B+ Project - Transcription

--- EXPERIMENT NOTES




 --- EXPERIMENT PROPERTIES

#Fri Jan 24 09:28:38 GMT 2020
codeml.models=0 1 2 3 7 8
mrbayes.mpich=
mrbayes.ngen=500000
tcoffee.alignMethod=CLUSTALW2
tcoffee.params=
tcoffee.maxSeqs=0
codeml.bin=codeml
mrbayes.tburnin=1250
codeml.dir=/usr/bin/
input.sequences=
mrbayes.pburnin=1250
mrbayes.bin=mb
tcoffee.bin=t_coffee
mrbayes.dir=/opt/mrbayes_3.2.2/src
tcoffee.dir=
tcoffee.minScore=3
input.fasta=/data/8res/ML2355/input.fasta
input.names=
mrbayes.params=
codeml.params=



 --- PSRF SUMMARY

      Estimated marginal likelihoods for runs sampled in files
"/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/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 /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1      -9003.21         -9006.20
2      -9003.35         -9006.87
--------------------------------------
TOTAL    -9003.28         -9006.59
--------------------------------------


Model parameter summaries over the runs sampled in files
"/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 1502 samples from 2 runs.
Each run produced 1001 samples of which 751 samples were included.
Parameter summaries saved to file "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         0.888101    0.090676    0.374760    1.514432    0.860274    671.47    677.11    0.999
r(A<->C){all}   0.175970    0.021611    0.000382    0.477675    0.140105     91.30    100.13    0.999
r(A<->G){all}   0.187762    0.023906    0.000091    0.504590    0.145383     90.82     96.27    0.999
r(A<->T){all}   0.163738    0.017875    0.000091    0.422506    0.131867     26.04     89.12    1.006
r(C<->G){all}   0.150055    0.016525    0.000144    0.411496    0.117042    134.71    164.74    1.001
r(C<->T){all}   0.174044    0.018748    0.000053    0.443588    0.143267     50.73     76.76    0.999
r(G<->T){all}   0.148432    0.015706    0.000557    0.386879    0.114661    109.84    181.96    1.002
pi(A){all}      0.184924    0.000024    0.175291    0.194163    0.184741    532.88    605.91    1.000
pi(C){all}      0.287978    0.000032    0.277014    0.299572    0.287954    433.13    483.15    0.999
pi(G){all}      0.320848    0.000034    0.310379    0.333009    0.320859    475.47    491.01    1.000
pi(T){all}      0.206250    0.000026    0.195755    0.215370    0.206095    371.64    489.16    1.000
alpha{1,2}      0.345152    0.173159    0.000509    1.238037    0.192111    496.43    540.30    1.000
alpha{3}        0.443404    0.244166    0.000790    1.395834    0.282463    434.09    456.29    0.999
pinvar{all}     0.999580    0.000000    0.998936    0.999997    0.999662    136.51    253.89    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	-8757.215438
Model 2: PositiveSelection	-8756.828878
Model 0: one-ratio	-8756.812995
Model 3: discrete	-8756.813563
Model 7: beta	-8757.295103
Model 8: beta&w>1	-8756.813138


Model 0 vs 1	0.8048859999980778

Model 2 vs 1	0.7731199999980163

Model 8 vs 7	0.9639300000017101

>C1
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C2
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C3
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C4
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C5
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C6
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE:  ], CPU=0.00 sec, SCORE=100, Nseq=6, Len=2201 

C1              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C2              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C3              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C4              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C5              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C6              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
                **************************************************

C1              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C2              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C3              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C4              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C5              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C6              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
                **************************************************

C1              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C2              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C3              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C4              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C5              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C6              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
                **************************************************

C1              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C2              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C3              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C4              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C5              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C6              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
                **************************************************

C1              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C2              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C3              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C4              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C5              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C6              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
                **************************************************

C1              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C2              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C3              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C4              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C5              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C6              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
                **************************************************

C1              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C2              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C3              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C4              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C5              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C6              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
                **************************************************

C1              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C2              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C3              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C4              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C5              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C6              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
                **************************************************

C1              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C2              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C3              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C4              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C5              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C6              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
                **************************************************

C1              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C2              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C3              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C4              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C5              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C6              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
                **************************************************

C1              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C2              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C3              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C4              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C5              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C6              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
                **************************************************

C1              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C2              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C3              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C4              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C5              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C6              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
                **************************************************

C1              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C2              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C3              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C4              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C5              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C6              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
                **************************************************

C1              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C2              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C3              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C4              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C5              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C6              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
                **************************************************

C1              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C2              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C3              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C4              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C5              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C6              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
                **************************************************

C1              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C2              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C3              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C4              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C5              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C6              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
                **************************************************

C1              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C2              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C3              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C4              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C5              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C6              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
                **************************************************

C1              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C2              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C3              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C4              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C5              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C6              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
                **************************************************

C1              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C2              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C3              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C4              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C5              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C6              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
                **************************************************

C1              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C2              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C3              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C4              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C5              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C6              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
                **************************************************

C1              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C2              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C3              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C4              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C5              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C6              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
                **************************************************

C1              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C2              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C3              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C4              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C5              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C6              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
                **************************************************

C1              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C2              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C3              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C4              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C5              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C6              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
                **************************************************

C1              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C2              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C3              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C4              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C5              MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C6              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
                ***************:**********************************

C1              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C2              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C3              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C4              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C5              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C6              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
                **************************************************

C1              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C2              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C3              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C4              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C5              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C6              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
                **************************************************

C1              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C2              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C3              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C4              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C5              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C6              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
                **************************************************

C1              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C2              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C3              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C4              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C5              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C6              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
                **************************************************

C1              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C2              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C3              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C4              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C5              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C6              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
                **************************************************

C1              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C2              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C3              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C4              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C5              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C6              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
                **************************************************

C1              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C2              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C3              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C4              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C5              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C6              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
                **************************************************

C1              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C2              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C3              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C4              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C5              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C6              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
                **************************************************

C1              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C2              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C3              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C4              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C5              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C6              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
                **************************************************

C1              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C2              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C3              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C4              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C5              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C6              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
                **************************************************

C1              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C2              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C3              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C4              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C5              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C6              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
                **************************************************

C1              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C2              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C3              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C4              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C5              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C6              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
                **************************************************

C1              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C2              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C3              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C4              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C5              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C6              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
                **************************************************

C1              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C2              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C3              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C4              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C5              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C6              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
                **************************************************

C1              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C2              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C3              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C4              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C5              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C6              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
                **************************************************

C1              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C2              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C3              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C4              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C5              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C6              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
                **************************************************

C1              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C2              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C3              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C4              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C5              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C6              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
                **************************************************

C1              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C2              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C3              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C4              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C5              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C6              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
                **************************************************

C1              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C2              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C3              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C4              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C5              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C6              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
                **************************************************

C1              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C2              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C3              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C4              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C5              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C6              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
                **************************************************

C1              S
C2              S
C3              S
C4              S
C5              S
C6              S
                *




PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
-full_log      	S	[0] 
-genepred_score	S	[0] 	nsd
-run_name      	S	[0] 
-mem_mode      	S	[0] 	mem
-extend        	D	[1] 	1 
-extend_mode   	S	[0] 	very_fast_triplet
-max_n_pair    	D	[0] 	10 
-seq_name_for_quadruplet	S	[0] 	all
-compact       	S	[0] 	default
-clean         	S	[0] 	no
-do_self       	FL	[0] 	0
-do_normalise  	D	[0] 	1000 
-template_file 	S	[0] 
-setenv        	S	[0] 	0
-template_mode 	S	[0] 
-flip          	D	[0] 	0 
-remove_template_file	D	[0] 	0 
-profile_template_file	S	[0] 
-in            	S	[0] 
-seq           	S	[0] 
-aln           	S	[0] 
-method_limits 	S	[0] 
-method        	S	[0] 
-lib           	S	[0] 
-profile       	S	[0] 
-profile1      	S	[0] 
-profile2      	S	[0] 
-pdb           	S	[0] 
-relax_lib     	D	[0] 	1 
-filter_lib    	D	[0] 	0 
-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 
-gapopen       	D	[0] 	0 
-gapext        	D	[0] 	0 
-fgapopen      	D	[0] 	0 
-fgapext       	D	[0] 	0 
-nomatch       	D	[0] 	0 
-newtree       	W_F	[0] 	default
-tree          	W_F	[0] 	NO
-usetree       	R_F	[0] 
-tree_mode     	S	[0] 	nj
-distance_matrix_mode	S	[0] 	ktup
-distance_matrix_sim_mode	S	[0] 	idmat_sim1
-quicktree     	FL	[0] 	0
-outfile       	W_F	[0] 	default
-maximise      	FL	[1] 	1
-output        	S	[1] 	score_ascii	html	score_ascii
-len           	D	[0] 	0 
-infile        	R_F	[1] 	input.prot.fasta.clustalw2_rs_0_0.fasta.aln
-matrix        	S	[0] 	default
-tg_mode       	D	[0] 	1 
-profile_mode  	S	[0] 	cw_profile_profile
-profile_comparison	S	[0] 	profile
-dp_mode       	S	[0] 	linked_pair_wise
-ktuple        	D	[0] 	1 
-ndiag         	D	[0] 	0 
-diag_threshold	D	[0] 	0 
-diag_mode     	D	[0] 	0 
-sim_matrix    	S	[0] 	vasiliky
-transform     	S	[0] 
-extend_seq    	FL	[0] 	0
-outorder      	S	[0] 	input
-inorder       	S	[0] 	aligned
-seqnos        	S	[0] 	off
-case          	S	[0] 	keep
-cpu           	D	[0] 	0 
-maxnseq       	D	[0] 	1000 
-maxlen        	D	[0] 	-1 
-sample_dp     	D	[0] 	0 
-weight        	S	[0] 	default
-seq_weight    	S	[0] 	no
-align         	FL	[1] 	1
-mocca         	FL	[0] 	0
-domain        	FL	[0] 	0
-start         	D	[0] 	0 
-len           	D	[0] 	0 
-scale         	D	[0] 	0 
-mocca_interactive	FL	[0] 	0
-method_evaluate_mode	S	[0] 	default
-evaluate_mode 	S	[1] 	t_coffee_fast
-get_type      	FL	[0] 	0
-clean_aln     	D	[0] 	0 
-clean_threshold	D	[1] 	1 
-clean_iteration	D	[1] 	1 
-clean_evaluate_mode	S	[0] 	t_coffee_fast
-extend_matrix 	FL	[0] 	0
-prot_min_sim  	D	[40] 	40 
-prot_max_sim  	D	[90] 	90 
-prot_min_cov  	D	[40] 	40 
-pdb_type      	S	[0] 	d
-pdb_min_sim   	D	[35] 	35 
-pdb_max_sim   	D	[100] 	100 
-pdb_min_cov   	D	[50] 	50 
-pdb_blast_server	W_F	[0] 	EBI
-blast         	W_F	[0] 
-blast_server  	W_F	[0] 	EBI
-pdb_db        	W_F	[0] 	pdb
-protein_db    	W_F	[0] 	uniprot
-method_log    	W_F	[0] 	no
-struc_to_use  	S	[0] 
-cache         	W_F	[0] 	use
-align_pdb_param_file	W_F	[0] 	no
-align_pdb_hasch_mode	W_F	[0] 	hasch_ca_trace_bubble
-external_aligner	S	[0] 	NO
-msa_mode      	S	[0] 	tree
-master        	S	[0] 	no
-blast_nseq    	D	[0] 	0 
-lalign_n_top  	D	[0] 	10 
-iterate       	D	[1] 	0 
-trim          	D	[0] 	0 
-split         	D	[0] 	0 
-trimfile      	S	[0] 	default
-split         	D	[0] 	0 
-split_nseq_thres	D	[0] 	0 
-split_score_thres	D	[0] 	0 
-check_pdb_status	D	[0] 	0 
-clean_seq_name	D	[0] 	0 
-seq_to_keep   	S	[0] 
-dpa_master_aln	S	[0] 
-dpa_maxnseq   	D	[0] 	0 
-dpa_min_score1	D	[0] 
-dpa_min_score2	D	[0] 
-dpa_keep_tmpfile	FL	[0] 	0
-dpa_debug     	D	[0] 	0 
-multi_core    	S	[0] 	templates_jobs_relax_msa_evaluate
-n_core        	D	[0] 	0 
-max_n_proc    	D	[0] 	0 
-lib_list      	S	[0] 
-prune_lib_mode	S	[0] 	5
-tip           	S	[0] 	none
-rna_lib       	S	[0] 
-no_warning    	D	[0] 	0 
-run_local_script	D	[0] 	0 
-plugins       	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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:
set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.alnset
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 set
-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) input.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: 6 SEQUENCES  [PROTEIN]
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5 Length 2201 type PROTEIN Struct Unchecked
  Input File input.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6 Length 2201 type PROTEIN Struct Unchecked

	Multi Core Mode: 96 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [66030]

Library Relaxation: Multi_proc [96]
 
Relaxation Summary: [66030]--->[66030]



UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1


OUTPUT RESULTS
	#### File Type= MSA             Format= score_ascii     Name= input.prot.fasta.clustalw2_rs_0_0.fasta.score_ascii
	#### File Type= MSA             Format= html            Name= input.prot.fasta.clustalw2_rs_0_0.fasta.html
	#### File Type= MSA             Format= score_ascii     Name= input.prot.fasta.clustalw2_rs_0_0.fasta.score_ascii

# Command Line: t_coffee -infile input.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= 30.013 Mb, Max= 33.564 Mb
# Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
# T-COFFEE is available from http://www.tcoffee.org
# Register on: https://groups.google.com/group/tcoffee/

FORMAT of file input.prot.fasta.clustalw2_rs_0_0.fasta.ipi_i.fasta Not Supported[FATAL:T-COFFEE]
CLUSTAL W (1.83) multiple sequence alignment

C1              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C2              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C3              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C4              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C5              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
C6              MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
                **************************************************

C1              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C2              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C3              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C4              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C5              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
C6              NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
                **************************************************

C1              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C2              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C3              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C4              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C5              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
C6              GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
                **************************************************

C1              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C2              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C3              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C4              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C5              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
C6              QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
                **************************************************

C1              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C2              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C3              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C4              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C5              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
C6              GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
                **************************************************

C1              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C2              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C3              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C4              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C5              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
C6              RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
                **************************************************

C1              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C2              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C3              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C4              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C5              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
C6              GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
                **************************************************

C1              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C2              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C3              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C4              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C5              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
C6              LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
                **************************************************

C1              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C2              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C3              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C4              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C5              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
C6              VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
                **************************************************

C1              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C2              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C3              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C4              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C5              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
C6              SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
                **************************************************

C1              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C2              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C3              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C4              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C5              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
C6              TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
                **************************************************

C1              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C2              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C3              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C4              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C5              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
C6              RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
                **************************************************

C1              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C2              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C3              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C4              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C5              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
C6              EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
                **************************************************

C1              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C2              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C3              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C4              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C5              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
C6              SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
                **************************************************

C1              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C2              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C3              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C4              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C5              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
C6              MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
                **************************************************

C1              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C2              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C3              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C4              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C5              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
C6              QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
                **************************************************

C1              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C2              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C3              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C4              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C5              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
C6              GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
                **************************************************

C1              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C2              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C3              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C4              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C5              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
C6              SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
                **************************************************

C1              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C2              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C3              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C4              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C5              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
C6              PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
                **************************************************

C1              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C2              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C3              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C4              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C5              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
C6              GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
                **************************************************

C1              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C2              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C3              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C4              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C5              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
C6              GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
                **************************************************

C1              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C2              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C3              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C4              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C5              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
C6              HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
                **************************************************

C1              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C2              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C3              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C4              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C5              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
C6              FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
                **************************************************

C1              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C2              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C3              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C4              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C5              MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
C6              MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
                ***************:**********************************

C1              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C2              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C3              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C4              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C5              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
C6              GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
                **************************************************

C1              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C2              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C3              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C4              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C5              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
C6              VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
                **************************************************

C1              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C2              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C3              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C4              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C5              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
C6              VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
                **************************************************

C1              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C2              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C3              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C4              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C5              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
C6              QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
                **************************************************

C1              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C2              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C3              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C4              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C5              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
C6              LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
                **************************************************

C1              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C2              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C3              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C4              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C5              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
C6              PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
                **************************************************

C1              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C2              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C3              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C4              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C5              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
C6              EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
                **************************************************

C1              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C2              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C3              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C4              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C5              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
C6              VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
                **************************************************

C1              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C2              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C3              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C4              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C5              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
C6              CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
                **************************************************

C1              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C2              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C3              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C4              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C5              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
C6              ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
                **************************************************

C1              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C2              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C3              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C4              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C5              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
C6              GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
                **************************************************

C1              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C2              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C3              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C4              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C5              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
C6              ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
                **************************************************

C1              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C2              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C3              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C4              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C5              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
C6              AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
                **************************************************

C1              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C2              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C3              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C4              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C5              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
C6              SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
                **************************************************

C1              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C2              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C3              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C4              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C5              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
C6              SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
                **************************************************

C1              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C2              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C3              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C4              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C5              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
C6              SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
                **************************************************

C1              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C2              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C3              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C4              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C5              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
C6              AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
                **************************************************

C1              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C2              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C3              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C4              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C5              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
C6              FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
                **************************************************

C1              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C2              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C3              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C4              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C5              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
C6              SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
                **************************************************

C1              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C2              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C3              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C4              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C5              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
C6              AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
                **************************************************

C1              S
C2              S
C3              S
C4              S
C5              S
C6              S
                *




FORMAT of file input.prot.fasta.clustalw2_rs_0_0.fasta.ipi_bs.fasta Not Supported[FATAL:T-COFFEE]
input.prot.fasta.clustalw2_rs_0_0.fasta.aln I:96 S:100 BS:97
# 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
# PW_SEQ_DISTANCES 
BOT	    0    1	 100.00 C1	 C2	 100.00
TOP	    1    0	 100.00 C2	 C1	 100.00
BOT	    0    2	 100.00 C1	 C3	 100.00
TOP	    2    0	 100.00 C3	 C1	 100.00
BOT	    0    3	 100.00 C1	 C4	 100.00
TOP	    3    0	 100.00 C4	 C1	 100.00
BOT	    0    4	 99.95 C1	 C5	 99.95
TOP	    4    0	 99.95 C5	 C1	 99.95
BOT	    0    5	 100.00 C1	 C6	 100.00
TOP	    5    0	 100.00 C6	 C1	 100.00
BOT	    1    2	 100.00 C2	 C3	 100.00
TOP	    2    1	 100.00 C3	 C2	 100.00
BOT	    1    3	 100.00 C2	 C4	 100.00
TOP	    3    1	 100.00 C4	 C2	 100.00
BOT	    1    4	 99.95 C2	 C5	 99.95
TOP	    4    1	 99.95 C5	 C2	 99.95
BOT	    1    5	 100.00 C2	 C6	 100.00
TOP	    5    1	 100.00 C6	 C2	 100.00
BOT	    2    3	 100.00 C3	 C4	 100.00
TOP	    3    2	 100.00 C4	 C3	 100.00
BOT	    2    4	 99.95 C3	 C5	 99.95
TOP	    4    2	 99.95 C5	 C3	 99.95
BOT	    2    5	 100.00 C3	 C6	 100.00
TOP	    5    2	 100.00 C6	 C3	 100.00
BOT	    3    4	 99.95 C4	 C5	 99.95
TOP	    4    3	 99.95 C5	 C4	 99.95
BOT	    3    5	 100.00 C4	 C6	 100.00
TOP	    5    3	 100.00 C6	 C4	 100.00
BOT	    4    5	 99.95 C5	 C6	 99.95
TOP	    5    4	 99.95 C6	 C5	 99.95
AVG	 0	 C1	  *	 99.99
AVG	 1	 C2	  *	 99.99
AVG	 2	 C3	  *	 99.99
AVG	 3	 C4	  *	 99.99
AVG	 4	 C5	  *	 99.95
AVG	 5	 C6	  *	 99.99
TOT	 TOT	  *	 99.98
CLUSTAL W (1.83) multiple sequence alignment

C1              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
C2              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
C3              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
C4              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
C5              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
C6              ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
                **************************************************

C1              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
C2              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
C3              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
C4              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
C5              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
C6              CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
                **************************************************

C1              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
C2              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
C3              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
C4              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
C5              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
C6              CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
                **************************************************

C1              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
C2              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
C3              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
C4              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
C5              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
C6              AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
                **************************************************

C1              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
C2              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
C3              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
C4              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
C5              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
C6              CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
                **************************************************

C1              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
C2              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
C3              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
C4              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
C5              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
C6              ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
                **************************************************

C1              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
C2              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
C3              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
C4              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
C5              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
C6              GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
                **************************************************

C1              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
C2              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
C3              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
C4              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
C5              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
C6              CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
                **************************************************

C1              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
C2              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
C3              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
C4              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
C5              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
C6              GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
                **************************************************

C1              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
C2              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
C3              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
C4              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
C5              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
C6              CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
                **************************************************

C1              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
C2              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
C3              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
C4              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
C5              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
C6              GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
                **************************************************

C1              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
C2              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
C3              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
C4              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
C5              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
C6              ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
                **************************************************

C1              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
C2              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
C3              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
C4              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
C5              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
C6              GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
                **************************************************

C1              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
C2              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
C3              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
C4              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
C5              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
C6              GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
                **************************************************

C1              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
C2              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
C3              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
C4              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
C5              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
C6              TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
                **************************************************

C1              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
C2              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
C3              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
C4              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
C5              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
C6              CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
                **************************************************

C1              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
C2              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
C3              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
C4              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
C5              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
C6              CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
                **************************************************

C1              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
C2              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
C3              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
C4              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
C5              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
C6              GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
                **************************************************

C1              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
C2              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
C3              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
C4              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
C5              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
C6              GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
                **************************************************

C1              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
C2              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
C3              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
C4              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
C5              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
C6              CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
                **************************************************

C1              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
C2              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
C3              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
C4              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
C5              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
C6              TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
                **************************************************

C1              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
C2              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
C3              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
C4              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
C5              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
C6              TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
                **************************************************

C1              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
C2              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
C3              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
C4              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
C5              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
C6              GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
                **************************************************

C1              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
C2              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
C3              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
C4              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
C5              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
C6              ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
                **************************************************

C1              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
C2              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
C3              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
C4              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
C5              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
C6              GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
                **************************************************

C1              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
C2              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
C3              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
C4              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
C5              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
C6              GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
                **************************************************

C1              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
C2              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
C3              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
C4              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
C5              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
C6              AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
                **************************************************

C1              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
C2              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
C3              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
C4              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
C5              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
C6              TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
                **************************************************

C1              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
C2              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
C3              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
C4              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
C5              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
C6              GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
                **************************************************

C1              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
C2              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
C3              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
C4              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
C5              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
C6              CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
                **************************************************

C1              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
C2              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
C3              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
C4              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
C5              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
C6              ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
                **************************************************

C1              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
C2              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
C3              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
C4              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
C5              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
C6              GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
                **************************************************

C1              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
C2              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
C3              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
C4              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
C5              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
C6              AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
                **************************************************

C1              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
C2              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
C3              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
C4              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
C5              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
C6              CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
                **************************************************

C1              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
C2              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
C3              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
C4              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
C5              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
C6              CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
                **************************************************

C1              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
C2              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
C3              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
C4              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
C5              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
C6              AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
                **************************************************

C1              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
C2              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
C3              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
C4              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
C5              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
C6              GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
                **************************************************

C1              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
C2              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
C3              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
C4              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
C5              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
C6              GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
                **************************************************

C1              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
C2              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
C3              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
C4              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
C5              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
C6              TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
                **************************************************

C1              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
C2              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
C3              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
C4              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
C5              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
C6              TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
                **************************************************

C1              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
C2              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
C3              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
C4              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
C5              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
C6              CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
                **************************************************

C1              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
C2              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
C3              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
C4              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
C5              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
C6              TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
                **************************************************

C1              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
C2              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
C3              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
C4              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
C5              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
C6              ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
                **************************************************

C1              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
C2              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
C3              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
C4              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
C5              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
C6              CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
                **************************************************

C1              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
C2              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
C3              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
C4              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
C5              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
C6              TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
                **************************************************

C1              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
C2              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
C3              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
C4              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
C5              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
C6              CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
                **************************************************

C1              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
C2              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
C3              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
C4              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
C5              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
C6              AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
                **************************************************

C1              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
C2              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
C3              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
C4              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
C5              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
C6              CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
                **************************************************

C1              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
C2              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
C3              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
C4              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
C5              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
C6              GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
                **************************************************

C1              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
C2              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
C3              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
C4              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
C5              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
C6              TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
                **************************************************

C1              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
C2              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
C3              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
C4              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
C5              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
C6              GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
                **************************************************

C1              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
C2              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
C3              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
C4              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
C5              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
C6              TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
                **************************************************

C1              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
C2              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
C3              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
C4              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
C5              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
C6              TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
                **************************************************

C1              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
C2              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
C3              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
C4              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
C5              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
C6              ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
                **************************************************

C1              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
C2              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
C3              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
C4              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
C5              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
C6              CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
                **************************************************

C1              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
C2              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
C3              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
C4              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
C5              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
C6              GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
                **************************************************

C1              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
C2              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
C3              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
C4              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
C5              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
C6              GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
                **************************************************

C1              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
C2              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
C3              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
C4              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
C5              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
C6              GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
                **************************************************

C1              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
C2              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
C3              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
C4              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
C5              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
C6              GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
                **************************************************

C1              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
C2              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
C3              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
C4              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
C5              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
C6              AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
                **************************************************

C1              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
C2              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
C3              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
C4              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
C5              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
C6              GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
                **************************************************

C1              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
C2              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
C3              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
C4              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
C5              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
C6              CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
                **************************************************

C1              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
C2              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
C3              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
C4              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
C5              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
C6              GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
                **************************************************

C1              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
C2              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
C3              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
C4              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
C5              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
C6              CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
                **************************************************

C1              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
C2              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
C3              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
C4              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
C5              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
C6              CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
                **************************************************

C1              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
C2              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
C3              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
C4              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
C5              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
C6              AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
                **************************************************

C1              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
C2              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
C3              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
C4              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
C5              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
C6              TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
                **************************************************

C1              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
C2              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
C3              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
C4              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
C5              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
C6              TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
                **************************************************

C1              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
C2              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
C3              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
C4              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
C5              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
C6              TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
                **************************************************

C1              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
C2              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
C3              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
C4              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
C5              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGATCCT
C6              ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
                *********************************************.****

C1              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
C2              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
C3              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
C4              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
C5              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
C6              ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
                **************************************************

C1              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
C2              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
C3              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
C4              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
C5              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
C6              TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
                **************************************************

C1              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
C2              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
C3              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
C4              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
C5              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
C6              GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
                **************************************************

C1              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
C2              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
C3              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
C4              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
C5              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
C6              CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
                **************************************************

C1              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
C2              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
C3              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
C4              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
C5              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
C6              CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
                **************************************************

C1              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
C2              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
C3              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
C4              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
C5              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
C6              GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
                **************************************************

C1              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
C2              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
C3              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
C4              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
C5              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
C6              CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
                **************************************************

C1              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
C2              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
C3              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
C4              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
C5              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
C6              TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
                **************************************************

C1              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
C2              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
C3              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
C4              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
C5              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
C6              GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
                **************************************************

C1              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
C2              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
C3              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
C4              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
C5              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
C6              CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
                **************************************************

C1              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
C2              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
C3              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
C4              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
C5              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
C6              CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
                **************************************************

C1              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
C2              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
C3              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
C4              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
C5              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
C6              CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
                **************************************************

C1              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
C2              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
C3              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
C4              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
C5              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
C6              CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
                **************************************************

C1              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
C2              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
C3              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
C4              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
C5              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
C6              AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
                **************************************************

C1              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
C2              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
C3              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
C4              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
C5              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
C6              CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
                **************************************************

C1              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
C2              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
C3              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
C4              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
C5              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
C6              CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
                **************************************************

C1              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
C2              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
C3              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
C4              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
C5              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
C6              ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
                **************************************************

C1              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
C2              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
C3              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
C4              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
C5              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
C6              CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
                **************************************************

C1              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
C2              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
C3              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
C4              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
C5              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
C6              TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
                **************************************************

C1              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
C2              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
C3              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
C4              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
C5              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
C6              CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
                **************************************************

C1              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
C2              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
C3              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
C4              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
C5              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
C6              GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
                **************************************************

C1              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
C2              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
C3              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
C4              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
C5              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
C6              GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
                **************************************************

C1              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
C2              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
C3              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
C4              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
C5              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
C6              AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
                **************************************************

C1              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
C2              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
C3              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
C4              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
C5              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
C6              GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
                **************************************************

C1              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
C2              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
C3              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
C4              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
C5              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
C6              GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
                **************************************************

C1              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
C2              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
C3              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
C4              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
C5              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
C6              ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
                **************************************************

C1              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
C2              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
C3              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
C4              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
C5              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
C6              TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
                **************************************************

C1              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
C2              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
C3              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
C4              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
C5              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
C6              CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
                **************************************************

C1              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
C2              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
C3              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
C4              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
C5              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
C6              CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
                **************************************************

C1              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
C2              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
C3              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
C4              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
C5              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
C6              GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
                **************************************************

C1              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
C2              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
C3              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
C4              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
C5              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
C6              CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
                **************************************************

C1              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
C2              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
C3              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
C4              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
C5              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
C6              CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
                **************************************************

C1              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
C2              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
C3              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
C4              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
C5              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
C6              GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
                **************************************************

C1              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
C2              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
C3              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
C4              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
C5              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
C6              GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
                **************************************************

C1              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
C2              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
C3              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
C4              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
C5              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
C6              ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
                **************************************************

C1              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
C2              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
C3              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
C4              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
C5              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
C6              ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
                **************************************************

C1              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
C2              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
C3              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
C4              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
C5              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
C6              ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
                **************************************************

C1              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
C2              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
C3              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
C4              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
C5              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
C6              AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
                **************************************************

C1              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
C2              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
C3              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
C4              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
C5              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
C6              GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
                **************************************************

C1              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
C2              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
C3              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
C4              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
C5              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
C6              CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
                **************************************************

C1              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
C2              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
C3              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
C4              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
C5              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
C6              TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
                **************************************************

C1              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
C2              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
C3              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
C4              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
C5              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
C6              AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
                **************************************************

C1              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
C2              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
C3              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
C4              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
C5              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
C6              GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
                **************************************************

C1              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
C2              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
C3              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
C4              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
C5              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
C6              TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
                **************************************************

C1              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
C2              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
C3              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
C4              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
C5              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
C6              AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
                **************************************************

C1              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
C2              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
C3              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
C4              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
C5              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
C6              GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
                **************************************************

C1              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
C2              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
C3              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
C4              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
C5              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
C6              AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
                **************************************************

C1              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
C2              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
C3              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
C4              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
C5              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
C6              TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
                **************************************************

C1              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
C2              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
C3              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
C4              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
C5              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
C6              GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
                **************************************************

C1              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
C2              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
C3              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
C4              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
C5              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
C6              TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
                **************************************************

C1              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
C2              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
C3              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
C4              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
C5              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
C6              GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
                **************************************************

C1              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
C2              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
C3              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
C4              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
C5              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
C6              GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
                **************************************************

C1              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
C2              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
C3              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
C4              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
C5              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
C6              ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
                **************************************************

C1              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
C2              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
C3              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
C4              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
C5              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
C6              TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
                **************************************************

C1              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
C2              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
C3              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
C4              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
C5              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
C6              CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
                **************************************************

C1              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
C2              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
C3              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
C4              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
C5              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
C6              CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
                **************************************************

C1              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
C2              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
C3              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
C4              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
C5              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
C6              TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
                **************************************************

C1              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
C2              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
C3              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
C4              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
C5              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
C6              TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
                **************************************************

C1              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
C2              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
C3              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
C4              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
C5              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
C6              TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
                **************************************************

C1              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
C2              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
C3              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
C4              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
C5              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
C6              GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
                **************************************************

C1              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
C2              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
C3              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
C4              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
C5              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
C6              GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
                **************************************************

C1              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
C2              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
C3              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
C4              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
C5              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
C6              TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
                **************************************************

C1              TCA
C2              TCA
C3              TCA
C4              TCA
C5              TCA
C6              TCA
                ***



>C1
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C2
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C3
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C4
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C5
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGATCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C6
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>C1
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C2
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C3
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C4
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C5
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>C6
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S


                            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 "/data/8res/ML2355/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 6 taxa and 6603 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
      Successfully read matrix
      Setting default partition (does not divide up characters)
      Setting model defaults
      Seed (for generating default start values) = 1579858043
      Setting output file names to "/data/8res/ML2355/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) = 1495673138
      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 500000
      Running Markov chain
      MCMC stamp = 5568063033
      Seed = 2082283501
      Swapseed = 1579858043
      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 5 unique site patterns
      Division 2 has 4 unique site patterns
      Division 3 has 4 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 -- -14781.232547 -- -24.965149
         Chain 2 -- -14781.232546 -- -24.965149
         Chain 3 -- -14781.231850 -- -24.965149
         Chain 4 -- -14781.231083 -- -24.965149

      Initial log likelihoods and log prior probs for run 2:
         Chain 1 -- -14781.232547 -- -24.965149
         Chain 2 -- -14781.232547 -- -24.965149
         Chain 3 -- -14781.233399 -- -24.965149
         Chain 4 -- -14781.231850 -- -24.965149


      Using a relative burnin of 25.0 % for diagnostics

      Chain results (500000 generations requested):

          0 -- [-14781.233] (-14781.233) (-14781.232) (-14781.231) * [-14781.233] (-14781.233) (-14781.233) (-14781.232) 
        500 -- (-9020.997) [-9007.627] (-9079.538) (-9099.424) * (-9086.416) (-9014.906) [-9028.318] (-9130.441) -- 0:00:00
       1000 -- [-9004.119] (-9010.747) (-9028.811) (-9008.550) * (-9013.760) (-9012.684) [-9006.899] (-9051.577) -- 0:00:00
       1500 -- (-9014.970) (-9006.709) (-9017.569) [-9007.507] * [-9006.518] (-9011.746) (-9014.765) (-9039.530) -- 0:00:00
       2000 -- (-9012.050) [-9007.878] (-9018.977) (-9007.342) * (-9013.560) (-9009.796) (-9007.418) [-9022.454] -- 0:00:00
       2500 -- (-9012.142) (-9005.606) (-9017.887) [-9007.559] * (-9008.097) (-9009.987) [-9008.365] (-9004.287) -- 0:00:00
       3000 -- (-9005.459) (-9011.699) (-9010.168) [-9003.257] * [-9007.985] (-9009.901) (-9011.165) (-9006.959) -- 0:00:00
       3500 -- (-9005.410) (-9018.788) (-9016.568) [-9009.345] * (-9012.415) (-9013.915) [-9006.602] (-9005.474) -- 0:00:00
       4000 -- (-9011.959) (-9004.327) [-9012.806] (-9011.474) * [-9012.005] (-9005.185) (-9006.952) (-9009.477) -- 0:00:00
       4500 -- (-9003.903) (-9003.898) (-9011.996) [-9008.172] * (-9007.767) (-9012.671) [-9006.592] (-9005.104) -- 0:00:00
       5000 -- (-9014.455) (-9004.422) (-9009.004) [-9006.682] * (-9007.143) (-9016.162) (-9009.538) [-9007.904] -- 0:00:00

      Average standard deviation of split frequencies: 0.072020

       5500 -- (-9005.265) [-9006.219] (-9003.643) (-9012.146) * (-9009.378) (-9010.019) (-9004.703) [-9008.129] -- 0:00:00
       6000 -- [-9003.563] (-9003.323) (-9012.050) (-9009.281) * (-9008.457) (-9001.774) [-9009.397] (-9006.527) -- 0:00:00
       6500 -- (-9006.575) [-9006.864] (-9010.872) (-9010.584) * [-9005.955] (-9009.149) (-9005.009) (-9008.395) -- 0:00:00
       7000 -- (-9006.961) (-9011.527) (-9009.760) [-9007.388] * (-9009.467) (-9012.310) [-9011.456] (-9011.351) -- 0:01:10
       7500 -- (-9009.264) [-9009.946] (-9005.762) (-9013.642) * [-9005.982] (-9018.720) (-9021.366) (-9005.649) -- 0:01:05
       8000 -- (-9012.589) [-9012.994] (-9016.736) (-9010.182) * (-9007.536) (-9013.062) (-9008.110) [-9009.529] -- 0:01:01
       8500 -- (-9009.854) (-9013.792) (-9002.353) [-9009.527] * (-9006.075) (-9007.224) (-9004.733) [-9005.587] -- 0:00:57
       9000 -- [-9004.051] (-9006.994) (-9006.463) (-9007.021) * (-9014.092) (-9011.571) (-9009.750) [-9006.180] -- 0:00:54
       9500 -- (-9009.141) (-9003.942) (-9007.075) [-9003.953] * [-9006.801] (-9015.712) (-9012.883) (-9004.711) -- 0:00:51
      10000 -- (-9004.414) (-9014.662) (-9010.326) [-9004.211] * (-9004.340) (-9007.312) (-9020.890) [-9012.376] -- 0:00:49

      Average standard deviation of split frequencies: 0.054717

      10500 -- [-9004.738] (-9013.965) (-9005.976) (-9007.942) * (-9008.247) (-9012.919) (-9011.156) [-9002.761] -- 0:00:46
      11000 -- (-9005.159) (-9016.852) [-9003.214] (-9008.461) * (-9025.042) [-9008.723] (-9016.196) (-9006.900) -- 0:00:44
      11500 -- (-9008.383) [-9005.746] (-9004.717) (-9015.020) * [-9004.608] (-9003.969) (-9017.968) (-9004.623) -- 0:00:42
      12000 -- (-9006.603) (-9006.292) (-9004.949) [-9005.079] * (-9004.727) [-9008.471] (-9016.224) (-9010.174) -- 0:00:40
      12500 -- (-9020.570) [-9009.367] (-9008.733) (-9005.886) * (-9013.454) (-9009.525) (-9013.362) [-9006.103] -- 0:00:39
      13000 -- (-9008.568) (-9005.132) (-9009.904) [-9013.156] * (-9011.221) (-9007.184) (-9009.150) [-9009.490] -- 0:00:37
      13500 -- (-9017.539) (-9006.953) [-9006.695] (-9015.704) * (-9010.408) [-9008.371] (-9007.541) (-9004.137) -- 0:00:36
      14000 -- (-9003.961) [-9012.704] (-9005.366) (-9013.956) * (-9011.241) (-9003.804) (-9006.146) [-9006.882] -- 0:00:34
      14500 -- (-9010.526) [-9006.380] (-9004.521) (-9004.898) * (-9008.261) (-9008.148) (-9004.918) [-9009.206] -- 0:00:33
      15000 -- (-9014.582) (-9013.017) [-9009.514] (-9012.963) * (-9006.530) (-9007.389) (-9006.376) [-9017.280] -- 0:00:32

      Average standard deviation of split frequencies: 0.061732

      15500 -- (-9005.964) [-9019.779] (-9009.846) (-9005.736) * [-9004.480] (-9011.042) (-9004.425) (-9017.575) -- 0:01:02
      16000 -- (-9009.643) (-9014.721) [-9008.279] (-9011.039) * (-9003.672) [-9007.215] (-9007.191) (-9005.220) -- 0:01:00
      16500 -- (-9012.586) (-9012.561) [-9002.362] (-9018.901) * [-9005.313] (-9008.926) (-9005.163) (-9004.520) -- 0:00:58
      17000 -- (-9009.831) (-9005.023) [-9009.368] (-9007.572) * (-9006.255) (-9018.106) [-9005.188] (-9004.187) -- 0:00:56
      17500 -- [-9004.682] (-9001.614) (-9013.592) (-9011.259) * [-9004.279] (-9003.975) (-9004.266) (-9007.645) -- 0:00:55
      18000 -- (-9005.092) (-9011.839) [-9007.487] (-9010.163) * (-9005.169) (-9007.451) (-9004.266) [-9005.466] -- 0:00:53
      18500 -- [-9007.410] (-9008.186) (-9014.342) (-9006.239) * (-9005.541) (-9003.398) (-9004.266) [-9007.675] -- 0:00:52
      19000 -- (-9008.702) (-9003.913) [-9012.884] (-9016.850) * [-9004.253] (-9009.643) (-9002.716) (-9005.849) -- 0:00:50
      19500 -- [-9001.455] (-9009.780) (-9009.093) (-9008.005) * (-9011.277) [-9006.173] (-9002.618) (-9011.188) -- 0:00:49
      20000 -- (-9006.005) [-9003.341] (-9018.148) (-9006.098) * (-9003.188) (-9012.051) (-9002.406) [-9008.496] -- 0:00:48

      Average standard deviation of split frequencies: 0.057025

      20500 -- [-9006.259] (-9007.255) (-9004.080) (-9018.910) * [-9008.561] (-9011.498) (-9003.484) (-9006.364) -- 0:00:46
      21000 -- [-9003.126] (-9004.914) (-9007.514) (-9016.480) * (-9014.219) (-9007.497) (-9000.505) [-9006.491] -- 0:00:45
      21500 -- (-9018.764) (-9008.426) [-9005.508] (-9015.450) * (-9005.796) [-9010.546] (-9002.639) (-9016.053) -- 0:00:44
      22000 -- [-9007.496] (-9005.297) (-9011.844) (-9014.454) * (-9004.653) [-9004.751] (-9001.508) (-9009.716) -- 0:00:43
      22500 -- [-9006.389] (-9006.495) (-9006.415) (-9009.642) * (-9003.166) [-9007.174] (-9002.671) (-9016.204) -- 0:00:42
      23000 -- (-9009.147) [-9010.134] (-9008.119) (-9012.201) * (-9005.019) (-9004.983) (-9002.762) [-9009.369] -- 0:00:41
      23500 -- (-9008.027) (-9006.618) [-9008.269] (-9018.438) * [-9007.207] (-9013.065) (-9002.904) (-9009.204) -- 0:00:40
      24000 -- (-9013.289) (-9006.686) [-9004.550] (-9005.766) * [-9003.130] (-9009.853) (-9002.758) (-9004.250) -- 0:00:39
      24500 -- (-9006.869) (-9010.232) [-9004.355] (-9011.644) * (-9003.609) (-9009.992) [-9002.516] (-9002.620) -- 0:00:58
      25000 -- (-9003.133) (-9005.086) (-9002.600) [-9008.254] * (-9007.728) (-9005.952) [-9000.940] (-9005.372) -- 0:00:57

      Average standard deviation of split frequencies: 0.045327

      25500 -- (-9002.756) [-9005.004] (-9010.876) (-9011.268) * (-9003.047) (-9011.085) (-9000.670) [-9007.928] -- 0:00:55
      26000 -- (-9011.200) [-9005.910] (-9003.672) (-9009.815) * [-9007.345] (-9009.231) (-9004.009) (-9006.606) -- 0:00:54
      26500 -- (-9004.435) (-9005.542) [-9006.654] (-9008.166) * [-9006.105] (-9008.426) (-9002.556) (-9004.304) -- 0:00:53
      27000 -- [-9006.753] (-9005.003) (-9006.332) (-9013.383) * [-9006.131] (-9016.518) (-9003.173) (-9005.814) -- 0:00:52
      27500 -- (-9005.819) [-9002.336] (-9012.315) (-9011.652) * [-9012.603] (-9012.295) (-9004.857) (-9011.968) -- 0:00:51
      28000 -- [-9011.707] (-9009.120) (-9007.168) (-9016.312) * (-9009.361) [-9012.346] (-9007.737) (-9006.732) -- 0:00:50
      28500 -- (-9018.475) (-9003.089) [-9005.993] (-9016.695) * (-9009.448) (-9012.617) [-9002.523] (-9009.550) -- 0:00:49
      29000 -- (-9003.431) (-9012.520) (-9007.693) [-9013.839] * (-9010.834) (-9006.850) (-9001.724) [-9008.108] -- 0:00:48
      29500 -- (-9008.955) (-9010.626) (-9006.655) [-9006.600] * (-9012.365) [-9004.330] (-9004.940) (-9009.839) -- 0:00:47
      30000 -- [-9005.872] (-9012.580) (-9010.177) (-9007.782) * (-9002.577) [-9006.769] (-9001.788) (-9004.456) -- 0:00:47

      Average standard deviation of split frequencies: 0.042622

      30500 -- (-9005.556) [-9012.631] (-9007.974) (-9004.633) * (-9016.526) (-9004.553) (-9004.625) [-9010.347] -- 0:00:46
      31000 -- (-9012.366) [-9009.890] (-9010.159) (-9017.148) * (-9013.644) (-9009.060) (-9005.615) [-9000.776] -- 0:00:45
      31500 -- [-9011.062] (-9014.877) (-9007.107) (-9013.287) * (-9010.444) (-9013.322) (-9005.749) [-9001.299] -- 0:00:44
      32000 -- [-9008.598] (-9004.281) (-9004.570) (-9010.975) * (-9003.758) [-9003.960] (-9007.778) (-9012.462) -- 0:00:43
      32500 -- (-9011.151) [-9005.838] (-9016.057) (-9006.474) * [-9008.261] (-9004.229) (-9005.128) (-9005.031) -- 0:00:43
      33000 -- (-9015.192) (-9007.998) (-9008.491) [-9010.273] * [-9007.403] (-9008.406) (-9007.572) (-9009.395) -- 0:00:42
      33500 -- (-9007.380) (-9008.796) [-9015.775] (-9009.437) * [-9009.669] (-9011.158) (-9007.174) (-9011.349) -- 0:00:55
      34000 -- (-9008.449) [-9007.921] (-9025.760) (-9005.237) * [-9010.057] (-9010.899) (-9009.145) (-9006.424) -- 0:00:54
      34500 -- [-9002.676] (-9008.945) (-9007.155) (-9010.417) * (-9008.970) (-9006.871) (-9009.222) [-9000.333] -- 0:00:53
      35000 -- [-9004.721] (-9018.120) (-9007.112) (-9004.719) * (-9009.340) (-9004.114) (-9009.364) [-9004.217] -- 0:00:53

