCGCGTTACGGATGTGAAC
C4 GAGGATTTTCCACCTCCGTCGATCTCACAATACGCGTTACGGACGTGAAC
C5 GAGGATTCTCCACCTCCGTTGATCTCACCATTCGCGTTACGGACGTAAAC
C6 GGGGCTTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC
C7 GAGGATTTTCCACCTCCGTCGATCTCACTATTCGCGTTACGGATGTGAAT
C8 GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACTGATGTGAAT
C9 GGGGATTTTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC
C10 GAGGATTCTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC
*.**.** **.** ** ** ******** **:*****:** ** **.**
C1 GATAACGCGCCGAAGTTCGAGCTGCCCGACTACCAGGCGCACAATGTGGA
C2 GATAATGCGCCGAAGTTCGAGCTGCCGGACTACCAAGCCCACAATGTGGA
C3 GATAATGCGCCGAAGTTCGAGCTGCCGGACTATCAAGCTCACAATGTGGA
C4 GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTGGA
C5 GACAATGCCCCGAAATTCGAGCTGCCCGATTACCAGGCGCACAATGTGGA
C6 GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTTGA
C7 GACAACGCTCCGAAATTCGAGCTGCCTGATTACCAAGCTCACAACGTGGA
C8 GACAATGCACCGAAATTCGAGCTGCCCGATTACCAAGCTCATAATGTGGA
C9 GATAATGCTCCTAAGTTCGAGCTGCCCGATTATCAGGCCCACAATGTGGA
C10 GACAATGCTCCGAAGTTCGAGCTGCCCGATTACCAGGCCCACAATGTGGA
** ** ** ** **.*********** ** ** **.** ** ** ** **
C1 CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
C2 TGAGGACATTCCATTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
C3 CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
C4 CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCCATGGATT
C5 CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCTATGGATT
C6 TGAGGATATTCCACTGGGCACAAGCATACTTCGGGTTAAAGCTATGGATT
C7 TGAGGATATTCCGCTGGGCACGAGCATACTTCGAGTGAAAGCTATGGATT
C8 TGAAGATATTCCTCTTGGCACAAGCATACTCCGTGTAAAAGCAATGGATT
C9 TGAGGATATTCCGCTGGGCACAAGCATACTTCGTGTCAAAGCTATGGATT
C10 TGAGGATATTCCGCTGGGCACAAGCATACTTCGAGTCAAGGCCATGGATT
**.** ***** * **.** *****.** ** ** **.** ***** *
C1 CCGATTCCGGATCAAATGCGGAAATCGAATATTTAGTATCCGATGATCAT
C2 CCGATTCTGGATCGAATGCGGAAATCGAATATCTAGTATCCGATGATCAT
C3 CCGATTCCGGTTCAAATGCCGAAATCGAATATTTAGTATCCGATGATCAC
C4 CGGATTCAGGATCGAATGCTGAAATCGAATACCTAGTATCCGATGACCAC
C5 CAGATTCAGGATCGAATGCCGAAATCGAATACCTGGTATCCGATGACCAT
C6 CCGATTCAGGATCGAATGCTGAAATAGAATACCTAGTATCCGATGACCAT
C7 CAGATTCGGGGTCAAATGCTGAAATCGAATACTTAGTATCCGATGACCAT
C8 CAGATTCCGGATCGAACGCCGAAATCGAATACCTTGTATCCGACGACCAC
C9 CGGATTCTGGGTCGAATGCGGAAATCGAATACCTAGTGTCTGATGATCAT
C10 CGGATTCCGGATCAAATGCCGAAATCGAATACTTAGTATCCGATGACCAT
* ***** ** **.** ** *****.***** * **.** ** ** **
C1 TTCGCCGTGGACTCGAACGGAATCATCGTGAACAACAAGCAACTGGATGC
C2 TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC
C3 TTCGCCGTGGATTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC
C4 TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAACAACTGGATGC
C5 TTCGCCGTGGACTCCAATGGAATCATCGTGAACAACAAGCAACTGGATGC
C6 TTCGCCGTGGATTCCAACGGAATTATCGTGAACAACAAGCAACTGGATGC
C7 TTCGCCGTTGATTCAAATGGAATTATTGTGAACAACAAGCAACTGGATGC
C8 TTCGCCGTGGATTCAAATGGAATCATCGTAAACAACAAACAACTGGATGC
C9 TTCGCCGTGGATTCCAATGGAATCATCGTGAACAACAAGCAATTGGATGC
C10 TTCGCCGTGGATTCCAACGGAATCATTGTGAACAACAAGCAACTGGATGC
******** ** ** ** ***** ** **.********.*** *******
C1 GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG
C2 GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG
C3 GGATAACAACAATGCCTATTATGAGTTCATAGTCACTGCCAAGGACAAAG
C4 GGACAATAATAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG
C5 GGACAACAACAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG
C6 GGACAATAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGACAAGG
C7 GGATAATAATAATGCTTACTACGAGTTCATAGTCACTGCCAAGGATAAAG
C8 GGATAACAATAATGCGTACTACGAGTTCATAGTCACTGCCAAGGACAAAG
C9 GGATAACAATAATGCCTACTATGAGTTCATAGTCACTGCCAAGGACAAAG
C10 GGATAACAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGATAAAG
*** ** ** ***** ** ** *********** ** ******** **.*
C1 GTGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
C2 GGGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
C3 GTGAACCACCGAAGTCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
C4 GTGAACCGCCGAAGTCTGGAGTGGCTACGGTTCGTGTTTACACCAAGAAC
C5 GCGAACCGCCAAAGTCTGGAGTGGCCACGGTCCGTGTTTACACCAAAAAC
C6 GTGAACCGCCAAAGTCTGGAGTGGCTACAGTGCGTGTTTACACCAAAAAC
C7 GTGAACCGCCTAAGTCGGGAGTTGCCACAGTTCGTGTTTACACAAAAAAC
C8 GAGAACCGCCAAAATCGGGAGTGGCGACCGTTCGTGTTTACACCAAAAAC
C9 GTGAACCGCCAAAATCGGGAGTGGCTACAGTTCGTGTTTACACCAAAAAT
C10 GTGAGCCGCCAAAATCAGGAGTGGCTACAGTGCGTGTTTACACGAAGAAC
* **.**.** **.** ***** ** ** ** **:******** **.**
C1 AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT
C2 AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT
C3 AAGAACGACGAGGAGCCCAAGTTCTCCCAACAAGTGTATACCCCCAATGT
C4 AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT
C5 AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACCCCCAATGT
C6 AAGAACGACGAGGAGCCCAAGTTCTCCCAGCAGGTGTATACCCCCAATGT
C7 AAGAACGATGAAGAGCCAAAGTTCTCACAGCAAGTGTATACCCCAAATGT
C8 AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACACCGAATGT
C9 AAGAACGATGAGGAGCCAAAGTTCTCACAGCAAGTCTATACACCCAATGT
C10 AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT
******** **.*****.******** **.**.** ** ** ** *****
C1 GGATGAGAATGCCGGGCCAAACACTTTGGTTACCACTGTGGTAGCCTCCG
C2 GGATGAGAATGCAGGGCCCAACACTTTGGTTACCACTGTGGTAGCCTCCG
C3 GGATGAGAATGCGGGGCCCAACACTTTAGTTACCACTGTGGTAGCCTCCG
C4 GGACGAGAACGCGGGGCCGAATACTTTGGTTACCACTGTGGTGGCCTCTG
C5 GGATGAGAACGCAGGTCCGAATACTCTGGTTACCACTGTGGTGGCTTCCG
C6 GGATGAGAATGCTGGTCCAAATACTTTGGTTACCACTGTTGTGGCCTCCG
C7 GGATGAGAATGCAGGTCCTAACACGTTAGTTACCACTGTGGTTGCCTCTG
C8 GGATGAGAATGCCGGTCCGAATACTTTGGTTACCACTGTGGTGGCCTCCG
C9 CGATGAGAATGCCGGTCCGAATACTTTGGTGACCACTGTGGTGGCCTCCG
C10 CGATGAGAATGCCGGTCCGAATACTTTGGTCACCACTGTGGTGGCCTCCG
** ***** ** ** ** ** ** *.** ******** ** ** ** *
C1 ACAAGGACGGTGATAACGTGCGGTTTGGATTCGTGGGCGGCGGCACTTCA
C2 ACAAGGATGGTGATAACGTGCGTTTTGGATTCGTGGGCGGCGGCACTTCA
C3 ACAAGGACGGTGACAACGTGCGGTTCGGGTTCGTGGGCGGCGGCACTTCA
C4 ATAAGGATGGCGACAACGTGAGGTTTGGATTCGTGGGCGGCGGCACATCG
C5 ACAAGGATGGCGACAACGTCAGGTTCGGATTCGTGGGCGGCGGCACTTCG
C6 ATAAGGATGGCGACAACGTTAGGTTTGGATTTGTGGGCGGTGGCACTTCG
C7 ATAAGGATGGTGATAACGTACGGTTTGGCTTCGTGGGCGGCGGCACTTCG
C8 ATAAGGATGGAGATAATGTCAGGTTTGGATTCGTGGGCGGCGGCACTTCG
C9 ATAAGGATGGTGATAATGTACGATTTGGATTCGTGGGTGGCGGCACTTCG
C10 ACAAGGATGGTGATAATGTACGGTTTGGATTTGTTGGCGGCGGCACTTCG
* ***** ** ** ** ** .* ** ** ** ** ** ** *****:**.
C1 TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA
C2 TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA
C3 TCAGGTCAGTTTGTCATCGAAGACATAACCGGTGTGATCCGACTGCACAA
C4 TCTGGTCAGTTCGTCATCGAGGATATAACCGGTGTGATCCGACTGCATAA
C5 TCGGGTCAGTTTGTGATCGAGGACATAACCGGTGTGATCCGGCTGCACAA
C6 TCGGGTCAGTTTGTCATAGAGGACATAACCGGTGTGATCCGACTGCACAA
C7 TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA
C8 TCGGGTCAGTTCGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA
C9 TCGGGTCAGTTTGTCATCGAGGATATAACCGGTGTGATCCGACTGCACAA
C10 TCTGGTCAGTTCGTCATTGAGGACATAACCGGTGTGATCCGACTGCACAA
** ******** ** ** **.** *********** *****.***** **
C1 TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA
C2 TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA
C3 TAAGGCCATATCCCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA
C4 CAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA
C5 CAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTTACCGCCA
C6 TAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTTACGGCCA
C7 TAAAGCCATATCCCTGGACAGAGACAAGTACGAGCTGAATGTCACGGCCA
C8 TAAGGCCATATCCTTGGACAGGGACAAGTACGAACTGAATGTGACGGCCA
C9 TAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA
C10 TAAGGCCATATCGCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA
**.*****:** ******..*****.*****. **** ** ** ****
C1 TGGACGATGGATCTTGTTGTGTGAATGGAGACCAAACTATCCACACCTCA
C2 TGGACGATGGATCTTGTTGCGTGAATGGAGACCAAACTATCCACACCTCA
C3 TGGACGATGGATCCTGTTGCGTAAATGGAGACCAAACTATCCACACCTCA
C4 TGGACGATGGATCCTGTTGTGTGAACGGCGATCAGACCATCCACACATCG
C5 TGGACGATGGATCCTGTTGCGTGAATGGCGATCAAACTATCCACACTTCC
C6 TGGATGATGGATCTTGTTGTGTGAATGGCGATCAAACTATCCACACTTCG
C7 TGGACGATGGATCATGTTGTGTGAATGGCGATCAAACTATCCACACCTCA
C8 TGGACGATGGATCCTGTTGCGTGAACGGCGATCAAACCATCCACACCTCA
C9 TGGACGATGGATCGTGTTGTGTGAATGGCGATCAAACTATCCACACCTCA
C10 TGGACGATGGATCTTGCTGTGTGAATGGCGATCAAACTATCCATACCTCC
**** ******** ** ** **.** **.** **.** ***** ** **
C1 ACTGCTGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT
C2 ACTGCCGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT
C3 ACGGCCGTGGTCGTGGTATTCATCACCGATGTCAATGATAATAAGCCAGT
C4 ACCGCCGTGGTCGTCGTTTTCATCACCGATGTCAACGACAATAAGCCGGT
C5 ACCGCCGTGGTTGTGGTCTTCATCACCGACGTCAACGACAACAAGCCGGT
C6 ACCGCCGTGGTTGTGGTCTTTATCACCGATGTCAACGATAATAAGCCGGT
C7 ACCGCCGTGGTTGTGGTCTTCATCACTGATGTTAACGACAATAAGCCAGT
C8 ACCGCCGTGGTGGTGGTCTTCATCACCGATGTCAACGATAATAAGCCGGT
C9 ACCGCCGTGGTTGTGGTCTTCATTACCGATGTCAACGATAATAAGCCGGT
C10 ACCGCCGTGGTTGTGGTTTTCATCACCGACGTTAACGACAATAAGCCGGT
** ** ***** ** ** ** ** ** ** ** ** ** ** *****.**
C1 GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA
C2 GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA
C3 GTTCAAGGACTGCAGTACCTATTATCCGAAGGTCGAGGAAGGAGCTCCTA
C4 GTTCAAGGACTGCAGCACCTATTATCCGAAGGTCGAGGAAGGAGCCCCCA
C5 GTTCAAGGACTGCAGTACCTACTATCCGAAGGTCGAGGAAGGTGCTCCCA
C6 GTTCAAGGACTGCAGTACCTACTACCCGAAAGTCGAGGAGGGAGCTCCAA
C7 GTTCAAGGATTGCAGTACCTATTATCCGAAAGTTGAGGAAGGTGCTCCCA
C8 GTTTAAGGACTGCAGCACTTACTATCCGAAAGTGGAGGAAGGAGCTCCCA
C9 GTTCAAGGACTGCAGTACCTACTACCCAAAAGTCGAGGAAGGAGCTCCCA
C10 GTTCAAGGACTGCAGTACCTACTATCCGAAAGTCGAGGAAGGGGCGCCCA
*** ***** ***** ** ** ** **.**.** *****.** ** ** *
C1 ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG
C2 ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG
C3 ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGATGAGGATAAGGGTGTG
C4 ACGGAAGTCCCGTCATCAAAGTCGTGGCTACCGACGAGGATAAGGGTGTG
C5 ACGGAAGCCCCGTCATTAAAGTGGTGGCCACCGACGAGGACAAGGGTGTC
C6 ATGGAAGTCCCGTCATTAAAGTTGTGGCCACCGACGAGGATAAGGGTGTC
C7 ATGGTAGTCCAGTAATTAAAGTTGTGGCCACCGATGAGGATAAGGGAGTA
C8 ACGGAAGTCCTGTCATCAAAGTTGTGGCCACTGATGAGGACAAGGGTGTG
C9 ACGGAAGTCCTGTCATCAAAGTTGTGGCCACCGATGAGGATAAGGGCGTG
C10 ACGGCAGTCCCGTCATCAAAGTGGTGGCCACCGATGAGGACAAGGGTGTC
* ** ** ** **.** **.** ***** ** ** ***** ***** **
C1 AATGGACAGGTGAAATACTCAATTGTTCAGCAACCAAATCAGAAAGGCAC
C2 AATGGACAGGTGAAATACTCAATTGTTCAGCAGCCAAATCAGAAAGGCAC
C3 AATGGACAGGTGAAATACTCAATAGTTCAGCAGCCAAATCAGAAGGGTAC
C4 AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCCAATCAGAAGGGGAC
C5 AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAACCAGAAGGGAAC
C6 AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAAGGTAC
C7 AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCAAATCAGAAGGGAAC
C8 AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCCAATCAGAAGGGTAC
C9 AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC
C10 AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC
********************.**:********.** ** *****.** **
C1 AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAACAAGGTAT
C2 AAAGTTCACGGTGGACGAGGAGACCGGCGAGGTGTCCACCAACAAGGTAT
C3 AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAATAAGGTTT
C4 TAAGTTCACAGTCGACGAGGAAACCGGAGAGGTGTCCACCAACAAGGTGT
C5 AAAGTTCACAGTGGACGAGGAAACGGGAGAGGTGTCCACCAACAAGGTGT
C6 AAAGTTCACAGTCGATGAGGAAACGGGAGAGGTGTCCACCAACAAGGTCT
C7 TAAGTTCACGGTGGACGAGGAAACTGGCGAGGTGTCCACCAATAAGGTCT
C8 AAAGTTCACCGTGGACGAGGAAACCGGCGAGGTGTCCACCAACAAGGTCT
C9 AAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAACAAGGTGT
C10 CAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAATAAGGTCT
******** ** ** *****.** **.************** ***** *
C1 TCGATCGCGAGGGAGATGATGGCAAGTTCGTGTCCGTCACAGTTAAGGCC
C2 TCGATCGCGAGGGAGATGATGGCAAGTTCGTATCCGTCACAGTTAAGGCC
C3 TCGATCGCGAGGGCGATGACGGCAAGTTTGTATCCGTCACAGTCAAGGCC
C4 TTGATCGTGAGGGAGACGATGGAAAATTCGTATCGGTCACAGTGAAGGCC
C5 TCGATCGCGAGGGCGATGATGGAAAATTTGTATCCGTCACTGTAAAGGCC
C6 TCGATCGAGAGGGAGATGATGGAAAATTTGTATCAGTCACAGTGAAGGCC
C7 TCGATCGTGAGGGAGATGATGGCAAGTTTGTATCCGTAACAGTAAAGGCC
C8 TCGATCGAGAGGGAGATGATGGCAAGTTTGTCTCGGTCACAGTGAAGGCC
C9 TCGATCGTGAAGGAGATGACGGCAAGTTTGTGTCGGTCACAGTTAAGGCC
C10 TCGATCGAGAGGGAGATGATGGAAAGTTCGTGTCGGTCACGGTTAAGGCC
* ***** **.**.** ** **.**.** ** ** **.** ** ******
C1 ACCGATCAGGGTGATCCCAGTCTAGAGGGTGTCTGCTCCTTCACCGTGGA
C2 ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTCTGCTCCTTTACCGTGGA
C3 ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTGTGCTCCTTCACCGTGGA
C4 ACAGATCAGGGTGATCCGAGTCTGGAGGGAGTCTGCTCCTTCACCGTGGA
C5 ACAGATCAGGGCGACCCAAGTCTGGAAGGCGTTTGCTCCTTCACCGTGGA
C6 ACAGATCAGGGTGATCCAAGTCTGGAAGGCGTGTGCTCCTTTACCGTGGA
C7 ACGGATCAGGGTGATCCAAGTTTGGAGGGTGTTTGCTCCTTCACCGTAGA
C8 ACCGATCAGGGAGATCCAAGTCTGGAGGGTGTCTGCTCCTTCACCGTGGA
C9 ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCTTTTACTGTGGA
C10 ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCGTTCACCGTGGA
** ******** ** ** *** *.**.** ** ***** ** ** **.**
C1 AATCACAGATGTAAACGATAATCCGCCACTGTTCGATCGACAGAAATACG
C2 AATCACAGATGTAAACGATAATCCTCCACTGTTCGATCGACAGAAATACG
C3 AATCACTGATGTGAACGATAATCCTCCACTGTTCGATCGACAGAAATACG
C4 GATCACAGATGTCAACGATAATCCCCCGCTCTTTGATCGGCAGAAATACG
C5 GATCACAGATGTCAACGACAATCCCCCACTTTTTGATCGTCAGAAATACG
C6 GATCACAGATGTCAACGATAATCCCCCACTGTTTGATCGTCAGAAATACG
C7 GATCACAGATGTCAACGATAATCCTCCACTGTTCGATCGTCAGAAATATG
C8 GATCACAGATGTCAACGATAATCCTCCTTTGTTCGATCGTCAGAAATACG
C9 AATCACAGACGTTAACGATAATCCCCCACTATTCGATCGTCAGAAATATG
C10 GATCACTGATGTCAACGATAATCCTCCCCTGTTCGATCGTCAGAAATATG
.*****:** ** ***** ***** ** * ** ***** ******** *
C1 TGGAGAATGTAAAGCAGGATGCCAGCATTGGCACAAACATCCTTCGTGTC
C2 TGGAAAATGTAAAGCAGGATGCCAGCATTGGCACGAACATCCTCCGTGTC
C3 TGGAGAACGTAAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGCGTC
C4 TTGAGAACGTTAAACAGGACGCCAGTATTGGCACAAATATCCTGCGCGTT
C5 TCGAAAATGTAAAACAGGATGCCAGTATTGGCACGAACATCCTCCGAGTC
C6 TTGAGAATGTAAAGCAGGATGCCAGTATTGGCACCAATATCCTCCGTGTC
C7 TAGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC
C8 TGGAAAATGTTAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC
C9 TGGAGAATGTAAAACAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC
C10 TGGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC
* **.** ** **.***** ***** ******** ** ***** ** **
C1 TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT
C2 TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTGTACAGCCT
C3 TCTGCCTCCGATGAAGATGCCGATAATAATGGAGCTATAGTATACAGCCT
C4 TCCGCCTCCGATGAGGATGCCGATAACAATGGTGCCATAGTGTACAGCCT
C5 TCCGCCTCCGACGAAGATGCCGACAACAACGGAGCTATAGTATATAGCCT
C6 TCCGCCTCCGATGAAGATGCCGACAACAATGGAGCTATAGTATACAGCCT
C7 TCCGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATATAGTCT
C8 TCCGCCTCCGATGAAGATGCTGACAACAATGGAGCTATAGTTTACAGCCT
C9 TCCGCTTCTGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT
C10 TCCGCCTCCGATGAAGATGCCGACAACAATGGCGCTATAGTATACAGCCT
** ** ** ** **.***** ** ** ** ** ** ***** ** ** **
C1 GACTGCTCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
C2 GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
C3 GACTGCCCCCTTTAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
C4 GACTGCCCCGTTCAATCCCAACGACCTGGAATACTTTGAGATTCAGGCCG
C5 GACCGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG
C6 GACTGCACCCTTTAATCCCAACGATCTGGAATACTTTGAAATCCAGGCCG
C7 CACAGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCAG
C8 GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCCG
C9 GACTGCCCCCTTCAATCCTAACGATCTGGAATATTTTGAAATTCAGGCCG
C10 GACTGCGCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG
** ** ** ** ***** ***** ******** ** **.** ***** *
C1 AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA
C2 AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA
C3 AGTCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGA
C4 AATCGGGCTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGTTATCGC
C5 AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGACCGATATCGC
C6 AATCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGC
C7 AATCCGGTTGGATTGTTCTCAAAAAACCGCTTGACCGTGACCGTTATCGC
C8 AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGC
C9 AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGT
C10 AATCTGGATGGATTGTGCTTAAGAAGCCGCTTGACCGTGATCGATATCGC
*.** ** ******** ** **.**.************** **:*****
C1 TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
C2 TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
C3 TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
C4 TTGAGGGTTAGCGCCTCCGATAAGGGTACTCCCGCCTCGGCAGCCGATGT
C5 TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
C6 TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
C7 TTGAGGGTTAGCGCCTCCGATAAAGGCACTCCCGCCTCGGCAGCCGATGT
C8 TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
C9 TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
C10 TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
*********** ***********.** **************.********
C1 CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C2 CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C3 CGACGTCGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C4 CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG
C5 CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG
C6 CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C7 CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C8 CGACGTTGAATTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
C9 CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG
C10 CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG
*** ** **.***************************** **********
C1 ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
C2 ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
C3 ATAAGAGTATATACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
C4 ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
C5 ATAAGAGCATTTACGGGCCGATTCACATCCGCGAGAATGTCACTGTGGGT
C6 ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
C7 ATAAGAGCATTTACGGGCCGATACACATACGCGAGAATGTCACTGTGGGT
C8 ATAAGAGCATTTACGGCCCGATTCACATACGCGAGAATGTCACTGTGGGT
C9 ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTAACTGTGGGT
C10 ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTCACTGTGGGT
****** .*:***** *****: ****.***********.*********
C1 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC
C2 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAACCCCAC
C3 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
C4 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
C5 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC
C6 ACGGTTGTAACATCGGTTAAGGCAAGTTCTGGTATTGAAGGCAATCCCAC
C7 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGAAATCCCAC
C8 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGCATCGAGGGCAATCCGAC
C9 ACGGTTGTAACATCAGTTAAGGCAAGTTCGGGCATTGAAGGCAATCCCAC
C10 ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
**************.************** ** ** **.**.** ** **
C1 AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC
C2 AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC
C3 AGTTTTTTACCGACTGATGCCCGGGTCAACGGCCCAAACAAACAAGTTTC
C4 AGTTTTTTATCGACTGATGCCCGGGTCGACGGCTCAAACGAACAAATTTC
C5 GGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAGTTTC
C6 AGTTTTTTATCGATTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
C7 AGTTTTTTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
C8 AGTTTTCTACCGTCTGATGCCCGGGTCGACGGCTCAAACGAATAAATTTC
C9 AGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
C10 AGTTTTCTATCGACTGATGCCCGGGTCAACGGCTCAAACCAACAAATTTC
.***** ** **: *************.***** ***** ** **.****
C1 ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
C2 ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
C3 ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGATACTTGGGCTGAC
C4 ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCCGAT
C5 ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCAGAC
C6 ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCAGAT
C7 ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
C8 ACACGTTCTACTTGCAACAAAGACCGGACAATGGAGACACTTGGGCCGAT
C9 ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
C10 ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
******* *********************** **.** ******** **
C1 ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT
C2 ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT
C3 ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAGTACAATTT
C4 ATAAAAGTAAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATCT
C5 ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAGTACAACTT
C6 ATAAAAGTCAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATTT
C7 ATAAAAGTAAATCATCCGCTGGATTACGAAAGTATCAAGGAATATAATCT
C8 ATAAAAGTGAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
C9 ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
C10 ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
******** ************** *****.** ********.** ** *
C1 AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
C2 AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
C3 AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
C4 AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
C5 AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
C6 AACCATACGTGTTGAGAACAACGGGGCCCAACAACTGGCATCGGAAGCGA
C7 TACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA
C8 TACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCGTCGGAAGCGA
C9 AACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA
C10 AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
:*********** *****************.*** **** **********
C1 CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C2 CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C3 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C4 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C5 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACG
C6 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C7 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C8 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C9 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
C10 CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
**** ********************************************
C1 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C2 GAACGCGAACAGGAAACGGTACTCGAGGGCGAACCGATTGGCACCAAAGT
C3 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAGCCGATTGGCACCAAAGT
C4 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C5 GAACGCGAGCAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C6 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C7 GAACGAGAACAGGAAACGGTGCTCGAGGGAGAACCGATTGGCACCAAAGT
C8 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C9 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
C10 GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
*****.**.***********.********.**.*****************
C1 GACACAAGTGAACGCCATCGACAAGGATGGCACATTTCCAAATAATCAGG
C2 GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
C3 GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG
C4 GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
C5 GACACAGGTGAACGCCATCGACAAGGACGGCACATTCCCGAATAATCAGG
C6 GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG
C7 GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
C8 GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
C9 GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
C10 GACACAAGTGAACGCTATCGACAAGGATGGCACATTCCCAAATAATCAGG
******.******** *********** ******** **.**********
C1 TCTACTACTACATTGTGGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC
C2 TCTACTACTACATTGTGGATTCGCCACGAAACGAGGGCAAGGAATTCTTC
C3 TCTACTACTACATTGTGGATTCCCCGCGAAACGAGGGCAAGGAGTTCTTC
C4 TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
C5 TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAGTTCTTC
C6 TGTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC
C7 TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
C8 TCTACTACTACATCGTCGATTCACCGCGAAACGAGGGCAAAGAATTCTTC
C9 TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTT
C10 TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
* *********** ** ***** **.**************.**.*****
C1 GAAATCAATCTGCAAAGTGGGGAGATCTTCACGAAAACCGTATTCGACAG
C2 GAAATCAACCTGCAAAGTGGGGAAATCTTCACGAAAACCGTATTCGACAG
C3 GAAATCAACCTGCAAAGTGGCGAGATCTTCACGAAGACCGTATTCGACAG
C4 GAAATCAACCTGCAAAGCGGAGAGATATTCACGAAAACCGTTTTCGACAG
C5 GAAATCAACCTGCAAAGTGGCGAGATATTCACGAAGACCGTTTTCGACAG
C6 GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTTTTCGACAG
C7 GAAATTAACCTGCAGAGTGGCGAAATATTCACGAAAACCGTATTCGATAG
C8 GAAATCAACCTGCAGAGCGGAGAGATTTTCACGAAGACCGTATTCGACAG
C9 GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTGTTCGACAG
C10 GAAATCAACCTGCAGAGCGGAGAGATATTCACGAAAACCGTGTTCGACAG
***** ** *****.** ** **.** ********.***** ***** **
C1 GGAGAAGAAAGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC
C2 GGAGAAGAAAGGCGCCTATGCCCTGGAAGTGGAGGCTCGGGATGGAGCCC
C3 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC
C4 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGAGATGGAGCTC
C5 GGAGAAGAAGGGCGCCTACGCCCTCGAAGTGGAGGCCCGGGATGGAGCTC
C6 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCCCGCGATGGAGCGC
C7 GGAGAAGAAGGGCGCCTATGCCCTCGAGGTGGAGGCACGGGACGGAGCTC
C8 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC
C9 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC
C10 GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGGGATGGAGCAC
*********.******** ***** **.******** ** ** ***** *
C1 CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
C2 CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
C3 CCTCGGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
C4 CCTCAGCTCGACCCAATAGCAATGGACCCAATTCAGTCACCAAGTTCATA
C5 CCTCGGCCAGGCCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
C6 CCTCGGCGAGACCCAATAGCAACGGACCCAATTCAGTCACCAAATTCATA
C7 CATCTGCTCGCCCCAATAGCAATGGACCAAATTCAGTCACCAAATTCATA
C8 CTTCGGCGCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
C9 CTTCGGCGCGACCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
C10 CATCGGCGCGACCAAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
* ** ** .* **.** ***** *****.**************.******
C1 CGCATTGGCATCGCCGATAAAAACGATAACCCGCCTTATTTCGACAAATC
C2 CGCATTGGCATCGCCGATAAAAATGATAACCCGCCCTATTTCGACAAATC
C3 CGCATTGGCATCGCCGATAAAAACGATAACCCGCCCTATTTCGACAAATC
C4 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
C5 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAGTC
C6 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
C7 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
C8 CGCATCGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
C9 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
C10 CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
***** ***************** ***** ***** ***********.**
C1 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
C2 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
C3 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
C4 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTAC
C5 GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATCCAGCACACAGTGC
C6 GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC
C7 GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTTC
C8 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATCCAGCACACAGTGC
C9 GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC
C10 GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTGC
********************* ************** **.******** *
C1 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C2 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C3 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C4 TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGATATGAA
C5 TCACTGTAACGGCCAAGGACCACGACGAGTCCTCACGTATCCGCTATGAA
C6 TCACTGTAACCGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C7 TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGCTATGAA
C8 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C9 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
C10 TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
********** ******** ********.**************.******
C1 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C2 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C3 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C4 ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C5 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C6 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C7 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C8 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C9 ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
C10 ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
***************** ********************************
C1 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C2 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C3 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C4 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C5 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C6 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C7 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C8 TGCCATTTATGTTGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C9 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
C10 TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
************:*************************************
C1 AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
C2 AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
C3 AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
C4 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
C5 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
C6 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
C7 AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
C8 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
C9 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
C10 AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
**************** *********************************
C1 GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC
C2 GTCATAAATGTGCGCGACGTCAACGATCTACCACCGCAATTCCCGCAGAC
C3 GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC
C4 GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCATAC
C5 GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGGTTCCCGCAGAC
C6 GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
C7 GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCAGAC
C8 GTCATAAATGTGCGCGATGTCAACGATCTGCCACCGCGATTCCCGCAGAC
C9 GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
C10 GTCATAAATGTACGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
***********.***** *********** **.****..******** **
C1 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
C2 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
C3 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
C4 ATCCTATGAGCGGACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
C5 ATCCTACGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
C6 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
C7 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
C8 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACAA
C9 ATCCTATGAGCGAACTCTCGACGAGGGAATGAACGACACGCCCTTTACCA
C10 ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
****** *****.*******************.*.*************.*
C1 TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C2 TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C3 TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C4 TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C5 TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C6 TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C7 TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAATATC
C8 TCATGCAGGTCACCGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C9 TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
C10 TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
* ******** ** ******************************** ***
C1 GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
C2 GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
C3 GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
C4 GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
C5 GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
C6 GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCGGCCAATAG
C7 GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
C8 GTGTACTTCCTCACGGGCCAGGGAATTGATCCGGATAATCCAGCCAATAG
C9 GTGTACTTCCTCACGGGGCAAGGCATTGATCCGGATAATCCAGCCAATAG
C10 GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
***************** **.**.*****************.********
C1 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
C2 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
C3 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
C4 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCGC
C5 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTGTTAAAGCCCC
C6 CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCCC
C7 CAAATTCGACATCAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC
C8 CAAATTCGATATTAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCAT
C9 CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC
C10 CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCGC
********* ** *********** ************** *******
C1 TGGATCGCGATCAACCCAATGGACGCCCCCAATGGCGTTTCACTGTATTC
C2 TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGTTTCACTGTATTC
C3 TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGCTTCACTGTATTC
C4 TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
C5 TGGATCGCGATCAACCAAACGGACGACCCCAGTGGCGCTTCACTGTATTC
C6 TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
C7 TGGATCGCGATCAACCGAACGGACGTCCCCAGTGGCGATTCACTGTATTC
C8 TGGATCGCGATCAACCGAACGGTCGACCCCAGTGGCGCTTCACTGTATTC
C9 TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
C10 TGGATCGCGATCAACCCAATGGTCGGCCCCAGTGGCGCTTCACTGTATTC
**************** ** **:** *****.***** ************
C1 GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
C2 GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
C3 GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
C4 GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
C5 GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT
C6 GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT
C7 GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
C8 GCGCAGGACGAAGGCGGCGAGGGACTCGTGGGCTACGCGGATGTTCAAGT
C9 GCCCAGGACGAGGGCGGCGAGGGGCTCGTGGGCTATGCGGATGTCCAGGT
C10 GCCCAGGACGAAGGGGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
** ********.** *****.**.********.** ******** **.**
C1 CAATCTGAAGGATATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
C2 CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
C3 CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
C4 CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCGCAGGGCGTTT
C5 CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCACAGGGCGTAT
C6 CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTTT
C7 CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
C8 CAATCTGAAGGACATCAACGATAATGCGCCCATTTTCCCACAGGGCGTGT
C9 CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCGCAGGGCGTGT
C10 CAATCTGAAGGACATCAACGATAACGCGCCCATTTTCCCCCAGGGCGTAT
************ *********** ** *********** ******** *
C1 ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
C2 ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
C3 ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
C4 ACTTTGGCAACGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC
C5 ACTTCGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
C6 ACTTTGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
C7 ACTTTGGCAACGTGACCGAGAACGGCACCGCCGGCATGGTTGTGATGACC
C8 ACTTTGGCAATGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC
C9 ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
C10 ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTTGTGATGACC
**** ***** ** ** ********.************** *********
C1 ATGACAGCCGTGGACTATGACGATCCCAATGAGGGTTCCAATGCGCGGCT
C2 ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCGCGACT
C3 ATGACAGCCGTGGACTACGACGATCCCAATGAGGGCTCCAATGCCCGGCT
C4 ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAACGCCCGGCT
C5 ATGACGGCCGTGGACTACGACGATCCCAACGAGGGCTCCAACGCCCGGCT
C6 ATGACGGCCGTGGACTACGACGATCCCAACGAGGGTTCCAATGCCCGGCT
C7 ATGACAGCAGTGGATTACGACGATCCCAATGAGGGTTCCAATGCCCGGCT
C8 ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCCCGCCT
C9 ATGACGGCCGTGGATTACGACGACCCCAACGAGGGCTCCAACGCCCGACT
C10 ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAATGCCCGCCT
*****.**.***** ** ***** ***** ***** ***** ** ** **
C1 GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA
C2 GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA
C3 GGTGTACTCCATTGAAAAGAACGTGATTGAGGAGGAGACGGGGTCCCCAA
C4 GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA
C5 GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA
C6 GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCACCCA
C7 TGTCTACTCTATTGAAAAGAACGTGATTGAGGAGGAAACTGGGTCCCCCA
C8 GGTTTACTCCATCGAAAAGAACGTGATTGAGGAGGAAACTGGGTCGCCAA
C9 GGTCTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA
C10 GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA
** ***** ** **.********************.** ** ** **.*
C1 TTTTTGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
C2 TTTTCGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
C3 TTTTTGAAATCGAGCCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
C4 TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTCTGTTGC
C5 TTTTCGAAATCGAGCCCGACACGGGTGTGATAAAGACCGCCGTCTGCTGC
C6 TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTTTGTTGT
C7 TATTTGAAATTGAACCCGATACGGGTGTGATAAAGACTGCAGTATGTTGT
C8 TTTTCGAAATCGAACCCGATACGGGTGTGATTAAGACCGCAGTTTGCTGT
C9 TTTTCGAAATCGAACCCGACACGGGTGTGATTAAGACCGCAGTGTGTTGT
C10 TTTTCGAGATCGAACCCGACACGGGTGTGATTAAGACGGCGGTGTGTTGT
*:** **.** **.***** ***********:***** ** ** ** **
C1 TTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTTGTGGCGATGGA
C2 CTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTCGTGGCGATGGA
C3 TTGGATCGCGAAAGGACTCCGGACTATTCGATACAAGTCGTGGCGATGGA
C4 CTGGATCGCGAGAGAACCCCGGATTATTCGATACAGGTCGTTGCGATGGA
C5 CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA
C6 CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA
C7 TTGGATCGCGAGAGAACTCCGGACTATTCGATACAGGTCGTTGCGATGGA
C8 CTGGATCGCGAGAGAACGCCGGATTACTCGATACAAGTCGTTGCGATGGA
C9 CTGGATCGCGAGAGAACCCCGGACTATTCGATACAGGTCGTTGCAATGGA
C10 CTGGATCGCGAGAGGACGCCGGACTATTCGATACAGGTCGTGGCAATGGA
**********.**.** ** ** ** ** *****.** ** **.*****
C1 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGACA
C2 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGAGTTAAGGATA
C3 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA
C4 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA
C5 TGGCGGGGGGCTAAAGGGGACGGGGACGGCCTCCATACGGGTCAAGGATA
C6 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA
C7 TGGCGGAGGGTTAAAGGGGACGGGGACGGCCTCTATACGTGTTAAAGATA
C8 TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATAAGGGTTAAAGATA
C9 CGGCGGGGGATTGAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA
C10 TGGTGGGGGGTTAAAAGGGACGGGGACGGCCTCCATACGCGTTAAGGATA
** **.**. *.**.***************** ***.* ** **.** *
C1 TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
C2 TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
C3 TTAACGATATGCCGCCGCAGTTCACGAAAGACGAATGGTTTACGGAAGTG
C4 TCAACGACATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG
C5 TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
C6 TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG
C7 TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG
C8 TCAACGATATGCCGCCGCAATTCACGAAAGACGAATGGTTTACGGAAGTG
C9 TCAACGATATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG
C10 TCAACGACATGCCGCCGCAGTTCACCAAGGACGAATGGTTCACGGAAGTG
* ***** ***********.** ** **.*********** *********
C1 GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTTAC
C2 GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTGAC
C3 GACGAAACGGATGGTACAGCCCTGCCGGAAATGCCCATTTTAACCGTGAC
C4 GACGAAACGGATGGCACGGCTCTGCCGGAAATGCCCATTTTAACCGTGAC
C5 GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACAGTGAC
C6 GACGAAACGGATGGCACTGCTCTGCCGGAAATGCCCATTTTAACCGTGAC
C7 GACGAAACGGATGGTACGGCACTGCCGGAAATGCCCATTTTAACTGTAAC
C8 GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTAAC
C9 GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTGAC
C10 GACGAAACGGATGGCACGGCGCTGCCGGAAATGCCCATTTTAACCGTGAC
************** ** ** ********************** ** **
C1 CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
C2 CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
C3 CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
C4 CGTGCACGACGAAGACGAAACGAACAAGTTCCAGTACAAAGTTATCGACA
C5 CGTGCACGACGAGGACGAAACGAACAAGTTCCAGTACAAGGTTATCGACA
C6 CGTACACGATGAAGACGAAACTAACAAGTTCCAGTACAAGGTTATCGATA
C7 CGTACACGATGAAGACGAAACCAATAAGTTTCAATATAAAGTTATCGATA
C8 CGTTCACGATGAAGACGAAACGAACAAATTTCAGTACAAAGTTATCGATA
C9 CGTGCACGATGAAGACGAAACGAATAAGTTCCAGTACAAAGTGATCGATA
C10 CGTGCACGATGAGGACGAAACGAACAAGTTCCAATACAAGGTCATCGACA
*** ***** **.*****.** ** **.** **.** **.** ***** *
C1 ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT
C2 ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT
C3 ACAGCGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGATGGC
C4 ACAGTGGCTATGGGGCCGATAAATTCACCATGGTGCGGAATAACGATGGA
C5 ACAGTGGCTACGGTGCCGACAAGTTCACCATGGTGCGGAACAACGATGGC
C6 ACAGTGGCTATGGTGCCGATAAGTTCACCATGGTGCGGAATAACGATGGA
C7 ACAGTGGTTATGGTGCCGATAAATTTACCATGGTGCGGAATAACGATGGA
C8 ACAGCGGCTATGGAGCCGATAAATTCACCATGGTGCGAAATAACGATGGC
C9 ACAGCGGCTACGGCGCCGATAAATTCACCATGGTACGGAATAACGATGGC
C10 ACAGCGGCTATGGGGCCGATAAATTCACCATGGTGCGGAACAACGACGGC
**** ** ** ** ***** **.** ********.**.** ***** **
C1 ACTGGTTCGCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
C2 ACTGGTTCGCTCAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
C3 ACTGGTTCACTGAAAATCGTACAGCCCTTGGACTACGAGGATCAGCTGCA
C4 ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA
C5 ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
C6 ACTGGTTCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA
C7 ACTGGTTCCCTGAAAATCGTACAGCCCTTGGACTACGAAGATCAGCTGCA
C8 ACTGGTTCCCTGAAAATTGTGCAACCCTTGGACTACGAGGATCAACTGCA
C9 ACTGGCTCCCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAACTGCA
C10 ACTGGCTCTCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAGCTGCA
** ** ** ** ***** ** **.*** **********.*****.*****
C1 GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
C2 GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
C3 GAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
C4 GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA
C5 GAGCAATGGCTTCCGCTTCCGCATCCAGGTGAACGACAAGGGCGAGGACA
C6 GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA
C7 GAGCAATGGCTTCCGTTTCCGCATTCAAGTCAATGACAAGGGCGAGGACA
C8 GAGTAATGGCTTCCGCTTCCGGATTCAGGTGAACGACAAGGGCGAGGACA
C9 AAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGACAAGGGCGAGGACA
C10 GAGCAATGGCTTCCGTTTCCGCATTCAAGTGAACGACAAGGGCGAAGATA
.** *********** ***** ** **.** ** ** ********.** *
C1 ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTGGTAAAACTG
C2 ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTAGTCAAGCTG
C3 ATGACAATGACAAATACCACGTGGCCTACTCGTGGGTTGTGGTTAAATTG
C4 ACGACAACGATAAATACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG
C5 ATGACAACGATAAGTACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG
C6 ACGACAATGATAAGTACCATGTGGCCTATTCGTGGGTTGTGGTCAAACTG
C7 ATGACAATGATAAATACCATGTGGCCTACTCGTGGGTTGTGGTTAAACTA
C8 ACGACAATGATAAGTACCACGTGGCCTACTCGTGGGTTGTGGTTAAACTG
C9 ACGACAATGATAAATACCACGTGGCCTACTCGTGGGTTGTGGTCAAACTG
C10 ACGACAACGACAAGTACCACGTGGCCTACTCGTGGGTTGTGGTGAAACTG
* ***** ** **.***** ******** ** ***** **.** **. *.
C1 AGGGACATCAACGACAATAAGCCGCATTTCGAACGGGCCAATGTGGAGGT
C2 AGGGACATCAACGACAATAAACCGCATTTCGAACGAGCCAATGTTGAGGT
C3 AGGGACATCAACGACAATAAGCCGCACTTCGAACGGGCCAATGTGGAGGT
C4 AGGGACATCAACGACAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT
C5 AGGGACATCAACGACAACAAGCCGCACTTCGACCGGGCCAATGTGGAGGT
C6 AGGGACATTAACGATAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT
C7 AGAGATATCAATGACAATAAACCGCATTTCGACCGTGCCAATGTGGAGGT
C8 AGGGATATCAACGATAACAAACCGCACTTCGAGCGGGCCAACGTGGAGGT
C9 AGGGACATCAACGACAATAAGCCGCATTTCGAGCGAGCCAATGTGGAGGT
C10 AGGGACATCAACGACAATAAGCCGCACTTCGAGCGGGCCAATGTGGAGGT
**.** ** ** ** ** **.***** ***** ** ***** ** *****
C1 TTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAAAAGTTCAAGG
C2 GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
C3 GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
C4 CTCCGTGTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG
C5 CTCCGTGTTCGAGGACACCAAGGTGGGCACCGAGCTCGAGAAGTTCAAGG
C6 CTCCGTTTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG
C7 CTCCGTTTTCGAGGACACTAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
C8 GTCCGTTTTTGAGGACACCAAAGTGGGCACGGAACTCGAGAAGTTCAAGG
C9 CTCCGTTTTCGAGGACACCAAAGTGGGCACCGAACTAGAGAAGTTCAAGG
C10 CTCCGTGTTCGAGGACACCAAAGTGGGCACCGAACTCGAGAAGTTCAAGG
** ** ** ******** **.** ***** **.**.**.**********
C1 CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTATCCTATTCGATCGAT
C2 CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTGTCCTATTCCATCGAT
C3 CAACCGATCCGGATCAGGGTGGAAAGAGTAAGGTGTCCTACTCCATCGAT
C4 CCACCGATCCGGATCAGGGCGGCAAGAGCAAGGTCTCCTATTCCATCGAT
C5 CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT
C6 CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT
C7 CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAT
C8 CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAC
C9 CCACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT
C10 CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT
*.***************** **.***** ***** ***** ** *****
C1 CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
C2 CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
C3 CGTTCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGCTCCGT
C4 CGTTCTTCGGATCGCCAGCGCCAGTTTGCCATCAACCAGAATGGTTCGGT
C5 CGTTCCTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT
C6 CGTTCTTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT
C7 CGTTCCTCGGATCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
C8 CGTTCTTCGGATCGTCAGCGACAGTTTGCCATCAACCAAAATGGCTCGGT
C9 CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAATGGATCGGT
C10 CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAACGGTTCGGT
**:** ***** ** ***** *********** *****.** ** ** **
C1 TACCATTCAACGTTCGCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA
C2 TACCATTCAACGTTCCCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA
C3 TACCATTCAACGTTCCCTGGACCGCGAAGTTGTTCCACGTCATCAAGTTA
C4 CACCATTCAGCGCTCCCTGGATCGCGAAGTTGTGCCCCGTCATCAGGTCA
C5 TACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTTA
C6 GACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTCA
C7 AACCATTCAACGTTCCCTGGATCGCGAGGTTGTGCCGCGTCACCAGGTTA
C8 AACCATTCAACGTACTTTGGATCGAGAAGTTGTTCCACGTCATCAGGTCA
C9 TACCATTCAACGCTCCTTGGACCGCGAAGTTGTGCCCCGTCATCAGGTCA
C10 GACCATTCAGCGCTCCTTGGACCGCGAGGTTGTGCCCCGTCATCAGGTCA
********.** :* **** **.**.** ** ** ***** **.** *
C1 AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACA
C2 AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACT
C3 AGATCCTGGCCATCGACGATGGTTCTCCACCGAAAACCGCCACTGCTACA
C4 AGATCCTGGCCATTGACGATGGCTCTCCACCGAAAACAGCCACGGCCACA
C5 AGATCCTGGCGATAGATGATGGCTCTCCACCGAAAACCGCGACTGCTACC
C6 AAATTCTGGCGATAGATGATGGTTCCCCACCAAAAACCGCCACGGCTACA
C7 AAATTCTGGCCATCGATGATGGATCTCCACCAAAGACCGCCACTGCTACT
C8 AAATCCTGGCCATCGACGACGGCTCTCCACCAAAAACAGCCACTGCCACA
C9 AGATCCTGGCCATTGACGACGGCTCTCCACCGAAAACCGCCACTGCCACG
C10 AAATCCTGGCCATCGATGATGGTTCTCCCCCGAAAACCGCCACCGCCACG
*.** ***** ** ** ** ** ** ** **.**.**.** ** ** **
C1 CTAACAGTCATCGTCCAGGATATCAACGACAATGCTCCCAAATTCCTCAA
C2 CTAACAGTCATCGTGCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA
C3 CTTACAGTCATCGTCCAGGATATCAACGATAATGCACCTAAGTTCCTCAA
C4 CTCACGGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA
C5 CTTACAGTCATCGTTCAGGACATCAACGATAATGCTCCCAAGTTCCTGAA
C6 CTTACAGTCATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA
C7 CTAACAGTTATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA
C8 CTCACAGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTTAA
C9 CTCACAGTTATCGTTCAGGACATCAATGACAATGCTCCCAAGTTCCTGAA
C10 CTCACAGTCATCGTTCAGGATATCAACGATAATGCCCCCAAGTTCCTGAA
** **.** ***** ***** ***** ** ***** ** **.***** **
C1 GGATTACAGGCCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG
C2 AGATTACAGACCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG
C3 GGATTACAGGCCGGTTCTGCCCGAGCATGTCCCTCCACGTAAAGTGGTTG
C4 GGACTACAGACCAGTGCTGCCTGAGCATGTGCCGCCGCGTAAGGTGGTCG
C5 GGACTACAGACCAGTACTGCCAGAGCATGTGCCTCCTCGTAAGGTGGTGG
C6 AGACTACAGACCAGTACTGCCTGAGCATGTGCCTCCTCGTAAAGTGGTGG
C7 AGACTACAGACCAGTATTGCCAGAGCATGTGCCTCCACGTAAGGTGGTTG
C8 GGATTACAGACCAGTTTTGCCAGAGCATGTGCCACCACGTAAGGTGGTTG
C9 GGACTACCGACCCGTTCTGCCGGAGCATGTGCCTCCACGTAAGGTGGTCG
C10 GGACTACAGACCAGTCCTGCCGGAGCATGTGCCACCACGCAAAGTGGTCG
.** ***.*.** ** **** ******** ** ** ** **.***** *
C1 AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCGCCA
C2 AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGACCGCCA
C3 AGATTCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCACCA
C4 AAATCCTGGCCACCGATGACGACGATCGCTCCAAGAGCAACGGCCCTCCA
C5 AGATCCTGGCCACCGATGACGATGATCGCTCCAAGAGCAACGGCCCTCCT
C6 AGATCCTGGCCACCGATGACGATGATCGCTCTAAGAGTAATGGTCCACCT
C7 AAATTCTGGCCACCGATGACGATGATCGCTCCAAGAGCAATGGCCCACCA
C8 AAATCCTGGCCACCGATGATGACGATCGCTCGAAGAGCAATGGTCCTCCA
C9 AGATCCTGGCCACCGACGATGACGATCGCTCCAAGAGCAATGGTCCACCT
C10 AAATCCTGGCCACCGACGATGACGATCGCTCGAAGAGTAATGGTCCACCA
*.** *********** ** ** ******** ***** ** ** ** **:
C1 TTCCAGTTCCGTTTGGACCCCAGTGCAGATGACATCATCCGAGCTTCCTT
C2 TTCCAGTTCCGTTTGGACCCCAGTGCTGATGACATCATCCGTGCTTCCTT
C3 TTCCAGTTCCGTTTGGACCCCAGTGCGGATGACATCATCCGTGCTTCATT
C4 TTCCAGTTCCGATTGGACCCCAGTGCCGACGATATAATCCGTGCTTCCTT
C5 TTCCAGTTCCGCCTGGACCCCAGTGCCGATGATATTATTCGTGCCTCCTT
C6 TTCCAGTTCCGATTGGACCCCAGTGCCGATGATATTATCCGTGCTTCTTT
C7 TTCCAGTTCCGTTTGGACCCCAGTGCCGATGATATTATCCGTGCTTCCTT
C8 TTCCAGTTCCGTTTGGATCCCAGCGCCGATGATATTATCCGAGCTTCTTT
C9 TTCCAGTTCCGCTTGGACCCCAGTGCCGATGATATCATCCGTGCCTCCTT
C10 TTCCAGTTCCGTCTGGACCCCAGTGCCGACGATATTATCCGGGCTTCCTT
*********** **** ***** ** ** ** ** ** ** ** ** **
C1 CAAGGTGGAACAGGATCAAAAGGGTGCCAACGGTGATGGCATGGCTGTGA
C2 CAAGGTGGAACAGGATCAAAAGGGAGCCAACGGTGATGGCATGGCTGTAA
C3 TAAGGTGGAACAAGATCAGAAGGGTGCAAATGGTGATGGAATGGCTGTCA
C4 CAAGGTCGAACAGGATCAAAAGGGTGCCAATGGTGATGGCATGGCCGTGA
C5 CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGCGATGGCATGGCCGTGA
C6 CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTGA
C7 CAAGGTGGAACAAGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTCA
C8 CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCCGTCA
C9 CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCTGTGA
C10 CAAGGTGGAGCAGGATCAAAAGGGTGCCAATGGTGACGGCATGGCTGTAA
***** **.**.*****.*****:**.** ** ** ** ***** ** *
C1 TATCGTCCCTAAGATCCTTCGATCGCGAGCAGCAAAAGGAATATATGATT
C2 TATCGTCCCTAAGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC
C3 TTTCCTCCCTGAGATCCTTCGATCGGGAGCAGCAAAAGGAGTACATGATC
C4 TTTCCTCTCTACGATCCTTCGATCGTGAACAGCAAAAGGAGTACATGATC
C5 TTTCTTCCCTGCGATCCTTCGATCGCGAACAGCAGAAGGAGTACATGATC
C6 TTTCCTCCCTGCGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC
C7 TTTCCTCACTGCGATCCTTTGATCGGGAACAGCAAAAGGAGTATATGATC
C8 TTTCATCTCTGCGATCCTTCGACCGCGAACAGCAAAAGGAGTACATGATT
C9 TTTCCTCCCTGCGATCCTTCGATCGCGAGCAGCAAAAGGAGTATATGATC
C10 TTTCCTCCCTACGATCCTTCGATCGCGAGCAGCAGAAGGAGTACATGATC
*:** ** **..******* ** ** **.*****.*****.** *****
C1 CCTATTGTAATCAAAGACCATGGTTCCCCGGCAATGACTGGAACTAGTAC
C2 CCAATTGTAATCAAAGATCATGGTTCACCAGCAATGACTGGAACCAGTAC
C3 CCAATTGTGATCAAGGATCATGGCTCACCAGCGATGACTGGAACCAGTAC
C4 CCCATCGTGATCAAGGACCATGGCTCACCAGCAATGACGGGAACCAGTAC
C5 CCCATTGTGATCAAGGATCACGGCTCTCCAGCGATGACGGGAACCAGTAC
C6 CCGATTGTGATCAAGGATCACGGTTCTCCGGCAATGACTGGTACCAGTAC
C7 CCGATTGTGATCAAGGATCATGGTTCACCGGCAATGACTGGAACCAGCAC
C8 CCTATTGTAATCAAGGATCATGGGTCGCCAGCGATGACGGGAACAAGCAC
C9 CCGATTGTGATCAAGGATCACGGTTCGCCAGCGATGACGGGAACCAGTAC
C10 CCGATTGTGATTAAGGATCATGGTTCGCCAGCGATGACGGGAACCAGCAC
** ** **.** **.** ** ** ** **.**.***** **:** ** **
C1 TCTGACCGTCATAATTGGCGACGTGAACGACAACAAAATGCAGCCAGGAT
C2 CCTGACCGTCATAATTGGCGACGTGAATGACAACAAAATGCAGCCTGGAT
C3 TTTGACCGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCTGGAT
C4 TCTGACTGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT
C5 TCTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
C6 TTTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
C7 ATTGACCGTCATTATTGGCGATGTAAATGACAATAAAATGCAGCCTGGCT
C8 TTTAACAGTGATCATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT
C9 ATTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
C10 ACTGACCGTCATAATTGGCGATGTGAATGACAACAAGATGCAGCCCGGCT
*.** ** ** ** ** ** **.** ***** **.******** **.*
C1 CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG
C2 CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG
C3 CCAAGGACATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG
C4 CCAAGGAGATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG
C5 CCAAGGACATCTTCGTTTACAACTACCAGGGACAATCGCCAGATACGCCA
C6 CCAAGGACATCTTCGTCTACAACTACCAAGGACAATCGCCAGACACTCCA
C7 CCAAGGAAATCTTCGTGTACAACTACCAAGGACAATCGCCAGATACTCCA
C8 CCAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGATACGCCA
C9 CCAAAGACATATTTGTTTACAACTACCAAGGACAATCACCGGACACGCCA
C10 CCAAAGACATCTTCGTCTACAACTACCAAGGACAGTCGCCAGACACGCCC
* **.** **.** ** ***********.*****.**.**.** ** **
C1 ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
C2 ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
C3 ATTGGGCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
C4 ATCGGTCGGGTCTATGTCTACGACCTGGACGACTGGGATCTGCCCGACAA
C5 ATTGGTCGAGTCTATGTCTACGATCTGGATGACTGGGATCTGCCCGACAA
C6 ATTGGTAGGGTCTATGTCTACGATCTGGATGATTGGGATCTGCCCGACAA
C7 ATTGGTCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGATAA
C8 ATCGGTCGAGTTTATGTCTACGATTTGGACGATTGGGATCTGCCCGACAA
C9 ATTGGTCGAGTTTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
C10 GTTGGTCGAGTCTACGTGTACGATTTGGACGACTGGGATCTGCCCGACAA
.* ** .*.** ** ** ***** **** ** ************** **
C1 GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAAG
C2 GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAGG
C3 GAAGTTCTACTGGGAGGCCATGGAGCATCCTCGGTTCAAGTTGGATGAGG
C4 GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGCTTCAAGTTGGACGAGG
C5 GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGCTGGACGAGG
C6 GAAGTTTTACTGGGAGGCCATGGAACATCCGCGCTTCAAGTTGGACGAGG
C7 GAAGTTCTACTGGGAGGCCATGGAGCATCCGAGATTCAAGTTGGATGAGG
C8 GAAGTTCTACTGGGAGGCCATGGAACATCCGCGATTCAAGTTGGACGAGG
C9 GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGTTGGATGAGG
C10 GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGTTTCAAGTTGGACGAGG
****** ** **************.***** .* ****** **** **.*
C1 ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGTGAAGGACGCTATCAT
C2 ATTCCGGCATGGTAACAATGCGTGCAGGAACTCGCGAAGGGCGTTATCAT
C3 ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGCGAAGGACGATATCAT
C4 ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGCTATCAT
C5 ACTCCGGCATGGTCACCATGCGGGCAGGAACCCGCGAAGGACGTTACCAC
C6 ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGTTACCAT
C7 ATTCCGGCATGGTCACCATGAGAGCTGGAACTCGCGAAGGACGCTATCAT
C8 ATTCTGGTATGGTAACAATGAGGGCCGGAACTCGCGAAGGAAGATATCAT
C9 ATTCCGGCATGGTCACCATGCGGGCAGGCACTCGCGAGGGACGTTATCAT
C10 ATTCCGGCATGGTCACCATGAGAGCGGGAACTCGCGAGGGGCGATACCAT
* ** ** *****.** ***.* ** **.** ** **.**..* ** **
C1 CTCAGGTTCAAGGTCTACGATAGGAAGCACACTCAAACCGATATACCAGC
C2 CTCAGGTTCAAGGTCTACGATCGGAAGCACACTCAAACCGATATACCAGC
C3 CTCAGGTTCAAGGTCTATGATCGGAAGCACACTCAAACCGATATACCAGC
C4 CTCAGGTTCAAGGTCTACGACCGCAAGCACACGCAAACCGACATACCAGC
C5 CTTAGGTTCAAGGTCTACGATCGTAAGCACACCCAGACCGACATACCCGC
C6 CTCAGGTTTAAGGTCTACGATCGTAAGCACACCCAAACCGATATACCAGC
C7 CTTAGGTTTAAAGTCTACGATCGTAAGCACACTCAAACCGATATTCCAGC
C8 CTCAGGTTCAAGGTGTACGATCGGAAGCACACTCAGACCGATATCCCCGC
C9 CTCAGGTTCAAGGTCTACGATCGCAAACACACCCAAACCGACATTCCAGC
C10 CTCAGGTTCAAGGTGTACGACCGCAAGCACACCCAAACTGATATTCCGGC
** ***** **.** ** ** .* **.***** **.** ** ** ** **
C1 CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
C2 CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
C3 CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
C4 CAATGTCACGGTTACGGTGAGGGAAATTCCCCATGAAGCCGTCATCAACT
C5 CAATGTCACGGTTACGGTGAGGGAAATTCCTCACGAAGCTGTTATAAACT
C6 CAATGTCACGGTTACGGTGAGGGAGATTCCCCATGAAGCTGTTATAAACT
C7 CAATGTCACAGTTACTGTGCGGGAAATACCTCACGAAGCTGTTATAAACT
C8 CAATGTCACAGTTACAGTGAGAGAAATTCCTCACGAAGCAGTCATAAATT
C9 CAATGTCACGGTTACCGTGAGGGAAATCCCCCATGAAGCTGTCATAAATT
C10 CAATGTCACGGTCACAGTAAGGGAAATCCCCCACGAGGCTGTCATCAATT
****** **.** ** **..*.**.** ** ** **.** ** .*.** *
C1 CGGGATCCGTACGTCTATCAGGCATTTCGGATGAGGACTTTATTCGAGTC
C2 CCGGATCCGTACGTCTATCAGGCATTTCAGATGAGGACTTTATTCGAGTC
C3 CGGGATCCGTACGTCTATCGGGCATTTCTGATGAGGACTTTATTCGAGTC
C4 CGGGATCCGTACGCCTGTCTGGAATTTCGGATGAGGACTTTATTCGCGTG
C5 CGGGCTCCGTACGCCTGTCTGGCATCTCGGACGAAGACTTCATCCGTGTG
C6 CGGGATCCGTACGACTATCTGGCATTTCGGATGAAGACTTCATCCGAGTG
C7 CGGGATCAGTGCGTCTATCAGGCATTTCAGATGAGGATTTCATTCGAGTC
C8 CGGGATCAGTTCGACTGTCTGGAATTTCCGATGAAGACTTCATTCGAGTG
C9 CGGGATCCGTACGCCTGTCTGGCATTTCAGACGAAGACTTCATTCGCGTG
C10 CGGGATCAGTGCGCCTGTCTGGCATCTCGGACGAAGACTTCATTCGAGTG
* **.**.** ** **.** **.** ** ** **.** ** ** ** **
C1 TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG
C2 TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG
C3 TGGAACTACAGAACACAAAGCATGAGCCGCTCGAAGATGGATCGGTTTAG
C4 TGGAACTACAGAACCCAAAGCATGAGTCGCTCGAAGATGGATCGTTTCCG
C5 TGGAACTACAGGACCCAGAGCATGAGTCGCTCCAAAATGGATCGTTTCCG
C6 TGGAACTATAGGACCCAGAGCATGAGTCGCTCAAAAATGGATCGCTTCAG
C7 TGGAACTATAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGCTTCAG
C8 TGGAACTACAGGACCCAGAGCATGAGCCGCTCGAAAATGGATCGTTTCAG
C9 TGGAATTACAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGTTTCAG
C10 TGGAACTACAGGACGCAGAGCATGAGTCGCTCCAAAATGGATCGGTTTAG
***** ** **.** **.******** ***** **.******** ** .*
C1 GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGATATAT
C2 GGATAAGCTGGCTGACTTACTAAACACTGAAAGGGAAAATGTTGATATTT
C3 GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGACATAT
C4 GGACAAGCTGGCGGATTTACTGAACACCGAACGGGAGAACGTGGATATAT
C5 GGATAAACTGGCTGACTTACTGAACACCGAGCGGGACAATGTGGACATCT
C6 AGATAAACTGGCTGATTTACTGAATACCGAGAGGGATAATGTTGACATAT
C7 GGATAAGCTGGCTGACTTACTGAACACCGAAAGGGAAAATGTCGATATAT
C8 GGATAAACTGGCTGATTTACTGAATACCGAAAGGGAGAATGTGGATATAT
C9 GGATAAGCTCGCCGACTTGCTGAATACTGAAAGGGAGAACGTGGATATAT
C10 GGACAAGCTTGCCGATCTGCTCAATACCGAAAGGGAGAATGTGGACATAT
.** **.** ** ** *.** ** ** **..**** ** ** ** ** *
C1 TCAGTGTGCAATTGAAGAGGAAACATCCGCCTCTAACGGACGTTAGGTTT
C2 TCAGTGTGCAATTGAAAAGGAAACATCCGCCTCTAACAGACGTTAGGTTT
C3 TCAGTGTGCAGTTGAAGAGGAAACATCCGCCTCTAACGGACGTCAGGTTT
C4 TTAGTGTGCAGCTGAAGAGGAAGCATCCGGCATTAACCGATGTTAGGTTC
C5 TCAGTGTGCAGTTAAAGAGGAAACACCCTCCCCTAACAGATATCAGGTTC
C6 TCAGTGTGCAGCTGAAGAGAAAACACCCTCCTCTAACTGACATCAGGTTC
C7 TCAGTGTGCAATTAAAGAGGAAATATCCGCCTCTAACCGATGTTAGATTC
C8 TCAGTGTTCAATTAAAGAGGAAGCATCCACCCCTAACTGATGTTAGGTTC
C9 TCAGTGTGCAATTGAAGAGGAAAAATCCGGCTCTAACTGATATAAGGTTC
C10 TCAGTGTGCAATTGAAGAGGAAAAATCCGCCTTTGACCGATGTCCGGTTC
* ***** **. *.**.**.**. * ** * *.** ** .* .*.**
C1 TCCGCACATGGATCTCCTTACTATAAACCAGTTAGGCTAAATGGAATTGT
C2 TCCGCACACGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT
C3 TCCGCACATGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT
C4 TCGGCCCACGGATCGCCGTACTACAAGCCGGTTAGGCTGAATGGCATTGT
C5 TCGGCCCACGGATCCCCCTACTACAAGCCAGTTAGGCTAAACGGCATTGT
C6 TCGGCTCATGGGTCTCCCTACTACAAACCAGTTAGGCTAAATGGCATTGT
C7 TCGGCCCATGGATCTCCGTACTACAAACCTGTGAGGCTAAATGGCATTGT
C8 TCCGCCCATGGCTCTCCGTACTACAAACCTGTAAGACTAAATGGAATTGT
C9 TCAGCCCATGGATCTCCGTACTACAAACCCGTGAGGCTAAATGGCATTGT
C10 TCGGCCCACGGATCGCCGTACTACAAGCCCGTCAGGCTGAACGGCATTGT
** ** ** ** ** ** ***** **.** ** **.**.** **.*****
C1 ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATTAATATCACCA
C2 ACTGATGCACCGCGAGGAGATCGAAAAGGATGTTGGCATCAATATCACCA
C3 ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGTATCAATATCACCA
C4 TCTCATGCACCGCGAGGAGATCGAAAAGGACGTGGGCATCAATATCACCA
C5 CCTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATAACCA
C6 CTTGATGCATCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
C7 TCTGATGCATCGCGAGGAGATCGAAAAGGATGTCGGCATCAATATCACCA
C8 GCTGATGCACCGCGAGGAAATTGAAAAAGATGTGGGTATTAACATCACAA
C9 TTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
C10 CTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
* ***** ********.** *****.** ** ** ** ** **.**.*
C1 TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGT
C2 TGGTGGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGCAGC
C3 TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGC
C4 TGGTGGGCATCGACGAGTGCCTGTATGAGAATCAGATGTGCGAGGGTAGC
C5 TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC
C6 TGGTGGGCATTGATGAGTGTCTGTATGAAAACCAAATGTGCGAGGGTAGC
C7 TGGTTGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGTAGC
C8 TGGTGGGAATCGATGAGTGTTTCTACGAGAATCAAATGTGCGAGGGTAGC
C9 TGGTGGGCATCGATGAATGTCTGTATGAGAATCAAATGTGCGAGGGTAGC
C10 TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC
**** **.** ** **.** * ** **.** **.*********** **
C1 TGCACAAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA
C2 TGCACGAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA
C3 TGCACGAACTCCCTGGAAATCAGTCCACTGCCCTACATGGTAAACGCCAA
C4 TGCACGAATGCGCTGGAAATCAGTCCCCTGCCCTATATGGTGAATGCCAA
C5 TGCACGAATTCCCTGGAAATCAGCCCCCTGCCCTACATGGTCAACGCCAA
C6 TGCACGAATGCCCTGGAAATCAGTCCCCTGCCCTATATGGTTAATGCCAA
C7 TGCACAAATGCCCTAGAAATCAGTCCTTTGCCTTATATGGTTAATGCCAA
C8 TGCACCAATTCCCTGGAAATTAGTCCTCTTCCTTATATGGTAAATGCCAA
C9 TGCACAAATGCCCTGGAAATAAGTCCGTTGCCATATATGGTAAATGCCAA
C10 TGCACGAATTCCCTGGAAATCAGTCCCCTACCCTACATGGTGAATGCCAA
***** ** * **.***** ** ** * ** ** ***** ** *****
C1 CAAAACTGCCTTGGTCGGTGTTCGTGTGGATACCATTGCTGACTGTACTT
C2 CAAAACTGCCTTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT
C3 CAAAACTGCCCTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT
C4 CAAGACTGCCCTGGTCGGCGTGCGAGTGGACACCATTGCCGACTGTACTT
C5 CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATCGCGGACTGTACTT
C6 CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATTGCAGACTGTACTT
C7 CAAAACTGCCTTGGTGGGTGTTCGAGTGGATACCATTGCTGATTGTACTT
C8 TAAGACAGCTTTAGTTGGAGTTCGAGTGGACACCATTGCTGATTGCACTT
C9 CAAAACTGCCTTGGTCGGAGTTCGAGTGGACACGATTGCCGACTGTACCT
C10 TAAAACTGCTTTGGTCGGTGTTCGAGTGGACACCATTGCGGACTGTACTT
**.**:** *.** ** ** **:***** ** ** ** ** ** ** *
C1 GTGGTGCTCGCAATTTCACCAAACCAGAATCCTGTCGAACCACACCCTGT
C2 GTGGTGCTCGCAACTTCACCAAACCAGAATCCTGCCGAACCACACCCTGT
C3 GTGGCGCTCGCAACTTCACCAAACCCGAGTCCTGCCGAACCACACCCTGT
C4 GCGGAGCTCGCAACTTCACCAAGCCCGAATCCTGCCGGACGACTCCCTGC
C5 GTGGTGCTCGTAACTTCAGCAAACCCGAATCCTGCCGCACAACTCCCTGC
C6 GTGGGGCCCGTAACTTCAGTAAACCCGAGTCCTGCCGAACAACTCCCTGT
C7 GTGGTGCCCGTAACTTCAGCAAGCCTGAGTCCTGCCGAACAACTCCGTGT
C8 GTGGAGCTCGTAACTTCACTAAACCGGAATCCTGCCGAACTACTCCGTGT
C9 GTGGTGCTCGCAACTTCTCCAAGCCCGAATCCTGTCGAACCACGCCCTGT
C10 GCGGTGCTCGCAACTTCACCAAACCGGAATCGTGTCGCACCACACCCTGT
* ** ** ** ** ***: **.** **.** ** ** ** ** ** **
C1 CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCGTG
C2 CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG
C3 CACAATGGTGGGCGTTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG
C4 CACAATGGAGGCCGATGTGTGGACACCAGATTCGGTCCGCATTGCTCGTG
C5 CACAATGGTGGCCGTTGTGTGGACACCAGGTTTGGTCCCCATTGCTCGTG
C6 CACAATGGTGGACGTTGTGTAGACACCAGATTTGGACCCCATTGCTCGTG
C7 CACAATGGTGGACGTTGTGTAGATACCAGATTTGGTCCTCACTGCTCGTG
C8 CACAATGGTGGTCGTTGTGTGGACACCAGATTTGGTCCCCATTGCTCGTG
C9 CACAACGGTGGACGTTGTGTGGACACCAGATTTGGACCCCACTGCTCTTG
C10 CACAATGGCGGACGTTGTGTGGACACCAGATTTGGGCCCCACTGCTCGTG
** ** ** ** ** *****.** *****.** ** ** ** ***** **
C1 TCCTGTGGGATACACGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC
C2 TCCTGTGGGATACGCGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC
C3 TCCCGTGGGATACACGGGACCCAGGTGCCAGCAAACCACTCGCAGTTTCC
C4 TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAGACCACTCGCAGCTTCC
C5 TCCGGTGGGCTATGCAGGTCCCAGATGCCAGCAGACGACCCGTAGTTTCC
C6 TCCGGTGGGCTATGCAGGTCCCAGATGTCAGCAGACCACTCGAAGTTTCC
C7 TCCTGTGGGCTATGCTGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC
C8 TCCTGTGGGTTATGCAGGTCCTCGGTGTCAGCAAACCACTCGCAGTTTCC
C9 TCCAGTGGGCTATGCCGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC
C10 TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAAACCACGCGCAGTTTCC
*** ***** ** .* **:** .*.** *****.** ** ** ** ****
C1 GTGGAAACGGTTGGGCCTGGTATCCTCCCTTGGAAATGTGCGATGAATCG
C2 GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGATGAATCG
C3 GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGACGAATCG
C4 GTGGAAACGGCTGGGCCTGGTATCCTCCGCTGGAGATGTGTGACGAGTCG
C5 GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG
C6 GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG
C7 GAGGAAACGGCTGGGCCTGGTACCCTCCTCTGGAAATGTGCGACGAATCT
C8 GAGGGAACGGATGGGCCTGGTATCCTCCCCTCGAAATGTGCGACGAATCG
C9 GTGGAAACGGCTGGGCCTGGTATCCACCTCTTGAAATGTGCGACGAGTCG
C10 GTGGCAACGGTTGGGCCTGGTATCCTCCCCTTGAAATGTGCGACGAGTCG
*:** ***** *********** **:** * **.***** ** **.**
C1 CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA
C2 CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA
C3 CATTTAAGTCTGGAGTTTATTACCCGAAAGCCCGACGGCTTAATCATCTA
C4 CATTTGAGCCTGGAGTTTATCACTCGAAAGCCCGATGGCCTGATCATCTA
C5 CATTTGAGTCTGGAGTTCATTACCCGCAAGCCCGATGGCCTGATCATCTA
C6 CATTTGAGTCTGGAATTCATCACCCGCAAGCCTGATGGCCTGATCATTTA
C7 CATTTAAGTTTGGAATTTATTACCAGAAAACCAGATGGTCTAATCATTTA
C8 CATTTGAGTTTGGAGTTCATAACCCGGAAACCCGATGGTTTGATTATCTA
C9 CATTTGAGTCTGGAGTTTATCACCCGAAAACCCGATGGTCTCATCATCTA
C10 CATTTGAGTCTGGAGTTTATTACCCGAAAACCCGACGGTCTCATCATCTA
*****.** ****.** ** ** .* **.** ** ** * ** ** **
C1 CAACGGTCCAATTGTTCCTCCAGAACGAGATGAGACGCTCATCTCAGATT
C2 CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCGGATT
C3 CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCCGATT
C4 CAATGGACCGATTGTTCCGCCCGAACGCGATGAGACGCTGATATCCGACT
C5 CAATGGACCCATAGTTCCCCCCGAACGGGACGAGACGCTCATATCCGACT
C6 CAATGGACCCATAGTTCCGCCAGAACGGGATGAGACGCTCATATCCGACT
C7 CAATGGACCTATTGTTCCACCAGAACGAGATGAGACGCTTATATCAGATT
C8 CAACGGACCTATTGTTCCGCCGGAAAGGGATGAAATGGTTATATCAGATT
C9 CAACGGACCCATTGTTCCACCCGAACGGGATGAGAAGCTTATATCCGACT
C10 CAACGGACCCATTGTGCCGCCAGAGAGGGATGAGAAGCTCATATCGGATT
*** **:** **:** ** ** **..* ** **.* * * **.** ** *
C1 TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGACTTT
C2 TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGATTTC
C3 TTATTGCCCTGGAATTGGAACGAGGTTATCCTAGACTGCTTATCGATTTT
C4 TCATTGCCCTGGAACTGGAGCGAGGCTATCCCAGACTCCTCATCGACTTC
C5 TTATTGCCCTGGAACTGGAGCGAGGCTATCCTAGACTACTGATAGACTTT
C6 TTATTGCCCTGGAACTGGAGCGAGGTTATCCCAGACTACTGATAGACTTT
C7 TTATTGCTCTAGAATTGGAGCGAGGTTATCCTAGACTCCTTATCGACTTC
C8 TCATTGCCTTGGAATTGGAGAGAGGTTATCCCAGACTCCTTATTGATTTC
C9 TTATTGCCCTGGAATTGGAGCGTGGTTATCCCAGGCTCCTCATCGACTTC
C10 TCATTGCCCTGGAATTGGAGCGAGGCTACCCCAGACTCCTCATCGACTTC
* ***** *.*** ****..*:** ** ** **.** ** ** ** **
C1 GGTTCGGGAACTTTGGAGCTGAGGGTGAAGACGAAGAAGACTTTGGACGA
C2 GGCTCGGGAACTTTGGAGCTGAGAGTGAAGACTAAGAAGACGCTGGACGA
C3 GGCTCGGGAACTTTGGAGCTGAGAGTAAAGACGAAGAAGACTTTGGACGA
C4 GGTTCGGGCACCTTGGAACTGAGGGTGAAGACCAAAAAGACTCTGGACGA
C5 GGCTCGGGAACTTTGGAACTGCGAGTGAAGACCAAAAAGACTTTGGACGA
C6 GGTTCGGGCACCTTGGAGCTGCGAGTGAAGACCAAAAAGACTTTGGACGA
C7 GGTTCGGGAACTTTGGAACTGAGAGTGAAGACCAAGAAGACCTTGGACGA
C8 GGTTCGGGAACTTTGGAGTTGAGAGTGAAGACCAAGAAGACTTTGGATGA
C9 GGTTCGGGAACCTTGGAACTAAGAGTGAAGACCAAGAAGACATTGGACGA
C10 GGTTCGGGAACCTTGGAGCTGAGAGTGAAGACCAAGAAGACATTGGACGA
** *****.** *****. *..*.**.***** **.***** **** **
C1 CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGTA
C2 CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGAA
C3 TGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGCA
C4 CGGTGAGTGGCACAGGATCGATCTGTTTTGGGACACCGAGAGCATTCGCA
C5 TGGTGAGTGGCACAGGATCGACCTGTTCTGGGACACCGAAAGCATTCGCA
C6 TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA
C7 TGGTGAATGGCATAGGATCGATCTGTTCTGGGACACCGAATCCATTCGCA
C8 TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA
C9 CGGTGAGTGGCACAGAATCGATCTGTTTTGGAATACCGAAAGCATTCGCA
C10 CGGGGAGTGGCACAGGATCGACCTGTTCTGGAATACCGAAAGCATTCGCA
** **.***** **.***** ***** ***.* *****.: ****** *
C1 TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAGGATGGC
C2 TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAAGATGGC
C3 TGGTTGTCGACTTTTGCAAATCAGCAGAAATTGCAGAAATGGAGGATGGC
C4 TGGTGGTGGACTTCTGCAAGTCGGCGGAAATAGCCGAAATGGAGGACGGC
C5 TGGTGGTGGACTTCTGTAAGTCGGCGGAAATCGCCGAAATGGAGGATGGC
C6 TGGTGGTGGACTTCTGTAAGTCGGCGGAAATTGCCGAAATGGAGGATGGC
C7 TGGTCGTGGACTTCTGTAAATCAGCGGAGATTGCCGAAATGGAGGATGGT
C8 TGGTTGTTGACTTTTGCAAGTCAGCTGAGATTGCCGAAATGGAGGATGGC
C9 TGGTTGTGGACTTCTGCAAATCAGCGGAGATAGCCGAAATGGAGGATGGA
C10 TGGTTGTGGACTTTTGCAAATCGGCAGAGATTGCCGAAATGGAGGATGGC
**** ** ***** ** **.**.** **.** **.********.** **
C1 ACTCCGCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
C2 ACTCCCCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
C3 ACTCCGCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATCCC
C4 ACTCCGCCGGAGTTCGATGACATGACCTGCCAGGCGAGGGGTCAAATCCC
C5 ACTCCGCCGGAATTCGACGACATGTCCTGCCAGGCGAGGGGACAGATTCC
C6 ACTCCTCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAGATTCC
C7 ACTCCACCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
C8 ACTCCGCCGGAGTTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
C9 ACTCCGCCCGAATTCGATGATATGTCCTGCCAGGCGAGAGGACAAATTCC
C10 ACGCCGCCGGAGTTCGACGATATGTCGTGTCAGGCGAGGGGACAAATTCC
** ** ** **.***** ** ***:* ** ********.**:**.** **
C1 GCCATTTAATGAGTACCTCAACGTTAATGCTCCTCTGCAAGTGGGTGGCC
C2 GCCATTTAATGAGTACCTCAACGTGAATGCTCCTTTGCAAGTGGGTGGTC
C3 GCCATTTAACGAGTACCTCAATGTAAATGCTCCTCTACAAGTGGGTGGCC
C4 GCCGTTCAATGAGTATCTCAATGTGAATGCTCCCCTGCAGGTGGGCGGCT
C5 GCCGTTCGACGAGTATCTCAATGTCAATGCTCCCTTGCAAGTGGGCGGCT
C6 GCCATTCGATGAGTATCTCAATGTTAATGCTCCTCTGCAAGTGGGTGGTT
C7 GCCATTCAATGAGTACCTTAATGTTAATGCTCCCTTGCAAGTGGGTGGAT
C8 GCCATTCAATGAGTATCTGAATGTGAATGCTCCTTTGCAAGTGGGTGGTT
C9 GCCATTTGATGAGTACCTGAATGTAAATGCTCCTCTGCAAGTGGGTGGCT
C10 ACCCTTTGATGAGTATCTCAATGTGAATGCTCCTCTGCAAGTGGGTGGCC
.** ** .* ***** ** ** ** ******** *.**.***** **
C1 TATATCGGGAACAGTTCGATCAGAGTCTGTACTTCTGGCACTATATGCCC
C2 TATATCGGGAACAGTTTGATCAGAGTCTGTACTTCTGGCACTATATGCCA
C3 TATATCGGGAACAATTTGATCAGAGTCTGTACTTCTGGCACTATATGCCC
C4 TGTACCGGGAACAGTTCGATCAGAGCCTCTACAACTGGCACTACATGCCC
C5 TGTACCGGGAACAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC
C6 TGTACCGCGAGCAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC
C7 TATATCGAGAGCAATTCGATCAGAGTCTGTATTTCTGGCACTACATGCCC
C8 TGTACCGCGAACAATTTGATCAGAGCGTTTACTATTGGCACTATATGCCC
C9 TATACCGCGAGCAGTTCGATCAAAGTCTGTACTTCTGGCACTATATGCCC
C10 TGTACCGGGAACAGTTTGACCAGAGCCTCTACTTCTGGCACTATATGCCC
*.** ** **.**.** ** **.** * ** :: ******** *****.
C1 ACGGCCAAGGGATTTGATGGCTGCATCAGAAATTTGGTGCATAACTCAAA
C2 ACGGCCAAAGGATTTGATGGCTGCATCAGAAATTTGGTGCACAACTCAAA
C3 ACGGCGAAGGGATTCGATGGGTGCATCAGAAATTTGGTGCATAACTCAAA
C4 ACGGCCAAGGGTTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCAA
C5 ACGGCCAAGGGCTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCGA
C6 ACGGCCAAGGGCTTCGATGGTTGTATCAGAAACTTGGTGCATAACTCCAA
C7 ACTGCCAAGGGTTTCGATGGCTGCATCCGAAATTTGGTCCACAATTCGAA
C8 ACGGCCAAGGGATTCGATGGTTGCATCCGGAACTTGGTTCACAACTCAAA
C9 ACGGCCAAGGGTTTCGATGGTTGCATCAGGAATTTGGTTCACAACTCCAA
C10 ACGGCCAAGGGCTTCGATGGCTGCATCAGGAACTTGGTTCACAACTCCAA
** ** **.** ** ***** ** ***.*.** ***** ** ** ** .*
C1 ACTCTATGATCTGGCCCATCCTGGATTGTCGAGAAATAGCGTCGCGGGTT
C2 ACTCTATGATCTGGCCCATCCTGGTCTGTCGAGAAATAGTGTCGCGGGCT
C3 GCTCTATGATCTGGCCCATCCTGGTCTTTCGAGAAATAGCGTCGCGGGTT
C4 GCTCTACGATCTGGCTCATCCGGGACTGTCGAGGAATAGCGTGGCGGGCT
C5 GCTCTACGATCTTGCTCATCCGGGACTGTCGAGGAACAGTGTGGCGGGTT
C6 GCTCTATGATCTTGCTCATCCGGGACTGTCGAGGAATAGTGTGGCTGGTT
C7 ACTTTATGATCTGGCTCATCCGGGACTCTCGAGGAATAGTCTTGCAGGTT
C8 GCTTTATGATTTAGCTCATCCGGGACTATCGAGGAATAGTGTGGCGGGTT
C9 GCTCTACGATCTGGCGCATCCGGGACTTTCGAGGAACAGTATGGCAGGTT
C10 GCTCTATGACCTTGCTCATCCGGGACTCTCGCGGAACAGTGTGGCGGGTT
.** ** ** * ** ***** **: * ***.*.** ** * ** ** *
C1 GTCCTCAAACCGAGGAAGTTTGTGCTCAAACTGAAACCACAGCTCGCTGC
C2 GTCCTCAAACCGAGGAAGTTTGTGCTCAAACGGAAACCACAGCTCGCTGC
C3 GTCCGCAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACAGCTCGGTGC
C4 GTCCGCAAACCGAGGAGGTTTGCGCCCAAACGGAGACCACAGCCCGGTGC
C5 GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACTGCCCGTTGC
C6 GTCCGCAAACCGAGGAAGTGTGCGCCCAAACGGAAACCACAGCCCGTTGC
C7 GTCCACAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACATCTCGGTGC
C8 GTCCGCAAACCGAGGAGGTCTGTGCCCAAACGGAGACCACGGCTCGTTGC
C9 GTCCACAAACGGAGGAAGTTTGCGCCCAAACGGAGACCACAGCTCGTTGC
C10 GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACGGCTCGTTGC
**** ***** *****.** ** ** ***** **.***** * ** ***
C1 TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG
C2 TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG
C3 TGGGAACACGGAAATTGTGTTGGGTCCTTGTCCGAAGCGCGTTGCCATTG
C4 TGGGAGCATGGAAACTGTGTTGGTTCCCTGTCCGAAGCTCGCTGCCATTG
C5 TGGGAACACGGAAATTGCGTGGGTTCCCTGTCCGAAGCTCGTTGCCACTG
C6 TGGGAACATGGAAATTGCGTGGGATCCCTGTCCGAAGCTCGCTGCCATTG
C7 TGGGAACATGGAAATTGTGTTGGATCGTTGTCCGAGGCTCGATGCCATTG
C8 TGGGAACATGGAAACTGTGTTGGATCCTTGTCTGAGGCTCGATGCCATTG
C9 TGGGAACATGGAAATTGTGTGGGATCCCTGTCCGAAGCCCGATGCCATTG
C10 TGGGAACACGGAAATTGTGTGGGGTCCCTGTCCGAGGCCCGATGCCATTG
*****.** ***** ** ** ** ** **** **.** ** ***** **
C1 TCGACCAGGATGGACAGGTCCGGCCTGTAATATCCCTACAATACCCACTA
C2 TCGACCGGGATGGACAGGTCCTGCCTGTAATATCCCTACGATACCCACTA
C3 TCGACCGGGATGGACAGGTCCTGCCTGTAATATTCCTACAATACCCACTA
C4 CCGGCCAGGTTGGACTGGTCCTGCCTGTAATATTCCCACCATACCCACCA
C5 TCGACCTGGTTGGACGGGCCCTGCCTGTAATATTCCCACCATACCCACCA
C6 TCGACCTGGTTGGACGGGTCCTGCCTGTAACATTCCCACCATACCCACCA
C7 CCGACCGGGTTGGACAGGACCTGCCTGTAACATTCCTACAATACCCACAA
C8 TCGACCGGGTTGGACAGGTCCTGCCTGCAATATCCCCACAATTCCCACCA
C9 TCGACCAGGGTGGACGGGTCCTGCCTGTAATATTCCCACAATACCCACCA
C10 TCGACCGGGCTGGACAGGTCCTGCCTGCAATATTCCCACCATACCCACCA
**.** ** ***** ** ** ***** ** ** ** ** **:***** *
C1 CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT
C2 CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT
C3 CCTTCAAGGCCCAGAGCTATGTGAAATATGCTCTGAGTTTCGAGCCCGAT
C4 CCTTCAAGGCCCAGAGTTATGTGAAGTACGCTCTGAGCTTCGAACCCGAT
C5 CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT
C6 CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT
C7 CCTTCAAAGCCCAGAGTTATGTAAAATACGCCTTGAGTTTCGAACCGGAT
C8 CCTTCAAGGCCCAAAGTTATGTGAAATATGCCCTGAGTTTCGAGCCAGAT
C9 CTTTCAAGGCGCAGAGCTATGTGAAGTATGCCCTGAGCTTCGAACCAGAT
C10 CCTTCAAGGCGCAGAGCTACGTCAAGTATGCCCTGAGCTTCGAACCCGAT
* *****.** **.** ** ** **.** ** **** *****.** ***
C1 CGATTCAGCACGCAAGTCCAGCTAAGATTCCGGACAAGAGAGGAGTACGG
C2 CGTTTCAGCACGCAAGTCCAGTTGAGATTCCGGACCAGAGAGGAGTATGG
C3 CGATTCAGCACGCAAGTCCAGCTGAGATTCCGGACAAGAGAGGAGTACGG
C4 CGGTTCAGCACTCAGGTGCAGCTGAGGTTCCGCACGAGGGAGGAGTACGG
C5 CGGTTCAGCACTCAAGTCCAGTTGAGATTCCGCACGAGGGAGGAGTACGG
C6 CGGTTCAGCACTCAAGTCCAGCTGAGATTCCGCACGAGGGAGGAGTACGG
C7 CGTTTCAGCACTCAAGTCCAGTTGAGATTCCGAACAAGAGAGGAGTACGG
C8 CGGTTTAGCACTCAAGTTCAGTTGAGATTCCGCACAAGAGAGGAGTACGG
C9 CGATTCAGCACTCAAGTCCAGCTGAGATTCCGTACCAGAGAGGAGTACGG
C10 CGGTTTAGCACCCAAGTCCAGTTGCGGTTCCGGACGAGGGAGGAGTACGG
** ** ***** **.** *** *..*.***** ** **.******** **
C1 CGAACTTTTCCGAGTTAGCGATCAGCACAATCGGGAATACGGAATCCTTG
C2 CGAACTTTTCCGGGTTAGCGATCAGCACAATCGGGAATACGGAATTCTGG
C3 CGAACTTTTCCGGGTAAGCGATCAGCACAATCGGGAATATGGAATCCTGG
C4 AGAACTGTTCCGTGTTAGCGATCAGCACAATCGGGAGTATGGAATCCTGG
C5 AGAGCTCTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGTATTCTGG
C6 AGAACTTTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGAATTCTGG
C7 CGAACTTTTCCGGGTTAGCGATCAGCATAATCGAGAATATGGAATTCTGG
C8 TGAACTTTTCCGTGTTAGCGATCAGCACAATCGGGAGTACGGAATTCTGG
C9 AGAACTTTTCCGTGTAAGCGATCAGCACAATCGGGAATACGGAATTCTGG
C10 CGAACTGTTCCGGGTCAGCGATCAGCACAATCGGGAGTACGGAATTCTGG
**.** ***** ** *********** *****.**.** **:** ** *
C1 AGATCAAGGATGGTCATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC
C2 AGATCAAGGATGGACATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC
C3 AGATCAAGGATGGGCATCTGCACTTCCGTTACAATCTTAACTCACTGCGC
C4 AGATCAAGGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGT
C5 AGATCAAGGATGGTCACCTCCACTTCCGCTACAATCTGAACTCCCTTCGT
C6 AGATCAAGGATGGTCACCTCCATTTCCGTTACAACCTGAATTCCCTTCGT
C7 AGATCAAAGATGGTCATCTGCACTTCCGTTACAATCTCAACTCCCTTCGT
C8 AGATCAAGGATGGTCATCTTCATTTCCGATACAATCTAAACTCCCTTCGC
C9 AGATCAAGGATGGCCACCTGCACTTCCGATACAATCTGAATTCCCTCCGC
C10 AGATCAAAGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGC
*******.***** ** ** ** ***** ***** ** ** ** ** **
C1 ACTGAAGAAAAGGATCTCTGGCTAAATGCCATAGTAGTAAACGATGGCCA
C2 ACTGAGGAAAAGGATCTCTGGCTGAATGCCATAGTCGTAAACGATGGCCA
C3 ACTGAGGAAAAGGATCTCTGGCTAAATGCCATAGTCGTAAACGATGGCCA
C4 ACCGAGGAAAAGGATCTCTGGCTGAACGCCATAGTGGTCAACGATGGCCA
C5 ACCGAGGAGAAGGATCTGTGGCTGAATGCCATAGTGGTCAATGATGGTCA
C6 ACCGAGGAGAAGGATCTGTGGCTAAATGCCATAGTGGTCAACGATGGTCA
C7 ACTGAAGAAAAGGATCTCTGGCTAAACGCCATAGTGGTTAACGATGGTCA
C8 ACCGAAGAAAGGGATCTCTGGCTGAATGCCATAGTGGTTAACGATGGCCA
C9 ACCGAAGAAAAGGATCTCTGGCTAAATGCCATTGTGGTTAACGATGGCCA
C10 ACCGAGGAGAGGGATCTCTGGCTGAATGCCATTGTGGTCAACGATGGCCA
** **.**.*.****** *****.** *****:** ** ** ***** **
C1 ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT
C2 ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT
C3 ATGGCATGTGGTGAAGGTCAATCGATATGGCTCAGCTGCTACCCTGGAAT
C4 GTGGCACGTGGTGAAGGTCAATCGGTATGGCTCCGCTGCTACCCTGGAAT
C5 GTGGCACGTGGTGAAGGTTAATCGATACGGCTCTGCTGCTACCCTGGAGC
C6 GTGGCACGTGGTGAAGGTTAATCGATATGGCTCTGCTGCTACTCTAGAAT
C7 ATGGCATGTGGTGAAGGTAAATCGATATGGATCTGCTGCTACCTTGGAGT
C8 ATGGCACGTGGTGAAGGTGAATCGGTATGGATCCGCTGCTACCCTGGAAT
C9 GTGGCATGTGGTGAAGGTGAATCGTTATGGCTCTGCTGCTACCCTGGAAT
C10 GTGGCATGTGGTGAAGGTAAATCGGTATGGCTCTGCTGCTACCCTGGAAT
.***** *********** ***** ** **.** ******** *.**.
C1 TGGATGGTGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA
C2 TGGATGGCGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA
C3 TGGATGGTGGAGAGGGTCGTCGTTACAACGAGACCTTTGAGTTCGTGGGA
C4 TGGATGGCGGTGAGGGTCGTCGCTACAACGAAACCTTTGAGTTCGTGGGA
C5 TGGATGGTGGAGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGC
C6 TGGATGGTGGAGAAGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGC
C7 TGGATGGAGGAGAGGGTCGTCGCTACAACGAAACCTTTGAATTCGTGGGG
C8 TGGATGGCGGAGAAGGTCGTCGGTATAACGAGACCTTTGAGTTTGTGGGT
C9 TGGATGGAGGCGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGA
C10 TGGACGGCGGCGAGGGTCGACGCTACAACGAGACCTTTGAGTTTGTGGGG
**** ** ** **.*****:** ** *****.********.** *****
C1 CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA
C2 CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA
C3 CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGAAA
C4 CATCAGTGGTTGCTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
C5 CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA
C6 CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA
C7 CATCAGTGGTTGCTGGTGGACAAACAAGAGGGTGTCTATGCAGGCGGAAA
C8 CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
C9 CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
C10 CATCAGTGGCTGTTGGTGGACAAACAGGAGGGTGTCTATGCGGGAGGAAA
** ****** ** **********.**.************** **.**.**
C1 AGCTGAATACACCGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAAA
C2 AGCTGAATACACTGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAGA
C3 AGCTGAATATACTGGAGTGAGAACTTTTGAAGTATACGCTGACTACCAGA
C4 GGCTGAGTACACTGGCGTTAGAACCTTTGAGGTGTACGCAGATTACCAGA
C5 GGCAGAGTACACAGGCGTTAGAACCTTTGAGGTGTACGCTGATTACCAGA
C6 GGCAGAATACACTGGCGTCAGAACCTTTGAGGTATACGCTGATTACCAGA
C7 AGCTGAATACACTGGTGTTAGAACATTTGAGGTGTACGCCGATTACCAGA
C8 AGCTGAATACACTGGCGTGAGAACTTTTGAGGTTTACGCTGATTACCAGA
C9 GGCCGAATACACTGGCGTCAGAACCTTTGAGGTATACGCCGATTACCAGA
C10 GGCCGAGTACACTGGCGTCAGAACATTTGAGGTATATGCTGATTACCAGA
.** **.** ** ** ** ***** *****.** ** ** ** *****.*
C1 AGAGCTGTCTCGATGATATACGTCTCGAAGGCAAACACCTGCCATTGCCA
C2 AGAGCTGTCTCGATGATATACGTCTGGAGGGCAAACACCTGCCATTGCCA
C3 AGAGCTGCCTCGATGATATACGTCTGGAGGGCAAACACCTACCGTTGCCA
C4 AGAGCTGTCTCGACGATATACGTCTTGAAGGCAAACATCTTCCTCTGCCG
C5 AGAGCTGTCTTGATGATATACGTCTCGAAGGCAAACATCTTCCACTGCCA
C6 AGAGCTGTCTCGATGATATACGTCTTGAAGGTAAGCACCTTCCTCTGCCA
C7 AGAGCTGTCTCGATGATATACGACTTGAAGGCAAACATCTTCCTCTGCCA
C8 AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCCCTTCCA
C9 AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCATTGCCA
C10 AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCACTGCCA
******* ** ** ********:** **.** **.** ** ** * **.
C1 CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT
C2 CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT
C3 CCGGCGATGAATGGTACTCAGTGGGGACAGGCCACCATGGCCAGGAATCT
C4 CCGGCCATGAACGGCACCCAATGGGGTCAGGCCACAATGGCAAGGAATCT
C5 CCGGCGATGAATGGCACCCAGTGGGGTCAGGCCACCATGGCCAGGAATCT
C6 CCTGCGATGAATGGTACCCAATGGGGTCAGGCCACAATGGCCAGGAACCT
C7 CCGGCGATGAATGGCACCCAATGGGGACAGGCCACTATGGCCAGGAATCT
C8 CCAGCGATGAATGGCACCCAATGGGGTCAGGCCACGATGGCCAGGAATCT
C9 CCGGCGATGAATGGCACCCAATGGGGACAGGCCACAATGGCCAGGAATCT
C10 CCGGCGATGAATGGCACCCAATGGGGTCAGGCCACCATGGCCAGGAATCT
** ** ***** ** ** **.*****:***** ** *****.***** **
C1 GGAGAAGGGTTGTCCTTCGAATAAACCATGCTCCAACGTGATTTGCCCCG
C2 GGAGAAGGGTTGTCCCTCGAATAAGCCCTGCTCCAACGTGATCTGCCCCG
C3 GGAGAAGGGTTGTCCCTCGAATAAACCCTGCTCCAACGTGATCTGCCCCG
C4 GGAGAAGGGCTGTCCCTCCAATAAACCCTGCTCGAATGTGATCTGCCCCG
C5 GGAGAAGGGTTGCCCCTCGAATAAACCCTGCTCAAATGTGATCTGCCCCG
C6 GGAGAAGGGTTGTCCCTCGAACAAACCCTGCTCGAATGTGATCTGCCCCG
C7 AGAGAAGGGTTGTCCATCAAATAAACCCTGCTCGAATGTGATCTGCCCCG
C8 CGAGAAGGGTTGTCCCTCAAATAAACCCTGCTCAAATGTGATCTGCCCCG
C9 GGAGAAGGGTTGTCCTTCAAATAAACCCTGCTCGAATGTAATCTGCCCCG
C10 GGAGAAGGGTTGTCCTTCGAACAAACCCTGCTCGAATGTTATCTGCCCCG
******** ** ** ** ** **.**.***** ** ** ** *******
C1 ATCCGTTCGAGTGCGTAGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
C2 ATCCGTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
C3 ATCCGTTCGAGTGTGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
C4 ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
C5 ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
C6 ATCCCTTCGAGTGCGTGGATCTTTGGAATGTCTACGAGTGCACTTGCGGC
C7 ATCCCTTCGAATGCGTAGACCTCTGGAATGTTTACGAGTGCACTTGCGGC
C8 ATCCCTTCGAATGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
C9 ATCCTTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
C10 ATCCCTTCGAATGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
**** *****.** **.** ** ******** ******************
C1 GAAGGACGCATTATGTCACCCGATTCCAAGGGCTGTATGGATCGCAACGA
C2 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
C3 GAAGGACGCATTATGTCTCCAGATTCCAAGGGCTGTATGGATCGCAACGA
C4 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
C5 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
C6 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
C7 GAAGGACGCATTATGTCGCCCGACTCCAAGGGCTGTATGGATCGCAACGA
C8 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
C9 GAAGGACGCGTAATGTCGCCCGATTCCAAGGGATGTATGGATCGCAACGA
C10 GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
*********.*:***** **.** ********.*****************
C1 ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
C2 ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
C3 ATGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC
C4 GTGCCTCGACATGCCCTGTATGAACGGCGCGACTTGCATTAATCTCGAGC
C5 GTGCCTCGATATGCCCTGCATGAACGGTGCCACTTGCATCAATCTCGAGC
C6 GTGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC
C7 GTGTCTCGATATGCCCTGTATGAACGGTGCCACTTGCATTAATCTCGAAC
C8 GTGCCTCGATATGCCCTGCATGAACGGGGCCACTTGCATTAACCTCGAGC
C9 GTGTCTCGATCTGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
C10 GTGTCTCGATATGCCCTGTATGAACGGTGCCACCTGCATCAATCTCGAGC
.** ***** .******* ***** ** ** ** ***** ** *****.*
C1 CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT
C2 CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT
C3 CCCGACTCCGATATCGTTGTATATGTCCAGATGGATTTTGGGGCGAGAAT
C4 CCCGACTTCGATATCGTTGCATATGTCCCGATGGTTTCTGGGGCGAGAAT
C5 CCCGACTGCGCTATCGTTGCATATGTCCCGACGGTTTCTGGGGCGAGAAC
C6 CCCGACTCCGATATCGTTGCATCTGTCCCGATGGTTTCTGGGGCGAAAAC
C7 CCCGACTTCGATATCGTTGCATTTGTCCAGATGGTTTCTGGGGCGAGAAT
C8 CCCGACTTCGATATCGTTGCATTTGCCCCGATGGTTTTTGGGGCGAGAAT
C9 CCCGTCTGCGGTATCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT
C10 CCCGGCTGCGATACCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT
**** ** ** ** **:** ** ** **.** **:** ********.**
C1 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
C2 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
C3 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
C4 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
C5 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
C6 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
C7 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
C8 TGCGAATTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
C9 TGCGAACTGGTGCAGGAGGGGCAGACCTTAAAGCTCAGCATGGGCGCCCT
C10 TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGTGCCCT
****** ************* ***********.*********** *****
C1 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
C2 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
C3 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
C4 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCCTGGTGT
C5 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT
C6 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT
C7 GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTAT
C8 GGCGGCGATTTTGGTCTGCCTTCTGATCATACTGATACTCGTCCTGGTCT
C9 GGCGGCGATTTTGGTCTGCCTTTTAATCATACTGATACTCGTCTTGGTGT
C10 GGCGGCGATATTGGTGTGCCTTTTAATCATACTGATACTCGTCTTGGTGT
*********:***** ****** *.****************** **** *
C1 TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
C2 TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
C3 TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
C4 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
C5 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGCCCC
C6 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
C7 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCTGGTCCC
C8 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
C9 TCGTCGTATACAATCGTCGGCGTGAGGCGCATATCAAATATCCGGGTCCC
C10 TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
******************* *****.***************** ** ***
C1 GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
C2 GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
C3 GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
C4 GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG
C5 GACGATGATGTGCGCGAGAATATCATCAACTACGACGATGAGGGAGGCGG
C6 GACGATGATGTGCGCGAGAATATCATCAACTATGACGATGAGGGAGGCGG
C7 GATGACGATGTGCGCGAGAATATTATCAACTATGACGATGAGGGAGGCGG
C8 GATGACGATGTACGCGAGAATATCATTAACTACGATGATGAGGGAGGCGG
C9 GATGATGATGTGCGCGAGAATATAATCAACTATGACGATGAGGGAGGCGG
C10 GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG
** ** *****.*********** ** ***** ** ** ***********
C1 CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG
C2 CGAGGATGATATGACGGCCTTTGACATCACACCTCTGCAGATACCAATTG
C3 CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG
C4 CGAGGATGACATGACCGCCTTTGATATCACACCCCTGCAAATACCAATTG
C5 CGAGGACGACATGACCGCCTTCGACATCACACCTCTGCAGATACCAATTG
C6 CGAGGATGATATGACCGCCTTTGATATCACACCTCTGCAGATACCAATTG
C7 CGAGGATGATATGACCGCCTTTGATATCACACCCCTGCAGATACCAATTG
C8 CGAGGATGATATGACTGCCTTTGATATCACCCCGCTCCAGATACCAATTG
C9 CGAGGACGATATGACCGCCTTTGATATCACGCCTCTGCAGATACCAATTG
C10 TGAGGATGATATGACCGCTTTTGATATCACACCTCTGCAGATACCAATTG
***** ** ***** ** ** ** ***** ** ** **.**********
C1 GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C2 GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C3 GAGGGCCAATGCCACCCGAGCTTGCGCCCATGAAAATGCCAATTATGTAT
C4 GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C5 GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C6 GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C7 GAGGGCCAATGCCACCTGAGCTGGCGCCTATGAAAATGCCAATTATGTAT
C8 GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAC
C9 GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
C10 GAGGGCCAATGCCACCAGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
*:************** ***** ***** ********************
C1 CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
C2 CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
C3 CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
C4 CCCGTTATGACCTTAATGCCTGGTCAGGAGCCCAATGTGGGCATGTTCAT
C5 CCCGTGATGACCTTAATGCCAGGGCAGGAGCCCAACGTGGGCATGTTCAT
C6 CCTGTAATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
C7 CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
C8 CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTTGGCATGTTCAT
C9 CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
C10 CCCGTCATGACCCTGATGCCAGGTCAGGAACCCAATGTAGGCATGTTCAT
** ** ****** *.*****:** *****.***** ** ***********
C1 CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
C2 CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
C3 CGAGGAGCATAAAAAGCGAGCCGATGGTGATCCAAATGCGCCACCTTTCG
C4 TGAGGAGCATAAAAAGCGCGCCGATGGTGATCCCAATGCGCCGCCTTTCG
C5 CGAGGAGCATAAAAAGCGCGCCGATGGCGATCCAAATGCGCCGCCCTTCG
C6 TGAGGAGCATAAAAAGCGTGCCGATGGTGATCCTAACGCGCCGCCTTTTG
C7 CGAGGACCATAAAAAGCGCGCCGATGGTGATCCAAACGCGCCGCCTTTCG
C8 CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
C9 TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG
C10 TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG
***** *********** ******** ***** ** *****.** ** *
C1 ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
C2 ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
C3 ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGTTCG
C4 ATGACTTGAGGAATTATGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG
C5 ATGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCA
C6 ACGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
C7 ATGACTTGAGGAATTACGCGTACGAGGGTGGCGGCAGTACAGCTGGATCG
C8 ACGACTTGAGGAACTACGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG
C9 ATGACTTGAGGAATTACGCGTATGAAGGCGGCGGCAGCACTGCCGGATCG
C10 ATGACTTGAGGAATTATGCGTACGAGGGAGGCGGCAGCACTGCCGGATCG
* *********** ** ***** **.** ******** **:** **:**.
