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Skeletor-PE - ClustalW2

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--- EXPERIMENT NOTES




 --- EXPERIMENT PROPERTIES

#Tue Dec 06 15:47:11 WET 2016
codeml.models=0 1 2 3 7 8
mrbayes.mpich=
mrbayes.ngen=1000000
tcoffee.alignMethod=CLUSTALW2
tcoffee.params=
tcoffee.maxSeqs=0
codeml.bin=codeml
mrbayes.tburnin=2500
codeml.dir=
input.sequences=
mrbayes.pburnin=2500
mrbayes.bin=mb_adops
tcoffee.bin=t_coffee_ADOPS
mrbayes.dir=/usr/bin/
tcoffee.dir=
tcoffee.minScore=3
input.fasta=/opt/ADOPS/393/Skeletor-PE/input.fasta
input.names=
mrbayes.params=
codeml.params=



 --- PSRF SUMMARY

      Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)

(Values are saved to the file /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1     -18740.41        -18757.48
2     -18740.90        -18756.96
--------------------------------------
TOTAL   -18740.63        -18757.25
--------------------------------------


Model parameter summaries over the runs sampled in files
"/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         1.383297    0.002277    1.291807    1.476400    1.381619   1272.88   1386.94    1.000
r(A<->C){all}   0.099684    0.000056    0.085038    0.113805    0.099584   1004.75   1060.81    1.000
r(A<->G){all}   0.250728    0.000149    0.226346    0.273566    0.250559    911.86    915.63    1.001
r(A<->T){all}   0.143850    0.000120    0.123215    0.165404    0.143800    842.82    878.50    1.002
r(C<->G){all}   0.064250    0.000026    0.054836    0.074408    0.064087    826.29   1017.93    1.000
r(C<->T){all}   0.368557    0.000204    0.341391    0.396482    0.368358    681.61    787.11    1.002
r(G<->T){all}   0.072931    0.000054    0.058334    0.086670    0.072887   1000.75   1096.42    1.003
pi(A){all}      0.225722    0.000030    0.214834    0.236181    0.225879    822.08    896.96    1.002
pi(C){all}      0.325935    0.000039    0.314792    0.338906    0.325817    878.31    994.87    1.000
pi(G){all}      0.267179    0.000035    0.255376    0.278501    0.267018   1115.21   1126.46    1.000
pi(T){all}      0.181164    0.000023    0.172089    0.190476    0.181245    845.60    868.36    1.005
alpha{1,2}      0.167470    0.000068    0.151483    0.183911    0.166947   1222.92   1355.64    1.000
alpha{3}        6.429207    1.349668    4.369078    8.768751    6.312852   1336.63   1349.90    1.000
pinvar{all}     0.308207    0.000316    0.274348    0.342687    0.308336   1404.53   1429.63    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	-16461.942579
Model 2: PositiveSelection	-16461.942579
Model 0: one-ratio	-16709.812565
Model 3: discrete	-16417.683229
Model 7: beta	-16424.142646
Model 8: beta&w>1	-16419.668912


Model 0 vs 1	495.73997200000304

Model 2 vs 1	0.0

Model 8 vs 7	8.94746799999848

Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.716         0.845
   861 L      0.780         0.890
   905 P      0.782         0.892
   967 I      0.677         0.815
  1028 N      0.900         0.975
  1029 N      0.954*        1.013
  1067 G      0.561         0.736
  1070 K      0.805         0.908
  1071 P      0.563         0.737
  1073 V      0.964*        1.020
  1074 S      0.927         0.994
  1087 T      0.908         0.981
  1230 A      0.523         0.705
  1233 L      0.906         0.979
  1242 P      0.822         0.920
  1243 M      0.731         0.857
  1253 D      0.617         0.773
  1255 V      0.910         0.982
  1263 R      0.796         0.902
  1268 K      0.554         0.727
  1270 P      0.928         0.995
  1284 L      0.513         0.697
  1350 N      0.572         0.741
  1351 A      0.737         0.860
  1408 V      0.903         0.977
  1424 T      0.503         0.690
  1430 T      0.870         0.954
  1431 V      0.926         0.994
  1432 S      0.711         0.840
  1433 S      0.711         0.841

Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.750         1.267 +- 0.416
   861 L      0.811         1.327 +- 0.368
   905 P      0.767         1.290 +- 0.391
   967 I      0.702         1.213 +- 0.457
  1028 N      0.867         1.387 +- 0.296
  1029 N      0.920         1.435 +- 0.226
  1067 G      0.563         1.075 +- 0.501
  1070 K      0.827         1.344 +- 0.351
  1071 P      0.565         1.077 +- 0.500
  1072 K      0.542         1.032 +- 0.530
  1073 V      0.935         1.448 +- 0.202
  1074 S      0.899         1.416 +- 0.258
  1087 T      0.910         1.424 +- 0.249
  1230 A      0.583         1.076 +- 0.521
  1233 L      0.916         1.428 +- 0.243
  1242 P      0.856         1.370 +- 0.324
  1243 M      0.702         1.227 +- 0.431
  1253 D      0.683         1.187 +- 0.475
  1255 V      0.928         1.439 +- 0.226
  1263 R      0.794         1.315 +- 0.374
  1268 K      0.608         1.106 +- 0.509
  1270 P      0.899         1.416 +- 0.257
  1284 L      0.580         1.071 +- 0.524
  1350 N      0.614         1.116 +- 0.503
  1351 A      0.760         1.278 +- 0.407
  1408 V      0.903         1.417 +- 0.259
  1424 T      0.558         1.048 +- 0.528
  1430 T      0.862         1.380 +- 0.308
  1431 V      0.932         1.443 +- 0.217
  1432 S      0.798         1.306 +- 0.397
  1433 S      0.776         1.286 +- 0.410
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>C1
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEAGGLKGAASERHEIRLPAKATV
AEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLRNPNLNPNHPNQNPIPNPHQKP
NVTPTEISSRPEILLGETHAHTLNASPSASAYPSPSATLPSANLKLPILA
AGPHLIHHPPHLHRLHHQPQHAPHPHVHLHHHNLTANLPALAQKTIGLSE
FLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPILPQQHPHLHPHPQQH
PVLLQQQPSLIVSHYRKPIPGLLKPFVKEKPFPLQPLAASVLLLGQPTEL
GGLNNKGERLKIKGKPKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKP
KASSVSISTTPIPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGF
KPIVRTDGTGVQLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGS
ETQSFEPMFIPSPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPS
ASELIKPTLDELFAEDLNEEELEMEPMPVADDVESLEETTKKDAVTTTIN
IPRNTTKKPDPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYL
PPDNRKIPDTRVPSGALYTFDGKSVVDSSLVLPPKLDAPDNANVHQRHAQ
YGLTPLEQLVRTTPQFGVYRGELPQEFRGTEPQPVSEYSHPAPFSRTTPV
FSSSSGSTIYPYSSSTGASTSTVSSSASSPLSSSSLRPISTKLQLLKPEG
RRAooooooooooooooooooooooo
>C2
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDAGGLKGAASERHEIRLPAKATA
AEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLRNPNLNPNHPNQNPIPNPHQKP
NVTPTEISSRPEILLGETHAHTLNASPSASAYPSPSATLPSANQKLPILA
AGPHLIHHPPHLHRLHHQPQHAPHPHVHLHHHNLTANLPALAQKTIGLSE
FLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPILPQQHPHLHPHPQQH
PVLLQQQPSLIVSHYRKPIPGLLKPFVKEKPFPLQPLAASVLLLGQPTEL
GGLNNKGERLKIKGKPKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKP
KTSSVSSILISTTPIPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVE
SGFKPIVRTDGTGVQLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQ
GGSETQSFEPMFIPSPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHA
LPSASELIKPTLDELFGEDLHEEELEMEPMPVADDVESLEETTKKDAVTT
TIDIPRNTTKKPDPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDT
YYLPPDNRKIPHTRLPSGALYTFDGKSVVDSSLVLPPKLDAPDNGGVHQR
HAQYGLTPLEQLVRTTPQFGVYRGELPQEFRGTEPQPVSEYSHPAPFSRT
TPVFSSSSGNTIYPYSSSTGASTSTVSSSSSSPLSSSSLRPISTKLQLLK
PEGRRAoooooooooooooooooooo
>C3
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDAGGLKGAASERHEIRLPAMANA
AEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLKNPNLNPNHPNQNQNPIPNPHQ
KPNVTPTEISSRPEILLGETHAHTLNASPSPSQSASASAYPSPSATLSSA
NLKLPILAAGPHPIHYPPHLHRLHHQPQHAPHPHLHLHHHNLTANLPALA
QKTIGLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPILPQQHPH
LHPHPHPQQHPVHLQQQPSLIVSHYRKPIPGLLKPFVKEKPFPLQPLAAS
VLLLGQPTELGGLNNKGERLKVKGKPKIPVPYVDLEPQGSLQNTAFFKQA
GGKGEQKPKTSSVSIPSSTTTIPLVKRPAVKEPSQEEIASMRPAVNQGFK
PDTVIVESGFRPIVRTDGTGVQLPKEIIDQVAHRREDPGTEIDEVMETDT
LFLTAQQGGSETQSFEPMFIPSPLDSTNATKVLRVNVKEVSPTASALRLP
SAALEHALPSASELRKPTLDELFEDDLNEEELEMEEPMPEADDVEPLEET
TKKDAVTTRKDIPKNTTKKPDSALLEDLFGPDEEELYAEEMELDMDDRVA
AAAERIDTYYLPPDNRKIPHTQLPSGALYTFDGKSVVDSSLVLPPKLDAP
DNGGVHQRHAQYGLTPLEQLVRTTPQFGVYRGELPQEFRSTEPQPVSEYS
HPAPFSRTTPVFSSSSGSTIYPYSSSTGAASTSTLSSSSSSPLSSSSLRP
ISTKLQLLKPEGRRAooooooooooo
>C4
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEAGGLKGSPSERHEIRLPPMASA
AEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLKNPNLNPNHPNQNQNQNPIPNP
NPHQKPNVTPTEISSRPEILLGETHAHAHTLNASPSPSQSASAPAYPSPS
ATLPTANLKLPILAAGPHLIHYPPHLHRLHHQPQHATHPHLHLHHHNLTA
NLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPIL
PQQHPHLHPHPQQHPVHLQQQPSLIVSHYRKPIPGLLKPFIKEKPFPLQP
LAASVLLLGQPTELGGLNSKGDRLKVKGKPKIPVPYVDLEPQGSLQNTAF
FKQPGGKGDQKPKSTSISIPSSTTTVPLVKRPTVKEPSQEEIASMRPAVN
QGFKPDTVIVESGFRPIVRTDGTGVQLPKEIIDQVAHRREDPGTEIDEVM
ETDTLFLTAQQGGSETQSFEPMFIPSPLDSTNATKVLRVKEVTPTASALR
LPSAALEHALPSASELRKPTLGELFGDDSNEEQLEMEPLPEADDVEPLEE
TTKKDAVTTTKDILRNTTKKPDPELLEDLFGPDEEELYADELELDMDDRM
AAAAERIDTYYLPPDNRKIPHTRVPSGALYTFDGKSVVDSSLVLPPKLNA
PDNGGVHQRHAQYGLTPLEQLVRTTPQFGVYRGELPQEFRGTEPQPVSEY
SHPAALSRTTPVFSSSSGSTIYPHSSSSGASTSTVSSSSSSPLSSSSLRP
ISTKLQLLKPEGRRAooooooooooo
>C5
MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEAGGLKGSASERHEIRLPAAAEA
TSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPK
LSFEITKSSEITKLISDGIRAAEALEESLKRNPNLNPNLNLNLNPNQHPN
QYPKANVTPEILLGETHAHKPNASPSASASASAFPSPSASPSPATLKLPI
FASGPHLIHHPPHPLHRLHHHPQHAPHSHPHPHLHLHHHNLTANLPALAQ
KTIGLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPVLPQQHPHL
HPQHPVLLQQQPSLIVSHYRKPVPGLLKPFVKEKPFPLQPLAASVLLLGQ
PTELGGGLGGLTAKGERLKVKGKPKIPVPYVDLEPQGSLQNTAFFNQPGG
KGDPKPVAPSSSSSSMSSSTTTTPLVKRPAVKEPSQEEIASMRPAVNQGF
KPDTVIVESGFRPIMRTDGTGVQLPKEIIEQVANRREDPGTEIDEVMETD
TLFLTAQQGGSETQSFEPMFIPSPLDSTNASKVLRVNVKEVSPTASALRL
PSAALEHALPSASELRKPTLDELFGGELNEEELELEPLPQGDDDEEETTK
NSATATTKEIQSTTTKKPKETELLEDLFGPDEEDIYADELELEMDDRVAA
AAERIDTYYLPPDNRKVPHASLPSGALYTFDGKSVVDSSLVLPPKLDAAG
SGGGVQQRHAQYGLTPLEQLVRTTPQFGIFRGELPQEFRGTEPQPVSEYS
HPAPFSRTTGSTTTPGFSSSSGSGSTIYPYSSSPGTSTSASFSPSSSSSS
PLSLSSLRPISTKLQLLRPEGRRAoo
>C6
MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDTEAGGLKGSASERHEIRLPAEANP
AEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLRNQNLNHPNNHPNQYPIPNPHQ
KPNVTPTEINSRPEILLGETQAHKPNASPTASAPPSAFPSPSASPSPATL
KLPIFASGPHLIHHPPHSLHRLHHHPQHAPHSAPHLHLHHHNLTANLPAL
AQKTIGLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPVLPQQHP
HLHPHPQHPVMLQQQPSLIVSHYRKPVPGLLKPFVKEKPFPLQPLAASVL
LLGQPTELGGGLGGLGAKGERLKVKGKPKIPVPYVDLEPQSSLQNTAFFN
QPGGKGDPKPISPTSSSVTSSTTTTTPLVKRPPVKEPSLEEIASMRPAVN
QGFKPDTVIVESGFRPIMRTDGTGVQLPKEIIEQVANRREDPGTEIDEVM
ETDTLFLTAQQGGSETQSFEPMFIPSPLDSTNATKVLRVNVKEVSPTASA
LRLPSAALEHALPSASELRKPTLDELFGEEIDEEELDLEPMPVRDDVEEL
LEETTKKAAMATTKEMPSSTTKRPESELLEDLFGPEEDDIYADEMELEMD
DRVAAAAERIDTYYLPPDNRKVPHSSLPSGALYTFDGKSVVDSSLVLPPK
LDAADLGGGHQRHAQYGLTPLEQLVRTTPQFGIFRGELPQEFRGTEPQPV
SEYSHPAPFSRTSTTPGFSSSSSSSGSTIYPYSSSPRTSTSLSTLSSSSS
SSPLSSSSLRPISTKLQLLKPEGRRA
>C7
MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRAEAL
HRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVFYAQ
MGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEGGNN
PDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTPTGV
GRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRNTPD
TVYYHCFTHRYLGWKIHVHDACDSEAGGLKGAASDRHEIRLPVEGTGAEP
APVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLSFEI
TKSSEITKLISDGIRAAEALEESLMKNPNLNPLNHPNQNPIPYPHQKPNV
TPTEISSRPEILLGETHAHKLNTSPSVFPSPSASPSPANLKLPIYAAVPH