      Average standard deviation of split frequencies: 0.039879

      35500 -- [-9003.841] (-9008.486) (-9005.930) (-9008.845) * [-9008.184] (-9009.612) (-9007.403) (-9003.068) -- 0:00:52
      36000 -- (-9002.491) [-9009.349] (-9005.875) (-9006.682) * (-9008.110) [-9003.879] (-9007.334) (-9007.645) -- 0:00:51
      36500 -- (-9007.492) (-9010.063) (-9005.884) [-9005.792] * [-9004.532] (-9007.403) (-9006.947) (-9004.531) -- 0:00:50
      37000 -- (-9005.938) (-9010.150) (-9004.816) [-9010.140] * [-9007.987] (-9008.153) (-9006.692) (-9005.352) -- 0:00:50
      37500 -- (-9005.691) (-9008.093) [-9004.127] (-9008.903) * [-9005.243] (-9003.526) (-9004.985) (-9005.627) -- 0:00:49
      38000 -- (-9007.639) (-9012.628) (-9008.133) [-9007.953] * (-9003.518) (-9008.461) [-9004.809] (-9004.967) -- 0:00:48
      38500 -- [-9002.311] (-9014.575) (-9008.257) (-9014.506) * (-9005.344) [-9003.619] (-9005.086) (-9004.575) -- 0:00:47
      39000 -- [-9006.830] (-9009.124) (-9007.745) (-9013.912) * (-9003.614) (-9010.034) [-9004.140] (-9016.105) -- 0:00:47
      39500 -- [-9008.386] (-9009.764) (-9006.072) (-9013.120) * (-9007.085) (-9007.259) (-9004.647) [-9007.837] -- 0:00:46
      40000 -- [-9003.467] (-9010.611) (-9006.685) (-9006.774) * (-9005.519) [-9009.891] (-9003.640) (-9013.653) -- 0:00:46

      Average standard deviation of split frequencies: 0.044160

      40500 -- [-9004.189] (-9010.611) (-9006.687) (-9006.707) * (-9013.356) [-9006.036] (-9003.563) (-9012.383) -- 0:00:45
      41000 -- (-9006.224) (-9009.746) (-9006.385) [-9010.426] * (-9015.386) [-9005.340] (-9001.493) (-9012.711) -- 0:00:44
      41500 -- (-9006.864) (-9008.850) (-9008.460) [-9004.682] * (-9003.117) [-9007.960] (-9003.836) (-9013.435) -- 0:00:44
      42000 -- (-9003.268) [-9008.113] (-9010.297) (-9006.804) * (-9004.195) [-9003.349] (-9003.764) (-9016.488) -- 0:00:43
      42500 -- (-9006.369) (-9007.000) (-9008.985) [-9010.587] * (-9005.124) [-9007.448] (-9003.605) (-9018.142) -- 0:00:53
      43000 -- (-9013.545) (-9004.928) (-9008.750) [-9004.443] * (-9009.454) (-9004.670) [-9003.605] (-9009.420) -- 0:00:53
      43500 -- (-9004.507) (-9006.991) (-9006.707) [-9007.211] * (-9014.217) [-9005.660] (-9003.605) (-9006.234) -- 0:00:52
      44000 -- (-9012.217) [-9004.842] (-9004.836) (-9006.147) * (-9004.236) [-9008.433] (-9003.605) (-9004.019) -- 0:00:51
      44500 -- [-9001.147] (-9004.588) (-9006.377) (-9023.914) * (-9010.717) [-9006.964] (-9003.605) (-9004.413) -- 0:00:51
      45000 -- (-9017.303) (-9006.839) (-9005.174) [-9008.497] * (-9015.363) (-9007.933) [-9003.777] (-9004.590) -- 0:00:50

      Average standard deviation of split frequencies: 0.039040

      45500 -- (-9019.237) [-9002.521] (-9004.213) (-9007.965) * (-9004.449) (-9005.811) (-9003.656) [-9004.968] -- 0:00:49
      46000 -- (-9008.212) [-9003.055] (-9003.799) (-9008.089) * (-9009.165) [-9011.535] (-9003.412) (-9005.016) -- 0:00:49
      46500 -- (-9008.899) (-9003.018) [-9002.964] (-9006.883) * (-9006.447) (-9008.343) (-9003.794) [-9002.456] -- 0:00:48
      47000 -- (-9006.328) (-9001.970) (-9004.182) [-9007.430] * (-9006.419) (-9008.464) [-9003.927] (-9003.197) -- 0:00:48
      47500 -- (-9010.700) (-9003.182) (-9004.869) [-9002.311] * (-9005.575) (-9008.623) (-9003.904) [-9002.464] -- 0:00:47
      48000 -- (-9010.460) (-9003.353) (-9004.878) [-9007.192] * (-9005.593) [-9006.854] (-9003.928) (-9004.621) -- 0:00:47
      48500 -- (-9008.530) [-9003.353] (-9003.126) (-9008.744) * (-9005.719) (-9008.563) (-9004.918) [-9003.675] -- 0:00:46
      49000 -- [-9013.877] (-9004.944) (-9004.240) (-9007.341) * [-9002.809] (-9008.081) (-9004.916) (-9003.835) -- 0:00:46
      49500 -- (-9001.848) (-9004.943) (-9003.491) [-9003.306] * (-9002.837) [-9009.524] (-9005.481) (-9003.627) -- 0:00:45
      50000 -- [-9001.209] (-9003.080) (-9004.008) (-9006.159) * (-9006.192) [-9004.162] (-9005.038) (-9002.935) -- 0:00:45

      Average standard deviation of split frequencies: 0.039077

      50500 -- (-9009.194) (-9001.927) [-9003.990] (-9008.835) * (-9004.507) [-9005.350] (-9004.893) (-9005.129) -- 0:00:44
      51000 -- (-9008.492) [-9002.085] (-9004.313) (-9009.113) * (-9004.315) [-9000.921] (-9005.826) (-9004.083) -- 0:00:44
      51500 -- (-9009.498) [-9001.861] (-9004.413) (-9014.602) * (-9004.368) [-9006.256] (-9005.826) (-9003.832) -- 0:00:52
      52000 -- (-9006.502) [-9005.922] (-9005.658) (-9009.318) * (-9005.373) (-9013.428) (-9006.355) [-9005.213] -- 0:00:51
      52500 -- (-9018.247) (-9004.754) (-9008.002) [-9006.407] * [-9004.717] (-9013.872) (-9006.355) (-9005.403) -- 0:00:51
      53000 -- (-9012.612) (-9006.532) [-9007.738] (-9004.100) * [-9001.687] (-9012.413) (-9005.605) (-9004.598) -- 0:00:50
      53500 -- (-9006.388) (-9004.356) [-9008.803] (-9008.206) * [-9002.594] (-9006.067) (-9004.120) (-9003.657) -- 0:00:50
      54000 -- (-9008.119) (-9003.289) [-9005.164] (-9004.618) * (-9004.894) [-9006.271] (-9003.383) (-9003.838) -- 0:00:49
      54500 -- [-9009.171] (-9003.609) (-9005.429) (-9016.181) * (-9005.310) [-9005.369] (-9004.127) (-9002.036) -- 0:00:49
      55000 -- [-9008.250] (-9004.363) (-9004.280) (-9006.571) * (-9003.664) (-9012.292) [-9004.127] (-9004.158) -- 0:00:48

      Average standard deviation of split frequencies: 0.030305

      55500 -- [-9005.805] (-9006.064) (-9005.114) (-9004.306) * [-9004.624] (-9008.852) (-9003.527) (-9004.144) -- 0:00:48
      56000 -- [-9008.095] (-9006.178) (-9004.173) (-9015.590) * (-9003.996) [-9005.568] (-9003.508) (-9006.709) -- 0:00:47
      56500 -- (-9004.242) (-9006.600) (-9003.357) [-9007.114] * (-9005.977) [-9004.052] (-9003.902) (-9005.527) -- 0:00:47
      57000 -- (-9005.388) (-9005.937) (-9005.240) [-9006.016] * (-9007.244) [-9013.169] (-9003.915) (-9004.182) -- 0:00:46
      57500 -- (-9004.836) (-9005.469) (-9004.481) [-9007.661] * (-9007.766) (-9008.425) (-9003.645) [-9004.721] -- 0:00:46
      58000 -- [-9004.883] (-9005.821) (-9003.989) (-9007.523) * (-9003.397) [-9009.575] (-9003.623) (-9004.750) -- 0:00:45
      58500 -- (-9004.877) [-9005.607] (-9003.472) (-9002.737) * (-9001.381) (-9002.082) (-9003.645) [-9002.775] -- 0:00:45
      59000 -- (-9007.687) [-9005.265] (-9004.184) (-9010.902) * (-9002.817) [-9003.938] (-9003.755) (-9005.443) -- 0:00:44
      59500 -- [-9007.367] (-9004.665) (-9003.930) (-9008.143) * (-9002.819) (-9011.849) (-9003.711) [-9005.039] -- 0:00:44
      60000 -- (-9010.520) [-9006.364] (-9003.562) (-9002.720) * (-9002.174) (-9009.161) [-9003.756] (-9004.116) -- 0:00:44

      Average standard deviation of split frequencies: 0.031452

      60500 -- (-9011.982) (-9003.511) [-9003.933] (-9012.076) * (-9004.035) [-9004.851] (-9003.932) (-9003.943) -- 0:00:50
      61000 -- (-9013.904) (-9003.667) [-9003.887] (-9006.842) * (-9003.551) (-9007.738) [-9003.951] (-9004.731) -- 0:00:50
      61500 -- [-9009.783] (-9003.784) (-9006.725) (-9010.338) * [-9002.910] (-9007.709) (-9003.935) (-9004.700) -- 0:00:49
      62000 -- (-9008.627) (-9003.188) (-9006.966) [-9006.713] * (-9003.556) (-9007.151) [-9003.926] (-9004.907) -- 0:00:49
      62500 -- (-9013.190) (-9003.380) [-9002.560] (-9003.263) * (-9002.324) [-9009.392] (-9004.303) (-9005.120) -- 0:00:49
      63000 -- (-9009.094) (-9003.971) (-9003.778) [-9006.727] * (-9000.428) [-9009.245] (-9006.519) (-9006.027) -- 0:00:48
      63500 -- [-9003.942] (-9004.093) (-9003.755) (-9013.315) * (-9001.373) (-9014.000) (-9004.895) [-9006.509] -- 0:00:48
      64000 -- (-9011.927) (-9004.650) (-9004.351) [-9003.471] * (-9002.396) [-9006.094] (-9005.000) (-9005.166) -- 0:00:47
      64500 -- [-9003.879] (-9005.072) (-9007.362) (-9006.559) * (-9005.977) [-9009.333] (-9007.589) (-9007.816) -- 0:00:47
      65000 -- (-9008.497) [-9005.390] (-9007.008) (-9011.464) * (-9004.113) (-9012.978) (-9011.990) [-9005.372] -- 0:00:46

      Average standard deviation of split frequencies: 0.030843

      65500 -- [-9005.903] (-9003.203) (-9004.394) (-9005.412) * (-9005.524) [-9008.118] (-9003.844) (-9005.748) -- 0:00:46
      66000 -- [-9008.660] (-9005.230) (-9005.156) (-9007.990) * (-9003.567) (-9008.035) (-9003.681) [-9005.860] -- 0:00:46
      66500 -- (-9007.745) (-9003.278) (-9003.226) [-9005.534] * [-9003.329] (-9004.738) (-9005.202) (-9006.498) -- 0:00:45
      67000 -- (-9007.891) [-9003.611] (-9001.834) (-9005.497) * (-9003.473) [-9003.075] (-9003.255) (-9008.022) -- 0:00:45
      67500 -- [-9005.290] (-9003.358) (-9004.651) (-9000.839) * (-9004.757) [-9002.171] (-9002.868) (-9006.515) -- 0:00:44
      68000 -- (-9013.490) (-9003.040) (-9005.230) [-9007.898] * (-9004.376) [-9008.515] (-9002.869) (-9007.081) -- 0:00:44
      68500 -- (-9004.811) (-9002.530) (-9004.906) [-9010.029] * [-9004.539] (-9014.501) (-9005.394) (-9004.889) -- 0:00:44
      69000 -- [-9005.260] (-9002.304) (-9004.906) (-9001.962) * (-9003.234) (-9013.081) (-9006.289) [-9004.637] -- 0:00:43
      69500 -- (-9014.415) [-9004.120] (-9004.954) (-9006.261) * (-9004.634) (-9011.374) [-9004.721] (-9003.798) -- 0:00:49
      70000 -- (-9011.144) (-9003.453) [-9003.065] (-9013.609) * (-9004.619) (-9013.771) (-9007.315) [-9004.333] -- 0:00:49

      Average standard deviation of split frequencies: 0.028272

      70500 -- (-9010.704) [-9005.210] (-9004.428) (-9007.276) * (-9001.158) (-9011.259) (-9005.273) [-9004.310] -- 0:00:48
      71000 -- (-9011.648) (-9003.848) [-9004.528] (-9010.350) * (-9001.404) [-9010.437] (-9004.683) (-9003.840) -- 0:00:48
      71500 -- (-9010.282) [-9003.927] (-9008.233) (-9005.830) * (-9001.723) [-9012.718] (-9006.244) (-9003.841) -- 0:00:47
      72000 -- (-9013.314) (-9004.076) (-9007.950) [-9005.324] * (-9003.391) [-9013.298] (-9005.221) (-9005.555) -- 0:00:47
      72500 -- (-9006.377) (-9005.641) (-9008.060) [-9007.103] * (-9002.986) [-9004.918] (-9005.467) (-9005.366) -- 0:00:47
      73000 -- (-9006.784) [-9005.586] (-9006.273) (-9014.022) * (-9002.993) [-9008.633] (-9005.939) (-9006.936) -- 0:00:46
      73500 -- (-9008.928) [-9006.526] (-9006.513) (-9008.001) * (-9003.475) (-9015.087) (-9004.736) [-9005.897] -- 0:00:46
      74000 -- (-9009.619) [-9006.123] (-9005.183) (-9012.858) * [-9003.475] (-9014.302) (-9002.482) (-9006.276) -- 0:00:46
      74500 -- (-9005.956) (-9005.829) (-9003.357) [-9005.827] * (-9003.475) [-9010.741] (-9004.106) (-9007.188) -- 0:00:45
      75000 -- [-9011.930] (-9006.117) (-9008.245) (-9009.335) * (-9010.977) [-9007.607] (-9004.230) (-9008.484) -- 0:00:45

      Average standard deviation of split frequencies: 0.030034

      75500 -- (-9009.330) [-9005.947] (-9012.536) (-9004.920) * (-9010.204) [-9003.868] (-9004.007) (-9008.530) -- 0:00:44
      76000 -- [-9003.448] (-9003.473) (-9012.345) (-9022.339) * (-9005.616) (-9003.800) (-9003.014) [-9008.437] -- 0:00:44
      76500 -- [-9003.519] (-9003.854) (-9012.418) (-9007.655) * (-9005.798) (-9004.673) (-9004.352) [-9009.019] -- 0:00:44
      77000 -- [-9003.172] (-9003.682) (-9011.596) (-9004.950) * (-9004.133) (-9004.313) [-9003.321] (-9010.163) -- 0:00:43
      77500 -- [-9013.528] (-9003.262) (-9011.592) (-9009.924) * [-9004.118] (-9006.372) (-9003.171) (-9011.079) -- 0:00:49
      78000 -- [-9004.810] (-9002.926) (-9011.762) (-9010.967) * (-9003.112) (-9011.246) (-9004.805) [-9004.413] -- 0:00:48
      78500 -- (-9008.041) (-9004.349) (-9011.673) [-9013.396] * (-9003.028) (-9008.286) (-9004.957) [-9005.156] -- 0:00:48
      79000 -- (-9009.947) [-9002.986] (-9013.310) (-9014.343) * (-9003.050) [-9008.601] (-9007.212) (-9006.357) -- 0:00:47
      79500 -- (-9019.246) (-9004.510) (-9006.955) [-9009.134] * (-9003.154) [-9022.373] (-9007.193) (-9004.477) -- 0:00:47
      80000 -- (-9005.344) [-9004.576] (-9006.943) (-9006.549) * [-9003.155] (-9010.121) (-9006.454) (-9004.391) -- 0:00:47

      Average standard deviation of split frequencies: 0.032910

      80500 -- [-9005.547] (-9002.714) (-9006.942) (-9008.744) * (-9004.608) [-9005.505] (-9007.101) (-9009.018) -- 0:00:46
      81000 -- [-9008.589] (-9006.332) (-9003.449) (-9024.910) * (-9004.352) [-9008.425] (-9007.737) (-9006.919) -- 0:00:46
      81500 -- (-9005.967) (-9008.244) [-9003.328] (-9017.018) * (-9003.810) [-9003.457] (-9008.137) (-9006.325) -- 0:00:46
      82000 -- (-9009.061) (-9008.538) (-9004.634) [-9012.068] * (-9003.800) [-9008.310] (-9001.977) (-9006.306) -- 0:00:45
      82500 -- (-9008.518) (-9008.488) (-9004.638) [-9006.248] * (-9003.790) (-9005.466) [-9004.057] (-9003.917) -- 0:00:45
      83000 -- (-9008.837) (-9008.389) [-9004.510] (-9007.294) * (-9003.757) (-9014.146) [-9004.601] (-9003.827) -- 0:00:45
      83500 -- (-9010.078) (-9007.254) (-9002.594) [-9014.150] * (-9003.614) (-9017.538) (-9002.806) [-9003.826] -- 0:00:44
      84000 -- [-9007.223] (-9006.900) (-9003.061) (-9006.654) * (-9004.472) [-9008.425] (-9002.648) (-9003.779) -- 0:00:44
      84500 -- (-9006.447) (-9003.551) (-9001.747) [-9004.667] * (-9006.712) [-9006.593] (-9004.308) (-9003.832) -- 0:00:44
      85000 -- (-9009.315) (-9002.578) (-9004.125) [-9008.915] * (-9003.157) (-9011.879) [-9004.018] (-9003.871) -- 0:00:43

      Average standard deviation of split frequencies: 0.028973

      85500 -- [-9004.917] (-9004.818) (-9003.097) (-9014.359) * [-9005.051] (-9004.017) (-9006.924) (-9003.777) -- 0:00:43
      86000 -- (-8999.180) (-9007.233) [-9003.097] (-9005.999) * (-9005.883) [-9013.901] (-9005.874) (-9003.941) -- 0:00:48
      86500 -- (-9004.088) (-9005.684) (-9003.097) [-9006.618] * [-9003.472] (-9012.754) (-9005.904) (-9004.240) -- 0:00:47
      87000 -- [-9001.026] (-9006.696) (-9003.027) (-9007.359) * [-9003.508] (-9012.362) (-9005.321) (-9007.506) -- 0:00:47
      87500 -- [-9003.418] (-9005.660) (-9004.322) (-9009.226) * (-9004.580) [-9009.567] (-9000.572) (-9007.195) -- 0:00:47
      88000 -- [-9003.748] (-9005.920) (-9004.322) (-9010.158) * (-9004.068) [-9011.678] (-9004.142) (-9007.257) -- 0:00:46
      88500 -- (-9002.725) (-9014.911) (-9007.276) [-9010.813] * (-9004.127) [-9001.987] (-9006.825) (-9005.661) -- 0:00:46
      89000 -- (-9005.316) (-9014.527) [-9005.658] (-9015.278) * (-9004.507) [-9010.773] (-9005.161) (-9007.648) -- 0:00:46
      89500 -- [-9003.590] (-9008.275) (-9006.134) (-9017.752) * (-9003.904) (-9008.098) [-9007.026] (-9005.626) -- 0:00:45
      90000 -- [-9011.435] (-9005.991) (-9005.766) (-9013.500) * (-9003.432) (-9009.299) (-9005.941) [-9005.289] -- 0:00:45

      Average standard deviation of split frequencies: 0.030922

      90500 -- (-9012.933) (-9001.722) (-9006.203) [-9010.875] * (-9003.050) (-9005.771) (-9008.723) [-9004.269] -- 0:00:45
      91000 -- [-9003.199] (-9004.568) (-9006.983) (-9018.161) * (-9002.344) [-9007.993] (-9009.088) (-9004.313) -- 0:00:44
      91500 -- [-9006.299] (-9003.989) (-9005.450) (-9011.134) * (-9003.930) [-9011.039] (-9008.829) (-9004.503) -- 0:00:44
      92000 -- (-9002.574) (-9007.476) [-9007.591] (-9015.027) * (-9002.870) (-9011.622) [-9005.197] (-9004.503) -- 0:00:44
      92500 -- [-9010.115] (-9007.549) (-9008.263) (-9007.840) * (-9004.187) (-9001.197) [-9003.814] (-9004.629) -- 0:00:44
      93000 -- (-9007.427) (-9005.244) (-9007.745) [-9008.546] * (-9002.715) (-9009.625) (-9012.099) [-9008.081] -- 0:00:43
      93500 -- (-9009.424) [-9006.324] (-9007.983) (-9012.940) * (-9003.669) (-9004.947) [-9005.585] (-9004.804) -- 0:00:43
      94000 -- (-9006.102) [-9002.937] (-9008.378) (-9004.389) * (-9003.053) (-9008.730) (-9003.638) [-9005.568] -- 0:00:43
      94500 -- [-9004.816] (-9003.580) (-9006.705) (-9005.550) * [-9002.959] (-9005.121) (-9003.971) (-9005.310) -- 0:00:47
      95000 -- (-9006.312) (-9004.550) (-9006.747) [-9017.911] * (-9005.221) (-9000.706) (-9004.133) [-9004.294] -- 0:00:46

      Average standard deviation of split frequencies: 0.029217

      95500 -- (-9004.597) (-9003.191) (-9005.133) [-9010.262] * [-9008.710] (-9006.324) (-9003.258) (-9006.141) -- 0:00:46
      96000 -- [-9003.913] (-9004.639) (-9003.161) (-9007.319) * (-9008.664) [-9003.072] (-9003.651) (-9005.573) -- 0:00:46
      96500 -- (-9006.335) [-9005.373] (-9003.389) (-9006.182) * (-9009.338) [-9008.364] (-9003.264) (-9005.473) -- 0:00:45
      97000 -- (-9009.258) (-9006.265) [-9002.141] (-9004.430) * (-9010.986) (-9003.835) [-9003.316] (-9005.436) -- 0:00:45
      97500 -- (-9006.503) [-9006.263] (-9002.403) (-9005.917) * (-9009.256) (-9020.735) (-9002.373) [-9005.519] -- 0:00:45
      98000 -- (-9004.737) [-9006.150] (-9002.941) (-9005.013) * (-9007.255) [-9003.644] (-9002.583) (-9005.076) -- 0:00:45
      98500 -- (-9009.350) (-9005.800) [-9002.013] (-9004.601) * (-9007.000) [-9009.039] (-9003.667) (-9004.486) -- 0:00:44
      99000 -- (-9013.299) (-9005.648) [-9002.400] (-9005.398) * (-9003.389) [-9011.338] (-9004.431) (-9004.421) -- 0:00:44
      99500 -- (-9009.876) (-9005.818) [-9004.291] (-9007.212) * (-9003.381) [-9007.793] (-9004.431) (-9003.345) -- 0:00:44
      100000 -- (-9019.163) (-9006.166) [-9003.207] (-9007.898) * (-9003.451) [-9007.139] (-9004.750) (-9003.659) -- 0:00:44

      Average standard deviation of split frequencies: 0.030069

      100500 -- (-9009.543) (-9005.150) [-9005.892] (-9007.447) * (-9003.697) [-9007.619] (-9003.785) (-9003.267) -- 0:00:43
      101000 -- (-9006.450) [-9003.221] (-9005.637) (-9007.156) * (-9006.140) (-9008.356) (-9004.440) [-9003.543] -- 0:00:43
      101500 -- (-9009.420) (-9002.486) [-9005.424] (-9007.939) * (-9006.643) (-9006.067) (-9002.035) [-9003.590] -- 0:00:43
      102000 -- (-9007.532) [-9003.296] (-9005.282) (-9007.950) * (-9004.993) [-9004.556] (-9003.855) (-9002.482) -- 0:00:42
      102500 -- (-9006.130) [-9002.061] (-9004.192) (-9007.759) * (-9005.285) (-9010.553) (-9003.855) [-9003.176] -- 0:00:42
      103000 -- [-9006.173] (-9006.436) (-9003.854) (-9007.934) * (-9005.285) [-9005.256] (-9003.591) (-9003.800) -- 0:00:46
      103500 -- (-9005.852) (-9006.918) [-9003.804] (-9008.660) * (-9004.049) (-9008.581) [-9005.050] (-9007.820) -- 0:00:45
      104000 -- [-9008.998] (-9007.161) (-9003.771) (-9007.095) * (-9008.892) (-9012.380) (-9005.299) [-9009.174] -- 0:00:45
      104500 -- [-9001.878] (-9003.755) (-9005.320) (-9007.112) * [-9008.892] (-9004.847) (-9007.000) (-9009.214) -- 0:00:45
      105000 -- [-9002.389] (-9003.503) (-9004.174) (-9007.191) * (-9008.892) (-9005.631) (-9006.202) [-9008.130] -- 0:00:45

      Average standard deviation of split frequencies: 0.022448

      105500 -- (-9004.162) (-9003.505) [-9003.554] (-9006.367) * (-9005.302) [-9001.173] (-9005.783) (-9008.492) -- 0:00:44
      106000 -- [-9002.798] (-9003.276) (-9004.265) (-9009.787) * (-9003.550) [-9009.584] (-9004.247) (-9008.751) -- 0:00:44
      106500 -- [-9002.620] (-9003.275) (-9001.251) (-9003.789) * (-9003.840) [-9008.506] (-9003.470) (-9006.158) -- 0:00:44
      107000 -- [-9003.268] (-9003.694) (-9003.402) (-9003.918) * (-9003.723) [-9014.272] (-9005.306) (-9001.701) -- 0:00:44
      107500 -- [-9001.565] (-9004.581) (-9002.909) (-9006.589) * (-9003.812) [-9008.268] (-9004.997) (-9003.502) -- 0:00:43
      108000 -- (-9002.350) (-9004.763) [-9003.502] (-9004.549) * [-9003.812] (-9014.989) (-9005.871) (-9004.259) -- 0:00:43
      108500 -- [-9005.006] (-9004.962) (-9003.642) (-9004.748) * (-9003.812) [-9007.280] (-9005.979) (-9004.415) -- 0:00:43
      109000 -- [-9002.044] (-9005.864) (-9004.066) (-9004.288) * (-9005.105) (-9006.190) (-9005.480) [-9004.420] -- 0:00:43
      109500 -- (-9008.660) [-9008.455] (-9003.478) (-9004.214) * [-9008.977] (-9006.708) (-9009.631) (-9005.560) -- 0:00:42
      110000 -- (-9006.306) (-9005.099) (-9001.991) [-9004.260] * (-9008.648) (-9004.817) (-9007.434) [-9003.503] -- 0:00:42

      Average standard deviation of split frequencies: 0.023002

      110500 -- (-9005.212) (-9006.773) (-9002.214) [-9004.794] * (-9004.591) (-9007.925) (-9006.647) [-9004.529] -- 0:00:42
      111000 -- (-9006.580) (-9004.105) (-9005.441) [-9004.591] * [-9001.427] (-9009.004) (-9006.756) (-9004.241) -- 0:00:42
      111500 -- (-9006.923) [-9004.052] (-9002.072) (-9004.264) * [-9002.374] (-9009.001) (-9004.340) (-9004.716) -- 0:00:45
      112000 -- (-9004.166) (-9004.085) (-9004.428) [-9003.704] * (-9002.923) (-9008.939) (-9004.675) [-9004.788] -- 0:00:45
      112500 -- (-9003.954) [-9004.612] (-9004.544) (-9002.951) * (-9003.404) (-9008.716) (-9005.660) [-9004.520] -- 0:00:44
      113000 -- (-9004.060) (-9004.614) [-9004.576] (-9009.070) * (-9004.684) (-9007.322) [-9006.768] (-9004.881) -- 0:00:44
      113500 -- [-9002.103] (-9004.822) (-9004.576) (-9007.556) * [-9007.711] (-9006.266) (-9006.203) (-9004.526) -- 0:00:44
      114000 -- [-9004.529] (-9003.529) (-9002.414) (-9005.494) * (-9005.951) (-9008.584) (-9006.193) [-9004.696] -- 0:00:44
      114500 -- (-9005.774) [-9003.619] (-9003.588) (-9003.334) * [-9006.869] (-9008.449) (-9006.435) (-9004.691) -- 0:00:43
      115000 -- (-9005.786) (-9003.283) (-9002.387) [-9003.334] * [-9006.187] (-9007.589) (-9010.832) (-9004.183) -- 0:00:43

      Average standard deviation of split frequencies: 0.022803

      115500 -- (-9006.270) (-9001.484) (-9002.802) [-9003.257] * (-9006.135) (-9007.047) (-9009.789) [-9004.754] -- 0:00:43
      116000 -- [-9003.802] (-9002.478) (-9003.457) (-9003.334) * (-9009.744) (-9006.895) [-9009.816] (-9004.019) -- 0:00:43
      116500 -- (-9003.630) (-9004.183) (-9002.220) [-9004.326] * (-9010.798) (-9004.566) (-9007.157) [-9004.114] -- 0:00:42
      117000 -- [-9004.432] (-9004.749) (-9003.623) (-9004.159) * (-9012.144) (-9004.527) (-9004.515) [-9007.036] -- 0:00:42
      117500 -- (-9004.180) (-9005.286) [-9004.507] (-9003.189) * (-9011.584) (-9005.163) (-9003.685) [-9004.243] -- 0:00:42
      118000 -- (-9004.036) (-9005.511) (-9005.851) [-9002.983] * (-9004.603) (-9003.732) (-9004.391) [-9007.173] -- 0:00:42
      118500 -- [-9003.271] (-9005.286) (-9005.751) (-9003.239) * [-9005.822] (-9005.409) (-9003.155) (-9007.225) -- 0:00:41
      119000 -- (-9004.130) (-9004.315) (-9005.745) [-9003.165] * [-9004.814] (-9006.819) (-9002.127) (-9007.636) -- 0:00:41
      119500 -- (-9004.601) (-9003.093) (-9003.302) [-9003.899] * (-9005.546) (-9006.213) [-9004.563] (-9007.842) -- 0:00:41
      120000 -- [-9003.957] (-9001.626) (-9003.318) (-9002.882) * [-9005.554] (-9010.869) (-9005.217) (-9006.887) -- 0:00:41

      Average standard deviation of split frequencies: 0.023851

      120500 -- (-9005.719) (-9002.476) (-9005.367) [-9006.132] * (-9005.583) (-9010.570) [-9003.678] (-9006.918) -- 0:00:44
      121000 -- (-9005.745) [-9004.636] (-9004.042) (-9004.331) * (-9007.019) (-9005.586) [-9005.084] (-9006.410) -- 0:00:43
      121500 -- (-9005.195) (-9004.341) (-9004.214) [-9004.013] * (-9009.795) (-9006.665) [-9002.529] (-9006.166) -- 0:00:43
      122000 -- (-9003.170) (-9001.947) [-9004.329] (-9003.886) * (-9006.254) (-9004.751) [-9001.748] (-9006.590) -- 0:00:43
      122500 -- [-9003.772] (-9004.548) (-9001.706) (-9003.917) * (-9006.761) (-9003.938) [-9004.869] (-9005.567) -- 0:00:43
      123000 -- (-9003.841) (-9005.551) [-9000.657] (-9004.525) * [-9004.398] (-9003.703) (-9003.758) (-9008.024) -- 0:00:42
      123500 -- (-9004.045) (-9002.811) [-9002.802] (-9004.563) * (-9005.081) (-9005.030) [-9003.360] (-9005.859) -- 0:00:42
      124000 -- (-9005.800) [-9003.291] (-9002.495) (-9004.539) * (-9005.081) (-9005.550) (-9003.497) [-9003.788] -- 0:00:42
      124500 -- (-9006.398) (-9003.530) [-9002.157] (-9002.887) * (-9007.346) (-9007.007) [-9002.420] (-9003.836) -- 0:00:42
      125000 -- (-9006.027) (-9004.097) (-9005.287) [-9002.199] * (-9004.854) (-9004.736) [-9002.586] (-9003.969) -- 0:00:42

      Average standard deviation of split frequencies: 0.022108

      125500 -- [-9006.075] (-9003.285) (-9004.897) (-9003.061) * (-9004.854) (-9015.143) (-9002.877) [-9004.037] -- 0:00:41
      126000 -- [-9003.829] (-9005.654) (-9004.844) (-9002.586) * (-9004.854) (-9007.627) [-9003.872] (-9006.247) -- 0:00:41
      126500 -- (-9005.443) (-9006.096) (-9004.809) [-9003.126] * (-9004.366) (-9004.092) [-9003.189] (-9004.297) -- 0:00:41
      127000 -- [-9009.678] (-9007.052) (-9005.054) (-9003.591) * (-9004.246) (-9003.503) (-9003.862) [-9005.028] -- 0:00:41
      127500 -- [-9006.985] (-9007.418) (-9003.920) (-9003.814) * [-9004.048] (-9003.786) (-9002.747) (-9005.813) -- 0:00:40
      128000 -- (-9006.305) (-9007.817) [-9004.668] (-9003.237) * [-9004.321] (-9005.062) (-9003.642) (-9006.329) -- 0:00:40
      128500 -- (-9003.208) [-9007.816] (-9003.980) (-9003.497) * [-9004.106] (-9006.351) (-9003.658) (-9004.774) -- 0:00:40
      129000 -- (-9003.474) [-9007.731] (-9002.796) (-9009.600) * (-9004.228) (-9005.525) (-9005.283) [-9007.393] -- 0:00:40
      129500 -- (-9002.888) (-9004.065) [-9000.959] (-9010.518) * [-9004.067] (-9005.665) (-9005.283) (-9004.057) -- 0:00:40
      130000 -- (-9004.542) (-9003.879) [-9002.391] (-9004.131) * (-9003.843) [-9005.730] (-9005.231) (-9004.416) -- 0:00:42

      Average standard deviation of split frequencies: 0.019413

      130500 -- (-9003.406) (-9004.492) [-9002.731] (-9005.876) * (-9003.098) (-9005.992) (-9003.464) [-9003.768] -- 0:00:42
      131000 -- [-9003.448] (-9004.241) (-9003.250) (-9004.918) * [-9002.927] (-9007.348) (-9003.678) (-9002.749) -- 0:00:42
      131500 -- (-9004.020) [-9002.919] (-9003.163) (-9004.905) * [-9003.582] (-9007.346) (-9003.594) (-9003.989) -- 0:00:42
      132000 -- (-9006.586) (-9005.769) [-9002.879] (-9005.814) * (-9004.089) (-9005.633) [-9003.542] (-9003.797) -- 0:00:41
      132500 -- (-9005.105) (-9005.681) [-9003.919] (-9006.633) * (-9003.844) [-9007.042] (-9002.405) (-9006.307) -- 0:00:41
      133000 -- (-9003.046) [-9004.465] (-9005.517) (-9006.347) * [-9005.446] (-9009.224) (-9003.097) (-9005.349) -- 0:00:41
      133500 -- [-9004.916] (-9007.266) (-9001.920) (-9006.317) * (-9005.046) (-9006.925) [-9003.497] (-9003.448) -- 0:00:41
      134000 -- (-9004.598) (-9006.341) [-9003.634] (-9006.161) * (-9004.397) (-9007.725) [-9006.447] (-9007.049) -- 0:00:40
      134500 -- (-9002.823) (-9001.933) (-9003.565) [-9003.227] * [-9004.413] (-9007.469) (-9006.756) (-9006.488) -- 0:00:40
      135000 -- (-9003.386) (-9003.355) (-9004.795) [-9003.412] * (-9005.412) (-9007.378) [-9005.094] (-9008.229) -- 0:00:40

      Average standard deviation of split frequencies: 0.017826

      135500 -- (-9006.423) [-9003.419] (-9004.585) (-9003.102) * [-9006.684] (-9006.272) (-9003.603) (-9004.224) -- 0:00:40
      136000 -- (-9006.442) [-9002.109] (-9006.005) (-9002.915) * (-9004.545) (-9006.621) [-9003.752] (-9005.222) -- 0:00:40
      136500 -- (-9005.937) (-9002.607) (-9004.952) [-9004.287] * (-9005.076) (-9001.667) (-9005.812) [-9005.825] -- 0:00:39
      137000 -- (-9006.128) [-9002.152] (-9006.250) (-9005.138) * (-9006.337) [-9006.063] (-9005.339) (-9006.016) -- 0:00:39
      137500 -- [-9005.882] (-9004.232) (-9003.892) (-9006.340) * [-9006.984] (-9003.502) (-9004.664) (-9004.188) -- 0:00:39
      138000 -- (-9005.300) (-9003.715) [-9004.003] (-9003.844) * (-9005.302) (-9002.216) [-9004.664] (-9004.682) -- 0:00:39
      138500 -- (-9004.313) (-9002.800) (-9003.666) [-9003.594] * (-9005.281) [-9004.432] (-9004.582) (-9005.028) -- 0:00:39
      139000 -- [-9004.426] (-9004.136) (-9003.260) (-9004.137) * (-9005.358) (-9005.271) [-9005.363] (-9006.561) -- 0:00:41
      139500 -- (-9003.743) (-9004.466) (-9003.497) [-9003.563] * (-9003.657) (-9008.392) (-9005.363) [-9004.925] -- 0:00:41
      140000 -- [-9005.292] (-9002.807) (-9003.739) (-9004.336) * (-9007.179) (-9008.954) [-9005.363] (-9005.281) -- 0:00:41

      Average standard deviation of split frequencies: 0.016953

      140500 -- (-9005.439) [-9004.426] (-9003.967) (-9004.142) * (-9006.267) (-9003.432) [-9006.359] (-9005.434) -- 0:00:40
      141000 -- (-9005.213) [-9004.245] (-9003.126) (-9004.248) * [-9007.072] (-9003.516) (-9006.741) (-9003.825) -- 0:00:40
      141500 -- (-9004.784) (-9006.567) [-9003.761] (-9003.857) * (-9004.779) [-9002.742] (-9005.420) (-9004.413) -- 0:00:40
      142000 -- (-9004.042) [-9006.372] (-9004.286) (-9004.769) * (-9006.359) (-9002.750) (-9004.313) [-9002.733] -- 0:00:40
      142500 -- (-9005.217) (-9003.244) (-9004.516) [-9005.441] * (-9008.118) (-9003.404) [-9001.811] (-9010.425) -- 0:00:40
      143000 -- (-9005.013) [-9003.643] (-9004.814) (-9005.306) * [-9003.673] (-9003.644) (-9004.281) (-9007.004) -- 0:00:39
      143500 -- (-9007.576) (-9004.227) (-9006.308) [-9003.257] * [-9004.317] (-9003.937) (-9002.809) (-9007.137) -- 0:00:39
      144000 -- (-9006.040) (-9004.425) (-9006.765) [-9002.478] * (-9003.625) [-9003.902] (-9004.136) (-9009.441) -- 0:00:39
      144500 -- (-9006.226) (-9006.290) (-9006.551) [-9001.903] * (-9005.698) [-9003.332] (-9003.716) (-9007.796) -- 0:00:39
      145000 -- (-9003.770) (-9007.666) (-9007.429) [-9007.074] * (-9005.164) (-9004.082) [-9002.833] (-9009.406) -- 0:00:39

      Average standard deviation of split frequencies: 0.018243

      145500 -- [-9003.769] (-9004.202) (-9008.590) (-9005.179) * (-9001.909) (-9003.817) [-9002.582] (-9009.207) -- 0:00:38
      146000 -- (-9002.958) (-9005.647) (-9009.852) [-9004.425] * (-9006.232) [-9003.652] (-9005.346) (-9009.207) -- 0:00:38
      146500 -- (-9003.888) (-9004.822) (-9005.465) [-9002.515] * [-9003.666] (-9003.982) (-9004.669) (-9008.773) -- 0:00:38
      147000 -- (-9006.456) (-9003.150) (-9006.488) [-9003.771] * [-9001.701] (-9003.626) (-9002.511) (-9006.500) -- 0:00:38
      147500 -- (-9007.307) [-9001.827] (-9005.928) (-9004.536) * (-9004.220) (-9003.840) [-9002.980] (-9005.791) -- 0:00:38
      148000 -- [-9006.359] (-9007.553) (-9004.903) (-9001.849) * (-9004.164) (-9006.239) (-9003.996) [-9004.794] -- 0:00:40
      148500 -- (-9004.934) (-9004.845) (-9005.886) [-9003.675] * (-9005.499) (-9003.656) [-9005.027] (-9004.794) -- 0:00:40
      149000 -- (-9005.284) (-9003.310) [-9003.303] (-9004.450) * (-9005.532) (-9003.592) [-9006.749] (-9007.144) -- 0:00:40
      149500 -- (-9004.147) [-9003.451] (-9003.984) (-9004.879) * [-9004.596] (-9002.696) (-9013.510) (-9008.412) -- 0:00:39
      150000 -- [-9004.475] (-9003.764) (-9004.804) (-9005.827) * [-9005.842] (-9003.249) (-9010.649) (-9007.745) -- 0:00:39

      Average standard deviation of split frequencies: 0.016270

      150500 -- (-9003.899) (-9004.164) [-9005.586] (-9006.051) * (-9005.729) [-9003.909] (-9005.229) (-9005.454) -- 0:00:39
      151000 -- (-9002.697) (-9005.630) (-9005.586) [-9004.152] * (-9002.031) [-9005.836] (-9003.131) (-9004.434) -- 0:00:39
      151500 -- (-9005.105) [-9005.615] (-9005.101) (-9004.764) * (-9003.834) [-9003.523] (-9005.521) (-9004.422) -- 0:00:39
      152000 -- [-9003.277] (-9005.198) (-9003.706) (-9005.717) * (-9002.371) [-9002.057] (-9003.854) (-9004.504) -- 0:00:38
      152500 -- (-9004.036) (-9006.116) (-9004.474) [-9004.116] * (-9003.283) [-9003.991] (-9001.711) (-9004.717) -- 0:00:38
      153000 -- (-9003.583) (-9005.035) (-9004.471) [-9004.350] * [-9003.045] (-9004.358) (-9007.443) (-9004.743) -- 0:00:38
      153500 -- (-9004.965) (-9003.632) (-9003.911) [-9004.462] * [-9002.275] (-9005.241) (-9005.779) (-9004.429) -- 0:00:38
      154000 -- (-9004.918) (-9006.341) (-9003.911) [-9002.960] * [-9003.431] (-9006.934) (-9004.053) (-9012.130) -- 0:00:38
      154500 -- (-9002.675) (-9007.755) [-9004.226] (-9003.184) * (-9003.706) (-9006.127) (-9009.182) [-9008.658] -- 0:00:38
      155000 -- (-9002.700) (-9007.476) [-9002.298] (-9004.016) * (-9004.038) (-9006.737) (-9008.463) [-9007.275] -- 0:00:37

      Average standard deviation of split frequencies: 0.017224

      155500 -- (-9001.725) (-9006.912) (-9003.153) [-9002.197] * (-9004.467) [-9004.443] (-9002.453) (-9005.987) -- 0:00:37
      156000 -- (-9002.307) (-9006.485) [-9004.074] (-9002.934) * (-9005.558) (-9007.588) (-9003.316) [-9005.509] -- 0:00:37
      156500 -- (-9003.738) (-9008.850) [-9003.482] (-9003.359) * (-9006.452) (-9006.057) (-9002.645) [-9004.932] -- 0:00:37
      157000 -- (-9006.199) (-9008.749) (-9003.729) [-9004.663] * (-9005.367) (-9006.072) [-9001.467] (-9006.169) -- 0:00:39
      157500 -- (-9005.171) [-9008.084] (-9006.521) (-9004.933) * (-9006.054) (-9006.558) [-9002.450] (-9006.720) -- 0:00:39
      158000 -- (-9006.137) (-9008.368) [-9006.391] (-9004.989) * (-9006.225) [-9005.753] (-9001.907) (-9003.379) -- 0:00:38
      158500 -- (-9004.263) [-9004.918] (-9006.071) (-9004.065) * [-9005.178] (-9006.215) (-9000.886) (-9004.857) -- 0:00:38
      159000 -- (-9007.964) (-9005.851) [-9007.187] (-9003.924) * (-9006.050) [-9004.371] (-9001.499) (-9003.536) -- 0:00:38
      159500 -- (-9003.761) (-9007.226) [-9008.306] (-9003.712) * (-9006.859) (-9007.778) [-9002.394] (-9004.200) -- 0:00:38
      160000 -- (-9003.784) (-9008.205) (-9010.185) [-9003.095] * (-9007.146) (-9008.966) (-9004.887) [-9004.075] -- 0:00:38