C1 CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
C2 CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
C3 CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTACGACTA
C4 CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
C5 CTCAGCTCGCTGGCCTCAGGAACTGACGACGAGCAGCAGGAATACGACTA
C6 CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAATACGACTA
C7 CTTAGCTCATTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGATTA
C8 CTCAGCTCGTTGGCTTCAGGTACTGATGACGAGCAGCAGGAGTACGACTA
C9 CTTAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
C10 CTTAGCTCGTTGGCTTCAGGAACTGACGACGAGCAGCAGGAGTATGACTA
** *****. **** *****:***** **************.** ** **
C1 CCTCGGAGCCTGGGGGCCGCGCTTCGACAAGCTGGCCAACATGTATGGAC
C2 CCTCGGAGCCTGGGGGCCGCGCTTTGACAAGCTGGCCAACATGTATGGAC
C3 CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC
C4 CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC
C5 CCTCGGGGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC
C6 CCTCGGAGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC
C7 CCTTGGAGCCTGGGGACCACGCTTCGACAAGCTGGCCAATATGTATGGAC
C8 CCTCGGAGCTTGGGGGCCACGCTTCGATAAGCTGGCCAACATGTATGGAC
C9 CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC
C10 CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC
*** **.** *****.**.***** ** *********** ***** ****
C1 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C2 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C3 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C4 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C5 CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG---
C6 CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG---
C7 CCGAGGCGCCCAATCCCCATAATACCGAACTAGAATTG---
C8 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C9 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
C10 CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
******************* ** ***************
>C1
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTTCCATTTA
TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTTTCGGCGGAAAATGCG
GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTGGAAAAGTCCTCGTTGTC
GCATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
TCAGTATCAAAAAGTTCAAAACCCATCCTGTAAAGATAAACGGTAGCTCC
CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA
CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC
CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT
GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT
GCTGCGATTTTCTGGATCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
ATCAACCGGCGGGTACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAAAAGGTTCGGTA
CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGTA
AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAATGGC
GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCGCTGGATCGAGA
GGAGAGGGCTCACTATGACCTGTCCGTGGAAGCATCAGATGTCGATGGTT
TAGACAGGACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC
AATAGACCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGACA
GAAATCTGCAAGTATGGAAAGCAACAGTAGTGTGACATATCAGCGATTTG
CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC
TATCGGCTAAAGTCGCCCAGTAATGTTGTCATTATTGTACCCCAAACTGG
CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG
TGATAGCCCACGATCTAAGGTACCCGAGTTTGGTGAGCGCAAAACCCGCG
AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCATTTATAATGCA
ACATCTGGAACACGATGACATCAACAATCACTCACATCATCGAGAGAAAA
GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTGGAAAAGGAGAC
CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
AAACAAACGGAGCTGTGCGAGTTAAAAAGAAGTGGGACTACGAGGAGTTG
GGACCAGAGAAGACTATCGATTTTTGGGTCATCATCACAAATATGGGACA
CAATGCTGGCATTAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGACGAGCCCCCCTATTTCATCAACCGGCCACTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT
CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
GCGATCGGACTGGTGGACGTTTCGAGGTGGACGAGCGTTCTGGTGTCGTG
CGGACCAGGGGCACGGATCTCTTCCAACTGGACATGGAGTATGTGCTGTA
TGTGAAGGCCGAGGATCAAAACGGAAAGGTCGATGATCGCAGGTTTCAGA
GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCGCAG
TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAACCAGAAAAAGGA
TTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTCAACATCGGA
CCCACGTCGGGTATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG
GAGGATTTTCAACCTCCGTTGATCTCACCATTCGCGTTACGGATGTGAAT
GATAACGCGCCGAAGTTCGAGCTGCCCGACTACCAGGCGCACAATGTGGA
CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
CCGATTCCGGATCAAATGCGGAAATCGAATATTTAGTATCCGATGATCAT
TTCGCCGTGGACTCGAACGGAATCATCGTGAACAACAAGCAACTGGATGC
GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG
GTGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT
GGATGAGAATGCCGGGCCAAACACTTTGGTTACCACTGTGGTAGCCTCCG
ACAAGGACGGTGATAACGTGCGGTTTGGATTCGTGGGCGGCGGCACTTCA
TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA
TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA
TGGACGATGGATCTTGTTGTGTGAATGGAGACCAAACTATCCACACCTCA
ACTGCTGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT
GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA
ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG
AATGGACAGGTGAAATACTCAATTGTTCAGCAACCAAATCAGAAAGGCAC
AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAACAAGGTAT
TCGATCGCGAGGGAGATGATGGCAAGTTCGTGTCCGTCACAGTTAAGGCC
ACCGATCAGGGTGATCCCAGTCTAGAGGGTGTCTGCTCCTTCACCGTGGA
AATCACAGATGTAAACGATAATCCGCCACTGTTCGATCGACAGAAATACG
TGGAGAATGTAAAGCAGGATGCCAGCATTGGCACAAACATCCTTCGTGTC
TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT
GACTGCTCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA
TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC
AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC
ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT
AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTTCCAAATAATCAGG
TCTACTACTACATTGTGGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC
GAAATCAATCTGCAAAGTGGGGAGATCTTCACGAAAACCGTATTCGACAG
GGAGAAGAAAGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC
CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAACCCGCCTTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
TGGATCGCGATCAACCCAATGGACGCCCCCAATGGCGTTTCACTGTATTC
GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
CAATCTGAAGGATATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
ATGACAGCCGTGGACTATGACGATCCCAATGAGGGTTCCAATGCGCGGCT
GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA
TTTTTGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
TTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTTGTGGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGACA
TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTTAC
CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT
ACTGGTTCGCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTGGTAAAACTG
AGGGACATCAACGACAATAAGCCGCATTTCGAACGGGCCAATGTGGAGGT
TTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAAAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTATCCTATTCGATCGAT
CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
TACCATTCAACGTTCGCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA
AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACA
CTAACAGTCATCGTCCAGGATATCAACGACAATGCTCCCAAATTCCTCAA
GGATTACAGGCCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG
AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCGCCA
TTCCAGTTCCGTTTGGACCCCAGTGCAGATGACATCATCCGAGCTTCCTT
CAAGGTGGAACAGGATCAAAAGGGTGCCAACGGTGATGGCATGGCTGTGA
TATCGTCCCTAAGATCCTTCGATCGCGAGCAGCAAAAGGAATATATGATT
CCTATTGTAATCAAAGACCATGGTTCCCCGGCAATGACTGGAACTAGTAC
TCTGACCGTCATAATTGGCGACGTGAACGACAACAAAATGCAGCCAGGAT
CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG
ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAAG
ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGTGAAGGACGCTATCAT
CTCAGGTTCAAGGTCTACGATAGGAAGCACACTCAAACCGATATACCAGC
CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
CGGGATCCGTACGTCTATCAGGCATTTCGGATGAGGACTTTATTCGAGTC
TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG
GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGATATAT
TCAGTGTGCAATTGAAGAGGAAACATCCGCCTCTAACGGACGTTAGGTTT
TCCGCACATGGATCTCCTTACTATAAACCAGTTAGGCTAAATGGAATTGT
ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATTAATATCACCA
TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGT
TGCACAAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA
CAAAACTGCCTTGGTCGGTGTTCGTGTGGATACCATTGCTGACTGTACTT
GTGGTGCTCGCAATTTCACCAAACCAGAATCCTGTCGAACCACACCCTGT
CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCGTG
TCCTGTGGGATACACGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC
GTGGAAACGGTTGGGCCTGGTATCCTCCCTTGGAAATGTGCGATGAATCG
CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA
CAACGGTCCAATTGTTCCTCCAGAACGAGATGAGACGCTCATCTCAGATT
TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGACTTT
GGTTCGGGAACTTTGGAGCTGAGGGTGAAGACGAAGAAGACTTTGGACGA
CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGTA
TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAGGATGGC
ACTCCGCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
GCCATTTAATGAGTACCTCAACGTTAATGCTCCTCTGCAAGTGGGTGGCC
TATATCGGGAACAGTTCGATCAGAGTCTGTACTTCTGGCACTATATGCCC
ACGGCCAAGGGATTTGATGGCTGCATCAGAAATTTGGTGCATAACTCAAA
ACTCTATGATCTGGCCCATCCTGGATTGTCGAGAAATAGCGTCGCGGGTT
GTCCTCAAACCGAGGAAGTTTGTGCTCAAACTGAAACCACAGCTCGCTGC
TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG
TCGACCAGGATGGACAGGTCCGGCCTGTAATATCCCTACAATACCCACTA
CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT
CGATTCAGCACGCAAGTCCAGCTAAGATTCCGGACAAGAGAGGAGTACGG
CGAACTTTTCCGAGTTAGCGATCAGCACAATCGGGAATACGGAATCCTTG
AGATCAAGGATGGTCATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC
ACTGAAGAAAAGGATCTCTGGCTAAATGCCATAGTAGTAAACGATGGCCA
ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT
TGGATGGTGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA
CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA
AGCTGAATACACCGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAAA
AGAGCTGTCTCGATGATATACGTCTCGAAGGCAAACACCTGCCATTGCCA
CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT
GGAGAAGGGTTGTCCTTCGAATAAACCATGCTCCAACGTGATTTGCCCCG
ATCCGTTCGAGTGCGTAGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCACCCGATTCCAAGGGCTGTATGGATCGCAACGA
ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
CCTCGGAGCCTGGGGGCCGCGCTTCGACAAGCTGGCCAACATGTATGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C2
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTCCCATTTA
TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG
GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTCGAAAAGTCCTCGTCATT
GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
TCAGCATCAAAAAGTTCAAAACCCATCCTGTGAAAATAAACGGTAGCTCG
CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA
CTTCACCGTACTGGAAGATGGCGTGGTGATGACCACGGCGGATATTTCCC
CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAGCAAACGCCCAAT
GCCACAAATACGCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT
GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
ATCAACCGGCGGGTACCAGGGTGAGGGGAGTGCCCCTGATGCAGGCATTC
AGCGGTTCCATCCTGGACGAGGAACTGGCCACACCCAAGAAGGTTCGGTA
CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGAA
AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAACGGC
GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTCTGGATCGAGA
GGAGCGGGCTCACTATGATCTCTCCGTAGAAGCATCAGATGTCGATGGTT
TGGACAAAACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC
AATAGGCCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGCCA
GAAATCTGCAAATATGGAGAGCAACAGTAGTGTGACGTATCAGCGATTTG
CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC
TATCGGCTGAAGTCGCCCAGTAACGTTGTCATTATTGTACCCCAAACTGG
CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG
TGATAGCCCACGATTTAAGGTACCCGAGTTTGCTGAGCGCAAAACCAGCG
AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA
ACACCTGGAACACGATGAGATCAACAATCACTCACATCACCGAGAGAAAA
GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACGGAA
GCTGATGGAGATACTGAGGGAAAATCGGTGTTCCAGTTGGAGAAGGAAAC
CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
AAACAAATGGAGCTGTTCGAGTGAAGAAGAAGTGGGACTACGAGGAGTTG
GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAATATGGGACA
CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGACGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT
CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
GCGATCGGACCGGCGGACGTTTCGAAGTGGACGAGCGTTCTGGAGTTGTG
CGGACACGGGGCACGGATCTCTTCCAACTGGATATGGAGTATGTGCTGTA
CGTGAAGGCCGAGGATCAGAACGGAAAGGTCGATGATCGCAGGTTCCAGA
GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCCCAG
TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAATCAGAAAAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA
CCCACTTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG
GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC
GATAATGCGCCGAAGTTCGAGCTGCCGGACTACCAAGCCCACAATGTGGA
TGAGGACATTCCATTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
CCGATTCTGGATCGAATGCGGAAATCGAATATCTAGTATCCGATGATCAT
TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC
GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG
GGGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT
GGATGAGAATGCAGGGCCCAACACTTTGGTTACCACTGTGGTAGCCTCCG
ACAAGGATGGTGATAACGTGCGTTTTGGATTCGTGGGCGGCGGCACTTCA
TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA
TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA
TGGACGATGGATCTTGTTGCGTGAATGGAGACCAAACTATCCACACCTCA
ACTGCCGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT
GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA
ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG
AATGGACAGGTGAAATACTCAATTGTTCAGCAGCCAAATCAGAAAGGCAC
AAAGTTCACGGTGGACGAGGAGACCGGCGAGGTGTCCACCAACAAGGTAT
TCGATCGCGAGGGAGATGATGGCAAGTTCGTATCCGTCACAGTTAAGGCC
ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTCTGCTCCTTTACCGTGGA
AATCACAGATGTAAACGATAATCCTCCACTGTTCGATCGACAGAAATACG
TGGAAAATGTAAAGCAGGATGCCAGCATTGGCACGAACATCCTCCGTGTC
TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTGTACAGCCT
GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA
TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAACCCCAC
AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC
ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT
AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTACTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTGGATTCGCCACGAAACGAGGGCAAGGAATTCTTC
GAAATCAACCTGCAAAGTGGGGAAATCTTCACGAAAACCGTATTCGACAG
GGAGAAGAAAGGCGCCTATGCCCTGGAAGTGGAGGCTCGGGATGGAGCCC
CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAATGATAACCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTACCACCGCAATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGTTTCACTGTATTC
GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCGCGACT
GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA
TTTTCGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
CTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTCGTGGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGAGTTAAGGATA
TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTGAC
CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT
ACTGGTTCGCTCAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTAGTCAAGCTG
AGGGACATCAACGACAATAAACCGCATTTCGAACGAGCCAATGTTGAGGT
GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTGTCCTATTCCATCGAT
CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
TACCATTCAACGTTCCCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA
AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACT
CTAACAGTCATCGTGCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA
AGATTACAGACCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG
AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGACCGCCA
TTCCAGTTCCGTTTGGACCCCAGTGCTGATGACATCATCCGTGCTTCCTT
CAAGGTGGAACAGGATCAAAAGGGAGCCAACGGTGATGGCATGGCTGTAA
TATCGTCCCTAAGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC
CCAATTGTAATCAAAGATCATGGTTCACCAGCAATGACTGGAACCAGTAC
CCTGACCGTCATAATTGGCGACGTGAATGACAACAAAATGCAGCCTGGAT
CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG
ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAGG
ATTCCGGCATGGTAACAATGCGTGCAGGAACTCGCGAAGGGCGTTATCAT
CTCAGGTTCAAGGTCTACGATCGGAAGCACACTCAAACCGATATACCAGC
CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
CCGGATCCGTACGTCTATCAGGCATTTCAGATGAGGACTTTATTCGAGTC
TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG
GGATAAGCTGGCTGACTTACTAAACACTGAAAGGGAAAATGTTGATATTT
TCAGTGTGCAATTGAAAAGGAAACATCCGCCTCTAACAGACGTTAGGTTT
TCCGCACACGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT
ACTGATGCACCGCGAGGAGATCGAAAAGGATGTTGGCATCAATATCACCA
TGGTGGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGCAGC
TGCACGAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA
CAAAACTGCCTTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT
GTGGTGCTCGCAACTTCACCAAACCAGAATCCTGCCGAACCACACCCTGT
CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG
TCCTGTGGGATACGCGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC
GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGATGAATCG
CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA
CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCGGATT
TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGATTTC
GGCTCGGGAACTTTGGAGCTGAGAGTGAAGACTAAGAAGACGCTGGACGA
CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGAA
TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAAGATGGC
ACTCCCCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
GCCATTTAATGAGTACCTCAACGTGAATGCTCCTTTGCAAGTGGGTGGTC
TATATCGGGAACAGTTTGATCAGAGTCTGTACTTCTGGCACTATATGCCA
ACGGCCAAAGGATTTGATGGCTGCATCAGAAATTTGGTGCACAACTCAAA
ACTCTATGATCTGGCCCATCCTGGTCTGTCGAGAAATAGTGTCGCGGGCT
GTCCTCAAACCGAGGAAGTTTGTGCTCAAACGGAAACCACAGCTCGCTGC
TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG
TCGACCGGGATGGACAGGTCCTGCCTGTAATATCCCTACGATACCCACTA
CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT
CGTTTCAGCACGCAAGTCCAGTTGAGATTCCGGACCAGAGAGGAGTATGG
CGAACTTTTCCGGGTTAGCGATCAGCACAATCGGGAATACGGAATTCTGG
AGATCAAGGATGGACATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC
ACTGAGGAAAAGGATCTCTGGCTGAATGCCATAGTCGTAAACGATGGCCA
ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT
TGGATGGCGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA
CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA
AGCTGAATACACTGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAGA
AGAGCTGTCTCGATGATATACGTCTGGAGGGCAAACACCTGCCATTGCCA
CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT
GGAGAAGGGTTGTCCCTCGAATAAGCCCTGCTCCAACGTGATCTGCCCCG
ATCCGTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
CGAGGATGATATGACGGCCTTTGACATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
CCTCGGAGCCTGGGGGCCGCGCTTTGACAAGCTGGCCAACATGTATGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C3
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAG
CCGATTTAATATATGCACCTGCGCGATATTTTTGATATCCCTCCCCTTTA
TATTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG
GCTCGCATGTTGGCCGGCAGTCCCGGGGATGTGGAGAAGTCCTCGTCGTC
GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT
TTAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAACGGTAGCTCC
CACTCTGGCGCAGCTGCCTATCACATGCTGGACACTGACTACTCCAAGTA
CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC
CCCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT
GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAACGATAT
GCTGCGATTTTCGGGCTCCCTACTCGATGCCAGTGGTGAAGTCAGGGAGA
ATCAACCGGCGGGCACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAGAAGGTTCGGTA
CACCATTATCGACGGGAACGAGGATGATGCATTCGCTCTGCAGGAACGTA
AGGCCAACAAGAACATACAAATAAGTGCCAAGTCCTTGGTAATTAATGGC
GATGACGAATCCGGCGTTTGGTTGGTCACCAATCGTCCTCTGGATCGAGA
GGAACGGGCGCACTATGATCTCTCCGTGGAAGCTTCAGATGTCGATGGCT
TGGACAAGACAGTTTCCAAAATACAAATCTCCGTGCTGGATGAGAACGAC
AATAGGCCGATTTTCAAGTCGCTGGACTACAAATTCGCCATTGCTGGTCA
GAAATCTGCAAATATGGAGAGCAATAGTAGTGTGACATATCAGCGATTTG
CCATCATGGGAAAAGTTGAGGCCACCGATGCGGATGGTGACAAGATTGCC
TATCGGCTGAAGTCGCCCAGTAATGTTGTTATCATTGTACCTCAAACTGG
CGAAATAATGCTGGCTGGAGAACCCACTTCAAATGAGCTTCTTATCGAGG
TGATAGCCCACGATCTGAGGTATCCCAGTTTGCTGAGCGCAAAACCCGCA
AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA
ACACCTGGAGCACGATGAGGTCAACAATCACTCACATCACCGGGAGAAAA
GACGAGTTACACGAGCGGTGCGACCCACCAAGCGAATTGAGTTCACCGAA
GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTAGAAAAGGAAAC
CGATAAGGAAACATTCAAGATCCGCGATGATAATCCCTGGGTGACGGTGG
AAACAAACGGTGCAGTGCGAGTTAAGAAGAAGTGGGACTACGAGGAACTG
GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAACATGGGACA
CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGATGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAATACTCCAGTGTTTACGCT
TCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC
GCGATCGGACCGGCGGACGTTTTGAGGTGGACGAGCGTTCTGGTGTTGTG
CGGACAAGGGGCACGGATCTCTTCCAACTGGACATGGAGTACGTGCTGTA
CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA
GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCCCCCCAG
TTCTACATGCCCAGCTATGAAGCCGAGATCCCAGAGAACCAGAAAAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC
GCTATACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTCAACATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
GAGGATTTTCCACTTCGGTCGATCTCACCATTCGCGTTACGGATGTGAAC
GATAATGCGCCGAAGTTCGAGCTGCCGGACTATCAAGCTCACAATGTGGA
CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT
CCGATTCCGGTTCAAATGCCGAAATCGAATATTTAGTATCCGATGATCAC
TTCGCCGTGGATTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC
GGATAACAACAATGCCTATTATGAGTTCATAGTCACTGCCAAGGACAAAG
GTGAACCACCGAAGTCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC
AAGAACGACGAGGAGCCCAAGTTCTCCCAACAAGTGTATACCCCCAATGT
GGATGAGAATGCGGGGCCCAACACTTTAGTTACCACTGTGGTAGCCTCCG
ACAAGGACGGTGACAACGTGCGGTTCGGGTTCGTGGGCGGCGGCACTTCA
TCAGGTCAGTTTGTCATCGAAGACATAACCGGTGTGATCCGACTGCACAA
TAAGGCCATATCCCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA
TGGACGATGGATCCTGTTGCGTAAATGGAGACCAAACTATCCACACCTCA
ACGGCCGTGGTCGTGGTATTCATCACCGATGTCAATGATAATAAGCCAGT
GTTCAAGGACTGCAGTACCTATTATCCGAAGGTCGAGGAAGGAGCTCCTA
ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGATGAGGATAAGGGTGTG
AATGGACAGGTGAAATACTCAATAGTTCAGCAGCCAAATCAGAAGGGTAC
AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAATAAGGTTT
TCGATCGCGAGGGCGATGACGGCAAGTTTGTATCCGTCACAGTCAAGGCC
ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTGTGCTCCTTCACCGTGGA
AATCACTGATGTGAACGATAATCCTCCACTGTTCGATCGACAGAAATACG
TGGAGAACGTAAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGCGTC
TCTGCCTCCGATGAAGATGCCGATAATAATGGAGCTATAGTATACAGCCT
GACTGCCCCCTTTAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG
AGTCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGA
TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
CGACGTCGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGTATATACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
AGTTTTTTACCGACTGATGCCCGGGTCAACGGCCCAAACAAACAAGTTTC
ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGATACTTGGGCTGAC
ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAGTACAATTT
AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAGCCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTGGATTCCCCGCGAAACGAGGGCAAGGAGTTCTTC
GAAATCAACCTGCAAAGTGGCGAGATCTTCACGAAGACCGTATTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC
CCTCGGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAACCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC
TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC
ATGACAGCCGTGGACTACGACGATCCCAATGAGGGCTCCAATGCCCGGCT
GGTGTACTCCATTGAAAAGAACGTGATTGAGGAGGAGACGGGGTCCCCAA
TTTTTGAAATCGAGCCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT
TTGGATCGCGAAAGGACTCCGGACTATTCGATACAAGTCGTGGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA
TTAACGATATGCCGCCGCAGTTCACGAAAGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGTACAGCCCTGCCGGAAATGCCCATTTTAACCGTGAC
CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA
ACAGCGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGATGGC
ACTGGTTCACTGAAAATCGTACAGCCCTTGGACTACGAGGATCAGCTGCA
GAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA
ATGACAATGACAAATACCACGTGGCCTACTCGTGGGTTGTGGTTAAATTG
AGGGACATCAACGACAATAAGCCGCACTTCGAACGGGCCAATGTGGAGGT
GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGAAAGAGTAAGGTGTCCTACTCCATCGAT
CGTTCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGCTCCGT
TACCATTCAACGTTCCCTGGACCGCGAAGTTGTTCCACGTCATCAAGTTA
AGATCCTGGCCATCGACGATGGTTCTCCACCGAAAACCGCCACTGCTACA
CTTACAGTCATCGTCCAGGATATCAACGATAATGCACCTAAGTTCCTCAA
GGATTACAGGCCGGTTCTGCCCGAGCATGTCCCTCCACGTAAAGTGGTTG
AGATTCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCACCA
TTCCAGTTCCGTTTGGACCCCAGTGCGGATGACATCATCCGTGCTTCATT
TAAGGTGGAACAAGATCAGAAGGGTGCAAATGGTGATGGAATGGCTGTCA
TTTCCTCCCTGAGATCCTTCGATCGGGAGCAGCAAAAGGAGTACATGATC
CCAATTGTGATCAAGGATCATGGCTCACCAGCGATGACTGGAACCAGTAC
TTTGACCGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCTGGAT
CCAAGGACATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG
ATTGGGCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCTCGGTTCAAGTTGGATGAGG
ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGCGAAGGACGATATCAT
CTCAGGTTCAAGGTCTATGATCGGAAGCACACTCAAACCGATATACCAGC
CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT
CGGGATCCGTACGTCTATCGGGCATTTCTGATGAGGACTTTATTCGAGTC
TGGAACTACAGAACACAAAGCATGAGCCGCTCGAAGATGGATCGGTTTAG
GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGACATAT
TCAGTGTGCAGTTGAAGAGGAAACATCCGCCTCTAACGGACGTCAGGTTT
TCCGCACATGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT
ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGTATCAATATCACCA
TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGC
TGCACGAACTCCCTGGAAATCAGTCCACTGCCCTACATGGTAAACGCCAA
CAAAACTGCCCTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT
GTGGCGCTCGCAACTTCACCAAACCCGAGTCCTGCCGAACCACACCCTGT
CACAATGGTGGGCGTTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG
TCCCGTGGGATACACGGGACCCAGGTGCCAGCAAACCACTCGCAGTTTCC
GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGACGAATCG
CATTTAAGTCTGGAGTTTATTACCCGAAAGCCCGACGGCTTAATCATCTA
CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCCGATT
TTATTGCCCTGGAATTGGAACGAGGTTATCCTAGACTGCTTATCGATTTT
GGCTCGGGAACTTTGGAGCTGAGAGTAAAGACGAAGAAGACTTTGGACGA
TGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGCA
TGGTTGTCGACTTTTGCAAATCAGCAGAAATTGCAGAAATGGAGGATGGC
ACTCCGCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATCCC
GCCATTTAACGAGTACCTCAATGTAAATGCTCCTCTACAAGTGGGTGGCC
TATATCGGGAACAATTTGATCAGAGTCTGTACTTCTGGCACTATATGCCC
ACGGCGAAGGGATTCGATGGGTGCATCAGAAATTTGGTGCATAACTCAAA
GCTCTATGATCTGGCCCATCCTGGTCTTTCGAGAAATAGCGTCGCGGGTT
GTCCGCAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACAGCTCGGTGC
TGGGAACACGGAAATTGTGTTGGGTCCTTGTCCGAAGCGCGTTGCCATTG
TCGACCGGGATGGACAGGTCCTGCCTGTAATATTCCTACAATACCCACTA
CCTTCAAGGCCCAGAGCTATGTGAAATATGCTCTGAGTTTCGAGCCCGAT
CGATTCAGCACGCAAGTCCAGCTGAGATTCCGGACAAGAGAGGAGTACGG
CGAACTTTTCCGGGTAAGCGATCAGCACAATCGGGAATATGGAATCCTGG
AGATCAAGGATGGGCATCTGCACTTCCGTTACAATCTTAACTCACTGCGC
ACTGAGGAAAAGGATCTCTGGCTAAATGCCATAGTCGTAAACGATGGCCA
ATGGCATGTGGTGAAGGTCAATCGATATGGCTCAGCTGCTACCCTGGAAT
TGGATGGTGGAGAGGGTCGTCGTTACAACGAGACCTTTGAGTTCGTGGGA
CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGAAA
AGCTGAATATACTGGAGTGAGAACTTTTGAAGTATACGCTGACTACCAGA
AGAGCTGCCTCGATGATATACGTCTGGAGGGCAAACACCTACCGTTGCCA
CCGGCGATGAATGGTACTCAGTGGGGACAGGCCACCATGGCCAGGAATCT
GGAGAAGGGTTGTCCCTCGAATAAACCCTGCTCCAACGTGATCTGCCCCG
ATCCGTTCGAGTGTGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCTCCAGATTCCAAGGGCTGTATGGATCGCAACGA
ATGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC
CCCGACTCCGATATCGTTGTATATGTCCAGATGGATTTTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT
TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC
GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG
CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCCGAGCTTGCGCCCATGAAAATGCCAATTATGTAT
CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT
CGAGGAGCATAAAAAGCGAGCCGATGGTGATCCAAATGCGCCACCTTTCG
ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGTTCG
CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTACGACTA
CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C4
ATGGCGGCACGACGTTGCCTGAATGAGCTCAGGCAACGGTATATAACCAA
TCGACTCAACATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTAA
TTTTGGCCACCGAAGAGACCACATTTGCTGGCCTCTCGGCGGAAAATGCG
GCTCGCATGCTAGCCGGCAGTCCAGGCGAAGTGGAGAAGTCGCCGTCG--
-CATCACAGCGAAATGTCCTTGGTGCTGCCCCACGACACCTATCCTGGAT
TCAGCATCAAGAAGTTCAAAACCCATCCCGTCAGGATAAACGGCAGCTCG
CATGCCGGCGGTGCCGCCTATCACATGCTCGATAGCGACTACTCCAAGTA
CTTCACGGTACTGGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC
CGCTCGTCAATCGTCCAGTTCAACTGGTGGTCGTTGAACAGACCCCCAAT
GTCACCAACACCCACAACCTCCAGTTGTTCGTGATGCATCGCAACGATAT
GCTGCGTTTTTCCGGGTCGCTACTCGATGCCAGCGGTGAGGTGAGGGAGA
ACCAGCCGGCGGGCACCCGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC
AGTGGTTCCATCCTGGACGAAGAGCTGGCCACCCCGAAGAAGGTGCGCTA
CACCATCATCGATGGCAACGTGGACGACGCGTTTGCCCTGCAGGAGCGGA
AGGCCAATAGGAATGTTCAGATCAGTGCCAAGTCCCTGGTGATAAATGGA
GATGACGAGTCCGGCGTTTGGTTGGTCACCAATCGTCCGTTGGATCGGGA
GGAGCGCGCCCACTATGATCTCTCCGTGGAAGCCTCGGATGTAGATGGTT
TGGATAAGACAGTGTCCAAGATACAGATCTCTGTGCTGGATGAAAACGAC
AACAGGCCGATCTTCAAGTCGTTGGACTACAAGTTCGCCATTGCCGGTCA
AAAATCAGTCAATATGGAAAGCAACAGTAGTGTGACCTACCAGCGATTCG
CGATCATGGGAAAGGTCGAGGCCACCGATGCTGATGGCGATAAGATTGCC
TATCGGCTCAAGTCGCCCAGCAATGTGGTGATCATTGTCCCCCAAACCGG
CGAAATAATGCTGGCCGGTGAGCCCACGTCAAATGAACTGCTTATCGAGG
TTATAGCCCACGATCTGAGATATCCCAGCCTGTTGAGTGCGAAGCCCGCA
AAGGTTCTGTTAGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA
ACACCTGGAACACGATGAGGTGAATAATCACTCACATCACAGGGAGAAGA
GGAGAGTTACCCGAGCTGTGCGACCCACCAAGCGGATTGAATTCACCGAG
GCTGATGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAGAAGGAAAC
CGATAAGGAGACCTTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG
AAACAAATGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG
GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACTAATATGGGACA
CAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGACGAGCCACCGTACTTCATCAACCGCCCACTGCCCATG
CAGGCGGTGGTTCAGCTAAATGCACCACCCAACACGCCGGTTTTCACGCT
CCAGGCCCGAGATCCCGATACCGATCATAATATCCACTACTTCATCGTTC
GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCTGGAGTGGTG
AGGACCAGGGGCACGGATCTCTTTCAGCTAGATATGGAATATGTGCTGTA
CGTGAAGGCCGAGGATCAGAACGGAAAGGTGGATGATCGCAGGTTCCAGA
GCACTCCAGAGGAGCGGCTCTCGATTGTGGGTGGCAAACGAGCCCCTCAA
TTCTACATGCCCAGCTATGAAGCCGAGATACCAGAGAACCAGAAAAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGTGAGATTC
GGTACACTCTGAAGGCCCAGGGCCAGGGAGCCGGCACTTTCAACATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
GAGGATTTTCCACCTCCGTCGATCTCACAATACGCGTTACGGACGTGAAC
GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTGGA
CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCCATGGATT
CGGATTCAGGATCGAATGCTGAAATCGAATACCTAGTATCCGATGACCAC
TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAACAACTGGATGC
GGACAATAATAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG
GTGAACCGCCGAAGTCTGGAGTGGCTACGGTTCGTGTTTACACCAAGAAC
AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT
GGACGAGAACGCGGGGCCGAATACTTTGGTTACCACTGTGGTGGCCTCTG
ATAAGGATGGCGACAACGTGAGGTTTGGATTCGTGGGCGGCGGCACATCG
TCTGGTCAGTTCGTCATCGAGGATATAACCGGTGTGATCCGACTGCATAA
CAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA
TGGACGATGGATCCTGTTGTGTGAACGGCGATCAGACCATCCACACATCG
ACCGCCGTGGTCGTCGTTTTCATCACCGATGTCAACGACAATAAGCCGGT
GTTCAAGGACTGCAGCACCTATTATCCGAAGGTCGAGGAAGGAGCCCCCA
ACGGAAGTCCCGTCATCAAAGTCGTGGCTACCGACGAGGATAAGGGTGTG
AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCCAATCAGAAGGGGAC
TAAGTTCACAGTCGACGAGGAAACCGGAGAGGTGTCCACCAACAAGGTGT
TTGATCGTGAGGGAGACGATGGAAAATTCGTATCGGTCACAGTGAAGGCC
ACAGATCAGGGTGATCCGAGTCTGGAGGGAGTCTGCTCCTTCACCGTGGA
GATCACAGATGTCAACGATAATCCCCCGCTCTTTGATCGGCAGAAATACG
TTGAGAACGTTAAACAGGACGCCAGTATTGGCACAAATATCCTGCGCGTT
TCCGCCTCCGATGAGGATGCCGATAACAATGGTGCCATAGTGTACAGCCT
GACTGCCCCGTTCAATCCCAACGACCTGGAATACTTTGAGATTCAGGCCG
AATCGGGCTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGTTATCGC
TTGAGGGTTAGCGCCTCCGATAAGGGTACTCCCGCCTCGGCAGCCGATGT
CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG
ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
AGTTTTTTATCGACTGATGCCCGGGTCGACGGCTCAAACGAACAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATCT
AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
GAAATCAACCTGCAAAGCGGAGAGATATTCACGAAAACCGTTTTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGAGATGGAGCTC
CCTCAGCTCGACCCAATAGCAATGGACCCAATTCAGTCACCAAGTTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTAC
TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGATATGAA
ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCATAC
ATCCTATGAGCGGACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCGC
TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCGCAGGGCGTTT
ACTTTGGCAACGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC
ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAACGCCCGGCT
GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA
TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTCTGTTGC
CTGGATCGCGAGAGAACCCCGGATTATTCGATACAGGTCGTTGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA
TCAACGACATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGCACGGCTCTGCCGGAAATGCCCATTTTAACCGTGAC
CGTGCACGACGAAGACGAAACGAACAAGTTCCAGTACAAAGTTATCGACA
ACAGTGGCTATGGGGCCGATAAATTCACCATGGTGCGGAATAACGATGGA
ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA
GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA
ACGACAACGATAAATACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG
AGGGACATCAACGACAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT
CTCCGTGTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG
CCACCGATCCGGATCAGGGCGGCAAGAGCAAGGTCTCCTATTCCATCGAT
CGTTCTTCGGATCGCCAGCGCCAGTTTGCCATCAACCAGAATGGTTCGGT
CACCATTCAGCGCTCCCTGGATCGCGAAGTTGTGCCCCGTCATCAGGTCA
AGATCCTGGCCATTGACGATGGCTCTCCACCGAAAACAGCCACGGCCACA
CTCACGGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA
GGACTACAGACCAGTGCTGCCTGAGCATGTGCCGCCGCGTAAGGTGGTCG
AAATCCTGGCCACCGATGACGACGATCGCTCCAAGAGCAACGGCCCTCCA
TTCCAGTTCCGATTGGACCCCAGTGCCGACGATATAATCCGTGCTTCCTT
CAAGGTCGAACAGGATCAAAAGGGTGCCAATGGTGATGGCATGGCCGTGA
TTTCCTCTCTACGATCCTTCGATCGTGAACAGCAAAAGGAGTACATGATC
CCCATCGTGATCAAGGACCATGGCTCACCAGCAATGACGGGAACCAGTAC
TCTGACTGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT
CCAAGGAGATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG
ATCGGTCGGGTCTATGTCTACGACCTGGACGACTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGCTTCAAGTTGGACGAGG
ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGCTATCAT
CTCAGGTTCAAGGTCTACGACCGCAAGCACACGCAAACCGACATACCAGC
CAATGTCACGGTTACGGTGAGGGAAATTCCCCATGAAGCCGTCATCAACT
CGGGATCCGTACGCCTGTCTGGAATTTCGGATGAGGACTTTATTCGCGTG
TGGAACTACAGAACCCAAAGCATGAGTCGCTCGAAGATGGATCGTTTCCG
GGACAAGCTGGCGGATTTACTGAACACCGAACGGGAGAACGTGGATATAT
TTAGTGTGCAGCTGAAGAGGAAGCATCCGGCATTAACCGATGTTAGGTTC
TCGGCCCACGGATCGCCGTACTACAAGCCGGTTAGGCTGAATGGCATTGT
TCTCATGCACCGCGAGGAGATCGAAAAGGACGTGGGCATCAATATCACCA
TGGTGGGCATCGACGAGTGCCTGTATGAGAATCAGATGTGCGAGGGTAGC
TGCACGAATGCGCTGGAAATCAGTCCCCTGCCCTATATGGTGAATGCCAA
CAAGACTGCCCTGGTCGGCGTGCGAGTGGACACCATTGCCGACTGTACTT
GCGGAGCTCGCAACTTCACCAAGCCCGAATCCTGCCGGACGACTCCCTGC
CACAATGGAGGCCGATGTGTGGACACCAGATTCGGTCCGCATTGCTCGTG
TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAGACCACTCGCAGCTTCC
GTGGAAACGGCTGGGCCTGGTATCCTCCGCTGGAGATGTGTGACGAGTCG
CATTTGAGCCTGGAGTTTATCACTCGAAAGCCCGATGGCCTGATCATCTA
CAATGGACCGATTGTTCCGCCCGAACGCGATGAGACGCTGATATCCGACT
TCATTGCCCTGGAACTGGAGCGAGGCTATCCCAGACTCCTCATCGACTTC
GGTTCGGGCACCTTGGAACTGAGGGTGAAGACCAAAAAGACTCTGGACGA
CGGTGAGTGGCACAGGATCGATCTGTTTTGGGACACCGAGAGCATTCGCA
TGGTGGTGGACTTCTGCAAGTCGGCGGAAATAGCCGAAATGGAGGACGGC
ACTCCGCCGGAGTTCGATGACATGACCTGCCAGGCGAGGGGTCAAATCCC
GCCGTTCAATGAGTATCTCAATGTGAATGCTCCCCTGCAGGTGGGCGGCT
TGTACCGGGAACAGTTCGATCAGAGCCTCTACAACTGGCACTACATGCCC
ACGGCCAAGGGTTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCAA
GCTCTACGATCTGGCTCATCCGGGACTGTCGAGGAATAGCGTGGCGGGCT
GTCCGCAAACCGAGGAGGTTTGCGCCCAAACGGAGACCACAGCCCGGTGC
TGGGAGCATGGAAACTGTGTTGGTTCCCTGTCCGAAGCTCGCTGCCATTG
CCGGCCAGGTTGGACTGGTCCTGCCTGTAATATTCCCACCATACCCACCA
CCTTCAAGGCCCAGAGTTATGTGAAGTACGCTCTGAGCTTCGAACCCGAT
CGGTTCAGCACTCAGGTGCAGCTGAGGTTCCGCACGAGGGAGGAGTACGG
AGAACTGTTCCGTGTTAGCGATCAGCACAATCGGGAGTATGGAATCCTGG
AGATCAAGGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGT
ACCGAGGAAAAGGATCTCTGGCTGAACGCCATAGTGGTCAACGATGGCCA
GTGGCACGTGGTGAAGGTCAATCGGTATGGCTCCGCTGCTACCCTGGAAT
TGGATGGCGGTGAGGGTCGTCGCTACAACGAAACCTTTGAGTTCGTGGGA
CATCAGTGGTTGCTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
GGCTGAGTACACTGGCGTTAGAACCTTTGAGGTGTACGCAGATTACCAGA
AGAGCTGTCTCGACGATATACGTCTTGAAGGCAAACATCTTCCTCTGCCG
CCGGCCATGAACGGCACCCAATGGGGTCAGGCCACAATGGCAAGGAATCT
GGAGAAGGGCTGTCCCTCCAATAAACCCTGCTCGAATGTGATCTGCCCCG
ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
GTGCCTCGACATGCCCTGTATGAACGGCGCGACTTGCATTAATCTCGAGC
CCCGACTTCGATATCGTTGCATATGTCCCGATGGTTTCTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCCTGGTGT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG
CGAGGATGACATGACCGCCTTTGATATCACACCCCTGCAAATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTTATGACCTTAATGCCTGGTCAGGAGCCCAATGTGGGCATGTTCAT
TGAGGAGCATAAAAAGCGCGCCGATGGTGATCCCAATGCGCCGCCTTTCG
ATGACTTGAGGAATTATGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG
CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C5
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAAGCAA
CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTGA
TTTTGGCCATCGAGGAGACCACATTTGCTGGCCTGTCTGCGGAGAATGCG
GCTCGCATGCTGGCCGGCAGTCCTGGCGACGTGGAAAAGGCCCCCTCG--
-CATCACAGCGAAATGTCCCTGGTCCTGCCACACGACACCTACCCTGGAT
TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGCAGCTCC
CATGCCGGCGGAGCCGCCTACCACATGCTGGACAGTGACTACTCAAAGTA
CTTTACGGTGCTCGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC
CGCTCGTCAACCGACCGGTTCAGTTGGTGGTCGTGGAGCAGACCCCCAAT
GTCACCAACACCCACAACCTGCAGTTGTTCGTGATGCATCGCAACGACAT
GCTGCGATTCTCGGGATCCCTGCTCGACGCCAGTGGCGAGGTGAGGGAGA
ACCAGCCAGCGGGCACCAGAGTCAGAGGAGTGCCCCTAATGCAGGCCTTC
AGTGGTTCCATCCTAGACGAAGAGCTGGCCACGCCCAAGAAGGTCAGGTA
CACCATCATCGATGGCAACGTGGACGACGCCTTCGCCCTGCAGGAACGCA
AGGCGAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATAAATGGC
GACGACGAGTCCGGCGTCTGGTTGGTCACCAATCGTCCTTTGGATCGCGA
GGAGCGCGCCCACTACGATCTCTCCGTGGAGGCATCGGATGTCGATGGCC
TGGACAAAACCGTTTCCAAAATACAAATCACTATTTTGGACGAGAACGAC
AACCGACCCATCTTTAAGTCCATGGACTATAAGTTCGCCATTGCCGGTCA
AAAGTCTGCAAATATGGAGAGCAACAGTAGCGTGACTTACAAGCGATTCG
CGATCATGGGCAAAGTGGAGGCCACCGATGCGGATGGCGATAAGATTGCC
TATCGCCTCAAGGCGCCCAGCAACGTTGTGATCATTGTTCCCCAAACTGG
CGAAATTATGCTGGCCGGCGAGCCCACCTCTAACGAACTTCTTATCGAGG
TGACAGCCCACGACTTGAGGTATCCCAGTTTATTGAGTGCGAAGCCCGCC
AAGGTCCTCTTGGAATTTCTGGCTGCCGAGCCAGTTTCCTTCATAATGCA
GCATCTGGAGCACGATGAGGTGAACAATCACTCACATCACCGGGAGAAGA
GACGAGTTACCCGAGCAGTGCGACCCACCAAGCGGATTGAGTTCACCGAG
GCAGACGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC
CGACAAGGAGACGTTCAAGATCAGGGACGATAATCCCTGGGTGACGGTGG
AAACAAACGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACCAACATGGGACA
CAACGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGATGAGCCGCCGTACTTCATCAACCGCCCGCTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT
CCAGGCCCGAGATCCCGATACCGACCACAATATCCACTACTTCATCGTGC
GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCCGGAGTGGTG
AGGACCAGGGGCACGGACCTGTTTCAACTGGATATGGAGTATGTGCTGTA
CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGACGATCGCAGGTTCCAGA
GCACCCCCGAGGAGCGCCTCTCGATTGTGGGTGGCAAGCGCGCTCCCCAG
TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAACCAGAAAAAGGA
CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAGATTC
GCTATACCTTGAAGGCCCAGGGCCAGGGCGCCGGCACCTTCAACATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCGG
GAGGATTCTCCACCTCCGTTGATCTCACCATTCGCGTTACGGACGTAAAC
GACAATGCCCCGAAATTCGAGCTGCCCGATTACCAGGCGCACAATGTGGA
CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCTATGGATT
CAGATTCAGGATCGAATGCCGAAATCGAATACCTGGTATCCGATGACCAT
TTCGCCGTGGACTCCAATGGAATCATCGTGAACAACAAGCAACTGGATGC
GGACAACAACAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG
GCGAACCGCCAAAGTCTGGAGTGGCCACGGTCCGTGTTTACACCAAAAAC
AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACCCCCAATGT
GGATGAGAACGCAGGTCCGAATACTCTGGTTACCACTGTGGTGGCTTCCG
ACAAGGATGGCGACAACGTCAGGTTCGGATTCGTGGGCGGCGGCACTTCG
TCGGGTCAGTTTGTGATCGAGGACATAACCGGTGTGATCCGGCTGCACAA
CAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTTACCGCCA
TGGACGATGGATCCTGTTGCGTGAATGGCGATCAAACTATCCACACTTCC
ACCGCCGTGGTTGTGGTCTTCATCACCGACGTCAACGACAACAAGCCGGT
GTTCAAGGACTGCAGTACCTACTATCCGAAGGTCGAGGAAGGTGCTCCCA
ACGGAAGCCCCGTCATTAAAGTGGTGGCCACCGACGAGGACAAGGGTGTC
AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAACCAGAAGGGAAC
AAAGTTCACAGTGGACGAGGAAACGGGAGAGGTGTCCACCAACAAGGTGT
TCGATCGCGAGGGCGATGATGGAAAATTTGTATCCGTCACTGTAAAGGCC
ACAGATCAGGGCGACCCAAGTCTGGAAGGCGTTTGCTCCTTCACCGTGGA
GATCACAGATGTCAACGACAATCCCCCACTTTTTGATCGTCAGAAATACG
TCGAAAATGTAAAACAGGATGCCAGTATTGGCACGAACATCCTCCGAGTC
TCCGCCTCCGACGAAGATGCCGACAACAACGGAGCTATAGTATATAGCCT
GACCGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG
AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGACCGATATCGC
TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG
ATAAGAGCATTTACGGGCCGATTCACATCCGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC
GGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAGTTTC
ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCAGAC
ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAGTACAACTT
AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACG
GAACGCGAGCAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAGGTGAACGCCATCGACAAGGACGGCACATTCCCGAATAATCAGG
TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAGTTCTTC
GAAATCAACCTGCAAAGTGGCGAGATATTCACGAAGACCGTTTTCGACAG
GGAGAAGAAGGGCGCCTACGCCCTCGAAGTGGAGGCCCGGGATGGAGCTC
CCTCGGCCAGGCCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAGTC
GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATCCAGCACACAGTGC
TCACTGTAACGGCCAAGGACCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGGTTCCCGCAGAC
ATCCTACGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA
TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTGTTAAAGCCCC
TGGATCGCGATCAACCAAACGGACGACCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCACAGGGCGTAT
ACTTCGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
ATGACGGCCGTGGACTACGACGATCCCAACGAGGGCTCCAACGCCCGGCT
GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA
TTTTCGAAATCGAGCCCGACACGGGTGTGATAAAGACCGCCGTCTGCTGC
CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA
TGGCGGGGGGCTAAAGGGGACGGGGACGGCCTCCATACGGGTCAAGGATA
TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACAGTGAC
CGTGCACGACGAGGACGAAACGAACAAGTTCCAGTACAAGGTTATCGACA
ACAGTGGCTACGGTGCCGACAAGTTCACCATGGTGCGGAACAACGATGGC
ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA
GAGCAATGGCTTCCGCTTCCGCATCCAGGTGAACGACAAGGGCGAGGACA
ATGACAACGATAAGTACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG
AGGGACATCAACGACAACAAGCCGCACTTCGACCGGGCCAATGTGGAGGT
CTCCGTGTTCGAGGACACCAAGGTGGGCACCGAGCTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT
CGTTCCTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT
TACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTTA
AGATCCTGGCGATAGATGATGGCTCTCCACCGAAAACCGCGACTGCTACC
CTTACAGTCATCGTTCAGGACATCAACGATAATGCTCCCAAGTTCCTGAA
GGACTACAGACCAGTACTGCCAGAGCATGTGCCTCCTCGTAAGGTGGTGG
AGATCCTGGCCACCGATGACGATGATCGCTCCAAGAGCAACGGCCCTCCT
TTCCAGTTCCGCCTGGACCCCAGTGCCGATGATATTATTCGTGCCTCCTT
CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGCGATGGCATGGCCGTGA
TTTCTTCCCTGCGATCCTTCGATCGCGAACAGCAGAAGGAGTACATGATC
CCCATTGTGATCAAGGATCACGGCTCTCCAGCGATGACGGGAACCAGTAC
TCTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
CCAAGGACATCTTCGTTTACAACTACCAGGGACAATCGCCAGATACGCCA
ATTGGTCGAGTCTATGTCTACGATCTGGATGACTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGCTGGACGAGG
ACTCCGGCATGGTCACCATGCGGGCAGGAACCCGCGAAGGACGTTACCAC
CTTAGGTTCAAGGTCTACGATCGTAAGCACACCCAGACCGACATACCCGC
CAATGTCACGGTTACGGTGAGGGAAATTCCTCACGAAGCTGTTATAAACT
CGGGCTCCGTACGCCTGTCTGGCATCTCGGACGAAGACTTCATCCGTGTG
TGGAACTACAGGACCCAGAGCATGAGTCGCTCCAAAATGGATCGTTTCCG
GGATAAACTGGCTGACTTACTGAACACCGAGCGGGACAATGTGGACATCT
TCAGTGTGCAGTTAAAGAGGAAACACCCTCCCCTAACAGATATCAGGTTC
TCGGCCCACGGATCCCCCTACTACAAGCCAGTTAGGCTAAACGGCATTGT
CCTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATAACCA
TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC
TGCACGAATTCCCTGGAAATCAGCCCCCTGCCCTACATGGTCAACGCCAA
CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATCGCGGACTGTACTT
GTGGTGCTCGTAACTTCAGCAAACCCGAATCCTGCCGCACAACTCCCTGC
CACAATGGTGGCCGTTGTGTGGACACCAGGTTTGGTCCCCATTGCTCGTG
TCCGGTGGGCTATGCAGGTCCCAGATGCCAGCAGACGACCCGTAGTTTCC
GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG
CATTTGAGTCTGGAGTTCATTACCCGCAAGCCCGATGGCCTGATCATCTA
CAATGGACCCATAGTTCCCCCCGAACGGGACGAGACGCTCATATCCGACT
TTATTGCCCTGGAACTGGAGCGAGGCTATCCTAGACTACTGATAGACTTT
GGCTCGGGAACTTTGGAACTGCGAGTGAAGACCAAAAAGACTTTGGACGA
TGGTGAGTGGCACAGGATCGACCTGTTCTGGGACACCGAAAGCATTCGCA
TGGTGGTGGACTTCTGTAAGTCGGCGGAAATCGCCGAAATGGAGGATGGC
ACTCCGCCGGAATTCGACGACATGTCCTGCCAGGCGAGGGGACAGATTCC
GCCGTTCGACGAGTATCTCAATGTCAATGCTCCCTTGCAAGTGGGCGGCT
TGTACCGGGAACAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC
ACGGCCAAGGGCTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCGA
GCTCTACGATCTTGCTCATCCGGGACTGTCGAGGAACAGTGTGGCGGGTT
GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACTGCCCGTTGC
TGGGAACACGGAAATTGCGTGGGTTCCCTGTCCGAAGCTCGTTGCCACTG
TCGACCTGGTTGGACGGGCCCTGCCTGTAATATTCCCACCATACCCACCA
CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT
CGGTTCAGCACTCAAGTCCAGTTGAGATTCCGCACGAGGGAGGAGTACGG
AGAGCTCTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGTATTCTGG
AGATCAAGGATGGTCACCTCCACTTCCGCTACAATCTGAACTCCCTTCGT
ACCGAGGAGAAGGATCTGTGGCTGAATGCCATAGTGGTCAATGATGGTCA
GTGGCACGTGGTGAAGGTTAATCGATACGGCTCTGCTGCTACCCTGGAGC
TGGATGGTGGAGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGC
CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA
GGCAGAGTACACAGGCGTTAGAACCTTTGAGGTGTACGCTGATTACCAGA
AGAGCTGTCTTGATGATATACGTCTCGAAGGCAAACATCTTCCACTGCCA
CCGGCGATGAATGGCACCCAGTGGGGTCAGGCCACCATGGCCAGGAATCT
GGAGAAGGGTTGCCCCTCGAATAAACCCTGCTCAAATGTGATCTGCCCCG
ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
GTGCCTCGATATGCCCTGCATGAACGGTGCCACTTGCATCAATCTCGAGC
CCCGACTGCGCTATCGTTGCATATGTCCCGACGGTTTCTGGGGCGAGAAC
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGCCCC
GACGATGATGTGCGCGAGAATATCATCAACTACGACGATGAGGGAGGCGG
CGAGGACGACATGACCGCCTTCGACATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTGATGACCTTAATGCCAGGGCAGGAGCCCAACGTGGGCATGTTCAT
CGAGGAGCATAAAAAGCGCGCCGATGGCGATCCAAATGCGCCGCCCTTCG
ATGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCA
CTCAGCTCGCTGGCCTCAGGAACTGACGACGAGCAGCAGGAATACGACTA
CCTCGGGGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC
CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG---
>C6
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAACCAA
CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTACCGTTAA
TTTTGGCCATCGAGGAGACCACATTTGCCGGTTTGTCTGCGGAAAATGCG
GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCCCCATCG--
-CATCACAGCGAAATGTCCTTGGTCCTGCCACACGACACCTATCCTGGCT
TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGTAGCTCG
CATGCCGGCGGTGCTGCCTATCACATGTTGGACAGTGATTACTCCAAGTA
CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCGC
CGCTCGTCAATCGTCCAGTTCAGTTGGTGGTTGTCGAACAAACCCCCAAT
GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT
GCTGCGATTCTCAGGATCCCTACTCGATGCCAGTGGTGAGGTGAGGGAGA
ATCAACCGGCGGGCACCAGGGTAAGAGGAGTACCCCTAATGCAGGCCTTC
AGTGGCTCCATCCTAGATGAAGAACTGGCCACACCCAAGAAGGTTAGGTA
CACCATCATCGATGGCAACGTGGACGATGCCTTTGCCCTGCAGGAACGCA
AGGCCAACAAGAATATTCAGATAAGTGCCAAGTCCTTGGTGATAAATGGT
GACGACGAGTCTGGCGTTTGGTTGGTCACCAATCGTCCTTTGGATCGAGA
GGAACGTGCCCACTATGATCTCTCCGTAGAAGCTTCAGATGTCGATGGCT
TGGATAAGACGGTTTCCAAAATACAAATTACTGTATTGGATGAGAACGAT
AATAGACCGATCTTCAAGTCCCTAGACTATAAGTTTGCCATTGCCGGCCA
GAAATCTGCAAATATGGAGAGCAATAGTAGCGTGACTTATCGGCGATTTG
CAATTATGGGAAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATTGCC
TATCGCCTCAAGTCGCCCAGCAATGTGGTGATCATAGTTCCTCAAACTGG
CGAAATAATGCTGGCCGGTGAGCCCACTTCAAACGAACTTCTTATCGAGG
TGATAGCCCACGATCTGAGGTATCCCAGTTTATTGAGTGCCAAGCCCGCC
AAGGTCCTCTTGGAGTTTCTGGCTGCCGAACCGGTTTCCTTTATAATGCA
ACATCTGGAACACGATGAGGTCAATAATCACTCACATCACCGAGAGAAAA
GACGAGTTACCCGAGCTGTGCGACCCACCAAGAGGATCGAATTCACCGAG
GCTGATGGAGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC
CGATAAGGAAACGTTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG
GGACCCGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGATGAGCCCCCGTATTTCATCAACCGCCCCCTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT
CCAGGCCCGAGATCCCGATACCGATCATAATATCCATTATTTCATCGTTC
GCGATCGAACTGGCGGACGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG
AGGACCAGGGGCACGGACCTCTTCCAGCTGGATATGGAATATGTCCTGTA
CGTAAAGGCAGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA
GCACCCCCGAGGAGCGACTCTCGATTGTGGGTGGCAAACGAGCTCCCCAG
TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAATCAGAAAAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCGGACCGCGAGATTC
GCTATACCCTGAAGGCCCAGGGCCAGGGGGCCGGCACCTTTAACATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGCTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
GGGGCTTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC
GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTTGA
TGAGGATATTCCACTGGGCACAAGCATACTTCGGGTTAAAGCTATGGATT
CCGATTCAGGATCGAATGCTGAAATAGAATACCTAGTATCCGATGACCAT
TTCGCCGTGGATTCCAACGGAATTATCGTGAACAACAAGCAACTGGATGC
GGACAATAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGACAAGG
GTGAACCGCCAAAGTCTGGAGTGGCTACAGTGCGTGTTTACACCAAAAAC
AAGAACGACGAGGAGCCCAAGTTCTCCCAGCAGGTGTATACCCCCAATGT
GGATGAGAATGCTGGTCCAAATACTTTGGTTACCACTGTTGTGGCCTCCG
ATAAGGATGGCGACAACGTTAGGTTTGGATTTGTGGGCGGTGGCACTTCG
TCGGGTCAGTTTGTCATAGAGGACATAACCGGTGTGATCCGACTGCACAA
TAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTTACGGCCA
TGGATGATGGATCTTGTTGTGTGAATGGCGATCAAACTATCCACACTTCG
ACCGCCGTGGTTGTGGTCTTTATCACCGATGTCAACGATAATAAGCCGGT
GTTCAAGGACTGCAGTACCTACTACCCGAAAGTCGAGGAGGGAGCTCCAA
ATGGAAGTCCCGTCATTAAAGTTGTGGCCACCGACGAGGATAAGGGTGTC
AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAAGGTAC
AAAGTTCACAGTCGATGAGGAAACGGGAGAGGTGTCCACCAACAAGGTCT
TCGATCGAGAGGGAGATGATGGAAAATTTGTATCAGTCACAGTGAAGGCC
ACAGATCAGGGTGATCCAAGTCTGGAAGGCGTGTGCTCCTTTACCGTGGA
GATCACAGATGTCAACGATAATCCCCCACTGTTTGATCGTCAGAAATACG
TTGAGAATGTAAAGCAGGATGCCAGTATTGGCACCAATATCCTCCGTGTC
TCCGCCTCCGATGAAGATGCCGACAACAATGGAGCTATAGTATACAGCCT
GACTGCACCCTTTAATCCCAACGATCTGGAATACTTTGAAATCCAGGCCG
AATCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGC
TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCTGGTATTGAAGGCAATCCCAC
AGTTTTTTATCGATTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCAGAT
ATAAAAGTCAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATTT
AACCATACGTGTTGAGAACAACGGGGCCCAACAACTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG
TGTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC
GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTTTTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCCCGCGATGGAGCGC
CCTCGGCGAGACCCAATAGCAACGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC
TCACTGTAACCGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCGGCCAATAG
CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCCC
TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTTT
ACTTTGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
ATGACGGCCGTGGACTACGACGATCCCAACGAGGGTTCCAATGCCCGGCT
GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCACCCA
TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTTTGTTGT
CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA
TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGCACTGCTCTGCCGGAAATGCCCATTTTAACCGTGAC
CGTACACGATGAAGACGAAACTAACAAGTTCCAGTACAAGGTTATCGATA
ACAGTGGCTATGGTGCCGATAAGTTCACCATGGTGCGGAATAACGATGGA
ACTGGTTCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA
GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA
ACGACAATGATAAGTACCATGTGGCCTATTCGTGGGTTGTGGTCAAACTG
AGGGACATTAACGATAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT
CTCCGTTTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT
CGTTCTTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT
GACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTCA
AAATTCTGGCGATAGATGATGGTTCCCCACCAAAAACCGCCACGGCTACA
CTTACAGTCATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA
AGACTACAGACCAGTACTGCCTGAGCATGTGCCTCCTCGTAAAGTGGTGG
AGATCCTGGCCACCGATGACGATGATCGCTCTAAGAGTAATGGTCCACCT
TTCCAGTTCCGATTGGACCCCAGTGCCGATGATATTATCCGTGCTTCTTT
CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTGA
TTTCCTCCCTGCGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC
CCGATTGTGATCAAGGATCACGGTTCTCCGGCAATGACTGGTACCAGTAC
TTTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
CCAAGGACATCTTCGTCTACAACTACCAAGGACAATCGCCAGACACTCCA
ATTGGTAGGGTCTATGTCTACGATCTGGATGATTGGGATCTGCCCGACAA
GAAGTTTTACTGGGAGGCCATGGAACATCCGCGCTTCAAGTTGGACGAGG
ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGTTACCAT
CTCAGGTTTAAGGTCTACGATCGTAAGCACACCCAAACCGATATACCAGC
CAATGTCACGGTTACGGTGAGGGAGATTCCCCATGAAGCTGTTATAAACT
CGGGATCCGTACGACTATCTGGCATTTCGGATGAAGACTTCATCCGAGTG
TGGAACTATAGGACCCAGAGCATGAGTCGCTCAAAAATGGATCGCTTCAG
AGATAAACTGGCTGATTTACTGAATACCGAGAGGGATAATGTTGACATAT
TCAGTGTGCAGCTGAAGAGAAAACACCCTCCTCTAACTGACATCAGGTTC
TCGGCTCATGGGTCTCCCTACTACAAACCAGTTAGGCTAAATGGCATTGT
CTTGATGCATCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
TGGTGGGCATTGATGAGTGTCTGTATGAAAACCAAATGTGCGAGGGTAGC
TGCACGAATGCCCTGGAAATCAGTCCCCTGCCCTATATGGTTAATGCCAA
CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATTGCAGACTGTACTT
GTGGGGCCCGTAACTTCAGTAAACCCGAGTCCTGCCGAACAACTCCCTGT
CACAATGGTGGACGTTGTGTAGACACCAGATTTGGACCCCATTGCTCGTG
TCCGGTGGGCTATGCAGGTCCCAGATGTCAGCAGACCACTCGAAGTTTCC
GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG
CATTTGAGTCTGGAATTCATCACCCGCAAGCCTGATGGCCTGATCATTTA
CAATGGACCCATAGTTCCGCCAGAACGGGATGAGACGCTCATATCCGACT
TTATTGCCCTGGAACTGGAGCGAGGTTATCCCAGACTACTGATAGACTTT
GGTTCGGGCACCTTGGAGCTGCGAGTGAAGACCAAAAAGACTTTGGACGA
TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA
TGGTGGTGGACTTCTGTAAGTCGGCGGAAATTGCCGAAATGGAGGATGGC
ACTCCTCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAGATTCC
GCCATTCGATGAGTATCTCAATGTTAATGCTCCTCTGCAAGTGGGTGGTT
TGTACCGCGAGCAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC
ACGGCCAAGGGCTTCGATGGTTGTATCAGAAACTTGGTGCATAACTCCAA
GCTCTATGATCTTGCTCATCCGGGACTGTCGAGGAATAGTGTGGCTGGTT
GTCCGCAAACCGAGGAAGTGTGCGCCCAAACGGAAACCACAGCCCGTTGC
TGGGAACATGGAAATTGCGTGGGATCCCTGTCCGAAGCTCGCTGCCATTG
TCGACCTGGTTGGACGGGTCCTGCCTGTAACATTCCCACCATACCCACCA
CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT
CGGTTCAGCACTCAAGTCCAGCTGAGATTCCGCACGAGGGAGGAGTACGG
AGAACTTTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGAATTCTGG
AGATCAAGGATGGTCACCTCCATTTCCGTTACAACCTGAATTCCCTTCGT
ACCGAGGAGAAGGATCTGTGGCTAAATGCCATAGTGGTCAACGATGGTCA
GTGGCACGTGGTGAAGGTTAATCGATATGGCTCTGCTGCTACTCTAGAAT
TGGATGGTGGAGAAGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGC
CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA
GGCAGAATACACTGGCGTCAGAACCTTTGAGGTATACGCTGATTACCAGA
AGAGCTGTCTCGATGATATACGTCTTGAAGGTAAGCACCTTCCTCTGCCA
CCTGCGATGAATGGTACCCAATGGGGTCAGGCCACAATGGCCAGGAACCT
GGAGAAGGGTTGTCCCTCGAACAAACCCTGCTCGAATGTGATCTGCCCCG
ATCCCTTCGAGTGCGTGGATCTTTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
GTGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC
CCCGACTCCGATATCGTTGCATCTGTCCCGATGGTTTCTGGGGCGAAAAC
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
GACGATGATGTGCGCGAGAATATCATCAACTATGACGATGAGGGAGGCGG
CGAGGATGATATGACCGCCTTTGATATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCTGTAATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
TGAGGAGCATAAAAAGCGTGCCGATGGTGATCCTAACGCGCCGCCTTTTG
ACGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG
CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAATACGACTA
CCTCGGAGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC
CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG---
>C7
ATGGCGGCACGACGTTGCCTGGATTTGCTCAGGCAACGTTATATAACCAA
CCGATTTAATATATACACCTGCGCGATATATTTGATAGCCCTCCCGTTAG
TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTATCGGCGGAAAATGCA
GCCCGCATGTTGGCTGGCAGTCCAGGGGATGTGGAAAAGTCACCCTCGTC
ACATCACAGTGAAATGTCCCTGGTGCTGCCACACGATACCTATCCTGGAT
TTAGCATCAAGAAGTTCAAAACCCATCCCGCTAAGATAAATGGTAGCTCG
CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCAAAGTA
CTTTACCGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCTC
CGCTGGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACTCCCAAT
GTCACCAATACCCACAATCTTCAGTTATTCGTAATGCATCGCAATGACAT
GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTAAGGGAGA
ATCAACCGGCGGGTACCCGGGTAAGAGGAGTGCCCCTAATGCAGGCCTTC
AGTGGTTCCATCCTGGATGAAGAACTGGCCACACCCAAGAAAGTTAGGTA
CACCATTATTGACGGCAACGTAGATGATGCATTCGCTCTGCAGGAACGCA
AGTCCAATAAAAATATTCAATTAAGTGCAAAGTCCTTGGTAATTAATGGT
GATGATGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGAGA
GGAAAGGGCTCACTATGATCTCTCCGTGGAAGCTTCAGATGTTGATGGCT
TGGATAAGACCATATCCAAAATACAAATCTCAGTGCTAGATGAAAACGAT
AATAGACCGATTTTCAAGTCATTGGATTATAAATTCGCCATTGCTGGTCA
AAAGTCTGCTAATATGGAGAGCAATAGTAGTGTGACTTATCAGCGATTTG
CGATCATGGGCAAAGTTGAAGCCACCGATGCTGATGGTGATAAAATTGCC
TACAGGCTGAAGTCACCAAGCAATGTTGTAATTATCGTACCACAAACTGG
TGAAATAATGCTGGCAGGTGAACCCACTTCAAACGAACTTCTTATCGAGG
TGATAGCCCATGACTTGAGGTATCCCAGTCTATTGAGTGCTAAACCAGCG
AAGGTTTTGTTGGAATTCTTGGCTGCTGAACCAGTTTCGTTTATCATGCA
ACATCTGGAACATGATGAGATAAATAATCACTCGCATCACCGAGAGAAAA
GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAATTCACTGAA
GCCGATGGCGATACCGAGGGAAAGTCGGTGTTCCAATTGGAAAAGGAAAC
CGATAAGGAAACATTTAAGATCCGAGACGATAACCCCTGGGTGACGGTGG
AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACAAACATGGGACA
TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATTCTGGTGA
AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCACTGCCCATG
CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTTTTCACACT
ACAAGCTCGGGATCCCGATACGGATCATAATATTCATTATTTCATCGTTC
GTGATCGAACTGGTGGGCGTTTCGAGGTGGACGAACGATCTGGAGTAGTC
AGGACTAGGGGTACGGATCTCTTTCAACTGGATATGGAATACGTACTGTA
CGTAAAGGCTGAGGATCAAAATGGAAAGGTCGATGATCGCAGATTCCAGA
GCACTCCCGAGGAGCGACTTTCGATTGTGGGTGGCAAACGCGCCCCTCAA
TTCTATATGCCCAGCTATGAAGCCGAGATCCCAGAAAACCAGAAAAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATAC
GTTATACTTTAAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAACATTGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAAGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCAACGGAGGACTCTG
GAGGATTTTCCACCTCCGTCGATCTCACTATTCGCGTTACGGATGTGAAT
GACAACGCTCCGAAATTCGAGCTGCCTGATTACCAAGCTCACAACGTGGA
TGAGGATATTCCGCTGGGCACGAGCATACTTCGAGTGAAAGCTATGGATT
CAGATTCGGGGTCAAATGCTGAAATCGAATACTTAGTATCCGATGACCAT
TTCGCCGTTGATTCAAATGGAATTATTGTGAACAACAAGCAACTGGATGC
GGATAATAATAATGCTTACTACGAGTTCATAGTCACTGCCAAGGATAAAG
GTGAACCGCCTAAGTCGGGAGTTGCCACAGTTCGTGTTTACACAAAAAAC
AAGAACGATGAAGAGCCAAAGTTCTCACAGCAAGTGTATACCCCAAATGT
GGATGAGAATGCAGGTCCTAACACGTTAGTTACCACTGTGGTTGCCTCTG
ATAAGGATGGTGATAACGTACGGTTTGGCTTCGTGGGCGGCGGCACTTCG
TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA
TAAAGCCATATCCCTGGACAGAGACAAGTACGAGCTGAATGTCACGGCCA
TGGACGATGGATCATGTTGTGTGAATGGCGATCAAACTATCCACACCTCA
ACCGCCGTGGTTGTGGTCTTCATCACTGATGTTAACGACAATAAGCCAGT
GTTCAAGGATTGCAGTACCTATTATCCGAAAGTTGAGGAAGGTGCTCCCA
ATGGTAGTCCAGTAATTAAAGTTGTGGCCACCGATGAGGATAAGGGAGTA
AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCAAATCAGAAGGGAAC
TAAGTTCACGGTGGACGAGGAAACTGGCGAGGTGTCCACCAATAAGGTCT
TCGATCGTGAGGGAGATGATGGCAAGTTTGTATCCGTAACAGTAAAGGCC
ACGGATCAGGGTGATCCAAGTTTGGAGGGTGTTTGCTCCTTCACCGTAGA
GATCACAGATGTCAACGATAATCCTCCACTGTTCGATCGTCAGAAATATG
TAGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC
TCCGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATATAGTCT
CACAGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCAG
AATCCGGTTGGATTGTTCTCAAAAAACCGCTTGACCGTGACCGTTATCGC
TTGAGGGTTAGCGCCTCCGATAAAGGCACTCCCGCCTCGGCAGCCGATGT
CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGCATTTACGGGCCGATACACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGAAATCCCAC
AGTTTTTTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGATTACGAAAGTATCAAGGAATATAATCT
TACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGAGAACAGGAAACGGTGCTCGAGGGAGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
GAAATTAACCTGCAGAGTGGCGAAATATTCACGAAAACCGTATTCGATAG
GGAGAAGAAGGGCGCCTATGCCCTCGAGGTGGAGGCACGGGACGGAGCTC
CATCTGCTCGCCCCAATAGCAATGGACCAAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTTC
TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAATATC
GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATCAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC
TGGATCGCGATCAACCGAACGGACGTCCCCAGTGGCGATTCACTGTATTC
GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT
ACTTTGGCAACGTGACCGAGAACGGCACCGCCGGCATGGTTGTGATGACC
ATGACAGCAGTGGATTACGACGATCCCAATGAGGGTTCCAATGCCCGGCT
TGTCTACTCTATTGAAAAGAACGTGATTGAGGAGGAAACTGGGTCCCCCA
TATTTGAAATTGAACCCGATACGGGTGTGATAAAGACTGCAGTATGTTGT
TTGGATCGCGAGAGAACTCCGGACTATTCGATACAGGTCGTTGCGATGGA
TGGCGGAGGGTTAAAGGGGACGGGGACGGCCTCTATACGTGTTAAAGATA
TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGTACGGCACTGCCGGAAATGCCCATTTTAACTGTAAC
CGTACACGATGAAGACGAAACCAATAAGTTTCAATATAAAGTTATCGATA
ACAGTGGTTATGGTGCCGATAAATTTACCATGGTGCGGAATAACGATGGA
ACTGGTTCCCTGAAAATCGTACAGCCCTTGGACTACGAAGATCAGCTGCA
GAGCAATGGCTTCCGTTTCCGCATTCAAGTCAATGACAAGGGCGAGGACA
ATGACAATGATAAATACCATGTGGCCTACTCGTGGGTTGTGGTTAAACTA
AGAGATATCAATGACAATAAACCGCATTTCGACCGTGCCAATGTGGAGGT
CTCCGTTTTCGAGGACACTAAAGTTGGCACCGAACTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAT
CGTTCCTCGGATCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT
AACCATTCAACGTTCCCTGGATCGCGAGGTTGTGCCGCGTCACCAGGTTA
AAATTCTGGCCATCGATGATGGATCTCCACCAAAGACCGCCACTGCTACT
CTAACAGTTATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA
AGACTACAGACCAGTATTGCCAGAGCATGTGCCTCCACGTAAGGTGGTTG
AAATTCTGGCCACCGATGACGATGATCGCTCCAAGAGCAATGGCCCACCA
TTCCAGTTCCGTTTGGACCCCAGTGCCGATGATATTATCCGTGCTTCCTT
CAAGGTGGAACAAGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTCA
TTTCCTCACTGCGATCCTTTGATCGGGAACAGCAAAAGGAGTATATGATC
CCGATTGTGATCAAGGATCATGGTTCACCGGCAATGACTGGAACCAGCAC
ATTGACCGTCATTATTGGCGATGTAAATGACAATAAAATGCAGCCTGGCT
CCAAGGAAATCTTCGTGTACAACTACCAAGGACAATCGCCAGATACTCCA
ATTGGTCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGATAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCGAGATTCAAGTTGGATGAGG
ATTCCGGCATGGTCACCATGAGAGCTGGAACTCGCGAAGGACGCTATCAT
CTTAGGTTTAAAGTCTACGATCGTAAGCACACTCAAACCGATATTCCAGC
CAATGTCACAGTTACTGTGCGGGAAATACCTCACGAAGCTGTTATAAACT
CGGGATCAGTGCGTCTATCAGGCATTTCAGATGAGGATTTCATTCGAGTC
TGGAACTATAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGCTTCAG
GGATAAGCTGGCTGACTTACTGAACACCGAAAGGGAAAATGTCGATATAT
TCAGTGTGCAATTAAAGAGGAAATATCCGCCTCTAACCGATGTTAGATTC
TCGGCCCATGGATCTCCGTACTACAAACCTGTGAGGCTAAATGGCATTGT
TCTGATGCATCGCGAGGAGATCGAAAAGGATGTCGGCATCAATATCACCA
TGGTTGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGTAGC
TGCACAAATGCCCTAGAAATCAGTCCTTTGCCTTATATGGTTAATGCCAA
CAAAACTGCCTTGGTGGGTGTTCGAGTGGATACCATTGCTGATTGTACTT
GTGGTGCCCGTAACTTCAGCAAGCCTGAGTCCTGCCGAACAACTCCGTGT
CACAATGGTGGACGTTGTGTAGATACCAGATTTGGTCCTCACTGCTCGTG
TCCTGTGGGCTATGCTGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC
GAGGAAACGGCTGGGCCTGGTACCCTCCTCTGGAAATGTGCGACGAATCT
CATTTAAGTTTGGAATTTATTACCAGAAAACCAGATGGTCTAATCATTTA
CAATGGACCTATTGTTCCACCAGAACGAGATGAGACGCTTATATCAGATT
TTATTGCTCTAGAATTGGAGCGAGGTTATCCTAGACTCCTTATCGACTTC
GGTTCGGGAACTTTGGAACTGAGAGTGAAGACCAAGAAGACCTTGGACGA
TGGTGAATGGCATAGGATCGATCTGTTCTGGGACACCGAATCCATTCGCA
TGGTCGTGGACTTCTGTAAATCAGCGGAGATTGCCGAAATGGAGGATGGT
ACTCCACCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
GCCATTCAATGAGTACCTTAATGTTAATGCTCCCTTGCAAGTGGGTGGAT
TATATCGAGAGCAATTCGATCAGAGTCTGTATTTCTGGCACTACATGCCC
ACTGCCAAGGGTTTCGATGGCTGCATCCGAAATTTGGTCCACAATTCGAA
ACTTTATGATCTGGCTCATCCGGGACTCTCGAGGAATAGTCTTGCAGGTT
GTCCACAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACATCTCGGTGC
TGGGAACATGGAAATTGTGTTGGATCGTTGTCCGAGGCTCGATGCCATTG
CCGACCGGGTTGGACAGGACCTGCCTGTAACATTCCTACAATACCCACAA
CCTTCAAAGCCCAGAGTTATGTAAAATACGCCTTGAGTTTCGAACCGGAT
CGTTTCAGCACTCAAGTCCAGTTGAGATTCCGAACAAGAGAGGAGTACGG
CGAACTTTTCCGGGTTAGCGATCAGCATAATCGAGAATATGGAATTCTGG
AGATCAAAGATGGTCATCTGCACTTCCGTTACAATCTCAACTCCCTTCGT
ACTGAAGAAAAGGATCTCTGGCTAAACGCCATAGTGGTTAACGATGGTCA
ATGGCATGTGGTGAAGGTAAATCGATATGGATCTGCTGCTACCTTGGAGT
TGGATGGAGGAGAGGGTCGTCGCTACAACGAAACCTTTGAATTCGTGGGG
CATCAGTGGTTGCTGGTGGACAAACAAGAGGGTGTCTATGCAGGCGGAAA
AGCTGAATACACTGGTGTTAGAACATTTGAGGTGTACGCCGATTACCAGA
AGAGCTGTCTCGATGATATACGACTTGAAGGCAAACATCTTCCTCTGCCA
CCGGCGATGAATGGCACCCAATGGGGACAGGCCACTATGGCCAGGAATCT
AGAGAAGGGTTGTCCATCAAATAAACCCTGCTCGAATGTGATCTGCCCCG
ATCCCTTCGAATGCGTAGACCTCTGGAATGTTTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGACTCCAAGGGCTGTATGGATCGCAACGA
GTGTCTCGATATGCCCTGTATGAACGGTGCCACTTGCATTAATCTCGAAC
CCCGACTTCGATATCGTTGCATTTGTCCAGATGGTTTCTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTAT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCTGGTCCC
GATGACGATGTGCGCGAGAATATTATCAACTATGACGATGAGGGAGGCGG
CGAGGATGATATGACCGCCTTTGATATCACACCCCTGCAGATACCAATTG
GAGGGCCAATGCCACCTGAGCTGGCGCCTATGAAAATGCCAATTATGTAT
CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
CGAGGACCATAAAAAGCGCGCCGATGGTGATCCAAACGCGCCGCCTTTCG
ATGACTTGAGGAATTACGCGTACGAGGGTGGCGGCAGTACAGCTGGATCG
CTTAGCTCATTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGATTA
CCTTGGAGCCTGGGGACCACGCTTCGACAAGCTGGCCAATATGTATGGAC
CCGAGGCGCCCAATCCCCATAATACCGAACTAGAATTG---
>C8
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAC
AAAACTGAATCTCTACACCTGCGCGATACTTTTGATATGCCTCCCGTTCA
TTTTGGCCATAGAGGAGACCACATTCGCTGGTTTGTCGGCGGAGAATGCG
GCTCGCATGTTGGCTGGCAGTCCTGGCGATGTGGAAAAATCGCCATCG--
-CATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCCGGGT
TCAGCATCAAGAAGTTCAAAACCCATCCTCTCAAGATAAATGGCAGCTCG
CATTCCGGCGCAGCTGCCTACCACATGTTGGATAGCGACTACTCCAAGTA
CTTCACGGTACTTGAAGACGGTGTGGTGATGACCACGGCGGACATTTCTC
CGCTGGTAAATCGTCCAGTTCAACTGGTGGTGGTTGAACAAACGCCCAAT
GTCACCAACACCCACAATCTTCAGTTGTTCGTGATGCACCGCAACGATAT
GCTGAGGTTCTCGGGTTCACTACTTGATGCCAGTGGTGAAGTAAGGGAAA
ACCAGCCAGCGGGAACCAGAGTGAGAGGAGTTCCCCTAATGCAGGCCTTC
AGTGGATCCATCCTGGAAGAGGAGCTCGCCACGCCCAAGAAGGTCAGGTA
CACCATCATCGATGGCAACGTTGATGATGCCTTTGCCCTCCAGGAACGCA
AGGCCAATAAGAACATTCAAATAAGTGCCAAGTCATTGGTAATTAATGGT
GATGATGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGCGA
GGAACGAGCTCACTATGATCTCTCCGTGGAAGCCTCCGATGTGGATGGTT
TGGACAAGACAGTTTCCAAAATCCAGATCACCGTTCTCGATGAAAACGAC
AACAGACCGATTTTCAAGTCCCTGGATTACAAATTCGCCATCGCTGGTCA
GAAGTCTGCGAATATCGAGAGCAATAGTAGTGTTACCTATCAGCGATTTG
CGATCATGGGAAAAGTGGAGGCCACCGATGCTGATGGGGATAAAATCGCC
TATCGCTTGAAGTCCCCCAGCAATGTTGTGATTATTGTCCCCCAAACTGG
GGAAATAATGCTGGCCGGTGAACCCACTTCGAATGAACTTCTTATCGAGG
TGATAGCTCATGACTTAAGGTATCCCAGTCTATTGAGCGCCAAGCCGGCA
AAGGTTTTATTGGAGTTTTTAGCTGCCGAACCAGTATCGTTTATAATGCA
ACACTTGGAACACGATGAGGTGAACAATCACTCACATCACCGAGAGAAAA
GAAGGGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAATTCACCGAA
GCTGACGGCGATACTGAGGGAAAATCGGTGTTCCAATTGGAAAAGGAAAC
CGATAAGGAGACCTTCAAGATCCGGGATGACAATCCCTGGGTGACGGTGG
AAACCAATGGAGCTGTGCGCGTCAAGAAGAAGTGGGACTACGAGGAGTTG
GGTCCAGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTAATAATCCTGGTGA
AGGACGTGAACGACGAGCCGCCGTACTTCATCAACCGTCCCCTGCCCATG
CAGGCGGTGGTGCAACTGAATGCACCGCCCAACACTCCGGTTTTCACCCT
CCAAGCCAGAGATCCCGACACGGATCACAATATCCATTACTTCATCGTTC
GCGATCGAACTGGTGGTCGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG
CGAACCAGGGGAACGGATCTCTTCCAGCTCGACATGGAGTACGTCCTGTA
CGTGAAGGCGGAGGATCAGAACGGAAAGGTCGACGACCGCAGGTTCCAAA
GCACTCCGGAGGAGCGACTGTCAATCGTGGGAGGCAAACGAGCCCCGCAG
TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAGAAGGA
CTCAGACATCATTTCGATTAAGGCCAAGTCCTTCGCAGACCGCGAAATCC
GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCAG
GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACTGATGTGAAT
GACAATGCACCGAAATTCGAGCTGCCCGATTACCAAGCTCATAATGTGGA
TGAAGATATTCCTCTTGGCACAAGCATACTCCGTGTAAAAGCAATGGATT
CAGATTCCGGATCGAACGCCGAAATCGAATACCTTGTATCCGACGACCAC
TTCGCCGTGGATTCAAATGGAATCATCGTAAACAACAAACAACTGGATGC
GGATAACAATAATGCGTACTACGAGTTCATAGTCACTGCCAAGGACAAAG
GAGAACCGCCAAAATCGGGAGTGGCGACCGTTCGTGTTTACACCAAAAAC
AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACACCGAATGT
GGATGAGAATGCCGGTCCGAATACTTTGGTTACCACTGTGGTGGCCTCCG
ATAAGGATGGAGATAATGTCAGGTTTGGATTCGTGGGCGGCGGCACTTCG
TCGGGTCAGTTCGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA
TAAGGCCATATCCTTGGACAGGGACAAGTACGAACTGAATGTGACGGCCA
TGGACGATGGATCCTGTTGCGTGAACGGCGATCAAACCATCCACACCTCA
ACCGCCGTGGTGGTGGTCTTCATCACCGATGTCAACGATAATAAGCCGGT
GTTTAAGGACTGCAGCACTTACTATCCGAAAGTGGAGGAAGGAGCTCCCA
ACGGAAGTCCTGTCATCAAAGTTGTGGCCACTGATGAGGACAAGGGTGTG
AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCCAATCAGAAGGGTAC
AAAGTTCACCGTGGACGAGGAAACCGGCGAGGTGTCCACCAACAAGGTCT
TCGATCGAGAGGGAGATGATGGCAAGTTTGTCTCGGTCACAGTGAAGGCC
ACCGATCAGGGAGATCCAAGTCTGGAGGGTGTCTGCTCCTTCACCGTGGA
GATCACAGATGTCAACGATAATCCTCCTTTGTTCGATCGTCAGAAATACG
TGGAAAATGTTAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC
TCCGCCTCCGATGAAGATGCTGACAACAATGGAGCTATAGTTTACAGCCT
GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCCG
AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGC
TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT
CGACGTTGAATTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG
ATAAGAGCATTTACGGCCCGATTCACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGCATCGAGGGCAATCCGAC
AGTTTTCTACCGTCTGATGCCCGGGTCGACGGCTCAAACGAATAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAATGGAGACACTTGGGCCGAT
ATAAAAGTGAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
TACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCGTCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATCGTCGATTCACCGCGAAACGAGGGCAAAGAATTCTTC
GAAATCAACCTGCAGAGCGGAGAGATTTTCACGAAGACCGTATTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC
CTTCGGCGCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATCGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATCCAGCACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTTGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGATGTCAACGATCTGCCACCGCGATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACAA
TCATGCAGGTCACCGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAGGGAATTGATCCGGATAATCCAGCCAATAG
CAAATTCGATATTAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCAT
TGGATCGCGATCAACCGAACGGTCGACCCCAGTGGCGCTTCACTGTATTC
GCGCAGGACGAAGGCGGCGAGGGACTCGTGGGCTACGCGGATGTTCAAGT
CAATCTGAAGGACATCAACGATAATGCGCCCATTTTCCCACAGGGCGTGT
ACTTTGGCAATGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC
ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCCCGCCT
GGTTTACTCCATCGAAAAGAACGTGATTGAGGAGGAAACTGGGTCGCCAA
TTTTCGAAATCGAACCCGATACGGGTGTGATTAAGACCGCAGTTTGCTGT
CTGGATCGCGAGAGAACGCCGGATTACTCGATACAAGTCGTTGCGATGGA
TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATAAGGGTTAAAGATA
TCAACGATATGCCGCCGCAATTCACGAAAGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTAAC
CGTTCACGATGAAGACGAAACGAACAAATTTCAGTACAAAGTTATCGATA
ACAGCGGCTATGGAGCCGATAAATTCACCATGGTGCGAAATAACGATGGC
ACTGGTTCCCTGAAAATTGTGCAACCCTTGGACTACGAGGATCAACTGCA
GAGTAATGGCTTCCGCTTCCGGATTCAGGTGAACGACAAGGGCGAGGACA
ACGACAATGATAAGTACCACGTGGCCTACTCGTGGGTTGTGGTTAAACTG
AGGGATATCAACGATAACAAACCGCACTTCGAGCGGGCCAACGTGGAGGT
GTCCGTTTTTGAGGACACCAAAGTGGGCACGGAACTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAC
CGTTCTTCGGATCGTCAGCGACAGTTTGCCATCAACCAAAATGGCTCGGT
AACCATTCAACGTACTTTGGATCGAGAAGTTGTTCCACGTCATCAGGTCA
AAATCCTGGCCATCGACGACGGCTCTCCACCAAAAACAGCCACTGCCACA
CTCACAGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTTAA
GGATTACAGACCAGTTTTGCCAGAGCATGTGCCACCACGTAAGGTGGTTG
AAATCCTGGCCACCGATGATGACGATCGCTCGAAGAGCAATGGTCCTCCA
TTCCAGTTCCGTTTGGATCCCAGCGCCGATGATATTATCCGAGCTTCTTT
CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCCGTCA
TTTCATCTCTGCGATCCTTCGACCGCGAACAGCAAAAGGAGTACATGATT
CCTATTGTAATCAAGGATCATGGGTCGCCAGCGATGACGGGAACAAGCAC
TTTAACAGTGATCATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT
CCAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGATACGCCA
ATCGGTCGAGTTTATGTCTACGATTTGGACGATTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAACATCCGCGATTCAAGTTGGACGAGG
ATTCTGGTATGGTAACAATGAGGGCCGGAACTCGCGAAGGAAGATATCAT
CTCAGGTTCAAGGTGTACGATCGGAAGCACACTCAGACCGATATCCCCGC
CAATGTCACAGTTACAGTGAGAGAAATTCCTCACGAAGCAGTCATAAATT
CGGGATCAGTTCGACTGTCTGGAATTTCCGATGAAGACTTCATTCGAGTG
TGGAACTACAGGACCCAGAGCATGAGCCGCTCGAAAATGGATCGTTTCAG
GGATAAACTGGCTGATTTACTGAATACCGAAAGGGAGAATGTGGATATAT
TCAGTGTTCAATTAAAGAGGAAGCATCCACCCCTAACTGATGTTAGGTTC
TCCGCCCATGGCTCTCCGTACTACAAACCTGTAAGACTAAATGGAATTGT
GCTGATGCACCGCGAGGAAATTGAAAAAGATGTGGGTATTAACATCACAA
TGGTGGGAATCGATGAGTGTTTCTACGAGAATCAAATGTGCGAGGGTAGC
TGCACCAATTCCCTGGAAATTAGTCCTCTTCCTTATATGGTAAATGCCAA
TAAGACAGCTTTAGTTGGAGTTCGAGTGGACACCATTGCTGATTGCACTT
GTGGAGCTCGTAACTTCACTAAACCGGAATCCTGCCGAACTACTCCGTGT
CACAATGGTGGTCGTTGTGTGGACACCAGATTTGGTCCCCATTGCTCGTG
TCCTGTGGGTTATGCAGGTCCTCGGTGTCAGCAAACCACTCGCAGTTTCC
GAGGGAACGGATGGGCCTGGTATCCTCCCCTCGAAATGTGCGACGAATCG
CATTTGAGTTTGGAGTTCATAACCCGGAAACCCGATGGTTTGATTATCTA
CAACGGACCTATTGTTCCGCCGGAAAGGGATGAAATGGTTATATCAGATT
TCATTGCCTTGGAATTGGAGAGAGGTTATCCCAGACTCCTTATTGATTTC
GGTTCGGGAACTTTGGAGTTGAGAGTGAAGACCAAGAAGACTTTGGATGA
TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA
TGGTTGTTGACTTTTGCAAGTCAGCTGAGATTGCCGAAATGGAGGATGGC
ACTCCGCCGGAGTTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC
GCCATTCAATGAGTATCTGAATGTGAATGCTCCTTTGCAAGTGGGTGGTT
TGTACCGCGAACAATTTGATCAGAGCGTTTACTATTGGCACTATATGCCC
ACGGCCAAGGGATTCGATGGTTGCATCCGGAACTTGGTTCACAACTCAAA
GCTTTATGATTTAGCTCATCCGGGACTATCGAGGAATAGTGTGGCGGGTT
GTCCGCAAACCGAGGAGGTCTGTGCCCAAACGGAGACCACGGCTCGTTGC
TGGGAACATGGAAACTGTGTTGGATCCTTGTCTGAGGCTCGATGCCATTG
TCGACCGGGTTGGACAGGTCCTGCCTGCAATATCCCCACAATTCCCACCA
CCTTCAAGGCCCAAAGTTATGTGAAATATGCCCTGAGTTTCGAGCCAGAT
CGGTTTAGCACTCAAGTTCAGTTGAGATTCCGCACAAGAGAGGAGTACGG
TGAACTTTTCCGTGTTAGCGATCAGCACAATCGGGAGTACGGAATTCTGG
AGATCAAGGATGGTCATCTTCATTTCCGATACAATCTAAACTCCCTTCGC
ACCGAAGAAAGGGATCTCTGGCTGAATGCCATAGTGGTTAACGATGGCCA
ATGGCACGTGGTGAAGGTGAATCGGTATGGATCCGCTGCTACCCTGGAAT
TGGATGGCGGAGAAGGTCGTCGGTATAACGAGACCTTTGAGTTTGTGGGT
CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
AGCTGAATACACTGGCGTGAGAACTTTTGAGGTTTACGCTGATTACCAGA
AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCCCTTCCA
CCAGCGATGAATGGCACCCAATGGGGTCAGGCCACGATGGCCAGGAATCT
CGAGAAGGGTTGTCCCTCAAATAAACCCTGCTCAAATGTGATCTGCCCCG
ATCCCTTCGAATGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
GTGCCTCGATATGCCCTGCATGAACGGGGCCACTTGCATTAACCTCGAGC
CCCGACTTCGATATCGTTGCATTTGCCCCGATGGTTTTTGGGGCGAGAAT
TGCGAATTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTCTGATCATACTGATACTCGTCCTGGTCT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
GATGACGATGTACGCGAGAATATCATTAACTACGATGATGAGGGAGGCGG
CGAGGATGATATGACTGCCTTTGATATCACCCCGCTCCAGATACCAATTG
GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAC
CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTTGGCATGTTCAT
CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG
ACGACTTGAGGAACTACGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG
CTCAGCTCGTTGGCTTCAGGTACTGATGACGAGCAGCAGGAGTACGACTA
CCTCGGAGCTTGGGGGCCACGCTTCGATAAGCTGGCCAACATGTATGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C9
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
CCGATTAAATCTATACACCTGCGCGATATTTTTGATATCTCTACCGTTAA
TTTTGGCCATAGAGGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG
GCTCGCATGTTGGCCGGCAGTCCTGGCGATGTGGAAAAGTCACCGTCG--
-CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCAGGAT
TTAGCATCAAGAAGTTCAAGACCCATCCCGTTAAGATAAATGGTAGCTCG
CATGCCGGCGGAGCTGCCTATCACATGTTGAATAGTGATTACTCCAAGTA
CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATATCCC
CGCTTGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACGCCCAAT
GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT
GCTGCGGTTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA
ATCAACCGGCAGGAACCAGGGTGCGTGGAGTACCCCTGATGCAGGCCTTC
AGCGGATCCATCCTGGACGAAGAACTGGCCACGCCCAAGAAAGTGAGGTA
CACCATCATCGATGGCAACGTGGATGATGCATTTGCTCTGCAGGAACGCA
AGGCCAATAAAAACATCCAAATCAGCGCCAAATCCTTGGTAATTAATGGC
GATGACGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCCTTGGACCGTGA
AGAACGGGCTCACTACGATCTCTCCGTGGAAGCATCCGATGTAGATGGCT
TGGATAAGACAGTTTCCAAAATACAAATCACCGTGCTCGATGAAAACGAC
AATAGACCGATATTTAAGTCCCTGGATTATAAGTTCGCCATTGCCGGTCA
AAAATCGGTGAATATGGAGAGCAACAGTAGTGTGACCTATCAGCGATTTG
CGATCATGGGAAAAGTAGAGGCCACCGATGCTGATGGGGATAAAATTGCC
TATCGCCTCAAGTCGCCCAGCAATGTTGTGATTATAGTCCCTCAAACTGG
CGAAATAATGCTGGCGGGTGAGCCCACCTCAAATGAGCTTCTCATCGAGG
TGTTGGCTCATGATTTGAGGTATCCCAGTCTACTGAGTGCCAAGCCCGCA
AAGGTCCTGCTGGAATTTTTGGCTGCTGAACCAGTTTCGTTTATTATGCA
ACATCTGGAACACGATGAGGTGAATAATCACTCACATCACCGCGAGAAAA
GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
GCTGATGGAGATACTGAGGGAAAATCGGTATTTCAGTTGGAAAAGGAAAC
CGACAAGGAAACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
AAACAAATGGCGCGGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG
GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGGCA
TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA
AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCGCTGCCAATG
CAGGCGGTGGTCCAGCTAAATGCACCACCTAATACTCCTGTTTTTACGCT
CCAAGCCCGAGATCCCGATACCGATCACAATATCCATTACTTCATCGTTC
GAGATCGAACTGGCGGACGTTTCGAGGTGGATGAGCGATCTGGAGTGGTG
CGAACTAGGGGCACGGACCTCTTTCAACTGGATATGGAGTATGTCCTGTA
TGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGATTCCAGA
GTACTCCGGAGGAGCGACTGTCTATTGTTGGTGGCAAACGAGCTCCTCAG
TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA
CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC
GCTACACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAATATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
GGGGATTTTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC
GATAATGCTCCTAAGTTCGAGCTGCCCGATTATCAGGCCCACAATGTGGA
TGAGGATATTCCGCTGGGCACAAGCATACTTCGTGTCAAAGCTATGGATT
CGGATTCTGGGTCGAATGCGGAAATCGAATACCTAGTGTCTGATGATCAT
TTCGCCGTGGATTCCAATGGAATCATCGTGAACAACAAGCAATTGGATGC
GGATAACAATAATGCCTACTATGAGTTCATAGTCACTGCCAAGGACAAAG
GTGAACCGCCAAAATCGGGAGTGGCTACAGTTCGTGTTTACACCAAAAAT
AAGAACGATGAGGAGCCAAAGTTCTCACAGCAAGTCTATACACCCAATGT
CGATGAGAATGCCGGTCCGAATACTTTGGTGACCACTGTGGTGGCCTCCG
ATAAGGATGGTGATAATGTACGATTTGGATTCGTGGGTGGCGGCACTTCG
TCGGGTCAGTTTGTCATCGAGGATATAACCGGTGTGATCCGACTGCACAA
TAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA
TGGACGATGGATCGTGTTGTGTGAATGGCGATCAAACTATCCACACCTCA
ACCGCCGTGGTTGTGGTCTTCATTACCGATGTCAACGATAATAAGCCGGT
GTTCAAGGACTGCAGTACCTACTACCCAAAAGTCGAGGAAGGAGCTCCCA
ACGGAAGTCCTGTCATCAAAGTTGTGGCCACCGATGAGGATAAGGGCGTG
AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC
AAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAACAAGGTGT
TCGATCGTGAAGGAGATGACGGCAAGTTTGTGTCGGTCACAGTTAAGGCC
ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCTTTTACTGTGGA
AATCACAGACGTTAACGATAATCCCCCACTATTCGATCGTCAGAAATATG
TGGAGAATGTAAAACAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC
TCCGCTTCTGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT
GACTGCCCCCTTCAATCCTAACGATCTGGAATATTTTGAAATTCAGGCCG
AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGT
TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG
ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTAACTGTGGGT
ACGGTTGTAACATCAGTTAAGGCAAGTTCGGGCATTGAAGGCAATCCCAC
AGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
AACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTT
GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTGTTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC
CTTCGGCGCGACCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGAACGACACGCCCTTTACCA
TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGGCAAGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC
TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAGGGCGGCGAGGGGCTCGTGGGCTATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCGCAGGGCGTGT
ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC
ATGACGGCCGTGGATTACGACGACCCCAACGAGGGCTCCAACGCCCGACT
GGTCTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA
TTTTCGAAATCGAACCCGACACGGGTGTGATTAAGACCGCAGTGTGTTGT
CTGGATCGCGAGAGAACCCCGGACTATTCGATACAGGTCGTTGCAATGGA
CGGCGGGGGATTGAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA
TCAACGATATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG
GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTGAC
CGTGCACGATGAAGACGAAACGAATAAGTTCCAGTACAAAGTGATCGATA
ACAGCGGCTACGGCGCCGATAAATTCACCATGGTACGGAATAACGATGGC
ACTGGCTCCCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAACTGCA
AAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGACAAGGGCGAGGACA
ACGACAATGATAAATACCACGTGGCCTACTCGTGGGTTGTGGTCAAACTG
AGGGACATCAACGACAATAAGCCGCATTTCGAGCGAGCCAATGTGGAGGT
CTCCGTTTTCGAGGACACCAAAGTGGGCACCGAACTAGAGAAGTTCAAGG
CCACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT
CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAATGGATCGGT
TACCATTCAACGCTCCTTGGACCGCGAAGTTGTGCCCCGTCATCAGGTCA
AGATCCTGGCCATTGACGACGGCTCTCCACCGAAAACCGCCACTGCCACG
CTCACAGTTATCGTTCAGGACATCAATGACAATGCTCCCAAGTTCCTGAA
GGACTACCGACCCGTTCTGCCGGAGCATGTGCCTCCACGTAAGGTGGTCG
AGATCCTGGCCACCGACGATGACGATCGCTCCAAGAGCAATGGTCCACCT
TTCCAGTTCCGCTTGGACCCCAGTGCCGATGATATCATCCGTGCCTCCTT
CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCTGTGA
TTTCCTCCCTGCGATCCTTCGATCGCGAGCAGCAAAAGGAGTATATGATC
CCGATTGTGATCAAGGATCACGGTTCGCCAGCGATGACGGGAACCAGTAC
ATTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT
CCAAAGACATATTTGTTTACAACTACCAAGGACAATCACCGGACACGCCA
ATTGGTCGAGTTTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGTTGGATGAGG
ATTCCGGCATGGTCACCATGCGGGCAGGCACTCGCGAGGGACGTTATCAT
CTCAGGTTCAAGGTCTACGATCGCAAACACACCCAAACCGACATTCCAGC
CAATGTCACGGTTACCGTGAGGGAAATCCCCCATGAAGCTGTCATAAATT
CGGGATCCGTACGCCTGTCTGGCATTTCAGACGAAGACTTCATTCGCGTG
TGGAATTACAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGTTTCAG
GGATAAGCTCGCCGACTTGCTGAATACTGAAAGGGAGAACGTGGATATAT
TCAGTGTGCAATTGAAGAGGAAAAATCCGGCTCTAACTGATATAAGGTTC
TCAGCCCATGGATCTCCGTACTACAAACCCGTGAGGCTAAATGGCATTGT
TTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
TGGTGGGCATCGATGAATGTCTGTATGAGAATCAAATGTGCGAGGGTAGC
TGCACAAATGCCCTGGAAATAAGTCCGTTGCCATATATGGTAAATGCCAA
CAAAACTGCCTTGGTCGGAGTTCGAGTGGACACGATTGCCGACTGTACCT
GTGGTGCTCGCAACTTCTCCAAGCCCGAATCCTGTCGAACCACGCCCTGT
CACAACGGTGGACGTTGTGTGGACACCAGATTTGGACCCCACTGCTCTTG
TCCAGTGGGCTATGCCGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC
GTGGAAACGGCTGGGCCTGGTATCCACCTCTTGAAATGTGCGACGAGTCG
CATTTGAGTCTGGAGTTTATCACCCGAAAACCCGATGGTCTCATCATCTA
CAACGGACCCATTGTTCCACCCGAACGGGATGAGAAGCTTATATCCGACT
TTATTGCCCTGGAATTGGAGCGTGGTTATCCCAGGCTCCTCATCGACTTC
GGTTCGGGAACCTTGGAACTAAGAGTGAAGACCAAGAAGACATTGGACGA
CGGTGAGTGGCACAGAATCGATCTGTTTTGGAATACCGAAAGCATTCGCA
TGGTTGTGGACTTCTGCAAATCAGCGGAGATAGCCGAAATGGAGGATGGA
ACTCCGCCCGAATTCGATGATATGTCCTGCCAGGCGAGAGGACAAATTCC
GCCATTTGATGAGTACCTGAATGTAAATGCTCCTCTGCAAGTGGGTGGCT
TATACCGCGAGCAGTTCGATCAAAGTCTGTACTTCTGGCACTATATGCCC
ACGGCCAAGGGTTTCGATGGTTGCATCAGGAATTTGGTTCACAACTCCAA
GCTCTACGATCTGGCGCATCCGGGACTTTCGAGGAACAGTATGGCAGGTT
GTCCACAAACGGAGGAAGTTTGCGCCCAAACGGAGACCACAGCTCGTTGC
TGGGAACATGGAAATTGTGTGGGATCCCTGTCCGAAGCCCGATGCCATTG
TCGACCAGGGTGGACGGGTCCTGCCTGTAATATTCCCACAATACCCACCA
CTTTCAAGGCGCAGAGCTATGTGAAGTATGCCCTGAGCTTCGAACCAGAT
CGATTCAGCACTCAAGTCCAGCTGAGATTCCGTACCAGAGAGGAGTACGG
AGAACTTTTCCGTGTAAGCGATCAGCACAATCGGGAATACGGAATTCTGG
AGATCAAGGATGGCCACCTGCACTTCCGATACAATCTGAATTCCCTCCGC
ACCGAAGAAAAGGATCTCTGGCTAAATGCCATTGTGGTTAACGATGGCCA
GTGGCATGTGGTGAAGGTGAATCGTTATGGCTCTGCTGCTACCCTGGAAT
TGGATGGAGGCGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGA
CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA
GGCCGAATACACTGGCGTCAGAACCTTTGAGGTATACGCCGATTACCAGA
AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCATTGCCA
CCGGCGATGAATGGCACCCAATGGGGACAGGCCACAATGGCCAGGAATCT
GGAGAAGGGTTGTCCTTCAAATAAACCCTGCTCGAATGTAATCTGCCCCG
ATCCTTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCGTAATGTCGCCCGATTCCAAGGGATGTATGGATCGCAACGA
GTGTCTCGATCTGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC
CCCGTCTGCGGTATCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGGCAGACCTTAAAGCTCAGCATGGGCGCCCT
GGCGGCGATTTTGGTCTGCCTTTTAATCATACTGATACTCGTCTTGGTGT
TCGTCGTATACAATCGTCGGCGTGAGGCGCATATCAAATATCCGGGTCCC
GATGATGATGTGCGCGAGAATATAATCAACTATGACGATGAGGGAGGCGG
CGAGGACGATATGACCGCCTTTGATATCACGCCTCTGCAGATACCAATTG
GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT
TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG
ATGACTTGAGGAATTACGCGTATGAAGGCGGCGGCAGCACTGCCGGATCG
CTTAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA
CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C10
ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA
TCGATTAAATATGTACTCCTGCGCGATATTTTTAATATCACTTCCGTTCA
TTTTGGCCATAGAAGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG
GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCTCCGCCG--
-CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCGGGGT
TTAGCATCAAGAAGTTCAAGACCCATCCCGTCAAGATAAATGGTAGCTCG
CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCCAAGTA
CTTCACGGTGCTGGAAGACGGTGTGGTGATGACCACGGCGGATATATCCC
CGCTGGTCAATCGTCCAGTTCAATTGGTAGTGGTTGAACAAACGCCCAAT
GTCACCAATACCCACAATCTCCAGTTGTTTGTGATGCATCGCAATGATAT
GCTGCGGTTTTCGGGTTCCCTACTCGACGCCAGTGGTGAAGTCAAAGAGA
ATCAGCCAGCGGGTACCAGAGTGAGAGGAGTGCCCCTAATGCAGGCCTTC
AGCGGATCCATCCTCGACGAAGAGCTCGCCAAGCCAAAGAAAGTGAGGTA
CACCATAATCGACGGCAATGTGGATGACGCATTTGCCCTGCAGGAACGCA
AGGCCAATAAAAATATCCAAATAAGCGCCAAATCGTTGGTTATTAGTGGC
GATGACGAGTCTGGTGTTTGGCTGGTCACCAATCGTCCACTGGATCGCGA
GGAACGGGCTCACTACGATCTCTCTGTGGAAGCATCCGATGTGGATGGCT
TGGACAAGACGGTGTCCAAAATCCAGATCACCGTACTCGATGAAAACGAT
AATAGACCGATTTTTAAGGCCCTGGACTATAAGTTCGCCATTGCCGGTCA
AAAATCCGCAAGTATGGAGAGCAATAGTAGTGTTACTTATCGGCGCTTTG
CGATCATGGGTAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATAGCC
TATCGCCTCAAGTCCCCCAGCAATGTTGTGATCATAGTCCCTCAAACTGG
CGAAATAATGCTGGCCGGCGAGCCCACCGCCAATGAGCTTCTTATCGAGG
TGATGGCGCATGATTTGCGATACCCCAGCCTGTTAAGTGCCCAGCCCGCA
AAGGTTCTGTTGGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA
ACACCTGGAGCACGACGAGGTCAATAGTCACTCCCATCATCGCGAGAAAA
GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA
GCCGATGGAGACACTGAGGGAAAATCGGTGTTTCAATTGGAAAAGGAAAC
CGACAAGGAGACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG
AAACAAATGGAGCTGTGCGAGTCAAAAAGAAGTGGGACTACGAGGAGTTG
GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA
CAACGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTTGTGA
AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGGCCACTGCCCATG
CAGGCGGTGGTTCAGCTAAATGCGCCACCCAACACACCGGTTTTCACGCT
CCAGGCCCGAGATCCCGATACAGATCATAATATCCATTACTTTATCGTTC
GCGATCGAACTGGCGGTCGTTTTGAGGTGGATGAGCGATCTGGCGTGGTG
AGGACCAGGGGCACCGATCTCTTCCAGCTGGACATGGAGTATGTGCTGTA
TGTGAAGGCCGAGGACCAGAACGGAAAGGTCGATGATCGCAGATTCCAGA
GCACCCCCGAGGAGCGACTTTCGATCGTGGGTGGCAAGAGAGCTCCTCAG
TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA
CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC
GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAATATCGGA
CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGATTTCGAGGATCT
GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG
GAGGATTCTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC
GACAATGCTCCGAAGTTCGAGCTGCCCGATTACCAGGCCCACAATGTGGA
TGAGGATATTCCGCTGGGCACAAGCATACTTCGAGTCAAGGCCATGGATT
CGGATTCCGGATCAAATGCCGAAATCGAATACTTAGTATCCGATGACCAT
TTCGCCGTGGATTCCAACGGAATCATTGTGAACAACAAGCAACTGGATGC
GGATAACAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGATAAAG
GTGAGCCGCCAAAATCAGGAGTGGCTACAGTGCGTGTTTACACGAAGAAC
AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT
CGATGAGAATGCCGGTCCGAATACTTTGGTCACCACTGTGGTGGCCTCCG
ACAAGGATGGTGATAATGTACGGTTTGGATTTGTTGGCGGCGGCACTTCG
TCTGGTCAGTTCGTCATTGAGGACATAACCGGTGTGATCCGACTGCACAA
TAAGGCCATATCGCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA
TGGACGATGGATCTTGCTGTGTGAATGGCGATCAAACTATCCATACCTCC
ACCGCCGTGGTTGTGGTTTTCATCACCGACGTTAACGACAATAAGCCGGT
GTTCAAGGACTGCAGTACCTACTATCCGAAAGTCGAGGAAGGGGCGCCCA
ACGGCAGTCCCGTCATCAAAGTGGTGGCCACCGATGAGGACAAGGGTGTC
AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC
CAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAATAAGGTCT
TCGATCGAGAGGGAGATGATGGAAAGTTCGTGTCGGTCACGGTTAAGGCC
ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCGTTCACCGTGGA
GATCACTGATGTCAACGATAATCCTCCCCTGTTCGATCGTCAGAAATATG
TGGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC
TCCGCCTCCGATGAAGATGCCGACAACAATGGCGCTATAGTATACAGCCT
GACTGCGCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG
AATCTGGATGGATTGTGCTTAAGAAGCCGCTTGACCGTGATCGATATCGC
TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT
CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG
ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTCACTGTGGGT
ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC
AGTTTTCTATCGACTGATGCCCGGGTCAACGGCTCAAACCAACAAATTTC
ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT
ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT
AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA
CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC
GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT
GACACAAGTGAACGCTATCGACAAGGATGGCACATTCCCAAATAATCAGG
TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC
GAAATCAACCTGCAGAGCGGAGAGATATTCACGAAAACCGTGTTCGACAG
GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGGGATGGAGCAC
CATCGGCGCGACCAAATAGCAATGGACCCAATTCAGTCACCAAATTCATA
CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC
GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTGC
TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA
ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG
TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG
AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC
GTCATAAATGTACGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC
ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA
TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC
GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG
CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCGC
TGGATCGCGATCAACCCAATGGTCGGCCCCAGTGGCGCTTCACTGTATTC
GCCCAGGACGAAGGGGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT
CAATCTGAAGGACATCAACGATAACGCGCCCATTTTCCCCCAGGGCGTAT
ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTTGTGATGACC
ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAATGCCCGCCT
GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA
TTTTCGAGATCGAACCCGACACGGGTGTGATTAAGACGGCGGTGTGTTGT
CTGGATCGCGAGAGGACGCCGGACTATTCGATACAGGTCGTGGCAATGGA
TGGTGGGGGGTTAAAAGGGACGGGGACGGCCTCCATACGCGTTAAGGATA
TCAACGACATGCCGCCGCAGTTCACCAAGGACGAATGGTTCACGGAAGTG
GACGAAACGGATGGCACGGCGCTGCCGGAAATGCCCATTTTAACCGTGAC
CGTGCACGATGAGGACGAAACGAACAAGTTCCAATACAAGGTCATCGACA
ACAGCGGCTATGGGGCCGATAAATTCACCATGGTGCGGAACAACGACGGC
ACTGGCTCTCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAGCTGCA
GAGCAATGGCTTCCGTTTCCGCATTCAAGTGAACGACAAGGGCGAAGATA
ACGACAACGACAAGTACCACGTGGCCTACTCGTGGGTTGTGGTGAAACTG
AGGGACATCAACGACAATAAGCCGCACTTCGAGCGGGCCAATGTGGAGGT
CTCCGTGTTCGAGGACACCAAAGTGGGCACCGAACTCGAGAAGTTCAAGG
CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT
CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAACGGTTCGGT
GACCATTCAGCGCTCCTTGGACCGCGAGGTTGTGCCCCGTCATCAGGTCA
AAATCCTGGCCATCGATGATGGTTCTCCCCCGAAAACCGCCACCGCCACG
CTCACAGTCATCGTTCAGGATATCAACGATAATGCCCCCAAGTTCCTGAA
GGACTACAGACCAGTCCTGCCGGAGCATGTGCCACCACGCAAAGTGGTCG
AAATCCTGGCCACCGACGATGACGATCGCTCGAAGAGTAATGGTCCACCA
TTCCAGTTCCGTCTGGACCCCAGTGCCGACGATATTATCCGGGCTTCCTT
CAAGGTGGAGCAGGATCAAAAGGGTGCCAATGGTGACGGCATGGCTGTAA
TTTCCTCCCTACGATCCTTCGATCGCGAGCAGCAGAAGGAGTACATGATC
CCGATTGTGATTAAGGATCATGGTTCGCCAGCGATGACGGGAACCAGCAC
ACTGACCGTCATAATTGGCGATGTGAATGACAACAAGATGCAGCCCGGCT
CCAAAGACATCTTCGTCTACAACTACCAAGGACAGTCGCCAGACACGCCC
GTTGGTCGAGTCTACGTGTACGATTTGGACGACTGGGATCTGCCCGACAA
GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGTTTCAAGTTGGACGAGG
ATTCCGGCATGGTCACCATGAGAGCGGGAACTCGCGAGGGGCGATACCAT
CTCAGGTTCAAGGTGTACGACCGCAAGCACACCCAAACTGATATTCCGGC
CAATGTCACGGTCACAGTAAGGGAAATCCCCCACGAGGCTGTCATCAATT
CGGGATCAGTGCGCCTGTCTGGCATCTCGGACGAAGACTTCATTCGAGTG
TGGAACTACAGGACGCAGAGCATGAGTCGCTCCAAAATGGATCGGTTTAG
GGACAAGCTTGCCGATCTGCTCAATACCGAAAGGGAGAATGTGGACATAT
TCAGTGTGCAATTGAAGAGGAAAAATCCGCCTTTGACCGATGTCCGGTTC
TCGGCCCACGGATCGCCGTACTACAAGCCCGTCAGGCTGAACGGCATTGT
CTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA
TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC
TGCACGAATTCCCTGGAAATCAGTCCCCTACCCTACATGGTGAATGCCAA
TAAAACTGCTTTGGTCGGTGTTCGAGTGGACACCATTGCGGACTGTACTT
GCGGTGCTCGCAACTTCACCAAACCGGAATCGTGTCGCACCACACCCTGT
CACAATGGCGGACGTTGTGTGGACACCAGATTTGGGCCCCACTGCTCGTG
TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAAACCACGCGCAGTTTCC
GTGGCAACGGTTGGGCCTGGTATCCTCCCCTTGAAATGTGCGACGAGTCG
CATTTGAGTCTGGAGTTTATTACCCGAAAACCCGACGGTCTCATCATCTA
CAACGGACCCATTGTGCCGCCAGAGAGGGATGAGAAGCTCATATCGGATT
TCATTGCCCTGGAATTGGAGCGAGGCTACCCCAGACTCCTCATCGACTTC
GGTTCGGGAACCTTGGAGCTGAGAGTGAAGACCAAGAAGACATTGGACGA
CGGGGAGTGGCACAGGATCGACCTGTTCTGGAATACCGAAAGCATTCGCA
TGGTTGTGGACTTTTGCAAATCGGCAGAGATTGCCGAAATGGAGGATGGC
ACGCCGCCGGAGTTCGACGATATGTCGTGTCAGGCGAGGGGACAAATTCC
ACCCTTTGATGAGTATCTCAATGTGAATGCTCCTCTGCAAGTGGGTGGCC
TGTACCGGGAACAGTTTGACCAGAGCCTCTACTTCTGGCACTATATGCCC
ACGGCCAAGGGCTTCGATGGCTGCATCAGGAACTTGGTTCACAACTCCAA
GCTCTATGACCTTGCTCATCCGGGACTCTCGCGGAACAGTGTGGCGGGTT
GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACGGCTCGTTGC
TGGGAACACGGAAATTGTGTGGGGTCCCTGTCCGAGGCCCGATGCCATTG
TCGACCGGGCTGGACAGGTCCTGCCTGCAATATTCCCACCATACCCACCA
CCTTCAAGGCGCAGAGCTACGTCAAGTATGCCCTGAGCTTCGAACCCGAT
CGGTTTAGCACCCAAGTCCAGTTGCGGTTCCGGACGAGGGAGGAGTACGG
CGAACTGTTCCGGGTCAGCGATCAGCACAATCGGGAGTACGGAATTCTGG
AGATCAAAGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGC
ACCGAGGAGAGGGATCTCTGGCTGAATGCCATTGTGGTCAACGATGGCCA
GTGGCATGTGGTGAAGGTAAATCGGTATGGCTCTGCTGCTACCCTGGAAT
TGGACGGCGGCGAGGGTCGACGCTACAACGAGACCTTTGAGTTTGTGGGG
CATCAGTGGCTGTTGGTGGACAAACAGGAGGGTGTCTATGCGGGAGGAAA
GGCCGAGTACACTGGCGTCAGAACATTTGAGGTATATGCTGATTACCAGA
AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCACTGCCA
CCGGCGATGAATGGCACCCAATGGGGTCAGGCCACCATGGCCAGGAATCT
GGAGAAGGGTTGTCCTTCGAACAAACCCTGCTCGAATGTTATCTGCCCCG
ATCCCTTCGAATGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC
GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA
GTGTCTCGATATGCCCTGTATGAACGGTGCCACCTGCATCAATCTCGAGC
CCCGGCTGCGATACCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT
TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGTGCCCT
GGCGGCGATATTGGTGTGCCTTTTAATCATACTGATACTCGTCTTGGTGT
TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC
GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG
TGAGGATGATATGACCGCTTTTGATATCACACCTCTGCAGATACCAATTG
GAGGGCCAATGCCACCAGAGCTGGCGCCCATGAAAATGCCAATTATGTAT
CCCGTCATGACCCTGATGCCAGGTCAGGAACCCAATGTAGGCATGTTCAT
TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG
ATGACTTGAGGAATTATGCGTACGAGGGAGGCGGCAGCACTGCCGGATCG
CTTAGCTCGTTGGCTTCAGGAACTGACGACGAGCAGCAGGAGTATGACTA
CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC
CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>C1
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C2
MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C3
MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C4
MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
ARMLAGSPGEVEKSPSoHHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C5
MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKAPSoHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND
NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA
YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C6
MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSoHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C7
MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C8
MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSoHHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS
HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C9
MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPSoHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA
KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
>C10
MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
ARMLAGSPGDVEKSPPoHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF
SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG
DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA
YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA
KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE
ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF
SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
MrBayes v3.2.2 x64
(Bayesian Analysis of Phylogeny)
Distributed under the GNU General Public License
Type "help" or "help <command>" for information
on the commands that are available.