LIHHPPHLHRLHQHPQHALHPHVHLHHHNLTANLPALAQKTIGLSEFLRP
PQNAPLFHPVKLPGRRPFPAPIKKVPASRPILPQQHPHLHPHPQQLPVLL
QQQPSLIVSHYRKPVPGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGL
GGLNQKGERLKVKGKPKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIV
TPPTGASSVSSTTTTTPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIV
ESGFRPIMRTDGSGVQLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQ
QGGSETQSFEPMFIPSPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEH
ALPSASELRKPTLDELFGEEITDEEVVLEPLEDDDELLEETTKKAAVKTT
KEIPSTTTTKKPEHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDT
YYLPPDNRKVPHASLPSGALYTFDGKSVVDSSLVLPPKLDAVDNGGVHQR
HAQYGLTPLEQLVRTTPQFGVFRGELPQEFRGTEPQPVSEYSHPAPFSRT
STTPIFSSSSGSTIYPYSTSSGTSTSISSLSSPSSSSSSPLSSSSLRPIS
TKLQLLKPEGRRAooooooooooooo
>C8
MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLPAEA
AEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLS
FEITKSSEITKLISDGIRAAEALEESLLRNLPNPNPNLKPHPNQNPNPHQ
KPNVIPNEISSRPEILLGETHATHKLNASPSAIPPSASASASASASASPG
NQKLPIYAAGPHIIHPHPPHLHRLHHHPQHAANIHPHPHLHHHNLTANLP
ALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPVLPQQ
HPHLHPQQHPVLLQQPSLIVSHYRKPVPGLLKPFIKEKPFPLQPLAASVL
LLGQPTELGGVLGPISKGERLKVKGKPKIPVPYIDLEPQSSLQNTALFNQ
PAKVEPKPVVTPPTISTSSSTTSIPLVKRLNVKEPSLEEIAAMRPAVNQG
FKPDTVIVESGFRPIMRTDGTGVQLPKEIIDQVAHRREDPGTEIDEVMET
DTLFLTAQQGGTETQSFEPMFIPSPLDSTNASKILKVKIKEVSPTASALR
LPSAALEHSLPSASELRKPTLDELFGEELNEEELELEPLPQGDDEELLDE
TTKKAAPTTTKEPPPSSTTKQTETELLDDLFGPDEEDVYADELELEMDDR
VAAAAERIDTYYLPPDNRKIPHASLPSGALYTFDGKSVVDSSLVLPPKLD
AVDNLGIQQRHSQYGLTPLEQLVRTTPQFGIFRGELPQEFRGTEPQPVSE
YSHTHSNPAPFSRTTPGFTTSSSSGSTIYPYSSSPGTSTSISSSSSSPLS
SSSLRPISTKLQLLKPEGRRAooooo
>C9
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEAGGLKGAPSERHEIRLPAEPEP
APVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLSFEI
TKSSEITKLISDGIRAAEALEESLLRNPNLNPHPNQNPIPHPHPHQKPNV
TPTEISSRPEILLGETHAHKLNTSPSAFPSPSPSASPSPGNLKLPIFAAG
PHLIHHPPHLHRLQHHHLQQHAPHPHLHLHHHNLTANLPALAQKTIGLSE
FLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPILPQQHPHLHPHPHPG
LLQQPSLIVSHYRKPVPGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGG
LGLGNKGERLKAKGKPKIPVPYVDLEPQGSLQNTAFFNQPGKGDQKPIAT
PASSTTPSSTTTTPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESG
FRPIMRTDGSGVQLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGG
SETQSFEPMFIPSPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALP
SASELRKPTLDELFEDEINEEELELEAVPEGDDEEVLEETTKKAAPTTPK
EIPSSTTKKPESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYY
LPPDNRKVPHSSLPSGALYTFDGKSVVDSSLVLPPKLDAAESVGVHQRHA
QYGLTPLEQLVRTTPQFGAYRGELPQEFRGTEPQPVSEYSHPAPFIRTST
TAGFSTSSGNTVYPYSPSPGASTSTLSSSSSSPLSSSSLRPISTKLQLLK
PVGRRAoooooooooooooooooooo
>C10
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEAGGPKGAASERHEIRLPAESEP
APVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTPPKLSFEI
TKSSEITKLISDGIRAAEALEESLLRNPNLNPHPNQYPNPHPHPHQKPNV
TPTEISSRPEILLGETHAQKLNTSPSAFPSPSASASPSPATLKLPILAAG
PGPGPHLIHHPPHLHRLHHHPQHALAPHPHLHLHHHNLTANLPALAQKTI
GLSEFLRPPQNAPLFHPVKLPGRRPFPAPIKKVPASRPVLPQQHPHLHPL
PGLLQQPSLIVSHYRKPVPGLLKPFVKEKPFPLQPLAASVLLLGQPTELG
GGFGLGHKGERLKVKGKTKIPVPYVDLEPQGSLQNTAFFNHPGKVDQKSL
ASSIPIPSSTTTTPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESG
FRPIMRTDGSGVQLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGG
SETQSFEPMFIPSPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALP
AASELRKPTLDELFGEEINEEELELETAPEGDDEDVPEETTKKSAPTTPK
EIPSSATKKPEPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYY
LPPDNRKVPHSSLPSGALYTFDGKSVVDSSLVLPPKLDAGDSGAVHQRHA
QYGLTPLEQLVRTTPQFGAYRGELPQEFRGTEPQPVSEYSHPAPFSRTST
TPGFSTSSGNTIYPSYSSSPGASTSTATATSSTSSSSSSSPFLSSSSLRP
ISTKLQLLKPVGRRAooooooooooo
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE:  ], CPU=0.00 sec, SCORE=99, Nseq=10, Len=1590 