      Average standard deviation of split frequencies: 0.015706

      160500 -- [-9007.537] (-9007.415) (-9005.784) (-9001.294) * (-9006.649) [-9007.454] (-9001.410) (-9004.474) -- 0:00:38
      161000 -- (-9005.910) (-9005.950) [-9003.508] (-9002.485) * (-9006.586) (-9006.251) [-9001.418] (-9003.642) -- 0:00:37
      161500 -- (-9007.299) [-9004.480] (-9003.959) (-9003.767) * (-9004.528) (-9004.554) [-9002.432] (-9003.532) -- 0:00:37
      162000 -- (-9003.251) [-9004.058] (-9004.478) (-9003.977) * (-9005.268) (-9003.125) [-9003.229] (-9004.128) -- 0:00:37
      162500 -- (-9003.402) [-9004.939] (-9002.704) (-9002.943) * (-9005.996) (-9005.337) (-9003.212) [-9005.566] -- 0:00:37
      163000 -- (-9003.908) (-9004.049) [-9004.213] (-9006.974) * (-9005.998) (-9002.404) [-9003.450] (-9004.952) -- 0:00:37
      163500 -- (-9002.255) (-9003.533) (-9003.258) [-9004.725] * (-9003.753) (-9004.424) [-9001.435] (-9005.633) -- 0:00:37
      164000 -- [-9004.121] (-9003.409) (-9003.912) (-9004.411) * (-9003.746) [-9007.437] (-9001.131) (-9005.679) -- 0:00:36
      164500 -- (-9007.330) (-9002.334) (-9002.756) [-9005.635] * [-9003.535] (-9006.360) (-9001.862) (-9005.952) -- 0:00:36
      165000 -- (-9004.459) (-9004.771) [-9002.237] (-9004.697) * (-9003.400) (-9003.880) [-9002.334] (-9003.718) -- 0:00:36

      Average standard deviation of split frequencies: 0.017891

      165500 -- (-9004.376) (-9005.642) (-9003.450) [-9005.773] * [-9003.667] (-9005.299) (-9005.993) (-9004.676) -- 0:00:38
      166000 -- [-9002.921] (-9006.202) (-9004.925) (-9004.877) * (-9003.810) (-9005.034) [-9006.233] (-9005.097) -- 0:00:38
      166500 -- [-9004.635] (-9003.523) (-9004.939) (-9002.971) * (-9003.078) (-9005.512) [-9003.319] (-9004.702) -- 0:00:38
      167000 -- (-9003.368) [-9004.533] (-9004.904) (-9004.320) * [-9003.104] (-9008.392) (-9003.364) (-9004.702) -- 0:00:37
      167500 -- (-9004.050) (-9004.727) [-9003.844] (-9002.704) * [-9003.044] (-9006.836) (-9004.955) (-9004.705) -- 0:00:37
      168000 -- (-9004.149) (-9005.087) [-9001.628] (-9004.759) * (-9002.161) (-9008.434) (-9006.361) [-9004.762] -- 0:00:37
      168500 -- (-9005.194) (-9004.693) [-9005.111] (-9003.490) * [-9004.634] (-9008.797) (-9007.206) (-9003.993) -- 0:00:37
      169000 -- (-9003.052) (-9005.008) (-9005.491) [-9003.809] * (-9005.088) [-9007.907] (-9007.171) (-9004.470) -- 0:00:37
      169500 -- (-9003.261) (-9005.135) (-9006.129) [-9003.036] * (-9005.774) (-9007.214) (-9004.124) [-9004.624] -- 0:00:37
      170000 -- (-9004.349) [-9005.320] (-9004.474) (-9003.372) * (-9005.773) [-9008.314] (-9004.169) (-9004.726) -- 0:00:36

      Average standard deviation of split frequencies: 0.015806

      170500 -- (-9004.350) [-9002.960] (-9008.393) (-9003.450) * (-9005.778) [-9001.781] (-9004.424) (-9005.743) -- 0:00:36
      171000 -- (-9005.883) [-9002.604] (-9006.781) (-9003.781) * (-9006.100) [-9003.616] (-9003.589) (-9005.317) -- 0:00:36
      171500 -- [-9004.196] (-9003.318) (-9007.085) (-9003.418) * [-9006.106] (-9003.143) (-9005.695) (-9005.317) -- 0:00:36
      172000 -- (-9002.639) [-9002.455] (-9003.657) (-9005.081) * (-9005.020) (-9003.531) [-9003.637] (-9005.317) -- 0:00:36
      172500 -- [-9003.099] (-9002.355) (-9003.893) (-9003.765) * (-9006.167) [-9006.012] (-9001.342) (-9005.317) -- 0:00:36
      173000 -- (-9002.151) (-9002.977) (-9005.706) [-9003.724] * (-9005.848) (-9006.932) (-9001.877) [-9007.642] -- 0:00:35
      173500 -- [-9001.611] (-9003.750) (-9006.053) (-9003.962) * (-9003.995) (-9007.311) [-8999.470] (-9006.727) -- 0:00:35
      174000 -- (-9005.497) [-9002.055] (-9006.262) (-9003.257) * [-9007.596] (-9006.396) (-9000.422) (-9005.576) -- 0:00:35
      174500 -- [-9004.892] (-9004.099) (-9002.718) (-9003.014) * [-9006.354] (-9003.945) (-9000.840) (-9005.737) -- 0:00:37
      175000 -- (-9005.158) (-9005.379) (-9003.237) [-9002.268] * [-9003.331] (-9003.993) (-9004.282) (-9005.031) -- 0:00:37

      Average standard deviation of split frequencies: 0.015178

      175500 -- (-9006.046) (-9004.639) [-9003.820] (-9003.126) * [-9002.584] (-9002.353) (-9003.423) (-9005.348) -- 0:00:36
      176000 -- (-9004.689) [-9003.540] (-9003.441) (-9004.484) * (-9004.274) [-9003.851] (-9002.628) (-9005.206) -- 0:00:36
      176500 -- (-9006.562) (-9003.546) (-9005.467) [-9004.256] * (-9004.274) (-9002.258) [-9003.973] (-9005.524) -- 0:00:36
      177000 -- (-9006.701) (-9005.946) [-9004.963] (-9003.272) * [-9003.427] (-9001.684) (-9002.635) (-9005.794) -- 0:00:36
      177500 -- (-9006.402) (-9005.949) [-9005.122] (-9003.259) * [-9005.692] (-9005.495) (-9003.525) (-9003.393) -- 0:00:36
      178000 -- (-9004.355) (-9003.819) [-9005.865] (-9003.714) * (-9006.728) [-9003.853] (-9003.646) (-9003.393) -- 0:00:36
      178500 -- (-9005.167) (-9003.819) (-9005.982) [-9004.806] * (-9008.012) (-9002.875) (-9004.557) [-9003.404] -- 0:00:36
      179000 -- (-9004.692) [-9003.767] (-9004.099) (-9003.905) * (-9008.387) (-9002.457) (-9004.995) [-9004.539] -- 0:00:35
      179500 -- [-9005.675] (-9004.722) (-9003.903) (-9010.513) * (-9007.154) [-9003.197] (-9008.611) (-9004.567) -- 0:00:35
      180000 -- [-9004.657] (-9004.265) (-9003.513) (-9005.380) * (-9005.828) [-9001.730] (-9008.611) (-9003.454) -- 0:00:35

      Average standard deviation of split frequencies: 0.016342

      180500 -- (-9006.564) [-9005.036] (-9002.972) (-9004.298) * [-9006.632] (-9002.859) (-9011.676) (-9003.205) -- 0:00:35
      181000 -- (-9004.904) (-9005.134) (-9004.181) [-9004.512] * [-9005.198] (-9003.103) (-9008.505) (-9003.212) -- 0:00:35
      181500 -- (-9004.214) (-9005.166) [-9007.497] (-9004.090) * (-9007.429) [-9003.435] (-9008.390) (-9002.935) -- 0:00:35
      182000 -- (-9002.771) (-9006.169) (-9003.103) [-9002.595] * (-9008.041) (-9004.418) (-9004.220) [-9002.935] -- 0:00:34
      182500 -- [-9003.936] (-9006.625) (-9002.725) (-9002.604) * (-9005.580) (-9003.798) [-9003.294] (-9005.361) -- 0:00:34
      183000 -- (-9003.722) (-9006.213) (-9004.237) [-9001.937] * (-9001.780) (-9004.420) [-9003.080] (-9004.217) -- 0:00:34
      183500 -- (-9003.780) (-9006.000) (-9004.403) [-9003.120] * [-9003.395] (-9005.486) (-9003.624) (-9004.019) -- 0:00:34
      184000 -- (-9006.251) (-9005.629) (-9005.496) [-9003.352] * (-9005.574) (-9007.056) [-9003.266] (-9003.564) -- 0:00:36
      184500 -- [-9004.145] (-9003.466) (-9003.481) (-9003.344) * [-9005.796] (-9005.627) (-9002.871) (-9004.669) -- 0:00:35
      185000 -- (-9003.297) [-9002.475] (-9004.136) (-9003.623) * (-9007.176) [-9007.186] (-9001.519) (-9005.100) -- 0:00:35

      Average standard deviation of split frequencies: 0.016051

      185500 -- [-9003.566] (-9002.726) (-9003.724) (-9003.400) * (-9005.265) [-9007.314] (-9004.488) (-9004.557) -- 0:00:35
      186000 -- (-9003.420) (-9002.948) [-9005.103] (-9004.284) * (-9006.250) [-9006.228] (-9002.854) (-9004.147) -- 0:00:35
      186500 -- [-9003.492] (-9003.564) (-9006.339) (-9005.743) * (-9006.327) (-9004.526) [-9002.799] (-9004.201) -- 0:00:35
      187000 -- (-9003.487) [-9003.877] (-9004.604) (-9006.921) * (-9012.002) (-9005.062) [-9002.967] (-9005.003) -- 0:00:35
      187500 -- (-9007.137) (-9002.943) [-9005.031] (-9008.404) * (-9006.703) (-9004.252) (-9003.954) [-9004.491] -- 0:00:35
      188000 -- (-9005.252) [-9004.870] (-9004.321) (-9004.732) * (-9006.309) (-9003.924) [-9004.071] (-9004.563) -- 0:00:34
      188500 -- (-9005.844) [-9004.239] (-9004.190) (-9003.466) * [-9006.528] (-9004.339) (-9004.166) (-9005.115) -- 0:00:34
      189000 -- (-9005.767) (-9004.114) [-9003.784] (-9003.611) * (-9006.757) (-9003.849) [-9002.050] (-9004.924) -- 0:00:34
      189500 -- (-9004.056) (-9005.172) [-9003.536] (-9006.176) * (-9004.739) [-9004.209] (-9002.328) (-9004.958) -- 0:00:34
      190000 -- (-9003.912) [-9005.172] (-9003.731) (-9003.751) * (-9003.309) [-9004.616] (-9003.573) (-9006.097) -- 0:00:34

      Average standard deviation of split frequencies: 0.015485

      190500 -- (-9003.454) [-9004.869] (-9004.312) (-9003.824) * [-9003.435] (-9004.664) (-9002.146) (-9006.004) -- 0:00:34
      191000 -- (-9003.430) [-9007.433] (-9004.437) (-9004.086) * (-9006.020) (-9004.340) (-9010.759) [-9004.980] -- 0:00:33
      191500 -- [-9002.724] (-9005.750) (-9009.430) (-9003.625) * [-9006.856] (-9004.875) (-9010.930) (-9004.980) -- 0:00:33
      192000 -- (-9003.471) (-9007.298) (-9006.003) [-9003.488] * (-9006.313) [-9004.878] (-9011.233) (-9003.086) -- 0:00:33
      192500 -- [-9002.477] (-9009.665) (-9005.606) (-9003.774) * (-9004.128) (-9005.370) (-9008.883) [-9006.129] -- 0:00:33
      193000 -- (-9003.370) [-9005.819] (-9004.515) (-9006.168) * [-9004.314] (-9009.693) (-9006.438) (-9008.609) -- 0:00:34
      193500 -- [-9002.856] (-9006.661) (-9006.463) (-9005.664) * (-9005.612) (-9009.815) (-9007.483) [-9003.006] -- 0:00:34
      194000 -- [-9005.631] (-9005.039) (-9006.389) (-9005.636) * [-9005.825] (-9006.746) (-9005.085) (-9002.133) -- 0:00:34
      194500 -- [-9005.258] (-9006.182) (-9006.488) (-9005.438) * (-9005.827) [-9005.755] (-9002.314) (-9004.751) -- 0:00:34
      195000 -- (-9003.414) [-9006.405] (-9005.682) (-9005.305) * (-9006.113) (-9003.324) [-9003.724] (-9004.680) -- 0:00:34

      Average standard deviation of split frequencies: 0.014965

      195500 -- [-9002.770] (-9008.009) (-9005.009) (-9004.826) * [-9004.355] (-9002.864) (-9004.234) (-9005.988) -- 0:00:34
      196000 -- [-9003.194] (-9009.205) (-9004.245) (-9003.796) * [-9004.505] (-9002.910) (-9003.547) (-9005.263) -- 0:00:34
      196500 -- (-9003.513) (-9008.003) [-9003.810] (-9008.211) * [-9003.978] (-9005.129) (-9005.645) (-9004.077) -- 0:00:33
      197000 -- (-9001.204) (-9005.397) [-9003.720] (-9005.357) * (-9002.571) (-9005.393) [-9003.500] (-9004.881) -- 0:00:33
      197500 -- [-9001.657] (-9005.437) (-9003.397) (-9004.786) * [-9003.152] (-9004.527) (-9005.658) (-9003.437) -- 0:00:33
      198000 -- (-9003.534) [-9005.965] (-9003.104) (-9001.483) * (-9003.537) (-9003.851) (-9006.386) [-9003.226] -- 0:00:33
      198500 -- (-9005.132) (-9001.512) [-9004.743] (-9006.906) * [-9003.385] (-9003.829) (-9004.520) (-9003.743) -- 0:00:33
      199000 -- [-9003.973] (-9003.649) (-9006.584) (-9008.779) * (-9003.257) (-9004.177) [-9006.452] (-9008.148) -- 0:00:33
      199500 -- (-9004.611) [-9003.563] (-9005.602) (-9007.966) * (-9006.431) [-9009.562] (-9007.066) (-9008.239) -- 0:00:33
      200000 -- (-9005.970) (-9002.727) [-9008.373] (-9008.275) * (-9004.595) (-9006.822) (-9007.007) [-9006.793] -- 0:00:33

      Average standard deviation of split frequencies: 0.014590

      200500 -- (-9005.086) [-9003.170] (-9007.622) (-9008.139) * (-9005.343) [-9006.523] (-9005.040) (-9005.502) -- 0:00:32
      201000 -- [-9003.380] (-9003.553) (-9005.351) (-9008.551) * [-9008.201] (-9004.769) (-9004.146) (-9005.858) -- 0:00:32
      201500 -- (-9006.310) (-9004.897) [-9005.676] (-9004.142) * (-9007.688) [-9007.558] (-9006.020) (-9009.128) -- 0:00:32
      202000 -- [-9006.306] (-9003.835) (-9004.351) (-9003.320) * (-9006.738) [-9005.836] (-9008.283) (-9004.406) -- 0:00:32
      202500 -- (-9003.249) [-9002.324] (-9004.754) (-9003.187) * (-9005.480) (-9005.574) [-9007.825] (-9008.234) -- 0:00:33
      203000 -- (-9003.535) (-9005.722) (-9003.835) [-9005.377] * [-9006.325] (-9006.241) (-9014.147) (-9008.057) -- 0:00:33
      203500 -- [-9005.838] (-9005.927) (-9006.027) (-9005.074) * (-9005.226) [-9010.551] (-9003.630) (-9010.786) -- 0:00:33
      204000 -- (-9007.874) (-9004.935) (-9005.836) [-9007.049] * (-9005.392) (-9004.683) [-9003.608] (-9007.000) -- 0:00:33
      204500 -- (-9008.059) [-9003.503] (-9006.160) (-9005.625) * (-9004.426) (-9003.424) [-9003.018] (-9006.239) -- 0:00:33
      205000 -- (-9005.565) [-9003.549] (-9009.078) (-9004.082) * (-9003.925) [-9003.796] (-9004.830) (-9006.241) -- 0:00:33

      Average standard deviation of split frequencies: 0.013387

      205500 -- (-9005.253) (-9003.229) [-9008.445] (-9003.563) * (-9003.191) (-9003.086) [-9001.578] (-9006.227) -- 0:00:32
      206000 -- [-9002.329] (-9003.633) (-9005.064) (-9004.188) * (-9002.346) [-9003.130] (-9002.833) (-9004.486) -- 0:00:32
      206500 -- [-9000.433] (-9003.670) (-9004.903) (-9004.189) * (-9002.253) [-9004.942] (-9007.996) (-9004.285) -- 0:00:32
      207000 -- [-9003.165] (-9003.766) (-9003.792) (-9008.198) * [-9002.755] (-9005.572) (-9005.311) (-9004.344) -- 0:00:32
      207500 -- (-9008.224) [-9003.592] (-9004.397) (-9004.712) * (-9003.665) (-9011.547) (-9003.428) [-9004.658] -- 0:00:32
      208000 -- [-9004.644] (-9002.455) (-9004.360) (-9004.189) * (-9003.713) [-9008.378] (-9003.556) (-9004.973) -- 0:00:32
      208500 -- (-9004.598) [-9003.504] (-9003.600) (-9004.069) * (-9003.713) (-9006.719) (-9002.600) [-9006.117] -- 0:00:32
      209000 -- [-9004.523] (-9005.242) (-9004.411) (-9003.936) * [-9003.635] (-9007.116) (-9004.120) (-9006.409) -- 0:00:32
      209500 -- [-9003.357] (-9002.779) (-9005.203) (-9004.446) * (-9003.542) [-9004.789] (-9003.558) (-9007.911) -- 0:00:31
      210000 -- (-9003.480) (-9002.621) [-9003.421] (-9004.178) * (-9003.593) (-9001.652) [-9007.724] (-9005.593) -- 0:00:31

      Average standard deviation of split frequencies: 0.013426

      210500 -- (-9004.001) (-9002.209) (-9006.632) [-9003.735] * (-9003.933) (-9001.510) (-9007.720) [-9005.600] -- 0:00:31
      211000 -- (-9003.716) (-9002.804) (-9007.320) [-9002.435] * (-9002.048) [-9002.118] (-9005.940) (-9004.691) -- 0:00:31
      211500 -- (-9003.306) (-9003.085) [-9003.257] (-9003.231) * (-9003.375) (-9001.154) [-9004.667] (-9008.025) -- 0:00:32
      212000 -- (-9003.206) (-9002.534) (-9004.904) [-9005.512] * (-9003.375) [-9003.000] (-9004.805) (-9004.461) -- 0:00:32
      212500 -- (-9005.074) [-9004.743] (-9005.630) (-9009.657) * (-9003.375) (-9003.116) (-9005.334) [-9009.395] -- 0:00:32
      213000 -- (-9003.388) (-9004.355) (-9004.784) [-9007.729] * (-9003.399) (-9004.173) [-9003.790] (-9010.338) -- 0:00:32
      213500 -- (-9004.206) [-9004.816] (-9006.725) (-9005.843) * (-9003.212) (-9002.560) [-9003.390] (-9005.717) -- 0:00:32
      214000 -- (-9009.321) (-9004.815) [-9006.375] (-9005.304) * [-9004.840] (-9002.681) (-9002.944) (-9004.547) -- 0:00:32
      214500 -- [-9008.352] (-9004.703) (-9004.794) (-9005.389) * (-9004.598) (-9000.569) [-9003.144] (-9004.070) -- 0:00:31
      215000 -- (-9008.476) (-9003.109) (-9006.358) [-9003.167] * (-9003.114) (-9002.292) [-9004.130] (-9008.636) -- 0:00:31

      Average standard deviation of split frequencies: 0.012549

      215500 -- (-9004.051) (-9002.704) (-9009.709) [-9003.699] * (-9003.829) [-9001.243] (-9004.152) (-9008.222) -- 0:00:31
      216000 -- (-9004.729) (-9003.166) (-9003.833) [-9001.265] * (-9004.265) (-9003.683) [-9004.194] (-9006.822) -- 0:00:31
      216500 -- (-9004.784) (-9003.811) [-9003.729] (-9003.401) * (-9003.986) [-9003.639] (-9003.271) (-9005.695) -- 0:00:31
      217000 -- (-9004.686) (-9004.585) [-9003.161] (-9004.516) * [-9004.516] (-9003.398) (-9003.216) (-9006.221) -- 0:00:31
      217500 -- (-9003.767) (-9005.995) (-9006.248) [-9003.987] * (-9003.694) (-9002.621) [-9002.582] (-9006.652) -- 0:00:31
      218000 -- [-9003.134] (-9003.282) (-9003.728) (-9004.529) * [-9003.089] (-9003.249) (-9002.593) (-9006.689) -- 0:00:31
      218500 -- [-9003.087] (-9004.463) (-9003.529) (-9003.227) * (-9004.469) [-9005.099] (-9003.907) (-9006.484) -- 0:00:30
      219000 -- (-9005.939) (-9003.551) [-9003.004] (-9002.441) * (-9005.713) (-9005.281) [-9003.768] (-9006.202) -- 0:00:30
      219500 -- (-9003.766) (-9003.092) (-9004.453) [-9003.728] * (-9005.546) (-9004.942) [-9003.768] (-9005.210) -- 0:00:30
      220000 -- [-9003.991] (-9006.264) (-9004.639) (-9004.370) * [-9005.670] (-9005.336) (-9003.399) (-9005.609) -- 0:00:30

      Average standard deviation of split frequencies: 0.013031

      220500 -- [-9006.807] (-9006.580) (-9003.975) (-9002.901) * [-9005.671] (-9002.534) (-9004.285) (-9005.419) -- 0:00:31
      221000 -- (-9006.312) (-9006.980) (-9005.381) [-9002.688] * (-9005.671) (-9003.333) [-9004.328] (-9005.749) -- 0:00:31
      221500 -- [-9004.424] (-9006.985) (-9005.540) (-9003.800) * (-9005.174) [-9008.802] (-9006.933) (-9003.292) -- 0:00:31
      222000 -- (-9006.796) (-9007.844) [-9005.558] (-9003.636) * [-9004.509] (-9011.328) (-9005.780) (-9003.233) -- 0:00:31
      222500 -- (-9002.667) (-9006.624) (-9009.153) [-9003.885] * (-9004.618) (-9008.665) [-9006.196] (-9003.288) -- 0:00:31
      223000 -- (-9004.380) (-9006.194) (-9009.110) [-9004.153] * (-9004.576) (-9010.892) (-9005.446) [-9003.386] -- 0:00:31
      223500 -- (-9002.808) [-9005.115] (-9008.928) (-9006.880) * [-9004.444] (-9005.464) (-9006.463) (-9003.302) -- 0:00:30
      224000 -- [-9004.180] (-9002.826) (-9008.616) (-9004.863) * (-9003.016) (-9005.464) (-9006.208) [-9003.473] -- 0:00:30
      224500 -- (-9004.495) (-9004.862) (-9006.881) [-9003.108] * (-9006.536) (-9002.160) (-9003.228) [-9003.072] -- 0:00:30
      225000 -- (-9005.246) (-9002.660) (-9007.284) [-9003.311] * (-9006.552) (-9001.728) (-9004.280) [-9003.830] -- 0:00:30

      Average standard deviation of split frequencies: 0.013245

      225500 -- (-9005.208) (-9003.471) (-9009.150) [-9004.589] * (-9006.482) (-9003.079) [-9004.658] (-9004.353) -- 0:00:30
      226000 -- (-9005.412) (-9003.475) [-9008.359] (-9002.806) * (-9003.998) (-9002.688) [-9004.577] (-9003.715) -- 0:00:30
      226500 -- (-9001.164) [-9004.941] (-9008.868) (-9005.039) * (-9003.249) (-9001.681) (-9004.481) [-9003.716] -- 0:00:30
      227000 -- (-9006.381) [-9003.368] (-9003.960) (-9006.597) * (-9003.162) (-9002.897) [-9003.316] (-9003.937) -- 0:00:30
      227500 -- [-9006.498] (-9003.653) (-9005.521) (-9005.875) * (-9004.393) (-9004.136) [-9002.173] (-9004.322) -- 0:00:29
      228000 -- [-9003.242] (-9004.295) (-9005.153) (-9005.798) * (-9005.650) [-9003.741] (-9003.522) (-9004.320) -- 0:00:29
      228500 -- [-9004.023] (-9004.350) (-9004.748) (-9005.099) * (-9004.864) [-9004.451] (-9003.522) (-9004.627) -- 0:00:29
      229000 -- [-9001.443] (-9003.560) (-9004.375) (-9002.821) * (-9004.716) (-9004.167) [-9003.458] (-9004.743) -- 0:00:29
      229500 -- (-9001.849) [-9003.764] (-9003.925) (-9002.098) * (-9004.601) (-9004.301) [-9003.470] (-9004.081) -- 0:00:29
      230000 -- (-9002.523) (-9007.930) (-9004.122) [-9003.449] * [-9003.769] (-9003.254) (-9003.449) (-9004.232) -- 0:00:30

      Average standard deviation of split frequencies: 0.012058

      230500 -- (-9003.300) (-9005.161) (-9004.124) [-9006.480] * (-9009.294) [-9003.481] (-9003.524) (-9004.103) -- 0:00:30
      231000 -- (-9002.932) [-9004.970] (-9003.307) (-9004.671) * (-9003.865) (-9001.263) [-9003.652] (-9004.099) -- 0:00:30
      231500 -- (-9002.181) (-9004.905) [-9003.363] (-9006.139) * (-9003.373) (-9002.708) [-9003.657] (-9003.662) -- 0:00:30
      232000 -- [-9003.253] (-9004.817) (-9003.481) (-9006.647) * (-9008.368) (-9005.059) [-9002.265] (-9006.736) -- 0:00:30
      232500 -- (-9003.788) (-9005.673) (-9003.363) [-9005.811] * (-9008.647) (-9006.177) [-9004.320] (-9005.418) -- 0:00:29
      233000 -- [-9003.169] (-9004.826) (-9003.337) (-9003.203) * (-9008.901) (-9007.096) [-9012.465] (-9004.012) -- 0:00:29
      233500 -- (-9003.702) (-9003.557) (-9003.794) [-9003.487] * (-9003.674) [-9006.328] (-9009.947) (-9004.541) -- 0:00:29
      234000 -- (-9002.282) (-9004.168) [-9003.002] (-9003.716) * [-9003.835] (-9007.611) (-9005.103) (-9004.225) -- 0:00:29
      234500 -- [-9004.338] (-9003.653) (-9002.860) (-9003.427) * [-9004.199] (-9004.778) (-9004.763) (-9004.226) -- 0:00:29
      235000 -- (-9005.023) (-9010.005) [-9004.225] (-9001.559) * [-9005.499] (-9004.844) (-9004.735) (-9004.625) -- 0:00:29

      Average standard deviation of split frequencies: 0.012484

      235500 -- (-9006.160) (-9009.879) (-9008.035) [-9000.662] * (-9006.482) (-9001.703) [-9003.775] (-9004.576) -- 0:00:29
      236000 -- (-9004.992) (-9010.005) (-9005.770) [-9000.710] * (-9005.487) (-9003.800) [-9002.490] (-9004.574) -- 0:00:29
      236500 -- [-9004.813] (-9008.306) (-9005.112) (-9001.970) * [-9003.970] (-9003.901) (-9003.093) (-9004.299) -- 0:00:28
      237000 -- (-9004.372) (-9012.392) (-9004.693) [-9002.364] * (-9004.138) (-9003.730) [-9003.694] (-9005.263) -- 0:00:28
      237500 -- (-9009.616) (-9014.215) (-9004.655) [-9004.156] * [-9006.488] (-9003.249) (-9005.129) (-9004.176) -- 0:00:28
      238000 -- [-9008.906] (-9010.370) (-9001.467) (-9001.415) * (-9007.625) (-9003.525) [-9005.059] (-9004.176) -- 0:00:28
      238500 -- (-9007.005) [-9004.860] (-9003.562) (-9007.078) * (-9012.164) [-9005.364] (-9005.416) (-9003.790) -- 0:00:28
      239000 -- (-9003.243) [-9008.076] (-9005.095) (-9003.097) * [-9007.028] (-9002.669) (-9004.074) (-9004.069) -- 0:00:28
      239500 -- (-9003.859) (-9005.920) (-9002.972) [-9003.277] * (-9004.545) (-9002.957) [-9003.831] (-9004.051) -- 0:00:29
      240000 -- (-9007.812) [-9004.659] (-9002.943) (-9002.420) * (-9003.832) [-9001.706] (-9003.735) (-9004.649) -- 0:00:29

      Average standard deviation of split frequencies: 0.012841

      240500 -- (-9008.114) [-9003.554] (-9004.144) (-9002.339) * (-9004.532) (-9006.470) (-9004.350) [-9004.471] -- 0:00:29
      241000 -- [-9003.424] (-9005.583) (-9004.191) (-9003.377) * (-9004.487) [-9006.638] (-9003.606) (-9004.540) -- 0:00:29
      241500 -- (-9002.769) (-9004.876) [-9002.371] (-9003.679) * (-9004.187) (-9010.109) (-9004.031) [-9004.476] -- 0:00:28
      242000 -- (-9003.764) (-9003.638) [-9005.970] (-9004.002) * (-9003.910) (-9007.842) [-9006.592] (-9007.418) -- 0:00:28
      242500 -- [-9004.857] (-9003.754) (-9009.573) (-9005.521) * (-9006.103) [-9005.035] (-9003.453) (-9005.526) -- 0:00:28
      243000 -- [-9005.710] (-9003.865) (-9009.046) (-9009.078) * [-9006.085] (-9004.218) (-9003.898) (-9003.935) -- 0:00:28
      243500 -- [-9004.953] (-9004.778) (-9006.059) (-9008.824) * [-9008.054] (-9003.896) (-9005.529) (-9002.556) -- 0:00:28
      244000 -- (-9002.499) (-9003.419) (-9005.616) [-9009.657] * (-9004.412) (-9004.825) (-9002.468) [-9003.216] -- 0:00:28
      244500 -- [-9003.026] (-9005.298) (-9007.228) (-9006.558) * (-9008.095) (-9008.729) (-9004.467) [-9002.158] -- 0:00:28
      245000 -- (-9006.000) [-9003.898] (-9004.209) (-9011.100) * (-9007.956) (-9003.977) (-9003.985) [-9002.332] -- 0:00:28

      Average standard deviation of split frequencies: 0.012988

      245500 -- (-9006.680) [-9003.104] (-9003.619) (-9010.467) * [-9008.174] (-9005.234) (-9005.373) (-9003.544) -- 0:00:27
      246000 -- (-9004.347) (-9003.161) [-9007.818] (-9007.868) * (-9007.805) (-9003.344) (-9002.966) [-9003.121] -- 0:00:27
      246500 -- (-9001.512) [-9003.561] (-9007.981) (-9007.979) * (-9005.367) (-9003.344) (-9002.787) [-9003.928] -- 0:00:27
      247000 -- (-9003.062) [-9002.796] (-9008.879) (-9006.617) * (-9006.191) (-9002.899) [-9004.445] (-9003.928) -- 0:00:27
      247500 -- (-9002.532) [-9002.141] (-9005.458) (-9006.949) * (-9005.117) (-9002.601) (-9007.289) [-9003.457] -- 0:00:27
      248000 -- (-9004.457) (-9001.762) [-9004.065] (-9007.158) * (-9005.898) (-9002.899) [-9003.989] (-9003.323) -- 0:00:27
      248500 -- (-9004.320) (-9003.316) [-9003.236] (-9005.587) * [-9003.698] (-9003.996) (-9007.531) (-9003.515) -- 0:00:28
      249000 -- (-9003.613) (-9003.265) [-9005.573] (-9007.207) * (-9005.488) (-9003.945) [-9008.268] (-9002.971) -- 0:00:28
      249500 -- (-9005.826) (-9002.988) [-9004.872] (-9008.303) * (-9005.051) (-9005.441) (-9005.499) [-9003.450] -- 0:00:28
      250000 -- [-9005.660] (-9003.637) (-9005.203) (-9007.770) * (-9004.636) [-9005.441] (-9005.127) (-9004.495) -- 0:00:28

      Average standard deviation of split frequencies: 0.011597

      250500 -- (-9005.810) [-9003.509] (-9004.404) (-9006.657) * (-9005.473) (-9005.203) [-9005.752] (-9005.281) -- 0:00:27
      251000 -- [-9004.941] (-9002.997) (-9003.163) (-9007.827) * (-9005.535) [-9004.495] (-9006.705) (-9006.784) -- 0:00:27
      251500 -- [-9005.382] (-9003.023) (-9003.832) (-9004.578) * (-9005.106) (-9004.623) (-9006.705) [-9003.521] -- 0:00:27
      252000 -- (-9006.596) (-9002.831) [-9006.020] (-9004.491) * [-9009.201] (-9005.694) (-9007.843) (-9003.573) -- 0:00:27
      252500 -- (-9006.977) (-9002.671) (-9011.444) [-9004.491] * [-9006.161] (-9005.680) (-9004.213) (-9003.420) -- 0:00:27
      253000 -- (-9006.062) (-9001.416) (-9012.005) [-9004.477] * (-9003.906) (-9007.446) [-9003.895] (-9005.919) -- 0:00:27
      253500 -- [-9005.938] (-9002.838) (-9003.743) (-9004.411) * (-9005.947) (-9003.448) [-9003.869] (-9004.261) -- 0:00:27
      254000 -- (-9012.827) [-9002.159] (-9005.004) (-9003.894) * (-9006.160) (-9003.466) (-9003.955) [-9003.875] -- 0:00:27
      254500 -- [-9007.147] (-9006.924) (-9005.374) (-9003.965) * (-9007.712) [-9003.375] (-9004.285) (-9008.508) -- 0:00:27
      255000 -- [-9008.615] (-9004.025) (-9003.314) (-9004.117) * (-9006.059) (-9003.400) [-9002.756] (-9005.476) -- 0:00:26

      Average standard deviation of split frequencies: 0.012696

      255500 -- (-9006.348) (-9003.991) (-9005.398) [-9004.711] * (-9002.733) (-9003.411) [-9005.982] (-9005.496) -- 0:00:26
      256000 -- (-9006.061) (-9006.861) (-9005.417) [-9003.630] * [-9002.383] (-9003.405) (-9005.839) (-9005.372) -- 0:00:26
      256500 -- (-9006.763) [-9005.678] (-9004.684) (-9003.671) * (-9004.278) [-9006.741] (-9005.190) (-9005.627) -- 0:00:26
      257000 -- (-9004.309) (-9004.783) [-9003.965] (-9003.561) * (-9004.278) (-9004.755) [-9004.906] (-9006.141) -- 0:00:26
      257500 -- (-9007.403) (-9002.258) (-9003.849) [-9003.252] * (-9002.458) [-9007.974] (-9005.579) (-9003.443) -- 0:00:26
      258000 -- [-9006.317] (-9003.556) (-9004.118) (-9003.885) * (-9002.821) (-9009.410) (-9004.387) [-9003.676] -- 0:00:27
      258500 -- (-9005.636) (-9003.557) (-9005.703) [-9003.829] * (-9004.676) (-9004.064) (-9004.181) [-9005.305] -- 0:00:27
      259000 -- (-9006.879) [-9003.178] (-9008.316) (-9003.793) * (-9005.563) (-9004.064) (-9003.913) [-9004.597] -- 0:00:26
      259500 -- (-9006.005) (-9004.061) [-9006.124] (-9002.905) * (-9005.649) (-9004.887) [-9004.099] (-9004.880) -- 0:00:26
      260000 -- (-9004.897) (-9004.018) (-9007.552) [-9004.314] * (-9006.882) (-9006.756) [-9004.267] (-9004.499) -- 0:00:26

      Average standard deviation of split frequencies: 0.012340

      260500 -- (-9006.207) [-9004.059] (-9007.626) (-9005.698) * (-9005.811) (-9005.471) (-9005.303) [-9004.605] -- 0:00:26
      261000 -- [-9009.225] (-9003.792) (-9004.099) (-9005.415) * (-9005.027) [-9007.104] (-9005.303) (-9006.317) -- 0:00:26
      261500 -- (-9006.842) (-9004.440) [-9003.256] (-9004.299) * (-9005.456) [-9005.944] (-9005.465) (-9006.155) -- 0:00:26
      262000 -- (-9007.618) [-9004.363] (-9004.314) (-9003.522) * (-9006.529) (-9005.944) (-9004.070) [-9005.636] -- 0:00:26
      262500 -- (-9009.376) (-9004.363) (-9003.173) [-9004.279] * [-9006.583] (-9005.944) (-9003.604) (-9005.968) -- 0:00:26
      263000 -- [-9010.275] (-9004.113) (-9003.920) (-9006.303) * [-9005.966] (-9005.480) (-9004.046) (-9009.239) -- 0:00:26
      263500 -- (-9006.041) [-9003.815] (-9001.645) (-9006.640) * (-9005.854) (-9003.662) [-9004.252] (-9005.890) -- 0:00:26
      264000 -- (-9008.782) (-9007.080) [-9003.425] (-9007.726) * [-9006.005] (-9003.830) (-9005.567) (-9005.884) -- 0:00:25
      264500 -- (-9003.472) (-9007.191) (-9003.784) [-9006.503] * (-9005.947) (-9004.167) [-9005.482] (-9004.697) -- 0:00:25
      265000 -- [-9002.180] (-9007.884) (-9005.321) (-9005.558) * (-9005.509) [-9003.753] (-9005.911) (-9006.097) -- 0:00:25

      Average standard deviation of split frequencies: 0.012110

      265500 -- (-9001.073) (-9007.604) (-9003.430) [-9004.608] * (-9008.399) [-9004.958] (-9005.655) (-9003.014) -- 0:00:25
      266000 -- [-9001.919] (-9004.598) (-9003.649) (-9003.746) * [-9003.854] (-9004.842) (-9006.517) (-9003.426) -- 0:00:25
      266500 -- (-9002.581) (-9004.599) [-9006.003] (-9004.905) * [-9005.368] (-9005.629) (-9008.542) (-9004.171) -- 0:00:25
      267000 -- (-9003.247) [-9004.938] (-9004.172) (-9005.979) * [-9004.578] (-9003.375) (-9007.864) (-9004.878) -- 0:00:26
      267500 -- [-9003.962] (-9009.394) (-9009.806) (-9005.990) * (-9010.314) (-9002.849) (-9004.044) [-9004.878] -- 0:00:26
      268000 -- (-9004.321) (-9008.202) (-9003.535) [-9005.911] * (-9006.072) (-9003.190) [-9004.044] (-9004.758) -- 0:00:25
      268500 -- (-9003.049) (-9007.763) [-9004.620] (-9005.962) * [-9006.313] (-9005.289) (-9006.544) (-9005.966) -- 0:00:25
      269000 -- [-9002.994] (-9008.018) (-9007.423) (-9004.850) * (-9005.199) (-9003.973) (-9003.821) [-9004.212] -- 0:00:25
      269500 -- (-9003.821) (-9002.748) (-9007.424) [-9005.284] * (-9003.241) (-9011.075) [-9005.844] (-9004.571) -- 0:00:25
      270000 -- (-9004.508) (-9002.910) (-9004.085) [-9004.848] * [-9003.614] (-9004.248) (-9006.081) (-9004.384) -- 0:00:25

      Average standard deviation of split frequencies: 0.012909

      270500 -- (-9005.763) [-9001.862] (-9004.202) (-9003.944) * (-9005.424) (-9003.846) (-9005.495) [-9004.345] -- 0:00:25
      271000 -- (-9003.038) [-9002.500] (-9004.038) (-9004.865) * (-9003.877) [-9004.893] (-9005.218) (-9005.108) -- 0:00:25
      271500 -- [-9002.979] (-9003.006) (-9003.058) (-9003.839) * (-9004.308) [-9004.615] (-9005.619) (-9005.925) -- 0:00:25
      272000 -- (-9004.238) (-9004.689) (-9002.570) [-9004.256] * (-9004.467) (-9004.507) (-9006.485) [-9002.868] -- 0:00:25
      272500 -- [-9003.444] (-9005.437) (-9006.882) (-9003.134) * [-9003.433] (-9003.356) (-9007.528) (-9004.078) -- 0:00:25
      273000 -- (-9003.627) (-9003.723) [-9003.982] (-9004.697) * (-9004.153) [-9003.375] (-9007.406) (-9002.266) -- 0:00:24
      273500 -- (-9003.197) (-9003.804) (-9003.823) [-9002.487] * [-9002.524] (-9003.644) (-9007.165) (-9003.431) -- 0:00:24
      274000 -- (-9004.196) (-9003.643) (-9002.957) [-9004.037] * (-9004.122) [-9006.668] (-9006.123) (-9003.691) -- 0:00:24
      274500 -- (-9004.952) [-9003.059] (-9001.418) (-9002.916) * (-9005.890) (-9004.569) [-9008.115] (-9004.269) -- 0:00:24
      275000 -- (-9005.158) (-9003.900) (-9005.931) [-9003.315] * [-9003.981] (-9005.044) (-9005.000) (-9005.334) -- 0:00:24

      Average standard deviation of split frequencies: 0.012051

      275500 -- (-9005.787) (-9009.897) (-9004.454) [-9004.360] * (-9005.515) (-9004.906) [-9007.816] (-9003.086) -- 0:00:24
      276000 -- [-9003.880] (-9008.076) (-9002.301) (-9003.627) * (-9005.616) [-9004.600] (-9007.169) (-9003.573) -- 0:00:24
      276500 -- (-9006.685) [-9008.079] (-9005.556) (-9005.652) * (-9005.669) [-9003.378] (-9003.944) (-9003.397) -- 0:00:25
      277000 -- (-9006.671) (-9006.062) [-9004.945] (-9005.385) * (-9003.697) (-9003.384) [-9002.481] (-9003.627) -- 0:00:24
      277500 -- [-9005.387] (-9007.037) (-9005.615) (-9004.589) * [-9003.721] (-9003.401) (-9004.537) (-9004.254) -- 0:00:24
      278000 -- (-9003.015) (-9006.868) [-9002.741] (-9004.126) * (-9003.137) (-9004.929) (-9005.139) [-9005.783] -- 0:00:24
      278500 -- [-9002.261] (-9006.394) (-9005.092) (-9004.906) * [-9002.999] (-9004.632) (-9004.615) (-9006.031) -- 0:00:24
      279000 -- (-9005.325) (-9007.629) [-9004.647] (-9007.395) * (-9003.036) (-9003.320) (-9003.656) [-9005.504] -- 0:00:24
      279500 -- (-9005.273) (-9006.590) (-9004.544) [-9006.384] * [-9001.647] (-9003.320) (-9006.021) (-9004.139) -- 0:00:24
      280000 -- (-9003.680) (-9007.812) (-9008.165) [-9005.666] * [-9001.867] (-9004.349) (-9005.552) (-9002.676) -- 0:00:24

      Average standard deviation of split frequencies: 0.011850

      280500 -- (-9004.595) (-9010.818) [-9004.147] (-9014.875) * (-9004.362) (-9003.807) (-9005.573) [-9003.995] -- 0:00:24
      281000 -- (-9003.927) (-9006.447) (-9003.850) [-9008.427] * (-9003.944) (-9004.008) (-9004.487) [-9003.887] -- 0:00:24
      281500 -- (-9003.734) (-9007.564) (-9003.369) [-9003.169] * (-9007.807) (-9005.314) [-9004.500] (-9005.194) -- 0:00:24
      282000 -- (-9002.899) (-9006.557) [-9001.920] (-9001.441) * (-9007.807) [-9005.430] (-9003.024) (-9009.393) -- 0:00:23
      282500 -- (-9002.671) (-9003.205) [-9003.357] (-9006.279) * (-9008.987) (-9005.595) [-9003.557] (-9003.748) -- 0:00:23
      283000 -- [-9006.877] (-9003.719) (-9004.004) (-9005.530) * (-9006.310) (-9004.551) (-9004.440) [-9003.505] -- 0:00:23
      283500 -- [-9003.471] (-9003.719) (-9003.411) (-9005.880) * (-9007.200) [-9004.371] (-9004.382) (-9005.339) -- 0:00:23
      284000 -- [-9001.979] (-9004.447) (-9003.532) (-9005.727) * (-9010.238) [-9005.751] (-9002.876) (-9011.631) -- 0:00:23
      284500 -- (-9003.844) (-9003.711) [-9004.353] (-9004.129) * (-9012.376) (-9005.458) [-9003.061] (-9009.667) -- 0:00:23
      285000 -- (-9003.718) (-9003.711) (-9003.994) [-9002.248] * (-9009.960) (-9003.631) [-9003.003] (-9011.051) -- 0:00:23

      Average standard deviation of split frequencies: 0.011885

      285500 -- (-9004.114) (-9002.219) [-9003.154] (-9004.657) * (-9006.431) [-9003.631] (-9004.177) (-9007.632) -- 0:00:24
      286000 -- (-9003.035) (-9003.993) [-9004.468] (-9005.357) * (-9006.632) [-9004.650] (-9003.372) (-9008.188) -- 0:00:23
      286500 -- (-9002.879) (-9006.144) (-9005.632) [-9003.671] * (-9006.832) (-9004.650) (-9005.577) [-9007.994] -- 0:00:23
      287000 -- (-9008.627) (-9003.669) [-9006.438] (-9003.735) * (-9005.458) [-9005.440] (-9005.854) (-9007.384) -- 0:00:23
      287500 -- (-9008.634) [-9003.669] (-9006.164) (-9003.683) * (-9004.336) (-9005.672) [-9003.974] (-9007.550) -- 0:00:23
      288000 -- (-9008.634) (-9004.892) (-9002.698) [-9003.529] * (-9004.305) (-9007.179) [-9003.435] (-9008.142) -- 0:00:23
      288500 -- (-9008.963) [-9004.973] (-9001.420) (-9003.421) * [-9008.957] (-9003.894) (-9004.343) (-9007.749) -- 0:00:23
      289000 -- (-9009.007) (-9004.968) (-9004.319) [-9003.543] * (-9007.130) (-9003.894) [-9002.179] (-9003.871) -- 0:00:23
      289500 -- [-9004.928] (-9004.793) (-9004.319) (-9003.224) * (-9007.820) (-9003.762) [-9002.488] (-9004.925) -- 0:00:23
      290000 -- [-9004.637] (-9004.793) (-9003.584) (-9006.352) * (-9004.519) (-9005.434) [-9002.539] (-9004.925) -- 0:00:23