Type "about" for authorship and general
information about the program.
Executing file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb"
UNIX line termination
Longest line length = 63
Parsing file
Expecting NEXUS formatted file
Reading data block
Allocated taxon set
Allocated matrix
Defining new matrix with 10 taxa and 9291 characters
Missing data coded as ?
Data matrix is interleaved
Data is Dna
Gaps coded as -
Matching characters coded as .
Taxon 1 -> C1
Taxon 2 -> C2
Taxon 3 -> C3
Taxon 4 -> C4
Taxon 5 -> C5
Taxon 6 -> C6
Taxon 7 -> C7
Taxon 8 -> C8
Taxon 9 -> C9
Taxon 10 -> C10
Successfully read matrix
Setting default partition (does not divide up characters)
Setting model defaults
Seed (for generating default start values) = 1480016150
Setting output file names to "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run<i>.<p|t>"
Exiting data block
Reading mrbayes block
Setting autoclose to yes
Setting nowarnings to yes
Defining charset called first_pos
Defining charset called second_pos
Defining charset called third_pos
Defining partition called by_codon
Setting by_codon as the partition, dividing characters into 3 parts.
Setting model defaults
Seed (for generating default start values) = 1516554285
Setting Nst to 6 for partition 1
Setting Nst to 6 for partition 2
Setting Nst to 6 for partition 3
Setting Rates to Invgamma for partition 1
Setting Rates to Invgamma for partition 2
Setting Rates to Invgamma for partition 3
Successfully set likelihood model parameters to all
applicable data partitions
Unlinking
Setting number of generations to 1000000
Running Markov chain
MCMC stamp = 1784597622
Seed = 1752834752
Swapseed = 1480016150
Model settings:
Settings for partition 1 --
Datatype = DNA
Nucmodel = 4by4
Nst = 6
Substitution rates, expressed as proportions
of the rate sum, have a Dirichlet prior
(1.00,1.00,1.00,1.00,1.00,1.00)
Covarion = No
# States = 4
State frequencies have a Dirichlet prior
(1.00,1.00,1.00,1.00)
Rates = Invgamma
Gamma shape parameter is exponentially
distributed with parameter (2.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
Gamma distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Settings for partition 2 --
Datatype = DNA
Nucmodel = 4by4
Nst = 6
Substitution rates, expressed as proportions
of the rate sum, have a Dirichlet prior
(1.00,1.00,1.00,1.00,1.00,1.00)
Covarion = No
# States = 4
State frequencies have a Dirichlet prior
(1.00,1.00,1.00,1.00)
Rates = Invgamma
Gamma shape parameter is exponentially
distributed with parameter (2.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
Gamma distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Settings for partition 3 --
Datatype = DNA
Nucmodel = 4by4
Nst = 6
Substitution rates, expressed as proportions
of the rate sum, have a Dirichlet prior
(1.00,1.00,1.00,1.00,1.00,1.00)
Covarion = No
# States = 4
State frequencies have a Dirichlet prior
(1.00,1.00,1.00,1.00)
Rates = Invgamma
Gamma shape parameter is exponentially
distributed with parameter (2.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
Gamma distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Active parameters:
Partition(s)
Parameters 1 2 3
------------------------
Revmat 1 1 1
Statefreq 2 2 2
Shape 3 3 4
Pinvar 5 5 5
Ratemultiplier 6 6 6
Topology 7 7 7
Brlens 8 8 8
------------------------
Parameters can be linked or unlinked across partitions using 'link' and 'unlink'
1 -- Parameter = Revmat{all}
Type = Rates of reversible rate matrix
Prior = Dirichlet(1.00,1.00,1.00,1.00,1.00,1.00)
Partitions = All
2 -- Parameter = Pi{all}
Type = Stationary state frequencies
Prior = Dirichlet
Partitions = All
3 -- Parameter = Alpha{1,2}
Type = Shape of scaled gamma distribution of site rates
Prior = Exponential(2.00)
Partitions = 1 and 2
4 -- Parameter = Alpha{3}
Type = Shape of scaled gamma distribution of site rates
Prior = Exponential(2.00)
Partition = 3
5 -- Parameter = Pinvar{all}
Type = Proportion of invariable sites
Prior = Uniform(0.00,1.00)
Partitions = All
6 -- Parameter = Ratemultiplier{all}
Type = Partition-specific rate multiplier
Prior = Fixed(1.0)
Partitions = All
7 -- Parameter = Tau{all}
Type = Topology
Prior = All topologies equally probable a priori
Partitions = All
Subparam. = V{all}
8 -- Parameter = V{all}
Type = Branch lengths
Prior = Unconstrained:Exponential(10.0)
Partitions = All
The MCMC sampler will use the following moves:
With prob. Chain will use move
1.06 % Dirichlet(Revmat{all})
1.06 % Slider(Revmat{all})
1.06 % Dirichlet(Pi{all})
1.06 % Slider(Pi{all})
2.13 % Multiplier(Alpha{1,2})
2.13 % Multiplier(Alpha{3})
2.13 % Slider(Pinvar{all})
10.64 % ExtSPR(Tau{all},V{all})
10.64 % ExtTBR(Tau{all},V{all})
10.64 % NNI(Tau{all},V{all})
10.64 % ParsSPR(Tau{all},V{all})
31.91 % Multiplier(V{all})
10.64 % Nodeslider(V{all})
4.26 % TLMultiplier(V{all})
Division 1 has 125 unique site patterns
Division 2 has 38 unique site patterns
Division 3 has 1053 unique site patterns
Initializing conditional likelihoods
Using standard SSE likelihood calculator for division 1 (single-precision)
Using standard SSE likelihood calculator for division 2 (single-precision)
Using standard SSE likelihood calculator for division 3 (single-precision)
Initializing invariable-site conditional likelihoods
Initial log likelihoods and log prior probs for run 1:
Chain 1 -- -43846.551184 -- -24.412588
Chain 2 -- -43818.427246 -- -24.412588
Chain 3 -- -44094.977823 -- -24.412588
Chain 4 -- -43352.269209 -- -24.412588
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -44161.199004 -- -24.412588
Chain 2 -- -43890.500725 -- -24.412588
Chain 3 -- -43682.125743 -- -24.412588
Chain 4 -- -44128.191450 -- -24.412588
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-43846.551] (-43818.427) (-44094.978) (-43352.269) * [-44161.199] (-43890.501) (-43682.126) (-44128.191)
500 -- (-34037.422) (-34330.904) (-34332.611) [-33972.602] * (-34445.677) (-34384.219) (-33984.659) [-33500.301] -- 1:06:38
1000 -- (-33099.376) [-33101.174] (-33515.207) (-33205.584) * (-33303.865) (-33558.124) (-33044.725) [-32416.327] -- 0:49:57
1500 -- [-31809.834] (-31914.774) (-32748.431) (-32109.249) * (-32540.737) (-32473.446) (-32126.291) [-31608.804] -- 0:44:22
2000 -- (-31464.444) (-31629.753) (-31668.646) [-31461.945] * (-31668.291) (-31449.392) (-31754.433) [-31287.717] -- 0:49:54
2500 -- (-31237.546) (-31445.598) (-31424.727) [-31248.777] * (-31393.219) (-31231.230) (-31365.324) [-31237.688] -- 0:46:33
3000 -- (-31204.041) (-31365.102) (-31275.006) [-31186.736] * (-31327.084) (-31200.596) (-31284.749) [-31194.594] -- 0:49:51
3500 -- (-31190.062) (-31183.056) (-31241.701) [-31184.914] * (-31195.175) [-31188.007] (-31261.015) (-31187.793) -- 0:47:27
4000 -- (-31185.031) [-31182.901] (-31249.248) (-31178.034) * [-31174.004] (-31188.309) (-31208.548) (-31184.696) -- 0:45:39
4500 -- (-31176.706) (-31174.808) (-31227.510) [-31169.664] * (-31165.609) [-31181.291] (-31194.201) (-31178.090) -- 0:47:55
5000 -- (-31174.069) [-31166.476] (-31205.889) (-31184.564) * [-31163.353] (-31169.650) (-31185.927) (-31173.462) -- 0:46:26
Average standard deviation of split frequencies: 0.000000
5500 -- [-31172.211] (-31169.219) (-31193.668) (-31177.523) * (-31162.567) (-31161.834) [-31166.215] (-31169.922) -- 0:48:13
6000 -- [-31168.198] (-31166.171) (-31185.588) (-31172.096) * (-31176.692) [-31162.679] (-31165.517) (-31173.812) -- 0:46:56
6500 -- (-31176.619) [-31168.924] (-31169.882) (-31175.868) * (-31167.343) [-31168.162] (-31171.450) (-31171.239) -- 0:48:24
7000 -- (-31177.228) (-31168.059) [-31177.021] (-31170.876) * (-31166.242) [-31159.943] (-31172.804) (-31176.162) -- 0:47:17
7500 -- (-31176.706) [-31163.173] (-31172.271) (-31173.544) * (-31163.731) [-31161.970] (-31166.906) (-31181.178) -- 0:48:31
8000 -- [-31170.921] (-31169.107) (-31167.692) (-31177.146) * (-31163.049) (-31169.041) [-31164.676] (-31175.312) -- 0:47:32
8500 -- (-31168.398) (-31172.049) [-31174.466] (-31172.720) * (-31166.325) (-31164.930) [-31163.725] (-31176.659) -- 0:48:36
9000 -- (-31174.781) [-31170.324] (-31170.248) (-31188.836) * (-31171.044) (-31171.578) (-31168.730) [-31166.601] -- 0:47:42
9500 -- (-31167.166) (-31165.563) [-31162.936] (-31174.276) * (-31167.952) (-31163.786) (-31166.127) [-31170.763] -- 0:46:55
10000 -- [-31171.609] (-31164.744) (-31167.198) (-31177.825) * (-31166.981) (-31164.642) [-31166.834] (-31170.968) -- 0:47:51
Average standard deviation of split frequencies: 0.000000
10500 -- (-31161.209) (-31172.062) (-31163.584) [-31169.584] * (-31160.906) (-31165.175) [-31171.940] (-31161.584) -- 0:47:07
11000 -- (-31162.842) [-31168.847] (-31169.247) (-31176.300) * (-31167.333) (-31169.429) [-31164.424] (-31171.992) -- 0:47:57
11500 -- (-31160.321) (-31173.769) [-31166.427] (-31173.033) * (-31163.425) (-31171.139) [-31164.156] (-31171.647) -- 0:47:16
12000 -- [-31159.372] (-31170.873) (-31176.841) (-31177.786) * (-31164.898) [-31164.390] (-31164.792) (-31174.189) -- 0:46:39
12500 -- [-31166.780] (-31165.630) (-31170.396) (-31176.174) * [-31176.386] (-31168.245) (-31164.017) (-31163.586) -- 0:47:24
13000 -- (-31165.903) [-31168.301] (-31171.410) (-31168.878) * [-31172.264] (-31167.600) (-31166.427) (-31174.031) -- 0:46:49
13500 -- [-31166.336] (-31162.477) (-31160.467) (-31174.284) * (-31160.904) [-31169.837] (-31165.422) (-31163.524) -- 0:47:29
14000 -- (-31174.255) (-31165.401) (-31167.128) [-31168.072] * (-31162.666) (-31163.033) [-31161.984] (-31167.086) -- 0:46:57
14500 -- [-31171.251] (-31169.603) (-31165.711) (-31171.477) * [-31166.235] (-31167.338) (-31168.405) (-31173.334) -- 0:46:26
15000 -- [-31169.245] (-31161.323) (-31176.324) (-31171.281) * (-31173.140) (-31170.207) [-31163.076] (-31174.792) -- 0:47:03
Average standard deviation of split frequencies: 0.000000
15500 -- (-31170.790) (-31168.027) (-31168.355) [-31165.700] * (-31169.840) (-31175.863) (-31166.786) [-31165.014] -- 0:46:34
16000 -- (-31165.414) [-31164.587] (-31161.989) (-31156.617) * [-31160.350] (-31173.951) (-31167.245) (-31174.209) -- 0:46:07
16500 -- (-31169.473) (-31170.439) (-31175.741) [-31160.075] * (-31163.496) (-31161.786) [-31166.281] (-31164.397) -- 0:46:41
17000 -- (-31164.561) [-31172.460] (-31162.985) (-31160.316) * (-31160.380) (-31174.526) (-31172.036) [-31167.004] -- 0:46:15
17500 -- (-31175.049) [-31167.297] (-31160.988) (-31166.022) * (-31166.537) (-31168.154) (-31171.517) [-31160.686] -- 0:46:47
18000 -- (-31171.221) [-31171.866] (-31165.069) (-31168.283) * (-31175.960) [-31173.582] (-31173.585) (-31163.883) -- 0:46:22
18500 -- (-31172.167) [-31160.827] (-31167.596) (-31169.349) * (-31169.076) [-31181.471] (-31166.549) (-31178.716) -- 0:45:58
19000 -- (-31166.612) [-31169.109] (-31169.890) (-31173.596) * (-31179.266) (-31173.565) [-31167.728] (-31166.284) -- 0:46:28
19500 -- (-31165.507) (-31166.315) (-31171.105) [-31164.028] * (-31162.447) [-31173.841] (-31170.482) (-31167.529) -- 0:46:05
20000 -- (-31164.161) (-31162.591) [-31171.184] (-31171.750) * (-31164.943) (-31173.861) [-31164.180] (-31161.790) -- 0:45:44
Average standard deviation of split frequencies: 0.000000
20500 -- (-31168.108) [-31165.936] (-31165.107) (-31166.642) * (-31164.518) (-31160.618) (-31163.691) [-31166.512] -- 0:46:11
21000 -- (-31164.341) (-31167.921) (-31163.398) [-31160.994] * (-31167.702) (-31171.447) (-31161.853) [-31161.821] -- 0:45:50
21500 -- (-31166.376) (-31162.713) (-31159.290) [-31171.106] * (-31173.590) [-31165.147] (-31164.840) (-31164.421) -- 0:46:16
22000 -- (-31164.892) [-31159.524] (-31168.465) (-31175.577) * (-31162.615) (-31164.776) [-31163.954] (-31168.078) -- 0:45:56
22500 -- (-31176.043) [-31163.235] (-31169.215) (-31165.372) * (-31167.636) [-31170.815] (-31171.106) (-31168.522) -- 0:45:37
23000 -- [-31171.934] (-31174.125) (-31173.768) (-31172.701) * (-31168.657) (-31170.450) [-31169.138] (-31169.624) -- 0:46:01
23500 -- (-31166.878) [-31172.465] (-31166.859) (-31172.175) * (-31166.506) (-31165.280) (-31178.170) [-31164.716] -- 0:45:42
24000 -- (-31175.633) (-31166.801) (-31181.160) [-31167.714] * (-31175.501) [-31161.590] (-31176.612) (-31164.651) -- 0:46:05
24500 -- (-31180.021) (-31172.267) (-31169.671) [-31167.011] * (-31174.310) (-31163.402) (-31167.142) [-31159.018] -- 0:45:47
25000 -- (-31169.715) (-31175.564) (-31164.083) [-31172.711] * (-31163.228) (-31165.092) (-31178.684) [-31177.723] -- 0:46:09
Average standard deviation of split frequencies: 0.000000
25500 -- (-31177.521) (-31176.629) [-31165.699] (-31169.449) * (-31165.792) (-31164.407) [-31171.998] (-31170.994) -- 0:45:51
26000 -- (-31167.227) [-31166.376] (-31175.860) (-31171.971) * (-31166.043) [-31161.355] (-31165.346) (-31168.828) -- 0:45:34
26500 -- [-31165.906] (-31170.223) (-31162.214) (-31173.334) * (-31165.931) [-31165.247] (-31167.958) (-31169.289) -- 0:45:55
27000 -- [-31158.661] (-31167.957) (-31168.198) (-31178.365) * (-31175.131) (-31159.932) [-31174.546] (-31168.863) -- 0:45:38
27500 -- [-31174.223] (-31177.177) (-31167.684) (-31181.837) * (-31178.205) (-31164.337) (-31180.451) [-31166.685] -- 0:45:58
28000 -- (-31173.825) (-31168.384) [-31162.219] (-31183.774) * (-31169.913) [-31174.514] (-31172.825) (-31168.221) -- 0:45:42
28500 -- (-31160.842) (-31170.895) [-31171.127] (-31176.278) * (-31170.218) (-31169.237) (-31162.997) [-31170.757] -- 0:45:27
29000 -- (-31168.537) (-31172.319) [-31167.392] (-31163.641) * (-31164.384) (-31165.415) [-31170.615] (-31165.481) -- 0:45:45
29500 -- [-31164.477] (-31162.921) (-31167.033) (-31170.318) * (-31170.264) [-31160.242] (-31172.021) (-31162.617) -- 0:45:30
30000 -- [-31170.340] (-31166.847) (-31162.825) (-31169.025) * [-31174.766] (-31169.276) (-31172.401) (-31168.229) -- 0:45:48
Average standard deviation of split frequencies: 0.000000
30500 -- [-31162.894] (-31171.344) (-31162.985) (-31179.367) * (-31166.867) [-31170.010] (-31167.374) (-31161.003) -- 0:45:33
31000 -- (-31170.440) (-31167.624) (-31171.336) [-31167.430] * (-31169.685) (-31169.167) [-31171.918] (-31170.162) -- 0:45:19
31500 -- [-31167.160] (-31162.747) (-31171.418) (-31165.113) * (-31164.154) (-31169.467) [-31169.219] (-31175.706) -- 0:45:36
32000 -- (-31168.916) (-31165.428) [-31164.433] (-31178.998) * (-31176.074) (-31164.719) [-31165.622] (-31178.756) -- 0:45:52
32500 -- (-31164.592) (-31162.741) [-31162.785] (-31185.963) * [-31175.878] (-31172.206) (-31171.744) (-31170.576) -- 0:46:08
33000 -- (-31167.382) (-31172.897) [-31169.967] (-31173.884) * (-31168.030) [-31162.527] (-31163.233) (-31169.920) -- 0:45:54
33500 -- (-31169.417) (-31170.113) [-31164.970] (-31165.048) * (-31167.352) [-31166.499] (-31168.238) (-31177.185) -- 0:45:40
34000 -- [-31164.209] (-31173.058) (-31169.209) (-31161.149) * (-31177.440) [-31162.070] (-31161.511) (-31174.243) -- 0:45:55
34500 -- (-31168.816) [-31167.405] (-31162.039) (-31163.212) * (-31166.503) (-31168.999) [-31166.181] (-31170.064) -- 0:45:42
35000 -- (-31168.691) (-31173.014) (-31171.451) [-31164.292] * (-31163.175) (-31170.474) [-31163.863] (-31170.122) -- 0:45:29
Average standard deviation of split frequencies: 0.000000
35500 -- [-31165.046] (-31163.296) (-31175.395) (-31161.828) * [-31163.488] (-31162.678) (-31165.053) (-31164.901) -- 0:45:44
36000 -- [-31168.852] (-31162.648) (-31164.617) (-31167.510) * (-31168.141) (-31173.194) (-31163.656) [-31161.097] -- 0:45:31
36500 -- (-31169.978) (-31163.338) (-31170.334) [-31169.180] * (-31161.013) [-31159.207] (-31161.721) (-31171.278) -- 0:45:45
37000 -- (-31172.548) (-31173.955) [-31162.862] (-31169.582) * (-31163.225) (-31160.944) [-31169.550] (-31170.776) -- 0:45:32
37500 -- (-31169.166) [-31162.108] (-31166.101) (-31172.240) * (-31170.318) (-31163.292) (-31170.006) [-31165.547] -- 0:45:20
38000 -- (-31169.501) (-31162.195) (-31172.037) [-31166.928] * (-31167.376) (-31164.814) (-31170.362) [-31166.772] -- 0:45:34
38500 -- (-31170.956) [-31164.444] (-31169.225) (-31169.709) * (-31165.805) (-31166.256) (-31177.723) [-31171.841] -- 0:45:22
39000 -- [-31170.000] (-31163.572) (-31162.216) (-31172.615) * [-31159.823] (-31173.155) (-31166.854) (-31187.239) -- 0:45:35
39500 -- [-31167.458] (-31160.205) (-31164.896) (-31173.806) * [-31173.708] (-31168.762) (-31170.477) (-31176.884) -- 0:45:23
40000 -- (-31164.600) (-31162.556) [-31168.774] (-31164.384) * (-31171.074) (-31172.649) [-31161.350] (-31163.783) -- 0:45:12
Average standard deviation of split frequencies: 0.000000
40500 -- (-31169.358) (-31164.500) [-31169.114] (-31166.313) * (-31169.686) (-31174.626) (-31160.922) [-31167.992] -- 0:45:24
41000 -- (-31173.114) [-31159.464] (-31167.859) (-31176.137) * (-31167.868) (-31175.416) [-31162.392] (-31163.730) -- 0:45:13
41500 -- (-31168.954) (-31165.227) (-31169.881) [-31164.351] * (-31165.782) (-31167.228) [-31160.629] (-31161.723) -- 0:45:25
42000 -- (-31160.711) [-31163.910] (-31179.059) (-31168.529) * [-31162.878] (-31170.059) (-31159.432) (-31162.990) -- 0:45:14
42500 -- (-31167.959) (-31178.697) [-31167.259] (-31170.391) * (-31162.161) (-31169.892) [-31168.097] (-31172.411) -- 0:45:03
43000 -- [-31161.571] (-31169.160) (-31167.744) (-31167.201) * (-31173.738) (-31169.075) [-31171.574] (-31175.842) -- 0:45:15
43500 -- (-31165.076) [-31170.712] (-31180.757) (-31173.872) * (-31168.469) [-31171.144] (-31171.231) (-31170.239) -- 0:45:04
44000 -- (-31163.492) (-31172.450) (-31177.764) [-31164.814] * (-31172.977) (-31163.731) [-31168.692] (-31165.865) -- 0:45:15
44500 -- [-31163.077] (-31167.161) (-31166.264) (-31166.699) * [-31173.815] (-31167.674) (-31170.047) (-31159.331) -- 0:45:05
45000 -- (-31163.173) [-31164.850] (-31172.474) (-31162.210) * (-31168.702) [-31166.025] (-31176.782) (-31168.495) -- 0:45:16
Average standard deviation of split frequencies: 0.000000
45500 -- (-31165.259) [-31165.060] (-31180.838) (-31165.810) * (-31173.825) [-31160.210] (-31166.781) (-31168.167) -- 0:45:27
46000 -- (-31167.920) [-31163.443] (-31166.500) (-31166.142) * [-31167.683] (-31169.215) (-31172.532) (-31167.868) -- 0:45:16
46500 -- (-31161.104) (-31177.761) [-31165.097] (-31171.086) * (-31169.241) [-31163.453] (-31175.262) (-31167.735) -- 0:45:27
47000 -- [-31164.258] (-31175.328) (-31177.817) (-31163.415) * (-31177.671) (-31165.464) [-31167.879] (-31169.200) -- 0:45:17
47500 -- (-31164.154) (-31168.043) (-31168.324) [-31166.623] * (-31174.622) [-31168.391] (-31171.570) (-31168.882) -- 0:45:07
48000 -- (-31164.592) (-31166.473) (-31177.235) [-31172.349] * (-31168.457) [-31170.046] (-31169.110) (-31171.640) -- 0:45:17
48500 -- (-31174.924) (-31163.940) [-31168.114] (-31167.234) * [-31161.592] (-31169.599) (-31177.547) (-31174.847) -- 0:45:07
49000 -- (-31177.343) (-31174.442) (-31165.697) [-31168.630] * [-31159.584] (-31175.501) (-31162.736) (-31173.037) -- 0:44:57
49500 -- (-31173.098) [-31172.256] (-31170.069) (-31175.051) * [-31165.493] (-31174.004) (-31171.870) (-31170.211) -- 0:45:07
50000 -- [-31166.608] (-31170.159) (-31170.001) (-31169.082) * [-31171.445] (-31172.287) (-31175.976) (-31168.651) -- 0:44:58
Average standard deviation of split frequencies: 0.000000
50500 -- (-31165.061) (-31178.892) [-31176.580] (-31167.784) * (-31170.892) (-31170.630) (-31170.408) [-31162.591] -- 0:45:07
51000 -- [-31166.141] (-31172.725) (-31164.697) (-31169.175) * (-31164.257) (-31166.646) [-31163.593] (-31171.912) -- 0:44:58
51500 -- (-31165.723) (-31169.430) [-31160.268] (-31168.804) * (-31174.497) (-31164.370) (-31170.008) [-31163.460] -- 0:44:48
52000 -- (-31160.865) (-31161.017) [-31164.058] (-31172.338) * (-31168.697) (-31176.640) (-31172.668) [-31169.140] -- 0:44:58
52500 -- [-31173.959] (-31163.654) (-31160.729) (-31165.301) * (-31170.071) [-31167.446] (-31169.300) (-31169.496) -- 0:44:49
53000 -- (-31166.872) (-31169.763) (-31171.673) [-31175.342] * [-31171.770] (-31165.960) (-31161.621) (-31177.316) -- 0:44:40
53500 -- (-31181.695) [-31168.232] (-31164.889) (-31164.014) * (-31165.106) [-31164.550] (-31171.028) (-31166.928) -- 0:44:49
54000 -- (-31172.762) (-31167.232) [-31160.346] (-31166.655) * (-31167.542) [-31165.954] (-31174.279) (-31167.983) -- 0:44:40
54500 -- (-31173.685) (-31166.994) [-31167.835] (-31171.820) * (-31165.962) [-31165.812] (-31171.752) (-31174.157) -- 0:44:49
55000 -- (-31174.364) [-31166.371] (-31170.770) (-31163.479) * [-31171.499] (-31168.619) (-31164.028) (-31166.590) -- 0:44:40
Average standard deviation of split frequencies: 0.000000
55500 -- (-31164.400) (-31173.904) [-31165.418] (-31166.314) * (-31168.710) (-31162.911) [-31163.242] (-31165.180) -- 0:44:31
56000 -- (-31173.638) (-31163.021) (-31168.203) [-31164.491] * (-31172.093) (-31174.170) [-31167.149] (-31158.489) -- 0:44:40
56500 -- (-31167.225) (-31168.662) (-31169.959) [-31172.134] * [-31162.639] (-31171.359) (-31163.772) (-31168.924) -- 0:44:31
57000 -- [-31174.821] (-31173.227) (-31168.571) (-31171.983) * (-31166.504) (-31173.880) [-31169.080] (-31172.616) -- 0:44:40
57500 -- [-31184.617] (-31171.273) (-31174.377) (-31175.842) * [-31158.518] (-31177.461) (-31167.161) (-31174.719) -- 0:44:48
58000 -- (-31174.471) [-31167.516] (-31172.502) (-31173.069) * (-31165.310) [-31172.193] (-31168.628) (-31166.005) -- 0:44:39
58500 -- [-31163.360] (-31168.554) (-31169.139) (-31174.427) * [-31173.117] (-31163.895) (-31168.580) (-31171.823) -- 0:44:47
59000 -- (-31169.533) [-31163.249] (-31172.558) (-31178.313) * (-31165.552) (-31170.100) (-31167.918) [-31165.478] -- 0:44:39
59500 -- [-31166.715] (-31171.334) (-31167.548) (-31176.821) * (-31166.282) [-31163.034] (-31169.210) (-31166.718) -- 0:44:47
60000 -- (-31164.362) (-31169.887) (-31170.570) [-31159.168] * [-31167.556] (-31174.606) (-31169.233) (-31167.615) -- 0:44:39
Average standard deviation of split frequencies: 0.000000
60500 -- (-31169.760) [-31157.244] (-31170.125) (-31173.463) * [-31170.944] (-31175.365) (-31168.339) (-31171.832) -- 0:44:30
61000 -- [-31164.296] (-31170.310) (-31168.394) (-31167.730) * (-31166.819) (-31171.448) [-31166.403] (-31161.390) -- 0:44:38
61500 -- (-31178.459) (-31175.509) (-31172.626) [-31163.453] * (-31162.200) (-31179.814) [-31166.185] (-31169.429) -- 0:44:30
62000 -- [-31168.601] (-31171.093) (-31167.413) (-31163.495) * [-31165.017] (-31170.532) (-31167.608) (-31172.367) -- 0:44:22
62500 -- [-31166.520] (-31174.575) (-31166.198) (-31171.106) * [-31168.755] (-31169.773) (-31163.003) (-31175.994) -- 0:44:30
63000 -- (-31166.904) [-31166.177] (-31168.739) (-31171.832) * (-31172.379) [-31170.685] (-31171.604) (-31173.232) -- 0:44:22
63500 -- [-31166.635] (-31169.914) (-31164.889) (-31169.827) * [-31168.176] (-31169.743) (-31171.465) (-31163.731) -- 0:44:14
64000 -- (-31170.313) (-31168.768) (-31168.973) [-31169.527] * (-31165.560) [-31160.666] (-31176.781) (-31168.507) -- 0:44:21
64500 -- [-31172.474] (-31175.239) (-31166.440) (-31178.093) * (-31169.094) (-31165.041) [-31168.633] (-31168.831) -- 0:44:14
65000 -- (-31175.319) (-31171.310) (-31164.079) [-31178.616] * (-31177.215) [-31158.541] (-31164.272) (-31166.204) -- 0:44:21
Average standard deviation of split frequencies: 0.000000
65500 -- (-31166.352) [-31178.975] (-31163.183) (-31170.728) * (-31172.770) [-31164.693] (-31172.559) (-31177.275) -- 0:44:13
66000 -- [-31163.360] (-31172.763) (-31166.554) (-31172.105) * (-31165.343) [-31167.327] (-31172.700) (-31173.445) -- 0:44:06
66500 -- (-31168.447) (-31168.837) [-31170.334] (-31172.623) * [-31161.182] (-31167.434) (-31174.343) (-31170.332) -- 0:44:13
67000 -- [-31168.321] (-31167.446) (-31162.492) (-31174.523) * (-31163.110) (-31170.878) (-31175.716) [-31165.655] -- 0:44:05
67500 -- (-31176.389) [-31167.409] (-31156.871) (-31169.456) * [-31158.599] (-31170.932) (-31169.488) (-31165.508) -- 0:43:58
68000 -- (-31170.898) (-31165.930) [-31158.338] (-31180.993) * [-31161.602] (-31175.318) (-31169.717) (-31169.286) -- 0:44:05
68500 -- (-31165.605) (-31182.521) (-31165.336) [-31176.999] * (-31177.324) (-31168.819) (-31168.012) [-31165.467] -- 0:43:58
69000 -- (-31173.852) [-31166.689] (-31164.701) (-31180.447) * (-31185.263) [-31160.138] (-31170.774) (-31160.889) -- 0:44:04
69500 -- (-31167.776) (-31171.021) [-31165.537] (-31185.001) * (-31165.299) (-31163.538) (-31164.220) [-31166.443] -- 0:43:57
70000 -- (-31170.454) (-31178.434) [-31166.094] (-31164.059) * (-31170.089) (-31167.564) (-31171.146) [-31168.235] -- 0:44:03
Average standard deviation of split frequencies: 0.000000
70500 -- (-31162.551) (-31169.731) [-31172.893] (-31176.516) * (-31164.184) (-31164.441) [-31169.536] (-31163.829) -- 0:44:10
71000 -- [-31160.296] (-31166.580) (-31172.296) (-31166.232) * (-31172.035) (-31161.101) (-31171.449) [-31166.248] -- 0:44:03
71500 -- (-31162.097) (-31167.260) (-31170.068) [-31174.487] * [-31166.153] (-31170.396) (-31161.751) (-31159.644) -- 0:44:09
72000 -- [-31172.939] (-31170.435) (-31169.516) (-31164.630) * (-31162.690) (-31166.510) (-31169.130) [-31174.049] -- 0:44:02
72500 -- (-31169.633) [-31167.085] (-31160.560) (-31167.524) * (-31168.370) (-31174.710) (-31168.060) [-31179.467] -- 0:44:08
73000 -- (-31169.823) [-31158.755] (-31161.710) (-31173.501) * (-31160.977) (-31170.554) (-31163.496) [-31165.828] -- 0:44:01
73500 -- (-31181.392) [-31177.469] (-31163.630) (-31175.944) * (-31176.579) (-31166.878) (-31166.880) [-31168.573] -- 0:43:54
74000 -- (-31172.095) [-31172.564] (-31170.240) (-31177.747) * (-31169.972) (-31167.362) [-31164.755] (-31168.428) -- 0:44:00
74500 -- [-31169.674] (-31163.340) (-31178.590) (-31170.243) * (-31171.489) [-31165.397] (-31168.948) (-31160.172) -- 0:43:53
75000 -- [-31173.285] (-31175.154) (-31165.798) (-31179.017) * (-31167.660) (-31168.074) [-31165.232] (-31168.392) -- 0:43:59
Average standard deviation of split frequencies: 0.000000
75500 -- (-31170.727) (-31167.156) [-31168.043] (-31169.366) * (-31160.819) (-31162.710) (-31162.774) [-31163.080] -- 0:43:52
76000 -- [-31166.037] (-31162.560) (-31168.705) (-31165.688) * [-31165.423] (-31164.048) (-31168.875) (-31177.950) -- 0:43:46
76500 -- (-31169.052) (-31165.216) [-31172.358] (-31165.482) * (-31171.620) (-31164.871) (-31161.926) [-31173.714] -- 0:43:51
77000 -- [-31164.373] (-31168.126) (-31167.065) (-31165.533) * (-31167.430) [-31165.885] (-31165.815) (-31172.141) -- 0:43:45
77500 -- (-31163.632) [-31162.764] (-31170.754) (-31174.039) * (-31166.858) (-31176.667) [-31165.529] (-31172.615) -- 0:43:50
78000 -- (-31166.861) [-31165.747] (-31166.516) (-31164.268) * [-31163.269] (-31170.895) (-31173.131) (-31165.801) -- 0:43:44
78500 -- (-31185.050) (-31174.748) (-31166.971) [-31165.451] * [-31170.849] (-31176.452) (-31168.169) (-31165.797) -- 0:43:37
79000 -- (-31177.450) (-31170.577) [-31167.585] (-31166.419) * [-31166.109] (-31167.236) (-31174.244) (-31181.892) -- 0:43:43
79500 -- (-31172.401) (-31174.530) (-31163.271) [-31173.175] * [-31164.902] (-31179.963) (-31166.381) (-31164.400) -- 0:43:36
80000 -- (-31170.336) [-31164.144] (-31169.386) (-31166.501) * (-31170.710) (-31167.083) (-31168.474) [-31168.299] -- 0:43:30
Average standard deviation of split frequencies: 0.000000
80500 -- (-31161.164) [-31171.531] (-31163.922) (-31166.698) * (-31169.924) (-31167.062) [-31171.789] (-31173.385) -- 0:43:35
81000 -- (-31167.126) (-31163.411) (-31162.794) [-31161.605] * (-31175.126) [-31166.097] (-31171.864) (-31177.116) -- 0:43:29
81500 -- (-31173.495) (-31161.295) (-31159.098) [-31172.239] * (-31166.991) [-31161.317] (-31171.876) (-31164.798) -- 0:43:34
82000 -- (-31165.541) (-31172.506) [-31162.966] (-31165.352) * (-31170.027) (-31167.536) (-31171.029) [-31174.527] -- 0:43:28
82500 -- (-31167.581) (-31160.071) (-31165.374) [-31160.442] * (-31173.331) (-31170.431) (-31163.186) [-31178.687] -- 0:43:22
83000 -- [-31165.797] (-31163.943) (-31161.059) (-31170.864) * (-31164.407) [-31168.429] (-31166.946) (-31172.135) -- 0:43:27
83500 -- (-31168.751) [-31168.348] (-31159.520) (-31172.997) * (-31170.726) (-31164.349) [-31165.736] (-31165.678) -- 0:43:21
84000 -- (-31170.976) (-31176.217) [-31173.425] (-31172.418) * (-31160.838) [-31168.033] (-31163.983) (-31163.839) -- 0:43:15
84500 -- (-31178.080) (-31172.314) (-31158.902) [-31171.434] * (-31167.094) (-31169.780) (-31170.493) [-31160.242] -- 0:43:20
85000 -- (-31176.153) (-31166.718) [-31164.983] (-31168.505) * (-31172.078) (-31170.138) [-31169.955] (-31159.299) -- 0:43:14
Average standard deviation of split frequencies: 0.000000
85500 -- (-31172.531) [-31161.700] (-31160.562) (-31164.778) * (-31166.317) (-31166.338) (-31163.656) [-31162.780] -- 0:43:19
86000 -- (-31165.165) (-31162.786) [-31178.575] (-31163.393) * (-31175.352) (-31163.253) (-31163.431) [-31165.594] -- 0:43:13
86500 -- (-31170.468) (-31176.178) [-31175.555] (-31160.414) * (-31179.184) (-31160.086) (-31171.555) [-31173.986] -- 0:43:07
87000 -- (-31168.214) [-31170.800] (-31171.933) (-31167.233) * [-31167.116] (-31169.570) (-31163.691) (-31168.066) -- 0:43:12
87500 -- (-31173.157) (-31166.546) (-31167.410) [-31169.111] * (-31177.475) [-31167.722] (-31165.561) (-31173.122) -- 0:43:06
88000 -- (-31176.204) (-31171.960) [-31165.744] (-31168.021) * (-31173.541) (-31164.429) [-31165.222] (-31166.049) -- 0:43:00
88500 -- (-31173.126) (-31172.919) [-31159.383] (-31170.484) * (-31179.483) [-31170.577] (-31168.116) (-31166.870) -- 0:43:05
89000 -- (-31166.952) (-31168.492) (-31170.249) [-31173.037] * (-31171.529) (-31169.991) (-31164.874) [-31170.850] -- 0:42:59
89500 -- (-31177.724) (-31176.635) [-31161.559] (-31165.739) * [-31164.179] (-31165.303) (-31168.955) (-31165.710) -- 0:43:03
90000 -- (-31167.364) (-31172.210) [-31165.056] (-31164.721) * (-31170.139) (-31171.124) (-31167.596) [-31176.080] -- 0:42:58
Average standard deviation of split frequencies: 0.000000
90500 -- (-31178.312) (-31179.266) [-31160.049] (-31165.871) * [-31166.815] (-31165.242) (-31175.242) (-31169.473) -- 0:43:02
91000 -- (-31165.342) (-31177.577) [-31165.969] (-31171.934) * (-31162.119) (-31174.022) (-31167.003) [-31171.170] -- 0:42:57
91500 -- (-31170.311) [-31167.481] (-31171.917) (-31167.737) * (-31162.534) (-31176.335) [-31170.429] (-31168.926) -- 0:42:51
92000 -- [-31169.557] (-31170.149) (-31162.447) (-31164.562) * (-31161.088) (-31168.375) [-31164.867] (-31170.901) -- 0:42:55
92500 -- (-31172.486) (-31172.469) [-31164.739] (-31162.200) * [-31159.979] (-31175.147) (-31169.848) (-31165.636) -- 0:42:50
93000 -- (-31163.741) (-31173.774) [-31164.093] (-31165.834) * (-31161.838) (-31169.311) (-31165.008) [-31164.071] -- 0:42:54
93500 -- (-31174.405) (-31160.778) [-31180.604] (-31167.265) * (-31168.891) [-31165.966] (-31176.744) (-31165.539) -- 0:42:49
94000 -- (-31170.699) (-31166.192) [-31164.093] (-31169.940) * (-31170.455) (-31167.907) [-31170.454] (-31166.149) -- 0:42:53
94500 -- (-31176.171) (-31171.503) (-31165.934) [-31168.858] * (-31168.470) [-31163.918] (-31169.257) (-31167.990) -- 0:42:47
95000 -- (-31178.120) [-31171.836] (-31170.151) (-31174.446) * (-31173.450) (-31169.913) (-31177.915) [-31163.770] -- 0:42:42
Average standard deviation of split frequencies: 0.000000
95500 -- (-31171.204) (-31163.728) [-31161.132] (-31169.635) * (-31172.526) (-31167.810) (-31181.018) [-31160.828] -- 0:42:46
96000 -- (-31164.712) (-31175.888) [-31168.357] (-31168.228) * [-31168.592] (-31182.077) (-31170.410) (-31163.662) -- 0:42:41
96500 -- [-31169.562] (-31170.995) (-31166.550) (-31172.842) * [-31163.334] (-31173.073) (-31186.105) (-31160.758) -- 0:42:36
97000 -- (-31171.255) (-31167.370) [-31173.576] (-31168.569) * (-31171.247) (-31174.836) (-31177.550) [-31167.458] -- 0:42:40
97500 -- (-31182.217) (-31165.719) (-31165.319) [-31171.721] * [-31169.210] (-31171.254) (-31167.775) (-31156.727) -- 0:42:34
98000 -- (-31180.292) (-31165.506) (-31162.366) [-31165.848] * (-31168.765) [-31167.186] (-31166.151) (-31169.698) -- 0:42:38
98500 -- (-31179.650) [-31163.822] (-31163.583) (-31171.329) * [-31169.338] (-31164.252) (-31170.166) (-31165.033) -- 0:42:33
99000 -- (-31177.668) (-31162.798) (-31179.387) [-31163.840] * (-31172.904) (-31176.153) (-31175.068) [-31161.994] -- 0:42:28
99500 -- (-31174.488) (-31162.768) (-31171.608) [-31163.960] * (-31173.727) (-31176.021) [-31165.707] (-31173.381) -- 0:42:32
100000 -- (-31165.626) [-31168.721] (-31168.322) (-31169.997) * (-31174.288) [-31170.489] (-31169.194) (-31168.016) -- 0:42:27
Average standard deviation of split frequencies: 0.000000
100500 -- (-31169.537) (-31166.766) (-31169.080) [-31170.573] * [-31172.727] (-31168.733) (-31172.048) (-31168.314) -- 0:42:21
101000 -- (-31175.709) (-31159.937) [-31165.923] (-31165.623) * [-31168.817] (-31169.934) (-31175.705) (-31163.842) -- 0:42:25
101500 -- (-31167.653) [-31164.402] (-31171.667) (-31166.047) * (-31172.664) [-31161.444] (-31163.898) (-31166.966) -- 0:42:20
102000 -- (-31166.470) [-31165.431] (-31168.279) (-31166.516) * (-31167.741) (-31166.496) [-31175.833] (-31168.352) -- 0:42:15
102500 -- (-31163.873) [-31164.348] (-31166.779) (-31166.013) * (-31173.303) (-31168.801) (-31178.314) [-31167.968] -- 0:42:19
103000 -- [-31167.417] (-31166.981) (-31170.526) (-31167.773) * (-31169.285) [-31166.776] (-31159.974) (-31165.150) -- 0:42:14
103500 -- [-31164.543] (-31175.179) (-31165.753) (-31170.353) * [-31172.920] (-31168.827) (-31167.880) (-31164.587) -- 0:42:17
104000 -- (-31178.671) [-31168.078] (-31171.389) (-31178.513) * (-31173.376) (-31170.730) (-31165.610) [-31166.250] -- 0:42:12
104500 -- (-31174.491) (-31162.962) (-31164.455) [-31169.928] * (-31182.885) (-31174.967) [-31167.650] (-31161.129) -- 0:42:07
105000 -- (-31163.294) (-31172.532) [-31165.794] (-31167.016) * (-31170.893) (-31166.994) (-31161.995) [-31164.102] -- 0:42:11
Average standard deviation of split frequencies: 0.000000
105500 -- (-31165.911) [-31164.211] (-31166.587) (-31173.905) * (-31174.826) [-31163.970] (-31167.620) (-31170.545) -- 0:42:06
106000 -- [-31162.089] (-31173.261) (-31169.400) (-31164.972) * (-31169.895) (-31167.096) [-31166.727] (-31174.447) -- 0:42:10
106500 -- (-31173.040) [-31178.546] (-31163.653) (-31167.920) * (-31166.463) (-31168.827) [-31165.650] (-31167.027) -- 0:42:05
107000 -- (-31166.272) (-31170.445) [-31167.363] (-31165.332) * [-31173.595] (-31164.078) (-31162.160) (-31162.861) -- 0:42:08
107500 -- (-31183.080) [-31166.613] (-31167.631) (-31170.606) * (-31168.839) [-31166.963] (-31159.947) (-31170.748) -- 0:42:03
108000 -- (-31170.873) [-31170.140] (-31176.611) (-31167.875) * [-31168.459] (-31174.698) (-31174.099) (-31168.232) -- 0:41:59
108500 -- (-31167.064) (-31177.413) (-31177.293) [-31160.069] * [-31169.829] (-31167.790) (-31165.379) (-31173.608) -- 0:42:02
109000 -- (-31176.094) (-31178.208) [-31179.512] (-31167.110) * (-31172.139) [-31164.047] (-31168.656) (-31173.156) -- 0:41:57
109500 -- (-31168.951) (-31176.966) [-31173.523] (-31164.771) * (-31180.326) (-31170.644) [-31166.328] (-31178.950) -- 0:41:52
110000 -- (-31169.554) (-31176.558) [-31173.383] (-31175.736) * (-31177.619) [-31173.761] (-31173.397) (-31172.634) -- 0:41:56
Average standard deviation of split frequencies: 0.000000
110500 -- (-31169.585) (-31180.882) (-31165.795) [-31170.082] * (-31159.815) [-31170.636] (-31167.376) (-31180.287) -- 0:41:51
111000 -- [-31170.877] (-31176.660) (-31171.453) (-31166.283) * (-31170.181) (-31168.236) [-31165.767] (-31166.329) -- 0:41:54
111500 -- [-31159.446] (-31165.420) (-31168.906) (-31181.002) * (-31163.939) (-31167.219) [-31164.842] (-31172.629) -- 0:41:50
112000 -- (-31169.057) [-31168.168] (-31175.218) (-31178.451) * (-31183.573) (-31171.594) [-31167.741] (-31177.585) -- 0:41:45
112500 -- (-31178.743) (-31164.922) [-31166.901] (-31170.756) * (-31179.994) (-31175.879) (-31173.349) [-31164.791] -- 0:41:48
113000 -- [-31166.549] (-31175.805) (-31175.042) (-31166.424) * (-31166.510) (-31172.975) (-31162.686) [-31164.610] -- 0:41:44
113500 -- (-31170.938) [-31173.830] (-31174.159) (-31162.886) * (-31159.877) (-31176.050) [-31163.510] (-31166.449) -- 0:41:39
114000 -- (-31163.044) (-31173.673) (-31170.132) [-31165.640] * (-31167.684) (-31168.141) (-31163.824) [-31170.650] -- 0:41:42
114500 -- [-31170.903] (-31177.355) (-31171.889) (-31168.962) * (-31177.879) [-31171.089] (-31157.202) (-31169.280) -- 0:41:37
115000 -- (-31166.967) (-31164.398) [-31168.433] (-31175.894) * [-31169.972] (-31163.895) (-31164.887) (-31163.888) -- 0:41:41
Average standard deviation of split frequencies: 0.000000
115500 -- (-31167.449) [-31167.011] (-31168.870) (-31168.683) * (-31173.719) (-31171.339) [-31164.241] (-31164.169) -- 0:41:36
116000 -- [-31172.989] (-31162.581) (-31175.596) (-31161.183) * (-31164.810) [-31170.645] (-31159.572) (-31179.664) -- 0:41:31
116500 -- (-31165.114) [-31167.552] (-31173.957) (-31171.214) * [-31166.230] (-31177.501) (-31167.235) (-31175.561) -- 0:41:35
117000 -- (-31173.929) (-31165.007) [-31170.635] (-31167.975) * [-31169.246] (-31162.496) (-31164.252) (-31167.469) -- 0:41:30
117500 -- (-31182.528) (-31168.823) (-31169.223) [-31159.583] * (-31166.408) (-31171.022) (-31160.055) [-31167.985] -- 0:41:26
118000 -- (-31167.853) [-31165.736] (-31166.412) (-31169.425) * (-31176.405) (-31161.342) [-31164.084] (-31162.802) -- 0:41:29
118500 -- (-31176.354) (-31168.180) [-31165.392] (-31165.446) * [-31172.224] (-31162.551) (-31166.837) (-31167.476) -- 0:41:24
119000 -- (-31183.765) (-31168.776) [-31168.451] (-31161.947) * (-31167.985) (-31168.767) (-31167.047) [-31169.019] -- 0:41:20
119500 -- (-31170.405) (-31174.837) [-31165.425] (-31162.513) * (-31169.069) [-31167.173] (-31179.004) (-31163.627) -- 0:41:23
120000 -- (-31171.625) (-31170.007) [-31166.561] (-31164.347) * (-31163.677) [-31169.043] (-31169.199) (-31169.942) -- 0:41:18
Average standard deviation of split frequencies: 0.000000
120500 -- [-31165.699] (-31168.636) (-31167.853) (-31166.794) * (-31168.658) (-31165.668) (-31172.039) [-31168.700] -- 0:41:21
121000 -- [-31164.367] (-31165.062) (-31168.448) (-31177.928) * (-31173.539) (-31168.057) (-31166.648) [-31169.780] -- 0:41:17
121500 -- (-31169.907) (-31175.780) [-31165.376] (-31163.633) * (-31172.060) [-31166.627] (-31169.573) (-31174.223) -- 0:41:12
122000 -- [-31161.917] (-31168.492) (-31165.309) (-31168.986) * (-31173.297) [-31168.171] (-31167.155) (-31170.518) -- 0:41:15
122500 -- [-31158.308] (-31165.960) (-31166.974) (-31169.629) * (-31176.112) [-31167.945] (-31171.020) (-31168.998) -- 0:41:11
123000 -- (-31173.500) (-31169.723) [-31162.699] (-31173.684) * [-31164.741] (-31178.188) (-31176.855) (-31167.746) -- 0:41:07
123500 -- (-31180.515) (-31161.973) [-31162.295] (-31170.558) * (-31175.161) [-31160.984] (-31172.505) (-31165.429) -- 0:41:09
124000 -- [-31172.098] (-31169.981) (-31179.200) (-31163.464) * (-31168.917) [-31160.860] (-31174.979) (-31159.818) -- 0:41:05
124500 -- (-31170.498) [-31165.483] (-31166.192) (-31167.976) * (-31179.097) (-31162.232) (-31172.870) [-31162.697] -- 0:41:08
125000 -- (-31172.169) (-31172.047) [-31168.370] (-31163.767) * (-31174.748) [-31171.385] (-31172.097) (-31164.661) -- 0:41:04
Average standard deviation of split frequencies: 0.000000
125500 -- (-31165.385) [-31171.779] (-31176.005) (-31179.277) * (-31172.423) (-31169.627) (-31175.213) [-31165.200] -- 0:40:59
126000 -- [-31169.469] (-31176.893) (-31168.127) (-31171.665) * [-31168.532] (-31170.378) (-31171.448) (-31158.172) -- 0:41:02
126500 -- (-31163.665) (-31189.305) (-31165.955) [-31163.120] * (-31169.705) (-31173.684) (-31167.526) [-31174.296] -- 0:40:58
127000 -- (-31167.282) (-31174.971) [-31174.123] (-31166.234) * (-31174.742) (-31168.837) (-31177.403) [-31169.927] -- 0:40:54
127500 -- (-31158.129) (-31166.434) (-31160.820) [-31164.028] * (-31170.337) (-31173.844) (-31173.478) [-31167.243] -- 0:40:56
128000 -- (-31170.253) (-31160.890) (-31170.321) [-31162.377] * (-31163.697) [-31169.794] (-31167.755) (-31172.861) -- 0:40:52
128500 -- [-31170.436] (-31170.749) (-31164.468) (-31165.577) * (-31169.685) (-31168.045) [-31164.266] (-31168.976) -- 0:40:48
129000 -- (-31178.903) (-31167.994) (-31161.861) [-31163.791] * (-31167.198) (-31163.544) (-31160.293) [-31175.233] -- 0:40:50
129500 -- (-31179.650) (-31171.100) [-31172.149] (-31169.654) * (-31160.943) (-31165.906) [-31168.837] (-31168.871) -- 0:40:46
130000 -- [-31163.672] (-31167.776) (-31167.471) (-31162.371) * (-31170.119) [-31163.454] (-31167.156) (-31170.000) -- 0:40:49
Average standard deviation of split frequencies: 0.000000
130500 -- (-31162.323) (-31168.460) (-31170.184) [-31168.045] * (-31166.353) (-31162.665) (-31163.955) [-31166.802] -- 0:40:45
131000 -- (-31173.911) (-31173.493) (-31161.082) [-31171.171] * [-31161.543] (-31172.926) (-31171.481) (-31170.427) -- 0:40:41
131500 -- (-31169.620) (-31170.503) [-31173.300] (-31171.747) * [-31172.092] (-31163.629) (-31169.321) (-31162.957) -- 0:40:43
132000 -- (-31172.892) [-31162.794] (-31175.550) (-31166.296) * (-31167.426) (-31172.542) (-31163.792) [-31173.171] -- 0:40:39
132500 -- (-31174.177) [-31171.923] (-31172.649) (-31168.418) * (-31170.063) (-31171.604) [-31166.396] (-31171.429) -- 0:40:35
133000 -- (-31175.899) [-31165.494] (-31168.042) (-31169.543) * (-31172.923) [-31164.637] (-31167.440) (-31170.799) -- 0:40:38
133500 -- (-31176.400) (-31173.746) [-31168.274] (-31162.275) * [-31171.906] (-31169.487) (-31163.672) (-31180.169) -- 0:40:33
134000 -- [-31165.649] (-31167.835) (-31163.977) (-31164.669) * [-31167.816] (-31161.238) (-31166.671) (-31167.282) -- 0:40:36
134500 -- (-31164.405) (-31177.358) (-31165.292) [-31168.681] * (-31169.087) (-31178.306) (-31160.632) [-31165.002] -- 0:40:32
135000 -- (-31165.897) [-31164.470] (-31176.936) (-31170.454) * (-31164.541) (-31165.993) (-31159.591) [-31164.281] -- 0:40:34
Average standard deviation of split frequencies: 0.000000
135500 -- (-31171.929) [-31166.822] (-31164.226) (-31161.339) * (-31168.473) (-31165.364) [-31167.858] (-31165.413) -- 0:40:30
136000 -- (-31187.830) (-31163.799) [-31164.116] (-31164.818) * [-31172.232] (-31165.870) (-31173.145) (-31173.119) -- 0:40:33
136500 -- (-31178.187) [-31166.835] (-31164.739) (-31174.908) * (-31167.637) (-31170.639) (-31168.611) [-31164.787] -- 0:40:29
137000 -- (-31175.218) [-31165.030] (-31169.712) (-31175.363) * (-31170.728) (-31176.837) (-31179.017) [-31165.167] -- 0:40:31
137500 -- (-31165.631) [-31163.181] (-31177.451) (-31177.018) * (-31175.231) (-31166.366) (-31164.535) [-31175.477] -- 0:40:27
138000 -- (-31172.255) (-31163.349) [-31168.278] (-31179.772) * (-31172.212) (-31164.049) (-31172.766) [-31163.437] -- 0:40:23
138500 -- (-31173.245) (-31163.885) (-31174.444) [-31167.535] * (-31181.808) (-31176.078) [-31158.959] (-31167.572) -- 0:40:25
139000 -- (-31170.872) (-31167.497) [-31165.959] (-31161.758) * (-31175.133) [-31173.441] (-31166.254) (-31182.172) -- 0:40:21
139500 -- (-31169.675) [-31167.299] (-31168.473) (-31172.136) * (-31175.703) (-31167.326) (-31178.873) [-31163.331] -- 0:40:24
140000 -- (-31167.215) (-31165.704) (-31175.910) [-31160.683] * (-31169.418) [-31164.012] (-31168.293) (-31163.764) -- 0:40:20
Average standard deviation of split frequencies: 0.000000
140500 -- (-31170.501) (-31172.546) [-31160.417] (-31161.805) * (-31165.741) (-31172.872) [-31169.699] (-31171.027) -- 0:40:16
141000 -- (-31176.981) (-31177.948) [-31170.200] (-31167.496) * (-31167.260) (-31166.376) [-31155.105] (-31170.535) -- 0:40:18
141500 -- (-31163.676) [-31169.597] (-31168.092) (-31161.048) * (-31168.986) (-31164.310) (-31156.913) [-31172.178] -- 0:40:14
142000 -- [-31171.260] (-31179.426) (-31162.828) (-31165.246) * (-31185.830) [-31167.647] (-31166.283) (-31174.921) -- 0:40:10
142500 -- (-31176.301) (-31182.092) (-31166.427) [-31161.767] * (-31164.873) (-31165.734) [-31162.307] (-31177.406) -- 0:40:13
143000 -- (-31171.890) (-31169.338) (-31179.326) [-31166.112] * (-31168.859) [-31176.120] (-31167.355) (-31172.809) -- 0:40:09
143500 -- (-31181.251) (-31180.503) [-31163.095] (-31169.475) * (-31164.989) (-31172.399) [-31170.743] (-31168.623) -- 0:40:11
144000 -- (-31169.432) (-31177.831) [-31165.072] (-31167.922) * [-31167.775] (-31164.094) (-31165.002) (-31173.318) -- 0:40:07
144500 -- (-31170.609) (-31183.366) (-31161.957) [-31166.125] * [-31168.925] (-31171.866) (-31177.197) (-31176.656) -- 0:40:03
145000 -- (-31169.051) (-31173.540) (-31168.321) [-31167.841] * (-31171.827) (-31168.344) [-31169.922] (-31170.680) -- 0:40:05
Average standard deviation of split frequencies: 0.000000
145500 -- (-31164.489) (-31177.552) (-31177.254) [-31171.115] * (-31161.791) [-31161.771] (-31172.816) (-31167.115) -- 0:40:01
146000 -- [-31165.385] (-31173.530) (-31169.832) (-31166.439) * (-31169.221) (-31170.675) [-31160.814] (-31173.266) -- 0:39:58
146500 -- (-31168.412) [-31175.216] (-31175.168) (-31169.777) * [-31167.526] (-31168.217) (-31165.287) (-31168.343) -- 0:40:00
147000 -- [-31160.415] (-31179.529) (-31163.909) (-31181.505) * (-31170.347) [-31169.540] (-31160.107) (-31166.534) -- 0:39:56
147500 -- (-31161.216) (-31176.429) [-31169.556] (-31172.582) * [-31165.611] (-31170.903) (-31166.395) (-31176.565) -- 0:39:58
148000 -- (-31163.085) [-31176.058] (-31169.159) (-31165.606) * (-31171.005) (-31170.142) [-31163.299] (-31165.499) -- 0:39:54
148500 -- (-31169.075) (-31174.986) (-31166.919) [-31169.015] * (-31169.639) [-31169.529] (-31163.380) (-31166.087) -- 0:39:51
149000 -- (-31175.904) [-31165.306] (-31171.125) (-31165.685) * (-31164.342) [-31169.896] (-31170.983) (-31173.635) -- 0:39:53
149500 -- (-31163.300) (-31164.630) [-31171.566] (-31169.005) * [-31168.261] (-31170.319) (-31174.379) (-31183.148) -- 0:39:49
150000 -- (-31173.018) [-31163.095] (-31167.257) (-31161.803) * (-31159.686) (-31165.896) [-31166.414] (-31170.565) -- 0:39:45
Average standard deviation of split frequencies: 0.000000
150500 -- (-31165.074) (-31165.857) (-31173.532) [-31163.659] * (-31169.211) (-31173.080) (-31165.547) [-31172.632] -- 0:39:47
151000 -- (-31164.191) [-31168.177] (-31168.816) (-31170.496) * [-31160.533] (-31177.831) (-31172.350) (-31166.953) -- 0:39:43
151500 -- (-31170.025) (-31172.330) (-31179.475) [-31165.011] * (-31181.307) [-31167.053] (-31168.113) (-31161.561) -- 0:39:40
152000 -- (-31165.336) (-31169.862) [-31161.948] (-31170.404) * (-31176.080) (-31175.232) (-31170.964) [-31174.662] -- 0:39:42
152500 -- (-31182.677) [-31166.160] (-31161.201) (-31166.422) * (-31168.896) (-31174.264) (-31179.274) [-31166.099] -- 0:39:38
153000 -- (-31172.827) (-31168.050) (-31168.628) [-31170.817] * (-31174.558) [-31163.547] (-31171.428) (-31180.302) -- 0:39:40
153500 -- (-31172.273) (-31168.244) [-31164.339] (-31169.728) * (-31170.520) (-31160.941) [-31168.052] (-31169.257) -- 0:39:36
154000 -- (-31172.854) (-31163.039) [-31160.418] (-31160.182) * (-31183.879) (-31162.972) (-31165.004) [-31172.755] -- 0:39:38
154500 -- (-31172.272) (-31169.818) [-31161.902] (-31163.691) * (-31176.200) (-31174.043) (-31168.186) [-31171.566] -- 0:39:35
155000 -- (-31169.580) [-31160.299] (-31166.316) (-31165.425) * (-31175.996) [-31164.411] (-31169.986) (-31176.402) -- 0:39:31
Average standard deviation of split frequencies: 0.000000
155500 -- [-31159.317] (-31162.840) (-31170.767) (-31175.048) * (-31180.644) [-31161.543] (-31183.445) (-31164.753) -- 0:39:33
156000 -- (-31166.712) (-31172.118) (-31174.104) [-31169.410] * (-31175.002) (-31167.250) (-31164.529) [-31162.675] -- 0:39:29
156500 -- [-31159.433] (-31165.059) (-31165.840) (-31167.279) * (-31171.762) (-31165.272) [-31166.863] (-31168.820) -- 0:39:31
157000 -- (-31171.307) (-31169.898) [-31159.980] (-31165.718) * (-31166.649) (-31174.259) (-31164.746) [-31160.021] -- 0:39:27
157500 -- (-31169.370) [-31180.649] (-31163.226) (-31161.172) * (-31166.991) (-31175.818) [-31162.383] (-31163.292) -- 0:39:29
158000 -- (-31166.505) (-31185.845) (-31163.229) [-31167.578] * (-31168.472) [-31165.085] (-31181.765) (-31173.714) -- 0:39:26
158500 -- (-31167.220) (-31169.810) [-31161.282] (-31162.831) * (-31168.945) (-31168.888) (-31176.000) [-31166.271] -- 0:39:27
159000 -- [-31165.093] (-31161.033) (-31162.894) (-31163.188) * [-31161.594] (-31171.305) (-31175.018) (-31165.527) -- 0:39:24
159500 -- (-31170.528) (-31163.330) [-31168.879] (-31171.940) * (-31165.652) (-31162.552) (-31174.678) [-31156.188] -- 0:39:20
160000 -- (-31169.361) [-31167.009] (-31179.092) (-31183.541) * (-31170.073) [-31159.470] (-31179.934) (-31168.713) -- 0:39:22
Average standard deviation of split frequencies: 0.000000
160500 -- (-31163.951) [-31167.170] (-31163.315) (-31184.908) * (-31170.341) (-31163.214) [-31169.024] (-31177.321) -- 0:39:18
161000 -- (-31166.035) (-31165.254) [-31165.850] (-31172.081) * (-31179.691) (-31172.321) (-31168.306) [-31161.785] -- 0:39:20
161500 -- (-31165.092) (-31164.095) [-31168.996] (-31163.904) * [-31167.401] (-31159.915) (-31172.365) (-31165.920) -- 0:39:17
162000 -- (-31176.504) (-31166.987) (-31172.021) [-31164.108] * (-31164.466) [-31175.226] (-31179.406) (-31167.550) -- 0:39:13
162500 -- [-31160.315] (-31168.661) (-31167.584) (-31168.384) * [-31166.419] (-31161.950) (-31171.692) (-31166.956) -- 0:39:15
163000 -- (-31166.550) (-31168.159) (-31165.257) [-31163.871] * [-31167.946] (-31171.771) (-31165.321) (-31173.212) -- 0:39:11
163500 -- (-31169.929) [-31171.119] (-31169.899) (-31162.641) * (-31168.469) (-31164.987) [-31175.286] (-31157.690) -- 0:39:13
164000 -- (-31175.351) (-31169.638) [-31170.182] (-31174.283) * (-31168.387) [-31166.390] (-31174.726) (-31165.165) -- 0:39:09
164500 -- (-31168.596) [-31166.931] (-31172.573) (-31172.482) * [-31167.731] (-31167.665) (-31174.649) (-31160.604) -- 0:39:06
165000 -- (-31179.501) (-31173.316) [-31166.634] (-31168.142) * (-31178.117) (-31168.524) (-31169.807) [-31160.555] -- 0:39:08
Average standard deviation of split frequencies: 0.000000
165500 -- (-31174.610) (-31173.047) (-31164.510) [-31172.388] * (-31166.548) [-31167.410] (-31173.574) (-31169.611) -- 0:39:04
166000 -- [-31173.648] (-31169.829) (-31163.586) (-31167.161) * (-31169.554) (-31175.740) (-31168.471) [-31165.015] -- 0:39:06
166500 -- (-31171.463) [-31165.415] (-31170.184) (-31179.182) * [-31162.849] (-31161.682) (-31172.921) (-31163.875) -- 0:39:02
167000 -- [-31162.785] (-31164.302) (-31166.327) (-31179.164) * (-31165.331) [-31167.437] (-31172.496) (-31170.694) -- 0:38:59
167500 -- (-31169.702) [-31160.480] (-31164.763) (-31172.618) * (-31170.892) (-31171.998) [-31171.176] (-31168.787) -- 0:39:00
168000 -- [-31167.411] (-31173.971) (-31179.602) (-31172.839) * (-31175.337) (-31174.263) (-31167.208) [-31170.548] -- 0:38:57
168500 -- (-31177.035) [-31171.930] (-31165.016) (-31170.898) * [-31171.389] (-31167.339) (-31168.049) (-31168.215) -- 0:38:54
169000 -- (-31170.542) [-31167.625] (-31166.964) (-31167.270) * (-31164.229) (-31180.921) [-31172.443] (-31164.177) -- 0:38:55
169500 -- (-31177.203) [-31166.600] (-31170.651) (-31165.767) * [-31160.967] (-31169.940) (-31169.500) (-31166.131) -- 0:38:52
170000 -- [-31161.326] (-31167.891) (-31165.534) (-31164.561) * (-31168.981) [-31165.355] (-31167.935) (-31169.079) -- 0:38:53
Average standard deviation of split frequencies: 0.000000
170500 -- (-31164.421) (-31162.534) [-31167.602] (-31162.209) * (-31168.921) [-31160.907] (-31163.510) (-31165.507) -- 0:38:50
171000 -- (-31168.737) (-31162.737) (-31166.466) [-31164.019] * [-31181.642] (-31165.020) (-31171.481) (-31175.614) -- 0:38:47
171500 -- (-31171.009) [-31164.198] (-31175.182) (-31170.465) * (-31172.338) [-31165.053] (-31170.946) (-31170.464) -- 0:38:48
172000 -- (-31175.332) (-31169.379) (-31176.000) [-31164.952] * (-31180.052) (-31162.595) [-31167.040] (-31175.546) -- 0:38:45
172500 -- (-31171.284) (-31165.283) [-31162.916] (-31171.817) * [-31179.309] (-31172.195) (-31168.226) (-31179.720) -- 0:38:41
173000 -- [-31165.091] (-31166.583) (-31166.464) (-31172.145) * (-31164.873) [-31169.244] (-31171.991) (-31172.731) -- 0:38:43
173500 -- [-31168.873] (-31162.525) (-31163.851) (-31172.040) * (-31161.490) (-31163.483) [-31165.362] (-31167.640) -- 0:38:39
174000 -- (-31164.653) (-31171.192) (-31162.758) [-31167.512] * (-31165.045) (-31168.918) (-31164.955) [-31163.244] -- 0:38:36
174500 -- [-31165.515] (-31163.660) (-31166.253) (-31170.228) * (-31166.208) (-31169.950) [-31161.283] (-31163.394) -- 0:38:38
175000 -- (-31171.672) (-31169.226) (-31167.477) [-31161.584] * (-31172.045) [-31167.502] (-31171.889) (-31165.616) -- 0:38:34
Average standard deviation of split frequencies: 0.000000
175500 -- (-31167.438) [-31170.426] (-31173.761) (-31167.012) * (-31175.481) [-31166.190] (-31165.887) (-31164.513) -- 0:38:36
176000 -- (-31161.509) (-31163.760) (-31164.284) [-31167.977] * (-31166.572) [-31167.655] (-31174.983) (-31165.389) -- 0:38:32
176500 -- (-31170.404) (-31172.405) (-31162.146) [-31163.653] * (-31171.006) (-31168.468) [-31167.944] (-31171.793) -- 0:38:29
177000 -- (-31170.266) (-31168.817) [-31163.389] (-31166.733) * (-31165.986) (-31171.332) [-31164.321] (-31165.241) -- 0:38:30
177500 -- (-31172.710) (-31166.982) (-31160.186) [-31165.862] * (-31161.871) (-31177.332) [-31167.915] (-31168.675) -- 0:38:27
178000 -- (-31170.301) (-31176.241) [-31159.457] (-31170.116) * (-31176.996) (-31167.142) [-31170.463] (-31169.675) -- 0:38:24
178500 -- [-31167.776] (-31169.609) (-31165.154) (-31162.082) * (-31168.841) [-31169.168] (-31176.582) (-31170.688) -- 0:38:25
179000 -- (-31162.568) (-31172.596) [-31166.909] (-31168.872) * (-31167.248) (-31158.497) (-31174.582) [-31162.366] -- 0:38:22
179500 -- [-31172.099] (-31166.508) (-31170.799) (-31186.621) * (-31165.318) (-31169.271) (-31164.821) [-31164.315] -- 0:38:23
180000 -- (-31166.592) (-31166.401) [-31164.177] (-31171.344) * [-31164.181] (-31164.646) (-31174.558) (-31163.091) -- 0:38:20
Average standard deviation of split frequencies: 0.000000
180500 -- [-31171.400] (-31166.077) (-31163.472) (-31166.133) * [-31163.725] (-31170.906) (-31174.727) (-31171.198) -- 0:38:17
181000 -- [-31176.427] (-31170.410) (-31163.630) (-31168.668) * (-31174.861) (-31169.553) (-31165.794) [-31169.727] -- 0:38:18
181500 -- (-31179.521) (-31177.562) (-31168.034) [-31165.386] * [-31172.734] (-31169.393) (-31174.049) (-31169.443) -- 0:38:15
182000 -- (-31178.386) (-31161.674) [-31170.506] (-31160.858) * (-31169.170) [-31165.606] (-31166.299) (-31170.562) -- 0:38:12
182500 -- (-31163.453) [-31161.840] (-31164.930) (-31166.302) * [-31175.569] (-31166.907) (-31169.493) (-31172.107) -- 0:38:13
183000 -- (-31168.320) (-31173.029) (-31173.371) [-31164.509] * (-31173.917) (-31171.767) [-31161.608] (-31172.389) -- 0:38:10
183500 -- (-31165.268) (-31172.860) (-31174.558) [-31172.724] * (-31163.313) (-31159.920) (-31166.252) [-31169.374] -- 0:38:11
184000 -- (-31170.030) (-31175.609) [-31162.497] (-31175.922) * (-31173.496) (-31171.891) [-31170.848] (-31166.803) -- 0:38:08
184500 -- [-31164.006] (-31185.428) (-31155.606) (-31159.833) * (-31167.391) [-31172.959] (-31165.853) (-31167.281) -- 0:38:05
185000 -- (-31164.328) (-31178.237) (-31162.290) [-31164.026] * (-31164.754) (-31167.693) [-31168.228] (-31169.044) -- 0:38:06
Average standard deviation of split frequencies: 0.000000
185500 -- [-31161.141] (-31162.999) (-31164.900) (-31165.513) * (-31172.785) (-31166.633) (-31161.538) [-31170.222] -- 0:38:03
186000 -- (-31165.311) (-31169.217) [-31168.810] (-31175.324) * (-31161.063) (-31159.933) (-31172.286) [-31173.071] -- 0:38:00
186500 -- (-31167.332) (-31165.078) [-31168.787] (-31168.428) * (-31172.357) [-31159.568] (-31170.836) (-31159.457) -- 0:38:01
187000 -- (-31170.629) (-31166.940) [-31161.734] (-31162.590) * (-31174.855) [-31163.277] (-31167.144) (-31169.577) -- 0:37:58
187500 -- [-31173.724] (-31169.262) (-31166.666) (-31165.784) * (-31162.840) (-31170.068) [-31166.033] (-31167.089) -- 0:37:59
188000 -- (-31180.378) (-31167.784) [-31166.488] (-31170.090) * (-31171.171) [-31164.877] (-31171.324) (-31173.869) -- 0:37:56
188500 -- (-31172.143) (-31172.337) (-31179.790) [-31166.598] * [-31170.066] (-31171.263) (-31170.895) (-31172.857) -- 0:37:53
189000 -- (-31171.929) (-31177.960) (-31173.284) [-31161.271] * (-31168.726) [-31164.691] (-31170.080) (-31178.860) -- 0:37:54
189500 -- (-31173.246) (-31167.162) (-31172.129) [-31165.258] * (-31180.521) (-31172.791) [-31173.064] (-31167.703) -- 0:37:51
190000 -- (-31178.317) (-31163.393) (-31160.287) [-31161.732] * (-31170.053) (-31163.392) [-31170.040] (-31166.489) -- 0:37:48
Average standard deviation of split frequencies: 0.000000
190500 -- (-31167.711) [-31160.739] (-31175.813) (-31165.326) * (-31179.274) [-31158.401] (-31173.489) (-31180.558) -- 0:37:49
191000 -- [-31166.722] (-31169.900) (-31168.476) (-31160.633) * (-31171.649) (-31171.100) [-31174.302] (-31175.275) -- 0:37:46
191500 -- (-31169.224) (-31178.011) (-31176.308) [-31165.865] * [-31162.960] (-31179.185) (-31168.880) (-31171.899) -- 0:37:47
192000 -- (-31170.380) (-31193.879) [-31175.922] (-31168.918) * (-31168.856) (-31167.838) (-31172.204) [-31166.310] -- 0:37:44
192500 -- [-31165.047] (-31171.311) (-31167.903) (-31172.284) * (-31174.288) (-31170.295) (-31174.986) [-31166.969] -- 0:37:41
193000 -- [-31166.716] (-31168.647) (-31166.269) (-31168.921) * (-31167.466) [-31163.746] (-31172.707) (-31179.621) -- 0:37:42
193500 -- (-31164.242) (-31170.747) [-31166.895] (-31178.806) * (-31169.477) (-31165.408) [-31169.691] (-31171.954) -- 0:37:39
194000 -- [-31167.945] (-31163.379) (-31169.351) (-31166.514) * [-31168.545] (-31170.859) (-31170.141) (-31183.512) -- 0:37:35
194500 -- (-31166.632) (-31163.252) [-31165.134] (-31167.572) * (-31166.175) (-31168.667) (-31167.671) [-31166.281] -- 0:37:37
195000 -- [-31166.196] (-31177.857) (-31163.830) (-31170.639) * (-31165.548) (-31176.047) (-31170.587) [-31162.314] -- 0:37:34
Average standard deviation of split frequencies: 0.000000
195500 -- (-31180.366) (-31175.276) (-31164.644) [-31174.558] * (-31165.098) (-31166.090) (-31164.504) [-31160.723] -- 0:37:35
196000 -- (-31170.241) (-31168.710) [-31170.323] (-31171.163) * (-31163.787) [-31170.543] (-31173.603) (-31169.613) -- 0:37:32
196500 -- (-31167.173) (-31170.813) (-31179.142) [-31167.949] * (-31170.304) (-31172.660) [-31168.797] (-31164.023) -- 0:37:28
197000 -- (-31162.147) (-31173.249) (-31169.875) [-31162.721] * [-31174.531] (-31166.518) (-31171.585) (-31172.405) -- 0:37:30
197500 -- [-31162.183] (-31172.584) (-31175.528) (-31162.671) * (-31165.915) [-31166.094] (-31178.410) (-31174.019) -- 0:37:27
198000 -- [-31167.524] (-31175.086) (-31164.842) (-31168.441) * (-31169.727) (-31169.753) (-31176.838) [-31162.963] -- 0:37:23
198500 -- [-31161.112] (-31165.358) (-31175.992) (-31177.545) * (-31171.128) (-31176.757) (-31169.977) [-31167.124] -- 0:37:25
199000 -- (-31164.935) (-31163.784) (-31178.605) [-31171.657] * (-31162.247) (-31161.977) [-31161.854] (-31187.161) -- 0:37:21
199500 -- (-31167.012) (-31167.632) (-31164.197) [-31161.727] * (-31166.578) [-31162.678] (-31171.795) (-31175.335) -- 0:37:23
200000 -- (-31166.270) (-31170.766) [-31167.467] (-31171.765) * [-31167.365] (-31163.033) (-31165.595) (-31167.867) -- 0:37:20
Average standard deviation of split frequencies: 0.000000
200500 -- [-31168.977] (-31166.552) (-31168.290) (-31171.770) * (-31172.899) (-31160.019) (-31169.459) [-31170.735] -- 0:37:17
201000 -- (-31172.976) (-31166.076) (-31167.211) [-31178.724] * (-31174.992) (-31167.919) [-31173.717] (-31167.814) -- 0:37:17
201500 -- (-31163.034) [-31165.015] (-31169.053) (-31173.076) * (-31163.833) [-31168.829] (-31172.719) (-31172.598) -- 0:37:15
202000 -- (-31160.280) [-31165.403] (-31169.466) (-31167.271) * (-31163.328) (-31183.556) [-31170.391] (-31171.522) -- 0:37:12
202500 -- (-31163.651) [-31159.530] (-31175.407) (-31173.115) * (-31167.313) (-31171.033) (-31161.350) [-31166.225] -- 0:37:13
203000 -- (-31173.627) [-31170.026] (-31167.553) (-31161.401) * (-31175.573) [-31160.109] (-31164.527) (-31178.151) -- 0:37:10
203500 -- (-31176.303) (-31163.343) (-31167.830) [-31169.334] * (-31174.633) (-31170.684) (-31160.072) [-31165.090] -- 0:37:10
204000 -- (-31166.545) (-31183.333) (-31167.273) [-31173.345] * (-31168.201) [-31168.862] (-31162.656) (-31166.747) -- 0:37:08
204500 -- (-31168.273) (-31179.937) [-31174.862] (-31177.455) * [-31170.378] (-31179.958) (-31159.624) (-31176.006) -- 0:37:05
205000 -- (-31167.350) (-31163.331) [-31164.254] (-31171.266) * (-31164.314) (-31171.350) [-31162.454] (-31176.492) -- 0:37:06
Average standard deviation of split frequencies: 0.000000
205500 -- (-31162.990) (-31170.127) (-31164.992) [-31166.533] * (-31168.325) (-31165.356) [-31168.264] (-31175.642) -- 0:37:03
206000 -- (-31175.974) (-31170.668) [-31172.770] (-31163.959) * (-31168.619) (-31171.186) [-31158.754] (-31172.843) -- 0:37:00
206500 -- [-31167.099] (-31162.103) (-31172.327) (-31167.656) * (-31173.842) (-31170.512) (-31171.129) [-31168.951] -- 0:37:01
207000 -- (-31163.523) [-31165.825] (-31164.270) (-31172.542) * [-31163.720] (-31168.994) (-31168.234) (-31172.623) -- 0:36:58
207500 -- [-31163.387] (-31169.275) (-31165.181) (-31162.914) * (-31170.075) [-31166.349] (-31174.044) (-31166.623) -- 0:36:55
208000 -- (-31170.094) [-31162.735] (-31164.156) (-31166.863) * (-31170.671) [-31168.360] (-31169.711) (-31166.694) -- 0:36:56
208500 -- (-31173.529) (-31172.606) (-31174.731) [-31165.924] * (-31173.027) (-31168.741) (-31170.025) [-31167.579] -- 0:36:53
209000 -- (-31166.308) (-31172.905) [-31183.063] (-31164.605) * (-31164.072) (-31173.828) (-31168.928) [-31163.263] -- 0:36:54
209500 -- (-31167.019) (-31164.994) (-31170.788) [-31160.817] * (-31169.053) [-31176.837] (-31166.109) (-31160.358) -- 0:36:51
210000 -- (-31171.997) [-31164.976] (-31163.781) (-31176.693) * (-31167.149) (-31178.442) (-31166.716) [-31166.527] -- 0:36:48
Average standard deviation of split frequencies: 0.000000
210500 -- (-31169.241) [-31163.901] (-31178.646) (-31168.392) * (-31165.442) [-31178.357] (-31169.039) (-31164.376) -- 0:36:49
211000 -- (-31172.151) (-31168.241) [-31172.613] (-31166.442) * (-31169.436) (-31168.612) (-31173.487) [-31163.625] -- 0:36:46
211500 -- [-31164.123] (-31169.794) (-31167.543) (-31164.525) * (-31170.597) (-31161.544) [-31169.757] (-31162.362) -- 0:36:43
212000 -- [-31168.399] (-31168.919) (-31169.850) (-31162.333) * (-31169.503) (-31164.370) [-31163.648] (-31166.540) -- 0:36:44
212500 -- (-31164.368) (-31168.893) (-31166.940) [-31165.677] * (-31168.238) (-31183.261) (-31170.330) [-31168.278] -- 0:36:41
213000 -- (-31160.181) (-31175.592) [-31168.239] (-31166.358) * (-31172.521) (-31181.163) (-31164.160) [-31177.504] -- 0:36:42
213500 -- (-31166.920) (-31181.012) [-31163.730] (-31169.307) * (-31175.182) [-31171.399] (-31176.646) (-31172.430) -- 0:36:39
214000 -- (-31169.961) (-31170.326) (-31176.745) [-31161.203] * [-31170.864] (-31167.010) (-31162.814) (-31165.156) -- 0:36:36
214500 -- (-31166.212) (-31171.617) (-31169.646) [-31161.367] * (-31169.408) (-31180.589) [-31169.200] (-31164.723) -- 0:36:37
215000 -- (-31169.198) (-31162.311) (-31171.545) [-31168.732] * (-31172.900) [-31167.215] (-31158.375) (-31175.404) -- 0:36:34
Average standard deviation of split frequencies: 0.000000
215500 -- (-31167.385) [-31165.706] (-31168.818) (-31167.435) * (-31166.582) [-31165.456] (-31164.344) (-31162.378) -- 0:36:31
216000 -- (-31172.619) [-31164.631] (-31161.614) (-31181.711) * (-31175.921) (-31162.518) (-31168.180) [-31165.074] -- 0:36:32
216500 -- (-31166.666) [-31168.857] (-31177.128) (-31167.434) * (-31166.409) (-31167.003) [-31171.029] (-31173.562) -- 0:36:29
217000 -- (-31172.059) (-31179.692) [-31162.585] (-31165.731) * (-31163.986) [-31161.059] (-31166.177) (-31171.029) -- 0:36:26
217500 -- (-31169.287) (-31164.352) (-31164.130) [-31176.552] * (-31179.434) (-31173.221) (-31179.003) [-31168.462] -- 0:36:27
218000 -- [-31165.190] (-31171.946) (-31166.510) (-31176.703) * (-31172.581) [-31164.822] (-31162.870) (-31176.820) -- 0:36:24
218500 -- (-31170.715) (-31167.202) [-31170.821] (-31174.980) * (-31188.105) (-31163.665) [-31169.848] (-31171.023) -- 0:36:25
219000 -- [-31166.995] (-31172.337) (-31169.811) (-31167.298) * [-31169.500] (-31162.690) (-31170.148) (-31170.496) -- 0:36:22
219500 -- [-31167.153] (-31175.599) (-31170.998) (-31167.262) * (-31176.071) [-31163.645] (-31166.008) (-31173.146) -- 0:36:19
220000 -- (-31168.062) (-31163.205) [-31165.344] (-31171.834) * (-31168.893) (-31167.072) [-31166.523] (-31179.496) -- 0:36:20
Average standard deviation of split frequencies: 0.000000
220500 -- (-31168.666) (-31169.377) (-31161.908) [-31161.579] * (-31171.300) (-31165.507) [-31163.513] (-31167.483) -- 0:36:17
221000 -- (-31169.349) (-31168.463) (-31164.373) [-31161.545] * (-31177.043) (-31167.649) [-31159.305] (-31173.078) -- 0:36:14
221500 -- [-31162.470] (-31169.337) (-31167.338) (-31172.605) * (-31174.295) [-31168.474] (-31173.825) (-31164.390) -- 0:36:15
222000 -- (-31166.176) (-31174.885) (-31171.659) [-31169.529] * (-31162.201) [-31165.288] (-31174.250) (-31164.353) -- 0:36:12
222500 -- [-31171.990] (-31169.640) (-31173.471) (-31167.192) * (-31171.339) (-31167.444) (-31169.087) [-31163.289] -- 0:36:13
223000 -- (-31172.351) (-31177.424) [-31169.213] (-31164.626) * [-31176.083] (-31162.048) (-31164.361) (-31172.552) -- 0:36:10
223500 -- (-31165.929) [-31167.653] (-31178.080) (-31161.808) * (-31163.438) (-31166.534) (-31161.435) [-31165.322] -- 0:36:07
224000 -- [-31173.540] (-31170.967) (-31163.520) (-31176.604) * [-31172.131] (-31180.149) (-31180.977) (-31176.346) -- 0:36:08
224500 -- (-31170.354) (-31173.886) [-31165.681] (-31171.731) * (-31175.062) (-31171.337) (-31165.148) [-31167.583] -- 0:36:05
225000 -- (-31164.710) (-31171.233) (-31177.438) [-31170.230] * [-31173.623] (-31169.895) (-31168.959) (-31180.240) -- 0:36:03
Average standard deviation of split frequencies: 0.000000
225500 -- (-31186.021) (-31177.081) (-31165.001) [-31159.782] * (-31167.042) (-31180.230) [-31177.920] (-31166.888) -- 0:36:03
226000 -- (-31177.299) [-31168.559] (-31173.029) (-31163.611) * (-31167.185) [-31171.648] (-31170.751) (-31172.302) -- 0:36:01
226500 -- (-31170.456) (-31164.755) (-31160.280) [-31177.319] * (-31170.588) (-31170.075) [-31180.919] (-31179.484) -- 0:36:01
227000 -- (-31175.114) [-31172.040] (-31181.692) (-31165.869) * (-31187.664) (-31162.471) [-31166.824] (-31173.286) -- 0:35:58
227500 -- [-31174.025] (-31170.318) (-31170.459) (-31163.754) * (-31174.810) (-31160.776) [-31175.879] (-31170.840) -- 0:35:56
228000 -- (-31170.884) (-31167.075) [-31161.887] (-31169.264) * (-31169.737) [-31160.988] (-31171.612) (-31178.454) -- 0:35:56
228500 -- (-31167.856) (-31174.303) (-31175.673) [-31161.396] * (-31167.298) [-31164.558] (-31166.607) (-31166.975) -- 0:35:54
229000 -- (-31164.577) (-31174.497) [-31166.386] (-31169.705) * (-31166.820) [-31162.723] (-31173.210) (-31170.360) -- 0:35:54
229500 -- (-31168.659) (-31170.099) (-31171.497) [-31177.326] * (-31171.668) [-31163.662] (-31169.237) (-31176.554) -- 0:35:52
230000 -- (-31172.943) [-31163.647] (-31172.723) (-31182.985) * (-31164.092) (-31163.740) [-31166.688] (-31165.637) -- 0:35:49
Average standard deviation of split frequencies: 0.000000
230500 -- [-31170.702] (-31170.305) (-31169.337) (-31165.733) * (-31165.599) [-31166.057] (-31170.139) (-31168.939) -- 0:35:49
231000 -- (-31173.743) (-31168.577) (-31167.656) [-31163.219] * (-31168.428) (-31164.894) [-31171.198] (-31163.879) -- 0:35:47
231500 -- [-31166.979] (-31177.255) (-31166.384) (-31162.335) * [-31158.084] (-31170.369) (-31170.450) (-31170.437) -- 0:35:47
232000 -- [-31169.326] (-31187.043) (-31166.466) (-31174.310) * [-31170.822] (-31154.324) (-31167.666) (-31174.141) -- 0:35:45
232500 -- (-31182.447) [-31170.685] (-31172.725) (-31164.624) * (-31169.580) [-31161.141] (-31174.056) (-31175.728) -- 0:35:42
233000 -- (-31164.882) (-31162.125) (-31171.597) [-31166.785] * (-31164.847) (-31168.382) [-31173.598] (-31167.508) -- 0:35:42
233500 -- (-31163.095) (-31165.534) [-31164.733] (-31172.765) * (-31179.878) (-31160.042) (-31169.045) [-31160.518] -- 0:35:40
234000 -- [-31169.904] (-31165.864) (-31173.650) (-31171.700) * (-31174.076) [-31167.135] (-31168.594) (-31165.751) -- 0:35:37
234500 -- (-31168.349) [-31168.427] (-31166.020) (-31168.767) * (-31163.603) (-31171.656) [-31162.003] (-31167.468) -- 0:35:38
235000 -- (-31174.036) [-31171.533] (-31172.468) (-31169.018) * (-31161.943) (-31171.691) [-31166.806] (-31168.258) -- 0:35:35
Average standard deviation of split frequencies: 0.000000
235500 -- [-31169.764] (-31167.093) (-31167.699) (-31173.967) * (-31162.958) (-31169.138) (-31175.865) [-31162.255] -- 0:35:32
236000 -- (-31164.934) [-31165.810] (-31171.224) (-31170.829) * (-31173.890) (-31170.199) [-31161.432] (-31166.224) -- 0:35:33
236500 -- (-31178.680) [-31161.869] (-31168.520) (-31166.538) * (-31180.889) (-31179.914) (-31163.588) [-31163.459] -- 0:35:30
237000 -- (-31166.131) [-31166.099] (-31173.633) (-31169.602) * (-31171.668) (-31176.463) (-31176.609) [-31163.996] -- 0:35:31
237500 -- [-31167.214] (-31171.283) (-31170.531) (-31175.201) * (-31175.140) (-31173.261) [-31162.019] (-31172.523) -- 0:35:28
238000 -- (-31164.347) (-31163.431) [-31166.535] (-31177.052) * (-31169.413) (-31165.263) (-31172.175) [-31167.404] -- 0:35:25
238500 -- (-31172.308) (-31168.767) (-31166.998) [-31166.595] * (-31163.746) (-31166.988) (-31169.747) [-31172.945] -- 0:35:26
239000 -- (-31166.035) [-31174.003] (-31170.262) (-31174.478) * [-31162.259] (-31176.363) (-31166.995) (-31173.071) -- 0:35:23
239500 -- (-31164.148) (-31173.654) [-31177.904] (-31164.999) * [-31163.310] (-31167.029) (-31170.603) (-31175.629) -- 0:35:21
240000 -- [-31162.793] (-31164.916) (-31172.889) (-31167.185) * (-31167.380) (-31171.604) [-31165.476] (-31172.131) -- 0:35:21
Average standard deviation of split frequencies: 0.000000
240500 -- (-31173.827) [-31158.938] (-31172.590) (-31180.653) * (-31175.651) [-31165.017] (-31167.528) (-31178.283) -- 0:35:19
241000 -- (-31172.475) [-31175.572] (-31165.319) (-31169.013) * (-31164.172) (-31165.321) [-31163.627] (-31172.899) -- 0:35:19
241500 -- (-31170.241) (-31170.443) (-31170.634) [-31173.056] * [-31162.229] (-31168.680) (-31171.542) (-31183.939) -- 0:35:16
242000 -- (-31166.837) (-31170.619) [-31170.822] (-31164.906) * [-31163.898] (-31170.165) (-31165.857) (-31176.079) -- 0:35:14
242500 -- (-31169.581) [-31170.258] (-31173.423) (-31166.298) * (-31161.815) (-31176.501) [-31160.880] (-31168.576) -- 0:35:14
243000 -- [-31170.772] (-31174.400) (-31166.002) (-31176.177) * (-31160.844) (-31166.052) [-31165.496] (-31170.393) -- 0:35:12
243500 -- [-31161.871] (-31165.424) (-31174.147) (-31168.121) * (-31179.974) (-31160.714) (-31171.610) [-31163.171] -- 0:35:09
244000 -- [-31162.513] (-31169.173) (-31175.385) (-31172.066) * (-31164.140) [-31165.793] (-31169.626) (-31166.217) -- 0:35:09
244500 -- (-31162.447) (-31163.621) (-31181.602) [-31169.673] * (-31165.232) [-31160.462] (-31163.579) (-31163.864) -- 0:35:07
245000 -- (-31172.819) (-31166.173) [-31166.530] (-31175.041) * [-31165.512] (-31167.208) (-31168.193) (-31169.220) -- 0:35:07
Average standard deviation of split frequencies: 0.000000
245500 -- (-31158.024) (-31173.317) (-31165.366) [-31165.224] * [-31169.024] (-31172.301) (-31161.060) (-31167.619) -- 0:35:05
246000 -- [-31170.425] (-31169.765) (-31166.716) (-31170.257) * (-31172.485) [-31166.541] (-31168.705) (-31169.770) -- 0:35:02
246500 -- [-31163.206] (-31167.439) (-31166.716) (-31169.346) * [-31169.571] (-31168.056) (-31167.106) (-31167.702) -- 0:35:03
247000 -- (-31171.612) [-31167.554] (-31166.885) (-31166.688) * (-31162.628) (-31165.483) [-31178.410] (-31163.230) -- 0:35:00
247500 -- (-31168.522) [-31168.905] (-31171.182) (-31167.384) * (-31168.534) (-31167.747) (-31165.094) [-31168.718] -- 0:34:57
248000 -- (-31165.949) (-31171.692) [-31171.440] (-31165.728) * (-31171.511) [-31167.309] (-31171.953) (-31163.512) -- 0:34:58
248500 -- (-31168.993) (-31174.020) [-31160.435] (-31165.920) * (-31164.610) [-31167.032] (-31172.529) (-31168.641) -- 0:34:55
249000 -- (-31161.160) [-31167.654] (-31164.275) (-31175.110) * [-31161.428] (-31172.130) (-31165.782) (-31159.864) -- 0:34:56
249500 -- (-31166.115) [-31161.748] (-31177.278) (-31165.228) * (-31162.783) (-31178.371) (-31165.354) [-31159.976] -- 0:34:53
250000 -- (-31165.413) (-31165.723) (-31175.778) [-31162.499] * (-31168.501) (-31168.419) (-31165.486) [-31165.237] -- 0:34:51
Average standard deviation of split frequencies: 0.000000
250500 -- (-31174.105) [-31168.606] (-31173.641) (-31178.581) * (-31171.944) [-31166.422] (-31163.595) (-31162.681) -- 0:34:51
251000 -- (-31174.862) [-31168.599] (-31178.457) (-31173.538) * (-31170.314) (-31174.453) (-31165.506) [-31163.234] -- 0:34:48
251500 -- (-31166.335) (-31172.576) (-31172.952) [-31172.356] * (-31171.497) [-31169.632] (-31175.822) (-31165.106) -- 0:34:46
252000 -- (-31162.637) (-31171.800) (-31168.147) [-31164.576] * [-31167.686] (-31167.079) (-31162.863) (-31165.888) -- 0:34:46
252500 -- (-31157.454) (-31166.422) [-31169.494] (-31174.351) * [-31162.441] (-31165.092) (-31164.259) (-31175.018) -- 0:34:44
253000 -- (-31164.712) (-31176.171) (-31168.050) [-31164.912] * (-31171.731) (-31167.068) [-31170.656] (-31165.600) -- 0:34:44
253500 -- (-31169.342) (-31169.901) [-31162.001] (-31169.724) * (-31171.103) [-31165.087] (-31169.636) (-31164.689) -- 0:34:41
254000 -- (-31168.862) [-31171.855] (-31159.552) (-31177.923) * [-31166.559] (-31165.856) (-31165.890) (-31169.998) -- 0:34:39
254500 -- (-31163.946) (-31160.964) [-31163.528] (-31172.804) * (-31168.239) [-31160.562] (-31177.841) (-31166.677) -- 0:34:39
255000 -- (-31171.556) [-31159.588] (-31159.709) (-31165.156) * (-31169.519) (-31168.947) (-31174.765) [-31165.906] -- 0:34:37
Average standard deviation of split frequencies: 0.000000
255500 -- (-31165.210) [-31163.788] (-31163.650) (-31161.234) * (-31165.228) (-31166.874) [-31159.370] (-31166.672) -- 0:34:34
256000 -- (-31176.980) (-31161.267) (-31170.431) [-31166.517] * (-31168.988) [-31169.491] (-31170.831) (-31170.059) -- 0:34:35
256500 -- (-31181.907) (-31167.288) [-31168.024] (-31165.641) * (-31159.213) (-31166.939) (-31167.940) [-31161.670] -- 0:34:32
257000 -- [-31172.838] (-31164.655) (-31169.741) (-31159.700) * (-31170.512) (-31167.661) (-31164.420) [-31162.882] -- 0:34:32
257500 -- (-31172.098) (-31165.060) (-31168.527) [-31167.196] * [-31173.836] (-31158.009) (-31170.632) (-31162.339) -- 0:34:30
258000 -- [-31165.692] (-31165.208) (-31173.230) (-31179.757) * (-31167.542) [-31167.541] (-31161.950) (-31164.909) -- 0:34:27
258500 -- [-31166.885] (-31169.963) (-31171.823) (-31174.992) * (-31177.887) (-31167.065) (-31168.060) [-31163.197] -- 0:34:28
259000 -- (-31163.377) [-31163.842] (-31171.319) (-31169.497) * (-31170.280) (-31163.423) (-31172.372) [-31163.558] -- 0:34:25
259500 -- (-31175.490) (-31169.830) (-31171.190) [-31169.070] * (-31175.495) (-31172.672) (-31175.632) [-31163.014] -- 0:34:23
260000 -- (-31170.659) (-31180.616) (-31166.986) [-31170.307] * (-31162.720) [-31162.938] (-31169.032) (-31168.342) -- 0:34:23
Average standard deviation of split frequencies: 0.000000
260500 -- (-31167.127) [-31159.291] (-31163.913) (-31163.626) * (-31178.555) (-31161.602) (-31166.684) [-31165.379] -- 0:34:20
261000 -- (-31167.769) (-31163.155) (-31171.056) [-31180.138] * (-31164.397) [-31160.395] (-31167.172) (-31165.056) -- 0:34:18
261500 -- (-31166.663) (-31170.609) (-31168.622) [-31160.379] * [-31164.696] (-31167.012) (-31177.288) (-31172.407) -- 0:34:18
262000 -- [-31169.292] (-31168.034) (-31172.883) (-31164.744) * (-31157.119) (-31171.211) [-31162.065] (-31170.618) -- 0:34:16
262500 -- (-31160.078) [-31171.936] (-31163.573) (-31169.665) * [-31166.924] (-31174.597) (-31169.623) (-31172.071) -- 0:34:16
263000 -- (-31157.773) [-31172.410] (-31177.151) (-31158.124) * (-31162.400) (-31173.234) (-31161.404) [-31171.962] -- 0:34:14
263500 -- [-31160.762] (-31176.137) (-31174.379) (-31169.256) * (-31166.294) (-31163.598) [-31168.611] (-31163.687) -- 0:34:11
264000 -- (-31169.949) (-31179.492) (-31176.765) [-31168.848] * (-31171.258) (-31166.094) [-31168.284] (-31163.714) -- 0:34:11
264500 -- [-31162.876] (-31171.193) (-31160.822) (-31167.024) * (-31165.730) (-31168.435) [-31168.055] (-31175.008) -- 0:34:09
265000 -- (-31163.871) [-31164.890] (-31173.819) (-31155.897) * (-31166.166) (-31169.362) [-31164.482] (-31165.989) -- 0:34:06
Average standard deviation of split frequencies: 0.000000
265500 -- [-31172.456] (-31182.137) (-31167.354) (-31169.854) * (-31166.067) [-31170.241] (-31184.069) (-31175.616) -- 0:34:07
266000 -- (-31164.180) [-31170.669] (-31173.728) (-31163.368) * (-31156.678) (-31165.821) (-31163.813) [-31163.757] -- 0:34:04
266500 -- (-31160.461) (-31168.416) [-31162.352] (-31164.197) * [-31167.770] (-31164.936) (-31169.430) (-31165.930) -- 0:34:04
267000 -- (-31181.665) [-31169.590] (-31169.787) (-31172.606) * (-31168.499) [-31168.233] (-31172.275) (-31168.199) -- 0:34:02
267500 -- (-31171.847) [-31165.534] (-31163.833) (-31169.394) * (-31174.647) (-31167.235) [-31166.865] (-31165.994) -- 0:34:00
268000 -- (-31165.258) (-31173.856) [-31165.134] (-31168.021) * (-31168.162) [-31164.869] (-31177.213) (-31174.668) -- 0:34:00
268500 -- (-31164.970) (-31165.871) [-31164.236] (-31182.128) * (-31173.279) [-31163.401] (-31171.420) (-31183.279) -- 0:33:57
269000 -- (-31162.613) (-31168.461) [-31166.686] (-31165.406) * (-31161.758) (-31175.015) (-31165.945) [-31157.164] -- 0:33:55
269500 -- (-31165.911) (-31171.878) [-31169.254] (-31174.800) * (-31160.760) (-31172.295) [-31172.704] (-31157.298) -- 0:33:55
270000 -- (-31167.064) (-31168.410) [-31165.658] (-31165.100) * [-31159.851] (-31169.055) (-31167.791) (-31170.474) -- 0:33:53
Average standard deviation of split frequencies: 0.000000
270500 -- (-31172.005) [-31168.027] (-31163.151) (-31167.331) * (-31168.643) (-31166.446) [-31161.033] (-31174.921) -- 0:33:53