C1              MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
C2              MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
C3              MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
C4              MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
C5              MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
C6              MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
C7              MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
C8              MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
C9              MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
C10             MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
                **********: *********:..*.************************

C1              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C2              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C3              VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
C4              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C5              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C6              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
C7              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C8              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
C9              VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
C10             VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
                ****************************.*.:************:*****

C1              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
C2              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
C3              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
C4              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
C5              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
C6              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
C7              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
C8              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
C9              LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
C10             LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
                ****************************************:**.******

C1              PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C2              PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C3              PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C4              PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C5              PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C6              PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C7              PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C8              PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C9              PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
C10             PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
                ****.**********:**********************************

C1              TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C2              TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C3              TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
C4              TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
C5              TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C6              TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C7              TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C8              TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C9              TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
C10             TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
                **:***************************:*******************

C1              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C2              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C3              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C4              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C5              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C6              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C7              DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C8              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C9              DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
C10             DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
                ********:*****************************************

C1              VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
C2              VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
C3              VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
C4              VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
C5              VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
C6              VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
C7              VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
C8              VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
C9              VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
C10             VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
                ********:**:********.**:**********:****::***** **:

C1              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C2              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C3              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C4              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C5              LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C6              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C7              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C8              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C9              LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
C10             LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
                *******************.******************************

C1              RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
C2              RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
C3              RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
C4              RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
C5              RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
C6              RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
C7              RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
C8              RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
C9              RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
C10             RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
                *******:. .************::***********:*:***********

C1              PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
C2              PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
C3              PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
C4              PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
C5              PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
C6              PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
C7              PLPEGAR---NSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
C8              PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
C9              PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
C10             PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
                *******   ***::***:****************:*:*** ****:***

C1              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C2              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C3              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C4              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C5              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C6              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C7              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C8              EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C9              EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
C10             EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
                ****************:*********************************

C1              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
C2              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
C3              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
C4              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
C5              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
C6              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
C7              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
C8              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
C9              YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
C10             YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
                *****************************************:********

C1              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C2              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C3              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C4              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C5              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C6              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C7              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
C8              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C9              GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
C10             GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
                ********************************:*****************

C1              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
C2              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
C3              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
C4              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
C5              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
C6              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
C7              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
C8              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
C9              TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
C10             TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
                *******************************************:*****.

C1              TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGAASERHEIRLP--A
C2              TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
C3              TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
C4              TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGSPSERHEIRLP--P
C5              TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGSASERHEIRLPAAA
C6              TPDTVYYHCFTHRYLGWKIHVHDACDTEA--GGLKGSASERHEIRLP--A
C7              TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAASDRHEIRLP--V
C8              TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLP--A
C9              TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAPSERHEIRLP--A
C10             TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGPKGAASERHEIRLP--A
                *********************** **::*  ** **:.*:*******   

C1              KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C2              KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C3              MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C4              MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C5              EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C6              EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C7              EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C8              EAA--EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C9              EP---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
C10             ES---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
                     *.*****:*************************************

C1              PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
C2              PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
C3              PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQN--
C4              PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQNQN
C5              PKLSFEITKSSEITKLISDGIRAAEALEESLKRN-PNLN-----PNLN--
C6              PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-QNLNHPNNHPNQY--
C7              PKLSFEITKSSEITKLISDGIRAAEALEESLMKN-PNLNP-LNHPNQN--
C8              PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNP-NLKPHPN--
C9              PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQNPI--
C10             PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQYPN--
                ******************************* :*  * *           