      Average standard deviation of split frequencies: 0.012704

      290500 -- [-9003.454] (-9004.500) (-9002.868) (-9007.184) * [-9006.835] (-9004.713) (-9004.287) (-9003.878) -- 0:00:23
      291000 -- (-9002.935) [-9003.446] (-9003.524) (-9003.432) * [-9005.565] (-9004.502) (-9004.836) (-9004.130) -- 0:00:22
      291500 -- (-9001.926) (-9004.377) (-9003.275) [-9002.366] * (-9004.522) (-9005.065) (-9006.215) [-9004.959] -- 0:00:22
      292000 -- (-9003.770) [-9004.381] (-9003.024) (-9003.975) * (-9003.345) (-9005.065) [-9003.866] (-9004.157) -- 0:00:22
      292500 -- (-9004.300) (-9003.537) (-9003.524) [-9005.245] * (-9003.674) [-9005.894] (-9004.639) (-9003.419) -- 0:00:22
      293000 -- (-9003.982) (-9002.745) (-9002.875) [-9003.539] * [-9003.234] (-9005.303) (-9005.370) (-9005.600) -- 0:00:22
      293500 -- (-9003.342) [-9003.023] (-9002.803) (-9003.260) * [-9003.930] (-9005.112) (-9003.588) (-9004.291) -- 0:00:22
      294000 -- (-9002.705) (-9003.462) [-9001.890] (-9003.849) * [-9003.112] (-9004.292) (-9003.308) (-9007.899) -- 0:00:22
      294500 -- (-9002.911) (-9003.330) [-9001.115] (-9005.488) * (-9003.603) [-9005.705] (-9003.179) (-9008.363) -- 0:00:22
      295000 -- (-9005.241) (-9003.512) [-9009.733] (-9005.415) * (-9003.217) [-9005.281] (-9003.179) (-9007.793) -- 0:00:22

      Average standard deviation of split frequencies: 0.013584

      295500 -- [-9004.320] (-9003.512) (-9005.983) (-9005.593) * (-9003.206) [-9005.148] (-9003.179) (-9008.157) -- 0:00:22
      296000 -- (-9002.227) (-9004.780) (-9003.579) [-9004.393] * (-9003.461) (-9012.074) (-9003.955) [-9003.979] -- 0:00:22
      296500 -- (-9003.278) (-9004.971) [-9004.769] (-9003.126) * (-9004.189) (-9003.194) (-9005.156) [-9003.982] -- 0:00:22
      297000 -- (-9001.963) (-9004.402) (-9005.106) [-9003.636] * (-9004.189) (-9004.297) [-9005.190] (-9003.027) -- 0:00:22
      297500 -- (-9003.452) [-9003.073] (-9004.412) (-9004.351) * (-9003.535) (-9004.335) (-9005.256) [-9003.233] -- 0:00:22
      298000 -- (-9002.331) [-9003.080] (-9005.100) (-9005.579) * [-9004.028] (-9004.335) (-9004.801) (-9003.159) -- 0:00:22
      298500 -- [-9001.601] (-9002.955) (-9007.355) (-9005.366) * (-9003.759) (-9004.177) (-9006.010) [-9002.114] -- 0:00:22
      299000 -- [-9002.166] (-9003.470) (-9004.595) (-9004.288) * (-9003.759) (-9003.464) [-9007.189] (-9002.144) -- 0:00:22
      299500 -- (-9003.097) (-9004.202) [-9003.636] (-9002.936) * (-9003.610) (-9003.304) (-9007.545) [-9003.549] -- 0:00:22
      300000 -- (-9004.734) (-9003.266) [-9003.495] (-9005.252) * (-9007.448) (-9004.310) [-9004.249] (-9006.368) -- 0:00:22

      Average standard deviation of split frequencies: 0.013281

      300500 -- [-9006.969] (-9002.560) (-9003.141) (-9008.270) * (-9003.919) [-9004.194] (-9005.536) (-9004.253) -- 0:00:21
      301000 -- (-9006.215) [-9003.467] (-9007.248) (-9009.635) * (-9003.358) (-9003.384) (-9004.084) [-9004.244] -- 0:00:21
      301500 -- [-9003.417] (-9007.846) (-9005.568) (-9008.587) * (-9000.607) (-9005.047) (-9004.098) [-9005.157] -- 0:00:21
      302000 -- (-9002.201) (-9005.540) [-9006.254] (-9006.347) * [-9003.934] (-9004.562) (-9003.317) (-9004.428) -- 0:00:21
      302500 -- (-9002.798) (-9006.507) (-9005.492) [-9003.889] * (-9003.403) [-9004.424] (-9004.042) (-9003.930) -- 0:00:21
      303000 -- [-9002.797] (-9002.974) (-9005.221) (-9005.183) * [-9005.133] (-9004.424) (-9004.185) (-9004.648) -- 0:00:21
      303500 -- [-9002.814] (-9001.991) (-9004.681) (-9005.183) * (-9004.969) (-9005.646) (-9006.121) [-9004.413] -- 0:00:21
      304000 -- (-9003.145) (-9003.239) [-9003.537] (-9007.973) * (-9003.839) [-9006.044] (-9005.761) (-9005.736) -- 0:00:21
      304500 -- [-9002.860] (-9001.710) (-9004.423) (-9004.778) * (-9003.988) (-9004.929) (-9006.246) [-9005.737] -- 0:00:21
      305000 -- [-9003.347] (-9005.366) (-9004.598) (-9003.307) * (-9004.016) [-9004.907] (-9007.644) (-9004.797) -- 0:00:21

      Average standard deviation of split frequencies: 0.012752

      305500 -- (-9003.127) [-9008.887] (-9004.120) (-9003.321) * [-9004.162] (-9004.197) (-9006.098) (-9002.679) -- 0:00:21
      306000 -- [-9001.546] (-9008.304) (-9004.987) (-9003.321) * (-9007.133) [-9003.851] (-9006.871) (-9003.816) -- 0:00:21
      306500 -- (-9001.414) [-9006.101] (-9005.926) (-9003.336) * (-9007.099) [-9002.437] (-9007.237) (-9009.997) -- 0:00:21
      307000 -- (-9001.828) (-9005.991) (-9008.843) [-9002.851] * (-9005.851) (-9000.981) (-9008.808) [-9005.709] -- 0:00:21
      307500 -- (-9002.123) (-9006.611) [-9008.683] (-9002.964) * (-9006.182) (-9002.256) (-9007.938) [-9005.094] -- 0:00:21
      308000 -- [-9002.976] (-9002.099) (-9006.589) (-9002.806) * (-9007.031) [-9005.946] (-9007.526) (-9005.578) -- 0:00:21
      308500 -- [-9001.978] (-9002.911) (-9008.204) (-9002.964) * (-9006.268) [-9005.073] (-9005.935) (-9004.359) -- 0:00:21
      309000 -- (-9002.830) (-9003.569) (-9008.462) [-9003.650] * [-9003.685] (-9002.386) (-9003.828) (-9005.696) -- 0:00:21
      309500 -- (-9002.297) (-9002.969) (-9008.169) [-9004.096] * (-9004.335) [-9003.503] (-9003.305) (-9007.810) -- 0:00:20
      310000 -- (-9005.054) (-9003.274) (-9007.699) [-9003.968] * [-9003.381] (-9003.876) (-9003.202) (-9004.590) -- 0:00:20

      Average standard deviation of split frequencies: 0.011855

      310500 -- [-9002.742] (-9003.004) (-9005.226) (-9003.651) * (-9003.560) [-9005.828] (-9005.724) (-9006.971) -- 0:00:20
      311000 -- (-9002.210) [-9005.495] (-9006.235) (-9004.441) * (-9003.491) [-9011.082] (-9004.495) (-9007.330) -- 0:00:20
      311500 -- (-9006.585) (-9005.674) (-9006.863) [-9003.370] * (-9003.045) (-9009.895) (-9005.904) [-9003.026] -- 0:00:20
      312000 -- (-9006.122) (-9006.233) (-9004.421) [-9003.089] * [-9003.408] (-9010.707) (-9010.060) (-9004.096) -- 0:00:20
      312500 -- (-9004.412) (-9003.951) [-9004.836] (-9003.116) * (-9006.762) (-9008.087) (-9009.344) [-9004.006] -- 0:00:20
      313000 -- [-9005.475] (-9004.631) (-9005.680) (-9003.088) * [-9005.745] (-9006.807) (-9009.074) (-9004.379) -- 0:00:20
      313500 -- (-9003.709) [-9004.631] (-9007.659) (-9003.015) * (-9005.945) (-9007.072) (-9008.912) [-9003.450] -- 0:00:20
      314000 -- (-9006.259) (-9006.453) (-9003.228) [-9005.741] * (-9006.789) (-9005.247) (-9007.317) [-9004.736] -- 0:00:20
      314500 -- [-9003.920] (-9006.302) (-9003.263) (-9001.819) * (-9005.797) (-9005.503) (-9007.708) [-9004.732] -- 0:00:20
      315000 -- [-9000.860] (-9001.762) (-9004.941) (-9006.671) * (-9003.072) (-9007.698) (-9004.258) [-9003.745] -- 0:00:20

      Average standard deviation of split frequencies: 0.011655

      315500 -- (-9001.150) (-9001.703) (-9004.538) [-9005.421] * [-9003.073] (-9003.348) (-9003.879) (-9004.374) -- 0:00:20
      316000 -- [-9001.389] (-9003.213) (-9004.150) (-9006.167) * (-9003.000) [-9005.116] (-9003.873) (-9003.710) -- 0:00:20
      316500 -- [-9004.433] (-9003.862) (-9004.606) (-9007.482) * (-9003.353) (-9005.938) (-9004.062) [-9004.167] -- 0:00:20
      317000 -- (-9001.686) [-9003.010] (-9005.352) (-9007.484) * [-9006.279] (-9006.613) (-9003.787) (-9003.671) -- 0:00:20
      317500 -- (-9003.710) [-9006.173] (-9003.867) (-9003.930) * (-9006.946) (-9005.874) (-9003.561) [-9003.774] -- 0:00:20
      318000 -- [-9002.820] (-9003.768) (-9003.324) (-9003.498) * [-9005.304] (-9004.280) (-9004.142) (-9004.484) -- 0:00:20
      318500 -- [-9003.677] (-9007.660) (-9002.483) (-9004.284) * (-9003.819) [-9004.281] (-9003.984) (-9004.910) -- 0:00:19
      319000 -- [-9001.665] (-9007.351) (-9003.349) (-9004.223) * (-9004.485) [-9003.532] (-9004.263) (-9006.420) -- 0:00:19
      319500 -- (-9003.369) (-9003.496) [-9004.569] (-9003.263) * (-9004.443) (-9003.869) [-9003.785] (-9004.165) -- 0:00:19
      320000 -- (-9003.426) (-9002.683) [-9002.974] (-9003.263) * (-9004.494) (-9002.771) (-9004.807) [-9005.800] -- 0:00:19

      Average standard deviation of split frequencies: 0.012404

      320500 -- (-9003.332) (-9007.640) (-9003.375) [-9003.289] * [-9003.735] (-9004.457) (-9004.721) (-9005.062) -- 0:00:19
      321000 -- (-9002.900) [-9004.878] (-9005.525) (-9003.157) * (-9001.152) (-9005.587) (-9004.741) [-9005.471] -- 0:00:19
      321500 -- (-9002.735) [-9002.847] (-9006.092) (-9003.718) * (-9004.740) (-9004.754) (-9003.428) [-9004.906] -- 0:00:19
      322000 -- (-9003.941) (-9004.710) [-9003.504] (-9003.729) * (-9003.343) [-9005.550] (-9003.759) (-9005.835) -- 0:00:19
      322500 -- (-9001.639) (-9004.884) [-9003.545] (-9003.889) * (-9007.489) (-9004.964) [-9005.198] (-9006.024) -- 0:00:19
      323000 -- (-9003.138) (-9004.197) [-9001.961] (-9003.888) * [-9005.800] (-9002.156) (-9004.540) (-9001.878) -- 0:00:19
      323500 -- (-9002.427) (-9003.504) [-9001.347] (-9002.967) * (-9006.112) (-9003.948) [-9004.206] (-9004.390) -- 0:00:19
      324000 -- [-9000.974] (-9003.461) (-9005.819) (-9003.452) * (-9007.358) [-9002.282] (-9006.301) (-9004.098) -- 0:00:19
      324500 -- [-9003.231] (-9005.448) (-9007.616) (-9003.495) * [-9004.155] (-9003.023) (-9005.063) (-9004.262) -- 0:00:19
      325000 -- (-9003.548) [-9005.429] (-9006.584) (-9002.161) * (-9005.625) (-9003.953) (-9006.135) [-9002.952] -- 0:00:19

      Average standard deviation of split frequencies: 0.012110

      325500 -- [-9002.655] (-9007.032) (-9007.673) (-9003.796) * (-9006.874) (-9003.431) [-9009.020] (-9005.159) -- 0:00:19
      326000 -- (-9001.596) [-9006.928] (-9005.849) (-9003.796) * (-9007.412) (-9002.201) (-9007.194) [-9005.001] -- 0:00:19
      326500 -- (-9003.773) (-9004.467) [-9004.092] (-9003.735) * (-9006.744) (-9001.866) (-9011.067) [-9004.426] -- 0:00:19
      327000 -- (-9005.101) [-9005.370] (-9005.448) (-9003.735) * [-9002.676] (-9002.648) (-9014.730) (-9004.024) -- 0:00:19
      327500 -- (-9004.865) (-9007.122) (-9005.616) [-9003.735] * (-9006.869) (-9003.057) (-9007.050) [-9003.560] -- 0:00:18
      328000 -- (-9003.146) (-9008.007) (-9005.091) [-9005.840] * (-9008.710) [-9003.259] (-9005.282) (-9003.141) -- 0:00:18
      328500 -- (-9005.767) (-9005.345) (-9005.085) [-9006.071] * (-9005.647) [-9002.841] (-9004.911) (-9003.248) -- 0:00:18
      329000 -- (-9002.732) [-9002.477] (-9003.018) (-9001.339) * (-9004.258) (-9004.305) [-9003.971] (-9008.380) -- 0:00:18
      329500 -- (-9003.374) (-9004.256) (-9002.903) [-9004.982] * (-9004.953) [-9002.476] (-9006.044) (-9009.284) -- 0:00:18
      330000 -- (-9003.722) [-9004.244] (-9003.090) (-9003.544) * (-9002.460) [-9003.629] (-9006.777) (-9003.238) -- 0:00:18

      Average standard deviation of split frequencies: 0.010603

      330500 -- (-9003.849) (-9003.329) [-9003.571] (-9003.547) * (-9006.178) (-9003.519) [-9005.108] (-9003.853) -- 0:00:18
      331000 -- (-9004.148) (-9004.819) [-9003.070] (-9004.214) * [-9003.501] (-9004.555) (-9006.334) (-9004.163) -- 0:00:18
      331500 -- (-9004.600) [-9003.598] (-9004.281) (-9004.189) * (-9003.583) [-9003.151] (-9005.458) (-9007.084) -- 0:00:18
      332000 -- [-9004.056] (-9003.188) (-9006.280) (-9003.146) * [-9003.682] (-9004.216) (-9007.727) (-9006.176) -- 0:00:18
      332500 -- (-9004.985) [-9003.590] (-9006.275) (-9001.973) * (-9003.773) (-9003.522) (-9003.508) [-9003.013] -- 0:00:18
      333000 -- (-9005.523) (-9003.365) (-9007.080) [-9002.241] * (-9003.891) [-9004.560] (-9003.260) (-9002.194) -- 0:00:18
      333500 -- [-9003.608] (-9004.668) (-9004.695) (-9003.813) * [-9003.378] (-9005.176) (-9004.149) (-9003.065) -- 0:00:18
      334000 -- (-9003.185) [-9004.386] (-9003.406) (-9006.062) * (-9003.893) [-9006.200] (-9004.566) (-9002.094) -- 0:00:18
      334500 -- (-9003.333) [-9004.387] (-9002.855) (-9004.863) * (-9009.081) (-9007.005) (-9004.371) [-9003.347] -- 0:00:18
      335000 -- (-9005.340) (-9004.598) (-9002.598) [-9004.094] * [-9006.865] (-9008.104) (-9004.903) (-9003.204) -- 0:00:18

      Average standard deviation of split frequencies: 0.010259

      335500 -- (-9002.409) (-9004.555) (-9001.704) [-9003.242] * (-9006.019) [-9004.432] (-9008.918) (-9003.295) -- 0:00:18
      336000 -- [-9002.230] (-9003.685) (-9002.511) (-9004.531) * (-9006.207) (-9001.803) [-9005.477] (-9002.855) -- 0:00:18
      336500 -- (-9002.570) (-9004.583) (-9002.607) [-9002.452] * [-9004.338] (-9003.739) (-9006.327) (-9001.559) -- 0:00:17
      337000 -- (-9004.938) [-9002.530] (-9003.035) (-9002.743) * (-9004.475) (-9003.739) [-9006.142] (-9004.162) -- 0:00:17
      337500 -- (-9002.477) [-9001.559] (-9002.050) (-9004.727) * [-9004.621] (-9002.458) (-9004.857) (-9002.735) -- 0:00:17
      338000 -- (-9003.136) (-9005.531) [-9002.808] (-9002.677) * [-9004.625] (-9003.678) (-9005.556) (-9004.524) -- 0:00:17
      338500 -- [-9003.784] (-9005.009) (-9003.462) (-9002.803) * (-9005.589) (-9001.636) (-9004.768) [-9003.591] -- 0:00:17
      339000 -- (-9003.352) (-9005.490) (-9002.920) [-9004.188] * (-9005.788) [-9004.173] (-9003.755) (-9002.082) -- 0:00:17
      339500 -- [-9002.263] (-9005.638) (-9002.888) (-9005.351) * (-9004.393) (-9004.236) (-9003.550) [-9003.577] -- 0:00:17
      340000 -- [-9004.900] (-9003.777) (-9005.685) (-9004.013) * [-9003.158] (-9004.604) (-9003.544) (-9005.326) -- 0:00:17

      Average standard deviation of split frequencies: 0.010378

      340500 -- (-9005.206) [-9003.509] (-9005.671) (-9006.418) * (-9008.694) (-9006.355) (-9003.755) [-9006.994] -- 0:00:17
      341000 -- (-9006.609) (-9004.152) [-9004.524] (-9006.848) * (-9008.977) (-9005.347) [-9002.715] (-9006.742) -- 0:00:17
      341500 -- [-9005.684] (-9004.254) (-9005.147) (-9003.832) * (-9009.716) [-9003.181] (-9004.198) (-9004.098) -- 0:00:17
      342000 -- (-9010.193) (-9004.730) (-9008.277) [-9001.681] * (-9009.259) (-9005.110) (-9004.197) [-9006.304] -- 0:00:17
      342500 -- (-9006.005) [-9005.958] (-9006.033) (-9004.119) * (-9007.925) (-9006.004) [-9008.719] (-9005.319) -- 0:00:17
      343000 -- (-9005.076) (-9000.619) (-9005.314) [-9002.248] * (-9004.554) [-9004.134] (-9006.601) (-9003.508) -- 0:00:17
      343500 -- (-9004.052) (-9001.029) [-9006.564] (-9003.046) * [-9003.490] (-9004.419) (-9006.257) (-9002.869) -- 0:00:17
      344000 -- (-9006.657) (-9005.339) (-9006.555) [-9003.115] * [-9004.534] (-9003.902) (-9005.746) (-9004.728) -- 0:00:17
      344500 -- (-9007.201) (-9005.322) (-9006.345) [-9003.811] * (-9005.202) (-9003.049) (-9004.783) [-9004.511] -- 0:00:17
      345000 -- (-9006.137) (-9006.339) [-9005.738] (-9005.274) * (-9005.006) [-9002.115] (-9004.852) (-9004.640) -- 0:00:17

      Average standard deviation of split frequencies: 0.010559

      345500 -- (-9005.109) (-9011.168) (-9003.167) [-9003.168] * [-9004.850] (-9003.714) (-9004.915) (-9002.584) -- 0:00:16
      346000 -- [-9005.787] (-9010.642) (-9008.407) (-9002.565) * (-9005.535) (-9003.858) (-9003.899) [-9003.815] -- 0:00:16
      346500 -- (-9006.124) [-9005.982] (-9004.109) (-9003.984) * (-9003.403) [-9003.216] (-9004.285) (-9002.389) -- 0:00:16
      347000 -- (-9005.169) [-9001.871] (-9007.492) (-9007.586) * (-9003.804) (-9003.894) (-9005.181) [-9003.357] -- 0:00:16
      347500 -- [-9004.963] (-9004.047) (-9004.849) (-9004.465) * (-9004.473) (-9005.419) [-9004.892] (-9003.495) -- 0:00:16
      348000 -- [-9005.989] (-9004.054) (-9007.106) (-9003.329) * (-9003.969) [-9006.736] (-9004.741) (-9003.215) -- 0:00:16
      348500 -- (-9005.495) (-9003.569) [-9003.287] (-9006.055) * (-9003.271) (-9006.769) [-9005.290] (-9002.518) -- 0:00:16
      349000 -- [-9004.920] (-9005.095) (-9006.631) (-9005.051) * [-9003.451] (-9007.372) (-9004.277) (-9002.695) -- 0:00:16
      349500 -- (-9005.432) (-9006.629) (-9005.360) [-9004.964] * [-9003.493] (-9007.335) (-9005.340) (-9002.768) -- 0:00:16
      350000 -- [-9005.111] (-9005.573) (-9001.816) (-9006.050) * (-9004.104) [-9003.910] (-9006.192) (-9001.752) -- 0:00:16

      Average standard deviation of split frequencies: 0.011511

      350500 -- (-9005.692) (-9007.081) [-9003.519] (-9003.152) * (-9004.154) [-9003.784] (-9008.034) (-9004.800) -- 0:00:16
      351000 -- (-9004.910) (-9005.406) [-9004.323] (-9003.647) * (-9003.559) (-9004.631) (-9007.955) [-9005.096] -- 0:00:16
      351500 -- (-9004.910) [-9004.623] (-9001.886) (-9005.185) * (-9005.190) (-9003.485) [-9005.056] (-9005.408) -- 0:00:16
      352000 -- (-9005.218) (-9006.156) [-9006.332] (-9004.891) * (-9003.280) (-9006.043) [-9005.413] (-9003.551) -- 0:00:16
      352500 -- (-9006.933) (-9006.700) (-9007.824) [-9006.183] * [-9002.766] (-9006.938) (-9004.854) (-9004.079) -- 0:00:16
      353000 -- (-9006.680) (-9005.388) (-9003.961) [-9007.006] * [-9003.033] (-9003.764) (-9005.363) (-9003.548) -- 0:00:16
      353500 -- (-9006.386) [-9004.458] (-9003.836) (-9005.086) * (-9002.860) (-9005.941) (-9002.905) [-9003.503] -- 0:00:16
      354000 -- [-9005.485] (-9000.819) (-9003.049) (-9003.984) * (-9004.653) [-9004.970] (-9001.574) (-9001.147) -- 0:00:16
      354500 -- (-9005.432) (-9004.749) (-9003.756) [-9002.226] * [-9003.107] (-9006.234) (-9003.035) (-9003.655) -- 0:00:16
      355000 -- (-9005.166) [-9003.099] (-9004.591) (-9004.011) * (-9005.119) (-9005.433) (-9003.965) [-9006.912] -- 0:00:15

      Average standard deviation of split frequencies: 0.010905

      355500 -- (-9007.056) [-9006.432] (-9004.895) (-9003.637) * (-9006.935) (-9004.817) (-9005.066) [-9008.732] -- 0:00:15
      356000 -- (-9005.932) [-9001.796] (-9005.010) (-9001.659) * (-9008.333) (-9006.627) (-9003.819) [-9008.444] -- 0:00:15
      356500 -- (-9004.307) (-9004.283) (-9009.520) [-9001.869] * (-9006.663) [-9002.750] (-9004.784) (-9006.893) -- 0:00:15
      357000 -- [-9007.823] (-9002.589) (-9014.842) (-9004.232) * (-9005.480) (-9003.981) [-9005.504] (-9003.985) -- 0:00:15
      357500 -- (-9005.174) (-9004.200) [-9003.622] (-9003.802) * (-9005.403) [-9004.984] (-9005.408) (-9006.666) -- 0:00:15
      358000 -- (-9004.786) [-9004.312] (-9004.152) (-9002.734) * (-9006.536) (-9003.984) [-9008.263] (-9007.943) -- 0:00:15
      358500 -- (-9005.524) (-9004.307) [-9002.317] (-9004.283) * [-9003.831] (-9006.621) (-9004.376) (-9005.609) -- 0:00:15
      359000 -- (-9005.893) (-9004.665) (-9002.661) [-9003.220] * (-9004.243) [-9003.305] (-9004.278) (-9006.250) -- 0:00:15
      359500 -- [-9003.999] (-9003.638) (-9005.062) (-9005.196) * (-9004.243) [-9004.638] (-9004.103) (-9011.277) -- 0:00:15
      360000 -- (-9006.467) (-9005.230) (-9004.184) [-9004.717] * [-9002.870] (-9005.126) (-9001.827) (-9009.528) -- 0:00:15

      Average standard deviation of split frequencies: 0.010456

      360500 -- (-9006.360) (-9003.329) [-9004.792] (-9004.871) * (-9003.196) (-9005.126) [-9002.324] (-9009.207) -- 0:00:15
      361000 -- (-9004.552) [-9002.936] (-9004.022) (-9005.691) * (-9006.107) [-9002.686] (-9007.906) (-9004.718) -- 0:00:15
      361500 -- (-9004.552) [-9003.812] (-9003.380) (-9005.788) * [-9004.037] (-9003.556) (-9006.366) (-9004.390) -- 0:00:15
      362000 -- (-9004.552) [-9003.657] (-9003.496) (-9006.087) * (-9004.153) [-9005.473] (-9005.196) (-9004.787) -- 0:00:15
      362500 -- [-9004.603] (-9003.241) (-9002.633) (-9006.247) * (-9003.223) [-9004.666] (-9006.238) (-9007.538) -- 0:00:15
      363000 -- (-9004.603) (-9003.635) (-9004.546) [-9003.484] * [-9003.494] (-9004.265) (-9004.719) (-9007.682) -- 0:00:15
      363500 -- (-9011.573) [-9002.912] (-9004.252) (-9007.819) * (-9010.386) [-9004.112] (-9003.715) (-9005.456) -- 0:00:15
      364000 -- (-9006.089) (-9003.577) (-9001.319) [-9004.903] * (-9005.105) (-9002.847) [-9004.090] (-9006.350) -- 0:00:14
      364500 -- (-9005.138) (-9003.360) (-9004.681) [-9004.781] * (-9005.142) [-9001.762] (-9005.018) (-9005.383) -- 0:00:14
      365000 -- (-9004.096) (-9007.020) [-9004.681] (-9008.426) * (-9003.244) [-9002.313] (-9004.254) (-9002.262) -- 0:00:14

      Average standard deviation of split frequencies: 0.010531

      365500 -- (-9003.663) (-9005.452) (-9003.711) [-9008.842] * (-9006.678) (-9001.612) (-9008.283) [-9002.272] -- 0:00:14
      366000 -- [-9003.854] (-9005.834) (-9003.073) (-9005.739) * (-9006.746) [-9003.191] (-9009.828) (-9003.352) -- 0:00:14
      366500 -- [-9003.782] (-9009.100) (-9003.043) (-9004.698) * (-9004.364) [-9003.179] (-9007.543) (-9002.762) -- 0:00:14
      367000 -- (-9004.621) (-9008.845) (-9005.476) [-9004.225] * (-9004.364) (-9004.344) (-9003.040) [-9003.042] -- 0:00:14
      367500 -- (-9005.466) (-9003.720) [-9005.093] (-9004.187) * (-9005.538) [-9004.962] (-9004.455) (-9004.412) -- 0:00:14
      368000 -- [-9003.268] (-9003.939) (-9005.148) (-9004.376) * (-9003.216) (-9004.830) (-9003.756) [-9004.050] -- 0:00:14
      368500 -- [-9003.147] (-9005.384) (-9006.815) (-9003.044) * (-9002.757) (-9005.380) (-9003.850) [-9004.397] -- 0:00:14
      369000 -- (-9003.150) (-9004.568) (-9007.158) [-9004.145] * [-9002.517] (-9004.422) (-9003.649) (-9004.534) -- 0:00:14
      369500 -- [-9003.111] (-9005.003) (-9008.695) (-9003.634) * (-9004.513) (-9004.870) [-9004.750] (-9002.741) -- 0:00:14
      370000 -- [-9002.852] (-9005.070) (-9003.873) (-9004.647) * [-9004.013] (-9006.053) (-9003.873) (-9006.689) -- 0:00:14

      Average standard deviation of split frequencies: 0.011049

      370500 -- (-9003.541) [-9005.151] (-9005.016) (-9004.613) * [-9004.013] (-9006.022) (-9006.521) (-9006.200) -- 0:00:14
      371000 -- (-9002.486) (-9007.519) [-9005.389] (-9004.612) * (-9004.182) (-9006.022) (-9007.451) [-9006.301] -- 0:00:14
      371500 -- [-9003.197] (-9004.566) (-9004.722) (-9003.663) * (-9005.066) (-9005.381) (-9005.581) [-9005.462] -- 0:00:14
      372000 -- (-9003.789) [-9004.165] (-9004.655) (-9003.556) * (-9007.686) [-9002.525] (-9001.357) (-9008.710) -- 0:00:14
      372500 -- (-9003.800) [-9004.520] (-9004.619) (-9004.453) * (-9003.543) (-9003.741) [-9002.185] (-9007.989) -- 0:00:14
      373000 -- (-9003.596) (-9006.565) (-9009.599) [-9003.720] * (-9005.529) (-9003.403) (-9003.251) [-9005.975] -- 0:00:13
      373500 -- [-9004.783] (-9003.923) (-9005.908) (-9004.730) * (-9004.450) (-9003.276) [-9005.393] (-9008.583) -- 0:00:13
      374000 -- (-9005.094) (-9005.349) [-9006.794] (-9004.419) * (-9005.316) (-9003.999) [-9006.197] (-9013.092) -- 0:00:13
      374500 -- [-9004.873] (-9005.308) (-9014.598) (-9004.442) * (-9005.392) (-9004.019) [-9004.167] (-9009.132) -- 0:00:13
      375000 -- (-9003.799) [-9006.033] (-9006.367) (-9003.449) * (-9009.818) (-9004.903) (-9004.892) [-9002.878] -- 0:00:13

      Average standard deviation of split frequencies: 0.011127

      375500 -- (-9004.639) [-9007.983] (-9005.050) (-9003.397) * (-9013.771) (-9005.191) (-9007.599) [-9003.495] -- 0:00:13
      376000 -- (-9004.120) (-9007.980) (-9003.256) [-9002.259] * (-9007.121) (-9004.980) (-9005.033) [-9003.187] -- 0:00:13
      376500 -- (-9007.879) (-9007.502) (-9005.493) [-9004.558] * (-9006.764) (-9006.592) (-9005.184) [-9004.722] -- 0:00:13
      377000 -- [-9009.057] (-9006.496) (-9003.465) (-9004.599) * [-9003.472] (-9005.550) (-9002.217) (-9004.676) -- 0:00:13
      377500 -- (-9005.725) (-9006.417) [-9002.655] (-9011.937) * (-9006.138) (-9003.844) (-9005.616) [-9004.146] -- 0:00:13
      378000 -- [-9006.159] (-9007.411) (-9003.389) (-9013.532) * (-9004.354) (-9004.278) (-9004.983) [-9004.086] -- 0:00:13
      378500 -- (-9004.851) [-9004.461] (-9006.661) (-9012.352) * [-9003.828] (-9005.385) (-9004.706) (-9004.136) -- 0:00:13
      379000 -- (-9004.851) (-9004.194) (-9006.511) [-9007.946] * [-9004.824] (-9003.090) (-9010.286) (-9003.641) -- 0:00:13
      379500 -- (-9004.715) [-9004.179] (-9002.689) (-9008.709) * [-9004.296] (-9003.998) (-9005.699) (-9003.904) -- 0:00:13
      380000 -- (-9004.570) [-9004.046] (-9002.948) (-9005.988) * (-9005.015) (-9011.732) [-9005.229] (-9003.777) -- 0:00:13

      Average standard deviation of split frequencies: 0.011068

      380500 -- [-9004.077] (-9010.546) (-9003.541) (-9006.324) * (-9004.710) (-9006.285) (-9005.685) [-9005.810] -- 0:00:13
      381000 -- (-9002.841) (-9006.872) (-9006.594) [-9004.660] * (-9004.710) (-9005.862) (-9001.205) [-9003.422] -- 0:00:13
      381500 -- (-9005.857) (-9006.037) (-9006.579) [-9003.618] * [-9004.710] (-9007.351) (-9004.076) (-9003.347) -- 0:00:13
      382000 -- (-9005.433) [-9004.552] (-9004.742) (-9004.081) * (-9004.184) (-9006.230) (-9006.111) [-9005.251] -- 0:00:12
      382500 -- (-9009.137) (-9004.909) [-9004.871] (-9003.680) * (-9004.199) (-9007.642) [-9005.192] (-9004.236) -- 0:00:12
      383000 -- [-9004.060] (-9003.295) (-9005.584) (-9003.994) * (-9004.596) (-9008.112) (-9005.548) [-9002.181] -- 0:00:12
      383500 -- [-9003.744] (-9003.747) (-9003.184) (-9004.054) * (-9004.418) (-9007.126) (-9006.427) [-9003.526] -- 0:00:12
      384000 -- (-9003.239) (-9003.482) (-9003.376) [-9004.324] * (-9006.036) (-9005.040) (-9005.458) [-9003.265] -- 0:00:12
      384500 -- [-9004.493] (-9004.540) (-9003.369) (-9003.159) * (-9003.197) (-9005.106) (-9010.941) [-9003.541] -- 0:00:12
      385000 -- (-9004.470) (-9008.585) [-9002.985] (-9003.850) * (-9003.491) (-9009.293) (-9005.637) [-9003.154] -- 0:00:12

      Average standard deviation of split frequencies: 0.010273

      385500 -- (-9005.039) (-9007.765) [-9003.302] (-9004.391) * (-9003.622) (-9007.715) [-9005.335] (-9005.319) -- 0:00:12
      386000 -- (-9004.963) (-9003.817) (-9004.030) [-9003.602] * (-9004.677) [-9004.102] (-9006.271) (-9005.284) -- 0:00:12
      386500 -- (-9005.837) (-9003.852) [-9005.375] (-9004.246) * [-9003.466] (-9004.226) (-9003.593) (-9005.895) -- 0:00:12
      387000 -- (-9005.837) (-9004.458) [-9002.687] (-9005.062) * (-9003.900) (-9005.320) (-9005.714) [-9003.326] -- 0:00:12
      387500 -- (-9007.060) (-9002.157) (-9003.062) [-9005.004] * [-9004.165] (-9002.853) (-9005.809) (-9005.421) -- 0:00:12
      388000 -- (-9005.733) (-9002.291) [-9005.115] (-9005.286) * (-9004.202) (-9003.167) (-9007.402) [-9004.250] -- 0:00:12
      388500 -- [-9005.424] (-9003.277) (-9003.673) (-9005.453) * (-9004.204) [-8999.969] (-9005.536) (-9005.036) -- 0:00:12
      389000 -- (-9003.855) [-9001.873] (-9003.399) (-9005.527) * (-9004.204) [-9001.417] (-9006.577) (-9008.086) -- 0:00:12
      389500 -- (-9004.409) (-9004.384) (-9004.019) [-9001.812] * (-9004.045) (-9002.658) [-9005.645] (-9007.909) -- 0:00:12
      390000 -- (-9004.572) (-9005.244) [-9004.020] (-9003.594) * (-9004.045) (-9004.014) [-9003.712] (-9007.536) -- 0:00:12

      Average standard deviation of split frequencies: 0.011584

      390500 -- (-9006.510) (-9005.148) (-9003.741) [-9003.488] * (-9003.352) (-9004.615) [-9004.863] (-9005.149) -- 0:00:12
      391000 -- (-9006.355) (-9006.770) (-9003.943) [-9004.191] * (-9004.046) [-9005.845] (-9004.345) (-9006.990) -- 0:00:11
      391500 -- (-9003.697) [-9006.105] (-9003.943) (-9004.366) * (-9004.384) (-9007.629) [-9002.154] (-9004.876) -- 0:00:11
      392000 -- [-9004.083] (-9007.534) (-9010.150) (-9007.022) * (-9003.712) (-9005.151) [-9002.872] (-9004.965) -- 0:00:11
      392500 -- (-9002.706) [-9004.139] (-9009.100) (-9006.563) * (-9004.705) (-9008.585) (-9003.111) [-9002.061] -- 0:00:11
      393000 -- (-9003.479) [-9002.678] (-9005.314) (-9005.804) * [-9003.993] (-9004.002) (-9004.472) (-9001.696) -- 0:00:11
      393500 -- (-9004.516) [-9002.517] (-9001.815) (-9004.165) * (-9005.099) (-9004.210) [-9003.779] (-9003.124) -- 0:00:11
      394000 -- [-9003.994] (-9005.443) (-9003.172) (-9004.292) * (-9003.279) (-9003.577) [-9004.119] (-9001.079) -- 0:00:11
      394500 -- (-9003.625) (-9004.428) [-9003.535] (-9004.634) * (-9004.128) (-9005.359) [-9002.728] (-9003.821) -- 0:00:11
      395000 -- (-9004.379) (-9003.990) [-9006.898] (-9007.728) * [-9003.973] (-9005.086) (-9003.914) (-9003.797) -- 0:00:11

      Average standard deviation of split frequencies: 0.011745

      395500 -- (-9004.939) (-9006.576) (-9007.274) [-9004.585] * [-9003.197] (-9004.374) (-9005.851) (-9003.983) -- 0:00:11
      396000 -- (-9003.456) (-9006.483) (-9006.265) [-9005.633] * (-9004.723) (-9004.286) [-9006.864] (-9003.548) -- 0:00:11
      396500 -- (-9005.612) [-9007.410] (-9006.353) (-9004.911) * (-9004.982) (-9004.958) (-9005.625) [-9009.175] -- 0:00:11
      397000 -- (-9004.879) [-9007.038] (-9006.207) (-9007.302) * (-9003.836) [-9005.785] (-9007.742) (-9007.028) -- 0:00:11
      397500 -- (-9004.453) (-9008.180) [-9004.087] (-9004.565) * [-9004.502] (-9008.021) (-9003.628) (-9008.785) -- 0:00:11
      398000 -- (-9006.501) (-9006.770) (-9003.602) [-9005.252] * (-9004.377) [-9001.788] (-9003.580) (-9008.784) -- 0:00:11
      398500 -- (-9006.967) (-9003.036) (-9003.923) [-9004.726] * (-9005.286) (-9004.009) [-9002.898] (-9009.321) -- 0:00:11
      399000 -- [-9007.101] (-9003.426) (-9004.145) (-9005.732) * (-9005.772) (-9003.727) (-9003.880) [-9009.884] -- 0:00:11
      399500 -- (-9003.522) (-9005.739) [-9002.784] (-9004.246) * (-9005.747) (-9002.333) [-9003.322] (-9007.692) -- 0:00:11
      400000 -- (-9003.571) (-9005.094) [-9002.115] (-9003.574) * [-9005.772] (-9003.591) (-9003.322) (-9003.743) -- 0:00:11

      Average standard deviation of split frequencies: 0.012236

      400500 -- (-9003.784) (-9006.731) (-9003.711) [-9006.575] * (-9005.772) (-9003.750) (-9003.372) [-9004.557] -- 0:00:10
      401000 -- (-9003.798) (-9005.729) [-9001.221] (-9006.520) * (-9005.772) (-9003.878) (-9005.537) [-9002.886] -- 0:00:10
      401500 -- (-9004.761) (-9008.798) (-9004.149) [-9005.651] * (-9008.063) [-9002.875] (-9006.897) (-9002.270) -- 0:00:10
      402000 -- [-9004.717] (-9004.427) (-9004.170) (-9005.476) * (-9005.592) [-9005.004] (-9005.910) (-9003.847) -- 0:00:10
      402500 -- (-9004.212) (-9003.868) (-9004.766) [-9003.239] * (-9005.808) [-9004.062] (-9003.971) (-9003.593) -- 0:00:10
      403000 -- [-9004.564] (-9004.125) (-9004.866) (-9002.298) * (-9006.176) (-9003.931) [-9003.439] (-9003.017) -- 0:00:10
      403500 -- (-9003.999) (-9005.768) (-9004.186) [-9003.228] * (-9003.885) (-9004.318) (-9003.356) [-9002.769] -- 0:00:10
      404000 -- (-9005.113) (-9002.669) [-9006.215] (-9001.782) * [-9004.198] (-9002.570) (-9004.025) (-9005.326) -- 0:00:10
      404500 -- (-9004.516) (-9003.337) (-9013.562) [-9003.367] * (-9003.831) [-9002.852] (-9003.149) (-9003.464) -- 0:00:10
      405000 -- (-9005.945) [-9003.332] (-9009.654) (-9004.374) * (-9003.205) [-9004.115] (-9004.111) (-9004.326) -- 0:00:10

      Average standard deviation of split frequencies: 0.011466

      405500 -- (-9003.917) [-9006.699] (-9007.720) (-9003.108) * (-9002.912) (-9004.509) [-9005.012] (-9004.325) -- 0:00:10
      406000 -- (-9009.500) (-9004.206) [-9007.788] (-9004.499) * [-9006.297] (-9003.730) (-9004.597) (-9003.172) -- 0:00:10
      406500 -- (-9009.681) (-9004.184) (-9007.858) [-9003.751] * (-9004.360) (-9003.514) [-9001.412] (-9001.563) -- 0:00:10
      407000 -- (-9008.214) (-9005.021) [-9006.247] (-9004.243) * (-9004.392) (-9001.770) (-9004.041) [-9001.321] -- 0:00:10
      407500 -- (-9007.769) (-9004.210) (-9002.298) [-9004.592] * (-9004.825) [-9002.710] (-9003.657) (-9003.535) -- 0:00:10
      408000 -- (-9006.481) (-9004.077) [-9003.358] (-9004.683) * (-9005.439) (-9002.758) [-9003.859] (-9001.303) -- 0:00:10
      408500 -- (-9005.581) (-9005.587) (-9003.330) [-9005.461] * (-9004.442) (-9003.614) [-9003.228] (-9001.626) -- 0:00:10
      409000 -- (-9005.056) (-9004.011) (-9005.108) [-9003.151] * (-9004.467) (-9006.104) [-9003.597] (-9002.133) -- 0:00:10
      409500 -- (-9005.821) [-9005.181] (-9005.135) (-9004.846) * (-9004.075) (-9005.227) [-9002.950] (-9002.752) -- 0:00:09
      410000 -- [-9002.116] (-9007.082) (-9005.135) (-9004.472) * [-9007.130] (-9001.835) (-9004.655) (-9005.115) -- 0:00:09

      Average standard deviation of split frequencies: 0.011632

      410500 -- [-9002.868] (-9007.902) (-9004.554) (-9002.240) * [-9006.934] (-9004.683) (-9005.520) (-9002.890) -- 0:00:09
      411000 -- (-9003.371) (-9006.823) [-9006.304] (-9005.672) * (-9003.751) (-9004.859) (-9003.115) [-9003.411] -- 0:00:09
      411500 -- [-9003.211] (-9004.716) (-9003.513) (-9001.988) * (-9003.608) [-9005.170] (-9003.969) (-9005.100) -- 0:00:09
      412000 -- (-9003.263) (-9003.602) [-9005.375] (-9003.883) * (-9002.872) [-9002.666] (-9002.261) (-9004.578) -- 0:00:09
      412500 -- [-9001.399] (-9001.571) (-9003.807) (-9003.341) * (-9002.752) [-9002.677] (-9002.948) (-9005.188) -- 0:00:09
      413000 -- (-9006.924) (-9006.185) [-9005.577] (-9005.480) * (-9002.972) [-9002.119] (-9003.276) (-9004.717) -- 0:00:09
      413500 -- (-9005.552) (-9004.020) (-9007.740) [-9001.808] * (-9005.162) [-9001.463] (-9002.326) (-9002.076) -- 0:00:09
      414000 -- (-9003.983) (-9001.482) (-9012.372) [-9001.710] * (-9005.161) (-9001.509) [-9003.316] (-9004.426) -- 0:00:09
      414500 -- (-9003.609) (-9002.895) (-9004.398) [-9002.860] * (-9004.520) [-9002.987] (-9001.177) (-9002.020) -- 0:00:09
      415000 -- (-9003.624) (-9002.856) [-9002.567] (-9002.828) * (-9005.850) [-9003.697] (-9003.723) (-9002.605) -- 0:00:09