271000 -- (-31173.913) [-31172.774] (-31167.523) (-31175.096) * [-31161.561] (-31168.986) (-31160.992) (-31173.813) -- 0:33:50
271500 -- [-31168.955] (-31175.838) (-31174.491) (-31167.006) * (-31163.848) (-31171.518) (-31168.831) [-31170.978] -- 0:33:48
272000 -- [-31163.967] (-31170.658) (-31163.648) (-31168.971) * (-31172.098) (-31170.120) (-31169.153) [-31170.888] -- 0:33:48
272500 -- (-31162.286) (-31165.925) (-31163.597) [-31170.565] * (-31163.382) (-31175.128) (-31171.888) [-31166.487] -- 0:33:46
273000 -- [-31164.671] (-31161.293) (-31168.505) (-31166.706) * [-31163.870] (-31176.946) (-31175.080) (-31166.376) -- 0:33:43
273500 -- (-31168.737) (-31168.373) [-31170.466] (-31169.989) * [-31167.641] (-31172.229) (-31172.837) (-31167.677) -- 0:33:44
274000 -- (-31178.667) (-31170.230) [-31176.272] (-31174.792) * (-31162.702) (-31166.134) [-31164.786] (-31167.143) -- 0:33:41
274500 -- (-31178.625) [-31168.911] (-31162.639) (-31166.014) * (-31161.912) (-31169.251) [-31166.060] (-31172.030) -- 0:33:39
275000 -- (-31181.607) (-31166.801) [-31169.527] (-31171.268) * (-31167.578) [-31159.475] (-31161.267) (-31177.094) -- 0:33:39
Average standard deviation of split frequencies: 0.000000
275500 -- (-31173.971) [-31163.954] (-31168.676) (-31169.464) * (-31169.395) [-31161.847] (-31167.061) (-31165.428) -- 0:33:37
276000 -- [-31166.844] (-31172.121) (-31171.894) (-31167.859) * (-31159.798) (-31174.875) (-31166.173) [-31167.610] -- 0:33:37
276500 -- [-31170.574] (-31175.769) (-31159.553) (-31164.235) * (-31160.823) (-31160.492) (-31169.796) [-31159.921] -- 0:33:34
277000 -- (-31174.687) (-31162.418) (-31175.030) [-31165.609] * [-31160.753] (-31169.049) (-31160.919) (-31169.668) -- 0:33:32
277500 -- (-31177.582) (-31168.046) [-31163.591] (-31165.113) * (-31168.089) (-31162.536) [-31169.137] (-31163.235) -- 0:33:32
278000 -- (-31182.873) (-31165.671) [-31164.721] (-31168.005) * (-31166.904) [-31167.651] (-31168.250) (-31168.082) -- 0:33:30
278500 -- [-31162.693] (-31174.328) (-31164.134) (-31163.902) * [-31168.584] (-31169.166) (-31168.399) (-31169.562) -- 0:33:27
279000 -- [-31166.314] (-31175.715) (-31170.095) (-31173.797) * [-31163.722] (-31174.078) (-31168.751) (-31166.686) -- 0:33:27
279500 -- (-31179.152) (-31180.094) (-31169.807) [-31170.950] * (-31169.102) [-31161.280] (-31169.147) (-31165.705) -- 0:33:25
280000 -- (-31168.942) [-31164.397] (-31165.374) (-31178.677) * (-31173.241) (-31168.878) (-31169.785) [-31182.110] -- 0:33:25
Average standard deviation of split frequencies: 0.000000
280500 -- (-31169.558) (-31175.888) [-31166.179] (-31174.947) * [-31163.807] (-31172.770) (-31166.798) (-31169.739) -- 0:33:23
281000 -- (-31164.081) [-31163.960] (-31167.698) (-31169.895) * (-31171.715) (-31173.682) (-31173.280) [-31170.453] -- 0:33:20
281500 -- (-31164.437) (-31162.856) [-31165.850] (-31164.640) * (-31172.027) (-31182.157) (-31165.223) [-31162.203] -- 0:33:21
282000 -- (-31172.461) [-31163.585] (-31171.816) (-31166.612) * [-31168.802] (-31175.853) (-31165.297) (-31165.849) -- 0:33:18
282500 -- (-31165.935) (-31166.447) (-31171.573) [-31170.805] * (-31170.987) (-31180.152) (-31181.581) [-31163.607] -- 0:33:16
283000 -- (-31162.870) (-31165.815) (-31162.424) [-31165.341] * (-31175.942) (-31172.920) (-31166.041) [-31161.825] -- 0:33:16
283500 -- (-31178.650) (-31170.156) (-31168.449) [-31169.086] * (-31176.849) (-31175.575) [-31179.478] (-31159.853) -- 0:33:14
284000 -- [-31171.970] (-31168.489) (-31168.848) (-31172.686) * (-31173.034) [-31164.117] (-31172.805) (-31169.753) -- 0:33:11
284500 -- (-31164.711) [-31169.797] (-31174.304) (-31162.738) * [-31163.992] (-31162.392) (-31168.245) (-31179.414) -- 0:33:11
285000 -- (-31162.513) [-31170.719] (-31166.775) (-31164.361) * (-31167.129) [-31169.020] (-31172.448) (-31184.857) -- 0:33:09
Average standard deviation of split frequencies: 0.000000
285500 -- (-31170.191) (-31165.190) [-31165.315] (-31162.902) * [-31170.274] (-31166.618) (-31167.292) (-31174.292) -- 0:33:09
286000 -- (-31170.588) (-31168.911) (-31183.854) [-31167.430] * [-31167.793] (-31164.463) (-31183.119) (-31165.101) -- 0:33:07
286500 -- (-31176.391) (-31170.279) [-31164.782] (-31158.301) * (-31165.399) (-31173.395) (-31175.777) [-31166.723] -- 0:33:04
287000 -- (-31171.539) (-31171.608) [-31172.693] (-31174.275) * (-31163.400) (-31163.548) [-31159.348] (-31159.544) -- 0:33:04
287500 -- (-31169.047) (-31174.879) [-31174.819] (-31167.388) * (-31169.350) (-31175.794) [-31160.707] (-31164.623) -- 0:33:02
288000 -- [-31166.646] (-31164.339) (-31166.399) (-31174.452) * (-31172.238) (-31158.006) (-31173.992) [-31175.287] -- 0:33:02
288500 -- (-31164.323) [-31167.564] (-31162.818) (-31170.333) * (-31171.310) [-31163.579] (-31167.666) (-31164.676) -- 0:33:00
289000 -- (-31169.705) (-31164.296) (-31174.764) [-31174.488] * (-31166.613) (-31167.972) (-31167.255) [-31168.776] -- 0:32:58
289500 -- (-31173.788) [-31173.716] (-31174.947) (-31164.273) * [-31167.602] (-31170.770) (-31161.783) (-31167.848) -- 0:32:58
290000 -- (-31166.176) [-31167.968] (-31175.387) (-31171.448) * (-31166.601) (-31173.373) (-31164.051) [-31165.946] -- 0:32:55
Average standard deviation of split frequencies: 0.000000
290500 -- (-31167.021) [-31168.117] (-31179.905) (-31177.096) * [-31166.445] (-31168.820) (-31169.974) (-31167.136) -- 0:32:53
291000 -- (-31161.811) (-31164.742) [-31170.436] (-31174.835) * (-31166.272) (-31169.250) (-31167.569) [-31163.622] -- 0:32:53
291500 -- [-31169.713] (-31166.624) (-31176.694) (-31165.245) * [-31158.052] (-31168.807) (-31177.145) (-31167.174) -- 0:32:51
292000 -- [-31159.890] (-31172.584) (-31171.241) (-31177.912) * (-31161.989) (-31161.985) (-31166.302) [-31162.424] -- 0:32:48
292500 -- (-31167.331) [-31173.750] (-31174.873) (-31174.046) * (-31167.311) [-31164.093] (-31169.606) (-31173.211) -- 0:32:48
293000 -- (-31166.529) (-31174.392) (-31166.984) [-31167.965] * [-31167.011] (-31166.552) (-31167.658) (-31158.186) -- 0:32:46
293500 -- (-31170.703) (-31170.066) [-31165.611] (-31165.783) * [-31170.393] (-31160.018) (-31161.328) (-31164.419) -- 0:32:46
294000 -- (-31178.401) [-31170.168] (-31166.984) (-31167.127) * (-31162.658) [-31166.923] (-31163.015) (-31170.709) -- 0:32:44
294500 -- (-31170.007) (-31162.109) (-31167.888) [-31162.604] * (-31163.379) [-31162.291] (-31173.234) (-31182.103) -- 0:32:41
295000 -- (-31172.405) (-31164.461) (-31179.308) [-31171.057] * (-31164.960) [-31168.726] (-31161.562) (-31174.329) -- 0:32:42
Average standard deviation of split frequencies: 0.000000
295500 -- (-31172.794) (-31172.578) (-31165.632) [-31166.838] * (-31166.799) [-31155.734] (-31163.960) (-31185.277) -- 0:32:39
296000 -- (-31181.894) [-31171.142] (-31168.903) (-31170.456) * (-31167.132) [-31160.222] (-31167.864) (-31165.410) -- 0:32:39
296500 -- (-31168.976) (-31166.386) [-31165.895] (-31164.980) * (-31169.574) [-31168.940] (-31174.213) (-31167.410) -- 0:32:37
297000 -- (-31171.724) (-31173.750) [-31161.765] (-31166.598) * [-31166.018] (-31161.002) (-31169.221) (-31166.543) -- 0:32:35
297500 -- (-31168.420) (-31168.501) [-31169.526] (-31171.595) * [-31162.459] (-31165.882) (-31167.090) (-31167.324) -- 0:32:35
298000 -- (-31178.228) [-31178.013] (-31170.710) (-31178.853) * (-31167.397) (-31169.978) [-31166.544] (-31168.128) -- 0:32:32
298500 -- (-31172.334) (-31164.948) [-31165.662] (-31165.665) * [-31170.255] (-31165.885) (-31180.293) (-31171.332) -- 0:32:32
299000 -- (-31175.135) [-31174.747] (-31164.475) (-31177.785) * (-31166.064) (-31166.146) (-31165.148) [-31164.452] -- 0:32:30
299500 -- [-31162.576] (-31175.926) (-31164.568) (-31176.547) * (-31162.874) (-31181.287) [-31166.423] (-31171.748) -- 0:32:28
300000 -- (-31174.699) [-31170.019] (-31161.968) (-31172.701) * (-31165.843) [-31170.923] (-31166.556) (-31177.068) -- 0:32:28
Average standard deviation of split frequencies: 0.000000
300500 -- (-31169.458) (-31161.624) [-31171.263] (-31166.375) * [-31164.998] (-31168.965) (-31169.111) (-31170.012) -- 0:32:26
301000 -- (-31167.528) (-31162.828) [-31164.327] (-31173.625) * (-31169.119) [-31166.839] (-31172.618) (-31169.776) -- 0:32:26
301500 -- (-31182.004) (-31158.986) [-31183.690] (-31167.843) * [-31163.110] (-31168.882) (-31164.524) (-31172.884) -- 0:32:23
302000 -- (-31163.468) [-31158.715] (-31173.363) (-31165.087) * (-31167.106) (-31168.773) [-31171.424] (-31167.236) -- 0:32:21
302500 -- (-31175.938) (-31180.948) (-31167.065) [-31162.650] * (-31171.666) (-31166.887) [-31166.553] (-31168.988) -- 0:32:21
303000 -- (-31172.499) (-31168.872) (-31168.181) [-31168.848] * [-31167.825] (-31167.426) (-31166.202) (-31161.872) -- 0:32:19
303500 -- (-31187.219) (-31173.581) (-31171.272) [-31164.150] * (-31168.935) (-31172.037) (-31172.572) [-31169.279] -- 0:32:16
304000 -- (-31164.277) [-31171.429] (-31167.437) (-31171.561) * [-31166.794] (-31164.782) (-31174.454) (-31171.144) -- 0:32:16
304500 -- (-31168.743) [-31171.022] (-31178.846) (-31167.964) * (-31162.145) [-31168.998] (-31164.672) (-31172.448) -- 0:32:14
305000 -- (-31173.532) (-31179.427) [-31160.564] (-31162.865) * (-31158.704) (-31176.687) [-31155.425] (-31160.591) -- 0:32:12
Average standard deviation of split frequencies: 0.000000
305500 -- (-31168.340) (-31179.190) [-31164.938] (-31177.696) * (-31186.809) (-31174.057) (-31174.068) [-31169.292] -- 0:32:12
306000 -- (-31168.805) (-31167.595) [-31163.650] (-31178.350) * (-31175.013) (-31168.425) (-31169.915) [-31173.971] -- 0:32:10
306500 -- (-31176.904) [-31171.058] (-31169.007) (-31159.838) * (-31169.943) [-31180.236] (-31175.704) (-31167.087) -- 0:32:10
307000 -- (-31170.571) (-31166.582) (-31163.593) [-31173.394] * (-31168.455) (-31169.624) (-31180.916) [-31169.522] -- 0:32:07
307500 -- (-31174.027) (-31176.145) (-31169.854) [-31160.613] * (-31171.816) [-31171.405] (-31176.321) (-31172.107) -- 0:32:07
308000 -- (-31171.627) (-31164.307) [-31160.775] (-31162.481) * (-31169.705) (-31171.548) (-31175.494) [-31170.647] -- 0:32:05
308500 -- (-31165.884) (-31173.160) [-31160.768] (-31166.328) * (-31167.325) [-31167.673] (-31165.841) (-31169.676) -- 0:32:03
309000 -- (-31181.516) (-31180.074) (-31171.852) [-31163.761] * (-31164.794) (-31162.455) [-31155.706] (-31174.473) -- 0:32:03
309500 -- (-31170.695) [-31160.943] (-31167.791) (-31165.516) * (-31165.404) (-31166.144) (-31160.823) [-31169.929] -- 0:32:00
310000 -- [-31163.937] (-31174.041) (-31171.291) (-31173.040) * (-31171.885) (-31173.325) [-31160.722] (-31169.445) -- 0:31:58
Average standard deviation of split frequencies: 0.000000
310500 -- (-31177.060) [-31167.501] (-31171.277) (-31170.149) * (-31164.593) (-31180.487) (-31171.949) [-31166.127] -- 0:31:58
311000 -- (-31169.690) (-31175.668) [-31167.355] (-31166.709) * [-31157.267] (-31190.935) (-31165.730) (-31166.270) -- 0:31:56
311500 -- (-31164.490) (-31168.893) (-31162.503) [-31161.478] * (-31168.124) (-31182.289) [-31165.096] (-31162.168) -- 0:31:56
312000 -- [-31167.673] (-31163.031) (-31162.993) (-31169.761) * (-31175.217) (-31170.561) [-31167.424] (-31162.467) -- 0:31:54
312500 -- (-31175.446) (-31167.324) [-31167.684] (-31168.738) * (-31169.367) [-31168.050] (-31174.165) (-31168.723) -- 0:31:51
313000 -- (-31172.551) (-31166.329) (-31168.780) [-31170.527] * [-31167.653] (-31171.375) (-31175.075) (-31163.168) -- 0:31:51
313500 -- (-31171.053) (-31174.555) [-31164.780] (-31161.815) * (-31160.880) (-31171.165) (-31168.701) [-31160.610] -- 0:31:49
314000 -- (-31164.459) (-31165.228) (-31163.019) [-31165.835] * [-31173.627] (-31178.970) (-31175.273) (-31166.678) -- 0:31:47
314500 -- (-31170.359) [-31168.543] (-31159.327) (-31170.783) * (-31167.302) [-31176.476] (-31168.822) (-31173.575) -- 0:31:47
315000 -- (-31180.596) (-31163.470) [-31171.144] (-31168.160) * (-31161.255) (-31168.054) (-31169.273) [-31171.628] -- 0:31:44
Average standard deviation of split frequencies: 0.000000
315500 -- [-31180.835] (-31167.586) (-31178.004) (-31169.317) * [-31171.243] (-31172.777) (-31181.396) (-31175.230) -- 0:31:44
316000 -- (-31167.119) [-31163.611] (-31178.543) (-31172.726) * (-31169.236) (-31170.571) (-31166.497) [-31164.928] -- 0:31:42
316500 -- (-31180.543) (-31168.973) [-31176.907] (-31178.364) * (-31160.226) [-31168.971] (-31167.266) (-31167.044) -- 0:31:40
317000 -- (-31166.465) [-31164.996] (-31176.372) (-31182.116) * (-31166.188) (-31176.804) [-31162.527] (-31169.822) -- 0:31:40
317500 -- [-31166.550] (-31170.413) (-31167.952) (-31178.203) * [-31161.755] (-31164.121) (-31172.979) (-31165.655) -- 0:31:38
318000 -- (-31173.170) (-31175.110) [-31162.528] (-31169.387) * (-31162.793) (-31170.929) (-31168.375) [-31169.030] -- 0:31:35
318500 -- (-31164.255) (-31175.299) (-31171.901) [-31170.479] * (-31173.299) (-31177.728) [-31166.297] (-31181.174) -- 0:31:35
319000 -- (-31179.577) (-31178.211) [-31164.922] (-31168.040) * [-31174.641] (-31172.152) (-31175.364) (-31163.755) -- 0:31:33
319500 -- [-31166.443] (-31170.664) (-31168.798) (-31176.481) * (-31163.092) (-31169.061) (-31173.480) [-31174.131] -- 0:31:31
320000 -- (-31164.947) [-31171.876] (-31161.347) (-31167.271) * (-31166.378) [-31163.573] (-31166.769) (-31166.056) -- 0:31:31
Average standard deviation of split frequencies: 0.000000
320500 -- [-31163.148] (-31167.519) (-31166.483) (-31168.759) * (-31169.775) (-31164.925) [-31171.128] (-31167.252) -- 0:31:29
321000 -- [-31164.771] (-31166.676) (-31173.743) (-31162.072) * (-31176.907) (-31183.438) (-31171.389) [-31165.474] -- 0:31:28
321500 -- (-31171.606) [-31163.832] (-31169.220) (-31163.132) * (-31174.801) (-31171.544) (-31171.130) [-31163.727] -- 0:31:26
322000 -- [-31167.877] (-31164.589) (-31167.911) (-31167.709) * (-31181.739) (-31188.958) (-31176.795) [-31164.497] -- 0:31:24
322500 -- (-31159.091) (-31160.834) (-31171.281) [-31167.577] * (-31174.803) [-31164.107] (-31168.312) (-31176.635) -- 0:31:24
323000 -- (-31162.586) (-31170.835) (-31170.179) [-31166.758] * (-31179.867) [-31164.500] (-31167.041) (-31172.980) -- 0:31:22
323500 -- (-31163.160) (-31162.238) (-31163.979) [-31163.802] * (-31166.524) [-31170.599] (-31165.414) (-31158.716) -- 0:31:19
324000 -- (-31163.075) (-31170.552) [-31165.693] (-31165.421) * [-31168.347] (-31165.234) (-31160.682) (-31160.330) -- 0:31:19
324500 -- (-31165.405) (-31172.858) (-31176.708) [-31168.178] * (-31165.546) (-31171.136) (-31168.372) [-31169.230] -- 0:31:17
325000 -- [-31159.183] (-31165.436) (-31168.570) (-31169.623) * (-31165.788) (-31169.262) (-31160.017) [-31161.251] -- 0:31:15
Average standard deviation of split frequencies: 0.000000
325500 -- (-31163.119) (-31166.701) [-31165.977] (-31167.908) * (-31172.608) (-31166.766) [-31158.417] (-31165.664) -- 0:31:15
326000 -- (-31165.901) (-31167.759) [-31173.457] (-31168.241) * (-31172.427) (-31175.186) [-31161.966] (-31164.779) -- 0:31:13
326500 -- [-31161.784] (-31176.685) (-31173.909) (-31169.086) * (-31163.115) [-31171.035] (-31166.594) (-31166.359) -- 0:31:13
327000 -- (-31175.540) [-31169.262] (-31171.358) (-31171.072) * (-31164.337) (-31158.736) (-31174.230) [-31161.877] -- 0:31:10
327500 -- (-31165.331) (-31183.681) [-31163.149] (-31170.148) * (-31160.075) (-31174.167) (-31175.847) [-31166.981] -- 0:31:08
328000 -- [-31164.383] (-31169.917) (-31169.529) (-31166.588) * (-31160.686) (-31173.416) [-31172.438] (-31164.123) -- 0:31:08
328500 -- [-31165.076] (-31179.798) (-31163.383) (-31175.219) * (-31163.463) (-31175.717) (-31166.844) [-31168.313] -- 0:31:06
329000 -- [-31172.876] (-31170.435) (-31166.211) (-31174.781) * (-31165.814) (-31181.418) (-31161.020) [-31161.858] -- 0:31:04
329500 -- (-31170.481) [-31172.078] (-31178.374) (-31170.238) * (-31168.183) (-31178.714) (-31162.307) [-31167.478] -- 0:31:03
330000 -- [-31166.554] (-31177.127) (-31171.995) (-31171.018) * (-31168.543) (-31176.502) (-31169.176) [-31169.239] -- 0:31:01
Average standard deviation of split frequencies: 0.000000
330500 -- [-31168.166] (-31169.358) (-31174.900) (-31167.165) * (-31170.593) (-31173.569) (-31183.217) [-31163.351] -- 0:31:01
331000 -- [-31158.992] (-31163.855) (-31173.941) (-31167.708) * (-31175.966) (-31163.320) [-31160.588] (-31165.859) -- 0:30:59
331500 -- (-31160.133) (-31167.913) [-31161.575] (-31170.523) * [-31170.412] (-31166.081) (-31165.962) (-31166.392) -- 0:30:57
332000 -- [-31164.006] (-31169.686) (-31162.940) (-31162.418) * [-31169.541] (-31172.519) (-31162.138) (-31172.585) -- 0:30:57
332500 -- (-31167.364) (-31172.818) [-31159.610] (-31154.471) * [-31171.917] (-31170.307) (-31162.843) (-31162.460) -- 0:30:54
333000 -- (-31165.893) [-31167.996] (-31170.080) (-31172.029) * (-31167.460) (-31175.772) (-31169.922) [-31164.609] -- 0:30:52
333500 -- (-31170.698) (-31166.950) (-31168.182) [-31158.887] * (-31167.527) (-31163.881) (-31163.733) [-31170.015] -- 0:30:52
334000 -- [-31164.324] (-31170.601) (-31166.231) (-31165.211) * [-31162.313] (-31167.691) (-31172.401) (-31175.779) -- 0:30:50
334500 -- (-31168.142) [-31160.064] (-31166.046) (-31172.656) * (-31167.671) (-31172.136) [-31162.977] (-31169.035) -- 0:30:48
335000 -- [-31163.521] (-31170.891) (-31166.652) (-31174.150) * [-31176.367] (-31165.835) (-31168.887) (-31176.884) -- 0:30:48
Average standard deviation of split frequencies: 0.000000
335500 -- (-31164.280) [-31170.816] (-31166.426) (-31169.814) * [-31173.834] (-31163.332) (-31170.567) (-31163.666) -- 0:30:45
336000 -- (-31165.248) (-31164.784) (-31168.530) [-31162.351] * [-31166.651] (-31165.640) (-31165.569) (-31163.560) -- 0:30:45
336500 -- [-31164.907] (-31180.134) (-31171.143) (-31179.786) * (-31171.433) (-31163.723) (-31164.702) [-31166.721] -- 0:30:43
337000 -- (-31170.545) [-31172.007] (-31161.741) (-31170.336) * (-31170.878) (-31164.199) (-31168.947) [-31168.472] -- 0:30:41
337500 -- [-31164.889] (-31170.244) (-31163.805) (-31170.125) * (-31173.664) (-31165.992) (-31173.279) [-31171.018] -- 0:30:41
338000 -- (-31169.688) (-31180.936) [-31164.036] (-31168.479) * (-31173.794) (-31172.679) [-31168.271] (-31180.508) -- 0:30:39
338500 -- (-31170.209) [-31162.183] (-31166.260) (-31167.775) * (-31169.973) (-31166.565) [-31168.441] (-31171.139) -- 0:30:38
339000 -- (-31172.288) (-31167.362) (-31177.555) [-31173.947] * (-31176.460) (-31162.303) [-31169.002] (-31172.325) -- 0:30:36
339500 -- (-31165.725) (-31166.531) (-31168.785) [-31172.111] * (-31174.941) (-31165.481) (-31170.678) [-31162.637] -- 0:30:34
340000 -- [-31168.849] (-31167.312) (-31165.762) (-31169.426) * (-31164.427) (-31171.610) [-31171.131] (-31178.445) -- 0:30:34
Average standard deviation of split frequencies: 0.000000
340500 -- (-31166.638) (-31169.446) [-31166.976] (-31167.561) * [-31167.144] (-31175.183) (-31173.354) (-31173.817) -- 0:30:32
341000 -- (-31172.312) [-31167.383] (-31166.335) (-31164.895) * [-31164.398] (-31159.285) (-31171.662) (-31165.444) -- 0:30:30
341500 -- (-31170.240) (-31168.726) [-31167.165] (-31161.927) * (-31172.239) (-31162.750) [-31163.109] (-31163.582) -- 0:30:29
342000 -- [-31165.020] (-31166.309) (-31170.390) (-31163.521) * (-31170.731) [-31172.866] (-31168.040) (-31161.957) -- 0:30:27
342500 -- (-31173.168) (-31165.226) (-31172.155) [-31171.073] * (-31172.862) [-31165.179] (-31171.694) (-31163.420) -- 0:30:25
343000 -- (-31173.314) (-31173.667) (-31166.222) [-31160.989] * (-31170.660) (-31162.014) (-31163.757) [-31164.723] -- 0:30:25
343500 -- (-31170.737) (-31168.363) [-31161.715] (-31169.664) * [-31161.949] (-31174.754) (-31162.691) (-31172.555) -- 0:30:23
344000 -- (-31174.572) [-31173.569] (-31163.684) (-31168.746) * [-31160.749] (-31161.961) (-31157.115) (-31177.049) -- 0:30:23
344500 -- (-31170.330) [-31167.446] (-31178.143) (-31170.248) * (-31163.065) (-31165.431) (-31169.216) [-31165.481] -- 0:30:20
345000 -- [-31174.610] (-31169.613) (-31176.153) (-31158.885) * [-31162.841] (-31168.051) (-31164.377) (-31167.067) -- 0:30:18
Average standard deviation of split frequencies: 0.000000
345500 -- (-31180.865) [-31176.473] (-31164.262) (-31170.055) * [-31168.833] (-31167.930) (-31174.124) (-31166.533) -- 0:30:18
346000 -- (-31186.692) (-31170.129) (-31163.513) [-31162.875] * (-31168.042) (-31173.173) [-31166.418] (-31165.065) -- 0:30:16
346500 -- (-31167.911) (-31168.950) [-31163.911] (-31165.793) * (-31174.996) (-31170.360) [-31170.470] (-31170.609) -- 0:30:14
347000 -- [-31168.483] (-31166.002) (-31161.403) (-31168.541) * (-31170.388) [-31166.562] (-31167.779) (-31174.050) -- 0:30:14
347500 -- (-31165.528) (-31166.173) [-31164.173] (-31172.820) * [-31168.735] (-31164.502) (-31168.021) (-31167.986) -- 0:30:11
348000 -- [-31164.081] (-31165.431) (-31170.843) (-31174.529) * (-31170.999) (-31174.390) (-31177.692) [-31170.430] -- 0:30:11
348500 -- [-31161.390] (-31166.150) (-31168.713) (-31174.259) * (-31184.812) (-31167.817) (-31167.305) [-31169.750] -- 0:30:09
349000 -- (-31158.770) (-31168.715) [-31161.986] (-31173.963) * [-31175.056] (-31168.833) (-31159.237) (-31178.439) -- 0:30:07
349500 -- (-31176.596) (-31180.195) [-31161.474] (-31171.811) * (-31184.800) (-31171.147) (-31162.855) [-31171.149] -- 0:30:07
350000 -- (-31176.264) [-31165.913] (-31167.749) (-31171.614) * (-31164.993) (-31183.761) [-31171.771] (-31176.086) -- 0:30:05
Average standard deviation of split frequencies: 0.000000
350500 -- (-31169.863) (-31171.420) (-31169.137) [-31168.109] * (-31169.580) [-31161.180] (-31168.581) (-31175.826) -- 0:30:03
351000 -- (-31167.591) [-31169.790] (-31172.545) (-31168.451) * (-31178.005) (-31171.319) [-31169.325] (-31170.720) -- 0:30:02
351500 -- (-31161.178) [-31160.625] (-31171.420) (-31179.865) * (-31170.982) (-31172.218) (-31170.670) [-31168.379] -- 0:30:00
352000 -- (-31165.216) [-31162.812] (-31167.316) (-31175.935) * [-31165.046] (-31173.576) (-31169.417) (-31169.666) -- 0:29:58
352500 -- (-31166.886) [-31167.856] (-31172.863) (-31167.052) * [-31165.493] (-31167.811) (-31174.306) (-31175.388) -- 0:29:58
353000 -- (-31166.348) (-31171.720) [-31165.271] (-31180.172) * (-31165.688) (-31168.272) (-31163.938) [-31165.419] -- 0:29:56
353500 -- (-31174.627) (-31164.823) (-31172.108) [-31173.673] * (-31166.492) [-31171.207] (-31169.165) (-31172.648) -- 0:29:55
354000 -- [-31160.877] (-31169.234) (-31167.147) (-31175.220) * [-31165.892] (-31165.323) (-31174.284) (-31168.057) -- 0:29:53
354500 -- (-31164.857) (-31166.427) (-31166.622) [-31169.221] * [-31160.737] (-31170.273) (-31164.560) (-31181.810) -- 0:29:51
355000 -- (-31171.596) (-31169.104) [-31174.119] (-31167.698) * (-31175.052) (-31165.605) [-31172.886] (-31170.085) -- 0:29:51
Average standard deviation of split frequencies: 0.000000
355500 -- [-31168.489] (-31173.826) (-31167.029) (-31166.998) * (-31163.450) (-31169.709) [-31158.323] (-31168.970) -- 0:29:49
356000 -- (-31177.560) (-31171.888) [-31165.608] (-31166.899) * [-31168.022] (-31179.366) (-31173.415) (-31162.119) -- 0:29:47
356500 -- [-31173.186] (-31176.533) (-31166.117) (-31163.626) * [-31167.391] (-31177.475) (-31166.138) (-31170.577) -- 0:29:46
357000 -- (-31172.030) (-31160.946) [-31165.717] (-31168.736) * [-31166.915] (-31163.206) (-31159.497) (-31164.031) -- 0:29:44
357500 -- (-31166.891) (-31161.942) [-31171.262] (-31164.393) * [-31181.235] (-31171.568) (-31172.788) (-31162.391) -- 0:29:44
358000 -- [-31166.560] (-31166.363) (-31163.726) (-31162.453) * (-31172.289) (-31172.654) [-31170.068] (-31174.488) -- 0:29:42
358500 -- (-31169.279) (-31179.110) [-31164.672] (-31171.030) * (-31180.934) [-31170.321] (-31171.351) (-31176.094) -- 0:29:40
359000 -- (-31163.519) [-31173.853] (-31167.908) (-31169.503) * (-31170.299) [-31165.896] (-31167.103) (-31174.593) -- 0:29:40
359500 -- (-31165.119) [-31173.559] (-31173.008) (-31162.518) * (-31180.683) (-31162.385) (-31165.984) [-31169.945] -- 0:29:38
360000 -- [-31163.121] (-31167.630) (-31163.214) (-31174.819) * (-31162.983) (-31170.262) (-31166.563) [-31165.410] -- 0:29:36
Average standard deviation of split frequencies: 0.000000
360500 -- (-31171.735) (-31171.462) (-31162.722) [-31166.066] * (-31172.286) [-31167.716] (-31176.798) (-31170.347) -- 0:29:35
361000 -- [-31165.628] (-31163.982) (-31165.699) (-31178.214) * (-31169.652) (-31170.649) [-31174.112] (-31164.010) -- 0:29:35
361500 -- (-31175.733) [-31162.845] (-31172.169) (-31171.340) * (-31172.029) [-31164.099] (-31167.451) (-31180.632) -- 0:29:33
362000 -- [-31174.219] (-31163.090) (-31180.933) (-31170.734) * (-31168.776) (-31174.267) [-31165.162] (-31171.542) -- 0:29:31
362500 -- [-31163.295] (-31165.433) (-31169.640) (-31160.621) * (-31169.932) [-31167.679] (-31172.215) (-31168.424) -- 0:29:30
363000 -- (-31172.339) (-31173.940) (-31179.040) [-31166.309] * (-31171.927) [-31163.546] (-31162.415) (-31169.871) -- 0:29:28
363500 -- (-31165.696) (-31170.729) (-31167.949) [-31164.029] * (-31166.382) [-31164.378] (-31160.697) (-31160.728) -- 0:29:28
364000 -- (-31160.196) (-31171.906) [-31166.725] (-31175.817) * (-31174.128) [-31162.469] (-31161.251) (-31166.256) -- 0:29:26
364500 -- (-31177.133) (-31165.139) [-31165.371] (-31167.537) * (-31169.493) [-31158.915] (-31164.079) (-31159.011) -- 0:29:26
365000 -- (-31168.603) [-31168.914] (-31176.149) (-31163.920) * [-31167.473] (-31160.356) (-31163.040) (-31165.067) -- 0:29:24
Average standard deviation of split frequencies: 0.000000
365500 -- (-31169.866) (-31162.433) (-31172.043) [-31165.691] * (-31168.366) (-31169.788) [-31167.353] (-31165.574) -- 0:29:22
366000 -- (-31165.147) (-31170.702) [-31165.373] (-31163.747) * (-31166.144) [-31164.074] (-31172.522) (-31167.027) -- 0:29:21
366500 -- (-31169.384) (-31171.800) [-31167.974] (-31166.614) * (-31163.988) (-31163.494) [-31164.551] (-31163.242) -- 0:29:19
367000 -- (-31175.744) (-31170.787) [-31163.430] (-31165.130) * (-31168.275) [-31159.422] (-31162.451) (-31177.117) -- 0:29:17
367500 -- [-31168.571] (-31165.705) (-31171.890) (-31162.203) * (-31170.784) (-31160.159) (-31170.637) [-31170.175] -- 0:29:17
368000 -- [-31165.493] (-31167.589) (-31171.870) (-31169.455) * [-31168.089] (-31166.495) (-31175.476) (-31167.472) -- 0:29:15
368500 -- [-31171.612] (-31165.774) (-31173.584) (-31173.625) * [-31172.886] (-31165.755) (-31177.610) (-31174.837) -- 0:29:14
369000 -- [-31157.858] (-31163.259) (-31168.565) (-31166.308) * (-31164.506) [-31171.017] (-31171.122) (-31168.595) -- 0:29:12
369500 -- [-31160.901] (-31165.514) (-31165.119) (-31179.836) * (-31170.512) [-31168.387] (-31164.567) (-31181.076) -- 0:29:10
370000 -- [-31174.428] (-31165.300) (-31168.876) (-31162.759) * (-31173.391) (-31169.609) [-31164.269] (-31168.417) -- 0:29:10
Average standard deviation of split frequencies: 0.000000
370500 -- (-31174.006) [-31161.679] (-31169.014) (-31170.334) * [-31168.497] (-31167.393) (-31162.845) (-31165.122) -- 0:29:08
371000 -- (-31170.456) [-31164.415] (-31168.617) (-31157.809) * (-31173.006) (-31171.173) (-31163.277) [-31163.791] -- 0:29:07
371500 -- (-31172.321) (-31165.987) [-31173.549] (-31166.102) * (-31169.233) (-31181.013) [-31166.789] (-31176.299) -- 0:29:05
372000 -- (-31172.433) (-31175.818) (-31170.081) [-31163.000] * (-31163.561) (-31177.019) (-31165.811) [-31167.745] -- 0:29:03
372500 -- [-31173.235] (-31168.755) (-31184.703) (-31165.040) * (-31167.960) (-31172.176) [-31162.770] (-31173.926) -- 0:29:03
373000 -- (-31169.935) (-31175.240) [-31167.076] (-31176.549) * [-31162.671] (-31169.313) (-31161.042) (-31176.279) -- 0:29:01
373500 -- (-31166.702) (-31162.853) (-31169.603) [-31168.245] * (-31163.526) (-31164.730) [-31167.192] (-31169.862) -- 0:29:01
374000 -- (-31172.145) [-31161.079] (-31170.342) (-31173.358) * (-31169.261) (-31168.148) [-31170.876] (-31171.256) -- 0:28:59
374500 -- (-31165.946) (-31175.722) (-31171.600) [-31173.187] * (-31166.351) (-31176.163) (-31170.552) [-31169.649] -- 0:28:57
375000 -- (-31172.203) (-31166.327) [-31174.587] (-31169.973) * (-31165.429) (-31168.947) [-31154.022] (-31175.216) -- 0:28:56
Average standard deviation of split frequencies: 0.000000
375500 -- (-31172.744) (-31165.874) [-31167.516] (-31183.443) * (-31170.712) (-31166.869) (-31163.826) [-31170.581] -- 0:28:54
376000 -- (-31172.341) (-31169.912) (-31166.570) [-31168.201] * (-31163.093) (-31178.816) [-31170.811] (-31171.747) -- 0:28:54
376500 -- (-31165.504) (-31170.696) [-31161.359] (-31180.222) * [-31160.997] (-31181.131) (-31166.815) (-31169.238) -- 0:28:52
377000 -- (-31170.405) (-31170.742) [-31166.185] (-31170.585) * (-31174.582) (-31171.096) [-31167.609] (-31165.227) -- 0:28:50
377500 -- (-31161.738) (-31178.283) (-31166.360) [-31161.396] * (-31174.260) [-31160.466] (-31169.127) (-31164.265) -- 0:28:49
378000 -- [-31162.748] (-31168.783) (-31167.558) (-31168.152) * (-31166.309) (-31162.043) (-31172.169) [-31171.550] -- 0:28:47
378500 -- (-31159.621) (-31171.583) [-31164.499] (-31170.436) * (-31173.711) [-31162.401] (-31172.554) (-31165.039) -- 0:28:45
379000 -- [-31165.345] (-31164.430) (-31165.739) (-31162.180) * (-31167.422) [-31168.286] (-31173.251) (-31158.908) -- 0:28:45
379500 -- (-31164.829) [-31160.846] (-31170.155) (-31161.746) * [-31168.734] (-31167.694) (-31176.328) (-31164.624) -- 0:28:43
380000 -- (-31164.921) (-31162.917) [-31167.318] (-31160.239) * (-31167.023) (-31166.118) [-31171.585] (-31169.350) -- 0:28:42
Average standard deviation of split frequencies: 0.000000
380500 -- [-31169.751] (-31175.406) (-31171.722) (-31168.505) * (-31163.841) (-31168.920) (-31175.569) [-31159.805] -- 0:28:40
381000 -- (-31169.713) (-31168.116) (-31168.864) [-31163.087] * (-31165.091) (-31168.454) [-31166.106] (-31165.502) -- 0:28:38
381500 -- (-31168.983) (-31164.169) (-31165.128) [-31157.275] * [-31170.314] (-31166.191) (-31159.108) (-31173.146) -- 0:28:38
382000 -- (-31171.376) (-31167.156) (-31167.683) [-31167.366] * (-31179.400) (-31166.755) (-31164.415) [-31159.588] -- 0:28:36
382500 -- (-31162.325) (-31180.416) (-31173.379) [-31164.349] * (-31172.051) (-31174.924) (-31162.661) [-31162.923] -- 0:28:34
383000 -- (-31172.397) (-31168.991) [-31172.123] (-31166.020) * (-31170.019) [-31177.743] (-31179.007) (-31165.744) -- 0:28:34
383500 -- (-31171.840) (-31171.686) (-31170.548) [-31164.978] * [-31160.582] (-31177.245) (-31173.868) (-31172.083) -- 0:28:32
384000 -- (-31173.157) (-31168.478) (-31164.550) [-31165.841] * (-31163.843) (-31174.189) (-31172.283) [-31162.788] -- 0:28:31
384500 -- [-31169.435] (-31162.756) (-31162.515) (-31174.428) * (-31163.297) (-31172.847) (-31180.535) [-31170.994] -- 0:28:29
385000 -- [-31169.705] (-31162.236) (-31178.767) (-31173.796) * (-31165.250) [-31172.015] (-31175.848) (-31167.549) -- 0:28:27
Average standard deviation of split frequencies: 0.000000
385500 -- [-31170.937] (-31172.832) (-31168.018) (-31167.389) * [-31162.871] (-31165.310) (-31175.669) (-31165.733) -- 0:28:27
386000 -- [-31162.996] (-31164.953) (-31168.832) (-31166.094) * (-31173.302) (-31170.551) [-31168.153] (-31165.114) -- 0:28:25
386500 -- (-31165.780) (-31173.432) (-31169.134) [-31172.722] * (-31173.469) [-31164.980] (-31173.295) (-31163.656) -- 0:28:23
387000 -- (-31167.959) [-31175.645] (-31163.677) (-31164.759) * [-31172.239] (-31166.802) (-31162.033) (-31164.219) -- 0:28:22
387500 -- (-31163.923) [-31161.184] (-31169.632) (-31169.672) * (-31170.369) [-31162.271] (-31164.301) (-31164.947) -- 0:28:20
388000 -- (-31169.481) (-31164.496) [-31163.622] (-31165.429) * (-31175.584) (-31166.006) (-31163.537) [-31163.751] -- 0:28:20
388500 -- (-31169.211) (-31170.635) [-31168.257] (-31164.456) * (-31170.537) [-31160.448] (-31162.606) (-31179.714) -- 0:28:18
389000 -- (-31173.456) (-31165.063) (-31172.737) [-31168.597] * (-31163.956) (-31159.535) (-31170.208) [-31167.520] -- 0:28:16
389500 -- (-31168.099) (-31161.628) (-31166.987) [-31165.317] * [-31163.761] (-31172.836) (-31160.634) (-31172.586) -- 0:28:15
390000 -- (-31173.928) [-31170.353] (-31163.297) (-31170.321) * [-31170.931] (-31162.434) (-31160.165) (-31170.718) -- 0:28:13
Average standard deviation of split frequencies: 0.000172
390500 -- (-31174.643) (-31175.320) (-31165.511) [-31163.822] * (-31179.832) (-31165.697) (-31164.894) [-31162.890] -- 0:28:11
391000 -- [-31164.782] (-31172.315) (-31172.780) (-31166.927) * (-31172.359) [-31168.757] (-31175.952) (-31163.238) -- 0:28:11
391500 -- (-31170.187) [-31169.621] (-31177.864) (-31164.119) * (-31168.966) [-31163.518] (-31167.001) (-31162.656) -- 0:28:09
392000 -- (-31164.856) [-31164.887] (-31166.385) (-31170.353) * (-31167.654) (-31164.337) (-31170.615) [-31163.508] -- 0:28:09
392500 -- [-31159.414] (-31170.901) (-31175.313) (-31165.880) * (-31169.474) (-31164.703) (-31166.295) [-31167.369] -- 0:28:07
393000 -- (-31166.814) (-31178.299) [-31168.159] (-31162.572) * (-31168.034) [-31164.147] (-31170.872) (-31174.095) -- 0:28:05
393500 -- [-31162.071] (-31175.628) (-31181.277) (-31177.153) * (-31169.377) (-31172.516) (-31170.701) [-31164.842] -- 0:28:04
394000 -- (-31161.731) [-31172.936] (-31185.770) (-31167.532) * (-31168.207) (-31172.032) (-31170.120) [-31169.480] -- 0:28:02
394500 -- (-31169.630) (-31174.081) (-31165.245) [-31164.492] * (-31170.184) (-31166.247) (-31171.258) [-31178.044] -- 0:28:00
395000 -- (-31177.062) (-31165.665) [-31170.142] (-31166.659) * (-31180.849) (-31167.203) (-31176.331) [-31168.600] -- 0:28:00
Average standard deviation of split frequencies: 0.000170
395500 -- (-31166.989) [-31164.548] (-31172.431) (-31169.705) * [-31161.020] (-31175.120) (-31172.137) (-31169.368) -- 0:27:58
396000 -- (-31161.952) [-31169.193] (-31182.006) (-31169.819) * (-31160.221) (-31161.512) (-31179.559) [-31167.394] -- 0:27:57
396500 -- (-31164.956) (-31166.885) (-31175.900) [-31174.539] * (-31162.562) (-31166.414) (-31168.617) [-31165.646] -- 0:27:55
397000 -- [-31164.439] (-31162.998) (-31182.245) (-31170.144) * (-31164.917) (-31161.495) (-31169.468) [-31163.947] -- 0:27:53
397500 -- (-31165.886) (-31163.672) (-31168.882) [-31166.033] * (-31164.718) (-31161.042) [-31161.392] (-31171.641) -- 0:27:53
398000 -- (-31175.477) [-31167.948] (-31166.305) (-31166.216) * [-31168.625] (-31165.023) (-31168.378) (-31179.623) -- 0:27:51
398500 -- (-31170.163) (-31167.518) (-31176.808) [-31163.484] * (-31169.662) [-31164.663] (-31181.198) (-31171.884) -- 0:27:49
399000 -- [-31163.019] (-31176.632) (-31178.344) (-31168.093) * (-31165.213) (-31163.489) [-31168.208] (-31183.907) -- 0:27:48
399500 -- (-31157.334) (-31168.794) (-31175.738) [-31164.003] * (-31168.521) [-31167.585] (-31169.940) (-31170.252) -- 0:27:46
400000 -- [-31160.513] (-31170.199) (-31172.601) (-31165.832) * [-31168.858] (-31168.502) (-31170.856) (-31170.572) -- 0:27:46
Average standard deviation of split frequencies: 0.000168
400500 -- [-31156.637] (-31176.195) (-31171.995) (-31174.771) * (-31165.729) (-31167.564) [-31175.360] (-31164.254) -- 0:27:44
401000 -- (-31165.816) (-31177.320) [-31174.181] (-31166.681) * (-31169.430) (-31180.152) (-31170.468) [-31163.469] -- 0:27:42
401500 -- (-31159.821) (-31175.781) (-31171.759) [-31169.787] * [-31173.390] (-31169.242) (-31157.879) (-31174.758) -- 0:27:42
402000 -- (-31163.863) (-31181.771) [-31172.144] (-31166.505) * (-31167.394) [-31162.328] (-31160.019) (-31179.503) -- 0:27:40
402500 -- (-31167.052) [-31167.736] (-31172.959) (-31167.769) * (-31169.202) [-31165.615] (-31161.423) (-31164.501) -- 0:27:38
403000 -- (-31162.619) [-31169.708] (-31169.906) (-31168.087) * (-31175.041) (-31165.820) [-31167.232] (-31159.613) -- 0:27:37
403500 -- (-31169.545) (-31168.267) [-31169.915] (-31170.939) * (-31174.304) [-31168.742] (-31165.526) (-31167.091) -- 0:27:35
404000 -- (-31167.807) [-31164.672] (-31168.709) (-31173.553) * (-31164.645) [-31174.276] (-31163.501) (-31173.409) -- 0:27:35
404500 -- [-31169.656] (-31168.275) (-31163.803) (-31174.556) * (-31172.053) (-31163.680) [-31163.964] (-31164.187) -- 0:27:33
405000 -- [-31166.285] (-31165.353) (-31162.822) (-31175.599) * (-31172.575) [-31162.698] (-31171.157) (-31177.229) -- 0:27:31
Average standard deviation of split frequencies: 0.000166
405500 -- [-31164.131] (-31169.801) (-31163.310) (-31168.879) * (-31181.740) (-31166.296) (-31165.359) [-31163.616] -- 0:27:30
406000 -- (-31162.543) [-31168.951] (-31171.288) (-31162.418) * (-31175.636) (-31169.912) [-31169.780] (-31163.822) -- 0:27:28
406500 -- (-31162.901) (-31169.719) (-31166.059) [-31171.364] * (-31178.750) [-31165.086] (-31165.574) (-31176.772) -- 0:27:26
407000 -- (-31168.896) (-31164.990) (-31167.259) [-31166.703] * [-31166.797] (-31159.045) (-31169.260) (-31177.883) -- 0:27:26
407500 -- (-31171.936) (-31175.153) [-31165.060] (-31171.526) * (-31167.399) (-31166.354) [-31170.683] (-31170.317) -- 0:27:24
408000 -- (-31174.788) (-31164.405) (-31173.483) [-31170.049] * [-31164.956] (-31169.030) (-31170.676) (-31176.683) -- 0:27:23
408500 -- (-31169.649) (-31176.765) [-31165.450] (-31165.843) * (-31166.371) [-31166.197] (-31181.652) (-31179.700) -- 0:27:22
409000 -- (-31164.982) (-31170.464) (-31168.192) [-31169.316] * (-31170.583) [-31174.388] (-31180.182) (-31182.041) -- 0:27:20
409500 -- (-31171.921) (-31175.259) [-31163.670] (-31171.091) * (-31172.054) [-31170.643] (-31174.355) (-31185.062) -- 0:27:19
410000 -- (-31171.060) (-31173.834) [-31163.230] (-31166.225) * (-31164.840) (-31166.077) [-31168.436] (-31175.353) -- 0:27:17
Average standard deviation of split frequencies: 0.000164
410500 -- (-31159.377) (-31177.002) [-31172.638] (-31165.000) * (-31165.561) [-31165.050] (-31180.793) (-31170.533) -- 0:27:15
411000 -- (-31169.221) (-31166.159) [-31173.623] (-31167.895) * (-31175.043) (-31165.477) (-31175.575) [-31168.862] -- 0:27:15
411500 -- (-31162.614) (-31170.105) (-31162.413) [-31165.224] * [-31166.082] (-31161.652) (-31183.760) (-31171.602) -- 0:27:13
412000 -- [-31165.858] (-31163.343) (-31169.863) (-31170.392) * (-31167.028) [-31164.828] (-31185.372) (-31165.711) -- 0:27:12
412500 -- (-31163.176) (-31165.655) (-31171.143) [-31167.498] * (-31168.342) (-31173.886) [-31157.905] (-31171.867) -- 0:27:10
413000 -- (-31166.304) (-31161.414) (-31166.320) [-31161.770] * (-31173.000) (-31169.835) (-31169.596) [-31168.609] -- 0:27:08
413500 -- (-31155.706) (-31161.543) [-31159.736] (-31163.052) * [-31166.661] (-31171.081) (-31176.161) (-31171.048) -- 0:27:08
414000 -- (-31163.715) (-31169.419) (-31167.628) [-31162.622] * [-31167.972] (-31167.892) (-31177.853) (-31168.154) -- 0:27:06
414500 -- [-31164.146] (-31171.206) (-31166.989) (-31165.728) * (-31161.726) [-31165.124] (-31184.680) (-31166.052) -- 0:27:04
415000 -- [-31172.243] (-31167.385) (-31163.853) (-31173.660) * (-31166.215) (-31179.411) (-31168.866) [-31159.436] -- 0:27:03
Average standard deviation of split frequencies: 0.000162
415500 -- (-31176.805) (-31165.384) [-31164.064] (-31165.062) * [-31168.506] (-31170.393) (-31167.213) (-31163.717) -- 0:27:01
416000 -- [-31162.505] (-31167.798) (-31174.668) (-31168.650) * (-31164.380) (-31166.307) [-31160.324] (-31173.229) -- 0:27:00
416500 -- (-31167.324) (-31169.028) (-31168.011) [-31170.607] * (-31162.419) (-31174.017) [-31171.327] (-31164.409) -- 0:26:59
417000 -- [-31172.206] (-31174.957) (-31164.147) (-31167.513) * (-31167.795) (-31172.549) (-31170.054) [-31164.700] -- 0:26:57
417500 -- (-31176.282) (-31179.107) [-31167.478] (-31171.963) * (-31168.559) (-31170.132) (-31165.548) [-31168.591] -- 0:26:57
418000 -- (-31179.162) (-31179.526) (-31171.278) [-31165.835] * (-31170.603) [-31169.562] (-31167.632) (-31163.091) -- 0:26:55
418500 -- (-31166.693) (-31174.062) [-31170.156] (-31163.391) * (-31170.561) (-31171.821) (-31173.029) [-31157.136] -- 0:26:53
419000 -- (-31166.465) [-31166.594] (-31181.138) (-31171.691) * (-31168.346) (-31178.644) (-31167.597) [-31166.818] -- 0:26:52
419500 -- (-31164.182) (-31170.445) [-31165.560] (-31168.663) * (-31177.342) (-31173.777) [-31172.525] (-31166.929) -- 0:26:50
420000 -- (-31170.716) (-31168.485) [-31162.424] (-31168.229) * [-31164.526] (-31170.439) (-31167.769) (-31167.237) -- 0:26:50
Average standard deviation of split frequencies: 0.000160
420500 -- [-31166.908] (-31163.692) (-31162.149) (-31164.922) * (-31171.515) (-31171.381) (-31168.820) [-31168.986] -- 0:26:48
421000 -- (-31170.004) (-31161.657) (-31164.697) [-31162.651] * (-31171.568) (-31170.453) (-31175.167) [-31171.717] -- 0:26:46
421500 -- [-31169.118] (-31163.560) (-31164.903) (-31163.483) * [-31168.614] (-31174.487) (-31174.330) (-31164.774) -- 0:26:45
422000 -- (-31171.257) (-31165.072) (-31178.619) [-31169.067] * (-31169.201) (-31168.572) [-31165.708] (-31158.007) -- 0:26:43
422500 -- (-31170.394) (-31164.713) [-31165.225] (-31171.196) * (-31184.604) (-31168.582) (-31171.786) [-31164.995] -- 0:26:41
423000 -- (-31173.184) (-31163.950) (-31166.606) [-31165.376] * (-31166.877) [-31163.598] (-31165.886) (-31184.975) -- 0:26:41
423500 -- [-31168.421] (-31164.762) (-31164.810) (-31165.807) * [-31164.868] (-31164.454) (-31167.326) (-31179.242) -- 0:26:39
424000 -- (-31168.297) (-31181.160) [-31172.226] (-31168.449) * (-31179.770) (-31170.321) (-31167.293) [-31166.217] -- 0:26:37
424500 -- [-31163.618] (-31173.955) (-31165.548) (-31168.206) * (-31172.902) (-31177.488) [-31170.991] (-31163.792) -- 0:26:37
425000 -- (-31164.221) (-31173.721) [-31166.653] (-31181.046) * (-31178.973) (-31172.485) (-31164.905) [-31163.256] -- 0:26:35
Average standard deviation of split frequencies: 0.000158
425500 -- (-31171.167) (-31167.395) [-31164.517] (-31161.750) * (-31177.753) (-31164.940) [-31163.831] (-31164.877) -- 0:26:34
426000 -- (-31163.601) [-31166.013] (-31173.463) (-31166.407) * (-31168.067) [-31168.947] (-31179.519) (-31172.597) -- 0:26:32
426500 -- (-31170.643) [-31164.088] (-31171.042) (-31174.289) * (-31165.409) [-31166.870] (-31169.589) (-31175.889) -- 0:26:30
427000 -- (-31166.114) [-31166.589] (-31168.565) (-31178.260) * (-31171.875) [-31170.260] (-31177.433) (-31175.137) -- 0:26:30
427500 -- (-31167.627) [-31166.749] (-31174.083) (-31165.448) * [-31162.787] (-31162.849) (-31171.980) (-31181.914) -- 0:26:28
428000 -- (-31168.932) (-31177.875) [-31168.132] (-31169.046) * (-31162.544) [-31162.504] (-31180.240) (-31173.868) -- 0:26:26
428500 -- (-31167.869) (-31173.914) [-31174.585] (-31172.497) * (-31176.615) [-31165.787] (-31175.808) (-31171.635) -- 0:26:25
429000 -- (-31164.164) (-31173.534) (-31166.119) [-31173.521] * (-31168.312) (-31162.157) (-31176.737) [-31174.309] -- 0:26:23
429500 -- (-31165.632) [-31171.989] (-31171.092) (-31166.149) * [-31168.148] (-31176.428) (-31170.943) (-31174.518) -- 0:26:23
430000 -- (-31167.677) (-31168.907) (-31169.498) [-31165.066] * (-31170.426) (-31165.296) [-31165.873] (-31169.000) -- 0:26:21
Average standard deviation of split frequencies: 0.000156
430500 -- (-31166.251) (-31165.373) (-31158.225) [-31167.984] * (-31167.497) [-31167.926] (-31165.925) (-31167.792) -- 0:26:19
431000 -- [-31162.879] (-31169.106) (-31168.518) (-31166.766) * (-31164.200) [-31168.586] (-31164.900) (-31177.409) -- 0:26:18
431500 -- [-31170.341] (-31168.814) (-31163.966) (-31159.026) * [-31164.521] (-31165.756) (-31170.941) (-31175.645) -- 0:26:17
432000 -- (-31168.103) (-31165.766) [-31171.877] (-31171.442) * [-31170.929] (-31175.271) (-31168.613) (-31163.710) -- 0:26:15
432500 -- (-31169.227) (-31163.133) (-31169.497) [-31173.137] * (-31162.441) (-31171.566) (-31171.290) [-31168.769] -- 0:26:14
433000 -- (-31169.271) (-31172.763) [-31166.570] (-31171.672) * (-31170.611) (-31170.751) (-31170.136) [-31174.964] -- 0:26:12
433500 -- (-31159.198) (-31168.726) (-31167.043) [-31166.172] * (-31163.672) (-31169.339) (-31165.801) [-31183.660] -- 0:26:12
434000 -- [-31164.883] (-31167.821) (-31166.020) (-31169.047) * (-31167.326) [-31169.830] (-31163.056) (-31176.154) -- 0:26:10
434500 -- [-31162.950] (-31173.162) (-31167.594) (-31159.679) * (-31165.308) (-31162.774) (-31174.747) [-31168.119] -- 0:26:08
435000 -- [-31170.283] (-31175.058) (-31166.429) (-31167.032) * [-31167.160] (-31173.958) (-31173.897) (-31162.006) -- 0:26:07
Average standard deviation of split frequencies: 0.000154
435500 -- (-31169.498) (-31173.785) [-31170.951] (-31177.154) * (-31161.633) (-31176.219) (-31165.316) [-31162.537] -- 0:26:05
436000 -- (-31172.804) (-31168.343) [-31163.303] (-31163.356) * (-31169.981) (-31167.644) (-31165.238) [-31162.846] -- 0:26:03
436500 -- (-31167.521) (-31163.713) (-31164.860) [-31165.317] * (-31172.711) (-31182.063) (-31165.035) [-31170.318] -- 0:26:03
437000 -- (-31176.240) (-31175.599) (-31175.034) [-31173.041] * (-31176.344) [-31170.280] (-31173.023) (-31166.224) -- 0:26:01
437500 -- (-31170.774) [-31168.552] (-31177.529) (-31174.642) * (-31164.117) [-31172.155] (-31161.853) (-31163.451) -- 0:26:00
438000 -- [-31170.648] (-31173.553) (-31170.408) (-31165.658) * (-31171.244) (-31180.689) (-31166.321) [-31165.966] -- 0:25:58
438500 -- [-31175.426] (-31176.864) (-31179.800) (-31174.108) * (-31167.049) (-31179.181) [-31169.157] (-31169.243) -- 0:25:57
439000 -- (-31185.094) [-31167.865] (-31179.258) (-31168.907) * (-31171.581) [-31168.427] (-31165.706) (-31166.319) -- 0:25:56
439500 -- (-31179.783) (-31169.045) (-31172.636) [-31162.423] * (-31169.267) [-31165.758] (-31175.582) (-31170.542) -- 0:25:54
440000 -- (-31169.867) (-31164.356) [-31163.827] (-31169.820) * [-31157.734] (-31167.102) (-31173.881) (-31179.836) -- 0:25:54
Average standard deviation of split frequencies: 0.000153
440500 -- [-31166.976] (-31161.019) (-31178.343) (-31171.067) * (-31161.951) (-31170.368) (-31169.689) [-31172.907] -- 0:25:52
441000 -- (-31176.918) (-31171.715) [-31164.923] (-31170.318) * (-31168.663) (-31164.081) (-31169.547) [-31171.214] -- 0:25:50
441500 -- (-31164.017) (-31171.901) [-31168.719] (-31162.966) * (-31165.512) [-31170.855] (-31170.336) (-31176.507) -- 0:25:49
442000 -- [-31167.919] (-31168.177) (-31171.973) (-31162.868) * [-31160.862] (-31173.450) (-31169.571) (-31168.937) -- 0:25:47
442500 -- [-31165.476] (-31165.884) (-31167.400) (-31167.292) * [-31164.063] (-31170.141) (-31169.907) (-31174.268) -- 0:25:45
443000 -- (-31161.373) [-31170.065] (-31165.657) (-31165.186) * (-31169.502) (-31175.349) (-31172.383) [-31165.853] -- 0:25:45
443500 -- (-31165.849) [-31162.313] (-31172.513) (-31163.003) * [-31160.525] (-31163.485) (-31167.646) (-31169.766) -- 0:25:43
444000 -- (-31162.760) [-31169.450] (-31169.047) (-31168.534) * (-31169.610) [-31161.672] (-31164.554) (-31167.622) -- 0:25:42
444500 -- (-31161.983) (-31168.616) [-31170.410] (-31164.295) * [-31167.512] (-31169.678) (-31169.568) (-31164.984) -- 0:25:40
445000 -- (-31172.220) (-31172.279) (-31174.717) [-31168.090] * (-31173.423) [-31164.397] (-31160.019) (-31166.793) -- 0:25:40
Average standard deviation of split frequencies: 0.000151
445500 -- (-31171.919) (-31171.232) (-31169.207) [-31159.393] * (-31180.346) [-31170.293] (-31168.009) (-31170.570) -- 0:25:38
446000 -- (-31169.431) (-31172.169) (-31175.245) [-31161.786] * (-31172.201) (-31158.707) (-31164.248) [-31167.493] -- 0:25:36
446500 -- (-31168.026) [-31175.240] (-31165.141) (-31167.181) * (-31180.702) [-31168.004] (-31163.218) (-31177.622) -- 0:25:35
447000 -- (-31166.752) (-31169.168) [-31169.727] (-31174.265) * [-31179.101] (-31172.614) (-31175.210) (-31181.221) -- 0:25:34
447500 -- (-31159.546) (-31170.365) [-31175.911] (-31172.125) * (-31171.279) (-31180.393) (-31165.097) [-31174.017] -- 0:25:33
448000 -- (-31165.602) (-31168.638) [-31173.701] (-31170.379) * (-31168.622) [-31173.575] (-31167.957) (-31176.854) -- 0:25:31
448500 -- [-31160.906] (-31166.251) (-31173.249) (-31170.523) * (-31167.622) [-31166.932] (-31169.879) (-31165.757) -- 0:25:29
449000 -- (-31165.726) (-31175.539) (-31171.222) [-31168.178] * (-31174.161) (-31169.451) (-31179.118) [-31163.297] -- 0:25:29
449500 -- [-31168.095] (-31171.660) (-31163.367) (-31164.326) * [-31172.590] (-31170.149) (-31173.999) (-31167.164) -- 0:25:27
450000 -- (-31169.458) [-31156.845] (-31164.808) (-31158.281) * (-31167.497) [-31172.619] (-31176.608) (-31160.405) -- 0:25:26
Average standard deviation of split frequencies: 0.000149
450500 -- [-31167.417] (-31165.586) (-31162.091) (-31167.650) * [-31167.523] (-31171.343) (-31182.476) (-31166.170) -- 0:25:24
451000 -- [-31174.398] (-31160.909) (-31166.339) (-31166.234) * (-31167.772) (-31170.092) (-31169.947) [-31160.470] -- 0:25:22
451500 -- (-31176.287) [-31164.238] (-31162.918) (-31170.636) * [-31166.095] (-31172.416) (-31168.128) (-31161.847) -- 0:25:22
452000 -- (-31168.788) (-31169.190) (-31168.401) [-31163.167] * (-31168.633) (-31176.467) [-31163.957] (-31171.000) -- 0:25:20
452500 -- (-31169.418) (-31175.956) [-31161.419] (-31170.920) * (-31161.207) (-31163.873) (-31166.416) [-31173.360] -- 0:25:19
453000 -- (-31166.606) (-31166.991) [-31164.762] (-31174.830) * (-31166.657) (-31169.397) [-31170.267] (-31168.891) -- 0:25:17
453500 -- (-31169.762) [-31170.195] (-31163.507) (-31164.824) * (-31170.680) (-31173.023) (-31160.701) [-31164.844] -- 0:25:15
454000 -- (-31168.601) (-31166.668) (-31168.865) [-31161.859] * (-31158.911) (-31171.912) (-31160.917) [-31161.187] -- 0:25:15
454500 -- (-31166.160) [-31169.520] (-31163.029) (-31168.074) * [-31164.230] (-31163.222) (-31176.835) (-31168.068) -- 0:25:13
455000 -- (-31174.421) (-31180.923) [-31168.977] (-31162.823) * (-31172.106) (-31168.454) (-31166.093) [-31160.647] -- 0:25:12
Average standard deviation of split frequencies: 0.000148
455500 -- (-31173.428) [-31156.211] (-31171.574) (-31164.814) * (-31168.704) (-31165.946) [-31161.998] (-31167.156) -- 0:25:10
456000 -- (-31173.403) (-31167.442) [-31167.272] (-31176.997) * (-31161.654) (-31165.386) [-31167.028] (-31166.004) -- 0:25:09
456500 -- (-31171.218) [-31168.919] (-31167.074) (-31177.919) * (-31168.987) (-31172.675) (-31173.529) [-31171.928] -- 0:25:08
457000 -- (-31171.986) (-31162.351) [-31169.283] (-31179.397) * [-31164.923] (-31173.129) (-31163.179) (-31173.041) -- 0:25:06
457500 -- [-31164.475] (-31166.257) (-31175.216) (-31167.566) * (-31170.201) [-31160.641] (-31168.598) (-31185.242) -- 0:25:05
458000 -- (-31165.609) (-31169.529) (-31173.131) [-31172.523] * (-31165.677) [-31162.963] (-31170.790) (-31168.200) -- 0:25:04
458500 -- (-31178.182) (-31165.678) [-31163.838] (-31171.969) * (-31169.168) (-31165.542) (-31173.168) [-31166.004] -- 0:25:02
459000 -- (-31167.473) (-31165.128) [-31166.267] (-31172.026) * [-31166.429] (-31172.240) (-31178.606) (-31165.010) -- 0:25:01
459500 -- (-31176.280) (-31179.806) (-31163.322) [-31170.550] * [-31163.906] (-31169.834) (-31170.350) (-31164.784) -- 0:24:59
460000 -- (-31159.688) (-31165.843) (-31169.903) [-31166.931] * (-31164.951) (-31169.948) (-31175.444) [-31163.259] -- 0:24:57
Average standard deviation of split frequencies: 0.000146
460500 -- (-31167.069) (-31162.611) [-31167.385] (-31170.881) * [-31165.302] (-31168.968) (-31180.160) (-31170.052) -- 0:24:57
461000 -- (-31165.881) (-31171.846) [-31175.063] (-31171.518) * (-31158.189) (-31164.164) (-31173.045) [-31163.045] -- 0:24:55
461500 -- [-31168.468] (-31166.536) (-31163.205) (-31168.708) * (-31168.439) [-31162.429] (-31160.742) (-31161.391) -- 0:24:54
462000 -- [-31164.310] (-31169.086) (-31173.884) (-31168.042) * (-31168.525) [-31167.234] (-31166.485) (-31165.158) -- 0:24:52
462500 -- (-31181.043) (-31166.227) (-31168.725) [-31165.946] * [-31173.039] (-31161.012) (-31168.190) (-31163.548) -- 0:24:51
463000 -- (-31174.512) (-31169.366) [-31165.051] (-31163.944) * (-31170.969) [-31159.218] (-31172.664) (-31167.886) -- 0:24:50
463500 -- [-31164.406] (-31161.315) (-31167.957) (-31166.230) * (-31166.388) (-31167.526) [-31183.332] (-31159.483) -- 0:24:48
464000 -- (-31173.772) (-31167.446) [-31169.974] (-31181.392) * (-31175.171) (-31161.903) [-31161.865] (-31168.564) -- 0:24:46
464500 -- (-31169.596) (-31169.857) (-31166.933) [-31172.025] * (-31172.545) (-31167.345) (-31164.549) [-31173.017] -- 0:24:46
465000 -- (-31157.776) (-31171.869) [-31161.838] (-31173.711) * (-31172.962) (-31159.035) (-31168.495) [-31166.171] -- 0:24:44
Average standard deviation of split frequencies: 0.000145
465500 -- (-31170.632) (-31166.634) [-31165.101] (-31168.770) * (-31168.899) (-31170.873) (-31167.529) [-31175.580] -- 0:24:43
466000 -- (-31166.675) (-31163.336) [-31164.048] (-31168.805) * (-31169.850) (-31161.806) (-31166.411) [-31170.175] -- 0:24:41
466500 -- (-31169.285) [-31162.647] (-31169.159) (-31174.620) * (-31166.287) (-31161.184) [-31163.733] (-31165.963) -- 0:24:39
467000 -- (-31166.812) [-31166.763] (-31165.319) (-31165.952) * (-31173.590) (-31168.715) [-31164.450] (-31163.382) -- 0:24:39
467500 -- (-31172.449) [-31170.928] (-31177.717) (-31161.417) * (-31175.640) (-31161.091) [-31164.984] (-31165.280) -- 0:24:37
468000 -- (-31166.425) [-31160.301] (-31168.936) (-31160.842) * (-31163.408) [-31170.839] (-31169.153) (-31164.649) -- 0:24:35
468500 -- (-31165.633) [-31161.402] (-31171.373) (-31170.804) * (-31158.155) (-31159.919) (-31178.184) [-31174.340] -- 0:24:34
469000 -- [-31172.907] (-31171.612) (-31171.615) (-31166.521) * [-31161.372] (-31167.324) (-31162.891) (-31186.498) -- 0:24:32
469500 -- (-31169.300) (-31169.343) [-31162.959] (-31162.385) * (-31165.624) (-31171.950) [-31158.257] (-31176.453) -- 0:24:31
470000 -- (-31180.563) [-31168.683] (-31168.480) (-31160.254) * (-31164.428) [-31167.143] (-31167.992) (-31181.432) -- 0:24:30
Average standard deviation of split frequencies: 0.000143
470500 -- (-31171.114) (-31174.266) (-31164.588) [-31164.222] * [-31165.560] (-31168.267) (-31163.946) (-31169.851) -- 0:24:28
471000 -- (-31174.064) [-31171.047] (-31168.427) (-31161.779) * (-31163.012) (-31176.700) (-31162.370) [-31174.893] -- 0:24:26
471500 -- (-31167.073) [-31171.845] (-31178.058) (-31166.786) * (-31164.604) [-31166.910] (-31167.441) (-31171.736) -- 0:24:26
472000 -- (-31169.180) [-31161.013] (-31170.527) (-31173.864) * (-31164.116) (-31175.654) [-31165.518] (-31171.992) -- 0:24:24
472500 -- (-31172.239) (-31169.486) (-31164.028) [-31168.607] * [-31165.261] (-31169.275) (-31168.535) (-31175.003) -- 0:24:23
473000 -- (-31175.156) (-31165.081) [-31163.037] (-31172.063) * (-31165.791) (-31167.351) [-31166.093] (-31177.324) -- 0:24:21
473500 -- (-31171.336) (-31160.316) [-31166.381] (-31173.037) * [-31182.947] (-31167.452) (-31176.275) (-31177.330) -- 0:24:19
474000 -- (-31173.595) (-31166.019) [-31165.016] (-31173.450) * [-31168.540] (-31161.736) (-31175.848) (-31165.390) -- 0:24:19
474500 -- [-31165.034] (-31165.357) (-31162.857) (-31161.027) * [-31166.882] (-31165.452) (-31168.941) (-31166.351) -- 0:24:17
475000 -- [-31167.441] (-31165.391) (-31171.725) (-31164.420) * [-31171.134] (-31168.136) (-31169.918) (-31167.635) -- 0:24:15
Average standard deviation of split frequencies: 0.000141
475500 -- [-31172.944] (-31162.471) (-31174.934) (-31172.490) * (-31170.377) (-31168.206) (-31166.533) [-31170.928] -- 0:24:14
476000 -- (-31172.581) (-31170.402) [-31169.342] (-31168.338) * (-31168.979) [-31165.795] (-31182.769) (-31168.227) -- 0:24:13
476500 -- (-31162.158) (-31168.977) (-31164.394) [-31171.031] * (-31161.519) [-31163.697] (-31175.013) (-31171.155) -- 0:24:11
477000 -- (-31175.549) (-31171.910) [-31167.928] (-31169.219) * [-31167.661] (-31156.932) (-31167.070) (-31169.815) -- 0:24:10
477500 -- (-31167.451) (-31180.831) [-31164.253] (-31180.827) * (-31165.857) (-31169.327) [-31173.086] (-31165.069) -- 0:24:08
478000 -- (-31169.425) (-31171.075) [-31170.522] (-31164.246) * (-31176.977) (-31165.247) [-31170.785] (-31171.646) -- 0:24:06
478500 -- (-31168.007) (-31161.713) (-31160.630) [-31163.969] * (-31167.439) (-31170.891) [-31167.674] (-31174.136) -- 0:24:06
479000 -- (-31171.207) (-31172.953) [-31170.731] (-31167.622) * [-31169.512] (-31170.174) (-31165.668) (-31169.007) -- 0:24:04
479500 -- [-31165.132] (-31169.795) (-31175.206) (-31170.015) * [-31166.548] (-31165.872) (-31166.276) (-31167.478) -- 0:24:02
480000 -- (-31169.452) (-31163.986) (-31173.887) [-31163.081] * (-31167.815) (-31172.391) [-31166.981] (-31169.287) -- 0:24:01
Average standard deviation of split frequencies: 0.000140
480500 -- (-31172.495) [-31165.473] (-31168.844) (-31173.541) * (-31163.882) (-31174.976) (-31160.934) [-31163.645] -- 0:24:00
481000 -- [-31171.912] (-31172.917) (-31162.021) (-31169.608) * (-31174.884) [-31169.408] (-31169.443) (-31164.477) -- 0:23:59
481500 -- (-31164.765) (-31172.646) [-31165.657] (-31166.801) * (-31164.771) (-31168.533) [-31165.010] (-31167.665) -- 0:23:57
482000 -- (-31178.425) (-31183.513) (-31169.899) [-31172.600] * (-31167.258) (-31172.140) [-31166.093] (-31171.693) -- 0:23:55
482500 -- (-31166.046) (-31179.082) [-31163.142] (-31173.668) * [-31170.529] (-31173.410) (-31169.235) (-31170.519) -- 0:23:55
483000 -- (-31166.128) (-31181.185) [-31174.232] (-31164.162) * (-31167.940) [-31166.050] (-31164.644) (-31162.865) -- 0:23:53
483500 -- [-31160.209] (-31173.124) (-31174.839) (-31167.789) * [-31165.380] (-31174.948) (-31173.099) (-31161.880) -- 0:23:51
484000 -- [-31165.488] (-31167.400) (-31177.804) (-31168.391) * (-31169.689) (-31181.911) (-31172.057) [-31166.736] -- 0:23:50
484500 -- (-31168.046) [-31163.205] (-31175.025) (-31164.214) * (-31166.658) [-31168.637] (-31168.110) (-31170.893) -- 0:23:48
485000 -- (-31171.899) (-31170.476) [-31162.907] (-31166.094) * (-31161.895) (-31171.692) (-31168.204) [-31161.146] -- 0:23:47
Average standard deviation of split frequencies: 0.000139
485500 -- (-31163.083) (-31173.373) [-31166.170] (-31179.678) * (-31165.376) (-31171.494) [-31164.093] (-31165.885) -- 0:23:46
486000 -- (-31166.484) (-31168.003) (-31172.855) [-31166.360] * (-31164.430) (-31172.644) [-31162.509] (-31163.626) -- 0:23:44
486500 -- (-31174.862) [-31166.686] (-31168.972) (-31172.686) * (-31165.776) (-31169.010) [-31173.280] (-31165.657) -- 0:23:42
487000 -- (-31174.037) (-31167.294) [-31167.232] (-31163.551) * (-31168.575) (-31172.688) (-31175.055) [-31172.706] -- 0:23:42
487500 -- (-31165.786) [-31163.952] (-31168.473) (-31160.034) * (-31168.816) (-31163.560) (-31180.234) [-31172.486] -- 0:23:40
488000 -- (-31161.268) (-31166.925) (-31164.967) [-31167.847] * [-31160.633] (-31177.144) (-31174.547) (-31162.345) -- 0:23:39
488500 -- [-31171.841] (-31178.961) (-31163.086) (-31173.879) * [-31165.123] (-31180.769) (-31171.474) (-31166.045) -- 0:23:37
489000 -- (-31171.347) (-31175.120) [-31167.117] (-31168.795) * [-31160.648] (-31168.822) (-31168.011) (-31169.540) -- 0:23:35
489500 -- (-31174.313) (-31169.895) (-31174.788) [-31163.344] * (-31162.818) [-31164.071] (-31168.960) (-31165.897) -- 0:23:35
490000 -- [-31164.204] (-31171.909) (-31164.030) (-31162.485) * [-31168.861] (-31167.815) (-31175.566) (-31163.383) -- 0:23:33
Average standard deviation of split frequencies: 0.000137
490500 -- (-31166.778) [-31163.513] (-31167.457) (-31173.188) * (-31184.533) (-31158.707) (-31169.913) [-31168.704] -- 0:23:31
491000 -- (-31162.011) (-31178.284) [-31164.448] (-31164.402) * [-31169.189] (-31160.705) (-31168.087) (-31171.047) -- 0:23:30
491500 -- [-31172.384] (-31163.598) (-31183.790) (-31166.290) * (-31173.818) (-31166.435) (-31183.058) [-31166.165] -- 0:23:29
492000 -- (-31164.030) (-31165.225) (-31179.782) [-31163.283] * (-31167.755) [-31161.305] (-31171.182) (-31164.873) -- 0:23:27
492500 -- (-31180.326) (-31167.254) (-31167.808) [-31165.029] * (-31173.725) (-31163.763) [-31173.042] (-31167.966) -- 0:23:26
493000 -- (-31160.542) [-31159.788] (-31169.159) (-31177.817) * (-31168.263) (-31166.916) (-31161.826) [-31162.251] -- 0:23:24
493500 -- [-31163.260] (-31167.005) (-31166.769) (-31171.091) * (-31169.651) (-31163.760) [-31165.769] (-31170.138) -- 0:23:23
494000 -- (-31164.839) (-31172.504) [-31164.194] (-31170.298) * [-31163.646] (-31169.023) (-31174.188) (-31162.721) -- 0:23:22
494500 -- (-31170.194) (-31173.901) [-31168.197] (-31161.082) * (-31171.325) (-31161.917) [-31167.717] (-31159.474) -- 0:23:20
495000 -- (-31170.571) [-31164.492] (-31164.276) (-31167.175) * (-31164.033) [-31160.671] (-31166.552) (-31166.254) -- 0:23:19
Average standard deviation of split frequencies: 0.000136
495500 -- (-31174.286) [-31164.636] (-31165.744) (-31167.647) * (-31165.029) [-31171.973] (-31181.921) (-31168.210) -- 0:23:17
496000 -- (-31166.625) (-31174.173) (-31167.166) [-31167.974] * (-31174.920) [-31163.506] (-31166.218) (-31168.839) -- 0:23:16
496500 -- (-31171.631) [-31167.520] (-31172.828) (-31169.279) * (-31172.398) (-31164.847) (-31165.327) [-31165.602] -- 0:23:15
497000 -- (-31174.256) (-31170.276) (-31159.872) [-31171.789] * [-31167.999] (-31171.260) (-31163.296) (-31166.676) -- 0:23:13
497500 -- [-31166.101] (-31166.327) (-31170.772) (-31169.954) * [-31168.827] (-31173.133) (-31174.284) (-31170.894) -- 0:23:11
498000 -- (-31164.280) [-31165.287] (-31177.524) (-31175.844) * [-31165.017] (-31169.096) (-31173.573) (-31169.239) -- 0:23:11
498500 -- (-31165.663) [-31164.214] (-31171.276) (-31175.777) * [-31164.675] (-31167.786) (-31178.998) (-31164.416) -- 0:23:09
499000 -- (-31170.154) [-31166.906] (-31181.616) (-31172.790) * (-31161.693) [-31168.333] (-31179.533) (-31170.984) -- 0:23:07
499500 -- (-31166.003) (-31159.872) (-31175.467) [-31166.194] * (-31170.600) (-31182.397) (-31166.424) [-31173.017] -- 0:23:06
500000 -- [-31163.133] (-31170.137) (-31172.237) (-31175.575) * (-31170.652) (-31169.619) (-31164.375) [-31166.267] -- 0:23:05
Average standard deviation of split frequencies: 0.000135
500500 -- (-31169.161) (-31166.538) [-31169.430] (-31168.174) * (-31182.289) [-31164.785] (-31164.647) (-31166.401) -- 0:23:04
501000 -- [-31167.295] (-31178.906) (-31165.932) (-31170.827) * (-31170.222) (-31167.862) [-31161.160] (-31170.012) -- 0:23:02
501500 -- [-31172.197] (-31172.907) (-31164.080) (-31171.679) * (-31178.767) (-31153.579) (-31166.206) [-31166.221] -- 0:23:00
502000 -- [-31167.543] (-31170.629) (-31169.815) (-31170.661) * (-31166.267) (-31170.195) [-31164.627] (-31166.875) -- 0:22:59
502500 -- (-31166.237) (-31169.090) [-31169.427] (-31168.874) * (-31165.172) (-31168.462) [-31168.769] (-31170.330) -- 0:22:58
503000 -- (-31173.033) (-31172.034) [-31167.966] (-31170.235) * (-31172.682) (-31178.762) (-31169.049) [-31169.965] -- 0:22:56
503500 -- (-31172.978) [-31170.403] (-31173.171) (-31169.227) * (-31166.511) (-31164.675) [-31162.810] (-31181.197) -- 0:22:55
504000 -- [-31158.223] (-31166.522) (-31172.174) (-31177.868) * [-31166.868] (-31177.324) (-31165.564) (-31167.937) -- 0:22:53
504500 -- (-31159.856) (-31173.571) (-31162.581) [-31167.470] * [-31160.967] (-31176.125) (-31163.800) (-31169.869) -- 0:22:52
505000 -- (-31158.869) (-31173.867) [-31160.277] (-31171.282) * (-31174.416) (-31179.719) [-31171.416] (-31172.910) -- 0:22:51
Average standard deviation of split frequencies: 0.000133
505500 -- (-31167.202) (-31168.299) (-31161.041) [-31172.795] * (-31163.383) (-31169.222) (-31173.271) [-31163.188] -- 0:22:49
506000 -- (-31177.998) (-31158.432) [-31165.809] (-31169.232) * (-31164.587) (-31169.433) (-31180.390) [-31163.582] -- 0:22:47
506500 -- (-31178.714) (-31168.965) [-31161.318] (-31168.961) * [-31158.367] (-31173.019) (-31171.529) (-31173.413) -- 0:22:46
507000 -- (-31173.487) (-31168.166) [-31163.953] (-31169.856) * [-31157.555] (-31177.993) (-31164.337) (-31164.298) -- 0:22:45
507500 -- (-31172.525) (-31163.771) [-31168.172] (-31171.985) * (-31162.199) (-31167.097) [-31166.028] (-31175.920) -- 0:22:44
508000 -- [-31164.057] (-31180.683) (-31159.810) (-31162.937) * [-31178.060] (-31166.754) (-31167.363) (-31159.488) -- 0:22:42
508500 -- (-31170.765) (-31172.963) (-31170.082) [-31171.198] * (-31175.159) [-31165.086] (-31164.423) (-31167.540) -- 0:22:40
509000 -- (-31173.975) [-31174.152] (-31167.641) (-31168.663) * (-31176.420) (-31163.923) (-31172.626) [-31166.379] -- 0:22:40
509500 -- (-31164.279) (-31176.109) [-31169.961] (-31173.329) * [-31163.391] (-31170.973) (-31163.190) (-31178.087) -- 0:22:38
510000 -- [-31163.059] (-31168.810) (-31167.515) (-31167.010) * (-31172.409) (-31177.348) (-31161.291) [-31165.433] -- 0:22:36
Average standard deviation of split frequencies: 0.000132
510500 -- (-31165.444) [-31164.282] (-31169.035) (-31173.621) * [-31172.709] (-31166.095) (-31166.031) (-31166.217) -- 0:22:35
511000 -- (-31163.027) (-31168.473) (-31170.754) [-31166.350] * (-31169.317) [-31171.056] (-31171.937) (-31170.085) -- 0:22:34
511500 -- (-31165.402) (-31173.109) (-31180.198) [-31164.148] * (-31164.857) [-31161.470] (-31164.810) (-31168.097) -- 0:22:33
512000 -- (-31173.598) [-31163.908] (-31172.219) (-31169.909) * (-31170.848) [-31167.505] (-31165.321) (-31171.756) -- 0:22:31
512500 -- (-31168.526) (-31168.312) (-31164.319) [-31160.763] * (-31164.600) (-31172.128) (-31171.877) [-31163.607] -- 0:22:29
513000 -- (-31172.147) [-31162.429] (-31165.649) (-31174.112) * (-31172.608) (-31166.002) (-31165.435) [-31168.215] -- 0:22:28
513500 -- [-31165.334] (-31172.195) (-31170.205) (-31164.750) * (-31166.917) [-31170.408] (-31181.314) (-31174.670) -- 0:22:27
514000 -- [-31164.768] (-31167.591) (-31174.941) (-31171.512) * [-31169.508] (-31160.676) (-31160.638) (-31175.574) -- 0:22:25
514500 -- [-31171.484] (-31172.255) (-31170.160) (-31170.757) * (-31179.763) (-31169.811) [-31165.534] (-31173.452) -- 0:22:24
515000 -- [-31166.587] (-31169.280) (-31174.126) (-31165.418) * (-31173.310) [-31173.550] (-31167.427) (-31176.046) -- 0:22:22
Average standard deviation of split frequencies: 0.000131
515500 -- (-31170.608) [-31166.354] (-31167.912) (-31168.232) * (-31166.809) (-31179.287) [-31170.283] (-31166.309) -- 0:22:21
516000 -- [-31168.813] (-31169.741) (-31163.058) (-31167.749) * [-31165.511] (-31160.531) (-31172.271) (-31167.705) -- 0:22:20
516500 -- [-31177.209] (-31171.110) (-31168.928) (-31170.038) * (-31164.266) [-31169.875] (-31167.561) (-31170.987) -- 0:22:18
517000 -- (-31167.831) (-31169.256) [-31166.107] (-31164.003) * [-31162.867] (-31164.819) (-31165.996) (-31169.201) -- 0:22:16
517500 -- (-31171.400) [-31167.671] (-31160.602) (-31169.002) * (-31169.731) [-31164.268] (-31173.881) (-31163.769) -- 0:22:16
518000 -- (-31172.195) (-31172.241) (-31160.204) [-31165.339] * (-31170.543) [-31167.213] (-31162.593) (-31173.090) -- 0:22:14
518500 -- (-31181.693) (-31168.189) (-31170.044) [-31168.680] * (-31169.373) (-31169.630) [-31168.250] (-31179.223) -- 0:22:13
519000 -- (-31168.253) (-31167.008) (-31170.282) [-31171.615] * [-31163.262] (-31167.714) (-31156.511) (-31172.133) -- 0:22:11
519500 -- [-31160.207] (-31170.351) (-31178.444) (-31167.398) * (-31164.708) (-31164.664) [-31165.157] (-31165.711) -- 0:22:10
520000 -- [-31172.243] (-31167.903) (-31167.787) (-31168.000) * (-31178.398) (-31173.363) [-31162.538] (-31164.649) -- 0:22:09
Average standard deviation of split frequencies: 0.000129
520500 -- (-31173.325) (-31164.344) [-31162.683] (-31167.064) * (-31181.760) (-31175.035) (-31163.300) [-31164.763] -- 0:22:07
521000 -- (-31172.511) (-31178.289) [-31163.587] (-31163.502) * (-31170.781) (-31174.325) [-31166.727] (-31165.344) -- 0:22:05
521500 -- (-31166.754) (-31165.429) [-31167.288] (-31178.217) * (-31164.901) [-31161.786] (-31172.146) (-31163.700) -- 0:22:04
522000 -- (-31165.137) (-31166.195) [-31162.797] (-31167.359) * (-31174.291) (-31163.662) [-31164.534] (-31165.946) -- 0:22:03
522500 -- (-31161.900) (-31167.586) [-31159.491] (-31172.492) * (-31172.189) (-31168.777) [-31159.541] (-31178.790) -- 0:22:01
523000 -- [-31160.918] (-31164.608) (-31168.713) (-31165.301) * (-31178.001) [-31168.156] (-31163.012) (-31170.527) -- 0:22:00
523500 -- [-31157.329] (-31167.883) (-31168.692) (-31162.803) * (-31174.151) (-31171.802) (-31160.078) [-31165.537] -- 0:21:58
524000 -- (-31162.288) (-31170.752) (-31174.866) [-31164.880] * (-31181.870) (-31168.227) [-31164.441] (-31158.198) -- 0:21:57
524500 -- (-31161.927) (-31167.864) (-31173.825) [-31166.463] * (-31165.856) (-31163.719) [-31163.726] (-31171.241) -- 0:21:56
525000 -- (-31169.792) [-31162.713] (-31169.005) (-31175.241) * (-31171.583) [-31165.994] (-31161.263) (-31163.265) -- 0:21:54
Average standard deviation of split frequencies: 0.000128
525500 -- (-31169.173) (-31163.577) (-31171.150) [-31173.864] * (-31161.799) (-31173.880) [-31166.852] (-31170.870) -- 0:21:53
526000 -- (-31164.055) (-31169.139) [-31177.940] (-31170.199) * [-31176.701] (-31182.409) (-31165.210) (-31167.764) -- 0:21:52
526500 -- [-31164.370] (-31167.220) (-31168.663) (-31168.632) * (-31165.998) (-31164.078) [-31158.736] (-31166.968) -- 0:21:50
527000 -- (-31173.650) (-31159.780) [-31171.576] (-31175.429) * (-31167.260) (-31163.399) (-31164.114) [-31167.347] -- 0:21:49
527500 -- (-31166.360) [-31174.518] (-31170.599) (-31179.182) * [-31171.673] (-31173.646) (-31176.282) (-31165.892) -- 0:21:47
528000 -- (-31162.094) (-31166.126) [-31166.078] (-31172.765) * (-31160.846) (-31168.609) (-31172.119) [-31168.745] -- 0:21:46
528500 -- (-31166.781) [-31167.444] (-31171.100) (-31163.186) * (-31169.079) (-31166.735) [-31171.613] (-31173.076) -- 0:21:45
529000 -- (-31160.070) [-31164.676] (-31166.612) (-31162.931) * (-31168.260) [-31165.199] (-31171.870) (-31162.800) -- 0:21:43
529500 -- [-31168.390] (-31175.482) (-31167.753) (-31172.804) * (-31171.167) (-31169.973) (-31160.293) [-31168.441] -- 0:21:41
530000 -- (-31171.314) (-31174.723) (-31168.033) [-31169.834] * (-31171.616) [-31169.691] (-31162.823) (-31180.018) -- 0:21:40
Average standard deviation of split frequencies: 0.000127
530500 -- [-31170.938] (-31166.362) (-31171.742) (-31166.688) * (-31169.506) (-31177.973) (-31168.784) [-31168.807] -- 0:21:39
531000 -- (-31175.076) [-31165.906] (-31169.102) (-31173.701) * (-31167.640) [-31161.736] (-31168.291) (-31173.628) -- 0:21:37
531500 -- (-31171.081) (-31175.173) [-31171.163] (-31165.477) * (-31166.875) (-31164.256) (-31170.981) [-31162.997] -- 0:21:36
532000 -- (-31168.329) [-31169.181] (-31175.871) (-31162.822) * [-31163.655] (-31169.221) (-31168.820) (-31171.800) -- 0:21:34
532500 -- [-31160.186] (-31164.114) (-31175.121) (-31165.024) * (-31168.240) (-31165.743) (-31167.260) [-31165.699] -- 0:21:34
533000 -- (-31167.175) (-31169.017) (-31172.757) [-31167.691] * (-31168.867) (-31163.688) [-31167.836] (-31167.242) -- 0:21:32
533500 -- (-31166.357) (-31165.684) (-31166.391) [-31158.194] * (-31175.710) [-31156.298] (-31162.290) (-31160.306) -- 0:21:30
534000 -- [-31163.083] (-31169.287) (-31179.653) (-31163.366) * (-31170.372) [-31163.041] (-31166.135) (-31167.209) -- 0:21:29
534500 -- (-31162.942) (-31172.546) (-31171.120) [-31162.979] * [-31169.485] (-31159.134) (-31171.646) (-31175.259) -- 0:21:28
535000 -- [-31169.837] (-31171.445) (-31168.281) (-31174.484) * (-31168.354) (-31163.908) [-31168.241] (-31168.532) -- 0:21:26
Average standard deviation of split frequencies: 0.000126
535500 -- (-31164.760) [-31170.104] (-31174.130) (-31168.831) * (-31176.565) (-31167.406) [-31167.504] (-31164.622) -- 0:21:25
536000 -- (-31170.149) (-31179.316) (-31167.298) [-31162.953] * [-31174.888] (-31173.325) (-31168.552) (-31168.518) -- 0:21:23
536500 -- (-31164.403) (-31171.118) (-31168.570) [-31158.658] * (-31170.901) [-31169.414] (-31170.623) (-31166.477) -- 0:21:22
537000 -- (-31172.184) (-31175.844) [-31165.214] (-31169.714) * (-31165.147) [-31163.196] (-31164.450) (-31174.206) -- 0:21:21
537500 -- (-31165.335) (-31169.838) (-31178.220) [-31172.918] * [-31176.284] (-31175.779) (-31169.247) (-31186.985) -- 0:21:19
538000 -- (-31174.555) (-31169.888) [-31164.793] (-31166.465) * (-31176.299) (-31170.069) [-31163.533] (-31169.894) -- 0:21:18
538500 -- (-31176.986) [-31165.516] (-31168.295) (-31169.500) * (-31175.274) (-31167.615) (-31167.792) [-31163.994] -- 0:21:16
539000 -- (-31169.606) (-31180.501) [-31171.306] (-31168.839) * [-31182.205] (-31163.793) (-31169.183) (-31167.245) -- 0:21:16
539500 -- (-31164.677) [-31165.599] (-31171.230) (-31168.505) * (-31172.902) (-31169.134) (-31174.140) [-31163.042] -- 0:21:14
540000 -- [-31162.852] (-31172.242) (-31168.378) (-31165.001) * (-31174.668) (-31180.239) (-31177.252) [-31165.278] -- 0:21:12
Average standard deviation of split frequencies: 0.000125
540500 -- (-31167.067) (-31168.550) [-31165.427] (-31175.850) * (-31159.971) (-31177.079) [-31169.901] (-31172.625) -- 0:21:11
541000 -- [-31163.160] (-31169.496) (-31165.952) (-31175.143) * [-31164.828] (-31169.738) (-31160.996) (-31167.296) -- 0:21:10
541500 -- (-31167.265) [-31173.408] (-31165.832) (-31171.690) * (-31169.281) (-31172.877) [-31168.274] (-31162.528) -- 0:21:09
542000 -- [-31167.288] (-31172.235) (-31166.661) (-31166.612) * [-31164.106] (-31171.658) (-31161.634) (-31171.124) -- 0:21:07
542500 -- (-31162.719) (-31167.324) (-31168.197) [-31159.550] * (-31167.572) (-31177.315) (-31163.071) [-31166.612] -- 0:21:06
543000 -- (-31166.147) (-31169.912) (-31170.637) [-31166.945] * (-31168.437) (-31186.811) (-31166.067) [-31172.530] -- 0:21:04
543500 -- (-31166.086) [-31175.442] (-31174.426) (-31163.478) * (-31166.359) (-31163.224) [-31164.174] (-31162.208) -- 0:21:04
544000 -- [-31161.239] (-31164.748) (-31170.979) (-31170.871) * (-31165.134) (-31171.207) [-31163.486] (-31166.563) -- 0:21:02
544500 -- (-31161.113) (-31169.108) (-31164.248) [-31174.457] * (-31167.135) (-31174.226) (-31169.904) [-31160.904] -- 0:21:00
545000 -- [-31173.980] (-31174.000) (-31179.303) (-31171.693) * (-31170.575) (-31163.729) [-31159.972] (-31168.208) -- 0:20:59
Average standard deviation of split frequencies: 0.000123
545500 -- (-31165.620) (-31168.651) [-31177.651] (-31171.819) * (-31175.098) (-31167.450) [-31167.504] (-31169.200) -- 0:20:58
546000 -- (-31174.681) (-31173.524) (-31175.737) [-31170.473] * (-31163.603) [-31168.069] (-31162.989) (-31172.921) -- 0:20:57
546500 -- (-31172.131) [-31167.508] (-31172.168) (-31180.659) * (-31165.297) (-31174.442) [-31164.143] (-31173.349) -- 0:20:55
547000 -- (-31185.529) (-31168.073) [-31162.019] (-31174.261) * [-31156.444] (-31168.888) (-31163.978) (-31174.850) -- 0:20:54
547500 -- (-31185.159) (-31168.076) [-31170.386] (-31172.716) * (-31166.350) [-31167.006] (-31181.594) (-31164.824) -- 0:20:52
548000 -- (-31171.400) [-31163.719] (-31171.146) (-31178.683) * (-31162.573) (-31175.110) [-31170.571] (-31161.876) -- 0:20:52
548500 -- (-31175.086) (-31169.605) (-31169.372) [-31175.313] * (-31171.387) [-31170.296] (-31162.826) (-31158.414) -- 0:20:50
549000 -- (-31170.500) [-31165.747] (-31168.294) (-31170.123) * (-31169.823) (-31164.396) [-31168.046] (-31167.491) -- 0:20:49
549500 -- (-31170.292) [-31167.320] (-31171.818) (-31167.579) * (-31172.093) (-31171.630) [-31167.775] (-31167.497) -- 0:20:47
550000 -- (-31182.740) (-31164.551) [-31182.600] (-31165.739) * (-31173.346) (-31172.403) [-31175.908] (-31180.024) -- 0:20:46
Average standard deviation of split frequencies: 0.000122
550500 -- (-31174.519) [-31164.575] (-31173.526) (-31173.896) * (-31171.140) (-31174.519) [-31169.425] (-31164.920) -- 0:20:45
551000 -- [-31165.454] (-31181.153) (-31171.324) (-31171.721) * (-31172.233) (-31168.663) (-31163.686) [-31169.631] -- 0:20:43
551500 -- (-31175.190) (-31172.518) [-31172.823] (-31166.886) * (-31175.084) [-31164.148] (-31167.631) (-31169.843) -- 0:20:42
552000 -- [-31163.603] (-31170.342) (-31162.351) (-31171.816) * [-31161.411] (-31170.226) (-31175.598) (-31162.157) -- 0:20:40
552500 -- [-31166.359] (-31172.482) (-31167.226) (-31171.541) * (-31180.202) [-31165.986] (-31164.440) (-31166.803) -- 0:20:40
553000 -- (-31165.283) [-31174.132] (-31176.519) (-31168.530) * (-31164.598) [-31168.150] (-31164.640) (-31171.144) -- 0:20:38
553500 -- (-31167.915) (-31174.123) [-31171.493] (-31178.563) * (-31172.496) (-31166.443) [-31168.394] (-31161.292) -- 0:20:36
554000 -- (-31165.070) (-31165.411) (-31163.564) [-31165.198] * [-31165.075] (-31185.622) (-31166.447) (-31167.310) -- 0:20:35
554500 -- (-31168.817) (-31170.072) [-31161.309] (-31189.130) * (-31164.932) (-31179.274) (-31169.329) [-31171.880] -- 0:20:34
555000 -- (-31172.704) (-31164.652) (-31178.203) [-31169.348] * [-31167.442] (-31173.138) (-31164.752) (-31162.905) -- 0:20:32
Average standard deviation of split frequencies: 0.000121
555500 -- [-31171.706] (-31168.449) (-31161.930) (-31175.326) * (-31168.771) [-31166.147] (-31178.242) (-31161.845) -- 0:20:31
556000 -- (-31167.439) (-31175.945) (-31164.017) [-31167.592] * (-31166.545) [-31165.925] (-31161.715) (-31163.544) -- 0:20:29
556500 -- (-31167.299) (-31171.889) [-31162.095] (-31176.712) * (-31164.818) [-31168.309] (-31169.944) (-31161.185) -- 0:20:28
557000 -- (-31166.805) (-31172.850) (-31161.260) [-31165.460] * [-31172.986] (-31166.366) (-31162.385) (-31161.561) -- 0:20:27
557500 -- (-31157.901) (-31168.246) [-31169.516] (-31168.968) * [-31173.319] (-31167.656) (-31174.785) (-31172.175) -- 0:20:25
558000 -- (-31168.927) (-31169.962) (-31177.610) [-31171.292] * (-31167.412) (-31169.066) [-31176.487] (-31178.389) -- 0:20:24
558500 -- (-31165.204) [-31172.810] (-31184.209) (-31174.309) * [-31169.589] (-31167.410) (-31179.912) (-31175.295) -- 0:20:22
559000 -- (-31166.602) [-31165.987] (-31172.461) (-31173.771) * (-31164.097) (-31166.102) [-31169.073] (-31170.340) -- 0:20:21
559500 -- (-31176.346) [-31168.049] (-31168.636) (-31172.267) * (-31167.383) [-31164.589] (-31168.774) (-31171.381) -- 0:20:20
560000 -- (-31169.932) (-31169.000) [-31175.313] (-31167.031) * (-31167.822) (-31162.862) [-31172.455] (-31165.198) -- 0:20:18
Average standard deviation of split frequencies: 0.000120
560500 -- (-31165.380) (-31180.463) [-31161.180] (-31168.643) * (-31164.599) [-31168.805] (-31185.684) (-31171.275) -- 0:20:17
561000 -- (-31165.692) (-31164.965) (-31177.661) [-31167.122] * (-31170.618) (-31170.819) (-31188.661) [-31161.215] -- 0:20:16
561500 -- (-31168.749) (-31172.029) (-31169.386) [-31162.571] * (-31169.301) [-31166.787] (-31165.575) (-31173.849) -- 0:20:14
562000 -- (-31170.430) [-31162.903] (-31165.856) (-31168.202) * (-31165.490) (-31159.523) [-31164.350] (-31168.789) -- 0:20:13