C1              --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
C2              --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
C3              --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASPSPSQSASAS
C4              PIPNPNPHQKPNVTPTEISSRPEILLGETHA-HAHTLNASPSPSQSASAP
C5              --LNLNPNQHPNQYP-KANVTPEILLGETHA-HKPNASPSASAS----AS
C6              --PIPNPHQKPNVTPTEINSRPEILLGETQA-HKPNASPTASAP----PS
C7              --PIPYPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSVFP-------
C8              --QNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPS---AS
C9              --PHPHPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSAFP-------
C10             --PHPHPHQKPNVTPTEISSRPEILLGETHA-QKLNTSPSAFP-------
                      *:*:**  * : .  ********   :  . ..:          

C1              AYPSPSATLPSANLKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
C2              AYPSPSATLPSANQKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
C3              AYPSPSATLSSANLKLPILAAG----PHPIH-YPPHLHRLHHQPQHAP--
C4              AYPSPSATLPTANLKLPILAAG----PHLIH-YPPHLHRLHHQPQHAT--
C5              AFPSPSASPSPATLKLPIFASG----PHLIHHPPHPLHRLHHHPQHAPHS
C6              AFPSPSASPSPATLKLPIFASG----PHLIHHPPHSLHRLHHHPQHAPHS
C7              ---SPSASPSPANLKLPIYAAV----PHLIH-HPPHLHRLHQHPQHAL--
C8              ASASASASASPGNQKLPIYAAG----PHIIHPHPPHLHRLHHHPQHAANI
C9              -SPSPSASPSPGNLKLPIFAAG----PHLIH-HPPHLHRLQHHHLQQHAP
C10             -SPSASASPSPATLKLPILAAGPGPGPHLIH-HPPHLHRLHHHPQHALAP
                   *.**: .... **** *:     ** **  *  ****:::  :    

C1              HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C2              HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C3              HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C4              HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C5              HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C6              AP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C7              HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C8              HP--HPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C9              HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
C10             HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
                 *  * ********************************************

C1              FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
C2              FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
C3              FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
C4              FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVHLQQQPSLIVSHYRKPI
C5              FPAPIKKVPASRPVLPQQHPHLHP-----QHPVLLQQQPSLIVSHYRKPV
C6              FPAPIKKVPASRPVLPQQHPHLHPH---PQHPVMLQQQPSLIVSHYRKPV
C7              FPAPIKKVPASRPILPQQHPHLHPH--PQQLPVLLQQQPSLIVSHYRKPV
C8              FPAPIKKVPASRPVLPQQHPHLHPQ---Q-HPVLLQQ-PSLIVSHYRKPV
C9              FPAPIKKVPASRPILPQQHPHLHPH---P-HPGLLQQ-PSLIVSHYRKPV
C10             FPAPIKKVPASRPVLPQQHPHLHPL---P---GLLQQ-PSLIVSHYRKPV
                *************:**********          *** ***********:

C1              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
C2              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
C3              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKVKGK
C4              PGLLKPFIKEKPFPLQPLAASVLLLGQPTELG----GLNSKGDRLKVKGK
C5              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
C6              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
C7              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
C8              PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLG-PISKGERLKVKGK
C9              PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLG-LGNKGERLKAKGK
C10             PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFG-LGHKGERLKVKGK
                *******:************************        **:*** ***

C1              PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKA-SSVS---ISTTP
C2              PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKT-SSVSSILISTTP
C3              PKIPVPYVDLEPQGSLQNTAFFKQAGGK--GEQKPKT-SSVS-IPSSTTT
C4              PKIPVPYVDLEPQGSLQNTAFFKQPGGK--GDQKPKS-TSIS-IPSSTTT
C5              PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPS-SSSSSMSSSTTT
C6              PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISP--TSSSVTSSTTTT
C7              PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
C8              PKIPVPYIDLEPQSSLQNTALFNQPA-KVEPKPVVTP--PTISTSSSTTS
C9              PKIPVPYVDLEPQGSLQNTAFFNQPG-KGDQKPIATP--ASSTTPSSTTT
C10             TKIPVPYVDLEPQGSLQNTAFFNHPG-KVDQKSLAS----SIPIPSSTTT
                .******:*****.****:*:*::.. *   .              :**.

C1              IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
C2              IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
C3              IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
C4              VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
C5              TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
C6              TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
C7              TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
C8              IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
C9              TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
C10             TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
                 **:**  ***** ****:********************:**:****:**

C1              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
C2              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
C3              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C4              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C5              QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C6              QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C7              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C8              QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
C9              QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
C10             QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
                *******:***:********************:*****:***********

C1              SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
C2              SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
C3              SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
C4              SPLDSTNATKVLRV--KEVTPTASALRLPSAALEHALPSASELRKPTLGE
C5              SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
C6              SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
C7              SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
C8              SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
C9              SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
C10             SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
                ********:*:*:*  ***:*:********:*:**:**:**** ****.*