      Average standard deviation of split frequencies: 0.010954

      415500 -- (-9003.362) (-9003.875) [-9003.723] (-9003.111) * (-9003.901) [-9002.867] (-9003.829) (-9000.918) -- 0:00:09
      416000 -- (-9004.414) (-9003.383) (-9005.096) [-9002.413] * (-9004.652) (-9000.919) (-9003.250) [-9000.893] -- 0:00:09
      416500 -- (-9003.474) [-9003.841] (-9005.982) (-9003.387) * [-9003.785] (-9003.054) (-9002.353) (-9005.196) -- 0:00:09
      417000 -- [-9003.573] (-9004.038) (-9003.829) (-9004.046) * [-9004.767] (-9004.433) (-9002.892) (-9003.248) -- 0:00:09
      417500 -- (-9006.785) [-9004.703] (-9005.901) (-9004.245) * (-9003.313) (-9005.853) [-9002.455] (-9004.161) -- 0:00:09
      418000 -- (-9004.064) (-9002.704) [-9003.059] (-9004.863) * (-9003.415) (-9004.046) [-9003.117] (-9004.853) -- 0:00:09
      418500 -- (-9005.177) (-9003.258) (-9004.261) [-9003.907] * (-9003.864) (-9004.595) [-9006.874] (-9001.854) -- 0:00:08
      419000 -- (-9005.050) [-9004.570] (-9003.404) (-9004.317) * (-9005.557) [-9007.821] (-9005.791) (-9003.935) -- 0:00:08
      419500 -- (-9004.565) [-9004.958] (-9003.659) (-9005.403) * (-9004.029) [-9010.106] (-9004.373) (-9002.966) -- 0:00:08
      420000 -- [-9002.713] (-9005.367) (-9003.149) (-9005.310) * (-9005.834) (-9005.764) (-9005.733) [-9004.397] -- 0:00:08

      Average standard deviation of split frequencies: 0.009805

      420500 -- [-9003.567] (-9003.914) (-9002.748) (-9004.042) * (-9005.818) (-9002.003) (-9005.427) [-9001.305] -- 0:00:08
      421000 -- (-9009.431) (-9004.149) [-9001.784] (-9003.540) * (-9005.889) (-9003.295) [-9002.927] (-9001.760) -- 0:00:08
      421500 -- (-9003.138) [-9005.140] (-9002.095) (-9003.996) * (-9010.765) [-9003.392] (-9003.498) (-9002.988) -- 0:00:08
      422000 -- (-9003.741) [-9005.228] (-9001.364) (-9003.697) * [-9010.554] (-9003.395) (-9000.488) (-9002.800) -- 0:00:08
      422500 -- (-9004.044) (-9006.791) [-9003.098] (-9003.687) * (-9007.022) (-9003.974) [-9002.912] (-9003.712) -- 0:00:08
      423000 -- (-9004.920) (-9007.445) (-9002.268) [-9003.238] * [-9007.372] (-9003.999) (-9006.726) (-9001.931) -- 0:00:08
      423500 -- (-9003.285) (-9007.167) (-9003.121) [-9002.921] * (-9007.690) [-9003.974] (-9004.981) (-9003.949) -- 0:00:08
      424000 -- (-9003.162) [-9003.075] (-9006.776) (-9001.866) * (-9003.910) [-9003.882] (-9005.431) (-9007.867) -- 0:00:08
      424500 -- [-9003.888] (-9005.207) (-9006.944) (-9003.116) * (-9003.906) (-9003.694) [-9003.755] (-9007.305) -- 0:00:08
      425000 -- [-9003.139] (-9003.455) (-9006.996) (-9002.906) * (-9003.905) (-9006.708) (-9002.573) [-9004.554] -- 0:00:08

      Average standard deviation of split frequencies: 0.009198

      425500 -- [-9004.473] (-9004.248) (-9003.773) (-9002.906) * (-9004.351) (-9004.815) (-9003.807) [-9006.496] -- 0:00:08
      426000 -- (-9003.390) [-9004.049] (-9003.578) (-9000.982) * (-9004.956) (-9005.600) [-9003.514] (-9002.762) -- 0:00:08
      426500 -- [-9001.696] (-9004.217) (-9004.224) (-9003.525) * (-9004.310) (-9003.133) [-9003.642] (-9006.454) -- 0:00:08
      427000 -- (-9003.868) (-9004.633) (-9003.844) [-9003.272] * (-9002.638) (-9004.843) [-9004.961] (-9006.773) -- 0:00:08
      427500 -- [-9003.637] (-9004.633) (-9004.376) (-9003.270) * [-9003.705] (-9005.379) (-9003.218) (-9006.670) -- 0:00:07
      428000 -- (-9007.766) (-9004.592) (-9002.884) [-9001.250] * (-9004.364) (-9006.783) [-9004.807] (-9005.287) -- 0:00:07
      428500 -- (-9007.609) [-9003.806] (-9004.542) (-9004.722) * [-9004.255] (-9005.465) (-9005.865) (-9005.892) -- 0:00:07
      429000 -- (-9009.323) [-9004.912] (-9004.158) (-9006.496) * (-9004.428) [-9008.306] (-9005.338) (-9003.164) -- 0:00:07
      429500 -- (-9004.887) (-9004.015) [-9008.182] (-9006.540) * (-9004.334) [-9006.405] (-9006.859) (-9002.696) -- 0:00:07
      430000 -- (-9007.235) [-9002.635] (-9007.530) (-9003.463) * (-9004.564) (-9004.184) [-9002.281] (-9003.756) -- 0:00:07

      Average standard deviation of split frequencies: 0.009413

      430500 -- (-9007.441) [-9003.139] (-9005.549) (-9003.444) * (-9005.742) [-9004.419] (-9004.857) (-9004.164) -- 0:00:07
      431000 -- (-9001.659) (-9005.408) [-9003.284] (-9006.376) * (-9009.373) (-9005.960) [-9004.932] (-9004.479) -- 0:00:07
      431500 -- (-9003.126) (-9005.178) (-9004.611) [-9004.320] * (-9007.210) (-9004.472) [-9004.875] (-9004.285) -- 0:00:07
      432000 -- (-9001.846) (-9003.702) [-9005.128] (-9004.995) * (-9004.500) [-9003.598] (-9007.246) (-9006.231) -- 0:00:07
      432500 -- (-9001.044) [-9002.315] (-9005.926) (-9004.644) * (-9004.300) [-9002.719] (-9006.858) (-9005.943) -- 0:00:07
      433000 -- [-9001.529] (-9004.599) (-9003.801) (-9006.071) * (-9004.439) [-9002.757] (-9004.284) (-9004.348) -- 0:00:07
      433500 -- (-9004.453) [-9005.769] (-9003.597) (-9005.391) * [-9007.186] (-9004.657) (-9004.042) (-9003.137) -- 0:00:07
      434000 -- (-9003.443) [-9005.655] (-9003.597) (-9005.868) * (-9007.553) (-9003.744) [-9003.425] (-9002.685) -- 0:00:07
      434500 -- [-9002.251] (-9005.795) (-9003.597) (-9003.076) * (-9007.148) (-9003.072) [-9003.272] (-9004.660) -- 0:00:07
      435000 -- (-9003.581) (-9005.339) [-9004.013] (-9004.735) * (-9007.080) [-9004.927] (-9003.048) (-9003.814) -- 0:00:07

      Average standard deviation of split frequencies: 0.008650

      435500 -- (-9003.747) (-9004.675) [-9003.047] (-9003.946) * (-9004.858) (-9007.779) (-9002.469) [-9003.562] -- 0:00:07
      436000 -- (-9002.887) [-9005.065] (-9003.996) (-9002.855) * (-9006.671) (-9004.052) [-9002.618] (-9004.470) -- 0:00:07
      436500 -- (-9003.880) (-9004.573) [-9004.636] (-9002.486) * (-9007.854) [-9004.250] (-9003.306) (-9003.003) -- 0:00:06
      437000 -- (-9007.331) (-9003.646) [-9003.934] (-9001.660) * (-9003.209) (-9007.838) (-9003.078) [-9006.037] -- 0:00:06
      437500 -- (-9007.249) (-9002.749) [-9004.440] (-9002.603) * [-9005.732] (-9006.335) (-9004.392) (-9005.720) -- 0:00:06
      438000 -- (-9008.804) [-9004.310] (-9005.338) (-9002.120) * (-9003.865) (-9009.934) (-9004.376) [-9001.149] -- 0:00:06
      438500 -- (-9004.192) [-9003.477] (-9005.039) (-9003.510) * (-9004.850) (-9009.394) (-9003.809) [-9003.458] -- 0:00:06
      439000 -- [-9003.546] (-9003.454) (-9006.358) (-9005.083) * [-9004.789] (-9005.635) (-9003.007) (-9003.585) -- 0:00:06
      439500 -- [-9004.540] (-9003.406) (-9006.285) (-9004.685) * [-9006.886] (-9008.905) (-9004.189) (-9005.503) -- 0:00:06
      440000 -- (-9004.543) [-9003.833] (-9005.852) (-9006.442) * (-9005.464) (-9011.463) [-9004.189] (-9002.629) -- 0:00:06

      Average standard deviation of split frequencies: 0.008915

      440500 -- (-9003.206) [-9003.764] (-9004.150) (-9007.111) * (-9005.415) (-9006.930) (-9003.766) [-9004.944] -- 0:00:06
      441000 -- [-9005.105] (-9004.581) (-9005.553) (-9004.187) * (-9007.514) [-9007.998] (-9003.494) (-9005.146) -- 0:00:06
      441500 -- (-9003.761) [-9002.371] (-9005.560) (-9002.776) * (-9008.328) [-9004.661] (-9004.701) (-9004.037) -- 0:00:06
      442000 -- (-9004.313) (-9004.423) [-9005.139] (-9003.400) * (-9008.970) [-9006.785] (-9006.723) (-9004.490) -- 0:00:06
      442500 -- (-9005.428) [-9004.670] (-9003.420) (-9004.077) * (-9004.865) [-9007.232] (-9004.696) (-9006.260) -- 0:00:06
      443000 -- (-9004.406) (-9003.457) (-9003.342) [-9004.262] * (-9003.148) (-9008.317) (-9004.642) [-9005.144] -- 0:00:06
      443500 -- (-9006.194) (-9003.978) (-9003.617) [-9003.886] * (-9009.219) (-9007.618) (-9004.220) [-9003.472] -- 0:00:06
      444000 -- (-9004.867) (-9004.595) (-9004.517) [-9006.710] * (-9007.341) (-9005.989) [-9004.357] (-9005.228) -- 0:00:06
      444500 -- [-9002.790] (-9004.902) (-9004.023) (-9006.015) * (-9004.869) (-9005.548) (-9003.845) [-9007.370] -- 0:00:06
      445000 -- (-9003.234) (-9002.993) (-9004.555) [-9006.869] * (-9002.925) [-9005.563] (-9003.712) (-9009.557) -- 0:00:06

      Average standard deviation of split frequencies: 0.009160

      445500 -- [-9003.548] (-9003.392) (-9004.708) (-9007.477) * (-9004.215) (-9005.676) [-9004.041] (-9005.109) -- 0:00:05
      446000 -- (-9005.069) (-9005.492) [-9004.709] (-9006.224) * [-9006.509] (-9006.237) (-9008.264) (-9002.420) -- 0:00:05
      446500 -- (-9005.079) (-9006.699) (-9004.730) [-9004.165] * (-9006.432) [-9003.179] (-9005.595) (-9004.368) -- 0:00:05
      447000 -- (-9007.230) (-9008.767) (-9003.611) [-9003.467] * (-9005.190) [-9003.658] (-9001.681) (-9004.212) -- 0:00:05
      447500 -- (-9007.086) (-9005.290) [-9002.046] (-9004.462) * (-9003.287) (-9001.696) (-9007.720) [-9005.094] -- 0:00:05
      448000 -- [-9006.195] (-9005.131) (-9003.454) (-9003.616) * (-9003.493) (-9005.373) (-9005.735) [-9004.249] -- 0:00:05
      448500 -- (-9006.089) [-9005.711] (-9003.743) (-9003.764) * (-9001.215) [-9005.210] (-9005.125) (-9004.654) -- 0:00:05
      449000 -- [-9002.858] (-9006.730) (-9004.492) (-9004.108) * [-9004.592] (-9003.548) (-9005.358) (-9005.071) -- 0:00:05
      449500 -- [-9005.452] (-9006.519) (-9007.448) (-9004.778) * [-9005.933] (-9005.139) (-9005.336) (-9003.083) -- 0:00:05
      450000 -- (-9003.907) (-9006.552) (-9006.307) [-9004.577] * (-9003.666) (-9005.031) (-9005.036) [-9005.315] -- 0:00:05

      Average standard deviation of split frequencies: 0.009275

      450500 -- (-9008.839) (-9004.997) (-9002.781) [-9003.469] * [-9005.827] (-9003.193) (-9005.877) (-9003.393) -- 0:00:05
      451000 -- [-9002.804] (-9004.643) (-9005.417) (-9009.050) * (-9004.194) [-9001.119] (-9005.296) (-9003.184) -- 0:00:05
      451500 -- (-9002.250) (-9007.127) [-9002.143] (-9005.805) * (-9002.791) [-9001.785] (-9005.018) (-9004.305) -- 0:00:05
      452000 -- [-9001.964] (-9005.001) (-9002.771) (-9007.957) * (-9002.729) (-9003.080) [-9003.882] (-9004.524) -- 0:00:05
      452500 -- (-9002.488) (-9007.393) (-9005.179) [-9003.997] * (-9003.396) (-9001.764) [-9007.102] (-9002.932) -- 0:00:05
      453000 -- (-9006.183) (-9008.549) [-9003.206] (-9002.986) * (-9003.084) (-9000.049) (-9005.580) [-9004.790] -- 0:00:05
      453500 -- (-9004.571) [-9010.142] (-9002.435) (-9002.989) * (-9004.025) [-9003.572] (-9005.992) (-9002.858) -- 0:00:05
      454000 -- [-9005.315] (-9008.939) (-9003.062) (-9002.967) * (-9005.665) (-9005.528) (-9006.826) [-9002.282] -- 0:00:05
      454500 -- (-9007.237) [-9006.354] (-9003.692) (-9003.972) * [-9003.799] (-9006.166) (-9007.022) (-9003.728) -- 0:00:05
      455000 -- (-9008.648) [-9005.426] (-9001.616) (-9004.309) * [-9005.412] (-9005.479) (-9009.353) (-9006.004) -- 0:00:04

      Average standard deviation of split frequencies: 0.009786

      455500 -- (-9009.027) (-9004.316) (-9003.117) [-9003.087] * (-9005.582) (-9006.244) (-9004.909) [-9003.443] -- 0:00:04
      456000 -- (-9004.558) [-9003.335] (-9003.123) (-9004.347) * (-9006.993) (-9008.326) [-9003.751] (-9006.105) -- 0:00:04
      456500 -- (-9002.125) [-9006.273] (-9003.123) (-9004.470) * (-9004.235) (-9005.838) (-9005.620) [-9005.167] -- 0:00:04
      457000 -- (-9003.818) [-9005.082] (-9004.293) (-9005.964) * (-9004.777) (-9004.820) (-9003.631) [-9003.053] -- 0:00:04
      457500 -- [-9006.326] (-9008.532) (-9004.293) (-9010.525) * (-9002.137) (-9004.820) [-9002.933] (-9003.956) -- 0:00:04
      458000 -- [-9004.965] (-9002.278) (-9004.293) (-9008.238) * [-9003.286] (-9003.081) (-9004.285) (-9004.459) -- 0:00:04
      458500 -- (-9004.909) (-9002.813) [-9005.248] (-9007.895) * (-9003.186) (-9003.209) (-9003.574) [-9004.470] -- 0:00:04
      459000 -- [-9005.457] (-9002.701) (-9006.939) (-9010.320) * (-9003.120) (-9004.421) (-9008.727) [-9003.369] -- 0:00:04
      459500 -- [-9006.221] (-9003.251) (-9007.303) (-9007.938) * [-9004.624] (-9005.819) (-9005.243) (-9002.935) -- 0:00:04
      460000 -- [-9004.386] (-9003.875) (-9006.632) (-9011.774) * [-9003.139] (-9005.829) (-9005.966) (-9003.059) -- 0:00:04

      Average standard deviation of split frequencies: 0.008937

      460500 -- (-9004.736) [-9003.813] (-9005.720) (-9016.195) * (-9006.185) (-9005.011) (-9004.673) [-9002.944] -- 0:00:04
      461000 -- (-9004.860) (-9011.121) [-9006.651] (-9005.882) * (-9007.461) (-9004.048) (-9008.919) [-9002.212] -- 0:00:04
      461500 -- (-9006.917) (-9012.013) [-9003.187] (-9005.570) * [-9007.704] (-9002.982) (-9009.319) (-9005.230) -- 0:00:04
      462000 -- (-9005.244) (-9006.772) [-9003.442] (-9005.298) * [-9006.437] (-9002.800) (-9010.678) (-9004.062) -- 0:00:04
      462500 -- (-9005.269) [-9004.478] (-9003.825) (-9003.289) * (-9010.596) (-9002.623) [-9006.271] (-9003.519) -- 0:00:04
      463000 -- (-9003.812) [-9007.090] (-9004.183) (-9005.360) * (-9005.214) (-9004.408) [-9006.038] (-9003.163) -- 0:00:04
      463500 -- [-9003.230] (-9005.642) (-9002.931) (-9003.747) * (-9005.803) (-9005.787) [-9005.049] (-9003.150) -- 0:00:04
      464000 -- (-9004.143) (-9006.224) (-9001.948) [-9003.745] * (-9004.469) (-9005.787) (-9004.309) [-9003.950] -- 0:00:03
      464500 -- (-9004.243) (-9004.607) [-9001.585] (-9000.909) * (-9004.123) (-9006.955) (-9004.581) [-9005.090] -- 0:00:03
      465000 -- [-9007.964] (-9005.914) (-9000.050) (-9003.631) * [-9002.138] (-9006.882) (-9006.118) (-9008.175) -- 0:00:03

      Average standard deviation of split frequencies: 0.008700

      465500 -- (-9007.769) (-9004.308) (-9004.730) [-9002.490] * (-9003.174) [-9004.388] (-9005.070) (-9003.186) -- 0:00:03
      466000 -- [-9007.691] (-9005.782) (-9004.374) (-9003.853) * (-9004.820) (-9003.603) (-9004.695) [-9002.292] -- 0:00:03
      466500 -- (-9009.122) (-9004.603) (-9005.551) [-9004.106] * (-9003.443) (-9003.695) [-9003.687] (-9005.240) -- 0:00:03
      467000 -- (-9006.478) [-9003.874] (-9009.287) (-9003.700) * (-9005.620) (-9008.077) (-9007.785) [-9005.177] -- 0:00:03
      467500 -- [-9004.101] (-9005.165) (-9008.823) (-9003.719) * (-9002.214) (-9007.890) (-9007.864) [-9005.391] -- 0:00:03
      468000 -- [-9007.695] (-9004.389) (-9007.039) (-9005.150) * (-9002.508) [-9004.809] (-9007.011) (-9006.697) -- 0:00:03
      468500 -- (-9007.277) (-9003.652) (-9009.673) [-9005.062] * (-9004.213) (-9008.633) [-9003.859] (-9004.200) -- 0:00:03
      469000 -- [-9010.846] (-9003.737) (-9007.252) (-9006.066) * (-9004.929) (-9006.485) (-9003.528) [-9006.496] -- 0:00:03
      469500 -- [-9003.492] (-9002.699) (-9003.042) (-9003.433) * [-9005.946] (-9006.605) (-9003.528) (-9005.934) -- 0:00:03
      470000 -- (-9003.756) [-9002.784] (-9002.214) (-9004.151) * (-9001.989) (-9005.536) (-9004.583) [-9005.517] -- 0:00:03

      Average standard deviation of split frequencies: 0.008146

      470500 -- (-9002.742) (-9004.364) (-9003.422) [-9003.378] * (-9002.954) (-9005.728) [-9006.584] (-9003.154) -- 0:00:03
      471000 -- (-9004.099) [-9003.384] (-9002.960) (-9004.889) * [-9002.654] (-9005.745) (-9006.368) (-9002.467) -- 0:00:03
      471500 -- (-9004.233) (-9006.466) (-9003.397) [-9005.168] * (-9001.880) (-9006.129) (-9005.266) [-9004.714] -- 0:00:03
      472000 -- [-9003.322] (-9006.846) (-9002.218) (-9004.685) * [-9002.876] (-9005.779) (-9004.293) (-9006.482) -- 0:00:03
      472500 -- (-9003.768) (-9005.751) (-9003.754) [-9004.176] * [-9003.806] (-9004.558) (-9003.189) (-9003.679) -- 0:00:03
      473000 -- [-9002.774] (-9006.388) (-9006.454) (-9005.747) * (-9008.514) (-9006.737) [-9003.198] (-9003.826) -- 0:00:02
      473500 -- [-9002.551] (-9005.832) (-9005.754) (-9004.085) * (-9005.531) (-9006.901) (-9003.229) [-9005.994] -- 0:00:02
      474000 -- (-9004.588) (-9004.320) (-9003.009) [-9003.606] * [-9003.445] (-9003.100) (-9003.389) (-9008.251) -- 0:00:02
      474500 -- (-9003.109) (-9003.808) [-9001.951] (-9002.795) * [-9004.608] (-9004.940) (-9003.423) (-9006.597) -- 0:00:02
      475000 -- (-9003.366) [-9005.730] (-9001.967) (-9004.354) * (-9005.072) (-9003.951) [-9003.488] (-9007.473) -- 0:00:02

      Average standard deviation of split frequencies: 0.007593

      475500 -- (-9002.789) (-9006.981) (-9004.084) [-9003.760] * [-9002.521] (-9003.593) (-9003.483) (-9007.689) -- 0:00:02
      476000 -- [-9006.857] (-9009.363) (-9002.781) (-9004.691) * (-9005.977) [-9002.763] (-9005.578) (-9006.682) -- 0:00:02
      476500 -- [-9004.491] (-9006.626) (-9004.842) (-9005.530) * [-9002.475] (-9003.737) (-9005.410) (-9004.599) -- 0:00:02
      477000 -- [-9003.023] (-9005.878) (-9003.116) (-9005.928) * [-9004.546] (-9003.131) (-9005.230) (-9005.135) -- 0:00:02
      477500 -- (-9004.072) [-9005.486] (-9005.067) (-9006.198) * (-9003.313) [-9002.386] (-9011.200) (-9004.705) -- 0:00:02
      478000 -- (-9002.231) [-9005.659] (-9003.306) (-9002.747) * [-9000.692] (-9006.476) (-9003.757) (-9005.229) -- 0:00:02
      478500 -- [-9002.133] (-9003.277) (-9003.297) (-9004.707) * (-9006.213) (-9006.513) [-9003.233] (-9001.809) -- 0:00:02
      479000 -- (-9000.365) (-9003.066) (-9002.462) [-9004.483] * (-9002.212) (-9006.000) (-9002.986) [-9003.394] -- 0:00:02
      479500 -- [-9003.196] (-9003.913) (-9002.514) (-9005.292) * (-9002.666) [-9005.139] (-9003.379) (-9004.520) -- 0:00:02
      480000 -- (-9003.734) [-9003.985] (-9006.768) (-9003.615) * (-9004.901) (-9003.543) (-9001.819) [-9003.330] -- 0:00:02

      Average standard deviation of split frequencies: 0.008042

      480500 -- (-9002.300) [-9000.643] (-9005.096) (-9004.165) * (-9007.377) [-9004.989] (-9002.835) (-9001.453) -- 0:00:02
      481000 -- (-9004.184) [-9003.063] (-9005.071) (-9005.124) * (-9004.494) [-9002.905] (-9003.811) (-9003.592) -- 0:00:02
      481500 -- (-9002.443) [-9002.908] (-9005.075) (-9004.825) * (-9004.996) (-9004.956) [-9002.788] (-9003.589) -- 0:00:02
      482000 -- (-9005.466) (-9002.972) [-9002.757] (-9005.591) * (-9004.758) (-9006.475) (-9002.950) [-9001.537] -- 0:00:01
      482500 -- (-9005.458) [-9004.360] (-9002.570) (-9007.916) * [-9006.133] (-9005.963) (-9007.976) (-9001.345) -- 0:00:01
      483000 -- (-9005.439) (-9005.482) [-9001.627] (-9005.501) * (-9004.696) (-9005.164) (-9006.990) [-9004.693] -- 0:00:01
      483500 -- [-9006.377] (-9005.485) (-9003.039) (-9003.799) * (-9004.966) (-9008.877) (-9003.261) [-9002.810] -- 0:00:01
      484000 -- (-9005.175) (-9003.313) (-9005.799) [-9002.758] * (-9006.117) (-9006.496) [-9001.757] (-9004.386) -- 0:00:01
      484500 -- (-9003.397) (-9003.003) (-9008.578) [-9003.368] * (-9005.968) [-9006.419] (-9005.616) (-9006.248) -- 0:00:01
      485000 -- (-9004.315) (-9001.908) (-9009.283) [-9005.130] * (-9005.554) (-9004.564) (-9005.850) [-9003.853] -- 0:00:01

      Average standard deviation of split frequencies: 0.008148

      485500 -- (-9005.641) [-9003.166] (-9005.868) (-9005.745) * [-9008.146] (-9003.760) (-9004.203) (-9003.928) -- 0:00:01
      486000 -- (-9005.873) (-9003.147) (-9004.393) [-9003.966] * (-9005.221) (-9004.081) [-9003.907] (-9003.716) -- 0:00:01
      486500 -- (-9006.440) [-9006.297] (-9006.729) (-9004.140) * (-9002.912) (-9005.091) [-9003.410] (-9003.014) -- 0:00:01
      487000 -- (-9008.700) (-9005.479) [-9005.386] (-9006.664) * (-9006.608) (-9004.306) (-9003.867) [-9002.731] -- 0:00:01
      487500 -- (-9003.967) (-9006.044) [-9004.471] (-9004.910) * [-9004.667] (-9004.306) (-9003.765) (-9003.291) -- 0:00:01
      488000 -- (-9002.087) [-9007.431] (-9005.697) (-9005.842) * (-9006.045) (-9004.008) [-9003.735] (-9004.351) -- 0:00:01
      488500 -- (-9004.535) (-9006.493) [-9003.310] (-9006.045) * (-9002.936) (-9003.982) (-9003.304) [-9008.217] -- 0:00:01
      489000 -- (-9004.006) (-9004.087) [-9001.464] (-9002.011) * (-9003.098) [-9003.750] (-9004.006) (-9005.843) -- 0:00:01
      489500 -- (-9004.171) (-9003.203) [-9001.533] (-9001.982) * (-9009.710) (-9005.847) [-9004.050] (-9003.724) -- 0:00:01
      490000 -- (-9003.977) (-9003.238) [-9002.080] (-9002.772) * (-9006.005) (-9002.834) [-9004.750] (-9003.724) -- 0:00:01

      Average standard deviation of split frequencies: 0.008583

      490500 -- [-9004.157] (-9004.811) (-9000.931) (-9004.029) * [-9003.348] (-9004.110) (-9004.831) (-9003.595) -- 0:00:01
      491000 -- (-9007.936) (-9003.377) [-9001.395] (-9003.771) * (-9004.034) (-9006.576) (-9003.252) [-9002.639] -- 0:00:00
      491500 -- [-9003.948] (-9007.158) (-9001.997) (-9004.388) * (-9004.420) [-9003.549] (-9003.735) (-9004.380) -- 0:00:00
      492000 -- (-9001.414) (-9004.369) (-9003.612) [-9004.035] * (-9005.575) (-9007.869) (-9002.517) [-9003.671] -- 0:00:00
      492500 -- (-9004.625) [-9003.094] (-9004.651) (-9004.021) * (-9006.069) [-9007.774] (-9003.829) (-9005.248) -- 0:00:00
      493000 -- (-9003.896) (-9003.499) [-9003.412] (-9004.942) * [-9005.264] (-9004.544) (-9001.320) (-9004.550) -- 0:00:00
      493500 -- (-9004.201) [-9005.362] (-9002.942) (-9004.945) * [-9002.850] (-9006.913) (-9004.528) (-9008.089) -- 0:00:00
      494000 -- (-9009.510) (-9007.183) (-9001.866) [-9003.195] * (-9000.661) [-9004.708] (-9005.218) (-9008.481) -- 0:00:00
      494500 -- (-9008.055) (-9009.130) (-9003.346) [-9001.449] * [-9001.980] (-9012.081) (-9001.775) (-9003.597) -- 0:00:00
      495000 -- (-9001.457) (-9004.813) (-9001.956) [-9003.318] * (-9010.573) [-9003.861] (-9003.429) (-9003.959) -- 0:00:00

      Average standard deviation of split frequencies: 0.008427

      495500 -- [-9003.631] (-9003.284) (-9001.087) (-9002.928) * (-9003.654) (-9006.044) [-9004.595] (-9003.625) -- 0:00:00
      496000 -- (-9003.087) (-9003.861) [-9003.359] (-9003.048) * (-9000.989) [-9005.911] (-9002.862) (-9003.849) -- 0:00:00
      496500 -- [-9002.853] (-9002.515) (-9004.305) (-9001.802) * (-9002.898) (-9012.230) [-9002.636] (-9004.119) -- 0:00:00
      497000 -- (-9001.469) [-9002.335] (-9003.834) (-9003.335) * (-9001.201) (-9008.375) [-9003.460] (-9003.650) -- 0:00:00
      497500 -- (-9003.488) (-9001.770) [-9003.834] (-9007.856) * [-9004.197] (-9008.189) (-9003.522) (-9003.222) -- 0:00:00
      498000 -- (-9004.501) (-9001.983) (-9003.779) [-9005.274] * (-9004.817) (-9006.850) (-9004.041) [-9003.662] -- 0:00:00
      498500 -- (-9007.952) (-9006.005) [-9003.759] (-9003.557) * (-9006.137) (-9007.218) [-9003.740] (-9002.941) -- 0:00:00
      499000 -- (-9002.704) (-9003.621) (-9003.729) [-9002.182] * (-9003.046) (-9003.790) [-9003.773] (-9002.877) -- 0:00:00
      499500 -- (-9003.577) (-9003.941) (-9003.059) [-9003.029] * (-9001.663) (-9005.586) (-9004.267) [-9004.156] -- 0:00:00
      500000 -- (-9004.058) (-9001.845) (-9003.650) [-9005.825] * (-9006.513) (-9003.319) [-9004.399] (-9004.734) -- 0:00:00

      Average standard deviation of split frequencies: 0.008097

      Analysis completed in 55 seconds
      Analysis used 55.26 seconds of CPU time
      Likelihood of best state for "cold" chain of run 1 was -8999.01
      Likelihood of best state for "cold" chain of run 2 was -8999.00

      Acceptance rates for the moves in the "cold" chain of run 1:
         With prob.   (last 100)   chain accepted proposals by move
            79.0 %     ( 71 %)     Dirichlet(Revmat{all})
            99.1 %     ( 99 %)     Slider(Revmat{all})
             5.6 %     (  6 %)     Dirichlet(Pi{all})
            17.8 %     ( 23 %)     Slider(Pi{all})
            79.5 %     ( 75 %)     Multiplier(Alpha{1,2})
            88.9 %     ( 80 %)     Multiplier(Alpha{3})
            17.6 %     (  0 %)     Slider(Pinvar{all})
            97.8 %     ( 98 %)     ExtSPR(Tau{all},V{all})
            69.5 %     ( 73 %)     ExtTBR(Tau{all},V{all})
            99.0 %     ( 99 %)     NNI(Tau{all},V{all})
            88.7 %     ( 94 %)     ParsSPR(Tau{all},V{all})
            30.7 %     ( 19 %)     Multiplier(V{all})
            95.5 %     ( 94 %)     Nodeslider(V{all})
            34.9 %     ( 31 %)     TLMultiplier(V{all})

      Acceptance rates for the moves in the "cold" chain of run 2:
         With prob.   (last 100)   chain accepted proposals by move
            77.6 %     ( 62 %)     Dirichlet(Revmat{all})
            99.1 %     ( 99 %)     Slider(Revmat{all})
             5.5 %     (  7 %)     Dirichlet(Pi{all})
            17.0 %     ( 15 %)     Slider(Pi{all})
            79.8 %     ( 66 %)     Multiplier(Alpha{1,2})
            88.7 %     ( 80 %)     Multiplier(Alpha{3})
            15.5 %     (  2 %)     Slider(Pinvar{all})
            97.9 %     ( 98 %)     ExtSPR(Tau{all},V{all})
            69.9 %     ( 70 %)     ExtTBR(Tau{all},V{all})
            98.9 %     ( 99 %)     NNI(Tau{all},V{all})
            88.4 %     ( 89 %)     ParsSPR(Tau{all},V{all})
            30.7 %     ( 29 %)     Multiplier(V{all})
            95.8 %     ( 97 %)     Nodeslider(V{all})
            34.4 %     ( 33 %)     TLMultiplier(V{all})

      Chain swap information for run 1:

                  1      2      3      4 
           ------------------------------
         1 |          0.79   0.61   0.47 
         2 |  83335          0.81   0.64 
         3 |  83300  83160          0.82 
         4 |  83204  83676  83325        

      Chain swap information for run 2:

                  1      2      3      4 
           ------------------------------
         1 |          0.79   0.61   0.46 
         2 |  83278          0.81   0.65 
         3 |  83501  83529          0.82 
         4 |  82819  83393  83480        

      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 1250
      Summarizing parameters in files /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p and /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p
      Writing summary statistics to file /data/8res/ML2355/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)

      +------------------------------------------------------------+ -9002.90
      |                               1                            |
      |                 1                            *         2   |
      | 1     1     1                   1        2                1|
      |                       1   1          2         1         1 |
      |   * 2   1      2        1        1          2 1            |
      |    1   2               2 1   1 2    1   *1      1  2  1 * 2|
      |      *    1  21   2        11     2 2  2   2    21  2  1   |
      |2        21   1            2           1     1      1       |
      |  1 2   1 2     1  1   2 22   221221  12    1      1  2   2 |
      |1 2        2   2 2  21      2       1           2      2    |
      |             2    1   1 1    2      2      2       2  1     |
      | 2          1       1 2                           2  1      |
      |       2                                1  1   2            |
      |     1            2  2                                      |
      |            2                                               |
      +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -9005.75
      ^                                                            ^
      125000                                                       500000


      Estimated marginal likelihoods for runs sampled in files
         "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/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 /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

      Run   Arithmetic mean   Harmonic mean
      --------------------------------------
        1      -9003.21         -9006.20
        2      -9003.35         -9006.87
      --------------------------------------
      TOTAL    -9003.28         -9006.59
      --------------------------------------


      Model parameter summaries over the runs sampled in files
         "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
         Summaries are based on a total of 1502 samples from 2 runs.
         Each run produced 1001 samples of which 751 samples were included.
         Parameter summaries saved to file "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

                                                95% HPD Interval
                                              --------------------
      Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+ 
      ------------------------------------------------------------------------------------------------------
      TL{all}         0.888101    0.090676    0.374760    1.514432    0.860274    671.47    677.11    0.999
      r(A<->C){all}   0.175970    0.021611    0.000382    0.477675    0.140105     91.30    100.13    0.999
      r(A<->G){all}   0.187762    0.023906    0.000091    0.504590    0.145383     90.82     96.27    0.999
      r(A<->T){all}   0.163738    0.017875    0.000091    0.422506    0.131867     26.04     89.12    1.006
      r(C<->G){all}   0.150055    0.016525    0.000144    0.411496    0.117042    134.71    164.74    1.001
      r(C<->T){all}   0.174044    0.018748    0.000053    0.443588    0.143267     50.73     76.76    0.999
      r(G<->T){all}   0.148432    0.015706    0.000557    0.386879    0.114661    109.84    181.96    1.002
      pi(A){all}      0.184924    0.000024    0.175291    0.194163    0.184741    532.88    605.91    1.000
      pi(C){all}      0.287978    0.000032    0.277014    0.299572    0.287954    433.13    483.15    0.999
      pi(G){all}      0.320848    0.000034    0.310379    0.333009    0.320859    475.47    491.01    1.000
      pi(T){all}      0.206250    0.000026    0.195755    0.215370    0.206095    371.64    489.16    1.000
      alpha{1,2}      0.345152    0.173159    0.000509    1.238037    0.192111    496.43    540.30    1.000
      alpha{3}        0.443404    0.244166    0.000790    1.395834    0.282463    434.09    456.29    0.999
      pinvar{all}     0.999580    0.000000    0.998936    0.999997    0.999662    136.51    253.89    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 1250
   Summarizing trees in files "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" and "/data/8res/ML2355/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 /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.<parts|tstat|vstat|trprobs|con>
   Examining first file ...
   Found one tree block in file "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" with 1001 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 2002 trees in 2 files (sampling 1502 of them)
      (Each file contained 1001 trees of which 751 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

   Key to taxon bipartitions (saved to file "/data/8res/ML2355/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 -- .**...
   18 -- .**.**
   19 -- .****.
   20 -- ...*.*
   21 -- .*..*.
   ------------

   Summary statistics for informative taxon bipartitions
      (saved to file "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.tstat"):

   ID   #obs    Probab.     Sd(s)+      Min(s)      Max(s)   Nruns 
   ----------------------------------------------------------------
    7   238    0.158455    0.001883    0.157124    0.159787    2
    8   232    0.154461    0.001883    0.153129    0.155792    2
    9   226    0.150466    0.007532    0.145140    0.155792    2
   10   224    0.149134    0.015065    0.138482    0.159787    2
   11   224    0.149134    0.011299    0.141145    0.157124    2
   12   222    0.147803    0.007532    0.142477    0.153129    2
   13   218    0.145140    0.001883    0.143808    0.146471    2
   14   210    0.139814    0.007532    0.134487    0.145140    2
   15   210    0.139814    0.001883    0.138482    0.141145    2
   16   209    0.139148    0.010357    0.131824    0.146471    2
   17   207    0.137816    0.017890    0.125166    0.150466    2
   18   206    0.137150    0.007532    0.131824    0.142477    2
   19   200    0.133156    0.016948    0.121172    0.145140    2
   20   198    0.131824    0.011299    0.123835    0.139814    2
   21   191    0.127164    0.000942    0.126498    0.127830    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 "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.vstat"):

                                                95% HPD Interval
                                              --------------------
   Parameter           Mean       Variance     Lower       Upper       Median     PSRF+  Nruns
   -------------------------------------------------------------------------------------------
   length{all}[1]     0.094108    0.009350    0.000122    0.282702    0.064343    0.999    2
   length{all}[2]     0.094230    0.009591    0.000026    0.283381    0.063363    1.000    2
   length{all}[3]     0.098579    0.011196    0.000145    0.292140    0.066781    0.999    2
   length{all}[4]     0.096142    0.009793    0.000096    0.281138    0.063673    1.000    2
   length{all}[5]     0.125510    0.013473    0.000188    0.351458    0.093837    1.000    2
   length{all}[6]     0.095949    0.009018    0.000015    0.296768    0.066671    1.000    2
   length{all}[7]     0.098269    0.011788    0.000947    0.320304    0.060961    0.999    2
   length{all}[8]     0.093338    0.008365    0.000238    0.279665    0.066760    0.996    2
   length{all}[9]     0.088331    0.007649    0.000180    0.260313    0.067319    0.996    2
   length{all}[10]    0.093116    0.008597    0.000493    0.283313    0.065933    0.998    2
   length{all}[11]    0.098334    0.007230    0.000111    0.288106    0.074968    1.005    2
   length{all}[12]    0.098948    0.011307    0.000040    0.340034    0.057947    0.997    2
   length{all}[13]    0.088557    0.007681    0.000003    0.240292    0.061621    1.001    2
   length{all}[14]    0.086322    0.006117    0.000021    0.237757    0.061570    1.001    2
   length{all}[15]    0.097652    0.009338    0.000156    0.331982    0.073294    0.996    2
   length{all}[16]    0.088612    0.007122    0.000180    0.230812    0.067057    1.007    2
   length{all}[17]    0.096724    0.009449    0.000043    0.320445    0.068327    0.999    2
   length{all}[18]    0.105352    0.011207    0.000818    0.309403    0.064947    0.998    2
   length{all}[19]    0.096059    0.008610    0.000072    0.299248    0.068940    0.999    2
   length{all}[20]    0.099426    0.010034    0.000524    0.292361    0.072388    1.010    2
   length{all}[21]    0.107247    0.011681    0.000104    0.286422    0.081822    0.995    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 = 0.008097
       Maximum standard deviation of split frequencies = 0.017890
       Average PSRF for parameter values ( excluding NA and >10.0 ) = 1.000
       Maximum PSRF for parameter values = 1.010


   Clade credibility values:

   /------------------------------------------------------------------------ C1 (1)
   |                                                                               
   |------------------------------------------------------------------------ C2 (2)
   |                                                                               
   |------------------------------------------------------------------------ C3 (3)
   +                                                                               
   |------------------------------------------------------------------------ C4 (4)
   |                                                                               
   |------------------------------------------------------------------------ C5 (5)
   |                                                                               
   \------------------------------------------------------------------------ C6 (6)
                                                                                   

   Phylogram (based on average branch lengths):

   /------------------------------------------------- C1 (1)
   |                                                                               
   |------------------------------------------------- C2 (2)
   |                                                                               
   |--------------------------------------------------- C3 (3)
   +                                                                               
   |------------------------------------------------- C4 (4)
   |                                                                               
   |------------------------------------------------------------------------ C5 (5)
   |                                                                               
   \--------------------------------------------------- C6 (6)
                                                                                   
   |--------------| 0.020 expected changes per site

   Calculating tree probabilities...

   Credible sets of trees (105 trees sampled):
      50 % credible set contains 43 trees
      90 % credible set contains 89 trees
      95 % credible set contains 96 trees
      99 % credible set contains 103 trees

   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 4.9h, March 2018

----------------------------------------------
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 = 6  	ls = 6603
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       
Sequences read..
Counting site patterns..  0:00

Compressing,     62 patterns at   2201 /   2201 sites (100.0%),  0:00

Collecting fpatt[] & pose[],     62 patterns at   2201 /   2201 sites (100.0%),  0:00
Counting codons..