562500 -- [-31169.735] (-31185.449) (-31166.539) (-31171.968) * (-31173.785) (-31167.989) [-31162.789] (-31176.154) -- 0:20:11
563000 -- (-31174.565) (-31163.489) [-31169.268] (-31166.102) * (-31168.123) (-31167.280) [-31166.597] (-31167.634) -- 0:20:10
563500 -- (-31172.171) (-31173.008) (-31171.170) [-31160.773] * (-31166.279) (-31165.264) (-31168.119) [-31168.454] -- 0:20:09
564000 -- [-31163.479] (-31166.417) (-31171.984) (-31162.492) * (-31178.618) [-31163.405] (-31167.046) (-31165.964) -- 0:20:07
564500 -- [-31178.603] (-31170.852) (-31169.698) (-31165.231) * (-31177.225) [-31163.920] (-31165.485) (-31170.112) -- 0:20:06
565000 -- (-31172.089) (-31176.222) (-31165.161) [-31162.878] * (-31178.242) [-31167.103] (-31167.493) (-31166.420) -- 0:20:04
Average standard deviation of split frequencies: 0.000119
565500 -- (-31180.750) (-31163.504) (-31165.757) [-31170.005] * (-31160.114) (-31165.934) [-31172.376] (-31163.355) -- 0:20:03
566000 -- (-31169.245) [-31164.997] (-31172.816) (-31167.169) * (-31166.277) [-31166.187] (-31176.916) (-31162.067) -- 0:20:02
566500 -- (-31177.110) [-31160.429] (-31166.634) (-31176.965) * (-31159.366) (-31167.737) [-31169.537] (-31182.682) -- 0:20:00
567000 -- (-31173.651) (-31167.154) [-31162.726] (-31163.977) * [-31176.085] (-31171.705) (-31169.308) (-31173.633) -- 0:19:59
567500 -- (-31161.574) (-31169.429) (-31164.386) [-31168.269] * [-31172.964] (-31166.621) (-31161.197) (-31160.923) -- 0:19:58
568000 -- [-31166.639] (-31165.621) (-31172.700) (-31166.760) * (-31161.113) (-31174.475) [-31173.581] (-31164.042) -- 0:19:56
568500 -- (-31175.118) [-31167.744] (-31171.683) (-31163.478) * [-31172.998] (-31166.456) (-31171.455) (-31163.047) -- 0:19:55
569000 -- (-31175.695) (-31165.383) (-31176.794) [-31164.002] * (-31169.657) [-31163.295] (-31167.732) (-31158.992) -- 0:19:53
569500 -- [-31175.837] (-31167.807) (-31173.612) (-31169.306) * (-31165.345) (-31165.765) (-31173.851) [-31159.467] -- 0:19:52
570000 -- (-31164.056) [-31173.227] (-31174.258) (-31176.587) * (-31179.992) (-31165.365) (-31157.891) [-31160.179] -- 0:19:51
Average standard deviation of split frequencies: 0.000118
570500 -- (-31170.162) [-31161.699] (-31167.229) (-31166.892) * [-31165.851] (-31168.832) (-31162.674) (-31176.943) -- 0:19:49
571000 -- (-31167.503) [-31166.980] (-31174.606) (-31167.638) * (-31166.085) (-31170.394) (-31164.317) [-31164.675] -- 0:19:48
571500 -- (-31166.684) [-31161.173] (-31171.156) (-31168.274) * (-31165.039) (-31167.369) (-31162.359) [-31162.135] -- 0:19:46
572000 -- (-31165.196) [-31168.544] (-31174.669) (-31167.423) * (-31173.434) [-31170.850] (-31170.113) (-31168.941) -- 0:19:45
572500 -- (-31163.352) (-31164.067) [-31163.844] (-31171.494) * (-31172.624) [-31165.922] (-31168.050) (-31166.230) -- 0:19:44
573000 -- (-31167.970) [-31167.568] (-31165.817) (-31168.642) * (-31186.324) (-31178.477) [-31162.649] (-31176.421) -- 0:19:42
573500 -- (-31166.401) (-31172.524) (-31171.463) [-31162.019] * (-31172.097) (-31172.580) [-31167.252] (-31172.269) -- 0:19:40
574000 -- (-31176.725) [-31174.269] (-31172.199) (-31169.240) * [-31176.475] (-31165.042) (-31170.231) (-31170.740) -- 0:19:40
574500 -- (-31172.597) (-31166.583) (-31170.723) [-31168.179] * [-31168.026] (-31166.890) (-31167.424) (-31164.498) -- 0:19:38
575000 -- (-31166.705) (-31175.039) (-31162.347) [-31164.587] * (-31169.491) (-31170.415) (-31166.254) [-31160.395] -- 0:19:36
Average standard deviation of split frequencies: 0.000117
575500 -- [-31174.924] (-31169.305) (-31175.028) (-31167.883) * (-31171.646) [-31162.067] (-31162.047) (-31168.079) -- 0:19:35
576000 -- [-31163.782] (-31174.460) (-31167.480) (-31169.178) * (-31170.728) [-31157.695] (-31169.685) (-31173.724) -- 0:19:34
576500 -- (-31169.734) (-31169.737) [-31165.778] (-31168.018) * (-31169.029) (-31168.036) [-31166.125] (-31166.040) -- 0:19:33
577000 -- [-31166.679] (-31173.008) (-31168.681) (-31167.791) * (-31169.271) (-31169.037) [-31166.508] (-31175.953) -- 0:19:31
577500 -- [-31169.851] (-31167.850) (-31157.334) (-31160.046) * [-31165.428] (-31165.291) (-31163.008) (-31173.117) -- 0:19:29
578000 -- (-31167.120) (-31175.424) (-31165.512) [-31164.050] * (-31174.992) [-31156.526] (-31170.999) (-31166.283) -- 0:19:28
578500 -- [-31177.202] (-31166.846) (-31165.604) (-31171.738) * (-31162.169) [-31160.043] (-31163.730) (-31167.802) -- 0:19:27
579000 -- [-31169.971] (-31163.764) (-31176.568) (-31160.685) * (-31177.639) (-31169.769) [-31162.261] (-31167.197) -- 0:19:25
579500 -- (-31166.015) [-31168.248] (-31166.204) (-31161.142) * (-31174.538) [-31157.780] (-31165.439) (-31162.661) -- 0:19:24
580000 -- (-31168.363) (-31172.803) [-31163.622] (-31176.066) * (-31171.655) (-31172.230) [-31173.624] (-31173.420) -- 0:19:22
Average standard deviation of split frequencies: 0.000116
580500 -- (-31163.335) [-31166.521] (-31168.411) (-31175.983) * (-31169.160) (-31180.029) [-31172.174] (-31171.083) -- 0:19:22
581000 -- (-31170.724) [-31168.045] (-31180.380) (-31172.766) * (-31173.430) (-31170.469) (-31171.417) [-31160.634] -- 0:19:20
581500 -- (-31172.710) (-31168.239) [-31164.683] (-31158.444) * (-31168.506) (-31169.003) (-31174.457) [-31169.356] -- 0:19:18
582000 -- (-31165.183) (-31174.056) (-31172.066) [-31161.241] * (-31178.096) (-31169.353) [-31163.170] (-31177.904) -- 0:19:17
582500 -- (-31171.607) (-31171.238) (-31170.834) [-31168.734] * (-31164.991) (-31172.223) [-31164.440] (-31163.162) -- 0:19:16
583000 -- (-31164.729) [-31172.024] (-31168.391) (-31164.561) * [-31163.784] (-31168.549) (-31167.519) (-31167.758) -- 0:19:14
583500 -- (-31165.395) [-31168.279] (-31173.088) (-31170.086) * [-31167.488] (-31170.459) (-31175.826) (-31162.513) -- 0:19:13
584000 -- [-31165.691] (-31169.515) (-31168.532) (-31171.944) * (-31162.909) (-31169.036) (-31163.252) [-31163.424] -- 0:19:11
584500 -- (-31164.293) (-31165.334) [-31164.708] (-31178.959) * (-31166.695) [-31167.082] (-31169.277) (-31164.059) -- 0:19:10
585000 -- (-31167.856) (-31163.170) [-31165.018] (-31168.736) * [-31162.129] (-31168.875) (-31171.199) (-31163.092) -- 0:19:09
Average standard deviation of split frequencies: 0.000115
585500 -- (-31175.165) [-31161.642] (-31171.164) (-31166.199) * [-31161.693] (-31167.217) (-31171.500) (-31170.410) -- 0:19:07
586000 -- (-31160.135) [-31170.154] (-31168.269) (-31166.244) * (-31166.842) (-31168.601) (-31161.610) [-31164.646] -- 0:19:06
586500 -- (-31171.972) [-31171.045] (-31170.435) (-31167.344) * (-31169.561) (-31176.456) (-31168.316) [-31168.119] -- 0:19:04
587000 -- (-31165.088) (-31166.586) [-31171.675] (-31166.879) * [-31164.221] (-31181.181) (-31172.262) (-31161.845) -- 0:19:03
587500 -- (-31162.689) (-31166.665) [-31160.631] (-31172.439) * (-31165.362) [-31166.630] (-31170.803) (-31174.395) -- 0:19:02
588000 -- (-31165.668) (-31162.317) [-31173.924] (-31174.319) * (-31164.239) [-31166.445] (-31170.504) (-31162.713) -- 0:19:00
588500 -- (-31175.470) (-31167.539) (-31175.905) [-31171.688] * [-31160.532] (-31175.582) (-31175.786) (-31165.229) -- 0:18:59
589000 -- [-31165.514] (-31176.568) (-31166.172) (-31180.714) * [-31163.205] (-31163.868) (-31172.817) (-31162.522) -- 0:18:58
589500 -- (-31169.349) [-31173.029] (-31168.947) (-31165.092) * (-31168.989) (-31170.949) (-31166.447) [-31168.383] -- 0:18:56
590000 -- (-31168.677) [-31165.600] (-31175.669) (-31166.328) * [-31166.058] (-31167.968) (-31176.286) (-31172.784) -- 0:18:54
Average standard deviation of split frequencies: 0.000114
590500 -- (-31172.595) [-31165.409] (-31173.315) (-31166.973) * (-31174.009) [-31158.935] (-31164.802) (-31167.643) -- 0:18:53
591000 -- (-31178.963) [-31172.190] (-31170.091) (-31165.667) * (-31168.930) (-31167.186) [-31160.247] (-31165.456) -- 0:18:52
591500 -- (-31169.662) (-31174.663) (-31174.951) [-31168.420] * (-31169.614) [-31167.632] (-31166.630) (-31166.480) -- 0:18:51
592000 -- (-31172.490) (-31180.237) (-31165.529) [-31168.053] * (-31169.026) (-31168.312) [-31159.309] (-31167.314) -- 0:18:49
592500 -- [-31176.014] (-31167.020) (-31179.307) (-31164.181) * (-31171.556) (-31160.015) [-31158.604] (-31167.550) -- 0:18:47
593000 -- (-31178.298) (-31172.516) (-31181.685) [-31159.613] * (-31170.200) (-31160.636) [-31168.359] (-31163.328) -- 0:18:46
593500 -- (-31182.400) (-31167.848) [-31174.359] (-31164.001) * (-31176.255) [-31166.154] (-31164.247) (-31165.390) -- 0:18:45
594000 -- [-31169.472] (-31169.184) (-31162.024) (-31175.194) * [-31164.227] (-31164.199) (-31171.252) (-31168.444) -- 0:18:43
594500 -- (-31168.992) (-31171.239) (-31164.369) [-31163.132] * [-31159.062] (-31172.300) (-31181.763) (-31176.236) -- 0:18:42
595000 -- (-31173.164) (-31167.493) (-31165.686) [-31164.739] * (-31177.657) (-31172.645) (-31169.607) [-31163.749] -- 0:18:41
Average standard deviation of split frequencies: 0.000113
595500 -- (-31166.782) (-31176.544) [-31163.198] (-31164.166) * (-31168.524) [-31169.013] (-31179.699) (-31164.294) -- 0:18:40
596000 -- (-31177.352) [-31167.652] (-31166.679) (-31173.536) * (-31164.669) (-31166.506) (-31169.879) [-31162.257] -- 0:18:38
596500 -- (-31165.678) (-31169.139) [-31164.513] (-31176.841) * [-31166.486] (-31164.539) (-31167.374) (-31167.417) -- 0:18:36
597000 -- (-31171.111) [-31166.150] (-31171.101) (-31164.482) * [-31172.307] (-31175.650) (-31164.406) (-31168.622) -- 0:18:35
597500 -- (-31168.561) (-31170.765) [-31167.908] (-31168.094) * (-31177.943) (-31171.983) [-31167.676] (-31172.490) -- 0:18:34
598000 -- (-31164.617) (-31166.983) [-31165.485] (-31162.417) * (-31168.362) [-31164.081] (-31169.491) (-31172.981) -- 0:18:32
598500 -- [-31167.978] (-31169.324) (-31168.443) (-31165.451) * (-31173.584) (-31165.250) [-31166.901] (-31168.820) -- 0:18:31
599000 -- (-31167.654) (-31164.167) (-31163.620) [-31169.618] * [-31163.091] (-31172.943) (-31169.283) (-31167.077) -- 0:18:29
599500 -- (-31168.933) (-31170.703) [-31162.963] (-31166.653) * [-31164.393] (-31167.124) (-31173.407) (-31169.021) -- 0:18:28
600000 -- (-31173.604) (-31160.139) [-31165.188] (-31173.840) * (-31167.612) (-31167.964) [-31175.580] (-31164.189) -- 0:18:27
Average standard deviation of split frequencies: 0.000112
600500 -- [-31160.893] (-31166.733) (-31170.355) (-31165.770) * [-31169.090] (-31170.579) (-31168.566) (-31160.123) -- 0:18:25
601000 -- [-31164.346] (-31167.978) (-31169.290) (-31164.055) * (-31177.387) [-31161.378] (-31175.467) (-31166.901) -- 0:18:24
601500 -- (-31164.326) [-31161.817] (-31176.422) (-31164.970) * (-31172.818) [-31160.541] (-31173.446) (-31172.568) -- 0:18:23
602000 -- (-31164.856) (-31164.275) (-31176.321) [-31169.192] * [-31165.846] (-31168.703) (-31167.650) (-31166.136) -- 0:18:21
602500 -- (-31166.254) [-31161.607] (-31171.489) (-31164.767) * [-31168.216] (-31173.222) (-31163.275) (-31162.369) -- 0:18:20
603000 -- (-31158.324) [-31166.991] (-31177.421) (-31175.689) * (-31161.549) (-31175.820) [-31168.499] (-31165.106) -- 0:18:18
603500 -- (-31170.018) (-31171.039) (-31171.320) [-31169.144] * (-31168.247) (-31175.397) (-31174.946) [-31165.481] -- 0:18:17
604000 -- [-31159.689] (-31169.590) (-31169.792) (-31167.036) * [-31175.506] (-31171.263) (-31169.059) (-31174.302) -- 0:18:16
604500 -- [-31162.686] (-31180.457) (-31158.286) (-31181.539) * (-31170.428) (-31167.753) [-31172.471] (-31168.632) -- 0:18:14
605000 -- [-31161.545] (-31164.065) (-31162.067) (-31171.547) * (-31163.892) (-31183.697) (-31170.442) [-31167.340] -- 0:18:13
Average standard deviation of split frequencies: 0.000111
605500 -- (-31161.949) [-31171.378] (-31171.714) (-31168.280) * [-31172.766] (-31176.145) (-31175.635) (-31169.324) -- 0:18:11
606000 -- [-31164.833] (-31164.769) (-31172.758) (-31173.420) * [-31163.726] (-31171.471) (-31171.463) (-31181.170) -- 0:18:10
606500 -- (-31163.733) (-31175.845) [-31165.811] (-31166.166) * [-31161.233] (-31171.059) (-31169.775) (-31175.928) -- 0:18:09
607000 -- [-31164.388] (-31166.786) (-31168.668) (-31175.985) * (-31166.935) (-31164.862) (-31174.651) [-31169.832] -- 0:18:07
607500 -- (-31168.178) [-31165.468] (-31167.283) (-31165.077) * (-31170.423) (-31183.367) (-31173.891) [-31174.090] -- 0:18:06
608000 -- [-31159.754] (-31168.888) (-31165.559) (-31168.324) * (-31170.589) (-31167.315) [-31172.401] (-31176.040) -- 0:18:05
608500 -- (-31176.811) (-31162.498) (-31172.255) [-31177.268] * (-31161.822) (-31169.178) (-31176.487) [-31167.365] -- 0:18:04
609000 -- (-31168.746) (-31158.549) [-31159.516] (-31162.838) * (-31171.672) [-31161.959] (-31161.851) (-31165.609) -- 0:18:02
609500 -- (-31162.331) [-31164.819] (-31166.357) (-31164.241) * [-31166.774] (-31166.968) (-31168.915) (-31158.436) -- 0:18:00
610000 -- (-31161.004) [-31164.860] (-31163.119) (-31163.375) * (-31173.266) (-31176.106) (-31176.488) [-31172.329] -- 0:17:59
Average standard deviation of split frequencies: 0.000110
610500 -- (-31167.593) [-31164.484] (-31166.207) (-31169.215) * (-31182.211) (-31165.211) (-31167.692) [-31162.528] -- 0:17:58
611000 -- [-31161.364] (-31167.019) (-31163.111) (-31170.364) * [-31166.832] (-31170.281) (-31173.588) (-31174.903) -- 0:17:56
611500 -- (-31161.357) (-31172.680) (-31161.669) [-31173.162] * [-31163.830] (-31172.255) (-31167.188) (-31179.641) -- 0:17:55
612000 -- (-31175.138) (-31175.012) (-31173.487) [-31169.206] * [-31166.165] (-31171.178) (-31171.525) (-31177.326) -- 0:17:53
612500 -- [-31165.126] (-31172.418) (-31166.975) (-31172.122) * (-31167.102) (-31162.197) (-31167.336) [-31167.562] -- 0:17:52
613000 -- (-31162.557) (-31172.420) [-31168.106] (-31164.505) * (-31167.978) (-31187.896) (-31174.179) [-31172.571] -- 0:17:51
613500 -- (-31169.130) [-31168.305] (-31161.473) (-31165.926) * (-31165.753) (-31167.253) (-31168.820) [-31166.275] -- 0:17:49
614000 -- [-31170.271] (-31167.565) (-31172.393) (-31169.904) * (-31164.218) (-31172.963) [-31168.828] (-31167.066) -- 0:17:48
614500 -- (-31172.392) (-31171.224) [-31166.075] (-31166.990) * (-31169.515) (-31172.232) (-31171.544) [-31166.667] -- 0:17:47
615000 -- (-31168.334) (-31170.683) [-31167.624] (-31166.972) * (-31173.799) [-31168.698] (-31166.621) (-31161.969) -- 0:17:45
Average standard deviation of split frequencies: 0.000109
615500 -- (-31163.287) (-31169.127) (-31174.988) [-31165.308] * (-31165.850) (-31167.161) (-31164.464) [-31159.485] -- 0:17:44
616000 -- (-31171.920) (-31176.227) [-31174.051] (-31172.574) * (-31165.440) (-31176.086) (-31170.951) [-31165.469] -- 0:17:42
616500 -- [-31169.958] (-31179.690) (-31171.551) (-31176.252) * (-31166.503) (-31182.729) [-31168.633] (-31172.994) -- 0:17:41
617000 -- (-31167.671) (-31165.934) (-31172.807) [-31161.625] * [-31167.861] (-31172.073) (-31164.407) (-31194.549) -- 0:17:40
617500 -- (-31167.647) (-31175.361) (-31172.056) [-31162.568] * (-31172.000) (-31171.130) [-31169.435] (-31161.791) -- 0:17:38
618000 -- [-31174.470] (-31172.935) (-31166.117) (-31164.492) * [-31162.539] (-31172.772) (-31161.787) (-31167.383) -- 0:17:37
618500 -- (-31181.780) (-31173.624) [-31172.322] (-31169.967) * [-31162.781] (-31172.446) (-31174.360) (-31169.015) -- 0:17:36
619000 -- (-31167.892) (-31172.859) (-31162.420) [-31168.451] * (-31168.900) (-31169.725) [-31161.835] (-31171.482) -- 0:17:34
619500 -- (-31164.287) [-31172.517] (-31161.834) (-31170.709) * (-31176.094) [-31164.119] (-31161.720) (-31167.733) -- 0:17:33
620000 -- (-31170.835) (-31168.933) [-31173.246] (-31161.122) * (-31171.070) (-31168.667) (-31165.197) [-31163.314] -- 0:17:32
Average standard deviation of split frequencies: 0.000109
620500 -- [-31164.086] (-31172.695) (-31171.623) (-31162.223) * (-31172.742) (-31174.970) (-31169.066) [-31162.905] -- 0:17:31
621000 -- (-31167.374) [-31170.397] (-31168.543) (-31172.993) * (-31165.659) (-31173.514) (-31170.571) [-31161.647] -- 0:17:29
621500 -- (-31177.512) (-31175.562) [-31165.583] (-31169.147) * [-31166.210] (-31173.563) (-31167.719) (-31170.085) -- 0:17:28
622000 -- (-31166.116) (-31171.345) [-31166.197] (-31186.169) * [-31166.153] (-31164.980) (-31165.931) (-31167.983) -- 0:17:27
622500 -- (-31171.432) (-31168.651) [-31166.855] (-31183.955) * (-31174.718) [-31162.719] (-31164.883) (-31166.707) -- 0:17:25
623000 -- (-31170.294) [-31170.528] (-31163.595) (-31165.844) * (-31177.257) (-31164.645) (-31164.295) [-31171.739] -- 0:17:23
623500 -- (-31165.205) (-31168.504) (-31165.465) [-31163.856] * (-31167.267) (-31173.713) [-31164.672] (-31167.440) -- 0:17:22
624000 -- [-31166.569] (-31180.192) (-31172.453) (-31165.883) * [-31167.598] (-31173.087) (-31176.798) (-31174.395) -- 0:17:21
624500 -- [-31168.590] (-31176.272) (-31171.166) (-31178.670) * [-31160.889] (-31174.359) (-31166.459) (-31168.424) -- 0:17:19
625000 -- (-31174.389) (-31175.338) (-31173.929) [-31170.095] * (-31168.481) (-31170.910) (-31172.660) [-31173.298] -- 0:17:18
Average standard deviation of split frequencies: 0.000108
625500 -- (-31166.709) (-31167.180) [-31169.462] (-31165.554) * (-31171.982) (-31172.421) [-31171.397] (-31165.824) -- 0:17:16
626000 -- [-31169.214] (-31178.545) (-31173.752) (-31175.558) * (-31162.865) (-31178.052) (-31169.283) [-31170.408] -- 0:17:15
626500 -- (-31168.004) (-31174.152) [-31170.021] (-31168.816) * (-31171.939) [-31170.146] (-31166.090) (-31173.473) -- 0:17:14
627000 -- (-31166.759) [-31179.049] (-31170.704) (-31166.826) * [-31173.434] (-31162.003) (-31172.039) (-31182.604) -- 0:17:12
627500 -- (-31168.281) (-31173.970) [-31166.666] (-31163.460) * [-31166.905] (-31177.879) (-31173.189) (-31176.858) -- 0:17:11
628000 -- (-31169.475) (-31173.536) [-31168.113] (-31168.554) * (-31163.723) (-31164.556) (-31163.583) [-31168.547] -- 0:17:10
628500 -- [-31162.306] (-31169.385) (-31168.628) (-31175.612) * (-31162.096) (-31164.086) [-31171.496] (-31171.699) -- 0:17:09
629000 -- (-31176.824) (-31170.044) [-31168.470] (-31165.377) * [-31162.014] (-31170.309) (-31163.202) (-31165.695) -- 0:17:07
629500 -- [-31167.196] (-31160.468) (-31171.684) (-31175.543) * (-31166.034) (-31173.936) (-31166.831) [-31170.591] -- 0:17:06
630000 -- [-31170.794] (-31168.673) (-31170.966) (-31170.163) * [-31165.340] (-31169.185) (-31177.127) (-31168.857) -- 0:17:04
Average standard deviation of split frequencies: 0.000107
630500 -- (-31171.806) (-31161.322) [-31168.060] (-31159.933) * (-31163.227) [-31166.193] (-31168.255) (-31165.479) -- 0:17:03
631000 -- [-31166.203] (-31169.374) (-31169.174) (-31171.184) * (-31165.005) (-31167.087) [-31171.944] (-31162.482) -- 0:17:02
631500 -- (-31168.887) (-31169.546) [-31163.781] (-31168.104) * (-31172.235) [-31174.654] (-31163.333) (-31163.989) -- 0:17:00
632000 -- (-31162.869) (-31167.805) [-31163.103] (-31167.009) * (-31172.818) (-31170.712) [-31161.746] (-31180.683) -- 0:16:59
632500 -- [-31167.410] (-31162.097) (-31174.888) (-31166.106) * (-31182.242) [-31167.669] (-31173.410) (-31164.533) -- 0:16:57
633000 -- (-31168.126) [-31167.401] (-31174.230) (-31169.892) * (-31176.385) (-31165.641) [-31175.484] (-31158.134) -- 0:16:56
633500 -- (-31167.716) (-31165.012) [-31161.789] (-31167.458) * (-31167.674) (-31166.577) [-31175.433] (-31165.605) -- 0:16:55
634000 -- (-31167.144) (-31172.518) (-31168.718) [-31165.313] * (-31165.758) [-31159.259] (-31166.948) (-31174.898) -- 0:16:53
634500 -- (-31165.137) [-31170.812] (-31165.208) (-31169.529) * (-31168.719) [-31161.675] (-31183.843) (-31169.816) -- 0:16:52
635000 -- [-31163.725] (-31171.540) (-31167.237) (-31167.603) * [-31166.355] (-31165.389) (-31171.448) (-31176.219) -- 0:16:51
Average standard deviation of split frequencies: 0.000106
635500 -- [-31168.135] (-31187.108) (-31170.711) (-31172.493) * (-31168.447) [-31166.709] (-31170.909) (-31173.809) -- 0:16:49
636000 -- (-31171.236) [-31165.274] (-31172.946) (-31175.399) * [-31167.978] (-31171.073) (-31168.371) (-31173.564) -- 0:16:48
636500 -- (-31170.044) [-31164.442] (-31166.307) (-31164.832) * [-31173.544] (-31174.675) (-31174.259) (-31175.050) -- 0:16:46
637000 -- (-31165.915) [-31160.122] (-31165.826) (-31162.832) * (-31161.995) (-31174.491) [-31174.557] (-31172.094) -- 0:16:45
637500 -- [-31168.902] (-31170.748) (-31170.700) (-31161.241) * [-31161.440] (-31173.979) (-31166.918) (-31163.290) -- 0:16:44
638000 -- (-31165.649) (-31168.489) (-31175.403) [-31168.794] * (-31170.414) [-31171.455] (-31170.964) (-31169.078) -- 0:16:42
638500 -- (-31177.169) (-31167.543) (-31160.436) [-31167.056] * [-31162.504] (-31167.635) (-31169.585) (-31170.214) -- 0:16:40
639000 -- [-31162.744] (-31167.486) (-31175.591) (-31165.733) * (-31172.518) [-31166.980] (-31165.104) (-31173.594) -- 0:16:39
639500 -- (-31169.014) [-31167.600] (-31166.698) (-31172.780) * (-31173.471) (-31169.109) [-31165.093] (-31166.457) -- 0:16:38
640000 -- [-31164.891] (-31170.661) (-31167.570) (-31163.847) * (-31169.313) (-31176.844) [-31169.490] (-31170.756) -- 0:16:37
Average standard deviation of split frequencies: 0.000105
640500 -- [-31169.863] (-31160.650) (-31167.985) (-31174.053) * (-31173.575) (-31175.094) [-31167.200] (-31168.017) -- 0:16:35
641000 -- [-31171.117] (-31166.909) (-31171.238) (-31174.232) * [-31169.314] (-31185.151) (-31167.382) (-31162.683) -- 0:16:34
641500 -- [-31160.753] (-31173.457) (-31165.168) (-31180.868) * (-31161.642) (-31171.789) (-31170.757) [-31157.545] -- 0:16:33
642000 -- (-31168.474) (-31169.178) [-31172.314] (-31166.251) * (-31163.697) (-31170.452) [-31170.636] (-31171.319) -- 0:16:31
642500 -- [-31169.874] (-31169.035) (-31172.745) (-31182.834) * (-31158.818) (-31174.914) [-31170.033] (-31164.535) -- 0:16:30
643000 -- [-31158.222] (-31168.213) (-31183.254) (-31167.844) * [-31159.701] (-31168.437) (-31167.589) (-31174.327) -- 0:16:28
643500 -- [-31163.034] (-31169.913) (-31167.800) (-31168.777) * [-31169.956] (-31174.555) (-31165.075) (-31173.744) -- 0:16:27
644000 -- (-31162.071) (-31177.061) [-31165.244] (-31168.801) * (-31172.779) (-31164.842) [-31162.056] (-31171.522) -- 0:16:26
644500 -- (-31167.982) (-31172.157) (-31172.422) [-31170.243] * (-31167.747) (-31168.058) [-31161.898] (-31165.178) -- 0:16:24
645000 -- (-31168.931) (-31169.970) (-31171.093) [-31165.020] * [-31170.018] (-31168.904) (-31162.465) (-31174.869) -- 0:16:23
Average standard deviation of split frequencies: 0.000104
645500 -- (-31166.126) (-31171.664) [-31166.702] (-31158.636) * [-31159.919] (-31170.272) (-31167.051) (-31172.231) -- 0:16:21
646000 -- (-31172.542) (-31173.139) (-31163.463) [-31167.270] * (-31167.038) (-31164.994) (-31167.691) [-31168.700] -- 0:16:20
646500 -- (-31166.852) (-31164.348) (-31159.319) [-31160.758] * [-31162.892] (-31174.308) (-31171.305) (-31166.374) -- 0:16:19
647000 -- [-31166.623] (-31172.115) (-31159.360) (-31161.891) * (-31172.085) (-31172.331) [-31172.969] (-31168.009) -- 0:16:17
647500 -- (-31167.912) (-31167.845) (-31167.753) [-31165.760] * (-31176.189) (-31173.920) (-31175.945) [-31161.753] -- 0:16:16
648000 -- [-31167.493] (-31162.100) (-31173.724) (-31160.727) * (-31169.955) (-31166.581) [-31168.008] (-31170.982) -- 0:16:15
648500 -- (-31168.519) [-31166.820] (-31173.850) (-31166.612) * (-31166.492) (-31161.964) [-31172.597] (-31170.933) -- 0:16:14
649000 -- (-31175.338) (-31169.099) [-31172.024] (-31165.991) * (-31166.750) [-31170.673] (-31173.483) (-31173.303) -- 0:16:12
649500 -- [-31161.864] (-31173.489) (-31166.729) (-31166.903) * (-31165.068) (-31159.118) [-31164.724] (-31175.492) -- 0:16:10
650000 -- [-31167.253] (-31171.237) (-31164.351) (-31183.679) * [-31167.005] (-31167.963) (-31158.860) (-31178.291) -- 0:16:09
Average standard deviation of split frequencies: 0.000103
650500 -- (-31163.479) [-31168.683] (-31163.623) (-31179.855) * [-31159.153] (-31173.501) (-31163.320) (-31166.335) -- 0:16:08
651000 -- (-31162.288) (-31168.778) [-31160.578] (-31170.608) * (-31169.805) [-31168.132] (-31178.861) (-31170.468) -- 0:16:06
651500 -- [-31172.620] (-31168.813) (-31161.308) (-31167.047) * (-31166.101) (-31169.770) (-31162.770) [-31166.840] -- 0:16:05
652000 -- (-31174.032) (-31171.664) (-31176.529) [-31174.312] * (-31171.988) (-31165.708) (-31171.830) [-31166.704] -- 0:16:03
652500 -- (-31171.260) (-31171.214) [-31168.059] (-31169.183) * (-31162.640) (-31157.843) [-31167.358] (-31169.092) -- 0:16:02
653000 -- (-31159.766) [-31173.976] (-31171.390) (-31169.894) * (-31164.864) [-31161.447] (-31167.394) (-31162.787) -- 0:16:01
653500 -- [-31163.095] (-31175.514) (-31166.804) (-31170.834) * (-31169.566) [-31163.391] (-31173.857) (-31170.890) -- 0:15:59
654000 -- (-31165.880) (-31170.817) [-31161.875] (-31167.843) * [-31174.356] (-31175.354) (-31169.262) (-31175.125) -- 0:15:58
654500 -- (-31163.136) (-31168.518) (-31171.579) [-31172.746] * (-31170.252) [-31165.522] (-31170.696) (-31173.318) -- 0:15:57
655000 -- (-31177.381) [-31171.443] (-31166.824) (-31180.661) * (-31166.210) (-31164.452) [-31169.641] (-31170.868) -- 0:15:55
Average standard deviation of split frequencies: 0.000103
655500 -- [-31168.439] (-31176.514) (-31159.541) (-31170.383) * [-31164.524] (-31173.390) (-31170.090) (-31162.799) -- 0:15:54
656000 -- [-31163.120] (-31173.822) (-31155.805) (-31167.959) * (-31161.020) (-31171.139) [-31175.310] (-31174.900) -- 0:15:52
656500 -- (-31171.199) (-31170.256) [-31167.787] (-31175.677) * (-31173.850) (-31172.197) [-31166.372] (-31167.113) -- 0:15:51
657000 -- (-31165.529) [-31165.566] (-31177.748) (-31187.181) * [-31166.401] (-31171.595) (-31171.916) (-31184.494) -- 0:15:50
657500 -- (-31167.940) [-31160.107] (-31171.252) (-31165.742) * [-31157.606] (-31176.971) (-31170.285) (-31170.827) -- 0:15:48
658000 -- (-31163.297) [-31166.085] (-31179.845) (-31172.895) * (-31174.296) [-31168.029] (-31167.566) (-31173.848) -- 0:15:47
658500 -- (-31168.457) (-31178.990) [-31170.681] (-31160.463) * (-31167.475) (-31171.168) [-31169.958] (-31166.017) -- 0:15:45
659000 -- [-31175.480] (-31170.937) (-31168.485) (-31165.617) * (-31159.544) [-31163.995] (-31164.911) (-31165.427) -- 0:15:44
659500 -- (-31174.455) [-31163.787] (-31162.740) (-31167.712) * (-31160.727) (-31163.838) (-31176.783) [-31170.427] -- 0:15:43
660000 -- [-31164.492] (-31162.172) (-31172.364) (-31167.798) * (-31162.759) [-31161.640] (-31176.817) (-31165.942) -- 0:15:42
Average standard deviation of split frequencies: 0.000102
660500 -- (-31181.763) [-31171.674] (-31161.936) (-31164.724) * (-31167.299) (-31166.725) (-31162.286) [-31167.886] -- 0:15:41
661000 -- (-31166.472) (-31177.078) (-31169.337) [-31165.438] * (-31161.548) (-31158.036) [-31170.656] (-31171.202) -- 0:15:39
661500 -- [-31172.252] (-31160.817) (-31171.064) (-31164.134) * [-31165.907] (-31160.761) (-31162.674) (-31165.050) -- 0:15:37
662000 -- (-31181.151) (-31164.961) (-31167.575) [-31167.710] * (-31170.640) [-31170.969] (-31168.118) (-31164.484) -- 0:15:36
662500 -- [-31164.567] (-31170.933) (-31169.617) (-31163.213) * [-31170.635] (-31175.990) (-31178.609) (-31165.451) -- 0:15:35
663000 -- [-31162.208] (-31174.548) (-31179.663) (-31169.422) * (-31171.376) [-31165.056] (-31169.380) (-31163.955) -- 0:15:33
663500 -- (-31173.410) (-31169.659) [-31162.101] (-31168.215) * (-31163.814) (-31170.438) (-31170.603) [-31161.176] -- 0:15:32
664000 -- (-31170.477) (-31170.493) (-31172.943) [-31171.241] * (-31168.971) [-31164.712] (-31162.699) (-31163.941) -- 0:15:31
664500 -- (-31171.336) [-31170.319] (-31177.659) (-31172.734) * (-31169.272) [-31172.450] (-31165.264) (-31179.438) -- 0:15:30
665000 -- (-31172.057) [-31174.110] (-31166.948) (-31169.283) * (-31165.122) [-31163.399] (-31167.496) (-31183.412) -- 0:15:28
Average standard deviation of split frequencies: 0.000101
665500 -- (-31174.008) (-31164.274) [-31169.631] (-31168.329) * (-31173.019) [-31170.124] (-31164.502) (-31180.945) -- 0:15:26
666000 -- (-31175.464) [-31166.598] (-31168.430) (-31168.918) * [-31168.535] (-31170.799) (-31171.885) (-31172.855) -- 0:15:25
666500 -- (-31172.892) (-31173.363) (-31175.106) [-31158.625] * (-31166.342) [-31172.525] (-31167.010) (-31174.823) -- 0:15:24
667000 -- (-31168.396) [-31167.251] (-31175.074) (-31171.867) * (-31177.011) (-31161.049) (-31159.296) [-31175.647] -- 0:15:23
667500 -- (-31168.851) [-31170.619] (-31172.657) (-31180.704) * [-31164.395] (-31168.514) (-31168.849) (-31167.712) -- 0:15:21
668000 -- (-31167.911) (-31170.670) [-31167.665] (-31168.049) * (-31166.258) [-31165.664] (-31167.353) (-31173.478) -- 0:15:20
668500 -- (-31170.480) [-31170.528] (-31167.729) (-31166.685) * (-31167.230) [-31172.947] (-31170.153) (-31161.259) -- 0:15:18
669000 -- (-31188.848) (-31172.344) (-31175.177) [-31173.898] * [-31164.965] (-31177.531) (-31165.855) (-31167.882) -- 0:15:17
669500 -- [-31163.193] (-31163.019) (-31172.576) (-31164.949) * (-31165.086) (-31179.488) (-31167.620) [-31163.999] -- 0:15:16
670000 -- (-31176.738) [-31167.255] (-31166.249) (-31159.409) * (-31162.713) [-31165.782] (-31164.131) (-31164.214) -- 0:15:14
Average standard deviation of split frequencies: 0.000100
670500 -- (-31167.483) (-31173.321) [-31170.289] (-31169.751) * [-31168.925] (-31176.550) (-31165.360) (-31178.663) -- 0:15:13
671000 -- (-31162.321) (-31174.796) [-31172.605] (-31165.521) * [-31160.387] (-31171.045) (-31162.174) (-31165.386) -- 0:15:11
671500 -- [-31165.633] (-31160.385) (-31169.851) (-31169.395) * (-31173.191) (-31162.712) (-31167.861) [-31168.150] -- 0:15:10
672000 -- [-31160.550] (-31170.855) (-31172.356) (-31175.219) * (-31165.262) (-31181.954) [-31166.043] (-31158.559) -- 0:15:09
672500 -- [-31171.942] (-31172.914) (-31169.732) (-31166.664) * [-31170.717] (-31178.062) (-31163.536) (-31173.242) -- 0:15:07
673000 -- (-31169.035) [-31165.956] (-31168.277) (-31172.720) * [-31175.277] (-31178.973) (-31179.196) (-31162.610) -- 0:15:06
673500 -- (-31165.774) [-31166.122] (-31166.010) (-31168.274) * (-31166.021) [-31175.853] (-31168.287) (-31170.967) -- 0:15:05
674000 -- (-31159.451) (-31167.113) (-31165.232) [-31161.551] * (-31165.298) (-31173.400) (-31167.233) [-31167.243] -- 0:15:03
674500 -- (-31163.474) (-31175.673) (-31174.622) [-31163.410] * [-31168.867] (-31178.202) (-31167.553) (-31171.106) -- 0:15:02
675000 -- (-31175.424) [-31169.603] (-31169.358) (-31168.771) * [-31168.931] (-31169.000) (-31169.642) (-31175.921) -- 0:15:01
Average standard deviation of split frequencies: 0.000100
675500 -- (-31164.822) [-31166.490] (-31161.622) (-31175.617) * [-31165.215] (-31170.274) (-31167.025) (-31173.112) -- 0:14:59
676000 -- [-31165.372] (-31167.930) (-31179.322) (-31160.324) * (-31160.445) [-31159.671] (-31170.007) (-31183.331) -- 0:14:58
676500 -- [-31169.947] (-31169.631) (-31169.520) (-31162.092) * [-31161.685] (-31168.740) (-31158.797) (-31167.501) -- 0:14:57
677000 -- (-31168.252) (-31176.184) [-31159.341] (-31169.245) * (-31177.639) (-31176.828) [-31174.009] (-31172.033) -- 0:14:55
677500 -- [-31166.739] (-31172.462) (-31172.398) (-31169.857) * (-31169.739) (-31173.215) (-31165.831) [-31166.056] -- 0:14:54
678000 -- [-31165.632] (-31177.140) (-31163.428) (-31168.478) * (-31170.896) [-31169.559] (-31172.893) (-31171.000) -- 0:14:52
678500 -- [-31163.655] (-31161.622) (-31175.616) (-31170.502) * (-31168.558) [-31175.104] (-31176.694) (-31168.705) -- 0:14:51
679000 -- [-31164.589] (-31170.084) (-31170.279) (-31167.070) * (-31165.426) (-31165.596) [-31166.946] (-31160.075) -- 0:14:50
679500 -- (-31164.049) (-31164.178) (-31172.908) [-31167.517] * (-31162.825) (-31168.197) [-31170.404] (-31161.139) -- 0:14:49
680000 -- (-31169.310) [-31163.370] (-31168.515) (-31175.381) * (-31165.942) (-31178.694) (-31165.797) [-31166.336] -- 0:14:47
Average standard deviation of split frequencies: 0.000099
680500 -- (-31165.827) [-31166.993] (-31167.061) (-31180.580) * [-31170.290] (-31188.646) (-31166.949) (-31161.048) -- 0:14:46
681000 -- (-31169.905) [-31165.756] (-31167.122) (-31184.702) * (-31162.621) (-31173.062) (-31166.412) [-31159.580] -- 0:14:44
681500 -- [-31169.724] (-31162.852) (-31180.777) (-31175.289) * (-31163.671) (-31162.294) (-31170.903) [-31171.213] -- 0:14:43
682000 -- [-31165.565] (-31171.483) (-31162.838) (-31175.207) * (-31166.688) (-31170.323) [-31171.654] (-31164.149) -- 0:14:42
682500 -- (-31168.686) [-31170.485] (-31171.980) (-31174.597) * [-31167.084] (-31176.305) (-31165.443) (-31184.399) -- 0:14:40
683000 -- (-31167.907) (-31168.216) [-31160.468] (-31166.369) * (-31175.251) (-31169.908) (-31166.348) [-31169.410] -- 0:14:39
683500 -- (-31166.128) [-31169.763] (-31165.498) (-31187.217) * (-31170.186) [-31165.498] (-31171.422) (-31176.724) -- 0:14:37
684000 -- (-31163.157) (-31171.929) [-31163.337] (-31178.306) * (-31169.879) (-31173.663) (-31169.884) [-31175.451] -- 0:14:36
684500 -- [-31164.141] (-31166.730) (-31166.897) (-31172.947) * [-31172.459] (-31166.553) (-31170.380) (-31166.145) -- 0:14:35
685000 -- (-31163.765) (-31171.381) (-31172.434) [-31172.001] * [-31165.188] (-31172.484) (-31172.386) (-31167.125) -- 0:14:33
Average standard deviation of split frequencies: 0.000098
685500 -- (-31176.873) [-31170.371] (-31165.665) (-31171.028) * (-31170.172) [-31161.462] (-31173.855) (-31171.403) -- 0:14:32
686000 -- [-31164.303] (-31174.759) (-31173.186) (-31168.642) * (-31166.628) [-31165.815] (-31177.556) (-31172.277) -- 0:14:31
686500 -- (-31163.920) (-31164.352) (-31168.347) [-31160.698] * (-31170.820) (-31176.914) (-31177.479) [-31163.787] -- 0:14:29
687000 -- [-31168.437] (-31172.272) (-31170.907) (-31171.168) * [-31173.851] (-31166.167) (-31177.708) (-31165.455) -- 0:14:28
687500 -- (-31165.758) (-31173.812) (-31166.341) [-31160.547] * [-31161.417] (-31157.678) (-31166.105) (-31171.334) -- 0:14:26
688000 -- [-31172.575] (-31173.149) (-31164.720) (-31163.887) * (-31170.954) [-31163.962] (-31175.963) (-31169.630) -- 0:14:25
688500 -- [-31168.201] (-31178.183) (-31166.335) (-31165.056) * [-31166.805] (-31167.576) (-31170.290) (-31174.962) -- 0:14:24
689000 -- (-31173.738) (-31172.457) [-31169.903] (-31170.473) * (-31173.525) (-31163.332) (-31173.859) [-31162.683] -- 0:14:23
689500 -- (-31172.147) (-31172.169) (-31179.265) [-31168.131] * (-31164.236) [-31165.067] (-31174.213) (-31164.761) -- 0:14:21
690000 -- (-31169.803) (-31169.437) (-31169.273) [-31163.507] * (-31172.881) [-31163.413] (-31171.172) (-31161.218) -- 0:14:20
Average standard deviation of split frequencies: 0.000098
690500 -- [-31160.092] (-31180.658) (-31171.990) (-31165.256) * (-31184.875) (-31163.896) (-31166.172) [-31167.376] -- 0:14:18
691000 -- [-31161.266] (-31176.949) (-31166.526) (-31178.841) * [-31165.956] (-31167.472) (-31178.894) (-31164.630) -- 0:14:17
691500 -- [-31161.168] (-31177.444) (-31167.800) (-31163.866) * (-31165.560) (-31164.497) [-31163.768] (-31164.816) -- 0:14:16
692000 -- (-31162.648) (-31181.027) [-31167.371] (-31166.905) * (-31163.193) (-31164.323) [-31162.214] (-31168.942) -- 0:14:15
692500 -- (-31172.314) (-31170.824) (-31168.175) [-31169.879] * [-31172.964] (-31163.504) (-31169.474) (-31169.029) -- 0:14:13
693000 -- (-31165.882) (-31171.765) (-31174.756) [-31162.739] * [-31168.591] (-31165.374) (-31159.917) (-31164.848) -- 0:14:12
693500 -- (-31170.251) (-31161.034) (-31178.605) [-31159.137] * (-31165.415) (-31158.178) (-31170.562) [-31166.924] -- 0:14:10
694000 -- [-31162.860] (-31162.254) (-31174.740) (-31174.967) * (-31160.380) [-31163.074] (-31164.680) (-31165.662) -- 0:14:09
694500 -- (-31163.868) (-31171.914) [-31162.793] (-31165.256) * (-31165.690) (-31164.721) (-31177.037) [-31165.874] -- 0:14:08
695000 -- (-31174.526) [-31174.098] (-31166.070) (-31177.125) * (-31171.792) [-31168.565] (-31165.361) (-31163.453) -- 0:14:06
Average standard deviation of split frequencies: 0.000097
695500 -- (-31168.172) (-31173.473) [-31168.475] (-31169.863) * (-31158.250) [-31169.907] (-31173.168) (-31158.189) -- 0:14:05
696000 -- (-31170.686) (-31172.576) (-31165.652) [-31169.431] * (-31161.855) (-31156.966) [-31169.561] (-31169.693) -- 0:14:03
696500 -- (-31171.124) (-31170.627) (-31163.025) [-31159.389] * (-31162.650) (-31168.365) (-31164.083) [-31159.567] -- 0:14:02
697000 -- (-31172.439) (-31168.136) (-31168.064) [-31166.797] * (-31161.856) (-31172.395) (-31170.616) [-31167.350] -- 0:14:01
697500 -- (-31178.408) [-31162.307] (-31165.106) (-31172.387) * (-31170.079) [-31161.526] (-31172.233) (-31165.584) -- 0:13:59
698000 -- (-31174.840) [-31165.770] (-31166.962) (-31172.784) * (-31170.767) (-31168.897) (-31164.797) [-31171.698] -- 0:13:58
698500 -- (-31171.213) (-31158.949) [-31177.186] (-31171.272) * (-31164.469) (-31166.081) [-31167.081] (-31163.264) -- 0:13:56
699000 -- (-31173.142) [-31173.467] (-31181.166) (-31163.479) * (-31168.369) (-31178.903) (-31168.562) [-31163.518] -- 0:13:55
699500 -- [-31170.266] (-31168.377) (-31167.377) (-31173.170) * (-31164.672) [-31181.388] (-31172.681) (-31163.179) -- 0:13:54
700000 -- [-31172.394] (-31173.389) (-31166.787) (-31176.456) * [-31165.083] (-31173.654) (-31172.345) (-31165.926) -- 0:13:52
Average standard deviation of split frequencies: 0.000096
700500 -- (-31178.705) (-31173.941) [-31167.630] (-31172.615) * (-31166.473) (-31165.849) [-31160.143] (-31177.108) -- 0:13:51
701000 -- (-31171.742) (-31174.781) [-31170.057] (-31168.014) * (-31159.950) [-31165.435] (-31175.220) (-31167.554) -- 0:13:50
701500 -- [-31167.810] (-31179.671) (-31163.967) (-31178.458) * (-31168.816) (-31178.138) (-31177.141) [-31167.842] -- 0:13:48
702000 -- (-31162.640) (-31167.729) [-31166.086] (-31189.123) * (-31166.724) [-31164.090] (-31176.707) (-31172.760) -- 0:13:47
702500 -- (-31162.459) (-31169.538) [-31167.588] (-31173.503) * (-31169.178) [-31164.827] (-31166.139) (-31170.878) -- 0:13:46
703000 -- [-31167.704] (-31170.070) (-31163.987) (-31160.985) * (-31164.161) (-31168.124) (-31172.515) [-31168.933] -- 0:13:44
703500 -- (-31166.401) (-31171.072) [-31172.740] (-31181.542) * [-31164.959] (-31175.453) (-31154.739) (-31170.832) -- 0:13:43
704000 -- (-31172.425) (-31173.304) [-31175.513] (-31178.887) * (-31177.362) (-31169.078) [-31170.848] (-31169.921) -- 0:13:41
704500 -- [-31168.603] (-31177.112) (-31173.225) (-31168.811) * (-31179.470) [-31166.655] (-31176.016) (-31172.492) -- 0:13:40
705000 -- [-31163.238] (-31168.062) (-31167.894) (-31165.869) * (-31172.708) [-31163.930] (-31167.577) (-31166.315) -- 0:13:39
Average standard deviation of split frequencies: 0.000095
705500 -- (-31184.627) (-31174.620) [-31166.689] (-31167.845) * [-31164.811] (-31170.780) (-31173.718) (-31171.433) -- 0:13:37
706000 -- [-31166.432] (-31174.399) (-31169.806) (-31160.103) * (-31179.495) (-31171.099) [-31166.619] (-31168.999) -- 0:13:36
706500 -- [-31169.715] (-31174.046) (-31166.564) (-31168.161) * (-31162.887) [-31171.474] (-31183.746) (-31181.307) -- 0:13:35
707000 -- (-31164.765) (-31167.530) [-31166.412] (-31162.466) * [-31160.048] (-31171.419) (-31181.740) (-31165.898) -- 0:13:33
707500 -- (-31158.957) (-31163.412) [-31163.012] (-31163.988) * (-31165.419) [-31165.104] (-31166.579) (-31171.316) -- 0:13:32
708000 -- [-31171.229] (-31168.329) (-31171.458) (-31160.729) * (-31163.683) [-31162.350] (-31169.807) (-31180.001) -- 0:13:30
708500 -- (-31170.890) [-31159.033] (-31161.965) (-31163.861) * (-31165.953) [-31164.018] (-31166.736) (-31175.404) -- 0:13:29
709000 -- [-31165.703] (-31166.434) (-31173.411) (-31159.789) * (-31187.467) [-31175.867] (-31165.923) (-31172.520) -- 0:13:28
709500 -- (-31163.777) (-31166.046) [-31166.299] (-31177.439) * (-31184.583) (-31166.754) (-31164.971) [-31166.782] -- 0:13:27
710000 -- (-31168.082) [-31166.317] (-31164.727) (-31179.694) * (-31162.780) (-31173.614) (-31163.914) [-31161.510] -- 0:13:25
Average standard deviation of split frequencies: 0.000095
710500 -- [-31163.990] (-31162.386) (-31165.178) (-31177.035) * (-31168.211) (-31167.510) (-31167.154) [-31160.226] -- 0:13:24
711000 -- (-31173.644) [-31165.623] (-31177.969) (-31167.208) * (-31168.408) [-31167.127] (-31164.656) (-31167.725) -- 0:13:22
711500 -- (-31166.859) (-31170.926) [-31163.615] (-31164.857) * (-31183.221) [-31168.605] (-31166.738) (-31174.098) -- 0:13:21
712000 -- (-31177.193) (-31169.857) [-31158.660] (-31164.292) * [-31178.503] (-31168.866) (-31167.638) (-31175.862) -- 0:13:20
712500 -- (-31160.856) [-31162.395] (-31168.978) (-31159.326) * (-31161.890) (-31174.970) (-31165.524) [-31176.947] -- 0:13:18
713000 -- (-31164.142) (-31169.850) (-31170.422) [-31159.562] * [-31176.213] (-31177.348) (-31166.781) (-31168.939) -- 0:13:17
713500 -- (-31172.070) [-31164.821] (-31166.272) (-31167.144) * (-31167.457) (-31173.534) [-31163.130] (-31170.090) -- 0:13:16
714000 -- (-31178.524) (-31171.305) [-31167.437] (-31169.044) * [-31166.103] (-31176.631) (-31163.196) (-31165.155) -- 0:13:14
714500 -- [-31171.282] (-31169.921) (-31164.774) (-31168.102) * (-31161.006) [-31167.578] (-31166.473) (-31168.924) -- 0:13:13
715000 -- (-31167.781) (-31161.975) (-31170.050) [-31165.659] * [-31166.297] (-31172.205) (-31168.805) (-31165.023) -- 0:13:12
Average standard deviation of split frequencies: 0.000094
715500 -- (-31176.377) (-31169.470) (-31166.111) [-31164.861] * (-31168.700) (-31173.368) (-31168.890) [-31168.283] -- 0:13:10
716000 -- (-31165.655) [-31165.599] (-31172.592) (-31165.963) * [-31161.568] (-31163.857) (-31166.867) (-31170.057) -- 0:13:08
716500 -- (-31172.246) (-31172.957) [-31173.111] (-31173.224) * (-31162.729) [-31174.209] (-31168.249) (-31166.018) -- 0:13:07
717000 -- [-31172.338] (-31179.040) (-31167.917) (-31172.329) * (-31162.724) (-31172.163) [-31179.675] (-31169.889) -- 0:13:06
717500 -- [-31174.484] (-31183.922) (-31171.309) (-31183.142) * (-31164.505) (-31176.688) (-31166.118) [-31164.788] -- 0:13:05
718000 -- (-31173.855) [-31161.722] (-31164.087) (-31172.110) * (-31173.201) (-31174.718) [-31168.933] (-31170.269) -- 0:13:03
718500 -- [-31172.870] (-31168.390) (-31173.271) (-31166.046) * (-31163.991) [-31168.883] (-31170.752) (-31172.144) -- 0:13:02
719000 -- [-31167.017] (-31167.440) (-31170.937) (-31170.963) * (-31165.966) (-31179.929) [-31164.050] (-31174.697) -- 0:13:00
719500 -- (-31171.303) (-31175.606) [-31165.542] (-31172.036) * (-31167.134) (-31164.862) (-31163.927) [-31167.207] -- 0:12:59
720000 -- [-31164.054] (-31163.787) (-31162.929) (-31178.010) * (-31179.362) (-31164.600) [-31171.483] (-31169.205) -- 0:12:58
Average standard deviation of split frequencies: 0.000093
720500 -- (-31161.887) (-31166.544) [-31160.875] (-31163.254) * [-31163.661] (-31175.440) (-31174.407) (-31160.683) -- 0:12:56
721000 -- (-31171.399) (-31168.399) [-31161.515] (-31167.174) * (-31175.962) (-31178.980) (-31181.248) [-31157.167] -- 0:12:55
721500 -- (-31169.283) (-31169.140) [-31159.241] (-31169.749) * (-31172.376) (-31167.626) (-31178.797) [-31163.972] -- 0:12:53
722000 -- (-31167.424) [-31164.431] (-31163.548) (-31168.879) * (-31180.477) [-31163.556] (-31163.786) (-31172.688) -- 0:12:52
722500 -- [-31172.243] (-31169.895) (-31174.069) (-31166.349) * (-31177.855) (-31169.246) (-31161.953) [-31163.371] -- 0:12:50
723000 -- [-31170.852] (-31171.028) (-31174.619) (-31165.487) * (-31180.229) (-31170.285) [-31164.116] (-31168.934) -- 0:12:49
723500 -- [-31169.190] (-31166.129) (-31184.208) (-31163.425) * (-31181.317) (-31164.523) (-31168.036) [-31178.403] -- 0:12:48
724000 -- (-31178.440) (-31169.155) (-31162.692) [-31165.828] * (-31165.677) [-31158.535] (-31164.709) (-31165.152) -- 0:12:47
724500 -- (-31165.960) [-31163.591] (-31177.013) (-31173.774) * [-31164.628] (-31161.575) (-31163.017) (-31165.086) -- 0:12:45
725000 -- (-31166.889) (-31163.435) (-31161.827) [-31165.070] * (-31175.024) (-31167.269) [-31170.794] (-31170.779) -- 0:12:44
Average standard deviation of split frequencies: 0.000093
725500 -- (-31168.944) (-31168.528) (-31171.710) [-31166.519] * [-31166.000] (-31171.153) (-31182.454) (-31174.466) -- 0:12:42
726000 -- (-31168.652) (-31167.258) [-31172.317] (-31172.021) * (-31159.501) (-31160.371) [-31172.333] (-31185.871) -- 0:12:41
726500 -- (-31167.218) [-31162.046] (-31178.023) (-31168.234) * (-31159.336) (-31169.673) (-31172.874) [-31171.734] -- 0:12:40
727000 -- [-31166.172] (-31165.434) (-31165.875) (-31167.129) * (-31168.307) (-31168.958) [-31167.518] (-31179.661) -- 0:12:38
727500 -- (-31162.125) (-31174.754) [-31171.895] (-31174.973) * (-31169.652) [-31163.007] (-31175.566) (-31165.095) -- 0:12:37
728000 -- [-31161.406] (-31162.676) (-31170.563) (-31171.659) * (-31180.913) [-31168.935] (-31169.686) (-31171.045) -- 0:12:36
728500 -- (-31171.771) (-31170.397) (-31166.870) [-31175.353] * (-31171.026) [-31164.361] (-31179.301) (-31170.040) -- 0:12:34
729000 -- (-31166.422) (-31177.557) [-31173.834] (-31169.525) * (-31174.035) (-31168.471) (-31167.433) [-31168.434] -- 0:12:33
729500 -- [-31161.652] (-31182.348) (-31169.978) (-31182.657) * (-31168.099) (-31172.339) (-31166.055) [-31163.891] -- 0:12:31
730000 -- (-31161.535) [-31183.313] (-31175.553) (-31165.103) * [-31167.417] (-31166.707) (-31171.358) (-31166.595) -- 0:12:30
Average standard deviation of split frequencies: 0.000092
730500 -- [-31161.511] (-31172.162) (-31164.570) (-31168.425) * [-31173.569] (-31172.371) (-31172.997) (-31165.791) -- 0:12:29
731000 -- (-31166.772) [-31172.441] (-31168.278) (-31170.974) * (-31164.777) (-31176.330) (-31166.509) [-31168.782] -- 0:12:27
731500 -- [-31164.708] (-31181.006) (-31163.970) (-31167.280) * (-31167.609) (-31175.017) (-31165.191) [-31167.468] -- 0:12:26
732000 -- (-31159.738) [-31173.458] (-31170.135) (-31172.638) * (-31175.861) [-31169.302] (-31175.683) (-31166.548) -- 0:12:25
732500 -- (-31170.451) (-31168.559) [-31164.188] (-31170.692) * (-31171.851) (-31162.267) [-31165.078] (-31175.217) -- 0:12:23
733000 -- (-31161.696) (-31164.234) [-31170.990] (-31164.425) * (-31174.210) (-31160.991) (-31168.934) [-31165.177] -- 0:12:22
733500 -- (-31171.555) (-31168.963) [-31157.587] (-31168.197) * (-31172.831) (-31159.129) [-31165.056] (-31168.039) -- 0:12:20
734000 -- (-31170.625) (-31165.355) [-31167.621] (-31166.391) * [-31170.569] (-31163.971) (-31164.043) (-31162.816) -- 0:12:19
734500 -- (-31167.213) (-31170.228) (-31164.432) [-31165.730] * (-31172.995) [-31164.581] (-31161.802) (-31160.225) -- 0:12:18
735000 -- (-31163.832) (-31175.274) [-31168.216] (-31170.165) * (-31164.682) [-31161.417] (-31170.411) (-31170.511) -- 0:12:16
Average standard deviation of split frequencies: 0.000091
735500 -- (-31163.483) [-31165.091] (-31177.169) (-31185.193) * (-31161.540) [-31160.752] (-31172.311) (-31162.782) -- 0:12:15
736000 -- (-31158.564) [-31163.990] (-31163.813) (-31164.784) * (-31164.426) [-31163.630] (-31167.130) (-31171.765) -- 0:12:13
736500 -- (-31159.262) (-31169.808) (-31175.906) [-31167.138] * (-31169.713) [-31171.337] (-31180.588) (-31168.550) -- 0:12:12
737000 -- [-31164.804] (-31161.514) (-31168.648) (-31167.466) * (-31173.089) (-31173.357) (-31164.249) [-31169.850] -- 0:12:11
737500 -- (-31174.489) (-31165.012) (-31166.704) [-31168.869] * (-31170.931) [-31168.307] (-31171.910) (-31173.890) -- 0:12:09
738000 -- (-31165.600) (-31165.871) [-31166.550] (-31171.150) * (-31174.666) (-31168.359) [-31168.443] (-31180.095) -- 0:12:08
738500 -- [-31169.531] (-31170.288) (-31176.265) (-31172.749) * [-31170.027] (-31165.847) (-31181.057) (-31168.097) -- 0:12:06
739000 -- [-31166.732] (-31171.880) (-31167.310) (-31172.570) * [-31166.633] (-31165.222) (-31167.935) (-31174.476) -- 0:12:05
739500 -- (-31171.310) [-31159.946] (-31160.562) (-31176.755) * (-31163.976) (-31171.782) [-31169.763] (-31172.561) -- 0:12:04
740000 -- (-31173.690) (-31164.366) [-31164.720] (-31175.034) * (-31168.250) (-31173.425) (-31164.595) [-31169.031] -- 0:12:02
Average standard deviation of split frequencies: 0.000091
740500 -- (-31174.123) (-31171.397) [-31166.544] (-31162.597) * (-31162.896) (-31172.181) (-31160.011) [-31172.385] -- 0:12:01
741000 -- [-31166.890] (-31170.693) (-31167.069) (-31171.725) * (-31167.554) (-31175.137) [-31175.248] (-31165.508) -- 0:12:00
741500 -- (-31163.426) (-31177.302) (-31164.058) [-31169.568] * [-31163.300] (-31174.691) (-31173.126) (-31171.184) -- 0:11:58
742000 -- (-31162.871) [-31165.409] (-31170.255) (-31166.365) * (-31167.348) (-31165.433) (-31167.259) [-31166.574] -- 0:11:56
742500 -- [-31167.942] (-31167.358) (-31164.365) (-31171.421) * (-31176.603) (-31159.353) (-31172.652) [-31173.340] -- 0:11:55
743000 -- [-31173.815] (-31170.501) (-31168.718) (-31166.703) * (-31171.855) [-31165.589] (-31168.289) (-31172.494) -- 0:11:54
743500 -- (-31172.901) [-31168.617] (-31172.402) (-31162.906) * [-31171.495] (-31167.136) (-31163.615) (-31179.723) -- 0:11:53
744000 -- (-31176.736) [-31158.756] (-31170.724) (-31169.741) * [-31160.966] (-31162.117) (-31164.978) (-31172.710) -- 0:11:51
744500 -- (-31171.022) (-31179.005) (-31163.062) [-31167.663] * (-31165.798) (-31168.309) [-31170.585] (-31170.918) -- 0:11:50
745000 -- (-31163.421) [-31158.231] (-31173.566) (-31168.460) * (-31158.834) (-31169.158) (-31164.623) [-31177.075] -- 0:11:48
Average standard deviation of split frequencies: 0.000090
745500 -- (-31168.002) (-31159.463) [-31165.432] (-31169.285) * (-31160.367) [-31162.068] (-31177.816) (-31161.899) -- 0:11:47
746000 -- [-31169.679] (-31172.043) (-31160.445) (-31184.414) * [-31169.748] (-31165.803) (-31166.825) (-31162.788) -- 0:11:45
746500 -- (-31167.997) (-31165.486) [-31160.413] (-31174.096) * [-31164.384] (-31164.770) (-31162.018) (-31170.242) -- 0:11:44
747000 -- (-31168.219) [-31162.370] (-31165.884) (-31171.143) * (-31177.774) (-31166.960) (-31166.410) [-31175.480] -- 0:11:43
747500 -- (-31171.198) (-31172.944) (-31162.597) [-31161.824] * (-31171.012) [-31158.019] (-31165.798) (-31165.952) -- 0:11:41
748000 -- [-31173.447] (-31170.807) (-31170.658) (-31169.376) * [-31164.362] (-31166.173) (-31172.447) (-31170.559) -- 0:11:40
748500 -- (-31170.078) [-31163.523] (-31179.974) (-31174.804) * (-31167.911) [-31164.621] (-31168.856) (-31170.115) -- 0:11:38
749000 -- (-31168.075) (-31169.825) [-31163.896] (-31167.608) * [-31175.237] (-31172.113) (-31167.117) (-31164.539) -- 0:11:37
749500 -- (-31164.297) [-31167.178] (-31160.151) (-31170.903) * (-31160.568) [-31162.439] (-31162.146) (-31166.173) -- 0:11:36
750000 -- (-31166.398) (-31158.727) [-31160.615] (-31170.499) * [-31157.675] (-31172.424) (-31169.000) (-31165.892) -- 0:11:34
Average standard deviation of split frequencies: 0.000090
750500 -- (-31168.287) (-31168.159) (-31168.693) [-31175.225] * (-31163.841) [-31160.225] (-31180.234) (-31165.694) -- 0:11:33
751000 -- (-31161.007) (-31165.002) (-31173.370) [-31178.285] * (-31174.889) (-31166.361) (-31183.675) [-31174.020] -- 0:11:31
751500 -- (-31171.517) (-31177.286) [-31167.132] (-31172.753) * (-31175.319) (-31167.673) [-31172.906] (-31190.311) -- 0:11:30
752000 -- (-31165.286) (-31171.240) (-31171.632) [-31166.516] * (-31173.987) (-31171.857) (-31173.390) [-31170.886] -- 0:11:29
752500 -- (-31168.099) (-31162.631) (-31167.955) [-31172.625] * (-31183.474) (-31173.421) [-31169.528] (-31166.228) -- 0:11:27
753000 -- (-31172.391) [-31169.240] (-31164.208) (-31167.083) * (-31172.900) (-31167.888) [-31165.969] (-31176.524) -- 0:11:26
753500 -- (-31179.099) (-31166.385) [-31162.882] (-31169.133) * (-31177.009) [-31159.348] (-31165.679) (-31173.563) -- 0:11:25
754000 -- (-31175.286) [-31158.961] (-31172.012) (-31165.597) * (-31165.268) [-31169.280] (-31182.625) (-31172.161) -- 0:11:23
754500 -- (-31170.605) [-31159.595] (-31170.011) (-31169.761) * [-31169.517] (-31166.285) (-31168.475) (-31169.299) -- 0:11:22
755000 -- (-31169.338) (-31158.903) [-31168.736] (-31162.315) * (-31167.630) [-31161.180] (-31175.465) (-31163.844) -- 0:11:20
Average standard deviation of split frequencies: 0.000089
755500 -- (-31177.198) (-31172.599) [-31161.572] (-31174.230) * (-31157.745) (-31178.739) [-31159.548] (-31175.353) -- 0:11:19
756000 -- (-31177.787) (-31176.062) [-31163.579] (-31168.850) * [-31157.537] (-31170.950) (-31169.818) (-31165.017) -- 0:11:18
756500 -- (-31182.064) (-31171.825) [-31167.046] (-31163.770) * (-31171.105) [-31171.766] (-31169.748) (-31171.520) -- 0:11:16
757000 -- (-31165.387) (-31168.170) [-31169.525] (-31173.975) * (-31169.707) (-31166.685) (-31168.171) [-31166.091] -- 0:11:15
757500 -- (-31166.384) (-31170.460) (-31162.469) [-31172.512] * (-31165.263) (-31175.977) (-31160.950) [-31163.153] -- 0:11:13
758000 -- [-31166.300] (-31163.956) (-31165.611) (-31169.082) * (-31178.480) [-31172.770] (-31167.849) (-31178.336) -- 0:11:12
758500 -- (-31171.715) (-31166.154) (-31159.758) [-31172.873] * (-31171.159) [-31161.815] (-31162.591) (-31170.618) -- 0:11:11
759000 -- (-31166.682) [-31169.489] (-31158.135) (-31168.299) * (-31165.559) [-31164.646] (-31158.106) (-31163.327) -- 0:11:09
759500 -- (-31171.321) (-31162.174) [-31161.258] (-31169.291) * (-31171.538) (-31162.061) (-31170.778) [-31167.320] -- 0:11:08
760000 -- [-31167.081] (-31172.191) (-31165.731) (-31162.304) * (-31162.978) (-31168.557) (-31174.385) [-31168.069] -- 0:11:06
Average standard deviation of split frequencies: 0.000089
760500 -- (-31167.821) (-31169.278) [-31162.832] (-31172.932) * (-31170.092) (-31169.079) (-31165.054) [-31169.143] -- 0:11:05
761000 -- (-31169.027) [-31166.075] (-31167.125) (-31169.304) * [-31177.815] (-31176.430) (-31171.675) (-31169.166) -- 0:11:04
761500 -- [-31165.497] (-31172.921) (-31171.059) (-31173.346) * [-31162.685] (-31172.550) (-31168.804) (-31170.361) -- 0:11:02
762000 -- (-31169.798) (-31180.401) [-31163.199] (-31171.801) * (-31178.079) [-31167.112] (-31180.392) (-31167.747) -- 0:11:01
762500 -- (-31164.831) (-31176.302) [-31169.500] (-31170.454) * (-31172.756) (-31167.872) [-31164.543] (-31166.464) -- 0:11:00
763000 -- [-31167.751] (-31165.914) (-31164.263) (-31172.647) * (-31172.384) (-31170.538) [-31165.744] (-31169.868) -- 0:10:58
763500 -- (-31164.885) (-31178.699) (-31166.414) [-31163.864] * [-31169.827] (-31168.943) (-31173.377) (-31173.056) -- 0:10:57
764000 -- (-31167.484) (-31169.232) [-31167.535] (-31163.945) * [-31169.649] (-31169.186) (-31171.459) (-31167.150) -- 0:10:55
764500 -- [-31165.302] (-31163.224) (-31166.935) (-31162.891) * (-31181.765) (-31169.327) (-31169.673) [-31165.955] -- 0:10:54
765000 -- (-31171.266) (-31164.749) [-31167.021] (-31158.561) * (-31168.078) (-31165.013) [-31170.450] (-31175.628) -- 0:10:53
Average standard deviation of split frequencies: 0.000088
765500 -- (-31179.480) [-31164.902] (-31166.094) (-31165.543) * (-31168.192) [-31169.540] (-31163.034) (-31175.494) -- 0:10:51
766000 -- (-31168.309) (-31163.584) [-31163.499] (-31170.368) * (-31173.654) [-31162.404] (-31160.959) (-31172.150) -- 0:10:50
766500 -- (-31170.383) [-31178.533] (-31179.518) (-31166.899) * (-31179.025) (-31162.543) (-31168.230) [-31168.536] -- 0:10:48
767000 -- (-31168.242) (-31165.469) (-31169.616) [-31166.083] * (-31181.088) (-31178.809) (-31165.438) [-31168.631] -- 0:10:47
767500 -- (-31165.264) (-31170.475) (-31173.074) [-31170.747] * (-31180.903) (-31166.170) (-31170.662) [-31160.584] -- 0:10:46
768000 -- (-31180.358) (-31163.740) (-31172.369) [-31169.401] * (-31172.229) (-31173.333) (-31171.218) [-31164.569] -- 0:10:44
768500 -- (-31169.013) [-31161.817] (-31174.586) (-31169.505) * (-31170.239) [-31159.621] (-31167.807) (-31169.550) -- 0:10:43
769000 -- (-31175.826) [-31168.504] (-31179.845) (-31171.320) * (-31171.416) [-31160.401] (-31173.865) (-31171.285) -- 0:10:41
769500 -- (-31169.980) (-31165.535) [-31167.026] (-31167.957) * [-31162.946] (-31175.235) (-31166.958) (-31169.071) -- 0:10:40
770000 -- [-31166.468] (-31170.551) (-31163.937) (-31169.749) * (-31165.386) (-31166.011) (-31167.091) [-31165.267] -- 0:10:39
Average standard deviation of split frequencies: 0.000087
770500 -- (-31161.932) (-31179.058) [-31165.738] (-31160.939) * [-31166.853] (-31166.317) (-31165.227) (-31168.973) -- 0:10:37
771000 -- [-31171.069] (-31173.604) (-31171.386) (-31168.628) * [-31163.721] (-31169.187) (-31163.459) (-31177.399) -- 0:10:36
771500 -- [-31169.388] (-31175.336) (-31162.230) (-31175.042) * (-31176.152) (-31167.656) [-31164.941] (-31168.710) -- 0:10:35
772000 -- (-31167.385) (-31175.103) [-31160.855] (-31171.888) * [-31165.894] (-31166.421) (-31173.184) (-31168.414) -- 0:10:33
772500 -- [-31174.425] (-31171.091) (-31162.268) (-31173.900) * (-31162.619) (-31170.114) [-31174.218] (-31165.056) -- 0:10:32
773000 -- (-31164.163) (-31165.744) [-31159.220] (-31181.375) * [-31164.453] (-31173.510) (-31171.081) (-31159.333) -- 0:10:30
773500 -- [-31164.137] (-31179.226) (-31163.302) (-31172.383) * [-31165.629] (-31169.029) (-31167.123) (-31165.227) -- 0:10:29
774000 -- (-31170.261) (-31166.864) [-31166.428] (-31163.683) * (-31162.354) (-31161.644) (-31167.399) [-31166.411] -- 0:10:28
774500 -- [-31165.401] (-31164.587) (-31171.680) (-31166.436) * (-31167.111) [-31162.291] (-31163.446) (-31174.636) -- 0:10:26
775000 -- [-31166.730] (-31169.946) (-31168.978) (-31162.507) * (-31163.013) (-31159.601) [-31163.268] (-31175.818) -- 0:10:25
Average standard deviation of split frequencies: 0.000087
775500 -- (-31168.250) (-31166.459) (-31172.228) [-31160.616] * (-31168.888) (-31168.092) (-31170.905) [-31163.867] -- 0:10:23
776000 -- (-31158.799) [-31159.959] (-31170.717) (-31157.588) * (-31166.014) [-31159.379] (-31172.022) (-31168.959) -- 0:10:22
776500 -- (-31171.844) (-31162.055) [-31161.072] (-31165.730) * (-31166.383) (-31167.176) (-31174.990) [-31167.921] -- 0:10:21
777000 -- (-31175.575) (-31161.634) (-31160.502) [-31170.343] * (-31173.524) [-31161.952] (-31172.089) (-31176.887) -- 0:10:19
777500 -- (-31173.518) (-31164.802) [-31172.767] (-31168.158) * (-31170.144) (-31166.948) [-31174.908] (-31172.975) -- 0:10:18
778000 -- (-31168.325) (-31164.933) [-31160.332] (-31167.107) * [-31161.650] (-31170.364) (-31172.055) (-31167.082) -- 0:10:16
778500 -- (-31170.005) (-31173.345) (-31165.472) [-31164.763] * (-31167.366) [-31166.726] (-31171.592) (-31181.836) -- 0:10:15
779000 -- (-31166.288) [-31170.242] (-31165.064) (-31164.126) * (-31169.244) (-31160.427) (-31162.953) [-31164.175] -- 0:10:13
779500 -- (-31173.659) (-31173.507) [-31167.698] (-31164.197) * (-31163.197) (-31170.708) [-31164.805] (-31174.557) -- 0:10:12
780000 -- (-31168.391) [-31168.472] (-31167.797) (-31172.960) * (-31166.571) (-31170.318) [-31159.185] (-31170.259) -- 0:10:11
Average standard deviation of split frequencies: 0.000086
780500 -- (-31172.716) [-31163.577] (-31162.073) (-31171.241) * (-31167.192) [-31170.673] (-31170.655) (-31166.988) -- 0:10:09
781000 -- (-31165.852) (-31161.943) (-31171.707) [-31172.186] * [-31164.778] (-31166.183) (-31169.539) (-31168.369) -- 0:10:08
781500 -- (-31175.747) [-31169.611] (-31171.341) (-31165.957) * (-31171.604) (-31170.354) (-31169.178) [-31163.378] -- 0:10:06
782000 -- (-31172.905) [-31159.393] (-31166.327) (-31167.271) * [-31164.057] (-31173.694) (-31170.517) (-31166.987) -- 0:10:05
782500 -- (-31167.811) (-31164.739) (-31167.537) [-31158.611] * (-31164.554) (-31167.457) [-31164.620] (-31177.688) -- 0:10:04
783000 -- [-31169.330] (-31163.233) (-31170.316) (-31166.703) * (-31167.428) (-31173.888) [-31163.709] (-31169.951) -- 0:10:02
783500 -- [-31165.628] (-31162.936) (-31169.403) (-31163.025) * [-31179.583] (-31168.074) (-31168.987) (-31164.516) -- 0:10:01
784000 -- (-31170.989) [-31175.214] (-31173.733) (-31169.913) * (-31173.518) [-31168.055] (-31173.604) (-31165.406) -- 0:10:00
784500 -- (-31164.333) [-31168.793] (-31170.235) (-31170.214) * (-31165.850) (-31160.600) [-31167.193] (-31171.665) -- 0:09:58
785000 -- [-31158.642] (-31165.603) (-31169.256) (-31171.671) * [-31165.095] (-31157.529) (-31175.100) (-31181.049) -- 0:09:57
Average standard deviation of split frequencies: 0.000086
785500 -- (-31159.540) (-31175.937) [-31166.753] (-31161.273) * (-31169.699) [-31158.076] (-31172.512) (-31173.181) -- 0:09:55
786000 -- (-31172.104) [-31174.067] (-31170.478) (-31166.671) * [-31167.598] (-31165.383) (-31172.835) (-31167.399) -- 0:09:54
786500 -- (-31163.794) [-31165.338] (-31174.877) (-31175.401) * [-31163.420] (-31171.418) (-31163.258) (-31161.041) -- 0:09:53
787000 -- (-31169.578) [-31166.730] (-31163.476) (-31160.397) * (-31160.766) (-31162.560) (-31167.370) [-31164.043] -- 0:09:51
787500 -- [-31165.666] (-31164.127) (-31165.368) (-31165.916) * (-31178.777) (-31165.579) [-31165.365] (-31169.253) -- 0:09:50
788000 -- (-31159.811) (-31167.021) [-31165.665] (-31172.625) * (-31172.358) (-31164.765) (-31170.463) [-31170.606] -- 0:09:48
788500 -- [-31170.197] (-31167.941) (-31164.501) (-31171.891) * (-31175.566) (-31175.482) (-31162.949) [-31168.484] -- 0:09:47
789000 -- (-31163.896) (-31169.005) [-31160.625] (-31170.304) * (-31165.149) [-31165.469] (-31166.440) (-31171.767) -- 0:09:46
789500 -- (-31174.626) [-31173.274] (-31165.569) (-31169.121) * [-31163.325] (-31158.118) (-31164.894) (-31175.985) -- 0:09:44
790000 -- (-31163.909) [-31167.819] (-31174.079) (-31169.255) * (-31169.989) [-31164.774] (-31169.354) (-31168.465) -- 0:09:43
Average standard deviation of split frequencies: 0.000085
790500 -- (-31165.722) (-31169.637) [-31174.114] (-31167.848) * (-31166.628) (-31163.367) (-31169.340) [-31166.139] -- 0:09:41
791000 -- (-31164.329) (-31181.519) (-31170.425) [-31161.781] * (-31173.506) (-31172.672) (-31164.973) [-31162.814] -- 0:09:40
791500 -- (-31162.167) (-31172.709) [-31162.294] (-31163.098) * [-31167.887] (-31169.944) (-31176.013) (-31162.973) -- 0:09:39
792000 -- (-31175.227) (-31171.108) (-31165.462) [-31164.804] * [-31159.956] (-31173.136) (-31162.784) (-31170.613) -- 0:09:37
792500 -- (-31168.954) (-31167.384) [-31161.939] (-31168.071) * (-31176.684) [-31162.585] (-31166.669) (-31176.310) -- 0:09:36
793000 -- (-31159.045) (-31157.849) (-31172.922) [-31162.291] * (-31181.646) [-31160.692] (-31165.424) (-31172.880) -- 0:09:35
793500 -- (-31166.278) (-31163.368) (-31164.219) [-31170.667] * (-31164.382) (-31164.186) (-31167.436) [-31166.728] -- 0:09:33
794000 -- (-31172.906) (-31164.345) [-31169.571] (-31162.443) * (-31166.891) (-31168.230) [-31165.183] (-31169.175) -- 0:09:32
794500 -- (-31166.087) (-31171.537) (-31172.195) [-31162.180] * (-31174.283) [-31164.936] (-31166.598) (-31172.773) -- 0:09:30
795000 -- (-31160.373) [-31171.355] (-31173.790) (-31162.935) * (-31163.903) (-31171.585) [-31170.287] (-31162.616) -- 0:09:29
Average standard deviation of split frequencies: 0.000085
795500 -- [-31161.632] (-31170.335) (-31164.162) (-31177.720) * (-31176.364) (-31177.471) [-31161.369] (-31170.131) -- 0:09:28
796000 -- [-31173.580] (-31167.159) (-31169.291) (-31165.216) * (-31166.261) [-31169.238] (-31172.459) (-31169.733) -- 0:09:26
796500 -- (-31171.672) (-31168.483) [-31173.702] (-31168.364) * (-31170.213) (-31159.569) (-31170.149) [-31165.584] -- 0:09:25
797000 -- (-31177.459) [-31171.290] (-31177.952) (-31176.691) * (-31166.361) [-31161.755] (-31170.602) (-31163.529) -- 0:09:23
797500 -- (-31164.880) (-31169.968) (-31164.808) [-31172.147] * [-31166.688] (-31166.587) (-31175.739) (-31158.602) -- 0:09:22
798000 -- [-31165.625] (-31169.398) (-31166.094) (-31184.429) * (-31163.559) (-31169.101) (-31178.970) [-31170.984] -- 0:09:21
798500 -- (-31166.587) (-31174.027) [-31169.290] (-31171.855) * (-31171.084) [-31171.421] (-31168.442) (-31171.962) -- 0:09:19
799000 -- [-31170.380] (-31167.969) (-31166.913) (-31180.364) * [-31165.690] (-31168.512) (-31171.593) (-31168.167) -- 0:09:18
799500 -- (-31164.806) [-31172.718] (-31162.552) (-31176.037) * (-31169.235) [-31174.812] (-31164.968) (-31172.184) -- 0:09:16
800000 -- (-31167.992) (-31165.733) (-31170.598) [-31162.066] * (-31169.968) [-31161.620] (-31176.497) (-31169.458) -- 0:09:15
Average standard deviation of split frequencies: 0.000084
800500 -- (-31169.034) [-31167.041] (-31166.943) (-31162.005) * (-31172.323) (-31166.109) (-31180.170) [-31161.858] -- 0:09:14
801000 -- [-31170.801] (-31162.263) (-31168.407) (-31167.946) * (-31169.740) (-31168.820) (-31170.543) [-31164.671] -- 0:09:12
801500 -- [-31168.902] (-31162.317) (-31172.546) (-31166.587) * (-31163.357) (-31174.607) (-31171.931) [-31163.728] -- 0:09:11
802000 -- (-31176.666) [-31168.950] (-31173.616) (-31166.454) * (-31162.063) (-31164.252) [-31168.428] (-31163.438) -- 0:09:10
802500 -- (-31163.930) (-31167.265) (-31166.058) [-31164.497] * (-31162.190) (-31170.973) (-31174.828) [-31170.573] -- 0:09:08
803000 -- (-31160.655) (-31170.419) (-31166.322) [-31167.661] * (-31160.906) [-31171.469] (-31164.354) (-31177.699) -- 0:09:07
803500 -- [-31165.657] (-31176.790) (-31167.741) (-31170.540) * [-31167.198] (-31166.681) (-31165.402) (-31176.163) -- 0:09:05
804000 -- [-31169.870] (-31177.409) (-31168.516) (-31172.214) * (-31172.797) (-31168.728) [-31167.581] (-31176.475) -- 0:09:04
804500 -- [-31162.079] (-31171.010) (-31171.915) (-31169.004) * [-31176.334] (-31171.167) (-31167.897) (-31185.624) -- 0:09:03
805000 -- (-31169.378) (-31173.251) (-31167.043) [-31167.144] * (-31162.218) [-31166.953] (-31175.745) (-31174.780) -- 0:09:01
Average standard deviation of split frequencies: 0.000084
805500 -- (-31176.622) (-31177.334) [-31169.200] (-31173.993) * (-31164.319) (-31165.238) [-31159.022] (-31171.126) -- 0:09:00
806000 -- [-31158.752] (-31174.194) (-31164.446) (-31169.959) * (-31188.659) (-31162.030) [-31160.355] (-31173.583) -- 0:08:58
806500 -- (-31165.136) (-31165.763) [-31166.601] (-31170.837) * [-31163.177] (-31161.416) (-31173.714) (-31166.367) -- 0:08:57
807000 -- (-31162.151) (-31170.054) [-31171.726] (-31168.385) * (-31166.145) (-31169.974) [-31172.316] (-31165.581) -- 0:08:56
807500 -- (-31169.723) (-31158.142) [-31176.277] (-31165.676) * (-31171.233) (-31159.849) [-31169.282] (-31170.114) -- 0:08:54
808000 -- (-31170.761) (-31167.915) [-31168.851] (-31171.334) * [-31166.995] (-31176.629) (-31163.942) (-31174.901) -- 0:08:53
808500 -- [-31165.985] (-31166.846) (-31162.720) (-31173.875) * (-31168.278) (-31175.143) (-31163.787) [-31165.534] -- 0:08:51
809000 -- [-31158.842] (-31169.290) (-31164.498) (-31173.165) * (-31163.911) (-31166.814) (-31169.748) [-31162.212] -- 0:08:50
809500 -- (-31167.042) (-31168.670) (-31178.951) [-31175.353] * (-31171.386) (-31179.958) [-31168.902] (-31170.015) -- 0:08:49
810000 -- [-31163.648] (-31170.523) (-31177.280) (-31167.563) * (-31174.516) [-31174.463] (-31168.390) (-31170.283) -- 0:08:47
Average standard deviation of split frequencies: 0.000083
810500 -- (-31164.709) [-31167.462] (-31177.108) (-31155.640) * (-31167.043) (-31164.446) (-31169.892) [-31162.723] -- 0:08:46
811000 -- [-31167.115] (-31174.987) (-31163.874) (-31163.850) * [-31165.969] (-31168.441) (-31164.404) (-31163.355) -- 0:08:45
811500 -- [-31173.364] (-31170.835) (-31167.645) (-31169.328) * (-31169.923) (-31174.341) [-31169.523] (-31180.832) -- 0:08:43
812000 -- [-31169.112] (-31169.721) (-31167.093) (-31160.040) * (-31181.192) (-31173.179) [-31168.864] (-31165.018) -- 0:08:42
812500 -- (-31167.535) (-31178.111) (-31161.142) [-31162.566] * [-31180.110] (-31165.927) (-31164.257) (-31161.231) -- 0:08:41
813000 -- (-31176.443) (-31184.302) [-31164.134] (-31162.691) * (-31166.660) (-31179.658) (-31164.140) [-31164.580] -- 0:08:39
813500 -- [-31170.321] (-31178.507) (-31161.558) (-31160.923) * (-31165.961) [-31165.563] (-31176.109) (-31162.530) -- 0:08:38
814000 -- (-31164.082) (-31173.059) (-31168.035) [-31165.353] * (-31166.333) (-31163.158) [-31170.176] (-31168.623) -- 0:08:36
814500 -- (-31164.194) (-31173.509) (-31177.613) [-31168.638] * [-31168.052] (-31170.219) (-31159.785) (-31171.631) -- 0:08:35
815000 -- (-31167.117) (-31166.432) (-31167.496) [-31162.022] * (-31171.066) (-31166.904) [-31162.756] (-31170.071) -- 0:08:33
Average standard deviation of split frequencies: 0.000083
815500 -- (-31166.200) (-31159.775) [-31171.069] (-31161.705) * (-31160.047) (-31170.602) (-31180.442) [-31172.552] -- 0:08:32
816000 -- (-31162.053) (-31165.497) [-31168.111] (-31162.609) * (-31160.563) (-31169.351) (-31178.144) [-31159.777] -- 0:08:31
816500 -- [-31163.481] (-31169.636) (-31174.977) (-31158.442) * (-31169.069) [-31167.261] (-31166.056) (-31166.695) -- 0:08:29
817000 -- (-31174.261) (-31163.260) (-31165.547) [-31158.212] * (-31172.093) [-31163.589] (-31166.422) (-31167.719) -- 0:08:28
817500 -- (-31179.411) (-31162.393) (-31165.879) [-31172.835] * (-31164.762) (-31166.223) (-31163.773) [-31160.561] -- 0:08:26
818000 -- (-31167.269) [-31163.875] (-31168.949) (-31162.530) * (-31164.777) (-31168.387) (-31175.090) [-31165.960] -- 0:08:25
818500 -- (-31168.209) [-31166.162] (-31171.146) (-31164.467) * (-31164.656) (-31173.165) [-31166.613] (-31181.391) -- 0:08:24
819000 -- (-31171.507) (-31168.198) (-31163.812) [-31169.433] * (-31172.448) (-31159.417) (-31161.989) [-31173.467] -- 0:08:22
819500 -- (-31167.351) (-31165.845) (-31169.476) [-31172.955] * [-31162.488] (-31158.570) (-31168.104) (-31163.960) -- 0:08:21
820000 -- (-31170.923) [-31169.040] (-31163.093) (-31169.171) * [-31166.153] (-31167.993) (-31163.498) (-31168.951) -- 0:08:20
Average standard deviation of split frequencies: 0.000082
820500 -- [-31171.148] (-31174.517) (-31164.590) (-31180.198) * [-31161.770] (-31175.886) (-31181.228) (-31169.392) -- 0:08:18
821000 -- [-31161.742] (-31170.842) (-31167.895) (-31172.981) * [-31169.936] (-31173.022) (-31173.390) (-31169.370) -- 0:08:17
821500 -- (-31162.681) (-31170.695) (-31175.669) [-31159.401] * (-31163.978) (-31174.520) [-31172.522] (-31166.414) -- 0:08:15
822000 -- (-31166.618) (-31168.255) [-31169.668] (-31174.234) * (-31167.925) (-31170.324) [-31169.546] (-31173.283) -- 0:08:14
822500 -- (-31171.900) (-31165.491) (-31166.855) [-31169.592] * (-31173.675) (-31175.598) [-31168.869] (-31170.766) -- 0:08:13
823000 -- (-31176.556) (-31166.897) [-31169.376] (-31164.369) * (-31161.546) (-31167.172) (-31172.163) [-31161.260] -- 0:08:11
823500 -- (-31167.292) (-31162.057) [-31167.961] (-31166.159) * [-31163.953] (-31168.899) (-31159.130) (-31166.900) -- 0:08:10
824000 -- [-31159.967] (-31163.336) (-31176.563) (-31169.913) * (-31173.048) (-31159.665) [-31169.928] (-31171.260) -- 0:08:08
824500 -- [-31164.918] (-31166.338) (-31170.707) (-31164.382) * (-31177.402) [-31163.540] (-31174.543) (-31176.371) -- 0:08:07
825000 -- [-31166.698] (-31164.670) (-31169.309) (-31170.554) * (-31172.019) (-31172.307) [-31160.083] (-31162.479) -- 0:08:06
Average standard deviation of split frequencies: 0.000082
825500 -- (-31170.972) [-31167.636] (-31161.399) (-31168.509) * (-31166.808) (-31169.153) (-31163.841) [-31174.274] -- 0:08:04
826000 -- (-31168.509) (-31165.634) (-31162.440) [-31166.597] * [-31164.898] (-31163.451) (-31163.420) (-31169.074) -- 0:08:03
826500 -- (-31161.581) (-31166.211) (-31163.477) [-31161.304] * (-31173.151) (-31167.509) (-31169.086) [-31167.252] -- 0:08:01
827000 -- [-31164.471] (-31173.817) (-31168.104) (-31166.744) * (-31167.909) (-31179.990) [-31165.872] (-31166.723) -- 0:08:00
827500 -- [-31159.322] (-31175.472) (-31181.884) (-31166.672) * (-31172.517) (-31175.808) (-31165.939) [-31165.171] -- 0:07:59
828000 -- (-31169.166) (-31170.564) (-31170.333) [-31164.358] * (-31168.329) (-31175.239) [-31163.118] (-31178.421) -- 0:07:57
828500 -- (-31166.575) (-31170.189) (-31180.025) [-31169.758] * (-31162.997) (-31171.014) (-31162.418) [-31174.764] -- 0:07:56
829000 -- [-31171.762] (-31180.076) (-31169.662) (-31164.268) * (-31165.722) [-31169.016] (-31169.263) (-31170.888) -- 0:07:55
829500 -- (-31167.351) (-31187.432) [-31168.378] (-31170.936) * [-31166.647] (-31168.496) (-31169.995) (-31168.521) -- 0:07:53
830000 -- (-31173.433) (-31176.064) [-31171.466] (-31163.737) * (-31164.473) (-31162.878) [-31162.229] (-31166.566) -- 0:07:52
Average standard deviation of split frequencies: 0.000081
830500 -- (-31163.414) (-31173.701) [-31167.496] (-31165.638) * (-31169.742) [-31164.172] (-31176.825) (-31170.194) -- 0:07:50
831000 -- (-31171.222) (-31180.221) [-31171.804] (-31163.510) * (-31163.786) (-31166.365) [-31165.326] (-31166.564) -- 0:07:49
831500 -- [-31166.949] (-31173.711) (-31173.738) (-31170.788) * (-31173.586) (-31167.849) [-31171.559] (-31174.375) -- 0:07:47
832000 -- [-31161.610] (-31166.666) (-31180.640) (-31169.334) * (-31166.806) [-31163.680] (-31164.046) (-31174.699) -- 0:07:46
832500 -- [-31162.089] (-31174.751) (-31173.463) (-31165.119) * (-31171.863) [-31168.554] (-31160.624) (-31177.833) -- 0:07:45
833000 -- (-31168.041) (-31167.319) [-31181.871] (-31169.777) * (-31167.082) (-31176.033) (-31172.222) [-31164.191] -- 0:07:43
833500 -- (-31174.980) (-31168.961) [-31168.010] (-31164.110) * (-31170.089) (-31174.032) (-31164.979) [-31163.176] -- 0:07:42
834000 -- (-31170.390) (-31172.999) (-31169.205) [-31167.773] * (-31165.612) (-31173.546) [-31169.323] (-31159.674) -- 0:07:40
834500 -- [-31175.288] (-31184.468) (-31172.364) (-31173.460) * (-31176.877) (-31165.660) (-31175.134) [-31166.880] -- 0:07:39
835000 -- [-31176.183] (-31172.161) (-31171.494) (-31172.167) * (-31166.066) (-31169.579) (-31163.999) [-31168.027] -- 0:07:38
Average standard deviation of split frequencies: 0.000081
835500 -- (-31174.020) [-31175.647] (-31161.810) (-31167.297) * (-31163.068) (-31168.471) [-31169.857] (-31168.865) -- 0:07:36
836000 -- [-31170.538] (-31175.526) (-31168.950) (-31164.400) * (-31170.375) (-31166.931) (-31173.999) [-31179.212] -- 0:07:35
836500 -- (-31161.957) [-31174.091] (-31169.627) (-31173.740) * (-31162.933) (-31165.609) (-31169.292) [-31170.388] -- 0:07:34
837000 -- [-31166.221] (-31180.565) (-31185.617) (-31169.566) * [-31174.825] (-31163.508) (-31164.040) (-31172.642) -- 0:07:32
837500 -- (-31168.236) [-31169.746] (-31178.747) (-31164.886) * (-31163.905) (-31168.619) (-31169.877) [-31162.266] -- 0:07:31
838000 -- [-31170.003] (-31174.168) (-31163.617) (-31156.387) * (-31165.575) (-31171.976) [-31166.982] (-31168.498) -- 0:07:29
838500 -- [-31164.147] (-31165.206) (-31183.345) (-31173.420) * (-31164.563) (-31172.102) (-31169.604) [-31166.683] -- 0:07:28
839000 -- [-31159.740] (-31170.498) (-31172.955) (-31169.262) * (-31168.111) (-31169.385) (-31167.859) [-31160.196] -- 0:07:27
839500 -- (-31167.122) (-31173.997) (-31166.611) [-31169.684] * [-31163.661] (-31171.773) (-31170.983) (-31162.246) -- 0:07:25
840000 -- (-31168.740) (-31168.658) [-31170.337] (-31163.718) * (-31162.619) [-31171.509] (-31168.731) (-31165.053) -- 0:07:24
Average standard deviation of split frequencies: 0.000080
840500 -- (-31183.889) (-31172.310) (-31167.701) [-31164.107] * (-31172.057) [-31172.410] (-31169.760) (-31171.944) -- 0:07:22
841000 -- (-31167.988) [-31169.110] (-31161.005) (-31162.282) * (-31169.307) (-31175.910) [-31161.663] (-31163.686) -- 0:07:21
841500 -- (-31170.590) (-31168.611) [-31173.449] (-31164.571) * (-31163.801) (-31182.691) (-31177.960) [-31167.588] -- 0:07:20
842000 -- (-31167.114) (-31164.102) (-31167.005) [-31163.355] * [-31170.875] (-31168.537) (-31177.558) (-31178.076) -- 0:07:18
842500 -- (-31172.904) (-31171.298) (-31169.806) [-31169.631] * [-31166.387] (-31177.448) (-31173.259) (-31180.931) -- 0:07:17
843000 -- (-31165.222) [-31168.679] (-31159.943) (-31163.721) * (-31164.938) [-31175.555] (-31172.277) (-31168.003) -- 0:07:15
843500 -- (-31170.254) (-31173.117) (-31162.928) [-31167.390] * (-31161.656) [-31172.728] (-31174.497) (-31167.354) -- 0:07:14
844000 -- [-31168.261] (-31169.010) (-31169.739) (-31163.013) * [-31168.765] (-31164.796) (-31168.527) (-31167.499) -- 0:07:13
844500 -- (-31174.388) [-31173.361] (-31164.778) (-31161.870) * [-31178.109] (-31166.638) (-31172.575) (-31161.870) -- 0:07:11
845000 -- [-31175.850] (-31168.354) (-31171.595) (-31163.964) * [-31163.069] (-31165.592) (-31172.219) (-31159.697) -- 0:07:10
Average standard deviation of split frequencies: 0.000080
845500 -- (-31167.097) (-31183.542) [-31164.970] (-31167.956) * (-31174.455) (-31176.293) (-31172.382) [-31164.409] -- 0:07:08
846000 -- [-31173.157] (-31175.030) (-31166.709) (-31165.714) * (-31167.910) (-31165.989) (-31168.163) [-31167.341] -- 0:07:07
846500 -- (-31176.876) [-31165.700] (-31181.578) (-31170.567) * (-31164.656) (-31170.281) [-31166.181] (-31164.877) -- 0:07:06
847000 -- (-31162.563) [-31168.662] (-31167.358) (-31168.724) * (-31167.976) (-31176.145) (-31178.172) [-31165.412] -- 0:07:04
847500 -- [-31166.529] (-31165.523) (-31173.190) (-31171.217) * (-31170.223) (-31179.328) [-31166.988] (-31160.004) -- 0:07:03
848000 -- (-31168.934) [-31167.891] (-31181.185) (-31170.329) * (-31166.109) (-31164.687) [-31162.091] (-31171.553) -- 0:07:01
848500 -- (-31170.539) (-31164.887) (-31173.944) [-31172.626] * (-31171.551) (-31174.882) [-31163.453] (-31164.541) -- 0:07:00
849000 -- [-31164.175] (-31165.346) (-31171.238) (-31169.257) * (-31166.377) (-31169.493) (-31176.188) [-31160.834] -- 0:06:59
849500 -- [-31167.532] (-31170.970) (-31169.416) (-31161.875) * (-31176.670) (-31166.719) [-31160.023] (-31168.252) -- 0:06:57
850000 -- (-31172.313) (-31172.052) (-31171.492) [-31161.309] * (-31166.261) (-31169.352) [-31168.598] (-31166.377) -- 0:06:56
Average standard deviation of split frequencies: 0.000079
850500 -- (-31179.079) (-31170.323) [-31168.144] (-31174.298) * [-31168.439] (-31166.991) (-31165.877) (-31160.855) -- 0:06:55
851000 -- (-31168.655) (-31167.233) (-31160.737) [-31165.031] * (-31163.468) (-31177.639) (-31162.742) [-31169.469] -- 0:06:53
851500 -- (-31164.250) [-31159.911] (-31168.131) (-31164.587) * (-31171.011) (-31162.364) [-31170.022] (-31160.759) -- 0:06:52
852000 -- (-31167.294) [-31166.948] (-31163.667) (-31168.077) * (-31166.896) [-31171.250] (-31165.845) (-31173.341) -- 0:06:50
852500 -- (-31162.232) (-31172.646) [-31160.779] (-31177.142) * (-31181.223) (-31175.900) [-31167.307] (-31162.301) -- 0:06:49
853000 -- [-31166.176] (-31165.687) (-31155.287) (-31180.903) * (-31160.859) (-31162.288) (-31162.482) [-31170.896] -- 0:06:48
853500 -- (-31171.003) (-31170.651) [-31158.783] (-31180.455) * [-31164.138] (-31176.566) (-31173.841) (-31164.198) -- 0:06:46
854000 -- [-31169.418] (-31174.638) (-31165.264) (-31171.701) * (-31165.819) (-31172.272) (-31167.666) [-31167.296] -- 0:06:45