C1              LFAEDLNEEELEMEP-MPVADDVESLEETTKKDAVTTTINIP-RNTTKKP
C2              LFGEDLHEEELEMEP-MPVADDVESLEETTKKDAVTTTIDIP-RNTTKKP
C3              LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIP-KNTTKKP
C4              LFGDDSNEEQLEMEP-LPEADDVEPLEETTKKDAVTTTKDIL-RNTTKKP
C5              LFGGELNEEELELEPLPQGDDDEE---ETTKNSATATTKEIQSTTTKKPK
C6              LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRP-
C7              LFGEEITDEEVVLEPLE---DDDELLEETTKKAAVKTTKEIPSTTTTKKP
C8              LFGEELNEEELELEPLPQG-DDEELLDETTKKAAPTTTKEPPPSSTTKQT
C9              LFEDEINEEELELEAVPEG-DDEEVLEETTKKAAPTTPKEIP-SSTTKKP
C10             LFGEEINEEELELETAPEG-DDEDVPEETTKKSAPTTPKEIP-SSATKKP
                **  :  :*:: :*      *  :   ****: *  *  :    .:.:  

C1              DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
C2              DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
C3              DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
C4              DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
C5              ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
C6              ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
C7              EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
C8              ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
C9              ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
C10             EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
                :  **:*****:*:::**:*:**:****:******************:*.

C1              TRVPSGALYTFDGKSVVDSSLVLPPKLDAPD-NANVHQRHAQYGLTPLEQ
C2              TRLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
C3              TQLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
C4              TRVPSGALYTFDGKSVVDSSLVLPPKLNAPD-NGGVHQRHAQYGLTPLEQ
C5              ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
C6              SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGG-HQRHAQYGLTPLEQ
C7              ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NGGVHQRHAQYGLTPLEQ
C8              ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NLGIQQRHSQYGLTPLEQ
C9              SSLPSGALYTFDGKSVVDSSLVLPPKLDAAE-SVGVHQRHAQYGLTPLEQ
C10             SSLPSGALYTFDGKSVVDSSLVLPPKLDAGD-SGAVHQRHAQYGLTPLEQ
                : :************************:*   .   :***:*********

C1              LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
C2              LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
C3              LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSH----PAPFSRTT-----P
C4              LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAALSRTT-----P
C5              LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTTGSTTTP
C6              LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
C7              LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
C8              LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTT---PGF
C9              LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFIRTS---TTA
C10             LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
                ********* :*********.***********    **.: **:      

C1              VFSSSSGS---TIYP-YSSSTG-ASTSTVSSSASSP--------LSSSSL
C2              VFSSSSGN---TIYP-YSSSTG-ASTSTVSSSSSSP--------LSSSSL
C3              VFSSSSGS---TIYP-YSSSTGAASTSTLSSSSSSP--------LSSSSL
C4              VFSSSSGS---TIYP-HSSSSG-ASTSTVSSSSSSP--------LSSSSL
C5              GFSSSSGS-GSTIYP-YSSSPG-TSTSASFSPSSSSSSP-----LSLSSL
C6              GFSSSSSSSGSTIYP-YSSSPR-TSTSLSTLSSSSSSSP-----LSSSSL
C7              IFSSSSGS---TIYP-YSTSSG-TSTSISSLSSPSSSSSSP---LSSSSL
C8              TTSSSSGS---TIYP-YSSSPG-TSTSISSSSSSP---------LSSSSL
C9              GFSTSSGN---TVYP-YSPSPG-ASTSTLSSSSSSP--------LSSSSL
C10             GFSTSSGN---TIYPSYSSSPG-ASTSTATATSSTSSSSSSSPFLSSSSL
                  *:**..   *:** :*.*.  :***    .:..         ** ***

C1              RPISTKLQLLKPEGRRAooooooooooooooooooooooo
C2              RPISTKLQLLKPEGRRAoooooooooooooooooooo---
C3              RPISTKLQLLKPEGRRAooooooooooo------------
C4              RPISTKLQLLKPEGRRAooooooooooo------------
C5              RPISTKLQLLRPEGRRAoo---------------------
C6              RPISTKLQLLKPEGRRA-----------------------
C7              RPISTKLQLLKPEGRRAooooooooooooo----------
C8              RPISTKLQLLKPEGRRAooooo------------------
C9              RPISTKLQLLKPVGRRAoooooooooooooooooooo---
C10             RPISTKLQLLKPVGRRAooooooooooo------------
                **********:* ****                       




PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
-full_log      	S	[0] 
-genepred_score	S	[0] 	nsd
-run_name      	S	[0] 
-mem_mode      	S	[0] 	mem
-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] 	/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:
-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln-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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 -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) /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 10 SEQUENCES  [PROTEIN]
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C1  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C10 Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C2  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C3  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C4  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C5  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C6  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C7  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C8  Length 1526 type PROTEIN Struct Unchecked
  Input File /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln Seq C9  Length 1526 type PROTEIN Struct Unchecked

	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved S/opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [160040]

Library Relaxation: Multi_proc [72]
 