      120 bytes for distance
    60512 bytes for conP
     5456 bytes for fhK
  5000000 bytes for space


Model 0: one-ratio

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.029477    0.068093    0.034329    0.022312    0.067927    0.086322    0.300000    1.300000

ntime & nrate & np:     6     2     8

Bounds (np=8):
   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 999.000000 999.000000

np =     8
lnL0 = -9422.595013

Iterating by ming2
Initial: fx=  9422.595013
x=  0.02948  0.06809  0.03433  0.02231  0.06793  0.08632  0.30000  1.30000

  1 h-m-p  0.0000 0.0000 5291.3123 ++     9134.777101  m 0.0000    13 | 1/8
  2 h-m-p  0.0000 0.0000 2211.3191 ++     9053.928929  m 0.0000    24 | 1/8
  3 h-m-p  0.0000 0.0002 551.1234 ++     9003.647557  m 0.0002    35 | 2/8
  4 h-m-p  0.0000 0.0000 7561.1049 ++     8975.217493  m 0.0000    46 | 3/8
  5 h-m-p  0.0000 0.0000 111680806973.8993 
h-m-p:      6.40694018e-13      3.20347009e-12      1.11680807e+11  8975.217493
..  | 3/8
  6 h-m-p  0.0000 0.0000 68069.2332 ---YCYYYYY  8972.635498  6 0.0000    75 | 3/8
  7 h-m-p  0.0000 0.0000 3061.7428 ++     8805.027199  m 0.0000    86 | 4/8
  8 h-m-p  0.0002 0.0012 225.4766 ++     8759.565544  m 0.0012    97 | 5/8
  9 h-m-p  0.0624 0.3121   3.8465 YC     8758.946793  1 0.1491   109 | 5/8
 10 h-m-p  1.2325 8.0000   0.4653 ++     8757.778566  m 8.0000   120 | 5/8
 11 h-m-p  1.6000 8.0000   0.3661 ++     8757.468195  m 8.0000   134 | 5/8
 12 h-m-p  1.2456 8.0000   2.3514 ++     8757.043913  m 8.0000   148 | 5/8
 13 h-m-p  1.6000 8.0000   1.7947 ++     8756.988000  m 8.0000   159 | 5/8
 14 h-m-p  1.6000 8.0000   5.7689 +YC    8756.962461  1 4.5049   172 | 5/8
 15 h-m-p  1.6000 8.0000   0.6448 ++     8756.910960  m 8.0000   183 | 5/8
 16 h-m-p  0.3003 8.0000  17.1755 +YYC   8756.873139  2 1.7939   200 | 5/8
 17 h-m-p  1.6000 8.0000   8.5422 ++     8756.849090  m 8.0000   211 | 5/8
 18 h-m-p  1.6000 8.0000  25.4584 YC     8756.836578  1 3.4171   223 | 5/8
 19 h-m-p  1.6000 8.0000  33.7848 YC     8756.828075  1 3.2997   235 | 5/8
 20 h-m-p  1.6000 8.0000  55.2676 YC     8756.822007  1 3.8964   247 | 5/8
 21 h-m-p  1.2251 6.1257  83.3595 YC     8756.818319  1 2.6573   259 | 5/8
 22 h-m-p  0.4878 2.4392 118.5339 ++     8756.815896  m 2.4392   270 | 6/8
 23 h-m-p  0.9307 4.6537 118.2129 ++     8756.813050  m 4.6537   281 | 7/8
 24 h-m-p  0.4690 8.0000   0.0000 Y      8756.812995  0 0.9291   292
Out..
lnL  = -8756.812995
293 lfun, 293 eigenQcodon, 1758 P(t)

Time used:  0:00


Model 1: NearlyNeutral

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.073279    0.026789    0.015323    0.067421    0.020624    0.026231  999.000000    0.756772    0.361381

ntime & nrate & np:     6     2     9

Bounds (np=9):
   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 999.000000   0.999990   1.000000
Qfactor_NS = 0.028113

np =     9
lnL0 = -9244.406755

Iterating by ming2
Initial: fx=  9244.406755
x=  0.07328  0.02679  0.01532  0.06742  0.02062  0.02623 951.42857  0.75677  0.36138

  1 h-m-p  0.0000 0.0000 5145.3389 ++     9053.458289  m 0.0000    14 | 1/9
  2 h-m-p  0.0000 0.0000 329727.1689 ++     9011.184739  m 0.0000    26 | 1/9
  3 h-m-p -0.0000 -0.0000 993.5886 
h-m-p:     -1.16027607e-16     -5.80138035e-16      9.93588600e+02  9011.184739
..  | 1/9
  4 h-m-p  0.0000 0.0000 234779.9207 --CCYYYCYCCC  9007.392697  9 0.0000    63 | 1/9
  5 h-m-p  0.0000 0.0000 4276.6600 ++     8951.620470  m 0.0000    75 | 2/9
  6 h-m-p  0.0000 0.0000 434.9271 ++     8944.824148  m 0.0000    87 | 3/9
  7 h-m-p  0.0000 0.0000 3638484.2608 ++     8797.044944  m 0.0000    99 | 3/9
  8 h-m-p -0.0000 -0.0000 1696.5816 
h-m-p:     -3.47981510e-21     -1.73990755e-20      1.69658157e+03  8797.044944
..  | 3/9
  9 h-m-p  0.0000 0.0000 3065.4671 ++     8765.489667  m 0.0000   120 | 4/9
 10 h-m-p  0.0000 0.0000 1623683.6659 ++     8757.876135  m 0.0000   132 | 5/9
 11 h-m-p  0.0005 0.2412   2.0519 +++++  8757.280332  m 0.2412   147 | 6/9
 12 h-m-p  1.3098 6.5491   0.0299 YCCC   8757.215438  3 2.7404   164 | 6/9
 13 h-m-p  1.6000 8.0000   0.0008 -------------N  8757.215438  0 0.0000   192
Out..
lnL  = -8757.215438
193 lfun, 579 eigenQcodon, 2316 P(t)

Time used:  0:01


Model 2: PositiveSelection

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.077806    0.014616    0.030759    0.082554    0.062230    0.064877  951.428578    1.631839    0.252706    0.274681 1134.603516

ntime & nrate & np:     6     3    11

Bounds (np=11):
   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 999.000000  99.000000  99.000000   1.000000 999.000000
Qfactor_NS = 0.000215

np =    11
lnL0 = -9017.014204

Iterating by ming2
Initial: fx=  9017.014204
x=  0.07781  0.01462  0.03076  0.08255  0.06223  0.06488 951.42858  1.63184  0.25271  0.27468 951.42857

  1 h-m-p  0.0000 0.0000 642.9090 ++     8993.084973  m 0.0000    16 | 1/11
  2 h-m-p  0.0001 0.0042 214.7870 +++    8827.620781  m 0.0042    31 | 2/11
  3 h-m-p  0.0000 0.0000 2656600.4500 ++     8823.985973  m 0.0000    45 | 3/11
  4 h-m-p  0.0000 0.0000 41287.9320 ++     8810.243842  m 0.0000    59 | 4/11
  5 h-m-p  0.0000 0.0000 6607.0004 +CCYYCYCCC  8793.210034  8 0.0000    87 | 4/11
  6 h-m-p  0.0000 0.0000 3852.1780 +YYYCCC  8791.752887  5 0.0000   109 | 4/11
  7 h-m-p  0.0022 0.0226   4.9281 ++     8783.940355  m 0.0226   123 | 4/11
  8 h-m-p -0.0000 -0.0000   9.1069 
h-m-p:     -4.44579602e-18     -2.22289801e-17      9.10689072e+00  8783.940355
..  | 4/11
  9 h-m-p  0.0000 0.0000 235223.0416 ---YCYYCYCYC  8779.923201  8 0.0000   163 | 4/11
 10 h-m-p  0.0000 0.0000 1402.1433 ++     8756.864253  m 0.0000   177 | 5/11
 11 h-m-p  0.0000 0.0084   8.6300 +++CCC  8756.828879  2 0.0019   198 | 5/11
 12 h-m-p  1.6000 8.0000   0.0003 C      8756.828878  0 0.5532   212 | 5/11
 13 h-m-p  0.9463 8.0000   0.0001 -C     8756.828878  0 0.0709   233
Out..
lnL  = -8756.828878
234 lfun, 936 eigenQcodon, 4212 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 likelihood.
	log(fX) = -8758.814228  S = -8757.301757    -2.386635
Calculating f(w|X), posterior probabilities of site classes.

	did  10 /  62 patterns   0:02
	did  20 /  62 patterns   0:02
	did  30 /  62 patterns   0:02
	did  40 /  62 patterns   0:02
	did  50 /  62 patterns   0:03
	did  60 /  62 patterns   0:03
	did  62 /  62 patterns   0:03
Time used:  0:03


Model 3: discrete

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.097308    0.097476    0.057378    0.029682    0.047044    0.093817  951.428582    0.285659    0.182198  499.500000 1298.385576 1820.739321

ntime & nrate & np:     6     4    12

Bounds (np=12):
   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 999.000000  99.000000  99.000000 999.000000 999.000000 999.000000
Qfactor_NS = 0.000036

np =    12
lnL0 = -9614.245754

Iterating by ming2
Initial: fx=  9614.245754
x=  0.09731  0.09748  0.05738  0.02968  0.04704  0.09382 951.42858  0.28566  0.18220 499.50000 951.42857 951.42857

  1 h-m-p  0.0000 0.0000 4796.5570 ++     9270.195695  m 0.0000    17 | 1/12
  2 h-m-p  0.0000 0.0000 936.1182 +CYCYYYCC  9255.933377  7 0.0000    43 | 1/12
  3 h-m-p  0.0001 0.0061 176.4160 +++    9100.074520  m 0.0061    59 | 2/12
  4 h-m-p  0.0000 0.0000 953.2788 ++     9095.807582  m 0.0000    74 | 3/12
  5 h-m-p  0.0000 0.0008 674.7293 ++++   9090.477233  m 0.0008    91 | 4/12
  6 h-m-p  0.0000 0.0002 11803.2856 ++     8758.226767  m 0.0002   106 | 5/12
  7 h-m-p  0.0157 0.0785   7.6660 +YYYCCC  8756.813563  5 0.0576   129 | 5/12
  8 h-m-p  1.6000 8.0000   0.0005 -C     8756.813563  0 0.1204   145 | 5/12
  9 h-m-p  0.4411 8.0000   0.0001 -C     8756.813563  0 0.0276   168
Out..
lnL  = -8756.813563
169 lfun, 676 eigenQcodon, 3042 P(t)

Time used:  0:03


Model 7: beta

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.065005    0.036939    0.080295    0.013223    0.023131    0.042987  951.428630    0.706777    1.555295

ntime & nrate & np:     6     1     9

Bounds (np=9):
   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 999.000000  99.000000  99.000000
Qfactor_NS = 0.035512

np =     9
lnL0 = -9310.980483

Iterating by ming2
Initial: fx=  9310.980483
x=  0.06500  0.03694  0.08029  0.01322  0.02313  0.04299 951.42863  0.70678  1.55530

  1 h-m-p  0.0000 0.0000 5082.4557 ++     9148.995341  m 0.0000    14 | 1/9
  2 h-m-p  0.0000 0.0000 5478.6015 ++     9123.166306  m 0.0000    26 | 1/9
  3 h-m-p  0.0001 0.0073 127.1314 ++++   9057.100124  m 0.0073    40 | 1/9
  4 h-m-p  0.0003 0.0016 115.6884 ++     9047.718909  m 0.0016    52 | 2/9
  5 h-m-p  0.0000 0.0000 53107.4744 ++     8962.432867  m 0.0000    64 | 2/9
  6 h-m-p  0.0000 0.0000 4356.6031 ++     8850.216576  m 0.0000    76 | 3/9
  7 h-m-p  0.0000 0.0000 4206.5424 ++     8823.882794  m 0.0000    88 | 4/9
  8 h-m-p  0.0003 0.0017  62.0094 ++     8811.266091  m 0.0017   100 | 4/9
  9 h-m-p -0.0000 -0.0000 101.7499 
h-m-p:     -0.00000000e+00     -0.00000000e+00      1.01749946e+02  8811.266091
..  | 4/9
 10 h-m-p  0.0000 0.0000 12194.6075 -CYYYCCC  8809.911292  6 0.0000   131 | 4/9
 11 h-m-p  0.0000 0.0000 3135.0784 ++     8761.245082  m 0.0000   143 | 5/9
 12 h-m-p  0.0162 1.3075   1.0232 ++++   8757.301544  m 1.3075   157 | 6/9
 13 h-m-p  1.6000 8.0000   0.0001 YC     8757.295103  1 3.4866   170 | 6/9
 14 h-m-p  1.6000 8.0000   0.0000 -----------Y  8757.295103  0 0.0000   196
Out..
lnL  = -8757.295103
197 lfun, 2167 eigenQcodon, 11820 P(t)

Time used:  0:06


Model 8: beta&w>1

TREE #  1
(1, 2, 3, 4, 5, 6);   MP score: 1
    0.077305    0.074895    0.020028    0.106681    0.096917    0.049436  951.428965    0.900000    1.172156    1.857436  999.000000

ntime & nrate & np:     6     2    11

Bounds (np=11):
   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 999.000000   0.999990  99.000000  99.000000 999.000000
Qfactor_NS = 0.000290

np =    11
lnL0 = -8974.106334

Iterating by ming2
Initial: fx=  8974.106334
x=  0.07730  0.07489  0.02003  0.10668  0.09692  0.04944 951.42897  0.90000  1.17216  1.85744 951.42857

  1 h-m-p  0.0000 0.0001 1826.6348 +YYYYCYYCCC  8835.564775 10 0.0000    31 | 0/11
  2 h-m-p  0.0000 0.0001 265.3156 ++     8826.698021  m 0.0001    45 | 1/11
  3 h-m-p  0.0000 0.0002 205.7466 ++     8816.339448  m 0.0002    59 | 2/11
  4 h-m-p  0.0000 0.0001 1063.3088 ++     8804.330138  m 0.0001    73 | 3/11
  5 h-m-p  0.0001 0.0007  75.4857 +YCYYCYYC  8797.238293  7 0.0007    98 | 3/11
  6 h-m-p  0.0000 0.0000 348.1128 +YYCYC  8796.579657  4 0.0000   118 | 3/11
  7 h-m-p  0.0006 0.0295  15.3448 +++    8781.721067  m 0.0295   133 | 3/11
  8 h-m-p -0.0000 -0.0000  55.9787 
h-m-p:     -2.43650130e-19     -1.21825065e-18      5.59786792e+01  8781.721067
..  | 3/11
  9 h-m-p  0.0000 0.0000 235975.1349 CCYCYYYCYC  8777.069698 10 0.0000   172 | 3/11
 10 h-m-p  0.0000 0.0000 1164.9382 ++     8775.650204  m 0.0000   186 | 4/11
 11 h-m-p  0.0000 0.0000 647.1157 ++     8757.478651  m 0.0000   200 | 5/11
 12 h-m-p  1.6000 8.0000   0.0020 +YYCCC  8756.927955  4 5.1539   221 | 5/11
 13 h-m-p  0.7733 8.0000   0.0130 ++     8756.917992  m 8.0000   241 | 5/11
 14 h-m-p  0.2129 1.4140   0.4897 +
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds
+     8756.876186  m 1.4140   261
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39218) = 1.075698e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39193) = 1.075839e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds
 | 5/11
 15 h-m-p  0.0000 0.0000   0.4041 
h-m-p:      2.28570875e-18      1.14285437e-17      4.04095200e-01  8756.876186
.. 
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39218) = 1.075698e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39193) = 1.075839e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds
 | 5/11
 16 h-m-p  0.0004 0.2130 140.4557 
QuantileBeta(0.15, 0.00500, 2.39206) = 1.076259e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075891e-160	2000 rounds
-
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075799e-160	2000 rounds
-
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075776e-160	2000 rounds
-
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075770e-160	2000 rounds
-
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds
-
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds
Y
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds
C  8756.874421  1 0.0000   304
QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.113323e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075768e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.075769e-160	2000 rounds
 | 5/11
 17 h-m-p  0.0004 0.2129   4.6348 
QuantileBeta(0.15, 0.00500, 2.39206) = 1.076316e-160	2000 rounds

QuantileBeta(0.15, 0.00500, 2.39206) = 1.077960e-160	2000 rounds
+
QuantileBeta(0.15, 0.00500, 2.39206) = 1.085327e-160	2000 rounds
+
QuantileBeta(0.15, 0.00500, 2.39206) = 1.112151e-160	2000 rounds
+
QuantileBeta(0.15, 0.00500, 2.39206) = 1.227938e-160	2000 rounds
++  8756.813604  m 0.2129   321 | 6/11
 18 h-m-p  0.5279 8.0000   0.0000 Y      8756.813138  0 0.8783   335
QuantileBeta(0.15, 0.00496, 2.39206) = 3.541085e-162	2000 rounds
 | 6/11
 19 h-m-p  1.6000 8.0000   0.0000 ---------C  8756.813138  0 0.0000   363
Out..
lnL  = -8756.813138
364 lfun, 4368 eigenQcodon, 24024 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 likelihood.
	log(fX) = -8761.454874  S = -8760.276884    -1.981338
Calculating f(w|X), posterior probabilities of site classes.

	did  10 /  62 patterns   0:13
	did  20 /  62 patterns   0:13
	did  30 /  62 patterns   0:13
	did  40 /  62 patterns   0:13
	did  50 /  62 patterns   0:13
	did  60 /  62 patterns   0:14
	did  62 /  62 patterns   0:14
Time used:  0:14
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=6, Len=2201 

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NC_002677_1_NP_302534_1_1406_ML2355                  MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
NC_002677_1_NP_302534_1_1406_ML2355                  NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
NC_002677_1_NP_302534_1_1406_ML2355                  GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
NC_002677_1_NP_302534_1_1406_ML2355                  QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
NC_002677_1_NP_302534_1_1406_ML2355                  GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
NC_002677_1_NP_302534_1_1406_ML2355                  RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
NC_002677_1_NP_302534_1_1406_ML2355                  GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
NC_002677_1_NP_302534_1_1406_ML2355                  LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
NC_002677_1_NP_302534_1_1406_ML2355                  VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
NC_002677_1_NP_302534_1_1406_ML2355                  SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
NC_002677_1_NP_302534_1_1406_ML2355                  TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
NC_002677_1_NP_302534_1_1406_ML2355                  RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
NC_002677_1_NP_302534_1_1406_ML2355                  EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
NC_002677_1_NP_302534_1_1406_ML2355                  SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
NC_002677_1_NP_302534_1_1406_ML2355                  MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
NC_002677_1_NP_302534_1_1406_ML2355                  QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
NC_002677_1_NP_302534_1_1406_ML2355                  GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
NC_002677_1_NP_302534_1_1406_ML2355                  SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
NC_002677_1_NP_302534_1_1406_ML2355                  PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
NC_002677_1_NP_302534_1_1406_ML2355                  GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
NC_002677_1_NP_302534_1_1406_ML2355                  GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
NC_002677_1_NP_302534_1_1406_ML2355                  HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
NC_002677_1_NP_302534_1_1406_ML2355                  FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
NC_002677_1_NP_302534_1_1406_ML2355                  MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
                                                     ***************:**********************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
NC_002677_1_NP_302534_1_1406_ML2355                  GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
NC_002677_1_NP_302534_1_1406_ML2355                  VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
NC_002677_1_NP_302534_1_1406_ML2355                  VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
NC_002677_1_NP_302534_1_1406_ML2355                  QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
NC_002677_1_NP_302534_1_1406_ML2355                  LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
NC_002677_1_NP_302534_1_1406_ML2355                  PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
NC_002677_1_NP_302534_1_1406_ML2355                  EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
NC_002677_1_NP_302534_1_1406_ML2355                  VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
NC_002677_1_NP_302534_1_1406_ML2355                  CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
NC_002677_1_NP_302534_1_1406_ML2355                  ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
NC_002677_1_NP_302534_1_1406_ML2355                  GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
NC_002677_1_NP_302534_1_1406_ML2355                  ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
NC_002677_1_NP_302534_1_1406_ML2355                  AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
NC_002677_1_NP_302534_1_1406_ML2355                  SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
NC_002677_1_NP_302534_1_1406_ML2355                  SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
NC_002677_1_NP_302534_1_1406_ML2355                  SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
NC_002677_1_NP_302534_1_1406_ML2355                  AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
NC_002677_1_NP_302534_1_1406_ML2355                  FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
NC_002677_1_NP_302534_1_1406_ML2355                  SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
NC_002677_1_NP_302534_1_1406_ML2355                  AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
                                                     **************************************************

NC_011896_1_WP_010908854_1_2516_MLBR_RS11985         S
NC_002677_1_NP_302534_1_1406_ML2355                  S
NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210   S
NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975   S
NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955      S
NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275      S
                                                     *

>NC_011896_1_WP_010908854_1_2516_MLBR_RS11985
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>NC_002677_1_NP_302534_1_1406_ML2355
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGATCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA
>NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275
ATGACCGCCTCGACACCTGATCGCCGGGCGATCATCACCGAGGCGTTGCA
CAAGATCGATGATCTCACTGCACGCCTGGAAATCGCCGAAAAGTCCAGCA
CTGAGCCGATCGCAGTGATCGGCATGGGGTGCCGATTCCCGGGCGGGGTC
AACAACCCCGAACAGTTCTGGGATCTGTTGTGCGATGGCCGAAGCGGCAT
CGTTCGGGTTCCTTCCGACCGATGGGATGCCGATGCCTACTATACGGACG
ATCACACCGTGCCGGGCACGATATGCAGCACCGAAGGCGGTTTTCTCACC
GGCTGGCAGCCTGATGAGTTCGATGCGGAGTTCTTCTCAATTTCCCCGCG
CGAAGCATCGGCAATGGACCCGCAGCAGCGGTTGTTGATTGAGGTCGCTT
GGGAAGCGTTGGAAGACGCGGGTGTCGCGCCGCACACCATTCGTGGGACT
CAAACCTCGGTATTCGTCGGTGTTACCGCTTACGATTATATGCTCACGTT
GGCGGGCCGGTTGCGTCCCGAAGATCTCGACGCCTACATACCAACCGGAA
ATTCGGCGAACTTTGCTGCTGGACGGTTGGCCTATATCCTCGGGGTTCGT
GGACCGGCCGTGGTCATCGACACGGCTTGCTCGTCGTCGTTGGTGGCGGT
GCACCTGGCGTGTCAGAGCTTGCGTCACCGAGAAAGCGACGCGGCTTTGG
TGGGTGGAACCAATTTGTTGCTTAGCCCGGGACCGAGCATTGCATGCTCG
CGTTGGGGGATGCTATCTCCGGCGGGGCAATGCAAGGCCTTCGATGTGTC
CGCCGACGGGTATGTGCGTGGCGAGGGTGCCGGGGTGGTGGTGCTTAAGC
GGTTGGATGACGCGGTGCGCGACGGCAACCGTATCCTCGCCATAGTGCGT
GGCTCGGCGGTCAACCAGGACGGCGCCAGCAGCGGAGTGACCGTTCCCAA
CGGGCCGGCGCAGCAGGAGTTGTTGCGCACCGCGTTAGCGTCGTCGAAGT
TGACGGCTGCTGACATTGACTACATCGAGGCCCATGGAACGGGAACGCCG
TTGGGTGATCCGATCGAACTCGACTCGCTGAGCAAGGTTTTCAGCGATCG
GCAGAGCCGGCGGGGCTCTGTCCCGTTGGTGATTGGGTCGGTGAAGACTA
ACCTCGGCCATCTGGAAGCGGCAGCTGGGATCGCTGGGTTCATCAAGGCG
GTGCTGGCTGTGCAACGTGGTTTCATTCCGCGGCACCTCAACTTCCACCA
GTTGACAACACATGCCAGTGAGGCTGCATCGCGGCTAAACATTGCGTCCG
AAGGCCTCGAATGGCCGACTGTCGGTCGGCCGCGCCGGGCGGGGGTGTCG
TCGTTCGGCGTCAGCGGGACGAATGCACATGTGGTGCTCGAGCAAGCACC
GGACCCGGTAGCAGTGCCAGCACCTGGGCCGGCGCTGCGCCTTGTTCCTG
CGGTGTCGACACTGGTGGTGTCGGGTAAGACAGTGCAGCGGGTGGCCGCG
ACAGCATCGGTGCTGGCTGATTGGATGGAAGGCCCTGGAGCTGCGGTGCC
GCTGACTGACGTTGCGCACACCCTGAACCACCACCGGGCCCGGCACACCA
AATTCGGCACTGTGGCGGCCGTTGATCGGGGCCAAGCGGTGGCGGGGTTG
CGTGCGCTGGCCGCGGGTCAATCCACCTCCGGTGTGGTGGCCCCCCGTGA
CAGCGTTGTTGGTCCGGGCACTGTGTTCGTCTATTCGGGCCGAGGATCGC
AGTGGGCCGGAATGGGTCGCCAACTGATGGCCGACGAGCCGGCATTCGCC
GAAGCTATTGCCAAACTAGAGCACGAATTTGTTGTACAGGCAGGTTTTTC
GTTGCACGAGGTAATCGCCAACGGCAAGGAGCTCGTAGGCATCGAACAGA
TCCAGCTGGGACTGATGGGAATGCAGCTGGCGCTGACCGAGTTGTGGCGC
TCCTACGGGGTAGAACCCGATGCGGTGATCGGTCACTCTATGGGCGAAGT
CGCCGCCGCGGTAGTGGCCGGGGCTCTGACTCCTACCCAGGGTTTACGGG
TCACTGCGACCCGATCGCGGCTAATGGCGCCATTGTCCGGTCAGGGCACA
ATGGCGTTGCTCGAACTCGACGCCGTGGCCACTGAGGCGTTGATCGCCGA
CTATCCGCAGGTGAGCTTGGGGATCTATGCTTCCCCGCGCCAAACTGTGA
TTGCCGGGCCGACGGCCATGATCGATGCTCTGATTGACAAGGTGCGCCAG
CAGGACGGTTTTGCCACCCGAGTCAACATCGAGGTGGCACCGCACAACCC
AGCCATGGATGCGCTGCAACCTCAGATGCGTTCGGAGCTAGCCGATCTCA
CTCCGCAGCAACCAACCATCCCGATCATCTCTACCACATACGAGGACTTC
GGCAGCACCCCTGTCTTCGACGTCGAGCACTGGGCGACTAACATGCGTAA
TCCTGTGCGTTTTCAGCAGGCCATTACTCACGCTAGTAGCGGTGTCGGCG
GCGACTATCACACCTTCATTGAGATCAGCGCACACCCACTGCTCACTCAT
TCGATCAGTGACATTCTGTGCAGCATCGCCGGCACAGCCGAAGAAAATGC
TGTCGGTGCGGGCTATTTGAGCATCGGCACCCTACAACGCGATGCTCACG
ACACACTCGAGTTCCACACCAACCTCAACGCTACGCATACCAGCCGCCCT
CCCCGAACTCCTCATCCGCCCGAACCGCACCCGGTGCTGCCCATCACTCC
GTGGCAGCACACTCGCCATTGGATCAGTGCCATGTCGGCGGCATACCACA
GGGCAGACACTCATCCTCTGCTTGGCGTTGGTGTTACCGATCCCACCAGT
GGCACCAGAGTATGGGAAAGCCAATTGGGCCCTGATCTGCTGTGGCTGGG
GGATCACGTTATTGACGATCTCTGCGTATTGCCGGGTGCAGCCTACGCCG
AGGTTGCGTTGGCGGCCGCGACGGACACCTTTCCAAACGAGCGAGTCGAA
GGAGATCAGCCGTGGATGATCTATGAGCTTGACCTTCATCAGGTTTTGCA
CGTGACCGAAGGCACTGTTCTCGTTACCACGCTCACCGGCGACCAGCAGC
GGTGCCGGATTGAAATGCGCACTCGCAACGGTTTTTCGGGTTGGACCACT
CATGCCACTGCCACTGTTGGTCCTGCCGAGTCAGTGCAACCGTCAGATCG
CGAGGAGCGCACCGCAACCCCGGTCGATGTGGTGGATGAACTGGGCCCCG
AAGACTTGTATCAGCGGCTGTGCAGCGCCGGTCAACAGCATGGTCCGGCG
TTTCAAGGGATCGTCGGGCTTGCGGTTGAAGAATCTGGTGCCGCCCGCGC
TGAGGTGCGGTTGCCTTCGTCGGCCAGAATGGGTTTCCGCGACTTCTTGC
TGCACCCGGTAATGATGGATATTGCGTTACAGACACTGGGTGCTACCCGG
ATGGCGACCGATTTAGCCGGAGGGCCGACCGCCCGGAAAACATTGGTCCT
ACCAGTACGTTTTGCGGGCGTGCATGTGTACGGTGATGTCACTCGCGGTG
TCTGTGCTGTCGGGTTGCTGACCGCAACCGAGGGCTTGGATCGGCTGGTT
GGCGAAGTTGTCCTGACTGATCTGGACGGGCAACCGCTACTTGTCATCGA
CGAAGTCCAGATGACGGTGCTTGGAGCCGGCAGCGACGCAACGGAACTCA
CCGATCGCCTATTCACGTTGGAGTGGGAACCTACACCGCTGTATAAGGAG
GTTTCGAGATCTTCCGCGCAAGGTGGCTTGTTGTTGATCGGTGACGTCGC
CGCGGGTGACCCGCTGTTGCTTGCCTTACAGTCGTCGCTGCGCGCCCGAT
TGAGTGAAAATGGGCCTCCACCAGTGGATTGCGTCTCCTTTAGCGACGAA
GTGAAGCTGCAGGCGGCGATCACTCGAACCGACATCAGCTGGGATGGCAT
CGTCGTGGTGTGTCCGCCGCGAGCGAGCGATGAGTCTTTGCCCGATGATG
CTCAACTGGAACTAGCGCAGACGCGCACACTTCAGATCGCCGGCGTGGTT
CAAGCAGTGACGCAAATGGGTGCTCGCAAGAGTCCACGGCTGTGGATCGT
CACCCGAGGTGCGCAGCAGCTTAACGCAGGCGAGTCAGTAACGTTGGCGC
AGACTGAGCTACGTGGAATTGTCCGAGTGCTGACGTTCGAGCATTCGGAA
CTCAAAGCGACCCTGCTTGACATTGAAGCTGACGGCACCGACTCACTTGA
CGACCTGACCGAGGAGCTGCTGGCCGGCTCGAACCACGACGAGGTCGCCT
ACCGGGACGGACAACGTTATGTCAACCGGTTGGTGCCGGCTCCCATCACG
CCGAAAGGCGAACTTGCCGGCGAAACTCGTCGCAAGGTTGTAGAACTGGG
TGGCTTAGGTGCTGTCCAGCTGCAGATCGATCAACCCGGACGACTGGACG
CATTGACGGTGCACCAAGTCAAGCGGGGCGAGCCGGAAGGCGATCAGGTC
GAGGTTCGTGTCGTCGCTGCGGGACTCAATTTCAGCGATGTGCTCAAGGC
GATGGGTGTGTACCCGGGACTCGACGGTGGAGCACCGGCGATCGGTGGCG
AGTGTGTCGGCTACGTGACAGCCATAGGAGACGACGTTGACTCTGTCGAG
GTTGGTCAGCGTGTTATCGCCTTTGGCCCCGGCACATTCGGAACATACGT
GGGTACGATTGCCGATCTCGTCGTCCCAATCCCCGACACCTTATCCGATC
ACGAGGCAGCCACGTTCGGCGTAGCGTACCTCACCGCCTGGCACTGCCTG
TGCGAGGTTGGGCGGCTGTCTCCCGGTGAACGTGTGCTGATCCATTCCGC
CACTGGTGGTGTCGGCATGGCTGCGGTTTCGATCGCCAAGATGCTCGGTG
CCCGCATCTACACAACGGCCGGTTCGGATGCCAAGCGACAAATGCTGTCC
GAGCTCGGTGTCGAGTATGTCGGTGACTCGCGAAGTGTGGACTTCGCCGA
CGAGATACTCGAGCTCACGCACGGTTATGGCGTCGATATCATTCTCAATT
CTCTTGCAGATAAAGCGATTCAGCGCGGTGTGCAGATACTTGCTCCCGGT
GGAAGGTTCATCGAAATCGGCAAGAAAGATGTCTACGACGATGCCAACCT
GGGCTTGGCCGCGCTGGCAAAGAGTGCTTCCTTCTCCGTAGTAGACCTTG
ATTTGAATCTGAAACTGCATCCTGCCCGGTATCGCCAACTGCTGCAACAC
ATCTTGGCGCACGTGGCCGATGGTAGATTGCCGGTGCTTCCTGTCACTGA
ATTCAGTCTGCACAACGCTGCCGATGCATTTCGGCTCATGGCCTCCGGCA
AGCATACCGGCAAGATCGTCATATCAATACCGTATGAGGGCAACATTGAA
GCGATCGCGTCCCCGCCACCCGTTCCATTGGTCAGCCAAGACGGCGGTTA
CCTGGTCGTTGGCGGTATGGGCGGTCTTGGCTTCGTCTTCGCGCGATGGC
TGGCCGAGCAAGGAGCGGGATTGATTGTCTTGAACGGACGTTCGTCCCCC
AGCGATGATGTTACGGCGGCCATAGCGGACTTGACCGCAGCGGGCCACCG
GATTGAGGTGGTCACGGGCGACATCTCTGAACCCGGTACGGCGGACCGAC
TGGTGCATGCGGTCCAAAGCGCAGGCTTCCGGCTGGCCGGAGTCCTGCAC
AGCGCCATGGTTCTCGCTGACGAGATCATGCTGAATATGACGGATTCTGC
GGCGAGGCGGGTGTTCGTTCCCAAAGTCACCGGCAGCTGGCGGTTACATC
AGGCCACCGCTGCGTTCGAAGTCGATTGGTGGTTGACCTTCTCCTCGGCT
TCCTCGCTGCTCGGTACACCAGGGCAGGGTGCGTATGCCGCCGCGAACGC
GTGGGTCGACGGCCTGGTAGCCTATCGGCGTTCGCTTGGACTACCCGCCG
TCGGAATCAACTGGGGCCCATGGGCTGAGGTGGGGCGTGCCCAATTCTTC
GCTGGTCTCGGTGTTTCGCTGCTCACCGCCGAGCAGGGTCTGGCGGCGAT
GCAGACGGTGCTTGCCGCTGATCGTGCGCAAACTGGTGTGTTCAGCCTCG
ATGCGCGGCAGTGGTTCCAATCTTTCCCGGCTGTGGCGGGTTCGTCGTTG
TTCGCAAATTTGCGCGACACGGCAACCCTGAAAAGCGGGGAGCGGCGCGG
CGTGGGCAAGATCCGTGCGCAACTGGACGTTCTCGACGCAGCCGAGCGCC
CGGGACACCTCGCGTCGGCGATCGCCGACGAGATCAGAGCGGTGCTACGC
TCGAGCGATCCAATCGACCACGACCGGCCGCTGGAAGCGCTGGGTCTTGA
TTCCTTGATGGGCCTGGAATTGCGAAACCGGTTGGAAGCCAGTCTGGGCA
TCACGTTGCCTGTCGCGCTGGTATGGGCATATCCGACAACTGCTGACCTT
GCGGCCGCACTATGCGAACGAATGGACTATGCGTTACCGGCCGAGGTGCA
GGAGGCGACTGACACAAACGCGGAACTGTCCAAAGCGGAGATGGACCTGC
TCTCTGATCTGGTCGAAGCCAGCGAGCTGGAAGCTGCAACGAGAGGCGAG
TCA

>NC_011896_1_WP_010908854_1_2516_MLBR_RS11985
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>NC_002677_1_NP_302534_1_1406_ML2355
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLILPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S
>NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275
MTASTPDRRAIITEALHKIDDLTARLEIAEKSSTEPIAVIGMGCRFPGGV
NNPEQFWDLLCDGRSGIVRVPSDRWDADAYYTDDHTVPGTICSTEGGFLT
GWQPDEFDAEFFSISPREASAMDPQQRLLIEVAWEALEDAGVAPHTIRGT
QTSVFVGVTAYDYMLTLAGRLRPEDLDAYIPTGNSANFAAGRLAYILGVR
GPAVVIDTACSSSLVAVHLACQSLRHRESDAALVGGTNLLLSPGPSIACS
RWGMLSPAGQCKAFDVSADGYVRGEGAGVVVLKRLDDAVRDGNRILAIVR
GSAVNQDGASSGVTVPNGPAQQELLRTALASSKLTAADIDYIEAHGTGTP
LGDPIELDSLSKVFSDRQSRRGSVPLVIGSVKTNLGHLEAAAGIAGFIKA
VLAVQRGFIPRHLNFHQLTTHASEAASRLNIASEGLEWPTVGRPRRAGVS
SFGVSGTNAHVVLEQAPDPVAVPAPGPALRLVPAVSTLVVSGKTVQRVAA
TASVLADWMEGPGAAVPLTDVAHTLNHHRARHTKFGTVAAVDRGQAVAGL
RALAAGQSTSGVVAPRDSVVGPGTVFVYSGRGSQWAGMGRQLMADEPAFA
EAIAKLEHEFVVQAGFSLHEVIANGKELVGIEQIQLGLMGMQLALTELWR
SYGVEPDAVIGHSMGEVAAAVVAGALTPTQGLRVTATRSRLMAPLSGQGT
MALLELDAVATEALIADYPQVSLGIYASPRQTVIAGPTAMIDALIDKVRQ
QDGFATRVNIEVAPHNPAMDALQPQMRSELADLTPQQPTIPIISTTYEDF
GSTPVFDVEHWATNMRNPVRFQQAITHASSGVGGDYHTFIEISAHPLLTH
SISDILCSIAGTAEENAVGAGYLSIGTLQRDAHDTLEFHTNLNATHTSRP
PRTPHPPEPHPVLPITPWQHTRHWISAMSAAYHRADTHPLLGVGVTDPTS
GTRVWESQLGPDLLWLGDHVIDDLCVLPGAAYAEVALAAATDTFPNERVE
GDQPWMIYELDLHQVLHVTEGTVLVTTLTGDQQRCRIEMRTRNGFSGWTT
HATATVGPAESVQPSDREERTATPVDVVDELGPEDLYQRLCSAGQQHGPA
FQGIVGLAVEESGAARAEVRLPSSARMGFRDFLLHPVMMDIALQTLGATR
MATDLAGGPTARKTLVLPVRFAGVHVYGDVTRGVCAVGLLTATEGLDRLV
GEVVLTDLDGQPLLVIDEVQMTVLGAGSDATELTDRLFTLEWEPTPLYKE
VSRSSAQGGLLLIGDVAAGDPLLLALQSSLRARLSENGPPPVDCVSFSDE
VKLQAAITRTDISWDGIVVVCPPRASDESLPDDAQLELAQTRTLQIAGVV
QAVTQMGARKSPRLWIVTRGAQQLNAGESVTLAQTELRGIVRVLTFEHSE
LKATLLDIEADGTDSLDDLTEELLAGSNHDEVAYRDGQRYVNRLVPAPIT
PKGELAGETRRKVVELGGLGAVQLQIDQPGRLDALTVHQVKRGEPEGDQV
EVRVVAAGLNFSDVLKAMGVYPGLDGGAPAIGGECVGYVTAIGDDVDSVE
VGQRVIAFGPGTFGTYVGTIADLVVPIPDTLSDHEAATFGVAYLTAWHCL
CEVGRLSPGERVLIHSATGGVGMAAVSIAKMLGARIYTTAGSDAKRQMLS
ELGVEYVGDSRSVDFADEILELTHGYGVDIILNSLADKAIQRGVQILAPG
GRFIEIGKKDVYDDANLGLAALAKSASFSVVDLDLNLKLHPARYRQLLQH
ILAHVADGRLPVLPVTEFSLHNAADAFRLMASGKHTGKIVISIPYEGNIE
AIASPPPVPLVSQDGGYLVVGGMGGLGFVFARWLAEQGAGLIVLNGRSSP
SDDVTAAIADLTAAGHRIEVVTGDISEPGTADRLVHAVQSAGFRLAGVLH
SAMVLADEIMLNMTDSAARRVFVPKVTGSWRLHQATAAFEVDWWLTFSSA
SSLLGTPGQGAYAAANAWVDGLVAYRRSLGLPAVGINWGPWAEVGRAQFF
AGLGVSLLTAEQGLAAMQTVLAADRAQTGVFSLDARQWFQSFPAVAGSSL
FANLRDTATLKSGERRGVGKIRAQLDVLDAAERPGHLASAIADEIRAVLR
SSDPIDHDRPLEALGLDSLMGLELRNRLEASLGITLPVALVWAYPTTADL
AAALCERMDYALPAEVQEATDTNAELSKAEMDLLSDLVEASELEAATRGE
S

#NEXUS

[ID: 5568063033]
begin taxa;
	dimensions ntax=6;
	taxlabels
		NC_011896_1_WP_010908854_1_2516_MLBR_RS11985
		NC_002677_1_NP_302534_1_1406_ML2355
		NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210
		NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975
		NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955
		NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275
		;
end;
begin trees;
	translate
		1	NC_011896_1_WP_010908854_1_2516_MLBR_RS11985,
		2	NC_002677_1_NP_302534_1_1406_ML2355,
		3	NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210,
		4	NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975,
		5	NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955,
		6	NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275
		;
   [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 = (1:0.06434302,2:0.06336256,3:0.06678075,4:0.06367328,5:0.09383719,6:0.06667144);

   [Note: This tree contains information only on the topology
          and branch lengths (median of the posterior probability density).]
   tree con_50_majrule = (1:0.06434302,2:0.06336256,3:0.06678075,4:0.06367328,5:0.09383719,6:0.06667144);
end;

      Estimated marginal likelihoods for runs sampled in files
"/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/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 /data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1      -9003.21         -9006.20
2      -9003.35         -9006.87
--------------------------------------
TOTAL    -9003.28         -9006.59
--------------------------------------


Model parameter summaries over the runs sampled in files
"/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 1502 samples from 2 runs.
Each run produced 1001 samples of which 751 samples were included.
Parameter summaries saved to file "/data/8res/ML2355/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         0.888101    0.090676    0.374760    1.514432    0.860274    671.47    677.11    0.999
r(A<->C){all}   0.175970    0.021611    0.000382    0.477675    0.140105     91.30    100.13    0.999
r(A<->G){all}   0.187762    0.023906    0.000091    0.504590    0.145383     90.82     96.27    0.999
r(A<->T){all}   0.163738    0.017875    0.000091    0.422506    0.131867     26.04     89.12    1.006
r(C<->G){all}   0.150055    0.016525    0.000144    0.411496    0.117042    134.71    164.74    1.001
r(C<->T){all}   0.174044    0.018748    0.000053    0.443588    0.143267     50.73     76.76    0.999
r(G<->T){all}   0.148432    0.015706    0.000557    0.386879    0.114661    109.84    181.96    1.002
pi(A){all}      0.184924    0.000024    0.175291    0.194163    0.184741    532.88    605.91    1.000
pi(C){all}      0.287978    0.000032    0.277014    0.299572    0.287954    433.13    483.15    0.999
pi(G){all}      0.320848    0.000034    0.310379    0.333009    0.320859    475.47    491.01    1.000
pi(T){all}      0.206250    0.000026    0.195755    0.215370    0.206095    371.64    489.16    1.000
alpha{1,2}      0.345152    0.173159    0.000509    1.238037    0.192111    496.43    540.30    1.000
alpha{3}        0.443404    0.244166    0.000790    1.395834    0.282463    434.09    456.29    0.999
pinvar{all}     0.999580    0.000000    0.998936    0.999997    0.999662    136.51    253.89    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 4.9h, March 2018)  /data/8res/ML2355/batch/allfiles/codeml/input.fasta.fasta.pnxs
Model: One dN/dS ratio, 
Codon frequency model: F3x4
Site-class models: 
ns =   6  ls = 2201

Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT  13  13  13  13  13  13 | Ser TCT  14  14  14  14  14  14 | Tyr TAT  21  21  21  21  21  21 | Cys TGT   4   4   4   4   4   4
    TTC  42  42  42  42  42  42 |     TCC  24  24  24  24  24  24 |     TAC  17  17  17  17  17  17 |     TGC  14  14  14  14  14  14
Leu TTA   9   9   9   9   9   9 |     TCA   7   7   7   7   7   7 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG  63  63  63  63  63  63 |     TCG  46  46  46  46  46  46 |     TAG   0   0   0   0   0   0 | Trp TGG  29  29  29  29  29  29
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT  24  24  24  24  24  24 | Pro CCT  21  21  21  21  21  21 | His CAT  19  19  19  19  19  19 | Arg CGT  26  26  26  26  26  26
    CTC  42  42  42  42  42  42 |     CCC  22  22  22  22  22  22 |     CAC  39  39  39  39  39  39 |     CGC  33  33  33  33  33  33
    CTA  14  14  14  14  14  14 |     CCA  17  17  17  17  17  17 | Gln CAA  33  33  33  33  33  33 |     CGA  21  21  21  21  21  21
    CTG  81  81  81  81  81  81 |     CCG  58  58  58  58  58  58 |     CAG  53  53  53  53  53  53 |     CGG  42  42  42  42  42  42
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT  25  25  25  25  25  25 | Thr ACT  35  35  35  35  35  35 | Asn AAT  11  11  11  11  11  11 | Ser AGT  11  11  11  11  11  11
    ATC  62  62  62  62  63  62 |     ACC  56  56  56  56  56  56 |     AAC  29  29  29  29  29  29 |     AGC  37  37  37  37  37  37
    ATA   9   9   9   9   9   9 |     ACA  21  21  21  21  21  21 | Lys AAA  11  11  11  11  11  11 | Arg AGA   6   6   6   6   6   6
Met ATG  39  39  39  39  39  39 |     ACG  33  33  33  33  33  33 |     AAG  24  24  24  24  24  24 |     AGG   3   3   3   3   3   3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT  39  39  39  39  39  39 | Ala GCT  44  44  44  44  44  44 | Asp GAT  64  64  64  64  64  64 | Gly GGT  67  67  67  67  67  67
    GTC  63  63  63  63  62  63 |     GCC  94  94  94  94  94  94 |     GAC  75  75  75  75  75  75 |     GGC  79  79  79  79  79  79
    GTA  18  18  18  18  18  18 |     GCA  38  38  38  38  38  38 | Glu GAA  57  57  57  57  57  57 |     GGA  32  32  32  32  32  32
    GTG  79  79  79  79  79  79 |     GCG  98  98  98  98  98  98 |     GAG  63  63  63  63  63  63 |     GGG  31  31  31  31  31  31
--------------------------------------------------------------------------------------------------------------------------------------

Codon position x base (3x4) table for each sequence.