854500 -- (-31168.146) (-31174.932) [-31159.143] (-31159.231) * (-31166.057) (-31166.909) [-31174.366] (-31164.050) -- 0:06:43
855000 -- [-31163.411] (-31161.948) (-31173.349) (-31168.721) * (-31170.559) [-31169.433] (-31173.605) (-31169.603) -- 0:06:42
Average standard deviation of split frequencies: 0.000079
855500 -- (-31163.163) (-31163.264) [-31166.818] (-31172.288) * (-31164.307) [-31169.438] (-31178.934) (-31171.959) -- 0:06:41
856000 -- (-31166.305) (-31163.220) [-31185.476] (-31164.843) * [-31168.542] (-31162.869) (-31165.109) (-31172.239) -- 0:06:39
856500 -- (-31163.043) (-31162.764) (-31171.374) [-31166.764] * (-31160.542) [-31163.226] (-31165.277) (-31168.323) -- 0:06:38
857000 -- (-31174.863) (-31167.015) [-31165.410] (-31171.829) * (-31167.322) (-31173.850) [-31162.523] (-31183.791) -- 0:06:36
857500 -- (-31168.073) [-31166.094] (-31165.132) (-31171.886) * (-31168.059) (-31165.796) (-31170.197) [-31169.182] -- 0:06:35
858000 -- (-31172.343) (-31174.860) [-31163.514] (-31168.706) * (-31167.891) (-31175.033) (-31169.367) [-31168.868] -- 0:06:34
858500 -- (-31170.763) (-31156.452) [-31159.589] (-31170.549) * (-31161.091) (-31164.581) [-31161.644] (-31169.215) -- 0:06:32
859000 -- (-31168.584) (-31169.653) [-31170.423] (-31163.072) * (-31166.772) (-31162.049) [-31164.442] (-31172.354) -- 0:06:31
859500 -- (-31173.884) (-31174.618) (-31164.639) [-31166.585] * [-31167.988] (-31170.604) (-31160.733) (-31161.480) -- 0:06:30
860000 -- [-31175.339] (-31169.680) (-31167.135) (-31167.421) * [-31164.502] (-31163.856) (-31169.888) (-31175.272) -- 0:06:28
Average standard deviation of split frequencies: 0.000078
860500 -- (-31170.868) (-31156.425) (-31167.614) [-31165.785] * (-31170.338) [-31175.977] (-31167.966) (-31168.966) -- 0:06:27
861000 -- [-31169.573] (-31158.355) (-31171.005) (-31172.158) * [-31163.646] (-31166.298) (-31175.291) (-31174.952) -- 0:06:25
861500 -- (-31168.292) (-31166.194) (-31174.112) [-31169.353] * [-31163.981] (-31166.399) (-31173.514) (-31169.287) -- 0:06:24
862000 -- (-31167.392) (-31166.285) (-31169.193) [-31169.636] * (-31163.220) (-31167.146) [-31168.517] (-31166.853) -- 0:06:23
862500 -- (-31170.311) [-31166.837] (-31167.747) (-31168.771) * (-31163.232) (-31166.629) [-31171.917] (-31167.484) -- 0:06:21
863000 -- [-31165.504] (-31178.120) (-31165.745) (-31179.757) * [-31168.873] (-31168.320) (-31170.568) (-31165.503) -- 0:06:20
863500 -- (-31179.818) [-31174.127] (-31171.751) (-31168.054) * (-31174.430) (-31163.252) [-31177.045] (-31173.057) -- 0:06:18
864000 -- (-31173.166) [-31161.560] (-31183.280) (-31168.157) * (-31166.420) [-31170.289] (-31179.571) (-31169.147) -- 0:06:17
864500 -- [-31164.563] (-31172.550) (-31184.973) (-31168.553) * [-31160.461] (-31162.825) (-31167.101) (-31163.187) -- 0:06:16
865000 -- (-31173.220) (-31166.515) [-31174.995] (-31182.131) * (-31167.090) (-31168.190) [-31170.522] (-31172.563) -- 0:06:14
Average standard deviation of split frequencies: 0.000078
865500 -- (-31175.970) [-31161.466] (-31175.477) (-31174.462) * (-31164.735) (-31177.682) (-31172.531) [-31175.244] -- 0:06:13
866000 -- (-31164.145) (-31168.111) [-31166.631] (-31167.011) * (-31169.502) (-31164.773) (-31171.836) [-31171.750] -- 0:06:11
866500 -- (-31169.510) (-31172.293) [-31171.401] (-31163.526) * [-31177.108] (-31168.632) (-31178.416) (-31169.829) -- 0:06:10
867000 -- (-31169.714) [-31171.108] (-31159.896) (-31177.616) * (-31176.455) (-31170.195) (-31174.704) [-31169.345] -- 0:06:09
867500 -- (-31164.920) [-31170.358] (-31172.953) (-31165.412) * (-31165.369) (-31171.269) [-31169.741] (-31171.410) -- 0:06:07
868000 -- (-31166.361) (-31161.835) (-31167.988) [-31168.265] * (-31166.852) (-31171.353) (-31174.438) [-31160.960] -- 0:06:06
868500 -- (-31167.592) [-31167.743] (-31171.162) (-31177.524) * (-31162.854) (-31163.810) [-31164.854] (-31160.464) -- 0:06:05
869000 -- (-31173.904) (-31170.084) (-31179.472) [-31164.171] * (-31173.686) [-31170.990] (-31163.712) (-31174.438) -- 0:06:03
869500 -- (-31164.052) (-31166.002) [-31174.131] (-31164.531) * (-31166.647) [-31163.495] (-31174.173) (-31176.098) -- 0:06:02
870000 -- (-31170.884) [-31167.505] (-31173.524) (-31164.960) * (-31165.086) (-31169.875) [-31172.936] (-31167.509) -- 0:06:00
Average standard deviation of split frequencies: 0.000077
870500 -- (-31185.478) (-31172.664) [-31169.691] (-31167.255) * (-31176.682) [-31161.920] (-31160.881) (-31175.032) -- 0:05:59
871000 -- (-31174.121) (-31165.448) [-31163.363] (-31171.343) * (-31166.762) [-31164.702] (-31160.634) (-31162.727) -- 0:05:58
871500 -- (-31170.003) (-31170.716) [-31163.701] (-31159.571) * (-31172.086) [-31167.026] (-31164.208) (-31166.396) -- 0:05:56
872000 -- (-31174.447) [-31166.384] (-31168.334) (-31159.862) * (-31163.686) (-31167.636) (-31166.612) [-31175.764] -- 0:05:55
872500 -- (-31178.308) (-31169.864) (-31173.045) [-31164.650] * [-31168.327] (-31165.606) (-31165.949) (-31170.927) -- 0:05:53
873000 -- (-31168.523) (-31167.268) (-31174.352) [-31174.640] * (-31170.358) [-31168.531] (-31164.490) (-31172.310) -- 0:05:52
873500 -- (-31166.165) [-31167.773] (-31171.820) (-31169.742) * (-31176.869) (-31180.269) [-31162.935] (-31171.364) -- 0:05:51
874000 -- (-31173.053) (-31164.121) (-31176.389) [-31164.384] * [-31167.307] (-31164.151) (-31167.976) (-31164.261) -- 0:05:49
874500 -- [-31159.066] (-31176.205) (-31169.610) (-31169.491) * [-31166.024] (-31166.508) (-31173.121) (-31171.671) -- 0:05:48
875000 -- (-31173.550) [-31160.963] (-31165.191) (-31171.683) * [-31172.430] (-31166.797) (-31165.415) (-31168.829) -- 0:05:47
Average standard deviation of split frequencies: 0.000077
875500 -- (-31172.959) (-31161.292) (-31163.113) [-31171.102] * (-31165.492) [-31161.303] (-31166.967) (-31164.665) -- 0:05:45
876000 -- [-31166.476] (-31163.501) (-31162.328) (-31171.728) * [-31172.587] (-31162.881) (-31173.615) (-31159.420) -- 0:05:44
876500 -- (-31164.034) (-31161.250) [-31168.466] (-31174.901) * (-31166.081) (-31182.311) (-31178.379) [-31168.561] -- 0:05:42
877000 -- (-31160.796) (-31163.148) (-31168.983) [-31164.390] * (-31163.471) (-31166.063) [-31169.239] (-31167.130) -- 0:05:41
877500 -- (-31167.207) (-31170.476) [-31169.128] (-31167.006) * (-31173.364) (-31168.430) [-31165.935] (-31164.364) -- 0:05:39
878000 -- [-31166.030] (-31174.996) (-31169.233) (-31173.447) * [-31167.414] (-31169.342) (-31169.119) (-31167.769) -- 0:05:38
878500 -- (-31170.279) (-31170.307) [-31160.386] (-31174.773) * [-31179.926] (-31170.684) (-31169.060) (-31169.558) -- 0:05:37
879000 -- [-31159.022] (-31164.374) (-31164.369) (-31176.482) * (-31170.018) [-31163.186] (-31166.874) (-31167.910) -- 0:05:35
879500 -- [-31160.042] (-31166.981) (-31160.673) (-31185.546) * (-31165.692) (-31169.299) (-31176.826) [-31177.959] -- 0:05:34
880000 -- (-31163.095) [-31172.997] (-31165.224) (-31180.653) * (-31165.972) [-31166.908] (-31160.215) (-31169.601) -- 0:05:33
Average standard deviation of split frequencies: 0.000076
880500 -- (-31169.416) (-31162.895) [-31156.533] (-31174.704) * (-31166.465) (-31164.414) [-31163.221] (-31162.711) -- 0:05:31
881000 -- [-31176.305] (-31163.783) (-31161.959) (-31166.191) * [-31167.560] (-31168.642) (-31162.249) (-31163.008) -- 0:05:30
881500 -- [-31168.575] (-31165.641) (-31161.032) (-31170.727) * (-31167.742) (-31171.303) [-31162.284] (-31179.299) -- 0:05:28
882000 -- (-31173.549) [-31160.627] (-31174.200) (-31170.809) * (-31172.200) (-31168.834) [-31162.724] (-31181.939) -- 0:05:27
882500 -- (-31165.916) (-31173.231) (-31167.094) [-31163.926] * (-31170.978) [-31168.558] (-31170.590) (-31161.013) -- 0:05:26
883000 -- (-31170.697) (-31166.132) [-31171.497] (-31168.582) * (-31173.004) (-31165.272) [-31165.087] (-31173.894) -- 0:05:24
883500 -- (-31165.584) (-31163.959) [-31160.982] (-31179.646) * (-31173.249) (-31174.482) (-31167.397) [-31165.530] -- 0:05:23
884000 -- [-31162.992] (-31166.363) (-31171.219) (-31173.058) * (-31167.193) [-31170.192] (-31170.009) (-31166.612) -- 0:05:21
884500 -- (-31172.527) (-31164.668) (-31171.783) [-31181.487] * (-31167.597) (-31170.032) [-31167.686] (-31176.654) -- 0:05:20
885000 -- [-31169.369] (-31171.039) (-31176.312) (-31165.379) * (-31161.161) [-31163.076] (-31164.858) (-31163.073) -- 0:05:19
Average standard deviation of split frequencies: 0.000076
885500 -- (-31167.324) (-31172.096) [-31166.359] (-31161.156) * [-31170.878] (-31165.504) (-31173.983) (-31163.291) -- 0:05:17
886000 -- (-31178.206) (-31174.223) (-31167.114) [-31157.529] * (-31167.866) (-31179.171) [-31168.581] (-31175.630) -- 0:05:16
886500 -- (-31166.510) (-31169.514) [-31170.694] (-31161.522) * (-31163.818) (-31166.618) (-31164.163) [-31164.196] -- 0:05:14
887000 -- (-31164.188) (-31169.983) (-31167.161) [-31166.619] * (-31171.199) (-31165.996) (-31168.585) [-31167.635] -- 0:05:13
887500 -- (-31162.939) [-31156.899] (-31163.700) (-31164.289) * (-31181.064) (-31172.242) (-31169.570) [-31168.074] -- 0:05:12
888000 -- (-31164.372) (-31161.936) [-31167.455] (-31163.870) * (-31175.095) [-31163.226] (-31166.180) (-31173.929) -- 0:05:10
888500 -- [-31160.802] (-31168.692) (-31167.207) (-31167.942) * (-31170.887) (-31170.608) [-31166.872] (-31169.316) -- 0:05:09
889000 -- (-31166.461) [-31171.402] (-31170.980) (-31159.947) * (-31164.809) (-31166.871) [-31172.837] (-31171.649) -- 0:05:08
889500 -- (-31168.910) (-31167.024) [-31167.230] (-31161.316) * [-31164.336] (-31174.737) (-31169.421) (-31169.986) -- 0:05:06
890000 -- (-31174.760) (-31164.930) (-31169.519) [-31166.456] * (-31163.847) (-31168.269) [-31162.132] (-31169.691) -- 0:05:05
Average standard deviation of split frequencies: 0.000076
890500 -- [-31171.238] (-31167.975) (-31167.915) (-31172.760) * (-31168.358) [-31171.382] (-31172.473) (-31170.737) -- 0:05:03
891000 -- (-31172.416) (-31176.673) (-31167.638) [-31171.852] * (-31166.834) [-31160.949] (-31164.364) (-31180.777) -- 0:05:02
891500 -- (-31168.369) (-31173.422) (-31168.119) [-31164.478] * (-31166.690) (-31162.767) [-31164.091] (-31168.233) -- 0:05:01
892000 -- (-31176.040) [-31174.756] (-31168.571) (-31169.903) * [-31160.884] (-31164.221) (-31160.594) (-31165.490) -- 0:04:59
892500 -- [-31165.162] (-31171.221) (-31166.489) (-31165.743) * (-31169.657) (-31167.489) (-31160.128) [-31168.789] -- 0:04:58
893000 -- [-31169.164] (-31165.869) (-31164.810) (-31176.019) * (-31166.496) [-31170.886] (-31173.255) (-31166.251) -- 0:04:57
893500 -- [-31167.318] (-31175.419) (-31170.613) (-31172.619) * (-31163.219) (-31170.120) (-31163.639) [-31161.310] -- 0:04:55
894000 -- (-31172.624) (-31165.804) (-31166.994) [-31173.065] * (-31169.942) (-31171.686) (-31166.586) [-31165.253] -- 0:04:54
894500 -- (-31173.692) (-31169.773) [-31164.978] (-31171.905) * (-31169.465) (-31165.166) [-31165.561] (-31163.753) -- 0:04:52
895000 -- (-31171.201) (-31160.653) [-31164.692] (-31166.688) * (-31169.380) (-31170.109) (-31180.647) [-31168.660] -- 0:04:51
Average standard deviation of split frequencies: 0.000075
895500 -- (-31169.160) [-31168.703] (-31168.227) (-31159.567) * (-31163.220) (-31166.317) (-31168.448) [-31167.831] -- 0:04:50
896000 -- [-31166.148] (-31175.550) (-31165.388) (-31167.291) * [-31172.233] (-31158.941) (-31167.724) (-31173.528) -- 0:04:48
896500 -- (-31168.684) (-31174.875) (-31163.370) [-31163.026] * (-31163.068) [-31168.703] (-31174.953) (-31173.509) -- 0:04:47
897000 -- [-31171.229] (-31166.403) (-31172.428) (-31162.542) * (-31165.705) [-31169.365] (-31175.905) (-31168.684) -- 0:04:45
897500 -- (-31168.295) (-31170.278) [-31166.829] (-31167.976) * (-31170.160) (-31161.746) [-31162.625] (-31164.750) -- 0:04:44
898000 -- [-31168.151] (-31175.231) (-31168.250) (-31162.831) * (-31168.236) (-31164.777) [-31170.673] (-31166.885) -- 0:04:43
898500 -- [-31168.580] (-31169.570) (-31165.135) (-31167.309) * [-31170.018] (-31177.195) (-31163.987) (-31169.269) -- 0:04:41
899000 -- (-31169.335) [-31166.963] (-31173.552) (-31167.489) * (-31166.328) (-31179.279) (-31164.919) [-31174.793] -- 0:04:40
899500 -- (-31188.095) (-31163.856) [-31170.193] (-31172.218) * [-31164.976] (-31171.374) (-31161.412) (-31173.312) -- 0:04:39
900000 -- (-31165.106) (-31169.187) [-31165.553] (-31164.919) * (-31173.584) [-31167.578] (-31166.547) (-31170.801) -- 0:04:37
Average standard deviation of split frequencies: 0.000075
900500 -- [-31164.363] (-31186.583) (-31168.845) (-31172.473) * [-31165.528] (-31175.324) (-31174.426) (-31160.566) -- 0:04:36
901000 -- (-31172.988) (-31172.504) (-31182.732) [-31172.897] * [-31165.160] (-31166.565) (-31170.249) (-31180.562) -- 0:04:35
901500 -- (-31169.943) (-31179.186) [-31161.128] (-31172.722) * (-31161.746) [-31167.199] (-31163.554) (-31163.657) -- 0:04:33
902000 -- (-31176.719) (-31163.891) [-31167.745] (-31172.850) * (-31167.169) (-31175.881) (-31162.589) [-31171.788] -- 0:04:32
902500 -- (-31177.055) (-31171.557) [-31170.750] (-31166.885) * (-31166.503) (-31166.934) (-31155.869) [-31155.593] -- 0:04:30
903000 -- (-31180.095) (-31180.692) (-31168.772) [-31165.926] * (-31178.409) (-31170.583) (-31163.746) [-31168.075] -- 0:04:29
903500 -- (-31168.565) (-31161.265) [-31165.665] (-31168.174) * (-31173.428) [-31165.764] (-31170.831) (-31166.079) -- 0:04:28
904000 -- (-31173.302) (-31173.320) [-31166.328] (-31169.046) * (-31171.791) (-31170.532) [-31163.263] (-31169.128) -- 0:04:26
904500 -- (-31161.341) (-31163.992) (-31165.320) [-31168.725] * [-31165.850] (-31174.781) (-31167.925) (-31164.859) -- 0:04:25
905000 -- (-31174.986) [-31169.102] (-31171.659) (-31180.816) * (-31168.519) (-31175.366) [-31166.076] (-31170.057) -- 0:04:23
Average standard deviation of split frequencies: 0.000074
905500 -- [-31174.989] (-31177.530) (-31169.244) (-31166.313) * [-31168.573] (-31161.116) (-31166.166) (-31165.880) -- 0:04:22
906000 -- (-31162.473) (-31166.178) [-31163.425] (-31169.849) * (-31176.195) [-31160.430] (-31168.186) (-31168.723) -- 0:04:21
906500 -- [-31158.226] (-31167.898) (-31172.529) (-31162.711) * (-31170.967) (-31165.391) (-31167.457) [-31166.199] -- 0:04:19
907000 -- (-31170.643) [-31163.089] (-31162.383) (-31158.868) * (-31173.308) [-31163.829] (-31166.136) (-31166.457) -- 0:04:18
907500 -- (-31185.388) (-31168.001) (-31167.891) [-31173.834] * (-31168.122) (-31169.825) [-31165.030] (-31163.969) -- 0:04:16
908000 -- (-31165.239) (-31172.455) [-31169.487] (-31180.749) * (-31168.739) (-31160.626) [-31168.288] (-31177.860) -- 0:04:15
908500 -- (-31167.253) (-31168.644) [-31167.174] (-31180.849) * (-31168.590) [-31169.032] (-31168.327) (-31168.001) -- 0:04:14
909000 -- [-31164.519] (-31170.809) (-31172.027) (-31161.429) * (-31165.258) (-31164.437) [-31174.097] (-31169.843) -- 0:04:12
909500 -- (-31169.453) (-31162.833) (-31164.815) [-31158.819] * (-31162.077) (-31177.254) [-31168.973] (-31179.753) -- 0:04:11
910000 -- (-31169.227) (-31166.985) [-31162.033] (-31174.935) * (-31169.897) (-31172.299) [-31166.998] (-31161.706) -- 0:04:10
Average standard deviation of split frequencies: 0.000074
910500 -- (-31170.125) [-31168.553] (-31170.255) (-31166.191) * (-31165.946) (-31172.048) [-31164.158] (-31169.860) -- 0:04:08
911000 -- (-31173.757) (-31171.208) [-31169.456] (-31172.375) * (-31168.722) [-31167.911] (-31175.027) (-31165.857) -- 0:04:07
911500 -- (-31175.816) (-31160.079) [-31165.954] (-31166.826) * (-31178.210) [-31164.074] (-31170.779) (-31169.488) -- 0:04:05
912000 -- (-31179.798) (-31166.040) (-31163.836) [-31168.072] * (-31171.903) [-31167.885] (-31165.443) (-31164.834) -- 0:04:04
912500 -- (-31171.310) [-31168.277] (-31163.416) (-31163.424) * (-31166.784) [-31169.135] (-31162.300) (-31175.331) -- 0:04:03
913000 -- (-31170.944) (-31166.072) [-31167.834] (-31166.778) * (-31165.498) (-31181.897) [-31161.220] (-31170.192) -- 0:04:01
913500 -- (-31172.878) [-31159.350] (-31163.434) (-31168.962) * (-31175.679) (-31172.369) (-31176.722) [-31171.539] -- 0:04:00
914000 -- [-31168.942] (-31159.792) (-31171.369) (-31164.367) * (-31170.714) [-31168.193] (-31170.493) (-31171.255) -- 0:03:58
914500 -- (-31177.548) (-31168.310) [-31157.381] (-31170.400) * [-31172.718] (-31171.162) (-31173.165) (-31181.415) -- 0:03:57
915000 -- (-31180.921) (-31169.914) [-31164.143] (-31159.469) * [-31165.953] (-31165.231) (-31166.833) (-31164.188) -- 0:03:56
Average standard deviation of split frequencies: 0.000074
915500 -- (-31168.040) (-31164.721) [-31168.171] (-31174.324) * [-31164.248] (-31167.395) (-31171.249) (-31162.882) -- 0:03:54
916000 -- (-31171.073) (-31163.253) [-31166.726] (-31172.264) * (-31164.638) [-31166.479] (-31166.473) (-31164.251) -- 0:03:53
916500 -- [-31169.140] (-31164.377) (-31170.232) (-31158.260) * [-31174.673] (-31176.730) (-31170.490) (-31162.180) -- 0:03:51
917000 -- (-31172.899) (-31173.398) (-31166.983) [-31168.991] * [-31166.856] (-31167.606) (-31165.832) (-31181.562) -- 0:03:50
917500 -- (-31174.691) (-31164.617) [-31166.756] (-31165.649) * [-31161.986] (-31171.576) (-31166.274) (-31171.018) -- 0:03:49
918000 -- (-31169.989) (-31170.572) (-31168.056) [-31165.564] * [-31171.541] (-31171.781) (-31167.294) (-31167.831) -- 0:03:47
918500 -- (-31166.216) (-31174.669) (-31175.837) [-31167.528] * [-31163.081] (-31176.020) (-31179.779) (-31170.025) -- 0:03:46
919000 -- [-31168.958] (-31182.577) (-31165.761) (-31165.821) * (-31165.084) (-31160.680) [-31163.046] (-31178.658) -- 0:03:45
919500 -- [-31166.455] (-31165.573) (-31171.350) (-31162.413) * [-31166.094] (-31166.871) (-31166.119) (-31175.642) -- 0:03:43
920000 -- (-31177.029) (-31173.442) (-31178.539) [-31173.945] * (-31164.210) [-31166.591] (-31168.280) (-31173.309) -- 0:03:42
Average standard deviation of split frequencies: 0.000073
920500 -- (-31167.748) (-31167.480) (-31168.143) [-31163.063] * (-31164.972) [-31162.307] (-31170.521) (-31162.080) -- 0:03:40
921000 -- (-31164.858) (-31173.772) [-31166.326] (-31170.184) * [-31175.056] (-31168.957) (-31179.015) (-31163.619) -- 0:03:39
921500 -- [-31165.634] (-31177.808) (-31167.446) (-31171.137) * (-31165.338) [-31171.715] (-31167.424) (-31165.682) -- 0:03:37
922000 -- (-31169.840) [-31170.335] (-31163.219) (-31174.847) * (-31167.056) (-31169.081) (-31164.926) [-31164.856] -- 0:03:36
922500 -- (-31164.446) [-31164.674] (-31169.477) (-31182.210) * (-31165.296) [-31166.259] (-31164.262) (-31161.119) -- 0:03:35
923000 -- (-31163.958) [-31165.727] (-31162.077) (-31184.593) * (-31169.782) (-31172.358) [-31165.196] (-31166.918) -- 0:03:33
923500 -- (-31173.203) (-31165.019) [-31165.779] (-31165.691) * [-31162.067] (-31177.964) (-31174.825) (-31167.791) -- 0:03:32
924000 -- (-31171.030) (-31165.196) (-31164.587) [-31170.162] * (-31160.390) (-31173.156) (-31163.933) [-31166.450] -- 0:03:31
924500 -- (-31161.070) [-31164.538] (-31166.866) (-31169.619) * (-31164.599) (-31168.135) [-31164.439] (-31170.882) -- 0:03:29
925000 -- (-31169.488) (-31169.308) (-31172.704) [-31162.830] * [-31161.742] (-31168.016) (-31162.973) (-31168.453) -- 0:03:28
Average standard deviation of split frequencies: 0.000073
925500 -- (-31169.803) [-31163.716] (-31173.360) (-31163.164) * (-31165.431) (-31174.188) [-31163.583] (-31172.751) -- 0:03:26
926000 -- (-31175.125) [-31162.670] (-31173.009) (-31165.143) * (-31171.522) (-31169.112) [-31165.831] (-31162.565) -- 0:03:25
926500 -- (-31172.353) (-31159.359) (-31174.355) [-31164.248] * (-31165.421) (-31166.041) [-31168.958] (-31168.901) -- 0:03:24
927000 -- (-31167.556) [-31161.089] (-31176.284) (-31165.087) * (-31169.541) [-31173.746] (-31163.809) (-31164.892) -- 0:03:22
927500 -- [-31169.812] (-31164.598) (-31166.508) (-31169.986) * (-31171.285) [-31168.572] (-31169.317) (-31176.711) -- 0:03:21
928000 -- (-31166.695) (-31166.095) [-31165.188] (-31167.175) * [-31164.100] (-31164.658) (-31167.340) (-31169.555) -- 0:03:19
928500 -- [-31168.882] (-31171.789) (-31167.358) (-31176.021) * (-31161.609) (-31174.084) [-31168.748] (-31171.496) -- 0:03:18
929000 -- [-31175.606] (-31177.476) (-31179.402) (-31169.629) * (-31163.664) (-31163.086) [-31163.013] (-31177.023) -- 0:03:17
929500 -- [-31164.185] (-31172.420) (-31174.625) (-31169.688) * (-31168.695) (-31166.144) (-31161.621) [-31159.758] -- 0:03:15
930000 -- (-31164.565) [-31163.385] (-31167.833) (-31173.461) * (-31163.024) (-31160.000) [-31160.530] (-31171.911) -- 0:03:14
Average standard deviation of split frequencies: 0.000072
930500 -- (-31161.512) (-31166.881) (-31175.029) [-31168.235] * (-31176.309) (-31166.145) [-31160.700] (-31166.527) -- 0:03:13
931000 -- (-31170.229) [-31177.732] (-31179.267) (-31173.265) * (-31172.027) (-31171.334) (-31165.055) [-31167.840] -- 0:03:11
931500 -- [-31169.434] (-31173.169) (-31163.160) (-31172.901) * (-31163.728) (-31158.033) (-31170.482) [-31167.782] -- 0:03:10
932000 -- (-31173.194) [-31169.294] (-31161.623) (-31166.798) * [-31166.452] (-31161.766) (-31179.779) (-31171.304) -- 0:03:08
932500 -- (-31168.949) (-31168.095) [-31172.741] (-31169.518) * (-31172.775) (-31161.520) [-31165.107] (-31174.228) -- 0:03:07
933000 -- (-31163.079) (-31172.022) (-31170.506) [-31161.639] * [-31170.200] (-31159.604) (-31168.252) (-31174.884) -- 0:03:06
933500 -- (-31165.214) [-31165.870] (-31159.767) (-31179.292) * (-31172.625) (-31165.077) [-31171.396] (-31179.953) -- 0:03:04
934000 -- (-31167.500) [-31170.686] (-31168.592) (-31168.624) * [-31165.696] (-31166.535) (-31173.973) (-31171.853) -- 0:03:03
934500 -- (-31169.231) (-31163.106) [-31166.657] (-31166.744) * (-31168.480) (-31159.529) (-31168.448) [-31173.260] -- 0:03:01
935000 -- (-31165.619) [-31174.575] (-31177.934) (-31172.237) * (-31163.783) (-31171.494) [-31167.996] (-31169.650) -- 0:03:00
Average standard deviation of split frequencies: 0.000072
935500 -- [-31175.005] (-31170.131) (-31173.533) (-31168.064) * [-31167.556] (-31162.980) (-31160.994) (-31172.018) -- 0:02:59
936000 -- (-31172.484) (-31169.795) (-31165.476) [-31166.459] * (-31181.956) (-31168.370) [-31159.738] (-31183.756) -- 0:02:57
936500 -- [-31172.725] (-31170.703) (-31165.319) (-31160.954) * (-31177.380) [-31168.771] (-31164.338) (-31177.902) -- 0:02:56
937000 -- (-31173.671) [-31167.115] (-31161.429) (-31175.072) * [-31171.825] (-31169.578) (-31167.970) (-31177.987) -- 0:02:54
937500 -- [-31163.574] (-31165.237) (-31166.369) (-31166.813) * (-31174.847) (-31173.242) [-31165.575] (-31169.942) -- 0:02:53
938000 -- (-31165.487) (-31170.649) (-31161.676) [-31167.720] * (-31181.675) [-31166.276] (-31164.521) (-31167.068) -- 0:02:52
938500 -- [-31169.559] (-31159.856) (-31174.637) (-31167.467) * (-31169.485) [-31171.168] (-31158.765) (-31180.629) -- 0:02:50
939000 -- [-31163.266] (-31166.564) (-31169.732) (-31163.529) * (-31164.229) (-31168.188) [-31160.864] (-31162.235) -- 0:02:49
939500 -- (-31166.857) [-31158.811] (-31167.006) (-31165.300) * (-31164.640) (-31169.530) [-31165.177] (-31182.254) -- 0:02:48
940000 -- (-31171.705) [-31161.374] (-31170.317) (-31169.590) * (-31168.870) [-31169.545] (-31170.057) (-31181.160) -- 0:02:46
Average standard deviation of split frequencies: 0.000072
940500 -- (-31177.927) (-31169.764) (-31170.186) [-31161.268] * [-31159.965] (-31178.563) (-31169.679) (-31170.221) -- 0:02:45
941000 -- (-31166.610) [-31171.843] (-31165.982) (-31163.788) * (-31171.725) (-31171.586) (-31166.824) [-31165.703] -- 0:02:43
941500 -- [-31165.068] (-31166.167) (-31177.138) (-31161.673) * [-31164.553] (-31170.098) (-31171.779) (-31174.902) -- 0:02:42
942000 -- (-31182.005) [-31165.868] (-31166.886) (-31170.498) * (-31164.175) (-31166.765) (-31170.804) [-31163.439] -- 0:02:41
942500 -- (-31169.545) [-31172.116] (-31167.622) (-31171.797) * (-31169.379) (-31165.451) [-31175.766] (-31168.038) -- 0:02:39
943000 -- (-31165.772) (-31172.395) [-31167.975] (-31170.748) * (-31168.723) (-31169.346) (-31163.498) [-31169.606] -- 0:02:38
943500 -- (-31169.946) (-31171.186) [-31169.762] (-31180.718) * [-31164.586] (-31167.570) (-31170.949) (-31174.447) -- 0:02:36
944000 -- (-31168.608) (-31176.687) [-31166.590] (-31167.417) * (-31169.105) [-31164.524] (-31169.337) (-31170.427) -- 0:02:35
944500 -- (-31175.020) [-31163.892] (-31168.780) (-31170.243) * (-31168.465) (-31171.034) (-31163.770) [-31165.726] -- 0:02:34
945000 -- (-31158.212) (-31179.914) (-31168.300) [-31178.074] * (-31173.496) (-31163.638) (-31167.035) [-31168.281] -- 0:02:32
Average standard deviation of split frequencies: 0.000071
945500 -- (-31175.908) (-31182.929) [-31162.592] (-31163.543) * (-31168.546) (-31161.097) (-31164.916) [-31183.452] -- 0:02:31
946000 -- (-31166.003) [-31160.545] (-31167.910) (-31169.747) * (-31166.365) (-31175.296) (-31165.276) [-31163.429] -- 0:02:29
946500 -- (-31169.408) [-31160.999] (-31161.557) (-31162.744) * (-31163.532) (-31169.171) (-31164.519) [-31166.771] -- 0:02:28
947000 -- [-31168.565] (-31163.200) (-31173.587) (-31166.128) * (-31156.496) (-31165.310) (-31170.341) [-31166.240] -- 0:02:27
947500 -- [-31169.104] (-31167.099) (-31171.141) (-31160.771) * (-31172.529) (-31164.827) [-31160.921] (-31163.197) -- 0:02:25
948000 -- (-31159.285) (-31166.919) (-31169.319) [-31161.426] * (-31171.592) [-31175.636] (-31168.729) (-31163.238) -- 0:02:24
948500 -- (-31163.068) [-31161.903] (-31173.104) (-31165.175) * (-31173.528) (-31170.766) [-31164.236] (-31167.301) -- 0:02:23
949000 -- (-31165.064) (-31160.203) (-31174.687) [-31159.814] * (-31166.396) (-31163.018) (-31173.248) [-31172.147] -- 0:02:21
949500 -- [-31168.865] (-31164.125) (-31169.645) (-31164.421) * (-31158.208) (-31164.791) (-31178.576) [-31165.786] -- 0:02:20
950000 -- (-31172.978) [-31175.934] (-31175.434) (-31167.015) * (-31158.963) [-31164.354] (-31182.368) (-31175.567) -- 0:02:18
Average standard deviation of split frequencies: 0.000071
950500 -- [-31170.485] (-31177.390) (-31165.572) (-31171.560) * (-31166.422) (-31163.970) [-31166.421] (-31171.343) -- 0:02:17
951000 -- (-31173.991) (-31172.901) [-31170.141] (-31173.356) * [-31166.560] (-31163.858) (-31168.592) (-31169.197) -- 0:02:16
951500 -- (-31170.235) (-31164.171) [-31169.230] (-31172.358) * [-31168.488] (-31163.410) (-31165.263) (-31171.314) -- 0:02:14
952000 -- (-31171.647) [-31166.397] (-31164.150) (-31181.353) * (-31164.469) (-31162.371) [-31171.226] (-31176.268) -- 0:02:13
952500 -- [-31173.323] (-31173.192) (-31161.348) (-31173.980) * [-31161.291] (-31167.141) (-31177.633) (-31168.469) -- 0:02:11
953000 -- (-31170.792) (-31170.364) (-31169.925) [-31166.783] * [-31161.494] (-31168.872) (-31171.279) (-31172.386) -- 0:02:10
953500 -- [-31163.517] (-31166.089) (-31172.256) (-31170.563) * (-31165.527) (-31175.738) [-31176.417] (-31171.459) -- 0:02:09
954000 -- (-31158.815) (-31171.065) (-31171.234) [-31165.915] * [-31169.409] (-31169.448) (-31166.927) (-31165.361) -- 0:02:07
954500 -- (-31166.046) [-31172.188] (-31167.257) (-31167.052) * (-31164.441) (-31175.327) (-31167.042) [-31165.108] -- 0:02:06
955000 -- (-31163.993) (-31171.427) (-31164.325) [-31161.846] * (-31173.705) (-31165.040) (-31170.125) [-31162.723] -- 0:02:05
Average standard deviation of split frequencies: 0.000070
955500 -- [-31167.849] (-31171.991) (-31163.246) (-31167.339) * (-31174.323) (-31170.358) [-31167.098] (-31169.426) -- 0:02:03
956000 -- [-31170.705] (-31167.323) (-31163.901) (-31167.425) * (-31163.367) (-31172.781) [-31164.172] (-31172.489) -- 0:02:02
956500 -- (-31171.810) [-31165.780] (-31165.159) (-31169.607) * [-31167.572] (-31175.702) (-31167.999) (-31170.172) -- 0:02:00
957000 -- [-31163.757] (-31170.833) (-31165.232) (-31159.402) * (-31173.398) (-31159.439) (-31168.874) [-31167.473] -- 0:01:59
957500 -- (-31173.255) [-31162.140] (-31172.047) (-31166.714) * (-31172.442) [-31163.497] (-31166.384) (-31170.868) -- 0:01:58
958000 -- (-31176.596) [-31165.513] (-31169.825) (-31166.097) * [-31166.420] (-31170.936) (-31174.185) (-31165.331) -- 0:01:56
958500 -- (-31167.518) (-31168.036) [-31171.471] (-31169.103) * (-31170.255) (-31166.886) (-31171.881) [-31165.871] -- 0:01:55
959000 -- (-31164.556) [-31165.343] (-31164.225) (-31169.370) * [-31172.776] (-31166.231) (-31179.779) (-31173.540) -- 0:01:53
959500 -- [-31165.338] (-31181.921) (-31171.123) (-31166.679) * (-31167.578) [-31169.013] (-31172.315) (-31168.557) -- 0:01:52
960000 -- [-31170.937] (-31171.084) (-31172.410) (-31165.006) * (-31177.987) (-31167.498) [-31167.862] (-31201.330) -- 0:01:51
Average standard deviation of split frequencies: 0.000070
960500 -- (-31162.712) [-31178.293] (-31187.783) (-31168.805) * (-31169.302) (-31161.157) [-31164.584] (-31177.985) -- 0:01:49
961000 -- (-31163.079) (-31157.562) (-31168.005) [-31170.658] * [-31169.023] (-31168.654) (-31171.213) (-31164.510) -- 0:01:48
961500 -- (-31168.267) (-31165.718) [-31171.078] (-31173.411) * (-31167.221) (-31169.412) [-31160.322] (-31175.131) -- 0:01:46
962000 -- (-31174.709) (-31168.116) [-31182.729] (-31183.825) * [-31166.487] (-31168.607) (-31178.351) (-31173.759) -- 0:01:45
962500 -- (-31168.267) (-31177.326) (-31167.994) [-31177.374] * (-31175.659) [-31170.772] (-31176.742) (-31178.899) -- 0:01:44
963000 -- (-31177.473) (-31176.482) [-31164.847] (-31163.758) * (-31164.623) (-31158.811) (-31172.798) [-31166.985] -- 0:01:42
963500 -- (-31178.989) [-31170.481] (-31165.673) (-31170.902) * (-31166.012) [-31168.150] (-31179.542) (-31167.739) -- 0:01:41
964000 -- [-31163.414] (-31163.320) (-31175.298) (-31161.058) * (-31165.522) [-31169.459] (-31173.170) (-31170.842) -- 0:01:40
964500 -- (-31170.739) (-31163.231) (-31169.792) [-31165.546] * (-31169.310) (-31173.310) [-31172.802] (-31169.240) -- 0:01:38
965000 -- [-31163.003] (-31166.065) (-31173.319) (-31174.524) * (-31169.209) (-31173.016) (-31165.921) [-31164.206] -- 0:01:37
Average standard deviation of split frequencies: 0.000070
965500 -- (-31168.648) [-31159.137] (-31161.859) (-31164.821) * (-31173.723) [-31166.039] (-31163.311) (-31166.914) -- 0:01:35
966000 -- (-31174.099) (-31168.248) [-31166.852] (-31174.478) * (-31173.900) (-31164.856) (-31166.722) [-31163.385] -- 0:01:34
966500 -- [-31165.626] (-31163.612) (-31165.949) (-31173.911) * (-31165.645) (-31170.966) (-31160.538) [-31169.265] -- 0:01:33
967000 -- [-31168.869] (-31169.697) (-31166.524) (-31167.470) * (-31162.036) (-31170.542) [-31167.619] (-31174.785) -- 0:01:31
967500 -- (-31162.230) [-31172.647] (-31162.791) (-31163.561) * (-31175.498) (-31164.648) [-31164.362] (-31169.702) -- 0:01:30
968000 -- (-31169.679) [-31170.414] (-31163.691) (-31169.973) * (-31166.397) (-31168.728) [-31176.071] (-31178.416) -- 0:01:28
968500 -- (-31166.543) [-31171.931] (-31168.875) (-31170.183) * (-31171.219) (-31167.811) [-31169.209] (-31167.268) -- 0:01:27
969000 -- [-31170.907] (-31163.783) (-31160.772) (-31169.480) * [-31170.500] (-31175.926) (-31176.073) (-31168.436) -- 0:01:26
969500 -- (-31173.657) (-31165.655) [-31163.542] (-31166.109) * [-31173.419] (-31165.813) (-31165.171) (-31168.468) -- 0:01:24
970000 -- (-31166.376) [-31169.676] (-31173.195) (-31172.064) * (-31170.126) [-31166.061] (-31170.497) (-31161.822) -- 0:01:23
Average standard deviation of split frequencies: 0.000069
970500 -- (-31169.293) (-31166.805) [-31170.841] (-31163.881) * [-31166.686] (-31168.701) (-31173.526) (-31159.856) -- 0:01:21
971000 -- (-31164.827) (-31175.775) [-31165.665] (-31179.798) * (-31160.850) (-31166.461) [-31165.721] (-31161.187) -- 0:01:20
971500 -- (-31170.284) (-31172.962) (-31169.542) [-31169.196] * [-31167.900] (-31169.177) (-31168.168) (-31164.321) -- 0:01:19
972000 -- [-31171.976] (-31175.837) (-31166.271) (-31166.924) * [-31160.030] (-31173.366) (-31168.275) (-31170.901) -- 0:01:17
972500 -- (-31172.240) [-31162.616] (-31171.128) (-31162.528) * (-31165.201) (-31170.442) (-31167.470) [-31174.299] -- 0:01:16
973000 -- (-31171.589) (-31163.942) [-31169.050] (-31161.442) * (-31175.942) [-31166.662] (-31165.397) (-31163.399) -- 0:01:15
973500 -- [-31167.547] (-31162.303) (-31172.737) (-31163.161) * [-31166.058] (-31163.988) (-31162.334) (-31170.263) -- 0:01:13
974000 -- [-31164.520] (-31164.197) (-31170.548) (-31161.362) * [-31158.018] (-31158.608) (-31169.977) (-31171.906) -- 0:01:12
974500 -- (-31165.936) (-31168.663) [-31176.186] (-31162.598) * [-31164.327] (-31163.936) (-31165.059) (-31162.948) -- 0:01:10
975000 -- [-31167.179] (-31165.598) (-31179.847) (-31166.452) * [-31169.821] (-31159.802) (-31172.512) (-31176.645) -- 0:01:09
Average standard deviation of split frequencies: 0.000069
975500 -- (-31180.512) [-31160.866] (-31170.304) (-31166.738) * (-31160.260) (-31171.133) (-31173.013) [-31165.046] -- 0:01:08
976000 -- (-31170.788) (-31162.794) (-31170.910) [-31169.337] * (-31165.600) (-31169.805) (-31165.040) [-31165.036] -- 0:01:06
976500 -- (-31167.113) (-31169.985) (-31178.583) [-31159.590] * (-31165.407) (-31162.641) [-31165.626] (-31172.610) -- 0:01:05
977000 -- [-31166.588] (-31165.358) (-31173.110) (-31165.321) * (-31166.134) (-31160.139) [-31163.794] (-31170.810) -- 0:01:03
977500 -- (-31164.775) [-31178.451] (-31169.753) (-31164.481) * [-31161.637] (-31172.097) (-31168.264) (-31180.370) -- 0:01:02
978000 -- [-31173.122] (-31178.876) (-31163.749) (-31169.415) * (-31164.755) (-31168.915) (-31167.687) [-31168.310] -- 0:01:01
978500 -- [-31168.370] (-31169.394) (-31164.198) (-31168.884) * [-31159.787] (-31157.517) (-31165.030) (-31172.336) -- 0:00:59
979000 -- (-31169.595) (-31166.804) [-31164.440] (-31175.183) * [-31166.568] (-31176.970) (-31170.559) (-31172.679) -- 0:00:58
979500 -- (-31168.168) [-31165.256] (-31168.095) (-31182.043) * [-31169.251] (-31170.313) (-31170.015) (-31161.443) -- 0:00:56
980000 -- (-31172.277) (-31172.649) (-31171.359) [-31172.511] * (-31169.244) (-31163.536) [-31172.567] (-31164.055) -- 0:00:55
Average standard deviation of split frequencies: 0.000069
980500 -- [-31167.943] (-31174.080) (-31166.784) (-31166.476) * (-31163.710) (-31160.130) (-31166.544) [-31159.357] -- 0:00:54
981000 -- (-31166.927) (-31173.370) [-31164.664] (-31173.250) * (-31175.055) (-31170.060) (-31176.286) [-31161.009] -- 0:00:52
981500 -- (-31175.618) (-31178.191) [-31157.063] (-31172.126) * (-31168.143) (-31170.767) (-31165.651) [-31166.601] -- 0:00:51
982000 -- (-31188.596) (-31172.118) [-31177.102] (-31177.721) * (-31175.874) (-31170.596) [-31175.107] (-31171.643) -- 0:00:50
982500 -- (-31180.123) (-31171.641) (-31164.191) [-31168.260] * (-31173.659) (-31168.341) [-31166.397] (-31184.896) -- 0:00:48
983000 -- [-31166.952] (-31167.500) (-31170.106) (-31162.711) * (-31167.918) (-31162.459) (-31183.057) [-31167.717] -- 0:00:47
983500 -- (-31169.066) [-31166.601] (-31171.013) (-31171.578) * (-31166.592) (-31165.827) (-31169.340) [-31166.925] -- 0:00:45
984000 -- (-31163.677) (-31164.784) [-31170.088] (-31162.512) * (-31168.425) (-31167.484) [-31166.328] (-31165.299) -- 0:00:44
984500 -- [-31167.905] (-31165.880) (-31174.935) (-31166.278) * (-31177.170) (-31168.047) [-31165.949] (-31169.430) -- 0:00:43
985000 -- [-31168.076] (-31180.435) (-31168.379) (-31167.222) * (-31161.705) (-31173.866) [-31167.037] (-31166.130) -- 0:00:41
Average standard deviation of split frequencies: 0.000068
985500 -- (-31170.518) [-31156.311] (-31172.157) (-31168.377) * (-31165.532) (-31170.070) [-31167.476] (-31169.195) -- 0:00:40
986000 -- (-31177.692) (-31160.632) [-31179.200] (-31162.294) * (-31163.112) (-31171.083) [-31166.601] (-31172.185) -- 0:00:38
986500 -- (-31169.858) (-31169.020) (-31169.170) [-31167.015] * [-31173.409] (-31171.334) (-31169.116) (-31170.820) -- 0:00:37
987000 -- (-31163.390) (-31173.576) [-31169.415] (-31166.321) * (-31164.272) (-31163.919) (-31170.623) [-31164.563] -- 0:00:36
987500 -- (-31173.317) (-31173.006) (-31168.561) [-31170.368] * (-31171.312) (-31163.285) [-31165.102] (-31166.632) -- 0:00:34
988000 -- (-31162.978) (-31170.869) [-31166.641] (-31171.824) * (-31162.008) (-31168.002) (-31167.065) [-31169.633] -- 0:00:33
988500 -- [-31165.812] (-31189.004) (-31165.251) (-31163.271) * (-31164.246) [-31172.353] (-31167.304) (-31168.326) -- 0:00:31
989000 -- (-31161.376) (-31170.608) (-31161.902) [-31165.151] * (-31169.950) [-31173.660] (-31172.001) (-31168.899) -- 0:00:30
989500 -- (-31170.600) (-31165.331) (-31170.617) [-31161.546] * (-31162.796) (-31166.782) (-31169.642) [-31158.712] -- 0:00:29
990000 -- (-31171.266) (-31174.914) [-31163.401] (-31168.345) * (-31168.125) (-31176.243) [-31166.266] (-31167.513) -- 0:00:27
Average standard deviation of split frequencies: 0.000068
990500 -- (-31163.859) (-31165.467) (-31167.319) [-31167.196] * (-31165.225) (-31178.778) (-31171.837) [-31177.301] -- 0:00:26
991000 -- (-31176.837) (-31164.828) (-31168.691) [-31167.888] * [-31170.522] (-31169.190) (-31170.603) (-31162.972) -- 0:00:25
991500 -- (-31166.613) (-31168.810) (-31169.586) [-31162.418] * (-31168.242) (-31173.860) (-31175.454) [-31163.145] -- 0:00:23
992000 -- (-31180.589) [-31161.543] (-31173.485) (-31164.083) * [-31166.448] (-31176.292) (-31173.948) (-31160.499) -- 0:00:22
992500 -- (-31171.565) (-31163.502) (-31170.291) [-31163.866] * (-31173.514) (-31174.134) (-31182.414) [-31161.500] -- 0:00:20
993000 -- (-31171.651) [-31170.959] (-31162.443) (-31167.305) * (-31166.243) (-31168.762) (-31175.513) [-31170.519] -- 0:00:19
993500 -- (-31177.085) (-31165.127) (-31170.217) [-31165.885] * (-31170.214) (-31178.968) [-31162.038] (-31169.539) -- 0:00:18
994000 -- (-31172.079) (-31173.718) [-31163.517] (-31170.100) * (-31167.105) (-31167.024) (-31164.182) [-31159.975] -- 0:00:16
994500 -- (-31170.290) (-31164.742) [-31160.955] (-31171.292) * (-31175.890) (-31169.079) [-31166.705] (-31162.199) -- 0:00:15
995000 -- (-31158.652) [-31164.910] (-31168.677) (-31171.165) * (-31170.346) (-31169.795) (-31166.441) [-31170.119] -- 0:00:13
Average standard deviation of split frequencies: 0.000068
995500 -- [-31163.063] (-31162.711) (-31172.780) (-31177.629) * (-31164.719) [-31165.231] (-31165.055) (-31161.795) -- 0:00:12
996000 -- (-31172.120) [-31161.717] (-31164.830) (-31172.554) * (-31170.056) (-31166.641) [-31161.163] (-31169.948) -- 0:00:11
996500 -- (-31167.286) [-31165.009] (-31170.028) (-31171.711) * (-31172.095) [-31169.363] (-31163.008) (-31167.796) -- 0:00:09
997000 -- [-31164.831] (-31156.866) (-31171.070) (-31177.445) * [-31170.355] (-31168.520) (-31170.618) (-31163.391) -- 0:00:08
997500 -- (-31169.532) (-31166.318) (-31173.813) [-31170.482] * (-31171.132) [-31166.752] (-31172.329) (-31161.214) -- 0:00:06
998000 -- [-31178.801] (-31171.124) (-31170.255) (-31168.222) * (-31183.118) (-31162.643) [-31169.947] (-31166.117) -- 0:00:05
998500 -- [-31163.916] (-31166.255) (-31165.656) (-31166.688) * (-31176.944) (-31166.447) [-31169.970] (-31174.515) -- 0:00:04
999000 -- (-31171.935) (-31163.897) [-31162.708] (-31161.580) * (-31178.682) (-31169.747) (-31162.953) [-31163.816] -- 0:00:02
999500 -- (-31169.080) [-31158.296] (-31170.299) (-31157.773) * (-31170.204) (-31171.835) (-31164.905) [-31171.891] -- 0:00:01
1000000 -- (-31179.698) (-31167.735) (-31167.804) [-31162.193] * (-31167.855) (-31176.091) (-31170.155) [-31167.144] -- 0:00:00
Average standard deviation of split frequencies: 0.000067
Final log likelihoods and log prior probs for run 1 (stored and calculated):
Chain 1 -- -31179.697847 -- 5.178148
Chain 1 -- -31179.697822 -- 5.178148
Chain 2 -- -31167.734773 -- 5.947554
Chain 2 -- -31167.734841 -- 5.947554
Chain 3 -- -31167.803609 -- 4.097806
Chain 3 -- -31167.803595 -- 4.097806
Chain 4 -- -31162.192839 -- 4.631556
Chain 4 -- -31162.192947 -- 4.631556
Final log likelihoods and log prior probs for run 2 (stored and calculated):
Chain 1 -- -31167.854927 -- 0.496942
Chain 1 -- -31167.854978 -- 0.496942
Chain 2 -- -31176.091441 -- 5.229707
Chain 2 -- -31176.091363 -- 5.229707
Chain 3 -- -31170.155114 -- 5.209675
Chain 3 -- -31170.155114 -- 5.209675
Chain 4 -- -31167.144443 -- 6.356215
Chain 4 -- -31167.144270 -- 6.356215
Analysis completed in 46 mins 18 seconds
Analysis used 2777.14 seconds of CPU time
Likelihood of best state for "cold" chain of run 1 was -31153.04
Likelihood of best state for "cold" chain of run 2 was -31153.32
Acceptance rates for the moves in the "cold" chain of run 1:
With prob. (last 100) chain accepted proposals by move
12.6 % ( 16 %) Dirichlet(Revmat{all})
27.4 % ( 18 %) Slider(Revmat{all})
3.5 % ( 8 %) Dirichlet(Pi{all})
17.2 % ( 23 %) Slider(Pi{all})
22.9 % ( 31 %) Multiplier(Alpha{1,2})
30.9 % ( 25 %) Multiplier(Alpha{3})
25.9 % ( 25 %) Slider(Pinvar{all})
0.0 % ( 0 %) ExtSPR(Tau{all},V{all})
0.0 % ( 0 %) ExtTBR(Tau{all},V{all})
0.0 % ( 0 %) NNI(Tau{all},V{all})
0.0 % ( 0 %) ParsSPR(Tau{all},V{all})
25.6 % ( 36 %) Multiplier(V{all})
11.0 % ( 10 %) Nodeslider(V{all})
20.4 % ( 35 %) TLMultiplier(V{all})
Acceptance rates for the moves in the "cold" chain of run 2:
With prob. (last 100) chain accepted proposals by move
13.0 % ( 16 %) Dirichlet(Revmat{all})
28.0 % ( 27 %) Slider(Revmat{all})
3.6 % ( 7 %) Dirichlet(Pi{all})
16.9 % ( 20 %) Slider(Pi{all})
22.6 % ( 21 %) Multiplier(Alpha{1,2})
31.3 % ( 31 %) Multiplier(Alpha{3})
26.0 % ( 24 %) Slider(Pinvar{all})
0.0 % ( 0 %) ExtSPR(Tau{all},V{all})
0.0 % ( 0 %) ExtTBR(Tau{all},V{all})
0.0 % ( 0 %) NNI(Tau{all},V{all})
0.0 % ( 0 %) ParsSPR(Tau{all},V{all})
25.7 % ( 24 %) Multiplier(V{all})
10.8 % ( 9 %) Nodeslider(V{all})
20.5 % ( 29 %) TLMultiplier(V{all})
Chain swap information for run 1:
1 2 3 4
----------------------------------
1 | 0.80 0.63 0.48
2 | 166543 0.82 0.66
3 | 166873 166368 0.83
4 | 166820 166322 167074
Chain swap information for run 2:
1 2 3 4
----------------------------------
1 | 0.80 0.63 0.49
2 | 167168 0.82 0.66
3 | 166672 167367 0.83
4 | 166531 165955 166307
Upper diagonal: Proportion of successful state exchanges between chains
Lower diagonal: Number of attempted state exchanges between chains
Chain information:
ID -- Heat
-----------
1 -- 1.00 (cold chain)
2 -- 0.91
3 -- 0.83
4 -- 0.77
Heat = 1 / (1 + T * (ID - 1))
(where T = 0.10 is the temperature and ID is the chain number)
Setting burn-in to 2500
Summarizing parameters in files /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p and /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p
Writing summary statistics to file /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat
Using relative burnin ('relburnin=yes'), discarding the first 25 % of samples
Below are rough plots of the generation (x-axis) versus the log
probability of observing the data (y-axis). You can use these
graphs to determine what the burn in for your analysis should be.
When the log probability starts to plateau you may be at station-
arity. Sample trees and parameters after the log probability
plateaus. Of course, this is not a guarantee that you are at sta-
tionarity. Also examine the convergence diagnostics provided by
the 'sump' and 'sumt' commands for all the parameters in your
model. Remember that the burn in is the number of samples to dis-
card. There are a total of ngen / samplefreq samples taken during
a MCMC analysis.
Overlay plot for both runs:
(1 = Run number 1; 2 = Run number 2; * = Both runs)
+------------------------------------------------------------+ -31164.03
| 2 |
| 2 |
|2 |
| 2 1 2 1 2 1|
| 1 2 1 |
| 2 1 122 1 2 |
| 22 1 221 * 2 2 112 12 1 1 2 |
| 1 11 1 1 1 2 1 2 1 2 112 2 2 |
|1 1 2 22 1 2 1 11 22 2 2 |
| 2 1 1 2 1 1 22 1 2 2|
| 1 2* * 2 112 1 1 2 21 21 |
| 1 2 1* 1 1 2 1 2 1 1 |
| 2 2 12 1 2 2 1 |
| 1 2 |
| 1 2 1 |
+------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -31169.09
^ ^
250000 1000000
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -31161.09 -31178.56
2 -31160.24 -31177.70
--------------------------------------
TOTAL -31160.58 -31178.22
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 1.191116 0.000954 1.130559 1.251042 1.190617 1371.52 1436.26 1.000
r(A<->C){all} 0.082884 0.000029 0.072286 0.093240 0.082795 918.35 970.83 1.000
r(A<->G){all} 0.294682 0.000117 0.272730 0.315165 0.294524 706.59 804.88 1.000
r(A<->T){all} 0.070749 0.000029 0.060226 0.081311 0.070627 1066.90 1069.62 1.001
r(C<->G){all} 0.056770 0.000018 0.048697 0.065060 0.056595 941.79 1047.79 1.000
r(C<->T){all} 0.442286 0.000126 0.420375 0.463780 0.442201 697.89 739.18 1.000
r(G<->T){all} 0.052630 0.000020 0.044024 0.060718 0.052490 870.28 1048.84 1.000
pi(A){all} 0.254187 0.000018 0.245758 0.262013 0.254246 734.81 751.94 1.000
pi(C){all} 0.259641 0.000016 0.252192 0.267790 0.259641 869.77 958.62 1.000
pi(G){all} 0.267676 0.000019 0.259519 0.276447 0.267677 780.76 873.57 1.000
pi(T){all} 0.218496 0.000015 0.210859 0.225858 0.218446 968.30 977.22 1.000
alpha{1,2} 0.085063 0.000009 0.079550 0.091147 0.085041 1401.18 1451.09 1.000
alpha{3} 8.194136 1.670617 5.655607 10.575470 8.073447 1501.00 1501.00 1.000
pinvar{all} 0.437670 0.000118 0.417095 0.458949 0.437571 1378.13 1439.57 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
Setting urn-in to 2500
Summarizing trees in files "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.t"
Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees
Writing statistics to files /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.<parts|tstat|vstat|trprobs|con>
Examining first file ...
Found one tree block in file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" with 2001 trees in last block
Expecting the same number of trees in the last tree block of all files
Tree reading status:
0 10 20 30 40 50 60 70 80 90 100
v-------v-------v-------v-------v-------v-------v-------v-------v-------v-------v
*********************************************************************************
Read a total of 4002 trees in 2 files (sampling 3002 of them)
(Each file contained 2001 trees of which 1501 were sampled)
General explanation:
In an unrooted tree, a taxon bipartition (split) is specified by removing a
branch, thereby dividing the species into those to the left and those to the
right of the branch. Here, taxa to one side of the removed branch are denoted
'.' and those to the other side are denoted '*'. Specifically, the '.' symbol
is used for the taxa on the same side as the outgroup.
In a rooted or clock tree, the tree is rooted using the model and not by
reference to an outgroup. Each bipartition therefore corresponds to a clade,
that is, a group that includes all the descendants of a particular branch in
the tree. Taxa that are included in each clade are denoted using '*', and
taxa that are not included are denoted using the '.' symbol.
The output first includes a key to all the bipartitions with frequency larger
or equual to (Minpartfreq) in at least one run. Minpartfreq is a paramiter to
sumt command and currently it is set to 0.10. This is followed by a table
with statistics for the informative bipartitions (those including at least
two taxa), sorted from highest to lowest probability. For each bipartition,
the table gives the number of times the partition or split was observed in all
runs (#obs) and the posterior probability of the bipartition (Probab.), which
is the same as the split frequency. If several runs are summarized, this is
followed by the minimum split frequency (Min(s)), the maximum frequency
(Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs.
The latter value should approach 0 for all bipartitions as MCMC runs converge.
This is followed by a table summarizing branch lengths, node heights (if a
clock model was used) and relaxed clock parameters (if a relaxed clock model
was used). The mean, variance, and 95 % credible interval are given for each
of these parameters. If several runs are summarized, the potential scale
reduction factor (PSRF) is also given; it should approach 1 as runs converge.
Node heights will take calibration points into account, if such points were
used in the analysis.
Note that Stddev may be unreliable if the partition is not present in all
runs (the last column indicates the number of runs that sampled the partition
if more than one run is summarized). The PSRF is not calculated at all if
the partition is not present in all runs.The PSRF is also sensitive to small
sample sizes and it should only be considered a rough guide to convergence
since some of the assumptions allowing one to interpret it as a true potential
scale reduction factor are violated in MrBayes.
List of taxa in bipartitions:
1 -- C1
2 -- C2
3 -- C3
4 -- C4
5 -- C5
6 -- C6
7 -- C7
8 -- C8
9 -- C9
10 -- C10
Key to taxon bipartitions (saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.parts"):
ID -- Partition
----------------
1 -- .*********
2 -- .*........
3 -- ..*.......
4 -- ...*......
5 -- ....*.....
6 -- .....*....
7 -- ......*...
8 -- .......*..
9 -- ........*.
10 -- .........*
11 -- ...***....
12 -- ....**....
13 -- ........**
14 -- ...*******
15 -- ..********
16 -- ...***.***
17 -- .......***
----------------
Summary statistics for informative taxon bipartitions
(saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.tstat"):
ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns
----------------------------------------------------------------
11 3002 1.000000 0.000000 1.000000 1.000000 2
12 3002 1.000000 0.000000 1.000000 1.000000 2
13 3002 1.000000 0.000000 1.000000 1.000000 2
14 3002 1.000000 0.000000 1.000000 1.000000 2
15 3002 1.000000 0.000000 1.000000 1.000000 2
16 3002 1.000000 0.000000 1.000000 1.000000 2
17 3001 0.999667 0.000471 0.999334 1.000000 2
----------------------------------------------------------------
+ Convergence diagnostic (standard deviation of split frequencies)
should approach 0.0 as runs converge.
Summary statistics for branch and node parameters
(saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.vstat"):
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median PSRF+ Nruns
-------------------------------------------------------------------------------------------
length{all}[1] 0.031749 0.000010 0.025829 0.037975 0.031652 1.000 2
length{all}[2] 0.025509 0.000008 0.020504 0.031266 0.025399 1.000 2
length{all}[3] 0.055393 0.000023 0.045950 0.064578 0.055285 1.000 2
length{all}[4] 0.124961 0.000060 0.110443 0.140395 0.124782 1.000 2
length{all}[5] 0.106104 0.000048 0.093203 0.119837 0.105975 1.000 2
length{all}[6] 0.060407 0.000028 0.050047 0.070654 0.060194 1.001 2
length{all}[7] 0.149751 0.000079 0.132455 0.166738 0.149641 1.000 2
length{all}[8] 0.173261 0.000100 0.154214 0.193185 0.172949 1.000 2
length{all}[9] 0.076465 0.000036 0.063705 0.087300 0.076404 1.000 2
length{all}[10] 0.121253 0.000060 0.106322 0.136587 0.120918 1.000 2
length{all}[11] 0.034160 0.000023 0.024734 0.043591 0.034091 1.000 2
length{all}[12] 0.037035 0.000022 0.028274 0.046503 0.036975 1.000 2
length{all}[13] 0.032239 0.000023 0.023399 0.042278 0.032098 1.000 2
length{all}[14] 0.101858 0.000057 0.086462 0.115874 0.101653 1.000 2
length{all}[15] 0.026326 0.000014 0.018432 0.033029 0.026305 1.001 2
length{all}[16] 0.021325 0.000022 0.012301 0.030316 0.021110 1.000 2
length{all}[17] 0.013324 0.000014 0.006645 0.020830 0.013069 1.000 2
-------------------------------------------------------------------------------------------
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when
deviation of parameter values within all runs is 0 or when a parameter
value (a branch length, for instance) is not sampled in all runs.
Summary statistics for partitions with frequency >= 0.10 in at least one run:
Average standard deviation of split frequencies = 0.000067
Maximum standard deviation of split frequencies = 0.000471
Average PSRF for parameter values ( excluding NA and >10.0 ) = 1.000
Maximum PSRF for parameter values = 1.001
Clade credibility values:
/---------------------------------------------------------------------- C1 (1)
|
|---------------------------------------------------------------------- C2 (2)
|
| /---------------------------------------------------------- C3 (3)
+ |
| | /----------------------- C4 (4)
| | |
| | /----100----+ /------------ C5 (5)
| | | \----100---+
\----100----+ | \------------ C6 (6)
| /----100----+
| | | /----------------------- C8 (8)
| | | |
| | \----100----+ /------------ C9 (9)
\----100---+ \----100---+
| \------------ C10 (10)
|
\----------------------------------------------- C7 (7)
Phylogram (based on average branch lengths):
/------- C1 (1)
|
|----- C2 (2)
|
| /------------ C3 (3)
+ |
| | /--------------------------- C4 (4)
| | |
| | /------+ /----------------------- C5 (5)
| | | \-------+
\-----+ | \------------- C6 (6)
| /----+
| | | /------------------------------------- C8 (8)
| | | |
| | \--+ /---------------- C9 (9)
\--------------------+ \------+
| \-------------------------- C10 (10)
|
\--------------------------------- C7 (7)
|---------| 0.050 expected changes per site
Calculating tree probabilities...
Credible sets of trees (2 trees sampled):
99 % credible set contains 1 tree
Exiting mrbayes block
Reached end of file
Tasks completed, exiting program because mode is noninteractive
To return control to the command line after completion of file processing,
set mode to interactive with 'mb -i <filename>' (i is for interactive)
or use 'set mode=interactive'
MrBayes output code: 0
CODONML in paml version 4.8, March 2014
----------------------------------------------
Phe F TTT | Ser S TCT | Tyr Y TAT | Cys C TGT
TTC | TCC | TAC | TGC
Leu L TTA | TCA | *** * TAA | *** * TGA
TTG | TCG | TAG | Trp W TGG
----------------------------------------------
Leu L CTT | Pro P CCT | His H CAT | Arg R CGT
CTC | CCC | CAC | CGC
CTA | CCA | Gln Q CAA | CGA
CTG | CCG | CAG | CGG
----------------------------------------------
Ile I ATT | Thr T ACT | Asn N AAT | Ser S AGT
ATC | ACC | AAC | AGC
ATA | ACA | Lys K AAA | Arg R AGA
Met M ATG | ACG | AAG | AGG
----------------------------------------------
Val V GTT | Ala A GCT | Asp D GAT | Gly G GGT
GTC | GCC | GAC | GGC
GTA | GCA | Glu E GAA | GGA
GTG | GCG | GAG | GGG
----------------------------------------------
Nice code, uuh?
NSsites batch run (ncatG as in YNGP2000): 0 1 2 3 7 8
seq file is not paml/phylip format. Trying nexus format.
ns = 10 ls = 9291
Reading sequences, sequential format..
Reading seq # 1: C1
Reading seq # 2: C2
Reading seq # 3: C3
Reading seq # 4: C4
Reading seq # 5: C5
Reading seq # 6: C6
Reading seq # 7: C7
Reading seq # 8: C8
Reading seq # 9: C9
Reading seq #10: C10
Sites with gaps or missing data are removed.
3 ambiguity characters in seq. 1
3 ambiguity characters in seq. 2
3 ambiguity characters in seq. 3
6 ambiguity characters in seq. 4
6 ambiguity characters in seq. 5
6 ambiguity characters in seq. 6
3 ambiguity characters in seq. 7
6 ambiguity characters in seq. 8
6 ambiguity characters in seq. 9
6 ambiguity characters in seq. 10
2 sites are removed. 67 3097
codon 2480: AGC AGC AGC AGC AGC AGC TCC AGC AGC AGC
Sequences read..
Counting site patterns.. 0:00
1705 patterns at 3095 / 3095 sites (100.0%), 0:00
Counting codons..
360 bytes for distance
1664080 bytes for conP
231880 bytes for fhK
5000000 bytes for space
Model 0: one-ratio
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
6656320 bytes for conP, adjusted
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 0.300000 1.300000
ntime & nrate & np: 17 2 19
Bounds (np=19):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000100
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 999.000000
np = 19
lnL0 = -38073.714730
Iterating by ming2
Initial: fx= 38073.714730
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 0.30000 1.30000
1 h-m-p 0.0000 0.0002 9066.4260 ++YCYCCC 36723.204412 5 0.0001 34 | 0/19
2 h-m-p 0.0000 0.0001 6381.5907 ++ 35677.418378 m 0.0001 56 | 0/19
3 h-m-p 0.0000 0.0000 49727.8376 ++ 35300.816095 m 0.0000 78 | 0/19
4 h-m-p 0.0000 0.0000 33164.5562 ++ 34806.463734 m 0.0000 100 | 0/19
5 h-m-p 0.0000 0.0000 108972.6538 ++ 30532.125195 m 0.0000 122 | 0/19
6 h-m-p 0.0000 0.0001 4608.5071 YCCCC 30376.955396 4 0.0000 151 | 0/19
7 h-m-p 0.0000 0.0000 5169.0197 ++ 30178.079917 m 0.0000 173 | 1/19
8 h-m-p 0.0000 0.0000 3730.8655 +CYCCC 30040.565943 4 0.0000 203 | 1/19
9 h-m-p 0.0000 0.0002 605.7221 YCCC 30012.834829 3 0.0001 230 | 0/19
10 h-m-p 0.0000 0.0000 1605.5606 YCCC 30000.584396 3 0.0000 257 | 0/19
11 h-m-p 0.0000 0.0000 779.5338 +YYYCC 29993.214835 4 0.0000 285 | 0/19
12 h-m-p 0.0001 0.0003 236.5783 +YYCC 29979.920939 3 0.0002 312 | 0/19
13 h-m-p 0.0001 0.0004 570.9893 YCCC 29948.237921 3 0.0001 339 | 0/19
14 h-m-p 0.0001 0.0003 719.0422 YCYCCC 29858.864444 5 0.0002 369 | 0/19
15 h-m-p 0.0000 0.0002 872.3549 YCYCCC 29794.340088 5 0.0001 399 | 0/19
16 h-m-p 0.0000 0.0002 1406.4729 +YYCCCC 29663.997499 5 0.0001 430 | 0/19
17 h-m-p 0.0000 0.0001 1525.1371 YCCCC 29643.427481 4 0.0000 459 | 0/19
18 h-m-p 0.0001 0.0007 206.2780 CC 29642.417230 1 0.0000 483 | 0/19
19 h-m-p 0.0004 0.0088 21.9273 YC 29642.310031 1 0.0002 506 | 0/19
20 h-m-p 0.0004 0.0103 9.5137 +YYC 29640.886448 2 0.0014 531 | 0/19
21 h-m-p 0.0009 0.0140 14.3012 +CYCCC 29473.937460 4 0.0077 562 | 0/19
22 h-m-p 0.0000 0.0001 1198.4237 YCCCC 29412.119521 4 0.0000 591 | 0/19
23 h-m-p 0.2797 4.2980 0.2128 YYCCC 29323.769165 4 0.4076 619 | 0/19
24 h-m-p 0.8276 4.1382 0.0489 YCCC 29278.963590 3 1.6121 665 | 0/19
25 h-m-p 1.1658 5.8289 0.0528 CYC 29251.618494 2 1.1551 709 | 0/19
26 h-m-p 0.8263 4.1315 0.0454 CCCC 29237.221320 3 0.9112 756 | 0/19
27 h-m-p 1.4144 7.1625 0.0292 YCC 29208.160753 2 2.3453 800 | 0/19
28 h-m-p 1.5540 7.7702 0.0286 YCCC 29162.343700 3 3.3953 846 | 0/19
29 h-m-p 1.5900 8.0000 0.0611 CYC 29133.407640 2 1.5323 890 | 0/19
30 h-m-p 0.9191 4.5956 0.0400 YCCC 29111.621575 3 1.5105 936 | 0/19
31 h-m-p 1.3890 6.9450 0.0184 CCCC 29103.084374 3 1.6114 983 | 0/19
32 h-m-p 1.6000 8.0000 0.0079 YCCC 29094.251282 3 3.6637 1029 | 0/19
33 h-m-p 0.9955 8.0000 0.0290 +CCC 29073.725345 2 4.5011 1075 | 0/19
34 h-m-p 1.6000 8.0000 0.0815 YC 29053.083514 1 2.8320 1117 | 0/19
35 h-m-p 1.6000 8.0000 0.0602 CCC 29043.889240 2 1.7266 1162 | 0/19
36 h-m-p 1.6000 8.0000 0.0098 YCCC 29039.425203 3 2.9282 1208 | 0/19
37 h-m-p 1.1078 8.0000 0.0259 YC 29035.260931 1 2.6150 1250 | 0/19
38 h-m-p 1.6000 8.0000 0.0106 YC 29033.476498 1 2.6188 1292 | 0/19
39 h-m-p 0.8122 8.0000 0.0342 +YC 29031.302755 1 2.5888 1335 | 0/19
40 h-m-p 1.6000 8.0000 0.0138 CCC 29030.427473 2 1.6826 1380 | 0/19
41 h-m-p 1.4401 8.0000 0.0161 CC 29030.217787 1 1.5675 1423 | 0/19
42 h-m-p 1.6000 8.0000 0.0027 YC 29030.179391 1 1.2848 1465 | 0/19
43 h-m-p 1.6000 8.0000 0.0017 C 29030.172275 0 1.4904 1506 | 0/19
44 h-m-p 1.6000 8.0000 0.0003 +C 29030.162205 0 6.5613 1548 | 0/19
45 h-m-p 1.6000 8.0000 0.0002 ++ 29030.084825 m 8.0000 1589 | 0/19
46 h-m-p 1.0638 8.0000 0.0016 YC 29029.882047 1 2.4089 1631 | 0/19
47 h-m-p 1.6000 8.0000 0.0017 YC 29029.591905 1 3.4838 1673 | 0/19
48 h-m-p 1.6000 8.0000 0.0006 C 29029.584926 0 1.3323 1714 | 0/19
49 h-m-p 1.6000 8.0000 0.0002 Y 29029.584809 0 1.0236 1755 | 0/19
50 h-m-p 1.6000 8.0000 0.0000 Y 29029.584805 0 1.2593 1796 | 0/19
51 h-m-p 1.6000 8.0000 0.0000 Y 29029.584805 0 1.0545 1837 | 0/19
52 h-m-p 1.6000 8.0000 0.0000 ------Y 29029.584805 0 0.0001 1884
Out..
lnL = -29029.584805
1885 lfun, 1885 eigenQcodon, 32045 P(t)
Time used: 1:14
Model 1: NearlyNeutral
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 1.909718 0.718247 0.265678
ntime & nrate & np: 17 2 20
Bounds (np=20):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.000001
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 1.000000
Qfactor_NS = 7.806628
np = 20
lnL0 = -31994.022495
Iterating by ming2
Initial: fx= 31994.022495
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 1.90972 0.71825 0.26568
1 h-m-p 0.0000 0.0000 7859.6839 ++ 29468.099702 m 0.0000 25 | 0/20
2 h-m-p 0.0000 0.0000 7905.7599 CYCCC 29434.833235 4 0.0000 56 | 0/20
3 h-m-p 0.0000 0.0000 3993.9203 +YYCCC 29310.193450 4 0.0000 86 | 0/20
4 h-m-p 0.0000 0.0001 1170.4506 YCYCCC 29275.425710 5 0.0001 117 | 0/20
5 h-m-p 0.0000 0.0001 977.8413 CCCC 29266.856870 3 0.0000 146 | 0/20
6 h-m-p 0.0001 0.0003 331.9689 YCC 29264.706942 2 0.0000 172 | 0/20
7 h-m-p 0.0001 0.0004 243.9728 CCC 29263.610895 2 0.0001 199 | 0/20
8 h-m-p 0.0001 0.0022 129.8503 YC 29262.266542 1 0.0002 223 | 0/20
9 h-m-p 0.0001 0.0015 410.5016 +YC 29259.185735 1 0.0002 248 | 0/20
10 h-m-p 0.0001 0.0006 1243.9816 CCC 29254.880575 2 0.0001 275 | 0/20
11 h-m-p 0.0001 0.0005 1226.0249 YCCC 29247.867670 3 0.0001 303 | 0/20
12 h-m-p 0.0001 0.0009 1260.6108 CCC 29242.500633 2 0.0001 330 | 0/20
13 h-m-p 0.0001 0.0007 599.8169 YCC 29240.592598 2 0.0001 356 | 0/20
14 h-m-p 0.0007 0.0034 75.0951 YC 29240.354510 1 0.0001 380 | 0/20
15 h-m-p 0.0004 0.0055 20.1669 YC 29240.131783 1 0.0003 404 | 0/20
16 h-m-p 0.0003 0.0056 17.8276 +YYC 29237.297721 2 0.0012 430 | 0/20
17 h-m-p 0.0003 0.0040 67.4917 ++ 29111.032404 m 0.0040 453 | 0/20
18 h-m-p 0.0000 0.0000 330.6661
h-m-p: 7.46453446e-20 3.73226723e-19 3.30666087e+02 29111.032404
.. | 0/20
19 h-m-p 0.0000 0.0002 8189.6072 -CCCC 29095.473902 3 0.0000 503 | 0/20
20 h-m-p 0.0000 0.0000 4686.4849 YCYCCC 29076.958290 5 0.0000 534 | 0/20
21 h-m-p 0.0000 0.0000 2107.3902 +YCCC 29058.712641 3 0.0000 563 | 0/20
22 h-m-p 0.0000 0.0001 2429.3713 +YYCC 29001.320779 3 0.0000 591 | 0/20
23 h-m-p 0.0000 0.0002 960.3020 CCCC 28985.220283 3 0.0000 620 | 0/20
24 h-m-p 0.0001 0.0004 577.9593 YC 28981.986695 1 0.0000 644 | 0/20
25 h-m-p 0.0001 0.0005 271.0852 YC 28981.099043 1 0.0000 668 | 0/20
26 h-m-p 0.0001 0.0010 161.5825 YC 28980.809310 1 0.0000 692 | 0/20
27 h-m-p 0.0000 0.0050 119.3918 +CYC 28980.011571 2 0.0002 719 | 0/20
28 h-m-p 0.0000 0.0014 461.3067 +YYC 28977.366451 2 0.0002 745 | 0/20
29 h-m-p 0.0000 0.0011 2028.1307 +YCC 28969.633486 2 0.0001 772 | 0/20
30 h-m-p 0.0001 0.0003 3695.8280 YCC 28964.933052 2 0.0000 798 | 0/20
31 h-m-p 0.0003 0.0015 180.2552 CC 28964.617575 1 0.0001 823 | 0/20
32 h-m-p 0.0003 0.0042 42.1417 YC 28964.592155 1 0.0000 847 | 0/20
33 h-m-p 0.0001 0.0100 13.7244 YC 28964.587862 1 0.0001 871 | 0/20
34 h-m-p 0.0003 0.0965 2.0465 YC 28964.586884 1 0.0002 895 | 0/20
35 h-m-p 0.0001 0.0387 3.3938 YC 28964.584468 1 0.0002 919 | 0/20
36 h-m-p 0.0004 0.1092 1.3702 +C 28964.536365 0 0.0017 943 | 0/20
37 h-m-p 0.0001 0.0175 20.7744 +YC 28963.786415 1 0.0008 968 | 0/20
38 h-m-p 0.0002 0.0065 85.4327 YC 28961.433481 1 0.0004 992 | 0/20
39 h-m-p 0.0009 0.0047 43.0524 -YC 28961.353877 1 0.0001 1017 | 0/20
40 h-m-p 0.6223 8.0000 0.0063 +YCC 28960.684665 2 1.7160 1044 | 0/20
41 h-m-p 1.6000 8.0000 0.0028 YC 28960.620742 1 1.2100 1088 | 0/20
42 h-m-p 0.9886 8.0000 0.0034 C 28960.619126 0 0.9062 1131 | 0/20
43 h-m-p 1.6000 8.0000 0.0002 Y 28960.619107 0 1.0015 1174 | 0/20
44 h-m-p 1.6000 8.0000 0.0000 Y 28960.619106 0 1.2617 1217 | 0/20
45 h-m-p 1.6000 8.0000 0.0000 C 28960.619106 0 0.4000 1260 | 0/20
46 h-m-p 0.6479 8.0000 0.0000 Y 28960.619106 0 0.6479 1303 | 0/20
47 h-m-p 1.6000 8.0000 0.0000 ----C 28960.619106 0 0.0016 1350
Out..
lnL = -28960.619106
1351 lfun, 4053 eigenQcodon, 45934 P(t)
Time used: 3:01
Model 2: PositiveSelection
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
initial w for M2:NSpselection reset.
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 1.943999 1.659473 0.574115 0.238709 2.403915
ntime & nrate & np: 17 3 22
Bounds (np=22):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 -99.000000 -99.000000 0.000001 1.000000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 1.000000 999.000000
Qfactor_NS = 6.163112
np = 22
lnL0 = -32357.362613
Iterating by ming2
Initial: fx= 32357.362613
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 1.94400 1.65947 0.57412 0.23871 2.40392
1 h-m-p 0.0000 0.0001 8046.3484 ++ 30437.803809 m 0.0001 27 | 1/22
2 h-m-p 0.0001 0.0024 3053.7270 YYCCC 29923.807521 4 0.0001 58 | 0/22
3 h-m-p 0.0000 0.0000 782731.2472 -YCYCCC 29902.056775 5 0.0000 92 | 0/22
4 h-m-p 0.0000 0.0005 901.0347 +YCYCCC 29755.127117 5 0.0003 126 | 0/22
5 h-m-p 0.0001 0.0003 2037.9802 +YCCCC 29648.317218 4 0.0001 159 | 0/22
6 h-m-p 0.0001 0.0006 1060.2759 YCCCC 29575.919009 4 0.0003 191 | 0/22
7 h-m-p 0.0001 0.0007 1725.5878 CYC 29534.185715 2 0.0001 219 | 0/22
8 h-m-p 0.0001 0.0006 651.3601 CCCC 29516.037891 3 0.0002 250 | 0/22
9 h-m-p 0.0002 0.0012 379.3257 YYCC 29509.325211 3 0.0002 279 | 0/22
10 h-m-p 0.0004 0.0035 154.1088 YC 29507.786072 1 0.0002 305 | 0/22
11 h-m-p 0.0003 0.0040 93.3533 YC 29507.125807 1 0.0002 331 | 0/22
12 h-m-p 0.0002 0.0162 89.1244 ++YC 29501.972498 1 0.0025 359 | 0/22
13 h-m-p 0.0003 0.0053 822.7769 +YCCC 29488.902211 3 0.0007 390 | 0/22
14 h-m-p 0.0004 0.0018 306.8973 YCC 29487.274986 2 0.0002 418 | 0/22
15 h-m-p 0.0008 0.0088 96.8687 YC 29486.585204 1 0.0004 444 | 0/22
16 h-m-p 0.0003 0.0340 129.1089 ++CCC 29477.434100 2 0.0045 475 | 0/22
17 h-m-p 0.0004 0.0045 1630.0974 CCCC 29464.664480 3 0.0005 506 | 0/22
18 h-m-p 0.0007 0.0035 205.6292 CCC 29461.983080 2 0.0009 535 | 0/22
19 h-m-p 0.0005 0.0336 376.7582 ++YCYCCC 29408.594092 5 0.0055 570 | 0/22
20 h-m-p 0.0008 0.0041 1795.4888 CCC 29402.986118 2 0.0002 599 | 0/22
21 h-m-p 0.0105 0.0525 11.6103 YC 29402.707152 1 0.0017 625 | 0/22
22 h-m-p 0.0031 0.1694 6.3947 +CCC 29396.835299 2 0.0180 655 | 0/22
23 h-m-p 0.0009 0.0385 128.3323 ++CCC 29268.238164 2 0.0151 686 | 0/22
24 h-m-p 0.3857 2.2940 5.0159 YCCC 29218.441694 3 0.6467 716 | 0/22
25 h-m-p 1.0479 5.2394 2.7346 YCCC 29182.236013 3 0.7951 746 | 0/22
26 h-m-p 0.8165 4.0825 1.5186 YCCC 29140.950958 3 2.0299 776 | 0/22
27 h-m-p 0.6056 3.0278 0.9531 YCCC 29131.132948 3 1.4649 806 | 0/22
28 h-m-p 1.6000 8.0000 0.0510 YCCC 29116.492649 3 4.0701 858 | 0/22
29 h-m-p 0.9371 4.6854 0.1651 YCYCCC 29095.954181 5 2.5187 913 | 0/22
30 h-m-p 0.2286 2.0252 1.8192 +YYYCC 29078.712379 4 0.8237 966 | 0/22
31 h-m-p 0.8009 4.0044 0.9724 CCCCC 29058.757765 4 1.2402 999 | 0/22
32 h-m-p 0.5335 2.6676 1.0268 CCCCC 29039.906351 4 0.7420 1054 | 0/22
33 h-m-p 0.2408 1.2041 2.8211 CYC 29027.933996 2 0.2694 1082 | 0/22
34 h-m-p 0.2143 1.0713 0.9973 YCYCC 29018.495831 4 0.5524 1113 | 0/22
35 h-m-p 0.2270 1.1352 1.0174 YCCCC 29010.151408 4 0.4172 1167 | 0/22
36 h-m-p 0.3531 3.1446 1.2019 YC 29000.762321 1 0.7049 1193 | 0/22
37 h-m-p 0.6997 3.8920 1.2110 CCCCC 28992.172437 4 0.8074 1226 | 0/22
38 h-m-p 0.5176 4.2267 1.8890 CCCCC 28982.756606 4 0.7151 1259 | 0/22
39 h-m-p 0.5510 2.7551 2.0606 CCC 28978.663738 2 0.4701 1288 | 0/22
40 h-m-p 0.3984 3.0088 2.4314 CCCC 28974.483199 3 0.4156 1319 | 0/22
41 h-m-p 0.5483 6.3524 1.8430 YCC 28972.337331 2 0.3615 1347 | 0/22
42 h-m-p 0.2639 4.5112 2.5243 YCCC 28969.516050 3 0.6092 1377 | 0/22
43 h-m-p 0.7203 6.4479 2.1348 YYC 28967.624271 2 0.5695 1404 | 0/22
44 h-m-p 0.7929 7.8738 1.5334 CCC 28966.164595 2 0.7154 1433 | 0/22
45 h-m-p 0.4951 5.6712 2.2157 CCC 28965.002328 2 0.6971 1462 | 0/22
46 h-m-p 0.6971 8.0000 2.2155 CY 28963.972506 1 0.7055 1489 | 0/22
47 h-m-p 0.4086 5.4789 3.8253 YYC 28963.346347 2 0.3662 1516 | 0/22
48 h-m-p 0.7391 8.0000 1.8955 CCC 28962.755704 2 0.6245 1545 | 0/22
49 h-m-p 0.4995 8.0000 2.3699 CCC 28962.276249 2 0.7219 1574 | 0/22
50 h-m-p 0.6599 8.0000 2.5927 C 28961.905430 0 0.6112 1599 | 0/22
51 h-m-p 0.7594 8.0000 2.0867 CC 28961.579276 1 0.8437 1626 | 0/22
52 h-m-p 0.9858 8.0000 1.7860 C 28961.330920 0 1.0497 1651 | 0/22
53 h-m-p 0.8383 8.0000 2.2363 CC 28961.109523 1 0.9950 1678 | 0/22
54 h-m-p 0.7968 8.0000 2.7926 CYC 28960.970387 2 0.7407 1706 | 0/22
55 h-m-p 1.4950 8.0000 1.3835 YC 28960.881378 1 0.6743 1732 | 0/22
56 h-m-p 0.3897 8.0000 2.3941 YC 28960.802367 1 0.7865 1758 | 0/22
57 h-m-p 1.6000 8.0000 1.0479 YC 28960.778960 1 0.6936 1784 | 0/22
58 h-m-p 1.0722 8.0000 0.6779 YC 28960.761660 1 0.7675 1810 | 0/22
59 h-m-p 1.3025 8.0000 0.3995 CC 28960.744273 1 1.6083 1859 | 0/22
60 h-m-p 0.7823 8.0000 0.8212 YC 28960.716603 1 1.4470 1907 | 0/22
61 h-m-p 0.7903 8.0000 1.5036 CC 28960.696696 1 0.9564 1956 | 0/22
62 h-m-p 0.9328 8.0000 1.5415 CC 28960.671729 1 1.2931 1983 | 0/22
63 h-m-p 1.2413 8.0000 1.6058 C 28960.658322 0 1.1284 2008 | 0/22
64 h-m-p 0.5975 8.0000 3.0327 YC 28960.640118 1 1.1386 2034 | 0/22
65 h-m-p 1.6000 8.0000 2.1297 C 28960.631436 0 1.5066 2059 | 0/22
66 h-m-p 0.9991 8.0000 3.2114 YC 28960.626659 1 0.7537 2085 | 0/22
67 h-m-p 1.1373 8.0000 2.1280 YC 28960.622693 1 1.9984 2111 | 0/22
68 h-m-p 1.6000 8.0000 2.2868 Y 28960.621366 0 1.1738 2136 | 0/22
69 h-m-p 0.9350 8.0000 2.8710 C 28960.620444 0 0.9933 2161 | 0/22
70 h-m-p 1.3931 8.0000 2.0470 C 28960.619861 0 1.6078 2186 | 0/22
71 h-m-p 1.6000 8.0000 1.5867 C 28960.619545 0 1.6000 2211 | 0/22
72 h-m-p 1.6000 8.0000 1.3710 C 28960.619425 0 1.4058 2236 | 0/22
73 h-m-p 1.6000 8.0000 0.7453 C 28960.619354 0 1.2971 2261 | 0/22
74 h-m-p 0.2658 8.0000 3.6378 +Y 28960.619305 0 0.8545 2309 | 0/22
75 h-m-p 1.6000 8.0000 1.0748 Y 28960.619276 0 0.8577 2334 | 0/22
76 h-m-p 0.8736 8.0000 1.0552 ------C 28960.619276 0 0.0001 2365 | 0/22
77 h-m-p 0.0303 8.0000 0.0019 ++C 28960.619270 0 0.5975 2392 | 0/22
78 h-m-p 0.0599 8.0000 0.0185 ++Y 28960.619268 0 0.7550 2441 | 0/22
79 h-m-p 1.6000 8.0000 0.0062 C 28960.619268 0 0.6313 2488 | 0/22
80 h-m-p 1.6000 8.0000 0.0019 ----------------.. | 0/22
81 h-m-p 0.0089 4.4663 0.2244 ------------- | 0/22
82 h-m-p 0.0089 4.4663 0.2244 -------------
Out..
lnL = -28960.619268
2666 lfun, 10664 eigenQcodon, 135966 P(t)
BEBing (dim = 4). This may take several minutes.
Calculating f(x_h|w): 10 categories 21 w sets.
Calculating f(X), the marginal probability of data.
log(fX) = -29577.173150 S = -29237.830166 -330.140084
Calculating f(w|X), posterior probabilities of site classes.
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Time used: 8:27
Model 3: discrete
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 1.943969 0.339697 0.499728 0.004418 0.009289 0.018076
ntime & nrate & np: 17 4 23
Bounds (np=23):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 -99.000000 -99.000000 0.000001 0.000001 0.000001
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 999.000000 999.000000 999.000000
Qfactor_NS = 18.296885
np = 23
lnL0 = -29044.263840
Iterating by ming2
Initial: fx= 29044.263840
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 1.94397 0.33970 0.49973 0.00442 0.00929 0.01808
1 h-m-p 0.0000 0.0000 3670.7195 ++ 29019.556975 m 0.0000 51 | 1/23
2 h-m-p 0.0000 0.0000 11117.7572 ++ 28987.819019 m 0.0000 100 | 2/23
3 h-m-p 0.0000 0.0001 405.9210 CCC 28984.854257 2 0.0000 152 | 2/23
4 h-m-p 0.0001 0.0008 260.5904 C 28983.071120 0 0.0001 199 | 2/23
5 h-m-p 0.0001 0.0010 115.7041 CCC 28982.717419 2 0.0000 250 | 2/23
6 h-m-p 0.0000 0.0006 116.8605 C 28982.405954 0 0.0000 297 | 2/23
7 h-m-p 0.0001 0.0011 60.4625 CC 28982.188371 1 0.0001 346 | 2/23
8 h-m-p 0.0001 0.0015 75.8191 YC 28982.112826 1 0.0000 394 | 2/23
9 h-m-p 0.0001 0.0105 43.3399 YC 28982.039471 1 0.0001 442 | 2/23
10 h-m-p 0.0001 0.0070 92.7323 +CC 28981.818223 1 0.0002 492 | 2/23
11 h-m-p 0.0001 0.0029 277.0779 +CCC 28980.912045 2 0.0003 544 | 2/23
12 h-m-p 0.0001 0.0026 1406.4902 YC 28978.865305 1 0.0001 592 | 2/23
13 h-m-p 0.0001 0.0006 2473.2385 YCC 28977.332009 2 0.0001 642 | 2/23
14 h-m-p 0.0001 0.0013 1153.4878 YC 28976.715435 1 0.0000 690 | 2/23
15 h-m-p 0.0003 0.0014 205.1740 CC 28976.513702 1 0.0001 739 | 2/23
16 h-m-p 0.0001 0.0028 239.4280 CC 28976.215589 1 0.0001 788 | 2/23
17 h-m-p 0.0001 0.0050 580.4981 +YCC 28973.623102 2 0.0004 839 | 2/23
18 h-m-p 0.0001 0.0030 3990.2921 +YCCC 28966.274571 3 0.0002 892 | 2/23
19 h-m-p 0.0005 0.0023 1329.2663 CY 28964.741826 1 0.0001 941 | 2/23
20 h-m-p 0.0036 0.0181 22.3291 --YC 28964.727889 1 0.0001 991 | 2/23
21 h-m-p 0.0014 0.1604 1.4379 C 28964.711485 0 0.0015 1038 | 2/23
22 h-m-p 0.0019 0.9403 17.6642 ++CYCC 28957.149461 3 0.0406 1092 | 2/23
23 h-m-p 0.2002 1.5031 3.5834 CYCCC 28951.477551 4 0.3895 1146 | 2/23
24 h-m-p 1.6000 8.0000 0.2901 CC 28941.949204 1 2.3681 1195 | 2/23
25 h-m-p 1.6000 8.0000 0.1491 CYC 28937.112651 2 1.5332 1245 | 2/23
26 h-m-p 0.2764 8.0000 0.8268 +YYCC 28934.402620 3 0.9010 1297 | 2/23
27 h-m-p 1.6000 8.0000 0.0784 YCCC 28931.156005 3 3.2653 1349 | 1/23
28 h-m-p 0.0052 0.1174 49.2878 -----C 28931.155975 0 0.0000 1401 | 1/23
29 h-m-p 0.0020 1.0088 0.0725 +++++ 28930.363464 m 1.0088 1452 | 1/23
30 h-m-p 0.0006 0.0085 118.6033 ---YC 28930.362350 1 0.0000 1504 | 1/23
31 h-m-p 0.0031 1.5413 0.0666 ++++YC 28930.191559 1 1.1193 1557 | 0/23
32 h-m-p 0.0000 0.0000 3492.2453 CC 28930.188501 1 0.0000 1607 | 0/23
33 h-m-p 0.0016 0.0081 0.4775 -----------.. | 0/23
34 h-m-p 0.0000 0.0000 2265.1170 -
Out..
lnL = -28930.188501
1714 lfun, 6856 eigenQcodon, 87414 P(t)
Time used: 11:52
Model 7: beta
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 1.908301 0.309823 1.349954
ntime & nrate & np: 17 1 20
Bounds (np=20):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.005000 0.005000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000
Qfactor_NS = 12.213962
np = 20
lnL0 = -30098.931775
Iterating by ming2
Initial: fx= 30098.931775
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 1.90830 0.30982 1.34995
1 h-m-p 0.0000 0.0001 5574.4355 +CYYYCC 29508.970677 5 0.0001 53 | 0/20
2 h-m-p 0.0000 0.0000 4685.7188 +YYYCYCCC 29341.224386 7 0.0000 107 | 0/20
3 h-m-p 0.0000 0.0002 1006.1189 CYCCC 29308.699773 4 0.0001 157 | 0/20
4 h-m-p 0.0000 0.0001 986.0822 CCCC 29294.994750 3 0.0000 206 | 0/20
5 h-m-p 0.0001 0.0003 585.6256 CCC 29287.999326 2 0.0001 253 | 0/20
6 h-m-p 0.0001 0.0003 547.6184 CCCC 29281.816157 3 0.0001 302 | 0/20
7 h-m-p 0.0001 0.0007 620.8138 +YYC 29264.789554 2 0.0002 348 | 0/20
8 h-m-p 0.0001 0.0008 2716.9597 +YYCC 29208.366477 3 0.0002 396 | 0/20
9 h-m-p 0.0000 0.0002 6346.7378 YCCCC 29137.868231 4 0.0001 446 | 0/20
10 h-m-p 0.0000 0.0002 6004.0392 YCCCCC 29097.474084 5 0.0001 498 | 0/20
11 h-m-p 0.0000 0.0002 3740.8387 CCCCC 29070.241165 4 0.0001 549 | 0/20
12 h-m-p 0.0001 0.0003 2001.2154 YCCC 29062.186611 3 0.0000 597 | 0/20
13 h-m-p 0.0003 0.0014 223.1999 YC 29061.554132 1 0.0000 641 | 0/20
14 h-m-p 0.0002 0.0051 50.0711 C 29061.246149 0 0.0002 684 | 0/20
15 h-m-p 0.0001 0.0074 166.8300 ++CYC 29056.684267 2 0.0009 732 | 0/20
16 h-m-p 0.0001 0.0006 2224.7216 CCCC 29050.036378 3 0.0001 781 | 0/20
17 h-m-p 0.0001 0.0004 698.1291 YC 29049.307907 1 0.0000 825 | 0/20
18 h-m-p 0.0005 0.0039 50.7349 YC 29049.184625 1 0.0001 869 | 0/20
19 h-m-p 0.0004 0.0182 11.3392 +YC 29046.744297 1 0.0026 914 | 0/20
20 h-m-p 0.0001 0.0004 454.5196 +CCCC 29033.300532 3 0.0003 964 | 0/20
21 h-m-p 0.0004 0.0020 87.3684 YC 29033.105138 1 0.0001 1008 | 0/20
22 h-m-p 0.0121 1.2341 0.4199 +++YCCC 28954.473175 3 0.5678 1059 | 0/20
23 h-m-p 0.9064 4.5320 0.1373 YCCC 28949.568881 3 0.5374 1107 | 0/20
24 h-m-p 1.6000 8.0000 0.0360 YC 28948.835206 1 0.7335 1151 | 0/20
25 h-m-p 1.6000 8.0000 0.0067 YC 28948.644940 1 0.9507 1195 | 0/20
26 h-m-p 0.3009 8.0000 0.0211 +CC 28948.573677 1 1.5008 1241 | 0/20
27 h-m-p 1.0221 8.0000 0.0310 YC 28948.431607 1 2.4209 1285 | 0/20
28 h-m-p 1.6000 8.0000 0.0421 CC 28948.298342 1 2.2475 1330 | 0/20
29 h-m-p 1.2085 8.0000 0.0783 +YC 28947.676120 1 5.9995 1375 | 0/20
30 h-m-p 1.1042 6.9252 0.4252 YCYYCC 28944.952892 5 3.2771 1426 | 0/20
31 h-m-p 0.1927 0.9633 1.6098 YYYYCCCCC 28944.352715 8 0.2454 1481 | 0/20
32 h-m-p 0.2194 1.0969 1.0184 YYCCC 28942.829473 4 0.3325 1530 | 0/20
33 h-m-p 0.3842 1.9209 0.4264 YYYC 28942.595918 3 0.3364 1576 | 0/20
34 h-m-p 1.6000 8.0000 0.0649 YC 28942.474528 1 0.7738 1620 | 0/20
35 h-m-p 0.3568 4.4569 0.1408 YYY 28942.456566 2 0.3568 1665 | 0/20
36 h-m-p 0.9671 8.0000 0.0519 CC 28942.424905 1 1.1441 1710 | 0/20
37 h-m-p 1.6000 8.0000 0.0337 YYC 28942.412918 2 1.2951 1755 | 0/20
38 h-m-p 1.6000 8.0000 0.0203 C 28942.405117 0 0.4651 1798 | 0/20
39 h-m-p 0.2628 8.0000 0.0359 +YY 28942.398663 1 1.0513 1843 | 0/20
40 h-m-p 1.6000 8.0000 0.0148 C 28942.393624 0 1.9671 1886 | 0/20
41 h-m-p 1.5532 8.0000 0.0188 YC 28942.392237 1 0.7262 1930 | 0/20
42 h-m-p 1.6000 8.0000 0.0052 C 28942.391003 0 0.5506 1973 | 0/20
43 h-m-p 0.3429 8.0000 0.0084 +CY 28942.389343 1 2.6620 2019 | 0/20
44 h-m-p 1.6000 8.0000 0.0064 C 28942.389228 0 0.4000 2062 | 0/20
45 h-m-p 0.8431 8.0000 0.0030 Y 28942.388786 0 1.6898 2105 | 0/20
46 h-m-p 1.6000 8.0000 0.0011 C 28942.388580 0 1.4959 2148 | 0/20
47 h-m-p 1.1895 8.0000 0.0014 +Y 28942.388319 0 3.7850 2192 | 0/20
48 h-m-p 1.6000 8.0000 0.0029 Y 28942.388312 0 0.2387 2235 | 0/20
49 h-m-p 0.5951 8.0000 0.0012 C 28942.388295 0 0.4815 2278 | 0/20
50 h-m-p 0.9847 8.0000 0.0006 -Y 28942.388295 0 0.1130 2322 | 0/20
51 h-m-p 0.2047 8.0000 0.0003 Y 28942.388292 0 0.3956 2365 | 0/20
52 h-m-p 0.7293 8.0000 0.0002 Y 28942.388292 0 0.1295 2408 | 0/20
53 h-m-p 0.1959 8.0000 0.0001 C 28942.388292 0 0.2693 2451 | 0/20
54 h-m-p 0.3890 8.0000 0.0001 Y 28942.388292 0 0.0683 2494 | 0/20
55 h-m-p 0.0829 8.0000 0.0001 Y 28942.388292 0 0.1395 2537 | 0/20
56 h-m-p 0.1650 8.0000 0.0001 Y 28942.388292 0 0.0232 2580 | 0/20
57 h-m-p 0.0231 8.0000 0.0001 --C 28942.388292 0 0.0004 2625
Out..
lnL = -28942.388292
2626 lfun, 28886 eigenQcodon, 446420 P(t)
Time used: 29:11
Model 8: beta&w>1
TREE # 1
(1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
initial w for M8:NSbetaw>1 reset.
0.048773 0.034806 0.041796 0.073457 0.119846 0.029480 0.046182 0.154071 0.032837 0.142894 0.087516 0.004307 0.212261 0.041814 0.108440 0.154519 0.198678 1.910132 0.900000 0.966220 1.075304 2.140227
ntime & nrate & np: 17 2 22
Bounds (np=22):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.005000 0.005000 1.000000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 99.000000 99.000000 999.000000
Qfactor_NS = 6.456394
np = 22
lnL0 = -32453.256055
Iterating by ming2
Initial: fx= 32453.256055
x= 0.04877 0.03481 0.04180 0.07346 0.11985 0.02948 0.04618 0.15407 0.03284 0.14289 0.08752 0.00431 0.21226 0.04181 0.10844 0.15452 0.19868 1.91013 0.90000 0.96622 1.07530 2.14023
1 h-m-p 0.0000 0.0000 7647.6898 ++ 31939.667061 m 0.0000 49 | 1/22
2 h-m-p 0.0001 0.0005 2529.5474 ++ 30394.875320 m 0.0005 96 | 0/22
3 h-m-p 0.0000 0.0000 842888.3690
h-m-p: 1.29487232e-24 6.47436158e-24 8.42888369e+05 30394.875320
..