#1: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985             
position  1:    T:0.13766    C:0.24761    A:0.18719    G:0.42753
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18492    G:0.32076

#2: NC_002677_1_NP_302534_1_1406_ML2355             
position  1:    T:0.13766    C:0.24761    A:0.18719    G:0.42753
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18492    G:0.32076

#3: NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210             
position  1:    T:0.13766    C:0.24761    A:0.18719    G:0.42753
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18492    G:0.32076

#4: NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975             
position  1:    T:0.13766    C:0.24761    A:0.18719    G:0.42753
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18492    G:0.32076

#5: NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955             
position  1:    T:0.13766    C:0.24761    A:0.18764    G:0.42708
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18507    G:0.32061

#6: NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275             
position  1:    T:0.13766    C:0.24761    A:0.18719    G:0.42753
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18492    G:0.32076

Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT      78 | Ser S TCT      84 | Tyr Y TAT     126 | Cys C TGT      24
      TTC     252 |       TCC     144 |       TAC     102 |       TGC      84
Leu L TTA      54 |       TCA      42 | *** * TAA       0 | *** * TGA       0
      TTG     378 |       TCG     276 |       TAG       0 | Trp W TGG     174
------------------------------------------------------------------------------
Leu L CTT     144 | Pro P CCT     126 | His H CAT     114 | Arg R CGT     156
      CTC     252 |       CCC     132 |       CAC     234 |       CGC     198
      CTA      84 |       CCA     102 | Gln Q CAA     198 |       CGA     126
      CTG     486 |       CCG     348 |       CAG     318 |       CGG     252
------------------------------------------------------------------------------
Ile I ATT     150 | Thr T ACT     210 | Asn N AAT      66 | Ser S AGT      66
      ATC     373 |       ACC     336 |       AAC     174 |       AGC     222
      ATA      54 |       ACA     126 | Lys K AAA      66 | Arg R AGA      36
Met M ATG     234 |       ACG     198 |       AAG     144 |       AGG      18
------------------------------------------------------------------------------
Val V GTT     234 | Ala A GCT     264 | Asp D GAT     384 | Gly G GGT     402
      GTC     377 |       GCC     564 |       GAC     450 |       GGC     474
      GTA     108 |       GCA     228 | Glu E GAA     342 |       GGA     192
      GTG     474 |       GCG     588 |       GAG     378 |       GGG     186
------------------------------------------------------------------------------


Codon position x base (3x4) table, overall

position  1:    T:0.13766    C:0.24761    A:0.18726    G:0.42746
position  2:    T:0.28260    C:0.28532    A:0.23444    G:0.19764
position  3:    T:0.19900    C:0.33076    A:0.13312    G:0.33712
Average         T:0.20642    C:0.28790    A:0.18494    G:0.32074

Model 0: one-ratio


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np:  8):  -8756.812995      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000467 0.000004 999.000000 999.000000

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000487

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000467, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000467, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 999.00000

omega (dN/dS) = 999.00000

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1      0.000  4486.3  2116.7 999.0000  0.0000  0.0000   0.0   0.0
   7..2      0.000  4486.3  2116.7 999.0000  0.0000  0.0000   0.0   0.0
   7..3      0.000  4486.3  2116.7 999.0000  0.0000  0.0000   0.0   0.0
   7..4      0.000  4486.3  2116.7 999.0000  0.0000  0.0000   0.0   0.0
   7..5      0.000  4486.3  2116.7 999.0000  0.0002  0.0000   1.0   0.0
   7..6      0.000  4486.3  2116.7 999.0000  0.0000  0.0000   0.0   0.0

tree length for dN:       0.0002
tree length for dS:       0.0000


Time used:  0:00


Model 1: NearlyNeutral (2 categories)


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np:  9):  -8757.215438      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000460 0.000004 951.428578 0.000010 0.114005

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000480

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000460, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000460, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 951.42858


MLEs of dN/dS (w) for site classes (K=2)

p:   0.00001  0.99999
w:   0.11401  1.00000

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1       0.000   4486.3   2116.7   1.0000   0.0000   0.0000    0.0    0.0
   7..2       0.000   4486.3   2116.7   1.0000   0.0000   0.0000    0.0    0.0
   7..3       0.000   4486.3   2116.7   1.0000   0.0000   0.0000    0.0    0.0
   7..4       0.000   4486.3   2116.7   1.0000   0.0000   0.0000    0.0    0.0
   7..5       0.000   4486.3   2116.7   1.0000   0.0002   0.0002    0.7    0.3
   7..6       0.000   4486.3   2116.7   1.0000   0.0000   0.0000    0.0    0.0


Time used:  0:01


Model 2: PositiveSelection (3 categories)


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np: 11):  -8756.828878      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000469 0.000004 951.428582 0.871830 0.078315 0.189994 951.428664

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000489

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000469, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000469, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 951.42858


MLEs of dN/dS (w) for site classes (K=3)

p:   0.87183  0.07831  0.04986
w:   0.18999  1.00000 951.42866

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1       0.000   4486.3   2116.7  47.6780   0.0000   0.0000    0.0    0.0
   7..2       0.000   4486.3   2116.7  47.6780   0.0000   0.0000    0.0    0.0
   7..3       0.000   4486.3   2116.7  47.6780   0.0000   0.0000    0.0    0.0
   7..4       0.000   4486.3   2116.7  47.6780   0.0000   0.0000    0.0    0.0
   7..5       0.000   4486.3   2116.7  47.6780   0.0002   0.0000    1.0    0.0
   7..6       0.000   4486.3   2116.7  47.6780   0.0000   0.0000    0.0    0.0


Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985)

            Pr(w>1)     post mean +- SE for w

  1166 V      0.995**       946.490


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: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985)

            Pr(w>1)     post mean +- SE for w

  1166 V      0.793         5.980 +- 3.447



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:   0.094  0.095  0.097  0.098  0.099  0.101  0.102  0.103  0.105  0.106
w2:   0.042  0.056  0.069  0.082  0.095  0.107  0.119  0.131  0.143  0.154

Posterior for p0-p1 (see the ternary graph) (YWN2015, fig. 1)

 0.005
 0.007 0.005 0.005
 0.009 0.007 0.007 0.005 0.004
 0.011 0.009 0.009 0.007 0.006 0.005 0.004
 0.013 0.011 0.011 0.009 0.008 0.007 0.006 0.005 0.004
 0.014 0.013 0.012 0.011 0.010 0.009 0.008 0.007 0.006 0.005 0.004
 0.016 0.015 0.014 0.013 0.012 0.011 0.010 0.009 0.008 0.007 0.006 0.004 0.004
 0.018 0.017 0.016 0.015 0.014 0.013 0.012 0.011 0.010 0.009 0.008 0.006 0.006 0.004 0.003
 0.019 0.018 0.018 0.016 0.016 0.015 0.014 0.013 0.012 0.011 0.010 0.008 0.008 0.006 0.005 0.004 0.003
 0.021 0.020 0.019 0.018 0.017 0.016 0.016 0.014 0.014 0.012 0.012 0.010 0.010 0.008 0.007 0.006 0.005 0.004 0.003

sum of density on p0-p1 =   1.000000

Time used:  0:03


Model 3: discrete (3 categories)


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np: 12):  -8756.813563      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000467 0.000004 951.428630 0.928113 0.055175 499.472825 951.434859 951.436569

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000487

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000467, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000467, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 951.42863


MLEs of dN/dS (w) for site classes (K=3)

p:   0.92811  0.05517  0.01671
w:  499.47283 951.43486 951.43657

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1       0.000   4486.3   2116.7 531.9632   0.0000   0.0000    0.0    0.0
   7..2       0.000   4486.3   2116.7 531.9632   0.0000   0.0000    0.0    0.0
   7..3       0.000   4486.3   2116.7 531.9632   0.0000   0.0000    0.0    0.0
   7..4       0.000   4486.3   2116.7 531.9632   0.0000   0.0000    0.0    0.0
   7..5       0.000   4486.3   2116.7 531.9632   0.0002   0.0000    1.0    0.0
   7..6       0.000   4486.3   2116.7 531.9632   0.0000   0.0000    0.0    0.0


Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985)

            Pr(w>1)     post mean +- SE for w

     1 M      1.000**       531.941
     2 T      1.000**       531.944
     3 A      1.000**       531.944
     4 S      1.000**       531.951
     5 T      1.000**       531.955
     6 P      1.000**       531.956
     7 D      1.000**       531.955
     8 R      1.000**       531.954
     9 R      1.000**       531.953
    10 A      1.000**       531.943
    11 I      1.000**       531.944
    12 I      1.000**       531.944
    13 T      1.000**       531.944
    14 E      1.000**       531.949
    15 A      1.000**       531.943
    16 L      1.000**       531.959
    17 H      1.000**       531.954
    18 K      1.000**       531.948
    19 I      1.000**       531.944
    20 D      1.000**       531.955
    21 D      1.000**       531.955
    22 L      1.000**       531.951
    23 T      1.000**       531.951
    24 A      1.000**       531.955
    25 R      1.000**       531.954
    26 L      1.000**       531.955
    27 E      1.000**       531.957
    28 I      1.000**       531.944
    29 A      1.000**       531.944
    30 E      1.000**       531.957
    31 K      1.000**       531.948
    32 S      1.000**       531.951
    33 S      1.000**       531.949
    34 T      1.000**       531.951
    35 E      1.000**       531.949
    36 P      1.000**       531.951
    37 I      1.000**       531.944
    38 A      1.000**       531.955
    39 V      1.000**       531.943
    40 I      1.000**       531.944
    41 G      1.000**       531.948
    42 M      1.000**       531.941
    43 G      1.000**       531.948
    44 C      1.000**       531.954
    45 R      1.000**       531.961
    46 F      1.000**       531.951
    47 P      1.000**       531.951
    48 G      1.000**       531.948
    49 G      1.000**       531.948
    50 V      1.000**       531.944
    51 N      1.000**       531.948
    52 N      1.000**       531.948
    53 P      1.000**       531.951
    54 E      1.000**       531.957
    55 Q      1.000**       531.958
    56 F      1.000**       531.951
    57 W      1.000**       531.958
    58 D      1.000**       531.955
    59 L      1.000**       531.955
    60 L      1.000**       531.959
    61 C      1.000**       531.954
    62 D      1.000**       531.955
    63 G      1.000**       531.948
    64 R      1.000**       531.961
    65 S      1.000**       531.949
    66 G      1.000**       531.948
    67 I      1.000**       531.944
    68 V      1.000**       531.951
    69 R      1.000**       531.953
    70 V      1.000**       531.951
    71 P      1.000**       531.956
    72 S      1.000**       531.951
    73 D      1.000**       531.949
    74 R      1.000**       531.961
    75 W      1.000**       531.958
    76 D      1.000**       531.955
    77 A      1.000**       531.944
    78 D      1.000**       531.955
    79 A      1.000**       531.944
    80 Y      1.000**       531.954
    81 Y      1.000**       531.957
    82 T      1.000**       531.943
    83 D      1.000**       531.949
    84 D      1.000**       531.955
    85 H      1.000**       531.954
    86 T      1.000**       531.944
    87 V      1.000**       531.943
    88 P      1.000**       531.951
    89 G      1.000**       531.948
    90 T      1.000**       531.943
    91 I      1.000**       531.949
    92 C      1.000**       531.954
    93 S      1.000**       531.949
    94 T      1.000**       531.944
    95 E      1.000**       531.957
    96 G      1.000**       531.948
    97 G      1.000**       531.954
    98 F      1.000**       531.956
    99 L      1.000**       531.951
   100 T      1.000**       531.944
   101 G      1.000**       531.948
   102 W      1.000**       531.958
   103 Q      1.000**       531.958
   104 P      1.000**       531.956
   105 D      1.000**       531.955
   106 E      1.000**       531.949
   107 F      1.000**       531.951
   108 D      1.000**       531.955
   109 A      1.000**       531.943
   110 E      1.000**       531.949
   111 F      1.000**       531.951
   112 F      1.000**       531.951
   113 S      1.000**       531.958
   114 I      1.000**       531.952
   115 S      1.000**       531.951
   116 P      1.000**       531.951
   117 R      1.000**       531.954
   118 E      1.000**       531.957
   119 A      1.000**       531.955
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   121 A      1.000**       531.955
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   126 Q      1.000**       531.958
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   129 L      1.000**       531.959
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   131 E      1.000**       531.949
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   135 E      1.000**       531.957
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   138 E      1.000**       531.957
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   145 H      1.000**       531.954
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   147 I      1.000**       531.952
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   163 Y      1.000**       531.957
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   190 A      1.000**       531.952
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   212 S      1.000**       531.951
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   236 G      1.000**       531.957
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   240 L      1.000**       531.959
   241 L      1.000**       531.956
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   245 P      1.000**       531.951
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   247 I      1.000**       531.952
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   280 V      1.000**       531.943
   281 V      1.000**       531.943
   282 L      1.000**       531.956
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   287 D      1.000**       531.949
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   292 G      1.000**       531.948
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   319 P      1.000**       531.951
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   322 Q      1.000**       531.958
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   332 S      1.000**       531.951
   333 K      1.000**       531.948
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   336 A      1.000**       531.952
   337 A      1.000**       531.952
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   339 I      1.000**       531.952
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   341 Y      1.000**       531.954
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   497 R      1.000**       531.953
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   548 A      1.000**       531.943
   549 G      1.000**       531.948
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   563 V      1.000**       531.943
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   641 M      1.000**       531.941
   642 Q      1.000**       531.958
   643 L      1.000**       531.955
   644 A      1.000**       531.943
   645 L      1.000**       531.955
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  1655 E      1.000**       531.949
  1656 Y      1.000**       531.957
  1657 V      1.000**       531.944
  1658 G      1.000**       531.954
  1659 D      1.000**       531.949
  1660 S      1.000**       531.951
  1661 R      1.000**       531.961
  1662 S      1.000**       531.955
  1663 V      1.000**       531.943
  1664 D      1.000**       531.949
  1665 F      1.000**       531.951
  1666 A      1.000**       531.944
  1667 D      1.000**       531.949
  1668 E      1.000**       531.949
  1669 I      1.000**       531.949
  1670 L      1.000**       531.951
  1671 E      1.000**       531.949
  1672 L      1.000**       531.951
  1673 T      1.000**       531.943
  1674 H      1.000**       531.954
  1675 G      1.000**       531.954
  1676 Y      1.000**       531.957
  1677 G      1.000**       531.948
  1678 V      1.000**       531.944
  1679 D      1.000**       531.955
  1680 I      1.000**       531.944
  1681 I      1.000**       531.952
  1682 L      1.000**       531.951
  1683 N      1.000**       531.954
  1684 S      1.000**       531.956
  1685 L      1.000**       531.956
  1686 A      1.000**       531.955
  1687 D      1.000**       531.955
  1688 K      1.000**       531.957
  1689 A      1.000**       531.943
  1690 I      1.000**       531.952
  1691 Q      1.000**       531.958
  1692 R      1.000**       531.954
  1693 G      1.000**       531.954
  1694 V      1.000**       531.943
  1695 Q      1.000**       531.958
  1696 I      1.000**       531.949
  1697 L      1.000**       531.956
  1698 A      1.000**       531.952
  1699 P      1.000**       531.951
  1700 G      1.000**       531.954
  1701 G      1.000**       531.957
  1702 R      1.000**       531.949
  1703 F      1.000**       531.951
  1704 I      1.000**       531.944
  1705 E      1.000**       531.957
  1706 I      1.000**       531.944
  1707 G      1.000**       531.948
  1708 K      1.000**       531.948
  1709 K      1.000**       531.957
  1710 D      1.000**       531.955
  1711 V      1.000**       531.944
  1712 Y      1.000**       531.954
  1713 D      1.000**       531.949
  1714 D      1.000**       531.955
  1715 A      1.000**       531.944
  1716 N      1.000**       531.948
  1717 L      1.000**       531.955
  1718 G      1.000**       531.948
  1719 L      1.000**       531.959
  1720 A      1.000**       531.944
  1721 A      1.000**       531.943
  1722 L      1.000**       531.955
  1723 A      1.000**       531.955
  1724 K      1.000**       531.948
  1725 S      1.000**       531.955
  1726 A      1.000**       531.952
  1727 S      1.000**       531.951
  1728 F      1.000**       531.951
  1729 S      1.000**       531.951
  1730 V      1.000**       531.955
  1731 V      1.000**       531.955
  1732 D      1.000**       531.949
  1733 L      1.000**       531.956
  1734 D      1.000**       531.955
  1735 L      1.000**       531.959
  1736 N      1.000**       531.954
  1737 L      1.000**       531.955
  1738 K      1.000**       531.957
  1739 L      1.000**       531.955
  1740 H      1.000**       531.958
  1741 P      1.000**       531.956
  1742 A      1.000**       531.944
  1743 R      1.000**       531.953
  1744 Y      1.000**       531.957
  1745 R      1.000**       531.954
  1746 Q      1.000**       531.961
  1747 L      1.000**       531.955
  1748 L      1.000**       531.955
  1749 Q      1.000**       531.961
  1750 H      1.000**       531.954
  1751 I      1.000**       531.944
  1752 L      1.000**       531.959
  1753 A      1.000**       531.943
  1754 H      1.000**       531.954
  1755 V      1.000**       531.943
  1756 A      1.000**       531.944
  1757 D      1.000**       531.955
  1758 G      1.000**       531.954
  1759 R      1.000**       531.957
  1760 L      1.000**       531.959
  1761 P      1.000**       531.951
  1762 V      1.000**       531.943
  1763 L      1.000**       531.956
  1764 P      1.000**       531.956
  1765 V      1.000**       531.944
  1766 T      1.000**       531.951
  1767 E      1.000**       531.957
  1768 F      1.000**       531.951
  1769 S      1.000**       531.955
  1770 L      1.000**       531.955
  1771 H      1.000**       531.954
  1772 N      1.000**       531.948
  1773 A      1.000**       531.952
  1774 A      1.000**       531.944
  1775 D      1.000**       531.955
  1776 A      1.000**       531.955
  1777 F      1.000**       531.956
  1778 R      1.000**       531.953
  1779 L      1.000**       531.951
  1780 M      1.000**       531.941
  1781 A      1.000**       531.944
  1782 S      1.000**       531.951
  1783 G      1.000**       531.948
  1784 K      1.000**       531.948
  1785 H      1.000**       531.958
  1786 T      1.000**       531.944
  1787 G      1.000**       531.948
  1788 K      1.000**       531.948
  1789 I      1.000**       531.944
  1790 V      1.000**       531.944
  1791 I      1.000**       531.949
  1792 S      1.000**       531.958
  1793 I      1.000**       531.949
  1794 P      1.000**       531.951
  1795 Y      1.000**       531.957
  1796 E      1.000**       531.949
  1797 G      1.000**       531.948
  1798 N      1.000**       531.948
  1799 I      1.000**       531.952
  1800 E      1.000**       531.957
  1801 A      1.000**       531.943
  1802 I      1.000**       531.944
  1803 A      1.000**       531.943
  1804 S      1.000**       531.951
  1805 P      1.000**       531.951
  1806 P      1.000**       531.958
  1807 P      1.000**       531.951
  1808 V      1.000**       531.951
  1809 P      1.000**       531.958
  1810 L      1.000**       531.959
  1811 V      1.000**       531.944
  1812 S      1.000**       531.949
  1813 Q      1.000**       531.961
  1814 D      1.000**       531.949
  1815 G      1.000**       531.948
  1816 G      1.000**       531.954
  1817 Y      1.000**       531.954
  1818 L      1.000**       531.955
  1819 V      1.000**       531.944
  1820 V      1.000**       531.951
  1821 G      1.000**       531.948
  1822 G      1.000**       531.954
  1823 M      1.000**       531.941
  1824 G      1.000**       531.948
  1825 G      1.000**       531.954
  1826 L      1.000**       531.956
  1827 G      1.000**       531.948
  1828 F      1.000**       531.951
  1829 V      1.000**       531.944
  1830 F      1.000**       531.951
  1831 A      1.000**       531.943
  1832 R      1.000**       531.961
  1833 W      1.000**       531.958
  1834 L      1.000**       531.955
  1835 A      1.000**       531.944
  1836 E      1.000**       531.949
  1837 Q      1.000**       531.961
  1838 G      1.000**       531.957
  1839 A      1.000**       531.943
  1840 G      1.000**       531.957
  1841 L      1.000**       531.959
  1842 I      1.000**       531.952
  1843 V      1.000**       531.944
  1844 L      1.000**       531.959
  1845 N      1.000**       531.948
  1846 G      1.000**       531.957
  1847 R      1.000**       531.957
  1848 S      1.000**       531.951
  1849 S      1.000**       531.951
  1850 P      1.000**       531.951
  1851 S      1.000**       531.949
  1852 D      1.000**       531.955
  1853 D      1.000**       531.955
  1854 V      1.000**       531.951
  1855 T      1.000**       531.943
  1856 A      1.000**       531.943
  1857 A      1.000**       531.944
  1858 I      1.000**       531.949
  1859 A      1.000**       531.943
  1860 D      1.000**       531.949
  1861 L      1.000**       531.959
  1862 T      1.000**       531.944
  1863 A      1.000**       531.955
  1864 A      1.000**       531.943
  1865 G      1.000**       531.948
  1866 H      1.000**       531.954
  1867 R      1.000**       531.953
  1868 I      1.000**       531.952
  1869 E      1.000**       531.949
  1870 V      1.000**       531.943
  1871 V      1.000**       531.944
  1872 T      1.000**       531.943
  1873 G      1.000**       531.948
  1874 D      1.000**       531.949
  1875 I      1.000**       531.944
  1876 S      1.000**       531.956
  1877 E      1.000**       531.957
  1878 P      1.000**       531.951
  1879 G      1.000**       531.954
  1880 T      1.000**       531.943
  1881 A      1.000**       531.943
  1882 D      1.000**       531.949
  1883 R      1.000**       531.961
  1884 L      1.000**       531.955
  1885 V      1.000**       531.943
  1886 H      1.000**       531.958
  1887 A      1.000**       531.943
  1888 V      1.000**       531.944
  1889 Q      1.000**       531.961
  1890 S      1.000**       531.949
  1891 A      1.000**       531.955
  1892 G      1.000**       531.948
  1893 F      1.000**       531.951
  1894 R      1.000**       531.953
  1895 L      1.000**       531.955
  1896 A      1.000**       531.944
  1897 G      1.000**       531.957
  1898 V      1.000**       531.944
  1899 L      1.000**       531.955
  1900 H      1.000**       531.954
  1901 S      1.000**       531.949
  1902 A      1.000**       531.944
  1903 M      1.000**       531.941
  1904 V      1.000**       531.951
  1905 L      1.000**       531.951
  1906 A      1.000**       531.952
  1907 D      1.000**       531.949
  1908 E      1.000**       531.949
  1909 I      1.000**       531.944
  1910 M      1.000**       531.941
  1911 L      1.000**       531.955
  1912 N      1.000**       531.954
  1913 M      1.000**       531.941
  1914 T      1.000**       531.943
  1915 D      1.000**       531.955
  1916 S      1.000**       531.956
  1917 A      1.000**       531.943
  1918 A      1.000**       531.943
  1919 R      1.000**       531.949
  1920 R      1.000**       531.953
  1921 V      1.000**       531.943
  1922 F      1.000**       531.951
  1923 V      1.000**       531.951
  1924 P      1.000**       531.951
  1925 K      1.000**       531.957
  1926 V      1.000**       531.944
  1927 T      1.000**       531.944
  1928 G      1.000**       531.948
  1929 S      1.000**       531.949
  1930 W      1.000**       531.958
  1931 R      1.000**       531.953
  1932 L      1.000**       531.961
  1933 H      1.000**       531.958
  1934 Q      1.000**       531.958
  1935 A      1.000**       531.944
  1936 T      1.000**       531.944
  1937 A      1.000**       531.952
  1938 A      1.000**       531.943
  1939 F      1.000**       531.951
  1940 E      1.000**       531.957
  1941 V      1.000**       531.944
  1942 D      1.000**       531.955
  1943 W      1.000**       531.958
  1944 W      1.000**       531.958
  1945 L      1.000**       531.959
  1946 T      1.000**       531.944
  1947 F      1.000**       531.951
  1948 S      1.000**       531.951
  1949 S      1.000**       531.951
  1950 A      1.000**       531.952
  1951 S      1.000**       531.951
  1952 S      1.000**       531.951
  1953 L      1.000**       531.955
  1954 L      1.000**       531.951
  1955 G      1.000**       531.954
  1956 T      1.000**       531.955
  1957 P      1.000**       531.958
  1958 G      1.000**       531.948
  1959 Q      1.000**       531.958
  1960 G      1.000**       531.954
  1961 A      1.000**       531.943
  1962 Y      1.000**       531.957
  1963 A      1.000**       531.944
  1964 A      1.000**       531.944
  1965 A      1.000**       531.943
  1966 N      1.000**       531.948
  1967 A      1.000**       531.943
  1968 W      1.000**       531.958
  1969 V      1.000**       531.944
  1970 D      1.000**       531.949
  1971 G      1.000**       531.948
  1972 L      1.000**       531.955
  1973 V      1.000**       531.955
  1974 A      1.000**       531.944
  1975 Y      1.000**       531.957
  1976 R      1.000**       531.953
  1977 R      1.000**       531.957
  1978 S      1.000**       531.951
  1979 L      1.000**       531.956
  1980 G      1.000**       531.957
  1981 L      1.000**       531.960
  1982 P      1.000**       531.951
  1983 A      1.000**       531.944
  1984 V      1.000**       531.944
  1985 G      1.000**       531.957
  1986 I      1.000**       531.944
  1987 N      1.000**       531.948
  1988 W      1.000**       531.958
  1989 G      1.000**       531.948
  1990 P      1.000**       531.958
  1991 W      1.000**       531.958
  1992 A      1.000**       531.952
  1993 E      1.000**       531.949
  1994 V      1.000**       531.943
  1995 G      1.000**       531.948
  1996 R      1.000**       531.957
  1997 A      1.000**       531.944
  1998 Q      1.000**       531.961
  1999 F      1.000**       531.951
  2000 F      1.000**       531.951
  2001 A      1.000**       531.952
  2002 G      1.000**       531.954
  2003 L      1.000**       531.951
  2004 G      1.000**       531.954
  2005 V      1.000**       531.951
  2006 S      1.000**       531.951
  2007 L      1.000**       531.955
  2008 L      1.000**       531.951
  2009 T      1.000**       531.944
  2010 A      1.000**       531.944
  2011 E      1.000**       531.949
  2012 Q      1.000**       531.958
  2013 G      1.000**       531.954
  2014 L      1.000**       531.955
  2015 A      1.000**       531.943
  2016 A      1.000**       531.943
  2017 M      1.000**       531.941
  2018 Q      1.000**       531.958
  2019 T      1.000**       531.943
  2020 V      1.000**       531.943
  2021 L      1.000**       531.956
  2022 A      1.000**       531.944
  2023 A      1.000**       531.952
  2024 D      1.000**       531.955
  2025 R      1.000**       531.957
  2026 A      1.000**       531.943
  2027 Q      1.000**       531.961
  2028 T      1.000**       531.951
  2029 G      1.000**       531.954
  2030 V      1.000**       531.943
  2031 F      1.000**       531.951
  2032 S      1.000**       531.949
  2033 L      1.000**       531.951
  2034 D      1.000**       531.955
  2035 A      1.000**       531.943
  2036 R      1.000**       531.953
  2037 Q      1.000**       531.958
  2038 W      1.000**       531.958
  2039 F      1.000**       531.951
  2040 Q      1.000**       531.961
  2041 S      1.000**       531.956
  2042 F      1.000**       531.951
  2043 P      1.000**       531.951
  2044 A      1.000**       531.952
  2045 V      1.000**       531.943
  2046 A      1.000**       531.943
  2047 G      1.000**       531.954
  2048 S      1.000**       531.951
  2049 S      1.000**       531.951
  2050 L      1.000**       531.959
  2051 F      1.000**       531.951
  2052 A      1.000**       531.955
  2053 N      1.000**       531.954
  2054 L      1.000**       531.959
  2055 R      1.000**       531.954
  2056 D      1.000**       531.949
  2057 T      1.000**       531.943
  2058 A      1.000**       531.955
  2059 T      1.000**       531.944
  2060 L      1.000**       531.955
  2061 K      1.000**       531.957
  2062 S      1.000**       531.949
  2063 G      1.000**       531.948
  2064 E      1.000**       531.949
  2065 R      1.000**       531.953
  2066 R      1.000**       531.954
  2067 G      1.000**       531.948
  2068 V      1.000**       531.943
  2069 G      1.000**       531.948
  2070 K      1.000**       531.948
  2071 I      1.000**       531.944
  2072 R      1.000**       531.957
  2073 A      1.000**       531.943
  2074 Q      1.000**       531.961
  2075 L      1.000**       531.955
  2076 D      1.000**       531.949
  2077 V      1.000**       531.951
  2078 L      1.000**       531.951
  2079 D      1.000**       531.949
  2080 A      1.000**       531.955
  2081 A      1.000**       531.944
  2082 E      1.000**       531.949
  2083 R      1.000**       531.954
  2084 P      1.000**       531.951
  2085 G      1.000**       531.957
  2086 H      1.000**       531.954
  2087 L      1.000**       531.951
  2088 A      1.000**       531.943
  2089 S      1.000**       531.951
  2090 A      1.000**       531.943
  2091 I      1.000**       531.944
  2092 A      1.000**       531.944
  2093 D      1.000**       531.949
  2094 E      1.000**       531.949
  2095 I      1.000**       531.944
  2096 R      1.000**       531.957
  2097 A      1.000**       531.943
  2098 V      1.000**       531.943
  2099 L      1.000**       531.960
  2100 R      1.000**       531.954
  2101 S      1.000**       531.951
  2102 S      1.000**       531.949
  2103 D      1.000**       531.955
  2104 P      1.000**       531.958
  2105 I      1.000**       531.944
  2106 D      1.000**       531.949
  2107 H      1.000**       531.954
  2108 D      1.000**       531.949
  2109 R      1.000**       531.953
  2110 P      1.000**       531.951
  2111 L      1.000**       531.955
  2112 E      1.000**       531.957
  2113 A      1.000**       531.943
  2114 L      1.000**       531.955
  2115 G      1.000**       531.954
  2116 L      1.000**       531.956
  2117 D      1.000**       531.955
  2118 S      1.000**       531.951
  2119 L      1.000**       531.959
  2120 M      1.000**       531.941
  2121 G      1.000**       531.948
  2122 L      1.000**       531.955
  2123 E      1.000**       531.957
  2124 L      1.000**       531.959
  2125 R      1.000**       531.961
  2126 N      1.000**       531.948
  2127 R      1.000**       531.953
  2128 L      1.000**       531.959
  2129 E      1.000**       531.957
  2130 A      1.000**       531.944
  2131 S      1.000**       531.955
  2132 L      1.000**       531.955
  2133 G      1.000**       531.948
  2134 I      1.000**       531.944
  2135 T      1.000**       531.943
  2136 L      1.000**       531.959
  2137 P      1.000**       531.956
  2138 V      1.000**       531.944
  2139 A      1.000**       531.943
  2140 L      1.000**       531.955
  2141 V      1.000**       531.955
  2142 W      1.000**       531.958
  2143 A      1.000**       531.955
  2144 Y      1.000**       531.957
  2145 P      1.000**       531.951
  2146 T      1.000**       531.955
  2147 T      1.000**       531.951
  2148 A      1.000**       531.952
  2149 D      1.000**       531.949
  2150 L      1.000**       531.956
  2151 A      1.000**       531.943
  2152 A      1.000**       531.944
  2153 A      1.000**       531.955
  2154 L      1.000**       531.960
  2155 C      1.000**       531.954
  2156 E      1.000**       531.957
  2157 R      1.000**       531.961
  2158 M      1.000**       531.941
  2159 D      1.000**       531.949
  2160 Y      1.000**       531.957
  2161 A      1.000**       531.943
  2162 L      1.000**       531.961
  2163 P      1.000**       531.951
  2164 A      1.000**       531.944
  2165 E      1.000**       531.949
  2166 V      1.000**       531.943
  2167 Q      1.000**       531.958
  2168 E      1.000**       531.949
  2169 A      1.000**       531.943
  2170 T      1.000**       531.951
  2171 D      1.000**       531.949
  2172 T      1.000**       531.955
  2173 N      1.000**       531.948
  2174 A      1.000**       531.943
  2175 E      1.000**       531.957
  2176 L      1.000**       531.955
  2177 S      1.000**       531.951
  2178 K      1.000**       531.957
  2179 A      1.000**       531.943
  2180 E      1.000**       531.949
  2181 M      1.000**       531.941
  2182 D      1.000**       531.949
  2183 L      1.000**       531.955
  2184 L      1.000**       531.951
  2185 S      1.000**       531.956
  2186 D      1.000**       531.955
  2187 L      1.000**       531.955
  2188 V      1.000**       531.944
  2189 E      1.000**       531.957
  2190 A      1.000**       531.944
  2191 S      1.000**       531.949
  2192 E      1.000**       531.949
  2193 L      1.000**       531.955
  2194 E      1.000**       531.957
  2195 A      1.000**       531.952
  2196 A      1.000**       531.955
  2197 T      1.000**       531.943
  2198 R      1.000**       531.957
  2199 G      1.000**       531.948
  2200 E      1.000**       531.949
  2201 S      1.000**       531.958


Note: more than one w>1.  Check rst for details

Time used:  0:03


Model 7: beta (10 categories)


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np:  9):  -8757.295103      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000460 0.000004 951.428965 0.023215 0.005000

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000480

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000460, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000460, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 951.42897

Parameters in M7 (beta):
 p =   0.02322  q =   0.00500


MLEs of 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  0.00075  1.00000  1.00000  1.00000  1.00000  1.00000  1.00000  1.00000  1.00000

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1       0.000   4486.3   2116.7   0.8001   0.0000   0.0000    0.0    0.0
   7..2       0.000   4486.3   2116.7   0.8001   0.0000   0.0000    0.0    0.0
   7..3       0.000   4486.3   2116.7   0.8001   0.0000   0.0000    0.0    0.0
   7..4       0.000   4486.3   2116.7   0.8001   0.0000   0.0000    0.0    0.0
   7..5       0.000   4486.3   2116.7   0.8001   0.0001   0.0002    0.6    0.4
   7..6       0.000   4486.3   2116.7   0.8001   0.0000   0.0000    0.0    0.0


Time used:  0:06


Model 8: beta&w>1 (11 categories)


TREE #  1:  (1, 2, 3, 4, 5, 6);   MP score: 1
lnL(ntime:  6  np: 11):  -8756.813138      +0.000000
   7..1     7..2     7..3     7..4     7..5     7..6  
 0.000004 0.000004 0.000004 0.000004 0.000468 0.000004 951.429190 0.000010 0.005014 2.392057 951.438706

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  0.000488

(1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000468, 6: 0.000004);

(NC_011896_1_WP_010908854_1_2516_MLBR_RS11985: 0.000004, NC_002677_1_NP_302534_1_1406_ML2355: 0.000004, NZ_LVXE01000002_1_WP_010908854_1_745_A3216_RS01210: 0.000004, NZ_LYPH01000022_1_WP_010908854_1_836_A8144_RS03975: 0.000004, NZ_CP029543_1_WP_111481092_1_2542_DIJ64_RS12955: 0.000468, NZ_AP014567_1_WP_010908854_1_2606_JK2ML_RS13275: 0.000004);

Detailed output identifying parameters

kappa (ts/tv) = 951.42919

Parameters in M8 (beta&w>1):
  p0 =   0.00001  p =   0.00501 q =   2.39206
 (p1 =   0.99999) w = 951.43871


MLEs of dN/dS (w) for site classes (K=11)

p:   0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.99999
w:   0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00000  0.00001 951.43871

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

   7..1       0.000   4486.3   2116.7 951.4292   0.0000   0.0000    0.0    0.0
   7..2       0.000   4486.3   2116.7 951.4292   0.0000   0.0000    0.0    0.0
   7..3       0.000   4486.3   2116.7 951.4292   0.0000   0.0000    0.0    0.0
   7..4       0.000   4486.3   2116.7 951.4292   0.0000   0.0000    0.0    0.0
   7..5       0.000   4486.3   2116.7 951.4292   0.0002   0.0000    1.0    0.0
   7..6       0.000   4486.3   2116.7 951.4292   0.0000   0.0000    0.0    0.0


Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985)

            Pr(w>1)     post mean +- SE for w

     1 M      1.000**       951.429
     2 T      1.000**       951.429
     3 A      1.000**       951.429
     4 S      1.000**       951.429
     5 T      1.000**       951.429
     6 P      1.000**       951.429
     7 D      1.000**       951.429
     8 R      1.000**       951.429
     9 R      1.000**       951.429
    10 A      1.000**       951.429
    11 I      1.000**       951.429
    12 I      1.000**       951.429
    13 T      1.000**       951.429
    14 E      1.000**       951.429
    15 A      1.000**       951.429
    16 L      1.000**       951.429
    17 H      1.000**       951.429
    18 K      1.000**       951.429
    19 I      1.000**       951.429
    20 D      1.000**       951.429
    21 D      1.000**       951.429
    22 L      1.000**       951.429
    23 T      1.000**       951.429
    24 A      1.000**       951.429
    25 R      1.000**       951.429
    26 L      1.000**       951.429
    27 E      1.000**       951.429
    28 I      1.000**       951.429
    29 A      1.000**       951.429
    30 E      1.000**       951.429
    31 K      1.000**       951.429
    32 S      1.000**       951.429
    33 S      1.000**       951.429
    34 T      1.000**       951.429
    35 E      1.000**       951.429
    36 P      1.000**       951.429
    37 I      1.000**       951.429
    38 A      1.000**       951.429
    39 V      1.000**       951.429
    40 I      1.000**       951.429
    41 G      1.000**       951.429
    42 M      1.000**       951.429
    43 G      1.000**       951.429
    44 C      1.000**       951.429
    45 R      1.000**       951.429
    46 F      1.000**       951.429
    47 P      1.000**       951.429
    48 G      1.000**       951.429
    49 G      1.000**       951.429
    50 V      1.000**       951.429
    51 N      1.000**       951.429
    52 N      1.000**       951.429
    53 P      1.000**       951.429
    54 E      1.000**       951.429
    55 Q      1.000**       951.429
    56 F      1.000**       951.429
    57 W      1.000**       951.429
    58 D      1.000**       951.429
    59 L      1.000**       951.429
    60 L      1.000**       951.429
    61 C      1.000**       951.429
    62 D      1.000**       951.429
    63 G      1.000**       951.429
    64 R      1.000**       951.429
    65 S      1.000**       951.429
    66 G      1.000**       951.429
    67 I      1.000**       951.429
    68 V      1.000**       951.429
    69 R      1.000**       951.429
    70 V      1.000**       951.429
    71 P      1.000**       951.429
    72 S      1.000**       951.429
    73 D      1.000**       951.429
    74 R      1.000**       951.429
    75 W      1.000**       951.429
    76 D      1.000**       951.429
    77 A      1.000**       951.429
    78 D      1.000**       951.429
    79 A      1.000**       951.429
    80 Y      1.000**       951.429
    81 Y      1.000**       951.429
    82 T      1.000**       951.429
    83 D      1.000**       951.429
    84 D      1.000**       951.429
    85 H      1.000**       951.429
    86 T      1.000**       951.429
    87 V      1.000**       951.429
    88 P      1.000**       951.429
    89 G      1.000**       951.429
    90 T      1.000**       951.429
    91 I      1.000**       951.429
    92 C      1.000**       951.429
    93 S      1.000**       951.429
    94 T      1.000**       951.429
    95 E      1.000**       951.429
    96 G      1.000**       951.429
    97 G      1.000**       951.429
    98 F      1.000**       951.429
    99 L      1.000**       951.429
   100 T      1.000**       951.429
   101 G      1.000**       951.429
   102 W      1.000**       951.429
   103 Q      1.000**       951.429
   104 P      1.000**       951.429
   105 D      1.000**       951.429
   106 E      1.000**       951.429
   107 F      1.000**       951.429
   108 D      1.000**       951.429
   109 A      1.000**       951.429
   110 E      1.000**       951.429
   111 F      1.000**       951.429
   112 F      1.000**       951.429
   113 S      1.000**       951.429
   114 I      1.000**       951.429
   115 S      1.000**       951.429
   116 P      1.000**       951.429
   117 R      1.000**       951.429
   118 E      1.000**       951.429
   119 A      1.000**       951.429
   120 S      1.000**       951.429
   121 A      1.000**       951.429
   122 M      1.000**       951.429
   123 D      1.000**       951.429
   124 P      1.000**       951.429
   125 Q      1.000**       951.429
   126 Q      1.000**       951.429
   127 R      1.000**       951.429
   128 L      1.000**       951.429
   129 L      1.000**       951.429
   130 I      1.000**       951.429
   131 E      1.000**       951.429
   132 V      1.000**       951.429
   133 A      1.000**       951.429
   134 W      1.000**       951.429
   135 E      1.000**       951.429
   136 A      1.000**       951.429
   137 L      1.000**       951.429
   138 E      1.000**       951.429
   139 D      1.000**       951.429
   140 A      1.000**       951.429
   141 G      1.000**       951.429
   142 V      1.000**       951.429
   143 A      1.000**       951.429
   144 P      1.000**       951.429
   145 H      1.000**       951.429
   146 T      1.000**       951.429
   147 I      1.000**       951.429
   148 R      1.000**       951.429
   149 G      1.000**       951.429
   150 T      1.000**       951.429
   151 Q      1.000**       951.429
   152 T      1.000**       951.429
   153 S      1.000**       951.429
   154 V      1.000**       951.429
   155 F      1.000**       951.429
   156 V      1.000**       951.429
   157 G      1.000**       951.429
   158 V      1.000**       951.429
   159 T      1.000**       951.429
   160 A      1.000**       951.429
   161 Y      1.000**       951.429
   162 D      1.000**       951.429
   163 Y      1.000**       951.429
   164 M      1.000**       951.429
   165 L      1.000**       951.429
   166 T      1.000**       951.429
   167 L      1.000**       951.429
   168 A      1.000**       951.429
   169 G      1.000**       951.429
   170 R      1.000**       951.429
   171 L      1.000**       951.429
   172 R      1.000**       951.429
   173 P      1.000**       951.429
   174 E      1.000**       951.429
   175 D      1.000**       951.429
   176 L      1.000**       951.429
   177 D      1.000**       951.429
   178 A      1.000**       951.429
   179 Y      1.000**       951.429
   180 I      1.000**       951.429
   181 P      1.000**       951.429
   182 T      1.000**       951.429
   183 G      1.000**       951.429
   184 N      1.000**       951.429
   185 S      1.000**       951.429
   186 A      1.000**       951.429
   187 N      1.000**       951.429
   188 F      1.000**       951.429
   189 A      1.000**       951.429
   190 A      1.000**       951.429
   191 G      1.000**       951.429
   192 R      1.000**       951.429
   193 L      1.000**       951.429
   194 A      1.000**       951.429
   195 Y      1.000**       951.429
   196 I      1.000**       951.429
   197 L      1.000**       951.429
   198 G      1.000**       951.429
   199 V      1.000**       951.429
   200 R      1.000**       951.429
   201 G      1.000**       951.429
   202 P      1.000**       951.429
   203 A      1.000**       951.429
   204 V      1.000**       951.429
   205 V      1.000**       951.429
   206 I      1.000**       951.429
   207 D      1.000**       951.429
   208 T      1.000**       951.429
   209 A      1.000**       951.429
   210 C      1.000**       951.429
   211 S      1.000**       951.429
   212 S      1.000**       951.429
   213 S      1.000**       951.429
   214 L      1.000**       951.429
   215 V      1.000**       951.429
   216 A      1.000**       951.429
   217 V      1.000**       951.429
   218 H      1.000**       951.429
   219 L      1.000**       951.429
   220 A      1.000**       951.429
   221 C      1.000**       951.429
   222 Q      1.000**       951.429
   223 S      1.000**       951.429
   224 L      1.000**       951.429
   225 R      1.000**       951.429
   226 H      1.000**       951.429
   227 R      1.000**       951.429
   228 E      1.000**       951.429
   229 S      1.000**       951.429
   230 D      1.000**       951.429
   231 A      1.000**       951.429
   232 A      1.000**       951.429
   233 L      1.000**       951.429
   234 V      1.000**       951.429
   235 G      1.000**       951.429
   236 G      1.000**       951.429
   237 T      1.000**       951.429
   238 N      1.000**       951.429
   239 L      1.000**       951.429
   240 L      1.000**       951.429
   241 L      1.000**       951.429
   242 S      1.000**       951.429
   243 P      1.000**       951.429
   244 G      1.000**       951.429
   245 P      1.000**       951.429
   246 S      1.000**       951.429
   247 I      1.000**       951.429
   248 A      1.000**       951.429
   249 C      1.000**       951.429
   250 S      1.000**       951.429
   251 R      1.000**       951.429
   252 W      1.000**       951.429
   253 G      1.000**       951.429
   254 M      1.000**       951.429
   255 L      1.000**       951.429
   256 S      1.000**       951.429
   257 P      1.000**       951.429
   258 A      1.000**       951.429
   259 G      1.000**       951.429
   260 Q      1.000**       951.429
   261 C      1.000**       951.429
   262 K      1.000**       951.429
   263 A      1.000**       951.429
   264 F      1.000**       951.429
   265 D      1.000**       951.429
   266 V      1.000**       951.429
   267 S      1.000**       951.429
   268 A      1.000**       951.429
   269 D      1.000**       951.429
   270 G      1.000**       951.429
   271 Y      1.000**       951.429
   272 V      1.000**       951.429
   273 R      1.000**       951.429
   274 G      1.000**       951.429
   275 E      1.000**       951.429
   276 G      1.000**       951.429
   277 A      1.000**       951.429
   278 G      1.000**       951.429
   279 V      1.000**       951.429
   280 V      1.000**       951.429
   281 V      1.000**       951.429
   282 L      1.000**       951.429
   283 K      1.000**       951.429
   284 R      1.000**       951.429
   285 L      1.000**       951.429
   286 D      1.000**       951.429
   287 D      1.000**       951.429
   288 A      1.000**       951.429
   289 V      1.000**       951.429
   290 R      1.000**       951.429
   291 D      1.000**       951.429
   292 G      1.000**       951.429
   293 N      1.000**       951.429
   294 R      1.000**       951.429
   295 I      1.000**       951.429
   296 L      1.000**       951.429
   297 A      1.000**       951.429
   298 I      1.000**       951.429
   299 V      1.000**       951.429
   300 R      1.000**       951.429
   301 G      1.000**       951.429
   302 S      1.000**       951.429
   303 A      1.000**       951.429
   304 V      1.000**       951.429
   305 N      1.000**       951.429
   306 Q      1.000**       951.429
   307 D      1.000**       951.429
   308 G      1.000**       951.429
   309 A      1.000**       951.429
   310 S      1.000**       951.429
   311 S      1.000**       951.429
   312 G      1.000**       951.429
   313 V      1.000**       951.429
   314 T      1.000**       951.429
   315 V      1.000**       951.429
   316 P      1.000**       951.429
   317 N      1.000**       951.429
   318 G      1.000**       951.429
   319 P      1.000**       951.429
   320 A      1.000**       951.429
   321 Q      1.000**       951.429
   322 Q      1.000**       951.429
   323 E      1.000**       951.429
   324 L      1.000**       951.429
   325 L      1.000**       951.429
   326 R      1.000**       951.429
   327 T      1.000**       951.429
   328 A      1.000**       951.429
   329 L      1.000**       951.429
   330 A      1.000**       951.429
   331 S      1.000**       951.429
   332 S      1.000**       951.429
   333 K      1.000**       951.429
   334 L      1.000**       951.429
   335 T      1.000**       951.429
   336 A      1.000**       951.429
   337 A      1.000**       951.429
   338 D      1.000**       951.429
   339 I      1.000**       951.429
   340 D      1.000**       951.429
   341 Y      1.000**       951.429
   342 I      1.000**       951.429
   343 E      1.000**       951.429
   344 A      1.000**       951.429
   345 H      1.000**       951.429
   346 G      1.000**       951.429
   347 T      1.000**       951.429
   348 G      1.000**       951.429
   349 T      1.000**       951.429
   350 P      1.000**       951.429
   351 L      1.000**       951.429
   352 G      1.000**       951.429
   353 D      1.000**       951.429
   354 P      1.000**       951.429
   355 I      1.000**       951.429
   356 E      1.000**       951.429
   357 L      1.000**       951.429
   358 D      1.000**       951.429
   359 S      1.000**       951.429
   360 L      1.000**       951.429
   361 S      1.000**       951.429
   362 K      1.000**       951.429
   363 V      1.000**       951.429
   364 F      1.000**       951.429
   365 S      1.000**       951.429
   366 D      1.000**       951.429
   367 R      1.000**       951.429
   368 Q      1.000**       951.429
   369 S      1.000**       951.429
   370 R      1.000**       951.429
   371 R      1.000**       951.429
   372 G      1.000**       951.429
   373 S      1.000**       951.429
   374 V      1.000**       951.429
   375 P      1.000**       951.429
   376 L      1.000**       951.429
   377 V      1.000**       951.429
   378 I      1.000**       951.429
   379 G      1.000**       951.429
   380 S      1.000**       951.429
   381 V      1.000**       951.429
   382 K      1.000**       951.429
   383 T      1.000**       951.429
   384 N      1.000**       951.429
   385 L      1.000**       951.429
   386 G      1.000**       951.429
   387 H      1.000**       951.429
   388 L      1.000**       951.429
   389 E      1.000**       951.429
   390 A      1.000**       951.429
   391 A      1.000**       951.429
   392 A      1.000**       951.429
   393 G      1.000**       951.429
   394 I      1.000**       951.429
   395 A      1.000**       951.429
   396 G      1.000**       951.429
   397 F      1.000**       951.429
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  1963 A      1.000**       951.429
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  1965 A      1.000**       951.429
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  1977 R      1.000**       951.429
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  2067 G      1.000**       951.429
  2068 V      1.000**       951.429
  2069 G      1.000**       951.429
  2070 K      1.000**       951.429
  2071 I      1.000**       951.429
  2072 R      1.000**       951.429
  2073 A      1.000**       951.429
  2074 Q      1.000**       951.429
  2075 L      1.000**       951.429
  2076 D      1.000**       951.429
  2077 V      1.000**       951.429
  2078 L      1.000**       951.429
  2079 D      1.000**       951.429
  2080 A      1.000**       951.429
  2081 A      1.000**       951.429
  2082 E      1.000**       951.429
  2083 R      1.000**       951.429
  2084 P      1.000**       951.429
  2085 G      1.000**       951.429
  2086 H      1.000**       951.429
  2087 L      1.000**       951.429
  2088 A      1.000**       951.429
  2089 S      1.000**       951.429
  2090 A      1.000**       951.429
  2091 I      1.000**       951.429
  2092 A      1.000**       951.429
  2093 D      1.000**       951.429
  2094 E      1.000**       951.429
  2095 I      1.000**       951.429
  2096 R      1.000**       951.429
  2097 A      1.000**       951.429
  2098 V      1.000**       951.429
  2099 L      1.000**       951.429
  2100 R      1.000**       951.429
  2101 S      1.000**       951.429
  2102 S      1.000**       951.429
  2103 D      1.000**       951.429
  2104 P      1.000**       951.429
  2105 I      1.000**       951.429
  2106 D      1.000**       951.429
  2107 H      1.000**       951.429
  2108 D      1.000**       951.429
  2109 R      1.000**       951.429
  2110 P      1.000**       951.429
  2111 L      1.000**       951.429
  2112 E      1.000**       951.429
  2113 A      1.000**       951.429
  2114 L      1.000**       951.429
  2115 G      1.000**       951.429
  2116 L      1.000**       951.429
  2117 D      1.000**       951.429
  2118 S      1.000**       951.429
  2119 L      1.000**       951.429
  2120 M      1.000**       951.429
  2121 G      1.000**       951.429
  2122 L      1.000**       951.429
  2123 E      1.000**       951.429
  2124 L      1.000**       951.429
  2125 R      1.000**       951.429
  2126 N      1.000**       951.429
  2127 R      1.000**       951.429
  2128 L      1.000**       951.429
  2129 E      1.000**       951.429
  2130 A      1.000**       951.429
  2131 S      1.000**       951.429
  2132 L      1.000**       951.429
  2133 G      1.000**       951.429
  2134 I      1.000**       951.429
  2135 T      1.000**       951.429
  2136 L      1.000**       951.429
  2137 P      1.000**       951.429
  2138 V      1.000**       951.429
  2139 A      1.000**       951.429
  2140 L      1.000**       951.429
  2141 V      1.000**       951.429
  2142 W      1.000**       951.429
  2143 A      1.000**       951.429
  2144 Y      1.000**       951.429
  2145 P      1.000**       951.429
  2146 T      1.000**       951.429
  2147 T      1.000**       951.429
  2148 A      1.000**       951.429
  2149 D      1.000**       951.429
  2150 L      1.000**       951.429
  2151 A      1.000**       951.429
  2152 A      1.000**       951.429
  2153 A      1.000**       951.429
  2154 L      1.000**       951.429
  2155 C      1.000**       951.429
  2156 E      1.000**       951.429
  2157 R      1.000**       951.429
  2158 M      1.000**       951.429
  2159 D      1.000**       951.429
  2160 Y      1.000**       951.429
  2161 A      1.000**       951.429
  2162 L      1.000**       951.429
  2163 P      1.000**       951.429
  2164 A      1.000**       951.429
  2165 E      1.000**       951.429
  2166 V      1.000**       951.429
  2167 Q      1.000**       951.429
  2168 E      1.000**       951.429
  2169 A      1.000**       951.429
  2170 T      1.000**       951.429
  2171 D      1.000**       951.429
  2172 T      1.000**       951.429
  2173 N      1.000**       951.429
  2174 A      1.000**       951.429
  2175 E      1.000**       951.429
  2176 L      1.000**       951.429
  2177 S      1.000**       951.429
  2178 K      1.000**       951.429
  2179 A      1.000**       951.429
  2180 E      1.000**       951.429
  2181 M      1.000**       951.429
  2182 D      1.000**       951.429
  2183 L      1.000**       951.429
  2184 L      1.000**       951.429
  2185 S      1.000**       951.429
  2186 D      1.000**       951.429
  2187 L      1.000**       951.429
  2188 V      1.000**       951.429
  2189 E      1.000**       951.429
  2190 A      1.000**       951.429
  2191 S      1.000**       951.429
  2192 E      1.000**       951.429
  2193 L      1.000**       951.429
  2194 E      1.000**       951.429
  2195 A      1.000**       951.429
  2196 A      1.000**       951.429
  2197 T      1.000**       951.429
  2198 R      1.000**       951.429
  2199 G      1.000**       951.429
  2200 E      1.000**       951.429
  2201 S      1.000**       951.429