0.042335 0.020269 0.039515 0.190958 0.242980 0.012147 0.036538 0.315228 0.142424 0.259133 0.165251 0.127595 0.296180 0.047949 0.191762 0.284464 0.258920 2.046902 1.000079 0.005000 1.717830 2.122809
lfundG: h= 72 fhK=-9.006092e-18
data: AAC (N) AAC (N) AGC (S) AAT (N) AAC (N) AAC (N) AAC (N) ACA (T) AAC (N) AAT (N)
| 0/22
4 h-m-p 0.0000 0.0000 110534959.7022 CCCYC 29643.998974 4 0.0000 194 | 0/22
5 h-m-p 0.0000 0.0002 22380.5982 CYCYCYCCC 29383.412824 8 0.0000 254 | 0/22
6 h-m-p 0.0000 0.0002 3258.6660 +YCYCCC 29301.535993 5 0.0000 310 | 0/22
7 h-m-p 0.0000 0.0002 1204.2132 +YYCCC 29217.793384 4 0.0001 364 | 0/22
8 h-m-p 0.0001 0.0005 332.2992 CCCC 29211.587066 3 0.0001 417 | 0/22
9 h-m-p 0.0002 0.0024 182.8151 CCC 29210.567575 2 0.0001 468 | 0/22
10 h-m-p 0.0001 0.0016 115.5211 CC 29210.031520 1 0.0001 517 | 0/22
11 h-m-p 0.0002 0.0044 57.5556 CC 29209.798723 1 0.0002 566 | 0/22
12 h-m-p 0.0001 0.0066 113.9457 +CC 29208.833827 1 0.0005 616 | 0/22
13 h-m-p 0.0001 0.0028 435.7441 +CCC 29204.361476 2 0.0006 668 | 0/22
14 h-m-p 0.0001 0.0005 1798.5426 YCCC 29196.990313 3 0.0002 720 | 0/22
15 h-m-p 0.0000 0.0001 3779.2595 ++ 29186.452825 m 0.0001 767 | 1/22
16 h-m-p 0.0015 0.0096 161.8250 -YC 29186.342745 1 0.0001 816 | 1/22
17 h-m-p 0.0005 0.0123 17.8431 CC 29186.020690 1 0.0004 864 | 1/22
18 h-m-p 0.0001 0.0046 65.5429 YC 29185.544438 1 0.0002 911 | 1/22
19 h-m-p 0.0002 0.0029 62.8283 YC 29185.426185 1 0.0001 958 | 1/22
20 h-m-p 0.0001 0.0073 41.3953 CC 29185.362411 1 0.0001 1006 | 1/22
21 h-m-p 0.0005 0.0488 8.3673 YC 29185.343964 1 0.0003 1053 | 1/22
22 h-m-p 0.0003 0.0315 8.5488 CC 29185.309760 1 0.0004 1101 | 1/22
23 h-m-p 0.0002 0.0749 19.3116 ++YC 29183.710823 1 0.0047 1150 | 1/22
24 h-m-p 0.0001 0.0024 656.9568 +YYCCYCCC 29172.562514 7 0.0008 1208 | 1/22
25 h-m-p 0.0024 0.0122 27.3857 -CC 29172.411567 1 0.0002 1257 | 1/22
26 h-m-p 0.0005 0.2317 15.0183 +++YCCC 29139.481343 3 0.0570 1311 | 1/22
27 h-m-p 0.5027 2.5136 0.0601 CCCC 29131.944007 3 0.6620 1363 | 1/22
28 h-m-p 0.4727 4.3151 0.0842 CCC 29130.196448 2 0.5865 1413 | 1/22
29 h-m-p 1.6000 8.0000 0.0111 CC 29130.115706 1 0.5836 1461 | 1/22
30 h-m-p 1.6000 8.0000 0.0023 YC 29130.100689 1 1.2299 1508 | 1/22
31 h-m-p 1.6000 8.0000 0.0016 ++ 29130.064774 m 8.0000 1554 | 1/22
32 h-m-p 1.3732 8.0000 0.0090 ++ 29129.746008 m 8.0000 1600 | 1/22
33 h-m-p 0.9205 8.0000 0.0785 ++ 29127.720512 m 8.0000 1646 | 1/22
34 h-m-p 1.6000 8.0000 0.3761 +YC 29118.259954 1 5.1394 1694 | 1/22
35 h-m-p 0.6786 8.0000 2.8482 ++ 29048.615285 m 8.0000 1740 | 1/22
36 h-m-p 0.1377 0.6887 7.4475 +YYCYCCC 29004.823248 6 0.5741 1796 | 1/22
37 h-m-p 0.1098 0.5491 16.2360 YCYC 28971.148164 3 0.1854 1846 | 1/22
38 h-m-p 0.3104 1.5520 1.5963 CYCCC 28959.236345 4 0.5862 1899 | 1/22
39 h-m-p 0.7571 3.7856 0.7474 CCC 28956.798381 2 0.7673 1949 | 1/22
40 h-m-p 1.0606 5.3032 0.4332 YC 28956.283275 1 0.6271 1996 | 1/22
41 h-m-p 1.6000 8.0000 0.0375 YC 28956.232020 1 0.8285 2043 | 1/22
42 h-m-p 1.6000 8.0000 0.0080 YC 28956.211388 1 0.9717 2090 | 1/22
43 h-m-p 1.6000 8.0000 0.0031 CC 28956.188115 1 1.8984 2138 | 1/22
44 h-m-p 0.1972 8.0000 0.0297 +++ 28955.951604 m 8.0000 2185 | 1/22
45 h-m-p 1.0196 8.0000 0.2327 +YC 28954.443686 1 5.4016 2233 | 1/22
46 h-m-p 0.8937 8.0000 1.4067 CCC 28953.059541 2 1.0646 2283 | 1/22
47 h-m-p 1.0665 8.0000 1.4043 CC 28952.239697 1 1.0423 2331 | 1/22
48 h-m-p 1.6000 8.0000 0.2515 YC 28952.199140 1 0.7906 2378 | 1/22
49 h-m-p 1.6000 8.0000 0.0349 YC 28952.196942 1 1.1048 2425 | 1/22
50 h-m-p 1.6000 8.0000 0.0037 ++ 28952.193140 m 8.0000 2471 | 1/22
51 h-m-p 0.4651 8.0000 0.0644 +++ 28952.126894 m 8.0000 2518 | 1/22
52 h-m-p 0.0623 4.1740 8.2580 +++YYYYYYYYYY 28946.953753 10 3.9902 2576 | 1/22
53 h-m-p 0.0081 0.0404 37.5405 -C 28946.951627 0 0.0007 2623 | 1/22
54 h-m-p 0.0020 0.1183 12.6188 ++YYYYYYYYY 28946.694273 8 0.0327 2679 | 1/22
55 h-m-p 0.2082 1.0412 0.2320 +YYCCC 28939.741867 4 0.6854 2732 | 1/22
56 h-m-p 0.2933 1.7287 0.5421 YYCC 28939.651687 3 0.1953 2782 | 1/22
57 h-m-p 1.6000 8.0000 0.0454 YC 28939.415541 1 0.2526 2829 | 1/22
58 h-m-p 0.1641 8.0000 0.0698 +YC 28939.384127 1 1.1216 2877 | 1/22
59 h-m-p 1.0410 8.0000 0.0752 YYY 28939.368643 2 1.0410 2925 | 1/22
60 h-m-p 1.2365 8.0000 0.0633 YYC 28939.346074 2 1.2539 2973 | 1/22
61 h-m-p 1.6000 8.0000 0.0473 YYYY 28939.333590 3 1.6000 3022 | 1/22
62 h-m-p 1.6000 8.0000 0.0249 C 28939.331750 0 0.5562 3068 | 1/22
63 h-m-p 0.0633 2.3389 0.2187 +YC 28939.328351 1 0.1672 3116 | 1/22
64 h-m-p 1.1397 8.0000 0.0321 Y 28939.327474 0 0.5056 3162 | 1/22
65 h-m-p 1.6000 8.0000 0.0087 C 28939.326216 0 1.3070 3208 | 1/22
66 h-m-p 0.6525 8.0000 0.0173 YC 28939.325033 1 1.1903 3255 | 1/22
67 h-m-p 1.6000 8.0000 0.0044 Y 28939.324463 0 1.0891 3301 | 1/22
68 h-m-p 0.3010 8.0000 0.0160 +Y 28939.323710 0 1.2038 3348 | 1/22
69 h-m-p 1.6000 8.0000 0.0007 Y 28939.323493 0 1.0167 3394 | 1/22
70 h-m-p 0.0784 8.0000 0.0096 ++C 28939.322948 0 1.5406 3442 | 1/22
71 h-m-p 1.6000 8.0000 0.0039 +Y 28939.322536 0 5.0817 3489 | 1/22
72 h-m-p 1.6000 8.0000 0.0057 YC 28939.322214 1 0.8032 3536 | 1/22
73 h-m-p 0.1465 8.0000 0.0310 ---------Y 28939.322214 0 0.0000 3591 | 1/22
74 h-m-p 0.0160 8.0000 0.0001 +++Y 28939.322125 0 0.6746 3640 | 1/22
75 h-m-p 0.8451 8.0000 0.0001 C 28939.322122 0 0.7932 3686 | 1/22
76 h-m-p 0.5094 8.0000 0.0002 -------Y 28939.322122 0 0.0000 3739
Out..
lnL = -28939.322122
3740 lfun, 44880 eigenQcodon, 699380 P(t)
BEBing (dim = 4). This may take several minutes.
Calculating f(x_h|w): 10 categories 20 w sets.
Calculating f(X), the marginal probability of data.
log(fX) = -29776.093221 S = -29248.879217 -518.007421
Calculating f(w|X), posterior probabilities of site classes.
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Time used: 56:21
CodeML output code: -1
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE: ], CPU=0.01 sec, SCORE=100, Nseq=10, Len=3097
D_melanogaster_CadN-PA MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
D_sechellia_CadN-PA MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA
D_yakuba_CadN-PA MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA
D_takahashii_CadN-PA MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA
D_biarmipes_CadN-PA MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
D_suzukii_CadN-PA MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA
D_eugracilis_CadN-PA MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA
D_ficusphila_CadN-PA MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA
D_rhopaloa_CadN-PA MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA
D_elegans_CadN-PA MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA
*******: ******:.::*: :*** **.**::** *************
D_melanogaster_CadN-PA ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_sechellia_CadN-PA ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_yakuba_CadN-PA ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_takahashii_CadN-PA ARMLAGSPGEVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS
D_biarmipes_CadN-PA ARMLAGSPGDVEKAPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_suzukii_CadN-PA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_eugracilis_CadN-PA ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS
D_ficusphila_CadN-PA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS
D_rhopaloa_CadN-PA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
D_elegans_CadN-PA ARMLAGSPGDVEKSPP-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS
*********:***:. ************************** :*****
D_melanogaster_CadN-PA HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_sechellia_CadN-PA HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_yakuba_CadN-PA HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_takahashii_CadN-PA HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_biarmipes_CadN-PA HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_suzukii_CadN-PA HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_eugracilis_CadN-PA HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_ficusphila_CadN-PA HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_rhopaloa_CadN-PA HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
D_elegans_CadN-PA HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN
*:*.******::**************************************
D_melanogaster_CadN-PA ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_sechellia_CadN-PA ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_yakuba_CadN-PA ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_takahashii_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_biarmipes_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_suzukii_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_eugracilis_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_ficusphila_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_rhopaloa_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF
D_elegans_CadN-PA VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF
.******************************:******************
D_melanogaster_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_sechellia_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_yakuba_CadN-PA SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING
D_takahashii_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING
D_biarmipes_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_suzukii_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_eugracilis_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING
D_ficusphila_CadN-PA SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_rhopaloa_CadN-PA SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING
D_elegans_CadN-PA SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG
*****:****.************ **********:*:*:*:*******.*
D_melanogaster_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND
D_sechellia_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
D_yakuba_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
D_takahashii_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND
D_biarmipes_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND
D_suzukii_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
D_eugracilis_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND
D_ficusphila_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
D_rhopaloa_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
D_elegans_CadN-PA DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND
***********************************:*:*****::*****
D_melanogaster_CadN-PA NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA
D_sechellia_CadN-PA NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
D_yakuba_CadN-PA NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
D_takahashii_CadN-PA NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
D_biarmipes_CadN-PA NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA
D_suzukii_CadN-PA NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA
D_eugracilis_CadN-PA NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA
D_ficusphila_CadN-PA NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA
D_rhopaloa_CadN-PA NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA
D_elegans_CadN-PA NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA
******::***********..:********:*******************
D_melanogaster_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA
D_sechellia_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_yakuba_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_takahashii_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_biarmipes_CadN-PA YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA
D_suzukii_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_eugracilis_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_ficusphila_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA
D_rhopaloa_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA
D_elegans_CadN-PA YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA
****:*********************:******* *********:**:**
D_melanogaster_CadN-PA KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE
D_sechellia_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
D_yakuba_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_takahashii_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_biarmipes_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_suzukii_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_eugracilis_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE
D_ficusphila_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_rhopaloa_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE
D_elegans_CadN-PA KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE
**********************::*.************************
D_melanogaster_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_sechellia_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_yakuba_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_takahashii_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_biarmipes_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_suzukii_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_eugracilis_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_ficusphila_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_rhopaloa_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
D_elegans_CadN-PA ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL
**************************************************
D_melanogaster_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_sechellia_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_yakuba_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_takahashii_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_biarmipes_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_suzukii_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_eugracilis_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_ficusphila_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_rhopaloa_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
D_elegans_CadN-PA GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM
**************************************************
D_melanogaster_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_sechellia_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_yakuba_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_takahashii_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_biarmipes_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_suzukii_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_eugracilis_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_ficusphila_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_rhopaloa_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
D_elegans_CadN-PA QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV
**************************************************
D_melanogaster_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_sechellia_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_yakuba_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_takahashii_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_biarmipes_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_suzukii_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_eugracilis_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_ficusphila_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_rhopaloa_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
D_elegans_CadN-PA RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ
**************************************************
D_melanogaster_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_sechellia_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_yakuba_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_takahashii_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_biarmipes_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_suzukii_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_eugracilis_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_ficusphila_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_rhopaloa_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
D_elegans_CadN-PA FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG
**************************************************
D_melanogaster_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_sechellia_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_yakuba_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_takahashii_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_biarmipes_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_suzukii_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_eugracilis_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_ficusphila_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_rhopaloa_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
D_elegans_CadN-PA PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN
**************************************************
D_melanogaster_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_sechellia_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_yakuba_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_takahashii_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_biarmipes_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_suzukii_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_eugracilis_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_ficusphila_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_rhopaloa_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
D_elegans_CadN-PA DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH
**************************************************
D_melanogaster_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_sechellia_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_yakuba_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_takahashii_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_biarmipes_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_suzukii_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_eugracilis_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_ficusphila_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_rhopaloa_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
D_elegans_CadN-PA FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN
**************************************************
D_melanogaster_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_sechellia_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_yakuba_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_takahashii_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_biarmipes_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_suzukii_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_eugracilis_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_ficusphila_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_rhopaloa_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
D_elegans_CadN-PA KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS
**************************************************
D_melanogaster_CadN-PA SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
D_sechellia_CadN-PA SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
D_yakuba_CadN-PA SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
D_takahashii_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_biarmipes_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_suzukii_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_eugracilis_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_ficusphila_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_rhopaloa_CadN-PA SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS
D_elegans_CadN-PA SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS
***********************:**************************
D_melanogaster_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_sechellia_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_yakuba_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_takahashii_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_biarmipes_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_suzukii_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_eugracilis_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_ficusphila_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_rhopaloa_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
D_elegans_CadN-PA TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV
**************************************************
D_melanogaster_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_sechellia_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_yakuba_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_takahashii_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_biarmipes_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_suzukii_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_eugracilis_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_ficusphila_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_rhopaloa_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
D_elegans_CadN-PA NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA
**************************************************
D_melanogaster_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_sechellia_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_yakuba_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_takahashii_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_biarmipes_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_suzukii_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_eugracilis_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_ficusphila_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_rhopaloa_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
D_elegans_CadN-PA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV
**************************************************
D_melanogaster_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_sechellia_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_yakuba_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_takahashii_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_biarmipes_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_suzukii_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_eugracilis_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_ficusphila_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_rhopaloa_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
D_elegans_CadN-PA SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR
**************************************************
D_melanogaster_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_sechellia_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_yakuba_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_takahashii_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_biarmipes_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_suzukii_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_eugracilis_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_ficusphila_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG
D_rhopaloa_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
D_elegans_CadN-PA LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG
*********************************** :****:********
D_melanogaster_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_sechellia_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_yakuba_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_takahashii_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_biarmipes_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_suzukii_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_eugracilis_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_ficusphila_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_rhopaloa_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
D_elegans_CadN-PA TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD
**************************************************
D_melanogaster_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_sechellia_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_yakuba_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_takahashii_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_biarmipes_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_suzukii_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_eugracilis_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_ficusphila_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_rhopaloa_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
D_elegans_CadN-PA IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT
**************************************************
D_melanogaster_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_sechellia_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_yakuba_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_takahashii_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_biarmipes_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_suzukii_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_eugracilis_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_ficusphila_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_rhopaloa_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
D_elegans_CadN-PA EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF
**************************************************
D_melanogaster_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_sechellia_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_yakuba_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_takahashii_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_biarmipes_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_suzukii_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_eugracilis_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_ficusphila_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_rhopaloa_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
D_elegans_CadN-PA EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI
**************************************************
D_melanogaster_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_sechellia_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_yakuba_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_takahashii_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_biarmipes_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_suzukii_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_eugracilis_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_ficusphila_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_rhopaloa_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
D_elegans_CadN-PA RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE
**************************************************
D_melanogaster_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_sechellia_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_yakuba_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_takahashii_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_biarmipes_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_suzukii_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_eugracilis_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_ficusphila_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_rhopaloa_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
D_elegans_CadN-PA ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI
**************************************************
D_melanogaster_CadN-PA VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
D_sechellia_CadN-PA VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
D_yakuba_CadN-PA VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
D_takahashii_CadN-PA VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
D_biarmipes_CadN-PA VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI
D_suzukii_CadN-PA VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
D_eugracilis_CadN-PA VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
D_ficusphila_CadN-PA VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
D_rhopaloa_CadN-PA VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI
D_elegans_CadN-PA VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI
************:**:***********.:*********************
D_melanogaster_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_sechellia_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_yakuba_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_takahashii_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_biarmipes_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_suzukii_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_eugracilis_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_ficusphila_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_rhopaloa_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
D_elegans_CadN-PA VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF
**************************************************
D_melanogaster_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_sechellia_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_yakuba_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_takahashii_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_biarmipes_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_suzukii_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_eugracilis_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_ficusphila_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_rhopaloa_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
D_elegans_CadN-PA AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT
**************************************************
D_melanogaster_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_sechellia_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_yakuba_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_takahashii_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_biarmipes_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_suzukii_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_eugracilis_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_ficusphila_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_rhopaloa_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
D_elegans_CadN-PA MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC
**************************************************
D_melanogaster_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_sechellia_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_yakuba_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_takahashii_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_biarmipes_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_suzukii_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_eugracilis_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_ficusphila_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_rhopaloa_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
D_elegans_CadN-PA LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV
**************************************************
D_melanogaster_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_sechellia_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_yakuba_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_takahashii_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_biarmipes_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_suzukii_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_eugracilis_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_ficusphila_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_rhopaloa_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
D_elegans_CadN-PA DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG
**************************************************
D_melanogaster_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_sechellia_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_yakuba_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_takahashii_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_biarmipes_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_suzukii_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_eugracilis_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_ficusphila_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_rhopaloa_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
D_elegans_CadN-PA TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL
**************************************************
D_melanogaster_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_sechellia_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_yakuba_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_takahashii_CadN-PA RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_biarmipes_CadN-PA RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_suzukii_CadN-PA RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_eugracilis_CadN-PA RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_ficusphila_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_rhopaloa_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
D_elegans_CadN-PA RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID
**********:***************************************
D_melanogaster_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_sechellia_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_yakuba_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_takahashii_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_biarmipes_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_suzukii_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_eugracilis_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_ficusphila_CadN-PA RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT
D_rhopaloa_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
D_elegans_CadN-PA RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT
*********************:****************************
D_melanogaster_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_sechellia_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_yakuba_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_takahashii_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_biarmipes_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_suzukii_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_eugracilis_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_ficusphila_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_rhopaloa_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
D_elegans_CadN-PA LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP
**************************************************
D_melanogaster_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_sechellia_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_yakuba_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_takahashii_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_biarmipes_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_suzukii_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_eugracilis_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_ficusphila_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_rhopaloa_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
D_elegans_CadN-PA FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI
**************************************************
D_melanogaster_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_sechellia_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_yakuba_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_takahashii_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
D_biarmipes_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_suzukii_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_eugracilis_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP
D_ficusphila_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_rhopaloa_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
D_elegans_CadN-PA PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP
***********************************:**************
D_melanogaster_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_sechellia_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_yakuba_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_takahashii_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_biarmipes_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_suzukii_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_eugracilis_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_ficusphila_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_rhopaloa_CadN-PA IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
D_elegans_CadN-PA VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH
:*************************************************
D_melanogaster_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
D_sechellia_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
D_yakuba_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV
D_takahashii_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_biarmipes_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_suzukii_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_eugracilis_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_ficusphila_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_rhopaloa_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
D_elegans_CadN-PA LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV
*******************************:******************
D_melanogaster_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
D_sechellia_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
D_yakuba_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
D_takahashii_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF
D_biarmipes_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
D_suzukii_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF
D_eugracilis_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF
D_ficusphila_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF
D_rhopaloa_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF
D_elegans_CadN-PA WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF
****************************:************ *.***:**
D_melanogaster_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_sechellia_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_yakuba_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_takahashii_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_biarmipes_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_suzukii_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_eugracilis_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_ficusphila_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS
D_rhopaloa_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
D_elegans_CadN-PA SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS
****************************************:*********
D_melanogaster_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
D_sechellia_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
D_yakuba_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
D_takahashii_CadN-PA CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
D_biarmipes_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
D_suzukii_CadN-PA CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
D_eugracilis_CadN-PA CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
D_ficusphila_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
D_rhopaloa_CadN-PA CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC
D_elegans_CadN-PA CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC
***:***********************************:**********
D_melanogaster_CadN-PA HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_sechellia_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_yakuba_CadN-PA HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_takahashii_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_biarmipes_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_suzukii_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_eugracilis_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_ficusphila_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_rhopaloa_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
D_elegans_CadN-PA HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES
*********************:****************************
D_melanogaster_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_sechellia_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_yakuba_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_takahashii_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_biarmipes_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_suzukii_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_eugracilis_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF
D_ficusphila_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF
D_rhopaloa_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
D_elegans_CadN-PA HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF
**************************** :********************
D_melanogaster_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_sechellia_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_yakuba_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_takahashii_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_biarmipes_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_suzukii_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_eugracilis_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_ficusphila_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG
D_rhopaloa_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
D_elegans_CadN-PA GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG
***************************:**********************
D_melanogaster_CadN-PA TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
D_sechellia_CadN-PA TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
D_yakuba_CadN-PA TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
D_takahashii_CadN-PA TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
D_biarmipes_CadN-PA TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
D_suzukii_CadN-PA TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP
D_eugracilis_CadN-PA TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
D_ficusphila_CadN-PA TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP
D_rhopaloa_CadN-PA TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
D_elegans_CadN-PA TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP
********:**********:**********************:* *****
D_melanogaster_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_sechellia_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_yakuba_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_takahashii_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_biarmipes_CadN-PA TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_suzukii_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_eugracilis_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC
D_ficusphila_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
D_rhopaloa_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC
D_elegans_CadN-PA TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC
****************:*************:****************:**
D_melanogaster_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_sechellia_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_yakuba_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_takahashii_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_biarmipes_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_suzukii_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_eugracilis_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_ficusphila_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_rhopaloa_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
D_elegans_CadN-PA WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD
**************************************************
D_melanogaster_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_sechellia_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_yakuba_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_takahashii_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_biarmipes_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_suzukii_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_eugracilis_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_ficusphila_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_rhopaloa_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
D_elegans_CadN-PA RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR
**************************************************
D_melanogaster_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_sechellia_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_yakuba_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_takahashii_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_biarmipes_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_suzukii_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_eugracilis_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_ficusphila_CadN-PA TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_rhopaloa_CadN-PA TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
D_elegans_CadN-PA TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG
***:**********************************************
D_melanogaster_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_sechellia_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_yakuba_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_takahashii_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_biarmipes_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_suzukii_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_eugracilis_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_ficusphila_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_rhopaloa_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
D_elegans_CadN-PA HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP
**************************************************
D_melanogaster_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_sechellia_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_yakuba_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_takahashii_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_biarmipes_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_suzukii_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_eugracilis_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_ficusphila_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_rhopaloa_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
D_elegans_CadN-PA PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG
**************************************************
D_melanogaster_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_sechellia_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_yakuba_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_takahashii_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_biarmipes_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_suzukii_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_eugracilis_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_ficusphila_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
D_rhopaloa_CadN-PA EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN
D_elegans_CadN-PA EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN
***:****************:*****************************
D_melanogaster_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_sechellia_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_yakuba_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_takahashii_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_biarmipes_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_suzukii_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_eugracilis_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_ficusphila_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_rhopaloa_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
D_elegans_CadN-PA CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP
**************************************************
D_melanogaster_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_sechellia_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_yakuba_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_takahashii_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_biarmipes_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_suzukii_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_eugracilis_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_ficusphila_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_rhopaloa_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
D_elegans_CadN-PA DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY
**************************************************
D_melanogaster_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_sechellia_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_yakuba_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_takahashii_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_biarmipes_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_suzukii_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_eugracilis_CadN-PA PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_ficusphila_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_rhopaloa_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
D_elegans_CadN-PA PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS
******************:*******************************
D_melanogaster_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
D_sechellia_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
D_yakuba_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
D_takahashii_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
D_biarmipes_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
D_suzukii_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
D_eugracilis_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL-
D_ficusphila_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
D_rhopaloa_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
D_elegans_CadN-PA LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELELo
**********************************************
>D_melanogaster_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTTCCATTTA TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTTTCGGCGGAAAATGCG GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTGGAAAAGTCCTCGTTGTC GCATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT TCAGTATCAAAAAGTTCAAAACCCATCCTGTAAAGATAAACGGTAGCTCC CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT GCTGCGATTTTCTGGATCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA ATCAACCGGCGGGTACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAAAAGGTTCGGTA CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGTA AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAATGGC GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCGCTGGATCGAGA GGAGAGGGCTCACTATGACCTGTCCGTGGAAGCATCAGATGTCGATGGTT TAGACAGGACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC AATAGACCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGACA GAAATCTGCAAGTATGGAAAGCAACAGTAGTGTGACATATCAGCGATTTG CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC TATCGGCTAAAGTCGCCCAGTAATGTTGTCATTATTGTACCCCAAACTGG CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG TGATAGCCCACGATCTAAGGTACCCGAGTTTGGTGAGCGCAAAACCCGCG AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCATTTATAATGCA ACATCTGGAACACGATGACATCAACAATCACTCACATCATCGAGAGAAAA GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTGGAAAAGGAGAC CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG AAACAAACGGAGCTGTGCGAGTTAAAAAGAAGTGGGACTACGAGGAGTTG GGACCAGAGAAGACTATCGATTTTTGGGTCATCATCACAAATATGGGACA CAATGCTGGCATTAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGACGAGCCCCCCTATTTCATCAACCGGCCACTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC GCGATCGGACTGGTGGACGTTTCGAGGTGGACGAGCGTTCTGGTGTCGTG CGGACCAGGGGCACGGATCTCTTCCAACTGGACATGGAGTATGTGCTGTA TGTGAAGGCCGAGGATCAAAACGGAAAGGTCGATGATCGCAGGTTTCAGA GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCGCAG TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAACCAGAAAAAGGA TTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTCAACATCGGA CCCACGTCGGGTATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG GAGGATTTTCAACCTCCGTTGATCTCACCATTCGCGTTACGGATGTGAAT GATAACGCGCCGAAGTTCGAGCTGCCCGACTACCAGGCGCACAATGTGGA CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT CCGATTCCGGATCAAATGCGGAAATCGAATATTTAGTATCCGATGATCAT TTCGCCGTGGACTCGAACGGAATCATCGTGAACAACAAGCAACTGGATGC GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG GTGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT GGATGAGAATGCCGGGCCAAACACTTTGGTTACCACTGTGGTAGCCTCCG ACAAGGACGGTGATAACGTGCGGTTTGGATTCGTGGGCGGCGGCACTTCA TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA TGGACGATGGATCTTGTTGTGTGAATGGAGACCAAACTATCCACACCTCA ACTGCTGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG AATGGACAGGTGAAATACTCAATTGTTCAGCAACCAAATCAGAAAGGCAC AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAACAAGGTAT TCGATCGCGAGGGAGATGATGGCAAGTTCGTGTCCGTCACAGTTAAGGCC ACCGATCAGGGTGATCCCAGTCTAGAGGGTGTCTGCTCCTTCACCGTGGA AATCACAGATGTAAACGATAATCCGCCACTGTTCGATCGACAGAAATACG TGGAGAATGTAAAGCAGGATGCCAGCATTGGCACAAACATCCTTCGTGTC TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT GACTGCTCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTTCCAAATAATCAGG TCTACTACTACATTGTGGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC GAAATCAATCTGCAAAGTGGGGAGATCTTCACGAAAACCGTATTCGACAG GGAGAAGAAAGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAACCCGCCTTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC TGGATCGCGATCAACCCAATGGACGCCCCCAATGGCGTTTCACTGTATTC GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT CAATCTGAAGGATATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC ATGACAGCCGTGGACTATGACGATCCCAATGAGGGTTCCAATGCGCGGCT GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA TTTTTGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT TTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTTGTGGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGACA TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTTAC CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT ACTGGTTCGCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTGGTAAAACTG AGGGACATCAACGACAATAAGCCGCATTTCGAACGGGCCAATGTGGAGGT TTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAAAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTATCCTATTCGATCGAT CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT TACCATTCAACGTTCGCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACA CTAACAGTCATCGTCCAGGATATCAACGACAATGCTCCCAAATTCCTCAA GGATTACAGGCCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCGCCA TTCCAGTTCCGTTTGGACCCCAGTGCAGATGACATCATCCGAGCTTCCTT CAAGGTGGAACAGGATCAAAAGGGTGCCAACGGTGATGGCATGGCTGTGA TATCGTCCCTAAGATCCTTCGATCGCGAGCAGCAAAAGGAATATATGATT CCTATTGTAATCAAAGACCATGGTTCCCCGGCAATGACTGGAACTAGTAC TCTGACCGTCATAATTGGCGACGTGAACGACAACAAAATGCAGCCAGGAT CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAAG ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGTGAAGGACGCTATCAT CTCAGGTTCAAGGTCTACGATAGGAAGCACACTCAAACCGATATACCAGC CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT CGGGATCCGTACGTCTATCAGGCATTTCGGATGAGGACTTTATTCGAGTC TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGATATAT TCAGTGTGCAATTGAAGAGGAAACATCCGCCTCTAACGGACGTTAGGTTT TCCGCACATGGATCTCCTTACTATAAACCAGTTAGGCTAAATGGAATTGT ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATTAATATCACCA TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGT TGCACAAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA CAAAACTGCCTTGGTCGGTGTTCGTGTGGATACCATTGCTGACTGTACTT GTGGTGCTCGCAATTTCACCAAACCAGAATCCTGTCGAACCACACCCTGT CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCGTG TCCTGTGGGATACACGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC GTGGAAACGGTTGGGCCTGGTATCCTCCCTTGGAAATGTGCGATGAATCG CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA CAACGGTCCAATTGTTCCTCCAGAACGAGATGAGACGCTCATCTCAGATT TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGACTTT GGTTCGGGAACTTTGGAGCTGAGGGTGAAGACGAAGAAGACTTTGGACGA CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGTA TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAGGATGGC ACTCCGCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC GCCATTTAATGAGTACCTCAACGTTAATGCTCCTCTGCAAGTGGGTGGCC TATATCGGGAACAGTTCGATCAGAGTCTGTACTTCTGGCACTATATGCCC ACGGCCAAGGGATTTGATGGCTGCATCAGAAATTTGGTGCATAACTCAAA ACTCTATGATCTGGCCCATCCTGGATTGTCGAGAAATAGCGTCGCGGGTT GTCCTCAAACCGAGGAAGTTTGTGCTCAAACTGAAACCACAGCTCGCTGC TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG TCGACCAGGATGGACAGGTCCGGCCTGTAATATCCCTACAATACCCACTA CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT CGATTCAGCACGCAAGTCCAGCTAAGATTCCGGACAAGAGAGGAGTACGG CGAACTTTTCCGAGTTAGCGATCAGCACAATCGGGAATACGGAATCCTTG AGATCAAGGATGGTCATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC ACTGAAGAAAAGGATCTCTGGCTAAATGCCATAGTAGTAAACGATGGCCA ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT TGGATGGTGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA AGCTGAATACACCGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAAA AGAGCTGTCTCGATGATATACGTCTCGAAGGCAAACACCTGCCATTGCCA CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT GGAGAAGGGTTGTCCTTCGAATAAACCATGCTCCAACGTGATTTGCCCCG ATCCGTTCGAGTGCGTAGACCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCACCCGATTCCAAGGGCTGTATGGATCGCAACGA ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA CCTCGGAGCCTGGGGGCCGCGCTTCGACAAGCTGGCCAACATGTATGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_sechellia_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA CCGATTTAATATATGCACCTGCGCGATATTCTTGATATCCCTCCCATTTA TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG GCTCGCATGCTGGCCGGCAGTCCCGGGGATGTCGAAAAGTCCTCGTCATT GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT TCAGCATCAAAAAGTTCAAAACCCATCCTGTGAAAATAAACGGTAGCTCG CACTCTGGTGCAGCTGCCTATCACATGTTGGACACGGACTACTCCAAGTA CTTCACCGTACTGGAAGATGGCGTGGTGATGACCACGGCGGATATTTCCC CGCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAGCAAACGCCCAAT GCCACAAATACGCACAATCTGCAGCTGTTTGTGATGCACCGCAATGATAT GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA ATCAACCGGCGGGTACCAGGGTGAGGGGAGTGCCCCTGATGCAGGCATTC AGCGGTTCCATCCTGGACGAGGAACTGGCCACACCCAAGAAGGTTCGGTA CACCATTATTGACGGCAACGTGGATGATGCATTCGCCCTGCAGGAACGAA AGGCCAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATTAACGGC GATGACGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTCTGGATCGAGA GGAGCGGGCTCACTATGATCTCTCCGTAGAAGCATCAGATGTCGATGGTT TGGACAAAACAGTTTCCAAAATACAAATCACCGTGTTGGATGAAAACGAC AATAGGCCGATTTTCAAGTCCCTGGACTACAAGTTCGCCATCGCTGGCCA GAAATCTGCAAATATGGAGAGCAACAGTAGTGTGACGTATCAGCGATTTG CGATCATGGGAAAAGTTGAGGCCACCGATGCTGATGGTGACAAGATTGCC TATCGGCTGAAGTCGCCCAGTAACGTTGTCATTATTGTACCCCAAACTGG CGAAATAATGCTGGCTGGAGAGCCCACTTCAAATGAACTTCTTATCGAGG TGATAGCCCACGATTTAAGGTACCCGAGTTTGCTGAGCGCAAAACCAGCG AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA ACACCTGGAACACGATGAGATCAACAATCACTCACATCACCGAGAGAAAA GACGTGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACGGAA GCTGATGGAGATACTGAGGGAAAATCGGTGTTCCAGTTGGAGAAGGAAAC CGATAAGGAAACATTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG AAACAAATGGAGCTGTTCGAGTGAAGAAGAAGTGGGACTACGAGGAGTTG GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAATATGGGACA CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGACGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTGTTCACCCT CCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC GCGATCGGACCGGCGGACGTTTCGAAGTGGACGAGCGTTCTGGAGTTGTG CGGACACGGGGCACGGATCTCTTCCAACTGGATATGGAGTATGTGCTGTA CGTGAAGGCCGAGGATCAGAACGGAAAGGTCGATGATCGCAGGTTCCAGA GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCACCCCAG TTCTATATGCCCAGCTATGAAGCCGAGATCCCGGAAAATCAGAAAAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC GCTATACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA CCCACTTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGATTCGG GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC GATAATGCGCCGAAGTTCGAGCTGCCGGACTACCAAGCCCACAATGTGGA TGAGGACATTCCATTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT CCGATTCTGGATCGAATGCGGAAATCGAATATCTAGTATCCGATGATCAT TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC GGACAACAACAATGCCTATTATGAGTTCATAGTGACTGCCAAGGACAAGG GGGAACCGCCCAAATCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC AAGAACGATGAGGAGCCCAAGTTCTCCCAGCAAGTGTATACCCCCAATGT GGATGAGAATGCAGGGCCCAACACTTTGGTTACCACTGTGGTAGCCTCCG ACAAGGATGGTGATAACGTGCGTTTTGGATTCGTGGGCGGCGGCACTTCA TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA TAAGGCCATATCCCTGGACAAGGACAAGTACGAGCTGAACGTCACCGCCA TGGACGATGGATCTTGTTGCGTGAATGGAGACCAAACTATCCACACCTCA ACTGCCGTGGTCGTGGTATTCATCACCGACGTCAACGATAATAAGCCAGT GTTCAAGGACTGCAGTACCTATTATCCGAAAGTCGAGGAAGGAGCTCCTA ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGACGAGGATAAGGGTGTG AATGGACAGGTGAAATACTCAATTGTTCAGCAGCCAAATCAGAAAGGCAC AAAGTTCACGGTGGACGAGGAGACCGGCGAGGTGTCCACCAACAAGGTAT TCGATCGCGAGGGAGATGATGGCAAGTTCGTATCCGTCACAGTTAAGGCC ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTCTGCTCCTTTACCGTGGA AATCACAGATGTAAACGATAATCCTCCACTGTTCGATCGACAGAAATACG TGGAAAATGTAAAGCAGGATGCCAGCATTGGCACGAACATCCTCCGTGTC TCTGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTGTACAGCCT GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG AGTCCGGTTGGATTGTACTCAAGAAGCCGCTTGACCGTGACCGTTATCGA TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAACCCCAC AGTTTTTTATCGACTGATGCCCGGGTCAACGGCTCAAACGAACAAGTTTC ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAATACAATTT AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA CCGTGTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTACTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTGGATTCGCCACGAAACGAGGGCAAGGAATTCTTC GAAATCAACCTGCAAAGTGGGGAAATCTTCACGAAAACCGTATTCGACAG GGAGAAGAAAGGCGCCTATGCCCTGGAAGTGGAGGCTCGGGATGGAGCCC CCTCTGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAATGATAACCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTACCACCGCAATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGTTTCACTGTATTC GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCGCGACT GGTGTACTCCATCGAAAAGAACGTGATTGAGGAGGAGACGGGCTCCCCCA TTTTCGAAATCGAACCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT CTGGATCGCGAGAGAACTCCGGATTATTCTATACAAGTCGTGGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGAGTTAAGGATA TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG GACGAAACGGATGGTACGGCCTTGCCGGAAATGCCCATTTTAACCGTGAC CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA ACAGTGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGACGGT ACTGGTTCGCTCAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA GAGCAATGGCTTCCGTTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA ACGACAATGACAAATACCACGTGGCCTACTCCTGGGTTGTAGTCAAGCTG AGGGACATCAACGACAATAAACCGCATTTCGAACGAGCCAATGTTGAGGT GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTGTCCTATTCCATCGAT CGATCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT TACCATTCAACGTTCCCTGGACCGCGAAGTAGTTCCTCGTCACCAAGTTA AGATCCTGGCCATCGACGATGGTTCTCCGCCGAAAACCGCCACTGCCACT CTAACAGTCATCGTGCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA AGATTACAGACCGGTTCTGCCCGAGCATGTTCCTCCACGTAAAGTGGTTG AAATCCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGACCGCCA TTCCAGTTCCGTTTGGACCCCAGTGCTGATGACATCATCCGTGCTTCCTT CAAGGTGGAACAGGATCAAAAGGGAGCCAACGGTGATGGCATGGCTGTAA TATCGTCCCTAAGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC CCAATTGTAATCAAAGATCATGGTTCACCAGCAATGACTGGAACCAGTAC CCTGACCGTCATAATTGGCGACGTGAATGACAACAAAATGCAGCCTGGAT CTAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGACACTCCG ATTGGACGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA GAAGTTCTATTGGGAGGCCATGGAGCATCCAAGATTCAAGTTGGATGAGG ATTCCGGCATGGTAACAATGCGTGCAGGAACTCGCGAAGGGCGTTATCAT CTCAGGTTCAAGGTCTACGATCGGAAGCACACTCAAACCGATATACCAGC CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT CCGGATCCGTACGTCTATCAGGCATTTCAGATGAGGACTTTATTCGAGTC TGGAACTACAGAACCCAAAGCATGAGCCGCTCGAAGATGGATCGTTTTAG GGATAAGCTGGCTGACTTACTAAACACTGAAAGGGAAAATGTTGATATTT TCAGTGTGCAATTGAAAAGGAAACATCCGCCTCTAACAGACGTTAGGTTT TCCGCACACGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT ACTGATGCACCGCGAGGAGATCGAAAAGGATGTTGGCATCAATATCACCA TGGTGGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGCAGC TGCACGAACTCGCTGGAAATCAGTCCTCTGCCCTATATGGTTAACGCCAA CAAAACTGCCTTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT GTGGTGCTCGCAACTTCACCAAACCAGAATCCTGCCGAACCACACCCTGT CATAATGGTGGTCGCTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG TCCTGTGGGATACGCGGGACCCAGGTGTCAGCAAACCACTCGCAGTTTCC GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGATGAATCG CATTTAAGTCTGGAGTTTATTACCCGAAAACCCGACGGCTTAATCATCTA CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCGGATT TCATTGCCCTGGAATTGGAGCGAGGTTATCCTAGACTGCTTATCGATTTC GGCTCGGGAACTTTGGAGCTGAGAGTGAAGACTAAGAAGACGCTGGACGA CGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGAA TGGTTGTCGACTTTTGCAAATCAGCAGAGATTGCCGAAATGGAAGATGGC ACTCCCCCGGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC GCCATTTAATGAGTACCTCAACGTGAATGCTCCTTTGCAAGTGGGTGGTC TATATCGGGAACAGTTTGATCAGAGTCTGTACTTCTGGCACTATATGCCA ACGGCCAAAGGATTTGATGGCTGCATCAGAAATTTGGTGCACAACTCAAA ACTCTATGATCTGGCCCATCCTGGTCTGTCGAGAAATAGTGTCGCGGGCT GTCCTCAAACCGAGGAAGTTTGTGCTCAAACGGAAACCACAGCTCGCTGC TGGGAGCACGGAAATTGTGTTGGATCCTTGTCCGAAGCTCGTTGCCATTG TCGACCGGGATGGACAGGTCCTGCCTGTAATATCCCTACGATACCCACTA CCTTCAAGGCCCAGAGTTATGTTAAATATGCTCTGAGTTTCGAGCCCGAT CGTTTCAGCACGCAAGTCCAGTTGAGATTCCGGACCAGAGAGGAGTATGG CGAACTTTTCCGGGTTAGCGATCAGCACAATCGGGAATACGGAATTCTGG AGATCAAGGATGGACATCTGCACTTCCGTTACAATCTGAACTCTCTGCGC ACTGAGGAAAAGGATCTCTGGCTGAATGCCATAGTCGTAAACGATGGCCA ATGGCATGTGGTGAAGGTAAATCGATATGGCTCAGCTGCTACCCTGGAAT TGGATGGCGGAGAGGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGA CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGCAA AGCTGAATACACTGGAGTGAGAACCTTTGAAGTGTACGCCGATTACCAGA AGAGCTGTCTCGATGATATACGTCTGGAGGGCAAACACCTGCCATTGCCA CCGGCGATGAATGGTACTCAGTGGGGACAGGCTACCATGGCCAGGAATCT GGAGAAGGGTTGTCCCTCGAATAAGCCCTGCTCCAACGTGATCTGCCCCG ATCCGTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA ATGCCTCGATATGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC CCCGACTCCGATATCGTTGCATATGTCCAGATGGATTTTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG CGAGGATGATATGACGGCCTTTGACATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA CCTCGGAGCCTGGGGGCCGCGCTTTGACAAGCTGGCCAACATGTATGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_yakuba_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAG CCGATTTAATATATGCACCTGCGCGATATTTTTGATATCCCTCCCCTTTA TATTGGCCATAGAGGAGACCACATTTGCTGGTCTCTCGGCGGAAAATGCG GCTCGCATGTTGGCCGGCAGTCCCGGGGATGTGGAGAAGTCCTCGTCGTC GCATCACAGCGAAATGTCCTTGGTCCTGCCACACGATACCTATCCTGGAT TTAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAACGGTAGCTCC CACTCTGGCGCAGCTGCCTATCACATGCTGGACACTGACTACTCCAAGTA CTTCACCGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATTTCCC CCCTTGTCAATCGTCCGGTTCAGTTGGTGGTTGTTGAACAAACGCCCAAT GCCACCAATACCCACAATCTGCAGCTGTTTGTGATGCACCGCAACGATAT GCTGCGATTTTCGGGCTCCCTACTCGATGCCAGTGGTGAAGTCAGGGAGA ATCAACCGGCGGGCACCAGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC AGCGGTTCCATCCTGGACGAAGAACTGGCCACACCCAAGAAGGTTCGGTA CACCATTATCGACGGGAACGAGGATGATGCATTCGCTCTGCAGGAACGTA AGGCCAACAAGAACATACAAATAAGTGCCAAGTCCTTGGTAATTAATGGC GATGACGAATCCGGCGTTTGGTTGGTCACCAATCGTCCTCTGGATCGAGA GGAACGGGCGCACTATGATCTCTCCGTGGAAGCTTCAGATGTCGATGGCT TGGACAAGACAGTTTCCAAAATACAAATCTCCGTGCTGGATGAGAACGAC AATAGGCCGATTTTCAAGTCGCTGGACTACAAATTCGCCATTGCTGGTCA GAAATCTGCAAATATGGAGAGCAATAGTAGTGTGACATATCAGCGATTTG CCATCATGGGAAAAGTTGAGGCCACCGATGCGGATGGTGACAAGATTGCC TATCGGCTGAAGTCGCCCAGTAATGTTGTTATCATTGTACCTCAAACTGG CGAAATAATGCTGGCTGGAGAACCCACTTCAAATGAGCTTCTTATCGAGG TGATAGCCCACGATCTGAGGTATCCCAGTTTGCTGAGCGCAAAACCCGCA AAGGTTCTATTGGAATTTTTGGCCGCCGAACCAGTTTCGTTTATAATGCA ACACCTGGAGCACGATGAGGTCAACAATCACTCACATCACCGGGAGAAAA GACGAGTTACACGAGCGGTGCGACCCACCAAGCGAATTGAGTTCACCGAA GCTGATGGAGACACTGAGGGAAAATCGGTGTTCCAGTTAGAAAAGGAAAC CGATAAGGAAACATTCAAGATCCGCGATGATAATCCCTGGGTGACGGTGG AAACAAACGGTGCAGTGCGAGTTAAGAAGAAGTGGGACTACGAGGAACTG GGACCAGAGAAGACTATCGATTTCTGGGTCATCATCACCAACATGGGACA CAATGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGATGAGCCCCCCTACTTCATCAACCGTCCACTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAATACTCCAGTGTTTACGCT TCAGGCCCGAGATCCCGATACGGATCACAATATCCACTACTTCATCGTTC GCGATCGGACCGGCGGACGTTTTGAGGTGGACGAGCGTTCTGGTGTTGTG CGGACAAGGGGCACGGATCTCTTCCAACTGGACATGGAGTACGTGCTGTA CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA GTACTCCCGAGGAGCGACTTTCAATCGTGGGCGGCAAACGAGCCCCCCAG TTCTACATGCCCAGCTATGAAGCCGAGATCCCAGAGAACCAGAAAAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATTC GCTATACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTCAACATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG GAGGATTTTCCACTTCGGTCGATCTCACCATTCGCGTTACGGATGTGAAC GATAATGCGCCGAAGTTCGAGCTGCCGGACTATCAAGCTCACAATGTGGA CGAGGACATTCCGCTGGGAACAAGCATACTTCGCGTTAAAGCCATGGACT CCGATTCCGGTTCAAATGCCGAAATCGAATATTTAGTATCCGATGATCAC TTCGCCGTGGATTCCAACGGAATCATCGTGAACAACAAGCAACTGGATGC GGATAACAACAATGCCTATTATGAGTTCATAGTCACTGCCAAGGACAAAG GTGAACCACCGAAGTCGGGAGTGGCTACAGTTCGAGTTTACACCAAAAAC AAGAACGACGAGGAGCCCAAGTTCTCCCAACAAGTGTATACCCCCAATGT GGATGAGAATGCGGGGCCCAACACTTTAGTTACCACTGTGGTAGCCTCCG ACAAGGACGGTGACAACGTGCGGTTCGGGTTCGTGGGCGGCGGCACTTCA TCAGGTCAGTTTGTCATCGAAGACATAACCGGTGTGATCCGACTGCACAA TAAGGCCATATCCCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA TGGACGATGGATCCTGTTGCGTAAATGGAGACCAAACTATCCACACCTCA ACGGCCGTGGTCGTGGTATTCATCACCGATGTCAATGATAATAAGCCAGT GTTCAAGGACTGCAGTACCTATTATCCGAAGGTCGAGGAAGGAGCTCCTA ATGGAAGTCCTGTCATTAAGGTTGTGGCCACCGATGAGGATAAGGGTGTG AATGGACAGGTGAAATACTCAATAGTTCAGCAGCCAAATCAGAAGGGTAC AAAGTTCACGGTGGACGAGGAGACCGGAGAGGTGTCCACCAATAAGGTTT TCGATCGCGAGGGCGATGACGGCAAGTTTGTATCCGTCACAGTCAAGGCC ACCGATCAGGGTGATCCCAGTCTGGAGGGTGTGTGCTCCTTCACCGTGGA AATCACTGATGTGAACGATAATCCTCCACTGTTCGATCGACAGAAATACG TGGAGAACGTAAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGCGTC TCTGCCTCCGATGAAGATGCCGATAATAATGGAGCTATAGTATACAGCCT GACTGCCCCCTTTAATCCCAACGATCTGGAATACTTTGAGATTCAGGCTG AGTCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGA TTGAGGGTTAGTGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT CGACGTCGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGTATATACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC AGTTTTTTACCGACTGATGCCCGGGTCAACGGCCCAAACAAACAAGTTTC ACACGTTTTACTTGCAACAAAGACCGGACAATGGCGATACTTGGGCTGAC ATAAAAGTAAATCATCCGCTGGACTACGAGAGTATCAAGGAGTACAATTT AACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCTTCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAGCCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTGGATTCCCCGCGAAACGAGGGCAAGGAGTTCTTC GAAATCAACCTGCAAAGTGGCGAGATCTTCACGAAGACCGTATTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCCC CCTCGGCTCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAACCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAACACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTTCCACCGCAATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAGGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTACTAAAGCCTC TGGATCGCGATCAACCCAATGGACGCCCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAGGGCGGCGAAGGACTCGTGGGATATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT ACTTTGGCAACGTGACTGAGAACGGAACCGCCGGCATGGTTGTGATGACC ATGACAGCCGTGGACTACGACGATCCCAATGAGGGCTCCAATGCCCGGCT GGTGTACTCCATTGAAAAGAACGTGATTGAGGAGGAGACGGGGTCCCCAA TTTTTGAAATCGAGCCCGATACGGGTGTGATAAAGACCGCCGTTTGCTGT TTGGATCGCGAAAGGACTCCGGACTATTCGATACAAGTCGTGGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA TTAACGATATGCCGCCGCAGTTCACGAAAGACGAATGGTTTACGGAAGTG GACGAAACGGATGGTACAGCCCTGCCGGAAATGCCCATTTTAACCGTGAC CGTACACGATGAAGACGAGACGAACAAGTTCCAGTACAAAGTTATCGACA ACAGCGGCTATGGCGCCGATAAGTTCACCATGGTGCGGAATAACGATGGC ACTGGTTCACTGAAAATCGTACAGCCCTTGGACTACGAGGATCAGCTGCA GAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGATAAGGGCGAGGACA ATGACAATGACAAATACCACGTGGCCTACTCGTGGGTTGTGGTTAAATTG AGGGACATCAACGACAATAAGCCGCACTTCGAACGGGCCAATGTGGAGGT GTCTGTATTCGAGGACACGAAAGTTGGCACCGAACTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGAAAGAGTAAGGTGTCCTACTCCATCGAT CGTTCTTCGGACCGTCAGCGCCAGTTTGCCATTAACCAGAATGGCTCCGT TACCATTCAACGTTCCCTGGACCGCGAAGTTGTTCCACGTCATCAAGTTA AGATCCTGGCCATCGACGATGGTTCTCCACCGAAAACCGCCACTGCTACA CTTACAGTCATCGTCCAGGATATCAACGATAATGCACCTAAGTTCCTCAA GGATTACAGGCCGGTTCTGCCCGAGCATGTCCCTCCACGTAAAGTGGTTG AGATTCTGGCCACCGATGATGACGATCGCTCCAAGAGCAATGGCCCACCA TTCCAGTTCCGTTTGGACCCCAGTGCGGATGACATCATCCGTGCTTCATT TAAGGTGGAACAAGATCAGAAGGGTGCAAATGGTGATGGAATGGCTGTCA TTTCCTCCCTGAGATCCTTCGATCGGGAGCAGCAAAAGGAGTACATGATC CCAATTGTGATCAAGGATCATGGCTCACCAGCGATGACTGGAACCAGTAC TTTGACCGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCTGGAT CCAAGGACATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG ATTGGGCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAGCATCCTCGGTTCAAGTTGGATGAGG ATTCCGGCATGGTAACGATGCGAGCAGGAACTCGCGAAGGACGATATCAT CTCAGGTTCAAGGTCTATGATCGGAAGCACACTCAAACCGATATACCAGC CAATGTTACGGTTACAGTGAGAGAAATTCCCCATGAAGCTGTTGTAAACT CGGGATCCGTACGTCTATCGGGCATTTCTGATGAGGACTTTATTCGAGTC TGGAACTACAGAACACAAAGCATGAGCCGCTCGAAGATGGATCGGTTTAG GGATAAGCTGGCTGACTTGCTAAACACTGAAAGGGAAAATGTGGACATAT TCAGTGTGCAGTTGAAGAGGAAACATCCGCCTCTAACGGACGTCAGGTTT TCCGCACATGGATCTCCTTACTATAAGCCAGTTAGGCTAAATGGAATTGT ACTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGTATCAATATCACCA TGGTGGGCATCGATGAGTGTCTGTATGAGAACCAAATGTGCGAGGGCAGC TGCACGAACTCCCTGGAAATCAGTCCACTGCCCTACATGGTAAACGCCAA CAAAACTGCCCTGGTCGGTGTTCGTGTGGACACCATTGCTGACTGTACTT GTGGCGCTCGCAACTTCACCAAACCCGAGTCCTGCCGAACCACACCCTGT CACAATGGTGGGCGTTGTGTGGACACCAGATTTGGTCCTCACTGCTCATG TCCCGTGGGATACACGGGACCCAGGTGCCAGCAAACCACTCGCAGTTTCC GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAAATGTGCGACGAATCG CATTTAAGTCTGGAGTTTATTACCCGAAAGCCCGACGGCTTAATCATCTA CAACGGTCCAATTGTTCCTCCAGAACGGGATGAGACGCTCATCTCCGATT TTATTGCCCTGGAATTGGAACGAGGTTATCCTAGACTGCTTATCGATTTT GGCTCGGGAACTTTGGAGCTGAGAGTAAAGACGAAGAAGACTTTGGACGA TGGTGAATGGCATAGAATCGATCTGTTTTGGGATACCGAAAGCATTCGCA TGGTTGTCGACTTTTGCAAATCAGCAGAAATTGCAGAAATGGAGGATGGC ACTCCGCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATCCC GCCATTTAACGAGTACCTCAATGTAAATGCTCCTCTACAAGTGGGTGGCC TATATCGGGAACAATTTGATCAGAGTCTGTACTTCTGGCACTATATGCCC ACGGCGAAGGGATTCGATGGGTGCATCAGAAATTTGGTGCATAACTCAAA GCTCTATGATCTGGCCCATCCTGGTCTTTCGAGAAATAGCGTCGCGGGTT GTCCGCAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACAGCTCGGTGC TGGGAACACGGAAATTGTGTTGGGTCCTTGTCCGAAGCGCGTTGCCATTG TCGACCGGGATGGACAGGTCCTGCCTGTAATATTCCTACAATACCCACTA CCTTCAAGGCCCAGAGCTATGTGAAATATGCTCTGAGTTTCGAGCCCGAT CGATTCAGCACGCAAGTCCAGCTGAGATTCCGGACAAGAGAGGAGTACGG CGAACTTTTCCGGGTAAGCGATCAGCACAATCGGGAATATGGAATCCTGG AGATCAAGGATGGGCATCTGCACTTCCGTTACAATCTTAACTCACTGCGC ACTGAGGAAAAGGATCTCTGGCTAAATGCCATAGTCGTAAACGATGGCCA ATGGCATGTGGTGAAGGTCAATCGATATGGCTCAGCTGCTACCCTGGAAT TGGATGGTGGAGAGGGTCGTCGTTACAACGAGACCTTTGAGTTCGTGGGA CATCAGTGGCTGTTGGTGGACAAGCAAGAGGGTGTCTATGCGGGCGGAAA AGCTGAATATACTGGAGTGAGAACTTTTGAAGTATACGCTGACTACCAGA AGAGCTGCCTCGATGATATACGTCTGGAGGGCAAACACCTACCGTTGCCA CCGGCGATGAATGGTACTCAGTGGGGACAGGCCACCATGGCCAGGAATCT GGAGAAGGGTTGTCCCTCGAATAAACCCTGCTCCAACGTGATCTGCCCCG ATCCGTTCGAGTGTGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCTCCAGATTCCAAGGGCTGTATGGATCGCAACGA ATGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC CCCGACTCCGATATCGTTGTATATGTCCAGATGGATTTTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTGT TCGTCGTATACAATCGTCGCCGTGAAGCGCATATCAAATATCCGGGTCCC GATGACGATGTGCGCGAGAATATCATCAACTATGACGACGAGGGAGGCGG CGAGGATGATATGACGGCCTTTGATATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCCGAGCTTGCGCCCATGAAAATGCCAATTATGTAT CCCGTCATGACCTTAATGCCAGGTCAGGAGCCCAATGTGGGCATGTTCAT CGAGGAGCATAAAAAGCGAGCCGATGGTGATCCAAATGCGCCACCTTTCG ACGACTTGAGGAACTACGCGTACGAGGGCGGCGGCAGCACAGCTGGTTCG CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTACGACTA CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_takahashii_CadN-PA ATGGCGGCACGACGTTGCCTGAATGAGCTCAGGCAACGGTATATAACCAA TCGACTCAACATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTAA TTTTGGCCACCGAAGAGACCACATTTGCTGGCCTCTCGGCGGAAAATGCG GCTCGCATGCTAGCCGGCAGTCCAGGCGAAGTGGAGAAGTCGCCGTCG-- -CATCACAGCGAAATGTCCTTGGTGCTGCCCCACGACACCTATCCTGGAT TCAGCATCAAGAAGTTCAAAACCCATCCCGTCAGGATAAACGGCAGCTCG CATGCCGGCGGTGCCGCCTATCACATGCTCGATAGCGACTACTCCAAGTA CTTCACGGTACTGGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC CGCTCGTCAATCGTCCAGTTCAACTGGTGGTCGTTGAACAGACCCCCAAT GTCACCAACACCCACAACCTCCAGTTGTTCGTGATGCATCGCAACGATAT GCTGCGTTTTTCCGGGTCGCTACTCGATGCCAGCGGTGAGGTGAGGGAGA ACCAGCCGGCGGGCACCCGGGTGAGAGGAGTGCCCCTGATGCAGGCCTTC AGTGGTTCCATCCTGGACGAAGAGCTGGCCACCCCGAAGAAGGTGCGCTA CACCATCATCGATGGCAACGTGGACGACGCGTTTGCCCTGCAGGAGCGGA AGGCCAATAGGAATGTTCAGATCAGTGCCAAGTCCCTGGTGATAAATGGA GATGACGAGTCCGGCGTTTGGTTGGTCACCAATCGTCCGTTGGATCGGGA GGAGCGCGCCCACTATGATCTCTCCGTGGAAGCCTCGGATGTAGATGGTT TGGATAAGACAGTGTCCAAGATACAGATCTCTGTGCTGGATGAAAACGAC AACAGGCCGATCTTCAAGTCGTTGGACTACAAGTTCGCCATTGCCGGTCA AAAATCAGTCAATATGGAAAGCAACAGTAGTGTGACCTACCAGCGATTCG CGATCATGGGAAAGGTCGAGGCCACCGATGCTGATGGCGATAAGATTGCC TATCGGCTCAAGTCGCCCAGCAATGTGGTGATCATTGTCCCCCAAACCGG CGAAATAATGCTGGCCGGTGAGCCCACGTCAAATGAACTGCTTATCGAGG TTATAGCCCACGATCTGAGATATCCCAGCCTGTTGAGTGCGAAGCCCGCA AAGGTTCTGTTAGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA ACACCTGGAACACGATGAGGTGAATAATCACTCACATCACAGGGAGAAGA GGAGAGTTACCCGAGCTGTGCGACCCACCAAGCGGATTGAATTCACCGAG GCTGATGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAGAAGGAAAC CGATAAGGAGACCTTCAAGATCCGGGATGATAATCCCTGGGTGACGGTGG AAACAAATGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACTAATATGGGACA CAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGACGAGCCACCGTACTTCATCAACCGCCCACTGCCCATG CAGGCGGTGGTTCAGCTAAATGCACCACCCAACACGCCGGTTTTCACGCT CCAGGCCCGAGATCCCGATACCGATCATAATATCCACTACTTCATCGTTC GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCTGGAGTGGTG AGGACCAGGGGCACGGATCTCTTTCAGCTAGATATGGAATATGTGCTGTA CGTGAAGGCCGAGGATCAGAACGGAAAGGTGGATGATCGCAGGTTCCAGA GCACTCCAGAGGAGCGGCTCTCGATTGTGGGTGGCAAACGAGCCCCTCAA TTCTACATGCCCAGCTATGAAGCCGAGATACCAGAGAACCAGAAAAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGTGAGATTC GGTACACTCTGAAGGCCCAGGGCCAGGGAGCCGGCACTTTCAACATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG GAGGATTTTCCACCTCCGTCGATCTCACAATACGCGTTACGGACGTGAAC GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTGGA CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCCATGGATT CGGATTCAGGATCGAATGCTGAAATCGAATACCTAGTATCCGATGACCAC TTCGCCGTGGACTCCAACGGAATCATCGTGAACAACAAACAACTGGATGC GGACAATAATAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG GTGAACCGCCGAAGTCTGGAGTGGCTACGGTTCGTGTTTACACCAAGAAC AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT GGACGAGAACGCGGGGCCGAATACTTTGGTTACCACTGTGGTGGCCTCTG ATAAGGATGGCGACAACGTGAGGTTTGGATTCGTGGGCGGCGGCACATCG TCTGGTCAGTTCGTCATCGAGGATATAACCGGTGTGATCCGACTGCATAA CAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA TGGACGATGGATCCTGTTGTGTGAACGGCGATCAGACCATCCACACATCG ACCGCCGTGGTCGTCGTTTTCATCACCGATGTCAACGACAATAAGCCGGT GTTCAAGGACTGCAGCACCTATTATCCGAAGGTCGAGGAAGGAGCCCCCA ACGGAAGTCCCGTCATCAAAGTCGTGGCTACCGACGAGGATAAGGGTGTG AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCCAATCAGAAGGGGAC TAAGTTCACAGTCGACGAGGAAACCGGAGAGGTGTCCACCAACAAGGTGT TTGATCGTGAGGGAGACGATGGAAAATTCGTATCGGTCACAGTGAAGGCC ACAGATCAGGGTGATCCGAGTCTGGAGGGAGTCTGCTCCTTCACCGTGGA GATCACAGATGTCAACGATAATCCCCCGCTCTTTGATCGGCAGAAATACG TTGAGAACGTTAAACAGGACGCCAGTATTGGCACAAATATCCTGCGCGTT TCCGCCTCCGATGAGGATGCCGATAACAATGGTGCCATAGTGTACAGCCT GACTGCCCCGTTCAATCCCAACGACCTGGAATACTTTGAGATTCAGGCCG AATCGGGCTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGTTATCGC TTGAGGGTTAGCGCCTCCGATAAGGGTACTCCCGCCTCGGCAGCCGATGT CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC AGTTTTTTATCGACTGATGCCCGGGTCGACGGCTCAAACGAACAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATCT AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC GAAATCAACCTGCAAAGCGGAGAGATATTCACGAAAACCGTTTTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGAGATGGAGCTC CCTCAGCTCGACCCAATAGCAATGGACCCAATTCAGTCACCAAGTTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTAC TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGATATGAA ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCATAC ATCCTATGAGCGGACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA TTATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCGC TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCGCAGGGCGTTT ACTTTGGCAACGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAACGCCCGGCT GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTCTGTTGC CTGGATCGCGAGAGAACCCCGGATTATTCGATACAGGTCGTTGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATACGGGTTAAGGATA TCAACGACATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG GACGAAACGGATGGCACGGCTCTGCCGGAAATGCCCATTTTAACCGTGAC CGTGCACGACGAAGACGAAACGAACAAGTTCCAGTACAAAGTTATCGACA ACAGTGGCTATGGGGCCGATAAATTCACCATGGTGCGGAATAACGATGGA ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA ACGACAACGATAAATACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG AGGGACATCAACGACAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT CTCCGTGTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG CCACCGATCCGGATCAGGGCGGCAAGAGCAAGGTCTCCTATTCCATCGAT CGTTCTTCGGATCGCCAGCGCCAGTTTGCCATCAACCAGAATGGTTCGGT CACCATTCAGCGCTCCCTGGATCGCGAAGTTGTGCCCCGTCATCAGGTCA AGATCCTGGCCATTGACGATGGCTCTCCACCGAAAACAGCCACGGCCACA CTCACGGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTCAA GGACTACAGACCAGTGCTGCCTGAGCATGTGCCGCCGCGTAAGGTGGTCG AAATCCTGGCCACCGATGACGACGATCGCTCCAAGAGCAACGGCCCTCCA TTCCAGTTCCGATTGGACCCCAGTGCCGACGATATAATCCGTGCTTCCTT CAAGGTCGAACAGGATCAAAAGGGTGCCAATGGTGATGGCATGGCCGTGA TTTCCTCTCTACGATCCTTCGATCGTGAACAGCAAAAGGAGTACATGATC CCCATCGTGATCAAGGACCATGGCTCACCAGCAATGACGGGAACCAGTAC TCTGACTGTCATAATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT CCAAGGAGATCTTCGTATACAACTACCAAGGACAATCGCCAGACACTCCG ATCGGTCGGGTCTATGTCTACGACCTGGACGACTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGCTTCAAGTTGGACGAGG ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGCTATCAT CTCAGGTTCAAGGTCTACGACCGCAAGCACACGCAAACCGACATACCAGC CAATGTCACGGTTACGGTGAGGGAAATTCCCCATGAAGCCGTCATCAACT CGGGATCCGTACGCCTGTCTGGAATTTCGGATGAGGACTTTATTCGCGTG TGGAACTACAGAACCCAAAGCATGAGTCGCTCGAAGATGGATCGTTTCCG GGACAAGCTGGCGGATTTACTGAACACCGAACGGGAGAACGTGGATATAT TTAGTGTGCAGCTGAAGAGGAAGCATCCGGCATTAACCGATGTTAGGTTC TCGGCCCACGGATCGCCGTACTACAAGCCGGTTAGGCTGAATGGCATTGT TCTCATGCACCGCGAGGAGATCGAAAAGGACGTGGGCATCAATATCACCA TGGTGGGCATCGACGAGTGCCTGTATGAGAATCAGATGTGCGAGGGTAGC TGCACGAATGCGCTGGAAATCAGTCCCCTGCCCTATATGGTGAATGCCAA CAAGACTGCCCTGGTCGGCGTGCGAGTGGACACCATTGCCGACTGTACTT GCGGAGCTCGCAACTTCACCAAGCCCGAATCCTGCCGGACGACTCCCTGC CACAATGGAGGCCGATGTGTGGACACCAGATTCGGTCCGCATTGCTCGTG TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAGACCACTCGCAGCTTCC GTGGAAACGGCTGGGCCTGGTATCCTCCGCTGGAGATGTGTGACGAGTCG CATTTGAGCCTGGAGTTTATCACTCGAAAGCCCGATGGCCTGATCATCTA CAATGGACCGATTGTTCCGCCCGAACGCGATGAGACGCTGATATCCGACT TCATTGCCCTGGAACTGGAGCGAGGCTATCCCAGACTCCTCATCGACTTC GGTTCGGGCACCTTGGAACTGAGGGTGAAGACCAAAAAGACTCTGGACGA CGGTGAGTGGCACAGGATCGATCTGTTTTGGGACACCGAGAGCATTCGCA TGGTGGTGGACTTCTGCAAGTCGGCGGAAATAGCCGAAATGGAGGACGGC ACTCCGCCGGAGTTCGATGACATGACCTGCCAGGCGAGGGGTCAAATCCC GCCGTTCAATGAGTATCTCAATGTGAATGCTCCCCTGCAGGTGGGCGGCT TGTACCGGGAACAGTTCGATCAGAGCCTCTACAACTGGCACTACATGCCC ACGGCCAAGGGTTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCAA GCTCTACGATCTGGCTCATCCGGGACTGTCGAGGAATAGCGTGGCGGGCT GTCCGCAAACCGAGGAGGTTTGCGCCCAAACGGAGACCACAGCCCGGTGC TGGGAGCATGGAAACTGTGTTGGTTCCCTGTCCGAAGCTCGCTGCCATTG CCGGCCAGGTTGGACTGGTCCTGCCTGTAATATTCCCACCATACCCACCA CCTTCAAGGCCCAGAGTTATGTGAAGTACGCTCTGAGCTTCGAACCCGAT CGGTTCAGCACTCAGGTGCAGCTGAGGTTCCGCACGAGGGAGGAGTACGG AGAACTGTTCCGTGTTAGCGATCAGCACAATCGGGAGTATGGAATCCTGG AGATCAAGGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGT ACCGAGGAAAAGGATCTCTGGCTGAACGCCATAGTGGTCAACGATGGCCA GTGGCACGTGGTGAAGGTCAATCGGTATGGCTCCGCTGCTACCCTGGAAT TGGATGGCGGTGAGGGTCGTCGCTACAACGAAACCTTTGAGTTCGTGGGA CATCAGTGGTTGCTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA GGCTGAGTACACTGGCGTTAGAACCTTTGAGGTGTACGCAGATTACCAGA AGAGCTGTCTCGACGATATACGTCTTGAAGGCAAACATCTTCCTCTGCCG CCGGCCATGAACGGCACCCAATGGGGTCAGGCCACAATGGCAAGGAATCT GGAGAAGGGCTGTCCCTCCAATAAACCCTGCTCGAATGTGATCTGCCCCG ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA GTGCCTCGACATGCCCTGTATGAACGGCGCGACTTGCATTAATCTCGAGC CCCGACTTCGATATCGTTGCATATGTCCCGATGGTTTCTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCCTGGTGT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG CGAGGATGACATGACCGCCTTTGATATCACACCCCTGCAAATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTTATGACCTTAATGCCTGGTCAGGAGCCCAATGTGGGCATGTTCAT TGAGGAGCATAAAAAGCGCGCCGATGGTGATCCCAATGCGCCGCCTTTCG ATGACTTGAGGAATTATGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAACATGTACGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_biarmipes_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAAGCAA CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTCCCCTTGA TTTTGGCCATCGAGGAGACCACATTTGCTGGCCTGTCTGCGGAGAATGCG GCTCGCATGCTGGCCGGCAGTCCTGGCGACGTGGAAAAGGCCCCCTCG-- -CATCACAGCGAAATGTCCCTGGTCCTGCCACACGACACCTACCCTGGAT TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGCAGCTCC CATGCCGGCGGAGCCGCCTACCACATGCTGGACAGTGACTACTCAAAGTA CTTTACGGTGCTCGAGGATGGTGTGGTGATGACCACGGCGGACATATCGC CGCTCGTCAACCGACCGGTTCAGTTGGTGGTCGTGGAGCAGACCCCCAAT GTCACCAACACCCACAACCTGCAGTTGTTCGTGATGCATCGCAACGACAT GCTGCGATTCTCGGGATCCCTGCTCGACGCCAGTGGCGAGGTGAGGGAGA ACCAGCCAGCGGGCACCAGAGTCAGAGGAGTGCCCCTAATGCAGGCCTTC AGTGGTTCCATCCTAGACGAAGAGCTGGCCACGCCCAAGAAGGTCAGGTA CACCATCATCGATGGCAACGTGGACGACGCCTTCGCCCTGCAGGAACGCA AGGCGAACAAGAACATTCAAATAAGTGCCAAGTCCTTGGTGATAAATGGC GACGACGAGTCCGGCGTCTGGTTGGTCACCAATCGTCCTTTGGATCGCGA GGAGCGCGCCCACTACGATCTCTCCGTGGAGGCATCGGATGTCGATGGCC TGGACAAAACCGTTTCCAAAATACAAATCACTATTTTGGACGAGAACGAC AACCGACCCATCTTTAAGTCCATGGACTATAAGTTCGCCATTGCCGGTCA AAAGTCTGCAAATATGGAGAGCAACAGTAGCGTGACTTACAAGCGATTCG CGATCATGGGCAAAGTGGAGGCCACCGATGCGGATGGCGATAAGATTGCC TATCGCCTCAAGGCGCCCAGCAACGTTGTGATCATTGTTCCCCAAACTGG CGAAATTATGCTGGCCGGCGAGCCCACCTCTAACGAACTTCTTATCGAGG TGACAGCCCACGACTTGAGGTATCCCAGTTTATTGAGTGCGAAGCCCGCC AAGGTCCTCTTGGAATTTCTGGCTGCCGAGCCAGTTTCCTTCATAATGCA GCATCTGGAGCACGATGAGGTGAACAATCACTCACATCACCGGGAGAAGA GACGAGTTACCCGAGCAGTGCGACCCACCAAGCGGATTGAGTTCACCGAG GCAGACGGCGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC CGACAAGGAGACGTTCAAGATCAGGGACGATAATCCCTGGGTGACGGTGG AAACAAACGGAGCTGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACCAACATGGGACA CAACGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGATGAGCCGCCGTACTTCATCAACCGCCCGCTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT CCAGGCCCGAGATCCCGATACCGACCACAATATCCACTACTTCATCGTGC GCGATCGAACTGGCGGACGCTTTGAGGTGGACGAGCGATCCGGAGTGGTG AGGACCAGGGGCACGGACCTGTTTCAACTGGATATGGAGTATGTGCTGTA CGTGAAGGCCGAGGATCAGAATGGAAAGGTCGACGATCGCAGGTTCCAGA GCACCCCCGAGGAGCGCCTCTCGATTGTGGGTGGCAAGCGCGCTCCCCAG TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAACCAGAAAAAGGA CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAGATTC GCTATACCTTGAAGGCCCAGGGCCAGGGCGCCGGCACCTTCAACATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCGG GAGGATTCTCCACCTCCGTTGATCTCACCATTCGCGTTACGGACGTAAAC GACAATGCCCCGAAATTCGAGCTGCCCGATTACCAGGCGCACAATGTGGA CGAGGATATTCCACTGGGCACCAGCATCCTTCGGGTTAAGGCTATGGATT CAGATTCAGGATCGAATGCCGAAATCGAATACCTGGTATCCGATGACCAT TTCGCCGTGGACTCCAATGGAATCATCGTGAACAACAAGCAACTGGATGC GGACAACAACAATGCCTACTACGAGTTCATAGTCACTGCCAAGGACAAGG GCGAACCGCCAAAGTCTGGAGTGGCCACGGTCCGTGTTTACACCAAAAAC AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACCCCCAATGT GGATGAGAACGCAGGTCCGAATACTCTGGTTACCACTGTGGTGGCTTCCG ACAAGGATGGCGACAACGTCAGGTTCGGATTCGTGGGCGGCGGCACTTCG TCGGGTCAGTTTGTGATCGAGGACATAACCGGTGTGATCCGGCTGCACAA CAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTTACCGCCA TGGACGATGGATCCTGTTGCGTGAATGGCGATCAAACTATCCACACTTCC ACCGCCGTGGTTGTGGTCTTCATCACCGACGTCAACGACAACAAGCCGGT GTTCAAGGACTGCAGTACCTACTATCCGAAGGTCGAGGAAGGTGCTCCCA ACGGAAGCCCCGTCATTAAAGTGGTGGCCACCGACGAGGACAAGGGTGTC AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAACCAGAAGGGAAC AAAGTTCACAGTGGACGAGGAAACGGGAGAGGTGTCCACCAACAAGGTGT TCGATCGCGAGGGCGATGATGGAAAATTTGTATCCGTCACTGTAAAGGCC ACAGATCAGGGCGACCCAAGTCTGGAAGGCGTTTGCTCCTTCACCGTGGA GATCACAGATGTCAACGACAATCCCCCACTTTTTGATCGTCAGAAATACG TCGAAAATGTAAAACAGGATGCCAGTATTGGCACGAACATCCTCCGAGTC TCCGCCTCCGACGAAGATGCCGACAACAACGGAGCTATAGTATATAGCCT GACCGCCCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGACCGATATCGC TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCTCCCATTTGGG ATAAGAGCATTTACGGGCCGATTCACATCCGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATCGAAGGCAATCCCAC GGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAGTTTC ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCAGAC ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAGTACAACTT AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACG GAACGCGAGCAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAGGTGAACGCCATCGACAAGGACGGCACATTCCCGAATAATCAGG TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAGTTCTTC GAAATCAACCTGCAAAGTGGCGAGATATTCACGAAGACCGTTTTCGACAG GGAGAAGAAGGGCGCCTACGCCCTCGAAGTGGAGGCCCGGGATGGAGCTC CCTCGGCCAGGCCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAGTC GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATCCAGCACACAGTGC TCACTGTAACGGCCAAGGACCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGGTTCCCGCAGAC ATCCTACGAGCGAACTCTCGACGAGGGAATGACCAACACGCCCTTTACCA TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTGTTAAAGCCCC TGGATCGCGATCAACCAAACGGACGACCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAACGCCCCCATTTTCCCACAGGGCGTAT ACTTCGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC ATGACGGCCGTGGACTACGACGATCCCAACGAGGGCTCCAACGCCCGGCT GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCGCCCA TTTTCGAAATCGAGCCCGACACGGGTGTGATAAAGACCGCCGTCTGCTGC CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA TGGCGGGGGGCTAAAGGGGACGGGGACGGCCTCCATACGGGTCAAGGATA TCAACGATATGCCGCCGCAGTTTACGAAGGACGAATGGTTTACGGAAGTG GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACAGTGAC CGTGCACGACGAGGACGAAACGAACAAGTTCCAGTACAAGGTTATCGACA ACAGTGGCTACGGTGCCGACAAGTTCACCATGGTGCGGAACAACGATGGC ACCGGATCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAGCTGCA GAGCAATGGCTTCCGCTTCCGCATCCAGGTGAACGACAAGGGCGAGGACA ATGACAACGATAAGTACCATGTGGCCTACTCGTGGGTGGTGGTCAAACTG AGGGACATCAACGACAACAAGCCGCACTTCGACCGGGCCAATGTGGAGGT CTCCGTGTTCGAGGACACCAAGGTGGGCACCGAGCTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT CGTTCCTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT TACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTTA AGATCCTGGCGATAGATGATGGCTCTCCACCGAAAACCGCGACTGCTACC CTTACAGTCATCGTTCAGGACATCAACGATAATGCTCCCAAGTTCCTGAA GGACTACAGACCAGTACTGCCAGAGCATGTGCCTCCTCGTAAGGTGGTGG AGATCCTGGCCACCGATGACGATGATCGCTCCAAGAGCAACGGCCCTCCT TTCCAGTTCCGCCTGGACCCCAGTGCCGATGATATTATTCGTGCCTCCTT CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGCGATGGCATGGCCGTGA TTTCTTCCCTGCGATCCTTCGATCGCGAACAGCAGAAGGAGTACATGATC CCCATTGTGATCAAGGATCACGGCTCTCCAGCGATGACGGGAACCAGTAC TCTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT CCAAGGACATCTTCGTTTACAACTACCAGGGACAATCGCCAGATACGCCA ATTGGTCGAGTCTATGTCTACGATCTGGATGACTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGCTGGACGAGG ACTCCGGCATGGTCACCATGCGGGCAGGAACCCGCGAAGGACGTTACCAC CTTAGGTTCAAGGTCTACGATCGTAAGCACACCCAGACCGACATACCCGC CAATGTCACGGTTACGGTGAGGGAAATTCCTCACGAAGCTGTTATAAACT CGGGCTCCGTACGCCTGTCTGGCATCTCGGACGAAGACTTCATCCGTGTG TGGAACTACAGGACCCAGAGCATGAGTCGCTCCAAAATGGATCGTTTCCG GGATAAACTGGCTGACTTACTGAACACCGAGCGGGACAATGTGGACATCT TCAGTGTGCAGTTAAAGAGGAAACACCCTCCCCTAACAGATATCAGGTTC TCGGCCCACGGATCCCCCTACTACAAGCCAGTTAGGCTAAACGGCATTGT CCTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATAACCA TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC TGCACGAATTCCCTGGAAATCAGCCCCCTGCCCTACATGGTCAACGCCAA CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATCGCGGACTGTACTT GTGGTGCTCGTAACTTCAGCAAACCCGAATCCTGCCGCACAACTCCCTGC CACAATGGTGGCCGTTGTGTGGACACCAGGTTTGGTCCCCATTGCTCGTG TCCGGTGGGCTATGCAGGTCCCAGATGCCAGCAGACGACCCGTAGTTTCC GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG CATTTGAGTCTGGAGTTCATTACCCGCAAGCCCGATGGCCTGATCATCTA CAATGGACCCATAGTTCCCCCCGAACGGGACGAGACGCTCATATCCGACT TTATTGCCCTGGAACTGGAGCGAGGCTATCCTAGACTACTGATAGACTTT GGCTCGGGAACTTTGGAACTGCGAGTGAAGACCAAAAAGACTTTGGACGA TGGTGAGTGGCACAGGATCGACCTGTTCTGGGACACCGAAAGCATTCGCA TGGTGGTGGACTTCTGTAAGTCGGCGGAAATCGCCGAAATGGAGGATGGC ACTCCGCCGGAATTCGACGACATGTCCTGCCAGGCGAGGGGACAGATTCC GCCGTTCGACGAGTATCTCAATGTCAATGCTCCCTTGCAAGTGGGCGGCT TGTACCGGGAACAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC ACGGCCAAGGGCTTCGATGGCTGCATCAGAAACTTGGTGCACAACTCCGA GCTCTACGATCTTGCTCATCCGGGACTGTCGAGGAACAGTGTGGCGGGTT GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACTGCCCGTTGC TGGGAACACGGAAATTGCGTGGGTTCCCTGTCCGAAGCTCGTTGCCACTG TCGACCTGGTTGGACGGGCCCTGCCTGTAATATTCCCACCATACCCACCA CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT CGGTTCAGCACTCAAGTCCAGTTGAGATTCCGCACGAGGGAGGAGTACGG AGAGCTCTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGTATTCTGG AGATCAAGGATGGTCACCTCCACTTCCGCTACAATCTGAACTCCCTTCGT ACCGAGGAGAAGGATCTGTGGCTGAATGCCATAGTGGTCAATGATGGTCA GTGGCACGTGGTGAAGGTTAATCGATACGGCTCTGCTGCTACCCTGGAGC TGGATGGTGGAGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGC CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA GGCAGAGTACACAGGCGTTAGAACCTTTGAGGTGTACGCTGATTACCAGA AGAGCTGTCTTGATGATATACGTCTCGAAGGCAAACATCTTCCACTGCCA CCGGCGATGAATGGCACCCAGTGGGGTCAGGCCACCATGGCCAGGAATCT GGAGAAGGGTTGCCCCTCGAATAAACCCTGCTCAAATGTGATCTGCCCCG ATCCCTTCGAGTGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA GTGCCTCGATATGCCCTGCATGAACGGTGCCACTTGCATCAATCTCGAGC CCCGACTGCGCTATCGTTGCATATGTCCCGACGGTTTCTGGGGCGAGAAC TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGCCCC GACGATGATGTGCGCGAGAATATCATCAACTACGACGATGAGGGAGGCGG CGAGGACGACATGACCGCCTTCGACATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTGATGACCTTAATGCCAGGGCAGGAGCCCAACGTGGGCATGTTCAT CGAGGAGCATAAAAAGCGCGCCGATGGCGATCCAAATGCGCCGCCCTTCG ATGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCA CTCAGCTCGCTGGCCTCAGGAACTGACGACGAGCAGCAGGAATACGACTA CCTCGGGGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG--- >D_suzukii_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGGTATATAACCAA CCGACTAAATATATACACCTGCGCGATATTTTTGATATCCCTACCGTTAA TTTTGGCCATCGAGGAGACCACATTTGCCGGTTTGTCTGCGGAAAATGCG GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCCCCATCG-- -CATCACAGCGAAATGTCCTTGGTCCTGCCACACGACACCTATCCTGGCT TCAGCATCAAGAAGTTCAAAACCCATCCTGTGAAGATAAATGGTAGCTCG CATGCCGGCGGTGCTGCCTATCACATGTTGGACAGTGATTACTCCAAGTA CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCGC CGCTCGTCAATCGTCCAGTTCAGTTGGTGGTTGTCGAACAAACCCCCAAT GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT GCTGCGATTCTCAGGATCCCTACTCGATGCCAGTGGTGAGGTGAGGGAGA ATCAACCGGCGGGCACCAGGGTAAGAGGAGTACCCCTAATGCAGGCCTTC AGTGGCTCCATCCTAGATGAAGAACTGGCCACACCCAAGAAGGTTAGGTA CACCATCATCGATGGCAACGTGGACGATGCCTTTGCCCTGCAGGAACGCA AGGCCAACAAGAATATTCAGATAAGTGCCAAGTCCTTGGTGATAAATGGT GACGACGAGTCTGGCGTTTGGTTGGTCACCAATCGTCCTTTGGATCGAGA GGAACGTGCCCACTATGATCTCTCCGTAGAAGCTTCAGATGTCGATGGCT TGGATAAGACGGTTTCCAAAATACAAATTACTGTATTGGATGAGAACGAT AATAGACCGATCTTCAAGTCCCTAGACTATAAGTTTGCCATTGCCGGCCA GAAATCTGCAAATATGGAGAGCAATAGTAGCGTGACTTATCGGCGATTTG CAATTATGGGAAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATTGCC TATCGCCTCAAGTCGCCCAGCAATGTGGTGATCATAGTTCCTCAAACTGG CGAAATAATGCTGGCCGGTGAGCCCACTTCAAACGAACTTCTTATCGAGG TGATAGCCCACGATCTGAGGTATCCCAGTTTATTGAGTGCCAAGCCCGCC AAGGTCCTCTTGGAGTTTCTGGCTGCCGAACCGGTTTCCTTTATAATGCA ACATCTGGAACACGATGAGGTCAATAATCACTCACATCACCGAGAGAAAA GACGAGTTACCCGAGCTGTGCGACCCACCAAGAGGATCGAATTCACCGAG GCTGATGGAGATACCGAGGGAAAGTCGGTGTTCCAGTTGGAAAAGGAAAC CGATAAGGAAACGTTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGTTG GGACCCGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGATGAGCCCCCGTATTTCATCAACCGCCCCCTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCGGTTTTCACGCT CCAGGCCCGAGATCCCGATACCGATCATAATATCCATTATTTCATCGTTC GCGATCGAACTGGCGGACGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG AGGACCAGGGGCACGGACCTCTTCCAGCTGGATATGGAATATGTCCTGTA CGTAAAGGCAGAGGATCAGAATGGAAAGGTCGATGATCGCAGGTTCCAGA GCACCCCCGAGGAGCGACTCTCGATTGTGGGTGGCAAACGAGCTCCCCAG TTCTACATGCCCAGCTATGAGGCCGAGATCCCAGAAAATCAGAAAAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCGGACCGCGAGATTC GCTATACCCTGAAGGCCCAGGGCCAGGGGGCCGGCACCTTTAACATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGCTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG GGGGCTTTTCCACCTCCGTCGATCTCACCATTCGCGTTACGGATGTGAAC GACAATGCCCCGAAATTCGAGCTGCCCGATTATCAGGCCCACAACGTTGA TGAGGATATTCCACTGGGCACAAGCATACTTCGGGTTAAAGCTATGGATT CCGATTCAGGATCGAATGCTGAAATAGAATACCTAGTATCCGATGACCAT TTCGCCGTGGATTCCAACGGAATTATCGTGAACAACAAGCAACTGGATGC GGACAATAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGACAAGG GTGAACCGCCAAAGTCTGGAGTGGCTACAGTGCGTGTTTACACCAAAAAC AAGAACGACGAGGAGCCCAAGTTCTCCCAGCAGGTGTATACCCCCAATGT GGATGAGAATGCTGGTCCAAATACTTTGGTTACCACTGTTGTGGCCTCCG ATAAGGATGGCGACAACGTTAGGTTTGGATTTGTGGGCGGTGGCACTTCG TCGGGTCAGTTTGTCATAGAGGACATAACCGGTGTGATCCGACTGCACAA TAAAGCCATATCCCTGGACAGGGACAAGTACGAGTTGAACGTTACGGCCA TGGATGATGGATCTTGTTGTGTGAATGGCGATCAAACTATCCACACTTCG ACCGCCGTGGTTGTGGTCTTTATCACCGATGTCAACGATAATAAGCCGGT GTTCAAGGACTGCAGTACCTACTACCCGAAAGTCGAGGAGGGAGCTCCAA ATGGAAGTCCCGTCATTAAAGTTGTGGCCACCGACGAGGATAAGGGTGTC AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAAGGTAC AAAGTTCACAGTCGATGAGGAAACGGGAGAGGTGTCCACCAACAAGGTCT TCGATCGAGAGGGAGATGATGGAAAATTTGTATCAGTCACAGTGAAGGCC ACAGATCAGGGTGATCCAAGTCTGGAAGGCGTGTGCTCCTTTACCGTGGA GATCACAGATGTCAACGATAATCCCCCACTGTTTGATCGTCAGAAATACG TTGAGAATGTAAAGCAGGATGCCAGTATTGGCACCAATATCCTCCGTGTC TCCGCCTCCGATGAAGATGCCGACAACAATGGAGCTATAGTATACAGCCT GACTGCACCCTTTAATCCCAACGATCTGGAATACTTTGAAATCCAGGCCG AATCCGGTTGGATTGTGCTCAAGAAACCGCTTGACCGTGACCGATATCGC TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGCATTTACGGGCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCTGGTATTGAAGGCAATCCCAC AGTTTTTTATCGATTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAACGGCGATACTTGGGCAGAT ATAAAAGTCAATCATCCGCTGGACTACGAAAGCATCAAGGAATACAATTT AACCATACGTGTTGAGAACAACGGGGCCCAACAACTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGACGGCACATTCCCAAATAATCAGG TGTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAGGAATTCTTC GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTTTTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCCCGCGATGGAGCGC CCTCGGCGAGACCCAATAGCAACGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC TCACTGTAACCGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCGGCCAATAG CAAATTCGACATCAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCCC TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGATACGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTTT ACTTTGGCAACGTGACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC ATGACGGCCGTGGACTACGACGATCCCAACGAGGGTTCCAATGCCCGGCT GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACGGGGTCACCCA TTTTCGAAATCGAACCCGACACGGGTGTGATAAAGACCGCCGTTTGTTGT CTGGATCGCGAGAGAACCCCTGATTACTCGATACAGGTCGTTGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG GACGAAACGGATGGCACTGCTCTGCCGGAAATGCCCATTTTAACCGTGAC CGTACACGATGAAGACGAAACTAACAAGTTCCAGTACAAGGTTATCGATA ACAGTGGCTATGGTGCCGATAAGTTCACCATGGTGCGGAATAACGATGGA ACTGGTTCCCTGAAAATCGTACAGCCCCTGGACTACGAGGATCAACTGCA GAGCAATGGCTTCCGTTTCCGCATTCAGGTGAACGACAAGGGCGAGGACA ACGACAATGATAAGTACCATGTGGCCTATTCGTGGGTTGTGGTCAAACTG AGGGACATTAACGATAATAAGCCGCACTTCGATCGGGCCAATGTGGAGGT CTCCGTTTTCGAGGACACCAAGGTGGGCACTGAGCTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT CGTTCTTCGGATCGTCAGCGGCAGTTTGCCATCAACCAGAATGGTTCGGT GACCATTCAACGCTCCCTGGATCGCGAAGTGGTGCCCCGTCATCAGGTCA AAATTCTGGCGATAGATGATGGTTCCCCACCAAAAACCGCCACGGCTACA CTTACAGTCATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA AGACTACAGACCAGTACTGCCTGAGCATGTGCCTCCTCGTAAAGTGGTGG AGATCCTGGCCACCGATGACGATGATCGCTCTAAGAGTAATGGTCCACCT TTCCAGTTCCGATTGGACCCCAGTGCCGATGATATTATCCGTGCTTCTTT CAAGGTGGAACAGGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTGA TTTCCTCCCTGCGATCCTTCGATCGCGAACAGCAAAAGGAGTATATGATC CCGATTGTGATCAAGGATCACGGTTCTCCGGCAATGACTGGTACCAGTAC TTTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT CCAAGGACATCTTCGTCTACAACTACCAAGGACAATCGCCAGACACTCCA ATTGGTAGGGTCTATGTCTACGATCTGGATGATTGGGATCTGCCCGACAA GAAGTTTTACTGGGAGGCCATGGAACATCCGCGCTTCAAGTTGGACGAGG ACTCCGGCATGGTCACCATGAGGGCAGGAACCCGCGAAGGACGTTACCAT CTCAGGTTTAAGGTCTACGATCGTAAGCACACCCAAACCGATATACCAGC CAATGTCACGGTTACGGTGAGGGAGATTCCCCATGAAGCTGTTATAAACT CGGGATCCGTACGACTATCTGGCATTTCGGATGAAGACTTCATCCGAGTG TGGAACTATAGGACCCAGAGCATGAGTCGCTCAAAAATGGATCGCTTCAG AGATAAACTGGCTGATTTACTGAATACCGAGAGGGATAATGTTGACATAT TCAGTGTGCAGCTGAAGAGAAAACACCCTCCTCTAACTGACATCAGGTTC TCGGCTCATGGGTCTCCCTACTACAAACCAGTTAGGCTAAATGGCATTGT CTTGATGCATCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA TGGTGGGCATTGATGAGTGTCTGTATGAAAACCAAATGTGCGAGGGTAGC TGCACGAATGCCCTGGAAATCAGTCCCCTGCCCTATATGGTTAATGCCAA CAAAACTGCCTTGGTCGGTGTTCGAGTGGACACCATTGCAGACTGTACTT GTGGGGCCCGTAACTTCAGTAAACCCGAGTCCTGCCGAACAACTCCCTGT CACAATGGTGGACGTTGTGTAGACACCAGATTTGGACCCCATTGCTCGTG TCCGGTGGGCTATGCAGGTCCCAGATGTCAGCAGACCACTCGAAGTTTCC GTGGAAACGGTTGGGCCTGGTATCCTCCCCTGGAGATGTGTGACGAATCG CATTTGAGTCTGGAATTCATCACCCGCAAGCCTGATGGCCTGATCATTTA CAATGGACCCATAGTTCCGCCAGAACGGGATGAGACGCTCATATCCGACT TTATTGCCCTGGAACTGGAGCGAGGTTATCCCAGACTACTGATAGACTTT GGTTCGGGCACCTTGGAGCTGCGAGTGAAGACCAAAAAGACTTTGGACGA TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA TGGTGGTGGACTTCTGTAAGTCGGCGGAAATTGCCGAAATGGAGGATGGC ACTCCTCCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAGATTCC GCCATTCGATGAGTATCTCAATGTTAATGCTCCTCTGCAAGTGGGTGGTT TGTACCGCGAGCAGTTCGATCAGAGTCTGTACAACTGGCACTATATGCCC ACGGCCAAGGGCTTCGATGGTTGTATCAGAAACTTGGTGCATAACTCCAA GCTCTATGATCTTGCTCATCCGGGACTGTCGAGGAATAGTGTGGCTGGTT GTCCGCAAACCGAGGAAGTGTGCGCCCAAACGGAAACCACAGCCCGTTGC TGGGAACATGGAAATTGCGTGGGATCCCTGTCCGAAGCTCGCTGCCATTG TCGACCTGGTTGGACGGGTCCTGCCTGTAACATTCCCACCATACCCACCA CCTTCAAGGCCCAGAGTTATGTGAAGTACGCCCTGAGCTTCGAACCCGAT CGGTTCAGCACTCAAGTCCAGCTGAGATTCCGCACGAGGGAGGAGTACGG AGAACTTTTCCGCGTGAGCGATCAGCACAATCGAGAGTATGGAATTCTGG AGATCAAGGATGGTCACCTCCATTTCCGTTACAACCTGAATTCCCTTCGT ACCGAGGAGAAGGATCTGTGGCTAAATGCCATAGTGGTCAACGATGGTCA GTGGCACGTGGTGAAGGTTAATCGATATGGCTCTGCTGCTACTCTAGAAT TGGATGGTGGAGAAGGTCGTCGTTATAACGAGACCTTTGAGTTCGTGGGC CACCAGTGGCTGTTGGTGGACAAACAAGAGGGTGTCTATGCTGGCGGAAA GGCAGAATACACTGGCGTCAGAACCTTTGAGGTATACGCTGATTACCAGA AGAGCTGTCTCGATGATATACGTCTTGAAGGTAAGCACCTTCCTCTGCCA CCTGCGATGAATGGTACCCAATGGGGTCAGGCCACAATGGCCAGGAACCT GGAGAAGGGTTGTCCCTCGAACAAACCCTGCTCGAATGTGATCTGCCCCG ATCCCTTCGAGTGCGTGGATCTTTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA GTGCCTCGATATGCCCTGCATGAATGGTGCCACTTGCATCAATCTCGAGC CCCGACTCCGATATCGTTGCATCTGTCCCGATGGTTTCTGGGGCGAAAAC TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAACTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTCT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC GACGATGATGTGCGCGAGAATATCATCAACTATGACGATGAGGGAGGCGG CGAGGATGATATGACCGCCTTTGATATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCTGTAATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT TGAGGAGCATAAAAAGCGTGCCGATGGTGATCCTAACGCGCCGCCTTTTG ACGACTTGAGGAACTATGCGTACGAGGGCGGCGGCAGCACAGCTGGATCG CTCAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAATACGACTA CCTCGGAGCCTGGGGGCCACGCTTTGACAAGCTGGCCAACATGTACGGAC CCGAGGCGCCCAATCCCCACAACACCGAACTAGAATTG--- >D_eugracilis_CadN-PA ATGGCGGCACGACGTTGCCTGGATTTGCTCAGGCAACGTTATATAACCAA CCGATTTAATATATACACCTGCGCGATATATTTGATAGCCCTCCCGTTAG TTTTGGCCATAGAGGAGACCACATTTGCTGGTCTATCGGCGGAAAATGCA GCCCGCATGTTGGCTGGCAGTCCAGGGGATGTGGAAAAGTCACCCTCGTC ACATCACAGTGAAATGTCCCTGGTGCTGCCACACGATACCTATCCTGGAT TTAGCATCAAGAAGTTCAAAACCCATCCCGCTAAGATAAATGGTAGCTCG CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCAAAGTA CTTTACCGTACTGGAAGATGGTGTGGTGATGACCACAGCGGATATATCTC CGCTGGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACTCCCAAT GTCACCAATACCCACAATCTTCAGTTATTCGTAATGCATCGCAATGACAT GCTGCGATTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTAAGGGAGA ATCAACCGGCGGGTACCCGGGTAAGAGGAGTGCCCCTAATGCAGGCCTTC AGTGGTTCCATCCTGGATGAAGAACTGGCCACACCCAAGAAAGTTAGGTA CACCATTATTGACGGCAACGTAGATGATGCATTCGCTCTGCAGGAACGCA AGTCCAATAAAAATATTCAATTAAGTGCAAAGTCCTTGGTAATTAATGGT GATGATGAATCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGAGA GGAAAGGGCTCACTATGATCTCTCCGTGGAAGCTTCAGATGTTGATGGCT TGGATAAGACCATATCCAAAATACAAATCTCAGTGCTAGATGAAAACGAT AATAGACCGATTTTCAAGTCATTGGATTATAAATTCGCCATTGCTGGTCA AAAGTCTGCTAATATGGAGAGCAATAGTAGTGTGACTTATCAGCGATTTG CGATCATGGGCAAAGTTGAAGCCACCGATGCTGATGGTGATAAAATTGCC TACAGGCTGAAGTCACCAAGCAATGTTGTAATTATCGTACCACAAACTGG TGAAATAATGCTGGCAGGTGAACCCACTTCAAACGAACTTCTTATCGAGG TGATAGCCCATGACTTGAGGTATCCCAGTCTATTGAGTGCTAAACCAGCG AAGGTTTTGTTGGAATTCTTGGCTGCTGAACCAGTTTCGTTTATCATGCA ACATCTGGAACATGATGAGATAAATAATCACTCGCATCACCGAGAGAAAA GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAATTCACTGAA GCCGATGGCGATACCGAGGGAAAGTCGGTGTTCCAATTGGAAAAGGAAAC CGATAAGGAAACATTTAAGATCCGAGACGATAACCCCTGGGTGACGGTGG AAACAAATGGAGCAGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG GGTCCAGAGAAGACCATCGATTTCTGGGTCATTATCACAAACATGGGACA TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATTCTGGTGA AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCACTGCCCATG CAGGCGGTGGTTCAGCTGAATGCACCACCCAACACTCCAGTTTTCACACT ACAAGCTCGGGATCCCGATACGGATCATAATATTCATTATTTCATCGTTC GTGATCGAACTGGTGGGCGTTTCGAGGTGGACGAACGATCTGGAGTAGTC AGGACTAGGGGTACGGATCTCTTTCAACTGGATATGGAATACGTACTGTA CGTAAAGGCTGAGGATCAAAATGGAAAGGTCGATGATCGCAGATTCCAGA GCACTCCCGAGGAGCGACTTTCGATTGTGGGTGGCAAACGCGCCCCTCAA TTCTATATGCCCAGCTATGAAGCCGAGATCCCAGAAAACCAGAAAAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATAC GTTATACTTTAAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAACATTGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAAGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCAACGGAGGACTCTG GAGGATTTTCCACCTCCGTCGATCTCACTATTCGCGTTACGGATGTGAAT GACAACGCTCCGAAATTCGAGCTGCCTGATTACCAAGCTCACAACGTGGA TGAGGATATTCCGCTGGGCACGAGCATACTTCGAGTGAAAGCTATGGATT CAGATTCGGGGTCAAATGCTGAAATCGAATACTTAGTATCCGATGACCAT TTCGCCGTTGATTCAAATGGAATTATTGTGAACAACAAGCAACTGGATGC GGATAATAATAATGCTTACTACGAGTTCATAGTCACTGCCAAGGATAAAG GTGAACCGCCTAAGTCGGGAGTTGCCACAGTTCGTGTTTACACAAAAAAC AAGAACGATGAAGAGCCAAAGTTCTCACAGCAAGTGTATACCCCAAATGT GGATGAGAATGCAGGTCCTAACACGTTAGTTACCACTGTGGTTGCCTCTG ATAAGGATGGTGATAACGTACGGTTTGGCTTCGTGGGCGGCGGCACTTCG TCGGGTCAGTTTGTCATCGAGGACATAACCGGTGTTATCCGACTGCATAA TAAAGCCATATCCCTGGACAGAGACAAGTACGAGCTGAATGTCACGGCCA TGGACGATGGATCATGTTGTGTGAATGGCGATCAAACTATCCACACCTCA ACCGCCGTGGTTGTGGTCTTCATCACTGATGTTAACGACAATAAGCCAGT GTTCAAGGATTGCAGTACCTATTATCCGAAAGTTGAGGAAGGTGCTCCCA ATGGTAGTCCAGTAATTAAAGTTGTGGCCACCGATGAGGATAAGGGAGTA AATGGACAGGTGAAATACTCGATAGTTCAGCAGCCAAATCAGAAGGGAAC TAAGTTCACGGTGGACGAGGAAACTGGCGAGGTGTCCACCAATAAGGTCT TCGATCGTGAGGGAGATGATGGCAAGTTTGTATCCGTAACAGTAAAGGCC ACGGATCAGGGTGATCCAAGTTTGGAGGGTGTTTGCTCCTTCACCGTAGA GATCACAGATGTCAACGATAATCCTCCACTGTTCGATCGTCAGAAATATG TAGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC TCCGCCTCCGATGAAGATGCCGATAACAATGGAGCTATAGTATATAGTCT CACAGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCAG AATCCGGTTGGATTGTTCTCAAAAAACCGCTTGACCGTGACCGTTATCGC TTGAGGGTTAGCGCCTCCGATAAAGGCACTCCCGCCTCGGCAGCCGATGT CGATGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGCATTTACGGGCCGATACACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGAAATCCCAC AGTTTTTTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGATTACGAAAGTATCAAGGAATATAATCT TACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGAGAACAGGAAACGGTGCTCGAGGGAGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC GAAATTAACCTGCAGAGTGGCGAAATATTCACGAAAACCGTATTCGATAG GGAGAAGAAGGGCGCCTATGCCCTCGAGGTGGAGGCACGGGACGGAGCTC CATCTGCTCGCCCCAATAGCAATGGACCAAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTTC TCACTGTAACGGCCAAGGATCACGACGAATCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCCTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTGCCGCCGCAATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAATATC GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATCAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC TGGATCGCGATCAACCGAACGGACGTCCCCAGTGGCGATTCACTGTATTC GCCCAGGACGAGGGTGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCACAGGGCGTAT ACTTTGGCAACGTGACCGAGAACGGCACCGCCGGCATGGTTGTGATGACC ATGACAGCAGTGGATTACGACGATCCCAATGAGGGTTCCAATGCCCGGCT TGTCTACTCTATTGAAAAGAACGTGATTGAGGAGGAAACTGGGTCCCCCA TATTTGAAATTGAACCCGATACGGGTGTGATAAAGACTGCAGTATGTTGT TTGGATCGCGAGAGAACTCCGGACTATTCGATACAGGTCGTTGCGATGGA TGGCGGAGGGTTAAAGGGGACGGGGACGGCCTCTATACGTGTTAAAGATA TCAACGATATGCCGCCGCAGTTTACGAAAGACGAATGGTTTACGGAAGTG GACGAAACGGATGGTACGGCACTGCCGGAAATGCCCATTTTAACTGTAAC CGTACACGATGAAGACGAAACCAATAAGTTTCAATATAAAGTTATCGATA ACAGTGGTTATGGTGCCGATAAATTTACCATGGTGCGGAATAACGATGGA ACTGGTTCCCTGAAAATCGTACAGCCCTTGGACTACGAAGATCAGCTGCA GAGCAATGGCTTCCGTTTCCGCATTCAAGTCAATGACAAGGGCGAGGACA ATGACAATGATAAATACCATGTGGCCTACTCGTGGGTTGTGGTTAAACTA AGAGATATCAATGACAATAAACCGCATTTCGACCGTGCCAATGTGGAGGT CTCCGTTTTCGAGGACACTAAAGTTGGCACCGAACTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAT CGTTCCTCGGATCGTCAGCGCCAGTTTGCCATTAACCAGAATGGTTCAGT AACCATTCAACGTTCCCTGGATCGCGAGGTTGTGCCGCGTCACCAGGTTA AAATTCTGGCCATCGATGATGGATCTCCACCAAAGACCGCCACTGCTACT CTAACAGTTATCGTTCAGGATATCAACGATAATGCTCCCAAGTTCCTAAA AGACTACAGACCAGTATTGCCAGAGCATGTGCCTCCACGTAAGGTGGTTG AAATTCTGGCCACCGATGACGATGATCGCTCCAAGAGCAATGGCCCACCA TTCCAGTTCCGTTTGGACCCCAGTGCCGATGATATTATCCGTGCTTCCTT CAAGGTGGAACAAGATCAAAAGGGTGCCAATGGTGATGGTATGGCCGTCA TTTCCTCACTGCGATCCTTTGATCGGGAACAGCAAAAGGAGTATATGATC CCGATTGTGATCAAGGATCATGGTTCACCGGCAATGACTGGAACCAGCAC ATTGACCGTCATTATTGGCGATGTAAATGACAATAAAATGCAGCCTGGCT CCAAGGAAATCTTCGTGTACAACTACCAAGGACAATCGCCAGATACTCCA ATTGGTCGGGTCTATGTCTACGATTTGGATGATTGGGATCTGCCCGATAA GAAGTTCTACTGGGAGGCCATGGAGCATCCGAGATTCAAGTTGGATGAGG ATTCCGGCATGGTCACCATGAGAGCTGGAACTCGCGAAGGACGCTATCAT CTTAGGTTTAAAGTCTACGATCGTAAGCACACTCAAACCGATATTCCAGC CAATGTCACAGTTACTGTGCGGGAAATACCTCACGAAGCTGTTATAAACT CGGGATCAGTGCGTCTATCAGGCATTTCAGATGAGGATTTCATTCGAGTC TGGAACTATAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGCTTCAG GGATAAGCTGGCTGACTTACTGAACACCGAAAGGGAAAATGTCGATATAT TCAGTGTGCAATTAAAGAGGAAATATCCGCCTCTAACCGATGTTAGATTC TCGGCCCATGGATCTCCGTACTACAAACCTGTGAGGCTAAATGGCATTGT TCTGATGCATCGCGAGGAGATCGAAAAGGATGTCGGCATCAATATCACCA TGGTTGGCATCGATGAGTGTCTGTATGAGAATCAAATGTGCGAGGGTAGC TGCACAAATGCCCTAGAAATCAGTCCTTTGCCTTATATGGTTAATGCCAA CAAAACTGCCTTGGTGGGTGTTCGAGTGGATACCATTGCTGATTGTACTT GTGGTGCCCGTAACTTCAGCAAGCCTGAGTCCTGCCGAACAACTCCGTGT CACAATGGTGGACGTTGTGTAGATACCAGATTTGGTCCTCACTGCTCGTG TCCTGTGGGCTATGCTGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC GAGGAAACGGCTGGGCCTGGTACCCTCCTCTGGAAATGTGCGACGAATCT CATTTAAGTTTGGAATTTATTACCAGAAAACCAGATGGTCTAATCATTTA CAATGGACCTATTGTTCCACCAGAACGAGATGAGACGCTTATATCAGATT TTATTGCTCTAGAATTGGAGCGAGGTTATCCTAGACTCCTTATCGACTTC GGTTCGGGAACTTTGGAACTGAGAGTGAAGACCAAGAAGACCTTGGACGA TGGTGAATGGCATAGGATCGATCTGTTCTGGGACACCGAATCCATTCGCA TGGTCGTGGACTTCTGTAAATCAGCGGAGATTGCCGAAATGGAGGATGGT ACTCCACCAGAATTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC GCCATTCAATGAGTACCTTAATGTTAATGCTCCCTTGCAAGTGGGTGGAT TATATCGAGAGCAATTCGATCAGAGTCTGTATTTCTGGCACTACATGCCC ACTGCCAAGGGTTTCGATGGCTGCATCCGAAATTTGGTCCACAATTCGAA ACTTTATGATCTGGCTCATCCGGGACTCTCGAGGAATAGTCTTGCAGGTT GTCCACAAACCGAGGAAGTTTGTGCCCAAACGGAAACCACATCTCGGTGC TGGGAACATGGAAATTGTGTTGGATCGTTGTCCGAGGCTCGATGCCATTG CCGACCGGGTTGGACAGGACCTGCCTGTAACATTCCTACAATACCCACAA CCTTCAAAGCCCAGAGTTATGTAAAATACGCCTTGAGTTTCGAACCGGAT CGTTTCAGCACTCAAGTCCAGTTGAGATTCCGAACAAGAGAGGAGTACGG CGAACTTTTCCGGGTTAGCGATCAGCATAATCGAGAATATGGAATTCTGG AGATCAAAGATGGTCATCTGCACTTCCGTTACAATCTCAACTCCCTTCGT ACTGAAGAAAAGGATCTCTGGCTAAACGCCATAGTGGTTAACGATGGTCA ATGGCATGTGGTGAAGGTAAATCGATATGGATCTGCTGCTACCTTGGAGT TGGATGGAGGAGAGGGTCGTCGCTACAACGAAACCTTTGAATTCGTGGGG CATCAGTGGTTGCTGGTGGACAAACAAGAGGGTGTCTATGCAGGCGGAAA AGCTGAATACACTGGTGTTAGAACATTTGAGGTGTACGCCGATTACCAGA AGAGCTGTCTCGATGATATACGACTTGAAGGCAAACATCTTCCTCTGCCA CCGGCGATGAATGGCACCCAATGGGGACAGGCCACTATGGCCAGGAATCT AGAGAAGGGTTGTCCATCAAATAAACCCTGCTCGAATGTGATCTGCCCCG ATCCCTTCGAATGCGTAGACCTCTGGAATGTTTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGACTCCAAGGGCTGTATGGATCGCAACGA GTGTCTCGATATGCCCTGTATGAACGGTGCCACTTGCATTAATCTCGAAC CCCGACTTCGATATCGTTGCATTTGTCCAGATGGTTTCTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTGATCATACTGATACTCGTCTTGGTAT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCTGGTCCC GATGACGATGTGCGCGAGAATATTATCAACTATGACGATGAGGGAGGCGG CGAGGATGATATGACCGCCTTTGATATCACACCCCTGCAGATACCAATTG GAGGGCCAATGCCACCTGAGCTGGCGCCTATGAAAATGCCAATTATGTAT CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT CGAGGACCATAAAAAGCGCGCCGATGGTGATCCAAACGCGCCGCCTTTCG ATGACTTGAGGAATTACGCGTACGAGGGTGGCGGCAGTACAGCTGGATCG CTTAGCTCATTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGATTA CCTTGGAGCCTGGGGACCACGCTTCGACAAGCTGGCCAATATGTATGGAC CCGAGGCGCCCAATCCCCATAATACCGAACTAGAATTG--- >D_ficusphila_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAC AAAACTGAATCTCTACACCTGCGCGATACTTTTGATATGCCTCCCGTTCA TTTTGGCCATAGAGGAGACCACATTCGCTGGTTTGTCGGCGGAGAATGCG GCTCGCATGTTGGCTGGCAGTCCTGGCGATGTGGAAAAATCGCCATCG-- -CATCACAGTGAAATGTCCTTGGTCCTGCCACACGATACCTATCCCGGGT TCAGCATCAAGAAGTTCAAAACCCATCCTCTCAAGATAAATGGCAGCTCG CATTCCGGCGCAGCTGCCTACCACATGTTGGATAGCGACTACTCCAAGTA CTTCACGGTACTTGAAGACGGTGTGGTGATGACCACGGCGGACATTTCTC CGCTGGTAAATCGTCCAGTTCAACTGGTGGTGGTTGAACAAACGCCCAAT GTCACCAACACCCACAATCTTCAGTTGTTCGTGATGCACCGCAACGATAT GCTGAGGTTCTCGGGTTCACTACTTGATGCCAGTGGTGAAGTAAGGGAAA ACCAGCCAGCGGGAACCAGAGTGAGAGGAGTTCCCCTAATGCAGGCCTTC AGTGGATCCATCCTGGAAGAGGAGCTCGCCACGCCCAAGAAGGTCAGGTA CACCATCATCGATGGCAACGTTGATGATGCCTTTGCCCTCCAGGAACGCA AGGCCAATAAGAACATTCAAATAAGTGCCAAGTCATTGGTAATTAATGGT GATGATGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCTTTGGATCGCGA GGAACGAGCTCACTATGATCTCTCCGTGGAAGCCTCCGATGTGGATGGTT TGGACAAGACAGTTTCCAAAATCCAGATCACCGTTCTCGATGAAAACGAC AACAGACCGATTTTCAAGTCCCTGGATTACAAATTCGCCATCGCTGGTCA GAAGTCTGCGAATATCGAGAGCAATAGTAGTGTTACCTATCAGCGATTTG CGATCATGGGAAAAGTGGAGGCCACCGATGCTGATGGGGATAAAATCGCC TATCGCTTGAAGTCCCCCAGCAATGTTGTGATTATTGTCCCCCAAACTGG GGAAATAATGCTGGCCGGTGAACCCACTTCGAATGAACTTCTTATCGAGG TGATAGCTCATGACTTAAGGTATCCCAGTCTATTGAGCGCCAAGCCGGCA AAGGTTTTATTGGAGTTTTTAGCTGCCGAACCAGTATCGTTTATAATGCA ACACTTGGAACACGATGAGGTGAACAATCACTCACATCACCGAGAGAAAA GAAGGGTCACACGAGCTGTTCGACCCACCAAGAGGATTGAATTCACCGAA GCTGACGGCGATACTGAGGGAAAATCGGTGTTCCAATTGGAAAAGGAAAC CGATAAGGAGACCTTCAAGATCCGGGATGACAATCCCTGGGTGACGGTGG AAACCAATGGAGCTGTGCGCGTCAAGAAGAAGTGGGACTACGAGGAGTTG GGTCCAGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTAATAATCCTGGTGA AGGACGTGAACGACGAGCCGCCGTACTTCATCAACCGTCCCCTGCCCATG CAGGCGGTGGTGCAACTGAATGCACCGCCCAACACTCCGGTTTTCACCCT CCAAGCCAGAGATCCCGACACGGATCACAATATCCATTACTTCATCGTTC GCGATCGAACTGGTGGTCGTTTTGAGGTGGACGAGCGATCTGGAGTGGTG CGAACCAGGGGAACGGATCTCTTCCAGCTCGACATGGAGTACGTCCTGTA CGTGAAGGCGGAGGATCAGAACGGAAAGGTCGACGACCGCAGGTTCCAAA GCACTCCGGAGGAGCGACTGTCAATCGTGGGAGGCAAACGAGCCCCGCAG TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAGAAGGA CTCAGACATCATTTCGATTAAGGCCAAGTCCTTCGCAGACCGCGAAATCC GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAACATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCAG GAGGATTTTCCACCTCCGTCGATCTCACCATTCGCGTTACTGATGTGAAT GACAATGCACCGAAATTCGAGCTGCCCGATTACCAAGCTCATAATGTGGA TGAAGATATTCCTCTTGGCACAAGCATACTCCGTGTAAAAGCAATGGATT CAGATTCCGGATCGAACGCCGAAATCGAATACCTTGTATCCGACGACCAC TTCGCCGTGGATTCAAATGGAATCATCGTAAACAACAAACAACTGGATGC GGATAACAATAATGCGTACTACGAGTTCATAGTCACTGCCAAGGACAAAG GAGAACCGCCAAAATCGGGAGTGGCGACCGTTCGTGTTTACACCAAAAAC AAGAACGACGAGGAGCCCAAGTTCTCGCAGCAAGTGTACACACCGAATGT GGATGAGAATGCCGGTCCGAATACTTTGGTTACCACTGTGGTGGCCTCCG ATAAGGATGGAGATAATGTCAGGTTTGGATTCGTGGGCGGCGGCACTTCG TCGGGTCAGTTCGTCATCGAGGACATAACCGGTGTGATCCGACTGCACAA TAAGGCCATATCCTTGGACAGGGACAAGTACGAACTGAATGTGACGGCCA TGGACGATGGATCCTGTTGCGTGAACGGCGATCAAACCATCCACACCTCA ACCGCCGTGGTGGTGGTCTTCATCACCGATGTCAACGATAATAAGCCGGT GTTTAAGGACTGCAGCACTTACTATCCGAAAGTGGAGGAAGGAGCTCCCA ACGGAAGTCCTGTCATCAAAGTTGTGGCCACTGATGAGGACAAGGGTGTG AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCCAATCAGAAGGGTAC AAAGTTCACCGTGGACGAGGAAACCGGCGAGGTGTCCACCAACAAGGTCT TCGATCGAGAGGGAGATGATGGCAAGTTTGTCTCGGTCACAGTGAAGGCC ACCGATCAGGGAGATCCAAGTCTGGAGGGTGTCTGCTCCTTCACCGTGGA GATCACAGATGTCAACGATAATCCTCCTTTGTTCGATCGTCAGAAATACG TGGAAAATGTTAAGCAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC TCCGCCTCCGATGAAGATGCTGACAACAATGGAGCTATAGTTTACAGCCT GACTGCCCCCTTCAATCCCAACGATCTGGAATACTTCGAAATTCAGGCCG AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGC TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCCGCCGATGT CGACGTTGAATTAGATGTCGTCGATCGGAATAATAAGCCACCCATTTGGG ATAAGAGCATTTACGGCCCGATTCACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGCATCGAGGGCAATCCGAC AGTTTTCTACCGTCTGATGCCCGGGTCGACGGCTCAAACGAATAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAATGGAGACACTTGGGCCGAT ATAAAAGTGAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT TACCATACGTGTTGAGAACAACGGGGCCCAACAATTGGCGTCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATCGTCGATTCACCGCGAAACGAGGGCAAAGAATTCTTC GAAATCAACCTGCAGAGCGGAGAGATTTTCACGAAGACCGTATTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC CTTCGGCGCGACCCAACAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATCGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATCCAGCACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTTGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGATGTCAACGATCTGCCACCGCGATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACAA TCATGCAGGTCACCGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAGGGAATTGATCCGGATAATCCAGCCAATAG CAAATTCGATATTAACCGCACCACCGGCGAAATATTCGTTTTAAAGCCAT TGGATCGCGATCAACCGAACGGTCGACCCCAGTGGCGCTTCACTGTATTC GCGCAGGACGAAGGCGGCGAGGGACTCGTGGGCTACGCGGATGTTCAAGT CAATCTGAAGGACATCAACGATAATGCGCCCATTTTCCCACAGGGCGTGT ACTTTGGCAATGTGACGGAGAACGGAACCGCCGGCATGGTTGTGATGACC ATGACAGCCGTGGACTACGACGATCCCAATGAGGGTTCCAATGCCCGCCT GGTTTACTCCATCGAAAAGAACGTGATTGAGGAGGAAACTGGGTCGCCAA TTTTCGAAATCGAACCCGATACGGGTGTGATTAAGACCGCAGTTTGCTGT CTGGATCGCGAGAGAACGCCGGATTACTCGATACAAGTCGTTGCGATGGA TGGCGGGGGGTTAAAGGGGACGGGGACGGCCTCTATAAGGGTTAAAGATA TCAACGATATGCCGCCGCAATTCACGAAAGACGAATGGTTTACGGAAGTG GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTAAC CGTTCACGATGAAGACGAAACGAACAAATTTCAGTACAAAGTTATCGATA ACAGCGGCTATGGAGCCGATAAATTCACCATGGTGCGAAATAACGATGGC ACTGGTTCCCTGAAAATTGTGCAACCCTTGGACTACGAGGATCAACTGCA GAGTAATGGCTTCCGCTTCCGGATTCAGGTGAACGACAAGGGCGAGGACA ACGACAATGATAAGTACCACGTGGCCTACTCGTGGGTTGTGGTTAAACTG AGGGATATCAACGATAACAAACCGCACTTCGAGCGGGCCAACGTGGAGGT GTCCGTTTTTGAGGACACCAAAGTGGGCACGGAACTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGTAAGGTCTCCTATTCCATCGAC CGTTCTTCGGATCGTCAGCGACAGTTTGCCATCAACCAAAATGGCTCGGT AACCATTCAACGTACTTTGGATCGAGAAGTTGTTCCACGTCATCAGGTCA AAATCCTGGCCATCGACGACGGCTCTCCACCAAAAACAGCCACTGCCACA CTCACAGTTATCGTTCAGGATATCAACGACAATGCTCCCAAGTTCCTTAA GGATTACAGACCAGTTTTGCCAGAGCATGTGCCACCACGTAAGGTGGTTG AAATCCTGGCCACCGATGATGACGATCGCTCGAAGAGCAATGGTCCTCCA TTCCAGTTCCGTTTGGATCCCAGCGCCGATGATATTATCCGAGCTTCTTT CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCCGTCA TTTCATCTCTGCGATCCTTCGACCGCGAACAGCAAAAGGAGTACATGATT CCTATTGTAATCAAGGATCATGGGTCGCCAGCGATGACGGGAACAAGCAC TTTAACAGTGATCATTGGCGATGTGAATGACAACAAAATGCAGCCCGGCT CCAAGGACATCTTCGTTTACAACTACCAAGGACAATCGCCAGATACGCCA ATCGGTCGAGTTTATGTCTACGATTTGGACGATTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAACATCCGCGATTCAAGTTGGACGAGG ATTCTGGTATGGTAACAATGAGGGCCGGAACTCGCGAAGGAAGATATCAT CTCAGGTTCAAGGTGTACGATCGGAAGCACACTCAGACCGATATCCCCGC CAATGTCACAGTTACAGTGAGAGAAATTCCTCACGAAGCAGTCATAAATT CGGGATCAGTTCGACTGTCTGGAATTTCCGATGAAGACTTCATTCGAGTG TGGAACTACAGGACCCAGAGCATGAGCCGCTCGAAAATGGATCGTTTCAG GGATAAACTGGCTGATTTACTGAATACCGAAAGGGAGAATGTGGATATAT TCAGTGTTCAATTAAAGAGGAAGCATCCACCCCTAACTGATGTTAGGTTC TCCGCCCATGGCTCTCCGTACTACAAACCTGTAAGACTAAATGGAATTGT GCTGATGCACCGCGAGGAAATTGAAAAAGATGTGGGTATTAACATCACAA TGGTGGGAATCGATGAGTGTTTCTACGAGAATCAAATGTGCGAGGGTAGC TGCACCAATTCCCTGGAAATTAGTCCTCTTCCTTATATGGTAAATGCCAA TAAGACAGCTTTAGTTGGAGTTCGAGTGGACACCATTGCTGATTGCACTT GTGGAGCTCGTAACTTCACTAAACCGGAATCCTGCCGAACTACTCCGTGT CACAATGGTGGTCGTTGTGTGGACACCAGATTTGGTCCCCATTGCTCGTG TCCTGTGGGTTATGCAGGTCCTCGGTGTCAGCAAACCACTCGCAGTTTCC GAGGGAACGGATGGGCCTGGTATCCTCCCCTCGAAATGTGCGACGAATCG CATTTGAGTTTGGAGTTCATAACCCGGAAACCCGATGGTTTGATTATCTA CAACGGACCTATTGTTCCGCCGGAAAGGGATGAAATGGTTATATCAGATT TCATTGCCTTGGAATTGGAGAGAGGTTATCCCAGACTCCTTATTGATTTC GGTTCGGGAACTTTGGAGTTGAGAGTGAAGACCAAGAAGACTTTGGATGA TGGTGAATGGCACAGGATCGATCTGTTCTGGGATACCGAAAGCATTCGCA TGGTTGTTGACTTTTGCAAGTCAGCTGAGATTGCCGAAATGGAGGATGGC ACTCCGCCGGAGTTCGATGACATGTCCTGCCAGGCGAGAGGACAAATTCC GCCATTCAATGAGTATCTGAATGTGAATGCTCCTTTGCAAGTGGGTGGTT TGTACCGCGAACAATTTGATCAGAGCGTTTACTATTGGCACTATATGCCC ACGGCCAAGGGATTCGATGGTTGCATCCGGAACTTGGTTCACAACTCAAA GCTTTATGATTTAGCTCATCCGGGACTATCGAGGAATAGTGTGGCGGGTT GTCCGCAAACCGAGGAGGTCTGTGCCCAAACGGAGACCACGGCTCGTTGC TGGGAACATGGAAACTGTGTTGGATCCTTGTCTGAGGCTCGATGCCATTG TCGACCGGGTTGGACAGGTCCTGCCTGCAATATCCCCACAATTCCCACCA CCTTCAAGGCCCAAAGTTATGTGAAATATGCCCTGAGTTTCGAGCCAGAT CGGTTTAGCACTCAAGTTCAGTTGAGATTCCGCACAAGAGAGGAGTACGG TGAACTTTTCCGTGTTAGCGATCAGCACAATCGGGAGTACGGAATTCTGG AGATCAAGGATGGTCATCTTCATTTCCGATACAATCTAAACTCCCTTCGC ACCGAAGAAAGGGATCTCTGGCTGAATGCCATAGTGGTTAACGATGGCCA ATGGCACGTGGTGAAGGTGAATCGGTATGGATCCGCTGCTACCCTGGAAT TGGATGGCGGAGAAGGTCGTCGGTATAACGAGACCTTTGAGTTTGTGGGT CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA AGCTGAATACACTGGCGTGAGAACTTTTGAGGTTTACGCTGATTACCAGA AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCCCTTCCA CCAGCGATGAATGGCACCCAATGGGGTCAGGCCACGATGGCCAGGAATCT CGAGAAGGGTTGTCCCTCAAATAAACCCTGCTCAAATGTGATCTGCCCCG ATCCCTTCGAATGCGTGGATCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA GTGCCTCGATATGCCCTGCATGAACGGGGCCACTTGCATTAACCTCGAGC CCCGACTTCGATATCGTTGCATTTGCCCCGATGGTTTTTGGGGCGAGAAT TGCGAATTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTCTGATCATACTGATACTCGTCCTGGTCT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC GATGACGATGTACGCGAGAATATCATTAACTACGATGATGAGGGAGGCGG CGAGGATGATATGACTGCCTTTGATATCACCCCGCTCCAGATACCAATTG GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAC CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTTGGCATGTTCAT CGAGGAGCATAAAAAGCGCGCCGATGGTGATCCAAATGCGCCACCTTTCG ACGACTTGAGGAACTACGCGTACGAGGGTGGCGGCAGCACAGCTGGATCG CTCAGCTCGTTGGCTTCAGGTACTGATGACGAGCAGCAGGAGTACGACTA CCTCGGAGCTTGGGGGCCACGCTTCGATAAGCTGGCCAACATGTATGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_rhopaloa_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA CCGATTAAATCTATACACCTGCGCGATATTTTTGATATCTCTACCGTTAA TTTTGGCCATAGAGGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG GCTCGCATGTTGGCCGGCAGTCCTGGCGATGTGGAAAAGTCACCGTCG-- -CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCAGGAT TTAGCATCAAGAAGTTCAAGACCCATCCCGTTAAGATAAATGGTAGCTCG CATGCCGGCGGAGCTGCCTATCACATGTTGAATAGTGATTACTCCAAGTA CTTTACGGTACTGGAAGATGGTGTGGTGATGACCACGGCGGATATATCCC CGCTTGTCAATCGTCCAGTTCAATTGGTGGTCGTTGAACAAACGCCCAAT GTCACCAACACCCACAATCTCCAGTTGTTCGTGATGCATCGCAATGATAT GCTGCGGTTTTCGGGTTCCCTACTCGATGCCAGTGGTGAAGTTAGGGAGA ATCAACCGGCAGGAACCAGGGTGCGTGGAGTACCCCTGATGCAGGCCTTC AGCGGATCCATCCTGGACGAAGAACTGGCCACGCCCAAGAAAGTGAGGTA CACCATCATCGATGGCAACGTGGATGATGCATTTGCTCTGCAGGAACGCA AGGCCAATAAAAACATCCAAATCAGCGCCAAATCCTTGGTAATTAATGGC GATGACGAGTCCGGTGTTTGGCTGGTCACCAATCGTCCCTTGGACCGTGA AGAACGGGCTCACTACGATCTCTCCGTGGAAGCATCCGATGTAGATGGCT TGGATAAGACAGTTTCCAAAATACAAATCACCGTGCTCGATGAAAACGAC AATAGACCGATATTTAAGTCCCTGGATTATAAGTTCGCCATTGCCGGTCA AAAATCGGTGAATATGGAGAGCAACAGTAGTGTGACCTATCAGCGATTTG CGATCATGGGAAAAGTAGAGGCCACCGATGCTGATGGGGATAAAATTGCC TATCGCCTCAAGTCGCCCAGCAATGTTGTGATTATAGTCCCTCAAACTGG CGAAATAATGCTGGCGGGTGAGCCCACCTCAAATGAGCTTCTCATCGAGG TGTTGGCTCATGATTTGAGGTATCCCAGTCTACTGAGTGCCAAGCCCGCA AAGGTCCTGCTGGAATTTTTGGCTGCTGAACCAGTTTCGTTTATTATGCA ACATCTGGAACACGATGAGGTGAATAATCACTCACATCACCGCGAGAAAA GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA GCTGATGGAGATACTGAGGGAAAATCGGTATTTCAGTTGGAAAAGGAAAC CGACAAGGAAACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG AAACAAATGGCGCGGTGCGAGTCAAGAAGAAGTGGGACTACGAGGAGCTG GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGGCA TAATGCTGGCATCAAGTATACGGACAACCAGCGTGTGATAATCCTGGTGA AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGACCGCTGCCAATG CAGGCGGTGGTCCAGCTAAATGCACCACCTAATACTCCTGTTTTTACGCT CCAAGCCCGAGATCCCGATACCGATCACAATATCCATTACTTCATCGTTC GAGATCGAACTGGCGGACGTTTCGAGGTGGATGAGCGATCTGGAGTGGTG CGAACTAGGGGCACGGACCTCTTTCAACTGGATATGGAGTATGTCCTGTA TGTGAAGGCCGAGGATCAGAATGGAAAGGTCGATGATCGCAGATTCCAGA GTACTCCGGAGGAGCGACTGTCTATTGTTGGTGGCAAACGAGCTCCTCAG TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC GCTACACTTTGAAGGCCCAGGGCCAGGGAGCCGGCACCTTTAATATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGACTTTGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG GGGGATTTTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC GATAATGCTCCTAAGTTCGAGCTGCCCGATTATCAGGCCCACAATGTGGA TGAGGATATTCCGCTGGGCACAAGCATACTTCGTGTCAAAGCTATGGATT CGGATTCTGGGTCGAATGCGGAAATCGAATACCTAGTGTCTGATGATCAT TTCGCCGTGGATTCCAATGGAATCATCGTGAACAACAAGCAATTGGATGC GGATAACAATAATGCCTACTATGAGTTCATAGTCACTGCCAAGGACAAAG GTGAACCGCCAAAATCGGGAGTGGCTACAGTTCGTGTTTACACCAAAAAT AAGAACGATGAGGAGCCAAAGTTCTCACAGCAAGTCTATACACCCAATGT CGATGAGAATGCCGGTCCGAATACTTTGGTGACCACTGTGGTGGCCTCCG ATAAGGATGGTGATAATGTACGATTTGGATTCGTGGGTGGCGGCACTTCG TCGGGTCAGTTTGTCATCGAGGATATAACCGGTGTGATCCGACTGCACAA TAAAGCCATTTCCCTGGACAGGGACAAGTACGAGTTGAACGTCACCGCCA TGGACGATGGATCGTGTTGTGTGAATGGCGATCAAACTATCCACACCTCA ACCGCCGTGGTTGTGGTCTTCATTACCGATGTCAACGATAATAAGCCGGT GTTCAAGGACTGCAGTACCTACTACCCAAAAGTCGAGGAAGGAGCTCCCA ACGGAAGTCCTGTCATCAAAGTTGTGGCCACCGATGAGGATAAGGGCGTG AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC AAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAACAAGGTGT TCGATCGTGAAGGAGATGACGGCAAGTTTGTGTCGGTCACAGTTAAGGCC ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCTTTTACTGTGGA AATCACAGACGTTAACGATAATCCCCCACTATTCGATCGTCAGAAATATG TGGAGAATGTAAAACAGGATGCCAGCATTGGCACGAATATCCTCCGTGTC TCCGCTTCTGATGAAGATGCCGATAACAATGGAGCTATAGTATACAGCCT GACTGCCCCCTTCAATCCTAACGATCTGGAATATTTTGAAATTCAGGCCG AATCCGGTTGGATTGTGCTGAAGAAACCGCTTGACCGTGATCGATATCGT TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTAACTGTGGGT ACGGTTGTAACATCAGTTAAGGCAAGTTCGGGCATTGAAGGCAATCCCAC AGTTTTCTATCGACTGATGCCCGGGTCAACGGCCCAAACGAACAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT AACCATACGTGTGGAGAACAACGGGGCCCAACAATTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCCATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTT GAAATCAACCTGCAGAGTGGAGAGATATTCACGAAAACCGTGTTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCTCGGGATGGAGCTC CTTCGGCGCGACCCAATAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGATGAGAACGAGGACATTCAGCACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATCGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTGCGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGAACGACACGCCCTTTACCA TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGGCAAGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCCC TGGATCGCGATCAACCGAACGGACGACCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAGGGCGGCGAGGGGCTCGTGGGCTATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAATGCCCCCATTTTCCCGCAGGGCGTGT ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTGGTGATGACC ATGACGGCCGTGGATTACGACGACCCCAACGAGGGCTCCAACGCCCGACT GGTCTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA TTTTCGAAATCGAACCCGACACGGGTGTGATTAAGACCGCAGTGTGTTGT CTGGATCGCGAGAGAACCCCGGACTATTCGATACAGGTCGTTGCAATGGA CGGCGGGGGATTGAAGGGGACGGGGACGGCCTCCATACGGGTTAAGGATA TCAACGATATGCCGCCGCAGTTCACGAAGGACGAATGGTTTACGGAAGTG GACGAAACGGATGGCACGGCCCTGCCGGAAATGCCCATTTTAACCGTGAC CGTGCACGATGAAGACGAAACGAATAAGTTCCAGTACAAAGTGATCGATA ACAGCGGCTACGGCGCCGATAAATTCACCATGGTACGGAATAACGATGGC ACTGGCTCCCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAACTGCA AAGCAATGGCTTCCGCTTCCGCATCCAAGTGAACGACAAGGGCGAGGACA ACGACAATGATAAATACCACGTGGCCTACTCGTGGGTTGTGGTCAAACTG AGGGACATCAACGACAATAAGCCGCATTTCGAGCGAGCCAATGTGGAGGT CTCCGTTTTCGAGGACACCAAAGTGGGCACCGAACTAGAGAAGTTCAAGG CCACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTATTCCATCGAT CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAATGGATCGGT TACCATTCAACGCTCCTTGGACCGCGAAGTTGTGCCCCGTCATCAGGTCA AGATCCTGGCCATTGACGACGGCTCTCCACCGAAAACCGCCACTGCCACG CTCACAGTTATCGTTCAGGACATCAATGACAATGCTCCCAAGTTCCTGAA GGACTACCGACCCGTTCTGCCGGAGCATGTGCCTCCACGTAAGGTGGTCG AGATCCTGGCCACCGACGATGACGATCGCTCCAAGAGCAATGGTCCACCT TTCCAGTTCCGCTTGGACCCCAGTGCCGATGATATCATCCGTGCCTCCTT CAAGGTGGAACAGGATCAGAAGGGTGCCAATGGTGATGGCATGGCTGTGA TTTCCTCCCTGCGATCCTTCGATCGCGAGCAGCAAAAGGAGTATATGATC CCGATTGTGATCAAGGATCACGGTTCGCCAGCGATGACGGGAACCAGTAC ATTGACCGTCATAATCGGTGATGTGAATGACAACAAAATGCAGCCTGGCT CCAAAGACATATTTGTTTACAACTACCAAGGACAATCACCGGACACGCCA ATTGGTCGAGTTTATGTCTACGATTTGGATGATTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGATTCAAGTTGGATGAGG ATTCCGGCATGGTCACCATGCGGGCAGGCACTCGCGAGGGACGTTATCAT CTCAGGTTCAAGGTCTACGATCGCAAACACACCCAAACCGACATTCCAGC CAATGTCACGGTTACCGTGAGGGAAATCCCCCATGAAGCTGTCATAAATT CGGGATCCGTACGCCTGTCTGGCATTTCAGACGAAGACTTCATTCGCGTG TGGAATTACAGAACCCAGAGCATGAGTCGCTCGAAAATGGATCGTTTCAG GGATAAGCTCGCCGACTTGCTGAATACTGAAAGGGAGAACGTGGATATAT TCAGTGTGCAATTGAAGAGGAAAAATCCGGCTCTAACTGATATAAGGTTC TCAGCCCATGGATCTCCGTACTACAAACCCGTGAGGCTAAATGGCATTGT TTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA TGGTGGGCATCGATGAATGTCTGTATGAGAATCAAATGTGCGAGGGTAGC TGCACAAATGCCCTGGAAATAAGTCCGTTGCCATATATGGTAAATGCCAA CAAAACTGCCTTGGTCGGAGTTCGAGTGGACACGATTGCCGACTGTACCT GTGGTGCTCGCAACTTCTCCAAGCCCGAATCCTGTCGAACCACGCCCTGT CACAACGGTGGACGTTGTGTGGACACCAGATTTGGACCCCACTGCTCTTG TCCAGTGGGCTATGCCGGTCCCAGATGTCAGCAAACCACTCGCAGTTTCC GTGGAAACGGCTGGGCCTGGTATCCACCTCTTGAAATGTGCGACGAGTCG CATTTGAGTCTGGAGTTTATCACCCGAAAACCCGATGGTCTCATCATCTA CAACGGACCCATTGTTCCACCCGAACGGGATGAGAAGCTTATATCCGACT TTATTGCCCTGGAATTGGAGCGTGGTTATCCCAGGCTCCTCATCGACTTC GGTTCGGGAACCTTGGAACTAAGAGTGAAGACCAAGAAGACATTGGACGA CGGTGAGTGGCACAGAATCGATCTGTTTTGGAATACCGAAAGCATTCGCA TGGTTGTGGACTTCTGCAAATCAGCGGAGATAGCCGAAATGGAGGATGGA ACTCCGCCCGAATTCGATGATATGTCCTGCCAGGCGAGAGGACAAATTCC GCCATTTGATGAGTACCTGAATGTAAATGCTCCTCTGCAAGTGGGTGGCT TATACCGCGAGCAGTTCGATCAAAGTCTGTACTTCTGGCACTATATGCCC ACGGCCAAGGGTTTCGATGGTTGCATCAGGAATTTGGTTCACAACTCCAA GCTCTACGATCTGGCGCATCCGGGACTTTCGAGGAACAGTATGGCAGGTT GTCCACAAACGGAGGAAGTTTGCGCCCAAACGGAGACCACAGCTCGTTGC TGGGAACATGGAAATTGTGTGGGATCCCTGTCCGAAGCCCGATGCCATTG TCGACCAGGGTGGACGGGTCCTGCCTGTAATATTCCCACAATACCCACCA CTTTCAAGGCGCAGAGCTATGTGAAGTATGCCCTGAGCTTCGAACCAGAT CGATTCAGCACTCAAGTCCAGCTGAGATTCCGTACCAGAGAGGAGTACGG AGAACTTTTCCGTGTAAGCGATCAGCACAATCGGGAATACGGAATTCTGG AGATCAAGGATGGCCACCTGCACTTCCGATACAATCTGAATTCCCTCCGC ACCGAAGAAAAGGATCTCTGGCTAAATGCCATTGTGGTTAACGATGGCCA GTGGCATGTGGTGAAGGTGAATCGTTATGGCTCTGCTGCTACCCTGGAAT TGGATGGAGGCGAGGGTCGTCGCTACAACGAGACCTTTGAGTTCGTGGGA CATCAGTGGTTGTTGGTGGACAAACAGGAGGGTGTCTATGCAGGCGGAAA GGCCGAATACACTGGCGTCAGAACCTTTGAGGTATACGCCGATTACCAGA AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCATTGCCA CCGGCGATGAATGGCACCCAATGGGGACAGGCCACAATGGCCAGGAATCT GGAGAAGGGTTGTCCTTCAAATAAACCCTGCTCGAATGTAATCTGCCCCG ATCCTTTCGAGTGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCGTAATGTCGCCCGATTCCAAGGGATGTATGGATCGCAACGA GTGTCTCGATCTGCCCTGCATGAACGGTGCCACATGCATCAATCTCGAGC CCCGTCTGCGGTATCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGGCAGACCTTAAAGCTCAGCATGGGCGCCCT GGCGGCGATTTTGGTCTGCCTTTTAATCATACTGATACTCGTCTTGGTGT TCGTCGTATACAATCGTCGGCGTGAGGCGCATATCAAATATCCGGGTCCC GATGATGATGTGCGCGAGAATATAATCAACTATGACGATGAGGGAGGCGG CGAGGACGATATGACCGCCTTTGATATCACGCCTCTGCAGATACCAATTG GTGGGCCAATGCCACCTGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTTATGACCTTAATGCCAGGTCAGGAACCCAATGTGGGCATGTTCAT TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG ATGACTTGAGGAATTACGCGTATGAAGGCGGCGGCAGCACTGCCGGATCG CTTAGCTCGTTGGCTTCAGGAACTGATGACGAGCAGCAGGAGTATGACTA CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG--- >D_elegans_CadN-PA ATGGCGGCACGACGTTGCCTGAATCAGCTCAGGCAACGTTATATAACCAA TCGATTAAATATGTACTCCTGCGCGATATTTTTAATATCACTTCCGTTCA TTTTGGCCATAGAAGAGACCACATTTGCTGGTTTGTCGGCGGAAAATGCG GCTCGCATGCTGGCCGGCAGTCCTGGAGATGTGGAAAAGTCTCCGCCG-- -CATCACAGCGAAATGTCCTTGGTGCTGCCACACGATACCTATCCGGGGT TTAGCATCAAGAAGTTCAAGACCCATCCCGTCAAGATAAATGGTAGCTCG CATGCCGGCGGAGCTGCCTATCACATGTTGGATAGTGATTACTCCAAGTA CTTCACGGTGCTGGAAGACGGTGTGGTGATGACCACGGCGGATATATCCC CGCTGGTCAATCGTCCAGTTCAATTGGTAGTGGTTGAACAAACGCCCAAT GTCACCAATACCCACAATCTCCAGTTGTTTGTGATGCATCGCAATGATAT GCTGCGGTTTTCGGGTTCCCTACTCGACGCCAGTGGTGAAGTCAAAGAGA ATCAGCCAGCGGGTACCAGAGTGAGAGGAGTGCCCCTAATGCAGGCCTTC AGCGGATCCATCCTCGACGAAGAGCTCGCCAAGCCAAAGAAAGTGAGGTA CACCATAATCGACGGCAATGTGGATGACGCATTTGCCCTGCAGGAACGCA AGGCCAATAAAAATATCCAAATAAGCGCCAAATCGTTGGTTATTAGTGGC GATGACGAGTCTGGTGTTTGGCTGGTCACCAATCGTCCACTGGATCGCGA GGAACGGGCTCACTACGATCTCTCTGTGGAAGCATCCGATGTGGATGGCT TGGACAAGACGGTGTCCAAAATCCAGATCACCGTACTCGATGAAAACGAT AATAGACCGATTTTTAAGGCCCTGGACTATAAGTTCGCCATTGCCGGTCA AAAATCCGCAAGTATGGAGAGCAATAGTAGTGTTACTTATCGGCGCTTTG CGATCATGGGTAAAGTTGAGGCCACCGATGCTGATGGGGATAAAATAGCC TATCGCCTCAAGTCCCCCAGCAATGTTGTGATCATAGTCCCTCAAACTGG CGAAATAATGCTGGCCGGCGAGCCCACCGCCAATGAGCTTCTTATCGAGG TGATGGCGCATGATTTGCGATACCCCAGCCTGTTAAGTGCCCAGCCCGCA AAGGTTCTGTTGGAATTTCTGGCTGCCGAACCAGTTTCGTTTATAATGCA ACACCTGGAGCACGACGAGGTCAATAGTCACTCCCATCATCGCGAGAAAA GACGAGTTACCCGAGCTGTTCGACCCACCAAGAGGATTGAGTTCACCGAA GCCGATGGAGACACTGAGGGAAAATCGGTGTTTCAATTGGAAAAGGAAAC CGACAAGGAGACATTCAAGATCAGGGATGATAATCCCTGGGTGACGGTGG AAACAAATGGAGCTGTGCGAGTCAAAAAGAAGTGGGACTACGAGGAGTTG GGTCCGGAGAAGACCATCGATTTCTGGGTCATCATCACCAATATGGGACA CAACGCTGGCATCAAGTACACGGACAACCAGCGTGTGATAATCCTTGTGA AGGATGTGAACGATGAGCCACCGTACTTCATCAACCGGCCACTGCCCATG CAGGCGGTGGTTCAGCTAAATGCGCCACCCAACACACCGGTTTTCACGCT CCAGGCCCGAGATCCCGATACAGATCATAATATCCATTACTTTATCGTTC GCGATCGAACTGGCGGTCGTTTTGAGGTGGATGAGCGATCTGGCGTGGTG AGGACCAGGGGCACCGATCTCTTCCAGCTGGACATGGAGTATGTGCTGTA TGTGAAGGCCGAGGACCAGAACGGAAAGGTCGATGATCGCAGATTCCAGA GCACCCCCGAGGAGCGACTTTCGATCGTGGGTGGCAAGAGAGCTCCTCAG TTCTATATGCCCAGCTATGAAGCCGAGATTCCAGAAAACCAGAAAAAGGA CTCCGACATCATTTCGATTAAGGCCAAGTCGTTCGCAGACCGCGAAATCC GCTACACTTTGAAGGCCCAGGGCCAAGGAGCCGGCACCTTTAATATCGGA CCCACGTCGGGCATTGTCAAGTTGGCCAAGGAGTTGGATTTCGAGGATCT GCGACAGCCGCACGTGTACTCGCTGATTGTGACAGCCACCGAGGACTCCG GAGGATTCTCCACCTCTGTCGATCTCACCATTCGCGTAACTGATGTGAAC GACAATGCTCCGAAGTTCGAGCTGCCCGATTACCAGGCCCACAATGTGGA TGAGGATATTCCGCTGGGCACAAGCATACTTCGAGTCAAGGCCATGGATT CGGATTCCGGATCAAATGCCGAAATCGAATACTTAGTATCCGATGACCAT TTCGCCGTGGATTCCAACGGAATCATTGTGAACAACAAGCAACTGGATGC GGATAACAATAATGCCTACTACGAGTTCATAGTCACGGCCAAGGATAAAG GTGAGCCGCCAAAATCAGGAGTGGCTACAGTGCGTGTTTACACGAAGAAC AAGAACGACGAGGAGCCCAAGTTCTCACAGCAAGTGTATACGCCCAATGT CGATGAGAATGCCGGTCCGAATACTTTGGTCACCACTGTGGTGGCCTCCG ACAAGGATGGTGATAATGTACGGTTTGGATTTGTTGGCGGCGGCACTTCG TCTGGTCAGTTCGTCATTGAGGACATAACCGGTGTGATCCGACTGCACAA TAAGGCCATATCGCTGGACAAGGACAAATACGAGTTGAACGTCACCGCCA TGGACGATGGATCTTGCTGTGTGAATGGCGATCAAACTATCCATACCTCC ACCGCCGTGGTTGTGGTTTTCATCACCGACGTTAACGACAATAAGCCGGT GTTCAAGGACTGCAGTACCTACTATCCGAAAGTCGAGGAAGGGGCGCCCA ACGGCAGTCCCGTCATCAAAGTGGTGGCCACCGATGAGGACAAGGGTGTC AATGGACAGGTGAAATACTCGATTGTTCAGCAGCCGAATCAGAAGGGAAC CAAGTTCACAGTGGACGAGGAAACTGGAGAGGTGTCCACCAATAAGGTCT TCGATCGAGAGGGAGATGATGGAAAGTTCGTGTCGGTCACGGTTAAGGCC ACCGATCAGGGTGATCCAAGTCTGGAGGGTGTCTGCTCGTTCACCGTGGA GATCACTGATGTCAACGATAATCCTCCCCTGTTCGATCGTCAGAAATATG TGGAGAATGTGAAACAGGATGCCAGCATTGGCACAAATATCCTCCGTGTC TCCGCCTCCGATGAAGATGCCGACAACAATGGCGCTATAGTATACAGCCT GACTGCGCCCTTCAATCCCAACGATCTGGAATACTTTGAAATTCAGGCCG AATCTGGATGGATTGTGCTTAAGAAGCCGCTTGACCGTGATCGATATCGC TTGAGGGTTAGCGCCTCCGATAAGGGCACTCCCGCCTCGGCAGCCGATGT CGACGTTGAGTTAGATGTCGTCGATCGGAATAATAAGCCGCCCATTTGGG ATAAGATCGTTTACGGGCCGATTTACATACGCGAGAATGTCACTGTGGGT ACGGTTGTAACATCGGTTAAGGCAAGTTCGGGTATTGAAGGCAATCCCAC AGTTTTCTATCGACTGATGCCCGGGTCAACGGCTCAAACCAACAAATTTC ACACGTTCTACTTGCAACAAAGACCGGACAATGGCGACACTTGGGCCGAT ATAAAAGTAAATCATCCGCTGGACTACGAGAGCATCAAGGAATACAATCT AACCATACGTGTTGAGAACAACGGGGCCCAGCAATTGGCATCGGAAGCGA CCGTTTACATAATGCTCGAGGATGTTAATGATGAAATACCTTTATTCACC GAACGCGAACAGGAAACGGTGCTCGAGGGCGAACCGATTGGCACCAAAGT GACACAAGTGAACGCTATCGACAAGGATGGCACATTCCCAAATAATCAGG TCTACTACTACATTGTCGATTCGCCGCGAAACGAGGGCAAAGAATTCTTC GAAATCAACCTGCAGAGCGGAGAGATATTCACGAAAACCGTGTTCGACAG GGAGAAGAAGGGCGCCTATGCCCTCGAAGTGGAGGCACGGGATGGAGCAC CATCGGCGCGACCAAATAGCAATGGACCCAATTCAGTCACCAAATTCATA CGCATTGGCATCGCCGATAAAAACGATAATCCGCCCTATTTCGACAAATC GCTGTACGAGGCCGAAGTGGACGAGAACGAGGACATTCAGCACACAGTGC TCACTGTAACGGCCAAGGATCACGACGAGTCCTCACGTATCCGCTATGAA ATTACAAGCGGCAACATTGGCGGCGCTTTTGCGGTTAAAAATATGACGGG TGCCATTTATGTAGCTGGCGCTTTAGATTACGAAACTCGACGCCGGTACG AACTGAAATTGGTTGCGTCGGACAGTTTGAATGAAAATCAAACAACAATC GTCATAAATGTACGCGACGTCAACGATCTGCCACCGCGATTCCCGCAGAC ATCCTATGAGCGAACTCTCGACGAGGGAATGACCGACACGCCCTTTACCA TCATGCAGGTTACGGCCACAGATGGCGACAAGGATCGTCCCCAGAACATC GTGTACTTCCTCACGGGCCAAGGCATTGATCCGGATAATCCAGCCAATAG CAAATTCGACATTAACCGCACCACTGGCGAAATATTCGTTTTAAAGCCGC TGGATCGCGATCAACCCAATGGTCGGCCCCAGTGGCGCTTCACTGTATTC GCCCAGGACGAAGGGGGCGAGGGACTCGTGGGCTATGCGGATGTCCAGGT CAATCTGAAGGACATCAACGATAACGCGCCCATTTTCCCCCAGGGCGTAT ACTTTGGCAATGTCACGGAGAACGGCACCGCCGGCATGGTTGTGATGACC ATGACGGCCGTGGACTACGACGACCCCAACGAGGGCTCCAATGCCCGCCT GGTGTACTCCATCGAGAAGAACGTGATTGAGGAGGAGACCGGGTCGCCCA TTTTCGAGATCGAACCCGACACGGGTGTGATTAAGACGGCGGTGTGTTGT CTGGATCGCGAGAGGACGCCGGACTATTCGATACAGGTCGTGGCAATGGA TGGTGGGGGGTTAAAAGGGACGGGGACGGCCTCCATACGCGTTAAGGATA TCAACGACATGCCGCCGCAGTTCACCAAGGACGAATGGTTCACGGAAGTG GACGAAACGGATGGCACGGCGCTGCCGGAAATGCCCATTTTAACCGTGAC CGTGCACGATGAGGACGAAACGAACAAGTTCCAATACAAGGTCATCGACA ACAGCGGCTATGGGGCCGATAAATTCACCATGGTGCGGAACAACGACGGC ACTGGCTCTCTGAAAATCGTCCAGCCCCTGGACTACGAGGATCAGCTGCA GAGCAATGGCTTCCGTTTCCGCATTCAAGTGAACGACAAGGGCGAAGATA ACGACAACGACAAGTACCACGTGGCCTACTCGTGGGTTGTGGTGAAACTG AGGGACATCAACGACAATAAGCCGCACTTCGAGCGGGCCAATGTGGAGGT CTCCGTGTTCGAGGACACCAAAGTGGGCACCGAACTCGAGAAGTTCAAGG CAACCGATCCGGATCAGGGTGGCAAGAGCAAGGTCTCCTACTCCATCGAT CGTTCCTCGGATCGCCAGCGCCAGTTTGCCATCAACCAAAACGGTTCGGT GACCATTCAGCGCTCCTTGGACCGCGAGGTTGTGCCCCGTCATCAGGTCA AAATCCTGGCCATCGATGATGGTTCTCCCCCGAAAACCGCCACCGCCACG CTCACAGTCATCGTTCAGGATATCAACGATAATGCCCCCAAGTTCCTGAA GGACTACAGACCAGTCCTGCCGGAGCATGTGCCACCACGCAAAGTGGTCG AAATCCTGGCCACCGACGATGACGATCGCTCGAAGAGTAATGGTCCACCA TTCCAGTTCCGTCTGGACCCCAGTGCCGACGATATTATCCGGGCTTCCTT CAAGGTGGAGCAGGATCAAAAGGGTGCCAATGGTGACGGCATGGCTGTAA TTTCCTCCCTACGATCCTTCGATCGCGAGCAGCAGAAGGAGTACATGATC CCGATTGTGATTAAGGATCATGGTTCGCCAGCGATGACGGGAACCAGCAC ACTGACCGTCATAATTGGCGATGTGAATGACAACAAGATGCAGCCCGGCT CCAAAGACATCTTCGTCTACAACTACCAAGGACAGTCGCCAGACACGCCC GTTGGTCGAGTCTACGTGTACGATTTGGACGACTGGGATCTGCCCGACAA GAAGTTCTACTGGGAGGCCATGGAGCATCCGCGTTTCAAGTTGGACGAGG ATTCCGGCATGGTCACCATGAGAGCGGGAACTCGCGAGGGGCGATACCAT CTCAGGTTCAAGGTGTACGACCGCAAGCACACCCAAACTGATATTCCGGC CAATGTCACGGTCACAGTAAGGGAAATCCCCCACGAGGCTGTCATCAATT CGGGATCAGTGCGCCTGTCTGGCATCTCGGACGAAGACTTCATTCGAGTG TGGAACTACAGGACGCAGAGCATGAGTCGCTCCAAAATGGATCGGTTTAG GGACAAGCTTGCCGATCTGCTCAATACCGAAAGGGAGAATGTGGACATAT TCAGTGTGCAATTGAAGAGGAAAAATCCGCCTTTGACCGATGTCCGGTTC TCGGCCCACGGATCGCCGTACTACAAGCCCGTCAGGCTGAACGGCATTGT CTTGATGCACCGCGAGGAGATCGAAAAGGATGTGGGCATCAATATCACCA TGGTGGGCATCGACGAGTGTCTGTACGAGAACCAAATGTGCGAGGGCAGC TGCACGAATTCCCTGGAAATCAGTCCCCTACCCTACATGGTGAATGCCAA TAAAACTGCTTTGGTCGGTGTTCGAGTGGACACCATTGCGGACTGTACTT GCGGTGCTCGCAACTTCACCAAACCGGAATCGTGTCGCACCACACCCTGT CACAATGGCGGACGTTGTGTGGACACCAGATTTGGGCCCCACTGCTCGTG TCCCGTGGGCTATGCCGGTCCCAGGTGTCAGCAAACCACGCGCAGTTTCC GTGGCAACGGTTGGGCCTGGTATCCTCCCCTTGAAATGTGCGACGAGTCG CATTTGAGTCTGGAGTTTATTACCCGAAAACCCGACGGTCTCATCATCTA CAACGGACCCATTGTGCCGCCAGAGAGGGATGAGAAGCTCATATCGGATT TCATTGCCCTGGAATTGGAGCGAGGCTACCCCAGACTCCTCATCGACTTC GGTTCGGGAACCTTGGAGCTGAGAGTGAAGACCAAGAAGACATTGGACGA CGGGGAGTGGCACAGGATCGACCTGTTCTGGAATACCGAAAGCATTCGCA TGGTTGTGGACTTTTGCAAATCGGCAGAGATTGCCGAAATGGAGGATGGC ACGCCGCCGGAGTTCGACGATATGTCGTGTCAGGCGAGGGGACAAATTCC ACCCTTTGATGAGTATCTCAATGTGAATGCTCCTCTGCAAGTGGGTGGCC TGTACCGGGAACAGTTTGACCAGAGCCTCTACTTCTGGCACTATATGCCC ACGGCCAAGGGCTTCGATGGCTGCATCAGGAACTTGGTTCACAACTCCAA GCTCTATGACCTTGCTCATCCGGGACTCTCGCGGAACAGTGTGGCGGGTT GTCCGCAAACCGAGGAAGTTTGCGCCCAAACGGAGACCACGGCTCGTTGC TGGGAACACGGAAATTGTGTGGGGTCCCTGTCCGAGGCCCGATGCCATTG TCGACCGGGCTGGACAGGTCCTGCCTGCAATATTCCCACCATACCCACCA CCTTCAAGGCGCAGAGCTACGTCAAGTATGCCCTGAGCTTCGAACCCGAT CGGTTTAGCACCCAAGTCCAGTTGCGGTTCCGGACGAGGGAGGAGTACGG CGAACTGTTCCGGGTCAGCGATCAGCACAATCGGGAGTACGGAATTCTGG AGATCAAAGATGGTCATCTGCACTTCCGCTACAATCTGAACTCGCTTCGC ACCGAGGAGAGGGATCTCTGGCTGAATGCCATTGTGGTCAACGATGGCCA GTGGCATGTGGTGAAGGTAAATCGGTATGGCTCTGCTGCTACCCTGGAAT TGGACGGCGGCGAGGGTCGACGCTACAACGAGACCTTTGAGTTTGTGGGG CATCAGTGGCTGTTGGTGGACAAACAGGAGGGTGTCTATGCGGGAGGAAA GGCCGAGTACACTGGCGTCAGAACATTTGAGGTATATGCTGATTACCAGA AGAGCTGTCTCGATGATATACGTCTTGAAGGCAAACACCTTCCACTGCCA CCGGCGATGAATGGCACCCAATGGGGTCAGGCCACCATGGCCAGGAATCT GGAGAAGGGTTGTCCTTCGAACAAACCCTGCTCGAATGTTATCTGCCCCG ATCCCTTCGAATGCGTGGACCTGTGGAATGTCTACGAGTGCACTTGCGGC GAAGGACGCATTATGTCGCCCGATTCCAAGGGCTGTATGGATCGCAACGA GTGTCTCGATATGCCCTGTATGAACGGTGCCACCTGCATCAATCTCGAGC CCCGGCTGCGATACCGATGCATTTGCCCCGACGGTTTCTGGGGCGAGAAT TGCGAACTGGTGCAGGAGGGTCAGACCTTAAAGCTCAGCATGGGTGCCCT GGCGGCGATATTGGTGTGCCTTTTAATCATACTGATACTCGTCTTGGTGT TCGTCGTATACAATCGTCGCCGTGAGGCGCATATCAAATATCCGGGTCCC GATGATGATGTGCGCGAGAATATAATCAACTACGACGATGAGGGAGGCGG TGAGGATGATATGACCGCTTTTGATATCACACCTCTGCAGATACCAATTG GAGGGCCAATGCCACCAGAGCTGGCGCCCATGAAAATGCCAATTATGTAT CCCGTCATGACCCTGATGCCAGGTCAGGAACCCAATGTAGGCATGTTCAT TGAGGAGCATAAAAAGCGTGCCGATGGAGATCCAAATGCGCCGCCCTTCG ATGACTTGAGGAATTATGCGTACGAGGGAGGCGGCAGCACTGCCGGATCG CTTAGCTCGTTGGCTTCAGGAACTGACGACGAGCAGCAGGAGTATGACTA CCTCGGGGCCTGGGGGCCACGCTTCGACAAGCTGGCCAATATGTACGGAC CCGAGGCGCCCAATCCCCACAATACCGAACTAGAATTG---
>D_melanogaster_CadN-PA MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA ARMLAGSPGDVEKSSLSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDRTVSKIQITVLDEND NRPIFKSLDYKFAIAGQKSASMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLVSAKPA KVLLEFLAAEPVSFIMQHLEHDDINNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_sechellia_CadN-PA MAARRCLNQLRQRYITNRFNICTCAIFLISLPFILAIEETTFAGLSAENA ARMLAGSPGDVEKSSSLHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_yakuba_CadN-PA MAARRCLNQLRQRYITSRFNICTCAIFLISLPFILAIEETTFAGLSAENA ARMLAGSPGDVEKSSSSHHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HSGAAAYHMLDTDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN ATNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNEDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPQFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVVNSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYTGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_takahashii_CadN-PA MAARRCLNELRQRYITNRLNIYTCAIFLISLPLILATEETTFAGLSAENA ARMLAGSPGEVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVRINGSS HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANRNVQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQISVLDEND NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPQFPHTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPALTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMTCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYNWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_biarmipes_CadN-PA MAARRCLNQLRQRYISNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA ARMLAGSPGDVEKAPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITILDEND NRPIFKSMDYKFAIAGQKSANMESNSSVTYKRFAIMGKVEATDADGDKIA YRLKAPSNVVIIVPQTGEIMLAGEPTSNELLIEVTAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPRFPQTSYERTLDEGMTNTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP TAKGFDGCIRNLVHNSELYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_suzukii_CadN-PA MAARRCLNQLRQRYITNRLNIYTCAIFLISLPLILAIEETTFAGLSAENA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND NRPIFKSLDYKFAIAGQKSANMESNSSVTYRRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERDNVDIFSVQLKRKHPPLTDIRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYNWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_eugracilis_CadN-PA MAARRCLDLLRQRYITNRFNIYTCAIYLIALPLVLAIEETTFAGLSAENA ARMLAGSPGDVEKSPSSHHSEMSLVLPHDTYPGFSIKKFKTHPAKINGSS HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKSNKNIQLSAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTISKIQISVLDEND NRPIFKSLDYKFAIAGQKSANMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEINNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPQFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFDRANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKEIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKYPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDETLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSLAGCPQTEEVCAQTETTSRC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEDHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_ficusphila_CadN-PA MAARRCLNQLRQRYITTKLNLYTCAILLICLPFILAIEETTFAGLSAENA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPLKINGSS HSGAAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILEEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND NRPIFKSLDYKFAIAGQKSANIESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVIAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKSIYGPIHIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRTLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKHPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECFYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDEMVISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWDTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFNEYLNVNAPLQVGGLYREQFDQSVYYWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_rhopaloa_CadN-PA MAARRCLNQLRQRYITNRLNLYTCAIFLISLPLILAIEETTFAGLSAENA ARMLAGSPGDVEKSPS-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HAGGAAYHMLNSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVRENQPAGTRVRGVPLMQAF SGSILDEELATPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVING DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND NRPIFKSLDYKFAIAGQKSVNMESNSSVTYQRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTSNELLIEVLAHDLRYPSLLSAKPA KVLLEFLAAEPVSFIMQHLEHDEVNNHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDRDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPRFPQTSYERTLDEGMNDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP IGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPALTDIRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNALEISPLPYMVNANKTALVGVRVDTIADCTCGARNFSKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSMAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEEKDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRVMSPDSKGCMDRNECLDLPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL >D_elegans_CadN-PA MAARRCLNQLRQRYITNRLNMYSCAIFLISLPFILAIEETTFAGLSAENA ARMLAGSPGDVEKSPP-HHSEMSLVLPHDTYPGFSIKKFKTHPVKINGSS HAGGAAYHMLDSDYSKYFTVLEDGVVMTTADISPLVNRPVQLVVVEQTPN VTNTHNLQLFVMHRNDMLRFSGSLLDASGEVKENQPAGTRVRGVPLMQAF SGSILDEELAKPKKVRYTIIDGNVDDAFALQERKANKNIQISAKSLVISG DDESGVWLVTNRPLDREERAHYDLSVEASDVDGLDKTVSKIQITVLDEND NRPIFKALDYKFAIAGQKSASMESNSSVTYRRFAIMGKVEATDADGDKIA YRLKSPSNVVIIVPQTGEIMLAGEPTANELLIEVMAHDLRYPSLLSAQPA KVLLEFLAAEPVSFIMQHLEHDEVNSHSHHREKRRVTRAVRPTKRIEFTE ADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEEL GPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPM QAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVV RTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQ FYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIG PTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDVN DNAPKFELPDYQAHNVDEDIPLGTSILRVKAMDSDSGSNAEIEYLVSDDH FAVDSNGIIVNNKQLDADNNNAYYEFIVTAKDKGEPPKSGVATVRVYTKN KNDEEPKFSQQVYTPNVDENAGPNTLVTTVVASDKDGDNVRFGFVGGGTS SGQFVIEDITGVIRLHNKAISLDKDKYELNVTAMDDGSCCVNGDQTIHTS TAVVVVFITDVNDNKPVFKDCSTYYPKVEEGAPNGSPVIKVVATDEDKGV NGQVKYSIVQQPNQKGTKFTVDEETGEVSTNKVFDREGDDGKFVSVTVKA TDQGDPSLEGVCSFTVEITDVNDNPPLFDRQKYVENVKQDASIGTNILRV SASDEDADNNGAIVYSLTAPFNPNDLEYFEIQAESGWIVLKKPLDRDRYR LRVSASDKGTPASAADVDVELDVVDRNNKPPIWDKIVYGPIYIRENVTVG TVVTSVKASSGIEGNPTVFYRLMPGSTAQTNKFHTFYLQQRPDNGDTWAD IKVNHPLDYESIKEYNLTIRVENNGAQQLASEATVYIMLEDVNDEIPLFT EREQETVLEGEPIGTKVTQVNAIDKDGTFPNNQVYYYIVDSPRNEGKEFF EINLQSGEIFTKTVFDREKKGAYALEVEARDGAPSARPNSNGPNSVTKFI RIGIADKNDNPPYFDKSLYEAEVDENEDIQHTVLTVTAKDHDESSRIRYE ITSGNIGGAFAVKNMTGAIYVAGALDYETRRRYELKLVASDSLNENQTTI VINVRDVNDLPPRFPQTSYERTLDEGMTDTPFTIMQVTATDGDKDRPQNI VYFLTGQGIDPDNPANSKFDINRTTGEIFVLKPLDRDQPNGRPQWRFTVF AQDEGGEGLVGYADVQVNLKDINDNAPIFPQGVYFGNVTENGTAGMVVMT MTAVDYDDPNEGSNARLVYSIEKNVIEEETGSPIFEIEPDTGVIKTAVCC LDRERTPDYSIQVVAMDGGGLKGTGTASIRVKDINDMPPQFTKDEWFTEV DETDGTALPEMPILTVTVHDEDETNKFQYKVIDNSGYGADKFTMVRNNDG TGSLKIVQPLDYEDQLQSNGFRFRIQVNDKGEDNDNDKYHVAYSWVVVKL RDINDNKPHFERANVEVSVFEDTKVGTELEKFKATDPDQGGKSKVSYSID RSSDRQRQFAINQNGSVTIQRSLDREVVPRHQVKILAIDDGSPPKTATAT LTVIVQDINDNAPKFLKDYRPVLPEHVPPRKVVEILATDDDDRSKSNGPP FQFRLDPSADDIIRASFKVEQDQKGANGDGMAVISSLRSFDREQQKEYMI PIVIKDHGSPAMTGTSTLTVIIGDVNDNKMQPGSKDIFVYNYQGQSPDTP VGRVYVYDLDDWDLPDKKFYWEAMEHPRFKLDEDSGMVTMRAGTREGRYH LRFKVYDRKHTQTDIPANVTVTVREIPHEAVINSGSVRLSGISDEDFIRV WNYRTQSMSRSKMDRFRDKLADLLNTERENVDIFSVQLKRKNPPLTDVRF SAHGSPYYKPVRLNGIVLMHREEIEKDVGINITMVGIDECLYENQMCEGS CTNSLEISPLPYMVNANKTALVGVRVDTIADCTCGARNFTKPESCRTTPC HNGGRCVDTRFGPHCSCPVGYAGPRCQQTTRSFRGNGWAWYPPLEMCDES HLSLEFITRKPDGLIIYNGPIVPPERDEKLISDFIALELERGYPRLLIDF GSGTLELRVKTKKTLDDGEWHRIDLFWNTESIRMVVDFCKSAEIAEMEDG TPPEFDDMSCQARGQIPPFDEYLNVNAPLQVGGLYREQFDQSLYFWHYMP TAKGFDGCIRNLVHNSKLYDLAHPGLSRNSVAGCPQTEEVCAQTETTARC WEHGNCVGSLSEARCHCRPGWTGPACNIPTIPTTFKAQSYVKYALSFEPD RFSTQVQLRFRTREEYGELFRVSDQHNREYGILEIKDGHLHFRYNLNSLR TEERDLWLNAIVVNDGQWHVVKVNRYGSAATLELDGGEGRRYNETFEFVG HQWLLVDKQEGVYAGGKAEYTGVRTFEVYADYQKSCLDDIRLEGKHLPLP PAMNGTQWGQATMARNLEKGCPSNKPCSNVICPDPFECVDLWNVYECTCG EGRIMSPDSKGCMDRNECLDMPCMNGATCINLEPRLRYRCICPDGFWGEN CELVQEGQTLKLSMGALAAILVCLLIILILVLVFVVYNRRREAHIKYPGP DDDVRENIINYDDEGGGEDDMTAFDITPLQIPIGGPMPPELAPMKMPIMY PVMTLMPGQEPNVGMFIEEHKKRADGDPNAPPFDDLRNYAYEGGGSTAGS LSSLASGTDDEQQEYDYLGAWGPRFDKLANMYGPEAPNPHNTELEL
#NEXUS
[ID: 1784597622]
begin taxa;
dimensions ntax=10;
taxlabels
D_melanogaster_CadN-PA
D_sechellia_CadN-PA
D_yakuba_CadN-PA
D_takahashii_CadN-PA
D_biarmipes_CadN-PA
D_suzukii_CadN-PA
D_eugracilis_CadN-PA
D_ficusphila_CadN-PA
D_rhopaloa_CadN-PA
D_elegans_CadN-PA
;
end;
begin trees;
translate
1 D_melanogaster_CadN-PA,
2 D_sechellia_CadN-PA,
3 D_yakuba_CadN-PA,
4 D_takahashii_CadN-PA,
5 D_biarmipes_CadN-PA,
6 D_suzukii_CadN-PA,
7 D_eugracilis_CadN-PA,
8 D_ficusphila_CadN-PA,
9 D_rhopaloa_CadN-PA,
10 D_elegans_CadN-PA
;
[Note: This tree contains information on the topology,
branch lengths (if present), and the probability
of the partition indicated by the branch.]
tree con_50_majrule = (1:0.03165183,2:0.02539885,(3:0.05528536,(((4:0.1247815,(5:0.1059752,6:0.06019382)1.000:0.03697453)1.000:0.03409065,(8:0.172949,(9:0.07640353,10:0.1209177)1.000:0.03209811)1.000:0.01306876)1.000:0.02111026,7:0.1496407)1.000:0.1016527)1.000:0.0263049);
[Note: This tree contains information only on the topology
and branch lengths (median of the posterior probability density).]
tree con_50_majrule = (1:0.03165183,2:0.02539885,(3:0.05528536,(((4:0.1247815,(5:0.1059752,6:0.06019382):0.03697453):0.03409065,(8:0.172949,(9:0.07640353,10:0.1209177):0.03209811):0.01306876):0.02111026,7:0.1496407):0.1016527):0.0263049);
end;
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -31161.09 -31178.56
2 -31160.24 -31177.70
--------------------------------------
TOTAL -31160.58 -31178.22
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS/30/CadN-PA/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 1.191116 0.000954 1.130559 1.251042 1.190617 1371.52 1436.26 1.000
r(A<->C){all} 0.082884 0.000029 0.072286 0.093240 0.082795 918.35 970.83 1.000
r(A<->G){all} 0.294682 0.000117 0.272730 0.315165 0.294524 706.59 804.88 1.000
r(A<->T){all} 0.070749 0.000029 0.060226 0.081311 0.070627 1066.90 1069.62 1.001
r(C<->G){all} 0.056770 0.000018 0.048697 0.065060 0.056595 941.79 1047.79 1.000
r(C<->T){all} 0.442286 0.000126 0.420375 0.463780 0.442201 697.89 739.18 1.000
r(G<->T){all} 0.052630 0.000020 0.044024 0.060718 0.052490 870.28 1048.84 1.000
pi(A){all} 0.254187 0.000018 0.245758 0.262013 0.254246 734.81 751.94 1.000
pi(C){all} 0.259641 0.000016 0.252192 0.267790 0.259641 869.77 958.62 1.000
pi(G){all} 0.267676 0.000019 0.259519 0.276447 0.267677 780.76 873.57 1.000
pi(T){all} 0.218496 0.000015 0.210859 0.225858 0.218446 968.30 977.22 1.000
alpha{1,2} 0.085063 0.000009 0.079550 0.091147 0.085041 1401.18 1451.09 1.000
alpha{3} 8.194136 1.670617 5.655607 10.575470 8.073447 1501.00 1501.00 1.000
pinvar{all} 0.437670 0.000118 0.417095 0.458949 0.437571 1378.13 1439.57 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
CODONML (in paml version 4.8, March 2014) /opt/ADOPS/30/CadN-PA/batch/allfiles/codeml/input.fasta.fasta.pnxs
Model: One dN/dS ratio for branches,
Codon frequency model: F3x4
Site-class models:
ns = 10 ls = 3095
Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 40 39 43 28 24 39 | Ser TCT 15 15 11 10 9 14 | Tyr TAT 53 51 45 41 28 47 | Cys TGT 20 18 18 16 14 21
TTC 81 82 78 90 94 79 | TCC 47 49 55 45 57 51 | TAC 56 58 64 69 82 63 | TGC 26 28 28 29 31 24
Leu TTA 12 12 13 12 11 12 | TCA 22 21 22 11 10 13 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 46 44 43 33 36 42 | TCG 36 36 34 52 41 40 | TAG 0 0 0 0 0 0 | Trp TGG 27 27 27 27 27 27
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 14 9 15 8 12 12 | Pro CCT 26 27 25 12 20 27 | His CAT 27 22 22 27 18 28 | Arg CGT 36 39 32 28 30 34
CTC 29 32 31 41 32 34 | CCC 66 69 71 80 86 77 | CAC 32 37 37 33 41 31 | CGC 38 38 39 48 52 43
CTA 16 13 12 8 8 15 | CCA 39 41 43 23 30 33 | Gln CAA 47 44 44 30 26 31 | CGA 36 36 36 27 31 39
CTG 79 86 82 96 98 83 | CCG 45 39 37 61 41 40 | CAG 66 69 69 81 85 80 | CGG 18 18 25 28 20 12
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 63 61 59 51 55 60 | Thr ACT 45 44 47 34 32 39 | Asn AAT 96 97 103 91 77 102 | Ser AGT 31 28 26 18 24 28
ATC 76 79 76 80 84 72 | ACC 79 79 75 93 95 91 | AAC 84 84 77 90 104 78 | AGC 24 26 29 37 33 28
ATA 39 38 42 45 40 47 | ACA 38 35 37 28 24 29 | Lys AAA 54 54 46 37 38 50 | Arg AGA 18 18 16 11 11 16
Met ATG 64 64 64 64 65 64 | ACG 40 43 42 46 48 40 | AAG 107 108 116 122 123 111 | AGG 24 20 21 30 27 28
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 65 63 56 52 43 54 | Ala GCT 42 41 37 30 27 35 | Asp GAT 157 161 158 143 127 177 | Gly GGT 59 52 52 46 43 65
GTC 46 49 54 60 62 61 | GCC 89 90 90 104 103 100 | GAC 104 99 102 117 136 87 | GGC 74 80 81 96 109 79
GTA 35 34 33 14 16 22 | GCA 17 18 18 14 15 16 | Glu GAA 100 97 92 81 71 92 | GGA 69 68 61 58 51 56
GTG 104 103 106 126 127 112 | GCG 29 29 32 30 34 27 | GAG 116 120 126 138 145 123 | GGG 12 14 20 15 12 15
--------------------------------------------------------------------------------------------------------------------------------------
------------------------------------------------------------------------------------------------------
Phe TTT 34 28 37 33 | Ser TCT 13 12 13 12 | Tyr TAT 53 36 46 36 | Cys TGT 22 15 20 19
TTC 85 91 82 87 | TCC 41 43 49 45 | TAC 59 75 65 75 | TGC 23 31 25 26
Leu TTA 18 16 11 12 | TCA 28 20 15 9 | *** TAA 0 0 0 0 | *** TGA 0 0 0 0
TTG 51 55 51 42 | TCG 39 43 42 51 | TAG 0 0 0 0 | Trp TGG 27 27 27 27
------------------------------------------------------------------------------------------------------
Leu CTT 22 22 12 16 | Pro CCT 29 23 20 11 | His CAT 35 26 26 25 | Arg CGT 39 32 37 25
CTC 27 36 33 38 | CCC 54 65 69 79 | CAC 23 33 31 32 | CGC 35 40 44 50
CTA 18 8 14 7 | CCA 53 40 39 36 | Gln CAA 49 45 42 35 | CGA 41 38 40 34
CTG 64 60 80 82 | CCG 41 49 48 52 | CAG 63 67 70 77 | CGG 13 14 12 23
------------------------------------------------------------------------------------------------------
Ile ATT 75 66 59 60 | Thr ACT 53 45 38 30 | Asn AAT 118 105 120 110 | Ser AGT 31 21 23 22
ATC 59 78 77 76 | ACC 75 82 87 94 | AAC 61 74 63 68 | AGC 24 34 31 35
ATA 44 34 40 39 | ACA 38 36 30 28 | Lys AAA 66 57 55 53 | Arg AGA 22 19 14 13
Met ATG 64 64 64 66 | ACG 32 38 42 45 | AAG 95 104 107 110 | AGG 20 28 24 26
------------------------------------------------------------------------------------------------------
Val GTT 71 71 52 45 | Ala GCT 46 41 34 31 | Asp GAT 194 175 171 148 | Gly GGT 72 63 50 55
GTC 50 49 59 68 | GCC 87 90 100 98 | GAC 69 85 89 113 | GGC 71 72 86 88
GTA 41 21 25 19 | GCA 22 13 15 14 | Glu GAA 112 102 96 80 | GGA 60 64 61 51
GTG 85 110 115 120 | GCG 23 33 29 36 | GAG 104 116 121 137 | GGG 12 15 18 21
------------------------------------------------------------------------------------------------------
Codon position x base (3x4) table for each sequence.
#1: D_melanogaster_CadN-PA
position 1: T:0.15541 C:0.19838 A:0.28498 G:0.36123
position 2: T:0.26139 C:0.21809 A:0.35509 G:0.16543
position 3: T:0.25493 C:0.30727 A:0.17512 G:0.26268
Average T:0.22391 C:0.24125 A:0.27173 G:0.26311
#2: D_sechellia_CadN-PA
position 1: T:0.15509 C:0.20000 A:0.28368 G:0.36123
position 2: T:0.26107 C:0.21842 A:0.35574 G:0.16478
position 3: T:0.24782 C:0.31632 A:0.17092 G:0.26494
Average T:0.22132 C:0.24491 A:0.27011 G:0.26365
#3: D_yakuba_CadN-PA
position 1: T:0.15541 C:0.20032 A:0.28304 G:0.36123
position 2: T:0.26074 C:0.21842 A:0.35574 G:0.16511
position 3: T:0.24200 C:0.31890 A:0.16640 G:0.27270
Average T:0.21939 C:0.24588 A:0.26839 G:0.26634
#4: D_takahashii_CadN-PA
position 1: T:0.14960 C:0.20388 A:0.28336 G:0.36317
position 2: T:0.26107 C:0.21745 A:0.35541 G:0.16607
position 3: T:0.20517 C:0.35929 A:0.12892 G:0.30662
Average T:0.20528 C:0.26020 A:0.25590 G:0.27862
#5: D_biarmipes_CadN-PA
position 1: T:0.14992 C:0.20355 A:0.28433 G:0.36220
position 2: T:0.26074 C:0.21712 A:0.35574 G:0.16640
position 3: T:0.18837 C:0.38805 A:0.12342 G:0.30016
Average T:0.19968 C:0.26957 A:0.25450 G:0.27625
#6: D_suzukii_CadN-PA
position 1: T:0.15250 C:0.20000 A:0.28530 G:0.36220
position 2: T:0.26107 C:0.21712 A:0.35541 G:0.16640
position 3: T:0.25267 C:0.32246 A:0.15218 G:0.27270
Average T:0.22208 C:0.24653 A:0.26430 G:0.26710
#7: D_eugracilis_CadN-PA
position 1: T:0.15929 C:0.19580 A:0.28336 G:0.36155
position 2: T:0.26107 C:0.21777 A:0.35574 G:0.16543
position 3: T:0.29305 C:0.27237 A:0.19774 G:0.23683
Average T:0.23780 C:0.22865 A:0.27894 G:0.25460
#8: D_ficusphila_CadN-PA
position 1: T:0.15897 C:0.19321 A:0.28595 G:0.36187
position 2: T:0.26139 C:0.21745 A:0.35541 G:0.16575
position 3: T:0.25234 C:0.31599 A:0.16575 G:0.26591
Average T:0.22423 C:0.24222 A:0.26904 G:0.26451
#9: D_rhopaloa_CadN-PA
position 1: T:0.15606 C:0.19935 A:0.28239 G:0.36220
position 2: T:0.26204 C:0.21648 A:0.35606 G:0.16543
position 3: T:0.24491 C:0.31987 A:0.16058 G:0.27464
Average T:0.22100 C:0.24523 A:0.26634 G:0.26742
#10: D_elegans_CadN-PA
position 1: T:0.15315 C:0.20097 A:0.28271 G:0.36317
position 2: T:0.26171 C:0.21680 A:0.35509 G:0.16640
position 3: T:0.21906 C:0.34637 A:0.13893 G:0.29564
Average T:0.21131 C:0.25471 A:0.25891 G:0.27507
Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT 345 | Ser S TCT 124 | Tyr Y TAT 436 | Cys C TGT 183
TTC 849 | TCC 482 | TAC 666 | TGC 271
Leu L TTA 129 | TCA 171 | *** * TAA 0 | *** * TGA 0
TTG 443 | TCG 414 | TAG 0 | Trp W TGG 270
------------------------------------------------------------------------------
Leu L CTT 142 | Pro P CCT 220 | His H CAT 256 | Arg R CGT 332
CTC 333 | CCC 716 | CAC 330 | CGC 427
CTA 119 | CCA 377 | Gln Q CAA 393 | CGA 358
CTG 810 | CCG 453 | CAG 727 | CGG 183
------------------------------------------------------------------------------
Ile I ATT 609 | Thr T ACT 407 | Asn N AAT 1019 | Ser S AGT 252
ATC 757 | ACC 850 | AAC 783 | AGC 301
ATA 408 | ACA 323 | Lys K AAA 510 | Arg R AGA 158
Met M ATG 643 | ACG 416 | AAG 1103 | AGG 248
------------------------------------------------------------------------------
Val V GTT 572 | Ala A GCT 364 | Asp D GAT 1611 | Gly G GGT 557
GTC 558 | GCC 951 | GAC 1001 | GGC 836
GTA 260 | GCA 162 | Glu E GAA 923 | GGA 599
GTG 1108 | GCG 302 | GAG 1246 | GGG 154
------------------------------------------------------------------------------
Codon position x base (3x4) table, overall
position 1: T:0.15454 C:0.19955 A:0.28391 G:0.36200
position 2: T:0.26123 C:0.21751 A:0.35554 G:0.16572
position 3: T:0.24003 C:0.32669 A:0.15800 G:0.27528
Average T:0.21860 C:0.24792 A:0.26582 G:0.26767
Nei & Gojobori 1986. dN/dS (dN, dS)
(Note: This matrix is not used in later ML. analysis.
Use runmode = -2 for ML pairwise comparison.)
D_melanogaster_CadN-PA
D_sechellia_CadN-PA 0.0072 (0.0008 0.1167)
D_yakuba_CadN-PA 0.0063 (0.0014 0.2231) 0.0032 (0.0007 0.2187)
D_takahashii_CadN-PA 0.0092 (0.0056 0.6141) 0.0080 (0.0048 0.5991) 0.0068 (0.0041 0.5970)
D_biarmipes_CadN-PA 0.0077 (0.0051 0.6647) 0.0066 (0.0042 0.6280) 0.0075 (0.0044 0.5916) 0.0095 (0.0040 0.4216)
D_suzukii_CadN-PA 0.0081 (0.0046 0.5617) 0.0069 (0.0037 0.5419) 0.0073 (0.0038 0.5227) 0.0074 (0.0031 0.4175) 0.0048 (0.0015 0.3243)
D_eugracilis_CadN-PA 0.0100 (0.0056 0.5547) 0.0084 (0.0046 0.5474) 0.0085 (0.0048 0.5605) 0.0081 (0.0050 0.6178) 0.0089 (0.0059 0.6619) 0.0091 (0.0046 0.5111)
D_ficusphila_CadN-PA 0.0093 (0.0058 0.6209) 0.0086 (0.0051 0.5882) 0.0074 (0.0046 0.6166) 0.0100 (0.0059 0.5902) 0.0087 (0.0056 0.6453) 0.0080 (0.0045 0.5639) 0.0115 (0.0067 0.5821)
D_rhopaloa_CadN-PA 0.0121 (0.0066 0.5457) 0.0101 (0.0054 0.5301) 0.0107 (0.0056 0.5272) 0.0109 (0.0053 0.4861) 0.0090 (0.0047 0.5296) 0.0077 (0.0034 0.4452) 0.0118 (0.0059 0.5028) 0.0117 (0.0060 0.5111)
D_elegans_CadN-PA 0.0100 (0.0062 0.6194) 0.0089 (0.0054 0.6120) 0.0091 (0.0055 0.6073) 0.0137 (0.0068 0.5007) 0.0100 (0.0055 0.5486) 0.0081 (0.0042 0.5208) 0.0111 (0.0070 0.6306) 0.0108 (0.0060 0.5559) 0.0111 (0.0040 0.3631)
Model 0: one-ratio
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
lnL(ntime: 17 np: 19): -29029.584805 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046265 0.037854 0.038251 0.078966 0.128774 0.033282 0.048690 0.170155 0.050798 0.147792 0.082946 0.019932 0.219380 0.046871 0.102706 0.162896 0.189014 1.909718 0.008836
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.60457
(1: 0.046265, 2: 0.037854, (3: 0.078966, (((4: 0.170155, (5: 0.147792, 6: 0.082946): 0.050798): 0.048690, (8: 0.219380, (9: 0.102706, 10: 0.162896): 0.046871): 0.019932): 0.033282, 7: 0.189014): 0.128774): 0.038251);
(D_melanogaster_CadN-PA: 0.046265, D_sechellia_CadN-PA: 0.037854, (D_yakuba_CadN-PA: 0.078966, (((D_takahashii_CadN-PA: 0.170155, (D_biarmipes_CadN-PA: 0.147792, D_suzukii_CadN-PA: 0.082946): 0.050798): 0.048690, (D_ficusphila_CadN-PA: 0.219380, (D_rhopaloa_CadN-PA: 0.102706, D_elegans_CadN-PA: 0.162896): 0.046871): 0.019932): 0.033282, D_eugracilis_CadN-PA: 0.189014): 0.128774): 0.038251);
Detailed output identifying parameters
kappa (ts/tv) = 1.90972
omega (dN/dS) = 0.00884
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6994.3 2290.7 0.0088 0.0005 0.0609 3.8 139.4
11..2 0.038 6994.3 2290.7 0.0088 0.0004 0.0498 3.1 114.1
11..12 0.038 6994.3 2290.7 0.0088 0.0004 0.0503 3.1 115.3
12..3 0.079 6994.3 2290.7 0.0088 0.0009 0.1039 6.4 238.0
12..13 0.129 6994.3 2290.7 0.0088 0.0015 0.1694 10.5 388.1
13..14 0.033 6994.3 2290.7 0.0088 0.0004 0.0438 2.7 100.3
14..15 0.049 6994.3 2290.7 0.0088 0.0006 0.0641 4.0 146.7
15..4 0.170 6994.3 2290.7 0.0088 0.0020 0.2239 13.8 512.8
15..16 0.051 6994.3 2290.7 0.0088 0.0006 0.0668 4.1 153.1
16..5 0.148 6994.3 2290.7 0.0088 0.0017 0.1944 12.0 445.4
16..6 0.083 6994.3 2290.7 0.0088 0.0010 0.1091 6.7 250.0
14..17 0.020 6994.3 2290.7 0.0088 0.0002 0.0262 1.6 60.1
17..8 0.219 6994.3 2290.7 0.0088 0.0026 0.2886 17.8 661.1
17..18 0.047 6994.3 2290.7 0.0088 0.0005 0.0617 3.8 141.3
18..9 0.103 6994.3 2290.7 0.0088 0.0012 0.1351 8.4 309.5
18..10 0.163 6994.3 2290.7 0.0088 0.0019 0.2143 13.2 490.9
13..7 0.189 6994.3 2290.7 0.0088 0.0022 0.2487 15.4 569.6
tree length for dN: 0.0187
tree length for dS: 2.1110
Time used: 1:14
Model 1: NearlyNeutral (2 categories)
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
lnL(ntime: 17 np: 20): -28960.619106 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046342 0.037946 0.038231 0.079204 0.129213 0.033509 0.048754 0.170816 0.050562 0.147953 0.083503 0.019317 0.220690 0.046841 0.103572 0.163013 0.189986 1.943999 0.989062 0.004120
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.60945
(1: 0.046342, 2: 0.037946, (3: 0.079204, (((4: 0.170816, (5: 0.147953, 6: 0.083503): 0.050562): 0.048754, (8: 0.220690, (9: 0.103572, 10: 0.163013): 0.046841): 0.019317): 0.033509, 7: 0.189986): 0.129213): 0.038231);
(D_melanogaster_CadN-PA: 0.046342, D_sechellia_CadN-PA: 0.037946, (D_yakuba_CadN-PA: 0.079204, (((D_takahashii_CadN-PA: 0.170816, (D_biarmipes_CadN-PA: 0.147953, D_suzukii_CadN-PA: 0.083503): 0.050562): 0.048754, (D_ficusphila_CadN-PA: 0.220690, (D_rhopaloa_CadN-PA: 0.103572, D_elegans_CadN-PA: 0.163013): 0.046841): 0.019317): 0.033509, D_eugracilis_CadN-PA: 0.189986): 0.129213): 0.038231);
Detailed output identifying parameters
kappa (ts/tv) = 1.94400
dN/dS (w) for site classes (K=2)
p: 0.98906 0.01094
w: 0.00412 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6986.9 2298.1 0.0150 0.0009 0.0597 6.3 137.2
11..2 0.038 6986.9 2298.1 0.0150 0.0007 0.0489 5.1 112.3
11..12 0.038 6986.9 2298.1 0.0150 0.0007 0.0492 5.2 113.2
12..3 0.079 6986.9 2298.1 0.0150 0.0015 0.1020 10.7 234.4
12..13 0.129 6986.9 2298.1 0.0150 0.0025 0.1664 17.5 382.5
13..14 0.034 6986.9 2298.1 0.0150 0.0006 0.0432 4.5 99.2
14..15 0.049 6986.9 2298.1 0.0150 0.0009 0.0628 6.6 144.3
15..4 0.171 6986.9 2298.1 0.0150 0.0033 0.2200 23.1 505.6
15..16 0.051 6986.9 2298.1 0.0150 0.0010 0.0651 6.8 149.7
16..5 0.148 6986.9 2298.1 0.0150 0.0029 0.1906 20.0 437.9
16..6 0.084 6986.9 2298.1 0.0150 0.0016 0.1075 11.3 247.2
14..17 0.019 6986.9 2298.1 0.0150 0.0004 0.0249 2.6 57.2
17..8 0.221 6986.9 2298.1 0.0150 0.0043 0.2842 29.8 653.2
17..18 0.047 6986.9 2298.1 0.0150 0.0009 0.0603 6.3 138.6
18..9 0.104 6986.9 2298.1 0.0150 0.0020 0.1334 14.0 306.6
18..10 0.163 6986.9 2298.1 0.0150 0.0032 0.2100 22.0 482.5
13..7 0.190 6986.9 2298.1 0.0150 0.0037 0.2447 25.7 562.3
Time used: 3:01
Model 2: PositiveSelection (3 categories)
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
check convergence..
lnL(ntime: 17 np: 22): -28960.619268 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046342 0.037947 0.038231 0.079205 0.129214 0.033509 0.048754 0.170817 0.050563 0.147954 0.083503 0.019317 0.220693 0.046841 0.103573 0.163015 0.189987 1.943969 0.989062 0.010938 0.004120 81.950518
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.60947
(1: 0.046342, 2: 0.037947, (3: 0.079205, (((4: 0.170817, (5: 0.147954, 6: 0.083503): 0.050563): 0.048754, (8: 0.220693, (9: 0.103573, 10: 0.163015): 0.046841): 0.019317): 0.033509, 7: 0.189987): 0.129214): 0.038231);
(D_melanogaster_CadN-PA: 0.046342, D_sechellia_CadN-PA: 0.037947, (D_yakuba_CadN-PA: 0.079205, (((D_takahashii_CadN-PA: 0.170817, (D_biarmipes_CadN-PA: 0.147954, D_suzukii_CadN-PA: 0.083503): 0.050563): 0.048754, (D_ficusphila_CadN-PA: 0.220693, (D_rhopaloa_CadN-PA: 0.103573, D_elegans_CadN-PA: 0.163015): 0.046841): 0.019317): 0.033509, D_eugracilis_CadN-PA: 0.189987): 0.129214): 0.038231);
Detailed output identifying parameters
kappa (ts/tv) = 1.94397
dN/dS (w) for site classes (K=3)
p: 0.98906 0.01094 0.00000
w: 0.00412 1.00000 81.95052
(note that p[2] is zero)
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6986.9 2298.1 0.0150 0.0009 0.0597 6.3 137.2
11..2 0.038 6986.9 2298.1 0.0150 0.0007 0.0489 5.1 112.3
11..12 0.038 6986.9 2298.1 0.0150 0.0007 0.0492 5.2 113.2
12..3 0.079 6986.9 2298.1 0.0150 0.0015 0.1020 10.7 234.4
12..13 0.129 6986.9 2298.1 0.0150 0.0025 0.1664 17.5 382.5
13..14 0.034 6986.9 2298.1 0.0150 0.0006 0.0432 4.5 99.2
14..15 0.049 6986.9 2298.1 0.0150 0.0009 0.0628 6.6 144.3
15..4 0.171 6986.9 2298.1 0.0150 0.0033 0.2200 23.1 505.6
15..16 0.051 6986.9 2298.1 0.0150 0.0010 0.0651 6.8 149.7
16..5 0.148 6986.9 2298.1 0.0150 0.0029 0.1906 20.0 437.9
16..6 0.084 6986.9 2298.1 0.0150 0.0016 0.1075 11.3 247.2
14..17 0.019 6986.9 2298.1 0.0150 0.0004 0.0249 2.6 57.2
17..8 0.221 6986.9 2298.1 0.0150 0.0043 0.2842 29.8 653.2
17..18 0.047 6986.9 2298.1 0.0150 0.0009 0.0603 6.3 138.6
18..9 0.104 6986.9 2298.1 0.0150 0.0020 0.1334 14.0 306.6
18..10 0.163 6986.9 2298.1 0.0150 0.0032 0.2100 22.0 482.5
13..7 0.190 6986.9 2298.1 0.0150 0.0037 0.2447 25.7 562.3
Naive Empirical Bayes (NEB) analysis
Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_CadN-PA)
Pr(w>1) post mean +- SE for w
33 F 0.504 1.238 +- 0.296
The grid (see ternary graph for p0-p1)
w0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950
w2: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500
Posterior on the grid
w0: 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
w2: 0.993 0.004 0.001 0.001 0.000 0.000 0.000 0.000 0.000 0.000
Posterior for p0-p1 (see the ternary graph)
0.000
0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000
sum of density on p0-p1 = 1.000000
Time used: 8:27
Model 3: discrete (3 categories)
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
check convergence..
lnL(ntime: 17 np: 23): -28930.188501 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046290 0.037940 0.038300 0.078927 0.129371 0.033407 0.048808 0.170525 0.050662 0.147941 0.082883 0.019397 0.220094 0.046717 0.103614 0.163047 0.188928 1.908301 0.413250 0.538646 0.000014 0.000072 0.196762
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.60685
(1: 0.046290, 2: 0.037940, (3: 0.078927, (((4: 0.170525, (5: 0.147941, 6: 0.082883): 0.050662): 0.048808, (8: 0.220094, (9: 0.103614, 10: 0.163047): 0.046717): 0.019397): 0.033407, 7: 0.188928): 0.129371): 0.038300);
(D_melanogaster_CadN-PA: 0.046290, D_sechellia_CadN-PA: 0.037940, (D_yakuba_CadN-PA: 0.078927, (((D_takahashii_CadN-PA: 0.170525, (D_biarmipes_CadN-PA: 0.147941, D_suzukii_CadN-PA: 0.082883): 0.050662): 0.048808, (D_ficusphila_CadN-PA: 0.220094, (D_rhopaloa_CadN-PA: 0.103614, D_elegans_CadN-PA: 0.163047): 0.046717): 0.019397): 0.033407, D_eugracilis_CadN-PA: 0.188928): 0.129371): 0.038300);
Detailed output identifying parameters
kappa (ts/tv) = 1.90830
dN/dS (w) for site classes (K=3)
p: 0.41325 0.53865 0.04810
w: 0.00001 0.00007 0.19676
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6994.6 2290.4 0.0095 0.0006 0.0608 4.0 139.2
11..2 0.038 6994.6 2290.4 0.0095 0.0005 0.0498 3.3 114.1
11..12 0.038 6994.6 2290.4 0.0095 0.0005 0.0503 3.3 115.2
12..3 0.079 6994.6 2290.4 0.0095 0.0010 0.1036 6.9 237.4
12..13 0.129 6994.6 2290.4 0.0095 0.0016 0.1699 11.3 389.1
13..14 0.033 6994.6 2290.4 0.0095 0.0004 0.0439 2.9 100.5
14..15 0.049 6994.6 2290.4 0.0095 0.0006 0.0641 4.3 146.8
15..4 0.171 6994.6 2290.4 0.0095 0.0021 0.2239 14.9 512.9
15..16 0.051 6994.6 2290.4 0.0095 0.0006 0.0665 4.4 152.4
16..5 0.148 6994.6 2290.4 0.0095 0.0018 0.1943 12.9 445.0
16..6 0.083 6994.6 2290.4 0.0095 0.0010 0.1088 7.2 249.3
14..17 0.019 6994.6 2290.4 0.0095 0.0002 0.0255 1.7 58.3
17..8 0.220 6994.6 2290.4 0.0095 0.0027 0.2890 19.2 662.0
17..18 0.047 6994.6 2290.4 0.0095 0.0006 0.0613 4.1 140.5
18..9 0.104 6994.6 2290.4 0.0095 0.0013 0.1361 9.1 311.6
18..10 0.163 6994.6 2290.4 0.0095 0.0020 0.2141 14.2 490.4
13..7 0.189 6994.6 2290.4 0.0095 0.0024 0.2481 16.5 568.2
Naive Empirical Bayes (NEB) analysis
Time used: 11:52
Model 7: beta (10 categories)
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
lnL(ntime: 17 np: 20): -28942.388292 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046418 0.037987 0.038379 0.079253 0.129265 0.033468 0.048934 0.170763 0.050865 0.148292 0.083310 0.019509 0.220612 0.047015 0.103419 0.163324 0.189809 1.910132 0.011352 0.356152
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.61062
(1: 0.046418, 2: 0.037987, (3: 0.079253, (((4: 0.170763, (5: 0.148292, 6: 0.083310): 0.050865): 0.048934, (8: 0.220612, (9: 0.103419, 10: 0.163324): 0.047015): 0.019509): 0.033468, 7: 0.189809): 0.129265): 0.038379);
(D_melanogaster_CadN-PA: 0.046418, D_sechellia_CadN-PA: 0.037987, (D_yakuba_CadN-PA: 0.079253, (((D_takahashii_CadN-PA: 0.170763, (D_biarmipes_CadN-PA: 0.148292, D_suzukii_CadN-PA: 0.083310): 0.050865): 0.048934, (D_ficusphila_CadN-PA: 0.220612, (D_rhopaloa_CadN-PA: 0.103419, D_elegans_CadN-PA: 0.163324): 0.047015): 0.019509): 0.033468, D_eugracilis_CadN-PA: 0.189809): 0.129265): 0.038379);
Detailed output identifying parameters
kappa (ts/tv) = 1.91013
Parameters in M7 (beta):
p = 0.01135 q = 0.35615
dN/dS (w) for site classes (K=10)
p: 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000
w: 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00001 0.10143
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6994.2 2290.8 0.0101 0.0006 0.0608 4.3 139.3
11..2 0.038 6994.2 2290.8 0.0101 0.0005 0.0498 3.5 114.0
11..12 0.038 6994.2 2290.8 0.0101 0.0005 0.0503 3.6 115.2
12..3 0.079 6994.2 2290.8 0.0101 0.0011 0.1039 7.4 237.9
12..13 0.129 6994.2 2290.8 0.0101 0.0017 0.1694 12.0 388.1
13..14 0.033 6994.2 2290.8 0.0101 0.0004 0.0439 3.1 100.5
14..15 0.049 6994.2 2290.8 0.0101 0.0007 0.0641 4.5 146.9
15..4 0.171 6994.2 2290.8 0.0101 0.0023 0.2238 15.9 512.6
15..16 0.051 6994.2 2290.8 0.0101 0.0007 0.0667 4.7 152.7
16..5 0.148 6994.2 2290.8 0.0101 0.0020 0.1943 13.8 445.2
16..6 0.083 6994.2 2290.8 0.0101 0.0011 0.1092 7.7 250.1
14..17 0.020 6994.2 2290.8 0.0101 0.0003 0.0256 1.8 58.6
17..8 0.221 6994.2 2290.8 0.0101 0.0029 0.2891 20.5 662.3
17..18 0.047 6994.2 2290.8 0.0101 0.0006 0.0616 4.4 141.1
18..9 0.103 6994.2 2290.8 0.0101 0.0014 0.1355 9.6 310.5
18..10 0.163 6994.2 2290.8 0.0101 0.0022 0.2140 15.2 490.3
13..7 0.190 6994.2 2290.8 0.0101 0.0025 0.2487 17.6 569.8
Time used: 29:11
Model 8: beta&w>1 (11 categories)
TREE # 1: (1, 2, (3, (((4, (5, 6)), (8, (9, 10))), 7))); MP score: 4052
lnL(ntime: 17 np: 22): -28939.322122 +0.000000
11..1 11..2 11..12 12..3 12..13 13..14 14..15 15..4 15..16 16..5 16..6 14..17 17..8 17..18 18..9 18..10 13..7
0.046402 0.037977 0.038358 0.079220 0.129291 0.033417 0.048872 0.170913 0.050908 0.148267 0.083378 0.019399 0.220696 0.047029 0.103575 0.163162 0.189962 1.915316 0.996986 0.010979 0.369462 1.000000
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 1.61083
(1: 0.046402, 2: 0.037977, (3: 0.079220, (((4: 0.170913, (5: 0.148267, 6: 0.083378): 0.050908): 0.048872, (8: 0.220696, (9: 0.103575, 10: 0.163162): 0.047029): 0.019399): 0.033417, 7: 0.189962): 0.129291): 0.038358);
(D_melanogaster_CadN-PA: 0.046402, D_sechellia_CadN-PA: 0.037977, (D_yakuba_CadN-PA: 0.079220, (((D_takahashii_CadN-PA: 0.170913, (D_biarmipes_CadN-PA: 0.148267, D_suzukii_CadN-PA: 0.083378): 0.050908): 0.048872, (D_ficusphila_CadN-PA: 0.220696, (D_rhopaloa_CadN-PA: 0.103575, D_elegans_CadN-PA: 0.163162): 0.047029): 0.019399): 0.033417, D_eugracilis_CadN-PA: 0.189962): 0.129291): 0.038358);
Detailed output identifying parameters
kappa (ts/tv) = 1.91532
Parameters in M8 (beta&w>1):
p0 = 0.99699 p = 0.01098 q = 0.36946
(p1 = 0.00301) w = 1.00000
dN/dS (w) for site classes (K=11)
p: 0.09970 0.09970 0.09970 0.09970 0.09970 0.09970 0.09970 0.09970 0.09970 0.09970 0.00301
w: 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.07913 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
11..1 0.046 6993.1 2291.9 0.0109 0.0007 0.0606 4.6 139.0
11..2 0.038 6993.1 2291.9 0.0109 0.0005 0.0496 3.8 113.8
11..12 0.038 6993.1 2291.9 0.0109 0.0005 0.0501 3.8 114.9
12..3 0.079 6993.1 2291.9 0.0109 0.0011 0.1035 7.9 237.3
12..13 0.129 6993.1 2291.9 0.0109 0.0018 0.1690 12.9 387.3
13..14 0.033 6993.1 2291.9 0.0109 0.0005 0.0437 3.3 100.1
14..15 0.049 6993.1 2291.9 0.0109 0.0007 0.0639 4.9 146.4
15..4 0.171 6993.1 2291.9 0.0109 0.0024 0.2234 17.0 511.9
15..16 0.051 6993.1 2291.9 0.0109 0.0007 0.0665 5.1 152.5
16..5 0.148 6993.1 2291.9 0.0109 0.0021 0.1938 14.8 444.1
16..6 0.083 6993.1 2291.9 0.0109 0.0012 0.1090 8.3 249.7
14..17 0.019 6993.1 2291.9 0.0109 0.0003 0.0254 1.9 58.1
17..8 0.221 6993.1 2291.9 0.0109 0.0031 0.2884 22.0 661.1
17..18 0.047 6993.1 2291.9 0.0109 0.0007 0.0615 4.7 140.9
18..9 0.104 6993.1 2291.9 0.0109 0.0015 0.1354 10.3 310.2
18..10 0.163 6993.1 2291.9 0.0109 0.0023 0.2132 16.3 488.7
13..7 0.190 6993.1 2291.9 0.0109 0.0027 0.2483 18.9 569.0
Naive Empirical Bayes (NEB) analysis
Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_CadN-PA)
Pr(w>1) post mean +- SE for w
33 F 0.657 1.160 +- 0.492
2303 S 0.670 1.189 +- 0.461
The grid
p0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950
p : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
q : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
ws: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500
Posterior on the grid
p0: 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000
p : 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
q : 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000
ws: 0.996 0.002 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
Time used: 56:21
Model 1: NearlyNeutral -28960.619106
Model 2: PositiveSelection -28960.619268
Model 0: one-ratio -29029.584805
Model 3: discrete -28930.188501
Model 7: beta -28942.388292
Model 8: beta&w>1 -28939.322122
Model 0 vs 1 137.93139800000063
Model 2 vs 1 3.240000005462207E-4
Model 8 vs 7 6.132339999996475
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_CadN-PA)
Pr(w>1) post mean +- SE for w
33 F 0.657 1.160 +- 0.492
2303 S 0.670 1.189 +- 0.461
Phone: +351 220 408 800
Email: info@i3s.up.pt
Address: Rua Alfredo Allen, 208
4200-135 Porto, Portugal
If you use B+, please cite us:
N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2018) Large Scale Analyses and Visualization of Adaptive Amino Acid Changes Projects. Interdisciplinary Sciences: Computational Life Sciences. https://doi.org/10.1007/s12539-018-0282-7
N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2017) Automated Collection and Sharing of Adaptive Amino Acid Changes Data. 11th International Conference on Practical Applications of Computational Biology & Bioinformatics. Porto, Portugal. https://doi.org/10.1007/978-3-319-60816-7_3