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: NC_011896_1_WP_010908854_1_2516_MLBR_RS11985)

            Pr(w>1)     post mean +- SE for w

     1 M      0.639         4.860 +- 3.856
     2 T      0.639         4.860 +- 3.856
     3 A      0.639         4.860 +- 3.856
     4 S      0.639         4.860 +- 3.856
     5 T      0.639         4.860 +- 3.856
     6 P      0.639         4.860 +- 3.856
     7 D      0.639         4.860 +- 3.856
     8 R      0.639         4.860 +- 3.856
     9 R      0.639         4.860 +- 3.856
    10 A      0.639         4.860 +- 3.856
    11 I      0.639         4.860 +- 3.856
    12 I      0.639         4.860 +- 3.856
    13 T      0.639         4.860 +- 3.856
    14 E      0.639         4.860 +- 3.856
    15 A      0.639         4.860 +- 3.856
    16 L      0.639         4.860 +- 3.856
    17 H      0.639         4.860 +- 3.856
    18 K      0.639         4.860 +- 3.856
    19 I      0.639         4.860 +- 3.856
    20 D      0.639         4.860 +- 3.856
    21 D      0.639         4.860 +- 3.856
    22 L      0.639         4.860 +- 3.856
    23 T      0.639         4.860 +- 3.856
    24 A      0.639         4.860 +- 3.856
    25 R      0.639         4.860 +- 3.856
    26 L      0.639         4.860 +- 3.856
    27 E      0.639         4.860 +- 3.856
    28 I      0.639         4.860 +- 3.856
    29 A      0.639         4.860 +- 3.856
    30 E      0.639         4.860 +- 3.856
    31 K      0.639         4.860 +- 3.856
    32 S      0.639         4.860 +- 3.856
    33 S      0.639         4.860 +- 3.856
    34 T      0.639         4.860 +- 3.856
    35 E      0.639         4.860 +- 3.856
    36 P      0.639         4.860 +- 3.856
    37 I      0.639         4.860 +- 3.856
    38 A      0.639         4.860 +- 3.856
    39 V      0.639         4.860 +- 3.856
    40 I      0.639         4.860 +- 3.856
    41 G      0.639         4.860 +- 3.856
    42 M      0.639         4.860 +- 3.856
    43 G      0.639         4.860 +- 3.856
    44 C      0.639         4.860 +- 3.856
    45 R      0.639         4.860 +- 3.856
    46 F      0.639         4.860 +- 3.856
    47 P      0.639         4.860 +- 3.856
    48 G      0.639         4.860 +- 3.856
    49 G      0.639         4.860 +- 3.856
    50 V      0.639         4.860 +- 3.856
    51 N      0.639         4.860 +- 3.856
    52 N      0.639         4.860 +- 3.856
    53 P      0.639         4.860 +- 3.856
    54 E      0.639         4.860 +- 3.856
    55 Q      0.639         4.860 +- 3.856
    56 F      0.639         4.860 +- 3.856
    57 W      0.639         4.860 +- 3.856
    58 D      0.639         4.860 +- 3.856
    59 L      0.639         4.860 +- 3.856
    60 L      0.639         4.860 +- 3.856
    61 C      0.639         4.860 +- 3.856
    62 D      0.639         4.860 +- 3.856
    63 G      0.639         4.860 +- 3.856
    64 R      0.639         4.860 +- 3.856
    65 S      0.639         4.860 +- 3.856
    66 G      0.639         4.860 +- 3.856
    67 I      0.639         4.860 +- 3.856
    68 V      0.639         4.860 +- 3.856
    69 R      0.639         4.860 +- 3.856
    70 V      0.639         4.860 +- 3.856
    71 P      0.639         4.860 +- 3.856
    72 S      0.639         4.860 +- 3.856
    73 D      0.639         4.860 +- 3.856
    74 R      0.639         4.860 +- 3.856
    75 W      0.639         4.860 +- 3.856
    76 D      0.639         4.860 +- 3.856
    77 A      0.639         4.860 +- 3.856
    78 D      0.639         4.860 +- 3.856
    79 A      0.639         4.860 +- 3.856
    80 Y      0.639         4.860 +- 3.856
    81 Y      0.639         4.860 +- 3.856
    82 T      0.639         4.860 +- 3.856
    83 D      0.639         4.860 +- 3.856
    84 D      0.639         4.860 +- 3.856
    85 H      0.639         4.860 +- 3.856
    86 T      0.639         4.860 +- 3.856
    87 V      0.639         4.860 +- 3.856
    88 P      0.639         4.860 +- 3.856
    89 G      0.639         4.860 +- 3.856
    90 T      0.639         4.860 +- 3.856
    91 I      0.639         4.860 +- 3.856
    92 C      0.639         4.860 +- 3.856
    93 S      0.639         4.860 +- 3.856
    94 T      0.639         4.860 +- 3.856
    95 E      0.639         4.860 +- 3.856
    96 G      0.639         4.860 +- 3.856
    97 G      0.639         4.860 +- 3.856
    98 F      0.639         4.860 +- 3.856
    99 L      0.639         4.860 +- 3.856
   100 T      0.639         4.860 +- 3.856
   101 G      0.639         4.860 +- 3.856
   102 W      0.639         4.860 +- 3.856
   103 Q      0.639         4.860 +- 3.856
   104 P      0.639         4.860 +- 3.856
   105 D      0.639         4.860 +- 3.856
   106 E      0.639         4.860 +- 3.856
   107 F      0.639         4.860 +- 3.856
   108 D      0.639         4.860 +- 3.856
   109 A      0.639         4.860 +- 3.856
   110 E      0.639         4.860 +- 3.856
   111 F      0.639         4.860 +- 3.856
   112 F      0.639         4.860 +- 3.856
   113 S      0.639         4.860 +- 3.856
   114 I      0.639         4.860 +- 3.856
   115 S      0.639         4.860 +- 3.856
   116 P      0.639         4.860 +- 3.856
   117 R      0.639         4.860 +- 3.856
   118 E      0.639         4.860 +- 3.856
   119 A      0.639         4.860 +- 3.856
   120 S      0.639         4.860 +- 3.856
   121 A      0.639         4.860 +- 3.856
   122 M      0.639         4.860 +- 3.856
   123 D      0.639         4.860 +- 3.856
   124 P      0.639         4.860 +- 3.856
   125 Q      0.639         4.860 +- 3.856
   126 Q      0.639         4.860 +- 3.856
   127 R      0.639         4.860 +- 3.856
   128 L      0.639         4.860 +- 3.856
   129 L      0.639         4.860 +- 3.856
   130 I      0.639         4.860 +- 3.856
   131 E      0.639         4.860 +- 3.856
   132 V      0.639         4.860 +- 3.856
   133 A      0.639         4.860 +- 3.856
   134 W      0.639         4.860 +- 3.856
   135 E      0.639         4.860 +- 3.856
   136 A      0.639         4.860 +- 3.856
   137 L      0.639         4.860 +- 3.856
   138 E      0.639         4.860 +- 3.856
   139 D      0.639         4.860 +- 3.856
   140 A      0.639         4.860 +- 3.856
   141 G      0.639         4.860 +- 3.856
   142 V      0.639         4.860 +- 3.856
   143 A      0.639         4.860 +- 3.856
   144 P      0.639         4.860 +- 3.856
   145 H      0.639         4.860 +- 3.856
   146 T      0.639         4.860 +- 3.856
   147 I      0.639         4.860 +- 3.856
   148 R      0.639         4.860 +- 3.856
   149 G      0.639         4.860 +- 3.856
   150 T      0.639         4.860 +- 3.856
   151 Q      0.639         4.860 +- 3.856
   152 T      0.639         4.860 +- 3.856
   153 S      0.639         4.860 +- 3.856
   154 V      0.639         4.860 +- 3.856
   155 F      0.639         4.860 +- 3.856
   156 V      0.639         4.860 +- 3.856
   157 G      0.639         4.860 +- 3.856
   158 V      0.639         4.860 +- 3.856
   159 T      0.639         4.860 +- 3.856
   160 A      0.639         4.860 +- 3.856
   161 Y      0.639         4.860 +- 3.856
   162 D      0.639         4.860 +- 3.856
   163 Y      0.639         4.860 +- 3.856
   164 M      0.639         4.860 +- 3.856
   165 L      0.639         4.860 +- 3.856
   166 T      0.639         4.860 +- 3.856
   167 L      0.639         4.860 +- 3.856
   168 A      0.639         4.860 +- 3.856
   169 G      0.639         4.860 +- 3.856
   170 R      0.639         4.860 +- 3.856
   171 L      0.639         4.860 +- 3.856
   172 R      0.639         4.860 +- 3.856
   173 P      0.639         4.860 +- 3.856
   174 E      0.639         4.860 +- 3.856
   175 D      0.639         4.860 +- 3.856
   176 L      0.639         4.860 +- 3.856
   177 D      0.639         4.860 +- 3.856
   178 A      0.639         4.860 +- 3.856
   179 Y      0.639         4.860 +- 3.856
   180 I      0.639         4.860 +- 3.856
   181 P      0.639         4.860 +- 3.856
   182 T      0.639         4.860 +- 3.856
   183 G      0.639         4.860 +- 3.856
   184 N      0.639         4.860 +- 3.856
   185 S      0.639         4.860 +- 3.856
   186 A      0.639         4.860 +- 3.856
   187 N      0.639         4.860 +- 3.856
   188 F      0.639         4.860 +- 3.856
   189 A      0.639         4.860 +- 3.856
   190 A      0.639         4.860 +- 3.856
   191 G      0.639         4.860 +- 3.856
   192 R      0.639         4.860 +- 3.856
   193 L      0.639         4.860 +- 3.856
   194 A      0.639         4.860 +- 3.856
   195 Y      0.639         4.860 +- 3.856
   196 I      0.639         4.860 +- 3.856
   197 L      0.639         4.860 +- 3.856
   198 G      0.639         4.860 +- 3.856
   199 V      0.639         4.860 +- 3.856
   200 R      0.639         4.860 +- 3.856
   201 G      0.639         4.860 +- 3.856
   202 P      0.639         4.860 +- 3.856
   203 A      0.639         4.860 +- 3.856
   204 V      0.639         4.860 +- 3.856
   205 V      0.639         4.860 +- 3.856
   206 I      0.639         4.860 +- 3.856
   207 D      0.639         4.860 +- 3.856
   208 T      0.639         4.860 +- 3.856
   209 A      0.639         4.860 +- 3.856
   210 C      0.639         4.860 +- 3.856
   211 S      0.639         4.860 +- 3.856
   212 S      0.639         4.860 +- 3.856
   213 S      0.639         4.860 +- 3.856
   214 L      0.639         4.860 +- 3.856
   215 V      0.639         4.860 +- 3.856
   216 A      0.639         4.860 +- 3.856
   217 V      0.639         4.860 +- 3.856
   218 H      0.639         4.860 +- 3.856
   219 L      0.639         4.860 +- 3.856
   220 A      0.639         4.860 +- 3.856
   221 C      0.639         4.860 +- 3.856
   222 Q      0.639         4.860 +- 3.856
   223 S      0.639         4.860 +- 3.856
   224 L      0.639         4.860 +- 3.856
   225 R      0.639         4.860 +- 3.856
   226 H      0.639         4.860 +- 3.856
   227 R      0.639         4.860 +- 3.856
   228 E      0.639         4.860 +- 3.856
   229 S      0.639         4.860 +- 3.856
   230 D      0.639         4.860 +- 3.856
   231 A      0.639         4.860 +- 3.856
   232 A      0.639         4.860 +- 3.856
   233 L      0.639         4.860 +- 3.856
   234 V      0.639         4.860 +- 3.856
   235 G      0.639         4.860 +- 3.856
   236 G      0.639         4.860 +- 3.856
   237 T      0.639         4.860 +- 3.856
   238 N      0.639         4.860 +- 3.856
   239 L      0.639         4.860 +- 3.856
   240 L      0.639         4.860 +- 3.856
   241 L      0.639         4.860 +- 3.856
   242 S      0.639         4.860 +- 3.856
   243 P      0.639         4.860 +- 3.856
   244 G      0.639         4.860 +- 3.856
   245 P      0.639         4.860 +- 3.856
   246 S      0.639         4.860 +- 3.856
   247 I      0.639         4.860 +- 3.856
   248 A      0.639         4.860 +- 3.856
   249 C      0.639         4.860 +- 3.856
   250 S      0.639         4.860 +- 3.856
   251 R      0.639         4.860 +- 3.856
   252 W      0.639         4.860 +- 3.856
   253 G      0.639         4.860 +- 3.856
   254 M      0.639         4.860 +- 3.856
   255 L      0.639         4.860 +- 3.856
   256 S      0.639         4.860 +- 3.856
   257 P      0.639         4.860 +- 3.856
   258 A      0.639         4.860 +- 3.856
   259 G      0.639         4.860 +- 3.856
   260 Q      0.639         4.860 +- 3.856
   261 C      0.639         4.860 +- 3.856
   262 K      0.639         4.860 +- 3.856
   263 A      0.639         4.860 +- 3.856
   264 F      0.639         4.860 +- 3.856
   265 D      0.639         4.860 +- 3.856
   266 V      0.639         4.860 +- 3.856
   267 S      0.639         4.860 +- 3.856
   268 A      0.639         4.860 +- 3.856
   269 D      0.639         4.860 +- 3.856
   270 G      0.639         4.860 +- 3.856
   271 Y      0.639         4.860 +- 3.856
   272 V      0.639         4.860 +- 3.856
   273 R      0.639         4.860 +- 3.856
   274 G      0.639         4.860 +- 3.856
   275 E      0.639         4.860 +- 3.856
   276 G      0.639         4.860 +- 3.856
   277 A      0.639         4.860 +- 3.856
   278 G      0.639         4.860 +- 3.856
   279 V      0.639         4.860 +- 3.856
   280 V      0.639         4.860 +- 3.856
   281 V      0.639         4.860 +- 3.856
   282 L      0.639         4.860 +- 3.856
   283 K      0.639         4.860 +- 3.856
   284 R      0.639         4.860 +- 3.856
   285 L      0.639         4.860 +- 3.856
   286 D      0.639         4.860 +- 3.856
   287 D      0.639         4.860 +- 3.856
   288 A      0.639         4.860 +- 3.856
   289 V      0.639         4.860 +- 3.856
   290 R      0.639         4.860 +- 3.856
   291 D      0.639         4.860 +- 3.856
   292 G      0.639         4.860 +- 3.856
   293 N      0.639         4.860 +- 3.856
   294 R      0.639         4.860 +- 3.856
   295 I      0.639         4.860 +- 3.856
   296 L      0.639         4.860 +- 3.856
   297 A      0.639         4.860 +- 3.856
   298 I      0.639         4.860 +- 3.856
   299 V      0.639         4.860 +- 3.856
   300 R      0.639         4.860 +- 3.856
   301 G      0.639         4.860 +- 3.856
   302 S      0.639         4.860 +- 3.856
   303 A      0.639         4.860 +- 3.856
   304 V      0.639         4.860 +- 3.856
   305 N      0.639         4.860 +- 3.856
   306 Q      0.639         4.860 +- 3.856
   307 D      0.639         4.860 +- 3.856
   308 G      0.639         4.860 +- 3.856
   309 A      0.639         4.860 +- 3.856
   310 S      0.639         4.860 +- 3.856
   311 S      0.639         4.860 +- 3.856
   312 G      0.639         4.860 +- 3.856
   313 V      0.639         4.860 +- 3.856
   314 T      0.639         4.860 +- 3.856
   315 V      0.639         4.860 +- 3.856
   316 P      0.639         4.860 +- 3.856
   317 N      0.639         4.860 +- 3.856
   318 G      0.639         4.860 +- 3.856
   319 P      0.639         4.860 +- 3.856
   320 A      0.639         4.860 +- 3.856
   321 Q      0.639         4.860 +- 3.856
   322 Q      0.639         4.860 +- 3.856
   323 E      0.639         4.860 +- 3.856
   324 L      0.639         4.860 +- 3.856
   325 L      0.639         4.860 +- 3.856
   326 R      0.639         4.860 +- 3.856
   327 T      0.639         4.860 +- 3.856
   328 A      0.639         4.860 +- 3.856
   329 L      0.639         4.860 +- 3.856
   330 A      0.639         4.860 +- 3.856
   331 S      0.639         4.860 +- 3.856
   332 S      0.639         4.860 +- 3.856
   333 K      0.639         4.860 +- 3.856
   334 L      0.639         4.860 +- 3.856
   335 T      0.639         4.860 +- 3.856
   336 A      0.639         4.860 +- 3.856
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  1731 V      0.639         4.860 +- 3.856
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  1735 L      0.639         4.860 +- 3.856
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  1739 L      0.639         4.860 +- 3.856
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  1744 Y      0.639         4.860 +- 3.856
  1745 R      0.639         4.860 +- 3.856
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  1748 L      0.639         4.860 +- 3.856
  1749 Q      0.639         4.860 +- 3.856
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  1751 I      0.639         4.860 +- 3.856
  1752 L      0.639         4.860 +- 3.856
  1753 A      0.639         4.860 +- 3.856
  1754 H      0.639         4.860 +- 3.856
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  1757 D      0.639         4.860 +- 3.856
  1758 G      0.639         4.860 +- 3.856
  1759 R      0.639         4.860 +- 3.856
  1760 L      0.639         4.860 +- 3.856
  1761 P      0.639         4.860 +- 3.856
  1762 V      0.639         4.860 +- 3.856
  1763 L      0.639         4.860 +- 3.856
  1764 P      0.639         4.860 +- 3.856
  1765 V      0.639         4.860 +- 3.856
  1766 T      0.639         4.860 +- 3.856
  1767 E      0.639         4.860 +- 3.856
  1768 F      0.639         4.860 +- 3.856
  1769 S      0.639         4.860 +- 3.856
  1770 L      0.639         4.860 +- 3.856
  1771 H      0.639         4.860 +- 3.856
  1772 N      0.639         4.860 +- 3.856
  1773 A      0.639         4.860 +- 3.856
  1774 A      0.639         4.860 +- 3.856
  1775 D      0.639         4.860 +- 3.856
  1776 A      0.639         4.860 +- 3.856
  1777 F      0.639         4.860 +- 3.856
  1778 R      0.639         4.860 +- 3.856
  1779 L      0.639         4.860 +- 3.856
  1780 M      0.639         4.860 +- 3.856
  1781 A      0.639         4.860 +- 3.856
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  1783 G      0.639         4.860 +- 3.856
  1784 K      0.639         4.860 +- 3.856
  1785 H      0.639         4.860 +- 3.856
  1786 T      0.639         4.860 +- 3.856
  1787 G      0.639         4.860 +- 3.856
  1788 K      0.639         4.860 +- 3.856
  1789 I      0.639         4.860 +- 3.856
  1790 V      0.639         4.860 +- 3.856
  1791 I      0.639         4.860 +- 3.856
  1792 S      0.639         4.860 +- 3.856
  1793 I      0.639         4.860 +- 3.856
  1794 P      0.639         4.860 +- 3.856
  1795 Y      0.639         4.860 +- 3.856
  1796 E      0.639         4.860 +- 3.856
  1797 G      0.639         4.860 +- 3.856
  1798 N      0.639         4.860 +- 3.856
  1799 I      0.639         4.860 +- 3.856
  1800 E      0.639         4.860 +- 3.856
  1801 A      0.639         4.860 +- 3.856
  1802 I      0.639         4.860 +- 3.856
  1803 A      0.639         4.860 +- 3.856
  1804 S      0.639         4.860 +- 3.856
  1805 P      0.639         4.860 +- 3.856
  1806 P      0.639         4.860 +- 3.856
  1807 P      0.639         4.860 +- 3.856
  1808 V      0.639         4.860 +- 3.856
  1809 P      0.639         4.860 +- 3.856
  1810 L      0.639         4.860 +- 3.856
  1811 V      0.639         4.860 +- 3.856
  1812 S      0.639         4.860 +- 3.856
  1813 Q      0.639         4.860 +- 3.856
  1814 D      0.639         4.860 +- 3.856
  1815 G      0.639         4.860 +- 3.856
  1816 G      0.639         4.860 +- 3.856
  1817 Y      0.639         4.860 +- 3.856
  1818 L      0.639         4.860 +- 3.856
  1819 V      0.639         4.860 +- 3.856
  1820 V      0.639         4.860 +- 3.856
  1821 G      0.639         4.860 +- 3.856
  1822 G      0.639         4.860 +- 3.856
  1823 M      0.639         4.860 +- 3.856
  1824 G      0.639         4.860 +- 3.856
  1825 G      0.639         4.860 +- 3.856
  1826 L      0.639         4.860 +- 3.856
  1827 G      0.639         4.860 +- 3.856
  1828 F      0.639         4.860 +- 3.856
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  1830 F      0.639         4.860 +- 3.856
  1831 A      0.639         4.860 +- 3.856
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  1834 L      0.639         4.860 +- 3.856
  1835 A      0.639         4.860 +- 3.856
  1836 E      0.639         4.860 +- 3.856
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  1838 G      0.639         4.860 +- 3.856
  1839 A      0.639         4.860 +- 3.856
  1840 G      0.639         4.860 +- 3.856
  1841 L      0.639         4.860 +- 3.856
  1842 I      0.639         4.860 +- 3.856
  1843 V      0.639         4.860 +- 3.856
  1844 L      0.639         4.860 +- 3.856
  1845 N      0.639         4.860 +- 3.856
  1846 G      0.639         4.860 +- 3.856
  1847 R      0.639         4.860 +- 3.856
  1848 S      0.639         4.860 +- 3.856
  1849 S      0.639         4.860 +- 3.856
  1850 P      0.639         4.860 +- 3.856
  1851 S      0.639         4.860 +- 3.856
  1852 D      0.639         4.860 +- 3.856
  1853 D      0.639         4.860 +- 3.856
  1854 V      0.639         4.860 +- 3.856
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  1856 A      0.639         4.860 +- 3.856
  1857 A      0.639         4.860 +- 3.856
  1858 I      0.639         4.860 +- 3.856
  1859 A      0.639         4.860 +- 3.856
  1860 D      0.639         4.860 +- 3.856
  1861 L      0.639         4.860 +- 3.856
  1862 T      0.639         4.860 +- 3.856
  1863 A      0.639         4.860 +- 3.856
  1864 A      0.639         4.860 +- 3.856
  1865 G      0.639         4.860 +- 3.856
  1866 H      0.639         4.860 +- 3.856
  1867 R      0.639         4.860 +- 3.856
  1868 I      0.639         4.860 +- 3.856
  1869 E      0.639         4.860 +- 3.856
  1870 V      0.639         4.860 +- 3.856
  1871 V      0.639         4.860 +- 3.856
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  1875 I      0.639         4.860 +- 3.856
  1876 S      0.639         4.860 +- 3.856
  1877 E      0.639         4.860 +- 3.856
  1878 P      0.639         4.860 +- 3.856
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  1889 Q      0.639         4.860 +- 3.856
  1890 S      0.639         4.860 +- 3.856
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  1893 F      0.639         4.860 +- 3.856
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  1895 L      0.639         4.860 +- 3.856
  1896 A      0.639         4.860 +- 3.856
  1897 G      0.639         4.860 +- 3.856
  1898 V      0.639         4.860 +- 3.856
  1899 L      0.639         4.860 +- 3.856
  1900 H      0.639         4.860 +- 3.856
  1901 S      0.639         4.860 +- 3.856
  1902 A      0.639         4.860 +- 3.856
  1903 M      0.639         4.860 +- 3.856
  1904 V      0.639         4.860 +- 3.856
  1905 L      0.639         4.860 +- 3.856
  1906 A      0.639         4.860 +- 3.856
  1907 D      0.639         4.860 +- 3.856
  1908 E      0.639         4.860 +- 3.856
  1909 I      0.639         4.860 +- 3.856
  1910 M      0.639         4.860 +- 3.856
  1911 L      0.639         4.860 +- 3.856
  1912 N      0.639         4.860 +- 3.856
  1913 M      0.639         4.860 +- 3.856
  1914 T      0.639         4.860 +- 3.856
  1915 D      0.639         4.860 +- 3.856
  1916 S      0.639         4.860 +- 3.856
  1917 A      0.639         4.860 +- 3.856
  1918 A      0.639         4.860 +- 3.856
  1919 R      0.639         4.860 +- 3.856
  1920 R      0.639         4.860 +- 3.856
  1921 V      0.639         4.860 +- 3.856
  1922 F      0.639         4.860 +- 3.856
  1923 V      0.639         4.860 +- 3.856
  1924 P      0.639         4.860 +- 3.856
  1925 K      0.639         4.860 +- 3.856
  1926 V      0.639         4.860 +- 3.856
  1927 T      0.639         4.860 +- 3.856
  1928 G      0.639         4.860 +- 3.856
  1929 S      0.639         4.860 +- 3.856
  1930 W      0.639         4.860 +- 3.856
  1931 R      0.639         4.860 +- 3.856
  1932 L      0.639         4.860 +- 3.856
  1933 H      0.639         4.860 +- 3.856
  1934 Q      0.639         4.860 +- 3.856
  1935 A      0.639         4.860 +- 3.856
  1936 T      0.639         4.860 +- 3.856
  1937 A      0.639         4.860 +- 3.856
  1938 A      0.639         4.860 +- 3.856
  1939 F      0.639         4.860 +- 3.856
  1940 E      0.639         4.860 +- 3.856
  1941 V      0.639         4.860 +- 3.856
  1942 D      0.639         4.860 +- 3.856
  1943 W      0.639         4.860 +- 3.856
  1944 W      0.639         4.860 +- 3.856
  1945 L      0.639         4.860 +- 3.856
  1946 T      0.639         4.860 +- 3.856
  1947 F      0.639         4.860 +- 3.856
  1948 S      0.639         4.860 +- 3.856
  1949 S      0.639         4.860 +- 3.856
  1950 A      0.639         4.860 +- 3.856
  1951 S      0.639         4.860 +- 3.856
  1952 S      0.639         4.860 +- 3.856
  1953 L      0.639         4.860 +- 3.856
  1954 L      0.639         4.860 +- 3.856
  1955 G      0.639         4.860 +- 3.856
  1956 T      0.639         4.860 +- 3.856
  1957 P      0.639         4.860 +- 3.856
  1958 G      0.639         4.860 +- 3.856
  1959 Q      0.639         4.860 +- 3.856
  1960 G      0.639         4.860 +- 3.856
  1961 A      0.639         4.860 +- 3.856
  1962 Y      0.639         4.860 +- 3.856
  1963 A      0.639         4.860 +- 3.856
  1964 A      0.639         4.860 +- 3.856
  1965 A      0.639         4.860 +- 3.856
  1966 N      0.639         4.860 +- 3.856
  1967 A      0.639         4.860 +- 3.856
  1968 W      0.639         4.860 +- 3.856
  1969 V      0.639         4.860 +- 3.856
  1970 D      0.639         4.860 +- 3.856
  1971 G      0.639         4.860 +- 3.856
  1972 L      0.639         4.860 +- 3.856
  1973 V      0.639         4.860 +- 3.856
  1974 A      0.639         4.860 +- 3.856
  1975 Y      0.639         4.860 +- 3.856
  1976 R      0.639         4.860 +- 3.856
  1977 R      0.639         4.860 +- 3.856
  1978 S      0.639         4.860 +- 3.856
  1979 L      0.639         4.860 +- 3.856
  1980 G      0.639         4.860 +- 3.856
  1981 L      0.639         4.860 +- 3.856
  1982 P      0.639         4.860 +- 3.856
  1983 A      0.639         4.860 +- 3.856
  1984 V      0.639         4.860 +- 3.856
  1985 G      0.639         4.860 +- 3.856
  1986 I      0.639         4.860 +- 3.856
  1987 N      0.639         4.860 +- 3.856
  1988 W      0.639         4.860 +- 3.856
  1989 G      0.639         4.860 +- 3.856
  1990 P      0.639         4.860 +- 3.856
  1991 W      0.639         4.860 +- 3.856
  1992 A      0.639         4.860 +- 3.856
  1993 E      0.639         4.860 +- 3.856
  1994 V      0.639         4.860 +- 3.856
  1995 G      0.639         4.860 +- 3.856
  1996 R      0.639         4.860 +- 3.856
  1997 A      0.639         4.860 +- 3.856
  1998 Q      0.639         4.860 +- 3.856
  1999 F      0.639         4.860 +- 3.856
  2000 F      0.639         4.860 +- 3.856
  2001 A      0.639         4.860 +- 3.856
  2002 G      0.639         4.860 +- 3.856
  2003 L      0.639         4.860 +- 3.856
  2004 G      0.639         4.860 +- 3.856
  2005 V      0.639         4.860 +- 3.856
  2006 S      0.639         4.860 +- 3.856
  2007 L      0.639         4.860 +- 3.856
  2008 L      0.639         4.860 +- 3.856
  2009 T      0.639         4.860 +- 3.856
  2010 A      0.639         4.860 +- 3.856
  2011 E      0.639         4.860 +- 3.856
  2012 Q      0.639         4.860 +- 3.856
  2013 G      0.639         4.860 +- 3.856
  2014 L      0.639         4.860 +- 3.856
  2015 A      0.639         4.860 +- 3.856
  2016 A      0.639         4.860 +- 3.856
  2017 M      0.639         4.860 +- 3.856
  2018 Q      0.639         4.860 +- 3.856
  2019 T      0.639         4.860 +- 3.856
  2020 V      0.639         4.860 +- 3.856
  2021 L      0.639         4.860 +- 3.856
  2022 A      0.639         4.860 +- 3.856
  2023 A      0.639         4.860 +- 3.856
  2024 D      0.639         4.860 +- 3.856
  2025 R      0.639         4.860 +- 3.856
  2026 A      0.639         4.860 +- 3.856
  2027 Q      0.639         4.860 +- 3.856
  2028 T      0.639         4.860 +- 3.856
  2029 G      0.639         4.860 +- 3.856
  2030 V      0.639         4.860 +- 3.856
  2031 F      0.639         4.860 +- 3.856
  2032 S      0.639         4.860 +- 3.856
  2033 L      0.639         4.860 +- 3.856
  2034 D      0.639         4.860 +- 3.856
  2035 A      0.639         4.860 +- 3.856
  2036 R      0.639         4.860 +- 3.856
  2037 Q      0.639         4.860 +- 3.856
  2038 W      0.639         4.860 +- 3.856
  2039 F      0.639         4.860 +- 3.856
  2040 Q      0.639         4.860 +- 3.856
  2041 S      0.639         4.860 +- 3.856
  2042 F      0.639         4.860 +- 3.856
  2043 P      0.639         4.860 +- 3.856
  2044 A      0.639         4.860 +- 3.856
  2045 V      0.639         4.860 +- 3.856
  2046 A      0.639         4.860 +- 3.856
  2047 G      0.639         4.860 +- 3.856
  2048 S      0.639         4.860 +- 3.856
  2049 S      0.639         4.860 +- 3.856
  2050 L      0.639         4.860 +- 3.856
  2051 F      0.639         4.860 +- 3.856
  2052 A      0.639         4.860 +- 3.856
  2053 N      0.639         4.860 +- 3.856
  2054 L      0.639         4.860 +- 3.856
  2055 R      0.639         4.860 +- 3.856
  2056 D      0.639         4.860 +- 3.856
  2057 T      0.639         4.860 +- 3.856
  2058 A      0.639         4.860 +- 3.856
  2059 T      0.639         4.860 +- 3.856
  2060 L      0.639         4.860 +- 3.856
  2061 K      0.639         4.860 +- 3.856
  2062 S      0.639         4.860 +- 3.856
  2063 G      0.639         4.860 +- 3.856
  2064 E      0.639         4.860 +- 3.856
  2065 R      0.639         4.860 +- 3.856
  2066 R      0.639         4.860 +- 3.856
  2067 G      0.639         4.860 +- 3.856
  2068 V      0.639         4.860 +- 3.856
  2069 G      0.639         4.860 +- 3.856
  2070 K      0.639         4.860 +- 3.856
  2071 I      0.639         4.860 +- 3.856
  2072 R      0.639         4.860 +- 3.856
  2073 A      0.639         4.860 +- 3.856
  2074 Q      0.639         4.860 +- 3.856
  2075 L      0.639         4.860 +- 3.856
  2076 D      0.639         4.860 +- 3.856
  2077 V      0.639         4.860 +- 3.856
  2078 L      0.639         4.860 +- 3.856
  2079 D      0.639         4.860 +- 3.856
  2080 A      0.639         4.860 +- 3.856
  2081 A      0.639         4.860 +- 3.856
  2082 E      0.639         4.860 +- 3.856
  2083 R      0.639         4.860 +- 3.856
  2084 P      0.639         4.860 +- 3.856
  2085 G      0.639         4.860 +- 3.856
  2086 H      0.639         4.860 +- 3.856
  2087 L      0.639         4.860 +- 3.856
  2088 A      0.639         4.860 +- 3.856
  2089 S      0.639         4.860 +- 3.856
  2090 A      0.639         4.860 +- 3.856
  2091 I      0.639         4.860 +- 3.856
  2092 A      0.639         4.860 +- 3.856
  2093 D      0.639         4.860 +- 3.856
  2094 E      0.639         4.860 +- 3.856
  2095 I      0.639         4.860 +- 3.856
  2096 R      0.639         4.860 +- 3.856
  2097 A      0.639         4.860 +- 3.856
  2098 V      0.639         4.860 +- 3.856
  2099 L      0.639         4.860 +- 3.856
  2100 R      0.639         4.860 +- 3.856
  2101 S      0.639         4.860 +- 3.856
  2102 S      0.639         4.860 +- 3.856
  2103 D      0.639         4.860 +- 3.856
  2104 P      0.639         4.860 +- 3.856
  2105 I      0.639         4.860 +- 3.856
  2106 D      0.639         4.860 +- 3.856
  2107 H      0.639         4.860 +- 3.856
  2108 D      0.639         4.860 +- 3.856
  2109 R      0.639         4.860 +- 3.856
  2110 P      0.639         4.860 +- 3.856
  2111 L      0.639         4.860 +- 3.856
  2112 E      0.639         4.860 +- 3.856
  2113 A      0.639         4.860 +- 3.856
  2114 L      0.639         4.860 +- 3.856
  2115 G      0.639         4.860 +- 3.856
  2116 L      0.639         4.860 +- 3.856
  2117 D      0.639         4.860 +- 3.856
  2118 S      0.639         4.860 +- 3.856
  2119 L      0.639         4.860 +- 3.856
  2120 M      0.639         4.860 +- 3.856
  2121 G      0.639         4.860 +- 3.856
  2122 L      0.639         4.860 +- 3.856
  2123 E      0.639         4.860 +- 3.856
  2124 L      0.639         4.860 +- 3.856
  2125 R      0.639         4.860 +- 3.856
  2126 N      0.639         4.860 +- 3.856
  2127 R      0.639         4.860 +- 3.856
  2128 L      0.639         4.860 +- 3.856
  2129 E      0.639         4.860 +- 3.856
  2130 A      0.639         4.860 +- 3.856
  2131 S      0.639         4.860 +- 3.856
  2132 L      0.639         4.860 +- 3.856
  2133 G      0.639         4.860 +- 3.856
  2134 I      0.639         4.860 +- 3.856
  2135 T      0.639         4.860 +- 3.856
  2136 L      0.639         4.860 +- 3.856
  2137 P      0.639         4.860 +- 3.856
  2138 V      0.639         4.860 +- 3.856
  2139 A      0.639         4.860 +- 3.856
  2140 L      0.639         4.860 +- 3.856
  2141 V      0.639         4.860 +- 3.856
  2142 W      0.639         4.860 +- 3.856
  2143 A      0.639         4.860 +- 3.856
  2144 Y      0.639         4.860 +- 3.856
  2145 P      0.639         4.860 +- 3.856
  2146 T      0.639         4.860 +- 3.856
  2147 T      0.639         4.860 +- 3.856
  2148 A      0.639         4.860 +- 3.856
  2149 D      0.639         4.860 +- 3.856
  2150 L      0.639         4.860 +- 3.856
  2151 A      0.639         4.860 +- 3.856
  2152 A      0.639         4.860 +- 3.856
  2153 A      0.639         4.860 +- 3.856
  2154 L      0.639         4.860 +- 3.856
  2155 C      0.639         4.860 +- 3.856
  2156 E      0.639         4.860 +- 3.856
  2157 R      0.639         4.860 +- 3.856
  2158 M      0.639         4.860 +- 3.856
  2159 D      0.639         4.860 +- 3.856
  2160 Y      0.639         4.860 +- 3.856
  2161 A      0.639         4.860 +- 3.856
  2162 L      0.639         4.860 +- 3.856
  2163 P      0.639         4.860 +- 3.856
  2164 A      0.639         4.860 +- 3.856
  2165 E      0.639         4.860 +- 3.856
  2166 V      0.639         4.860 +- 3.856
  2167 Q      0.639         4.860 +- 3.856
  2168 E      0.639         4.860 +- 3.856
  2169 A      0.639         4.860 +- 3.856
  2170 T      0.639         4.860 +- 3.856
  2171 D      0.639         4.860 +- 3.856
  2172 T      0.639         4.860 +- 3.856
  2173 N      0.639         4.860 +- 3.856
  2174 A      0.639         4.860 +- 3.856
  2175 E      0.639         4.860 +- 3.856
  2176 L      0.639         4.860 +- 3.856
  2177 S      0.639         4.860 +- 3.856
  2178 K      0.639         4.860 +- 3.856
  2179 A      0.639         4.860 +- 3.856
  2180 E      0.639         4.860 +- 3.856
  2181 M      0.639         4.860 +- 3.856
  2182 D      0.639         4.860 +- 3.856
  2183 L      0.639         4.860 +- 3.856
  2184 L      0.639         4.860 +- 3.856
  2185 S      0.639         4.860 +- 3.856
  2186 D      0.639         4.860 +- 3.856
  2187 L      0.639         4.860 +- 3.856
  2188 V      0.639         4.860 +- 3.856
  2189 E      0.639         4.860 +- 3.856
  2190 A      0.639         4.860 +- 3.856
  2191 S      0.639         4.860 +- 3.856
  2192 E      0.639         4.860 +- 3.856
  2193 L      0.639         4.860 +- 3.856
  2194 E      0.639         4.860 +- 3.856
  2195 A      0.639         4.860 +- 3.856
  2196 A      0.639         4.860 +- 3.856
  2197 T      0.639         4.860 +- 3.856
  2198 R      0.639         4.860 +- 3.856
  2199 G      0.639         4.860 +- 3.856
  2200 E      0.639         4.860 +- 3.856
  2201 S      0.639         4.860 +- 3.856



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:   0.176  0.159  0.142  0.125  0.109  0.092  0.075  0.058  0.041  0.024
p :   0.095  0.097  0.098  0.100  0.100  0.101  0.102  0.102  0.102  0.103
q :   0.105  0.103  0.102  0.100  0.100  0.099  0.098  0.098  0.098  0.097
ws:   0.031  0.046  0.062  0.077  0.092  0.108  0.123  0.138  0.154  0.169

Time used:  0:14

Model 1: NearlyNeutral	-8757.215438
Model 2: PositiveSelection	-8756.828878
Model 0: one-ratio	-8756.812995
Model 3: discrete	-8756.813563
Model 7: beta	-8757.295103
Model 8: beta&w>1	-8756.813138


Model 0 vs 1	0.8048859999980778

Model 2 vs 1	0.7731199999980163

Model 8 vs 7	0.9639300000017101

ML2355 - Muscle