Relaxation Summary: [160040]--->[152957]



UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1


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

# Command Line: t_coffee_ADOPS -infile /opt/ADOPS/393/Skeletor-PE/batch/allfiles/tcoffee/input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln -output score_ascii -special_mode evaluate -evaluate_mode t_coffee_fast  [PROGRAM:T-COFFEE]
# T-COFFEE Memory Usage: Current= 30.145 Mb, Max= 35.659 Mb
# Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
# T-COFFEE is available from http://www.tcoffee.org
# Register on: https://groups.google.com/group/tcoffee/
>C1
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGAASERHEIRLP--A
KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANLKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKA-SSVS---ISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFAEDLNEEELEMEP-MPVADDVESLEETTKKDAVTTTINIP-RNTTKKP
DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
TRVPSGALYTFDGKSVVDSSLVLPPKLDAPD-NANVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTG-ASTSTVSSSASSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooooooooooooooo
>C2
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANQKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKT-SSVSSILISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFGEDLHEEELEMEP-MPVADDVESLEETTKKDAVTTTIDIP-RNTTKKP
DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
TRLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGN---TIYP-YSSSTG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAoooooooooooooooooooo---
>C3
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQN--
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASPSPSQSASAS
AYPSPSATLSSANLKLPILAAG----PHPIH-YPPHLHRLHHQPQHAP--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQAGGK--GEQKPKT-SSVS-IPSSTTT
IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIP-KNTTKKP
DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
TQLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTGAASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooo------------
>C4
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGSPSERHEIRLP--P
MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQNQN
PIPNPNPHQKPNVTPTEISSRPEILLGETHA-HAHTLNASPSPSQSASAP
AYPSPSATLPTANLKLPILAAG----PHLIH-YPPHLHRLHHQPQHAT--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELG----GLNSKGDRLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQPGGK--GDQKPKS-TSIS-IPSSTTT
VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRV--KEVTPTASALRLPSAALEHALPSASELRKPTLGE
LFGDDSNEEQLEMEP-LPEADDVEPLEETTKKDAVTTTKDIL-RNTTKKP
DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
TRVPSGALYTFDGKSVVDSSLVLPPKLNAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAALSRTT-----P
VFSSSSGS---TIYP-HSSSSG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooo------------
>C5
MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGSASERHEIRLPAAA
EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLKRN-PNLN-----PNLN--
--LNLNPNQHPNQYP-KANVTPEILLGETHA-HKPNASPSASAS----AS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHPLHRLHHHPQHAPHS
HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHP-----QHPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPS-SSSSSMSSSTTT
TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGGELNEEELELEPLPQGDDDEE---ETTKNSATATTKEIQSTTTKKPK
ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTTGSTTTP
GFSSSSGS-GSTIYP-YSSSPG-TSTSASFSPSSSSSSP-----LSLSSL
RPISTKLQLLRPEGRRAoo---------------------
>C6
MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDTEA--GGLKGSASERHEIRLP--A
EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-QNLNHPNNHPNQY--
--PIPNPHQKPNVTPTEINSRPEILLGETQA-HKPNASPTASAP----PS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHSLHRLHHHPQHAPHS
AP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPH---PQHPVMLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISP--TSSSVTSSTTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRP-
ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGG-HQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSSSSSSSGSTIYP-YSSSPR-TSTSLSTLSSSSSSSP-----LSSSSL
RPISTKLQLLKPEGRRA-----------------------
>C7
MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGAR---NSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAASDRHEIRLP--V
EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLMKN-PNLNP-LNHPNQN--
--PIPYPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSVFP-------
---SPSASPSPANLKLPIYAAV----PHLIH-HPPHLHRLHQHPQHAL--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQLPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
LFGEEITDEEVVLEPLE---DDDELLEETTKKAAVKTTKEIPSTTTTKKP
EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
IFSSSSGS---TIYP-YSTSSG-TSTSISSLSSPSSSSSSP---LSSSSL
RPISTKLQLLKPEGRRAooooooooooooo----------
>C8
MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLP--A
EAA--EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNP-NLKPHPN--
--QNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPS---AS
ASASASASASPGNQKLPIYAAG----PHIIHPHPPHLHRLHHHPQHAANI
HP--HPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPQ---Q-HPVLLQQ-PSLIVSHYRKPV
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLG-PISKGERLKVKGK
PKIPVPYIDLEPQSSLQNTALFNQPA-KVEPKPVVTP--PTISTSSSTTS
IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
LFGEELNEEELELEPLPQG-DDEELLDETTKKAAPTTTKEPPPSSTTKQT
ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NLGIQQRHSQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTT---PGF
TTSSSSGS---TIYP-YSSSPG-TSTSISSSSSSP---------LSSSSL
RPISTKLQLLKPEGRRAooooo------------------
>C9
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAPSERHEIRLP--A
EP---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQNPI--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSAFP-------
-SPSPSASPSPGNLKLPIFAAG----PHLIH-HPPHLHRLQHHHLQQHAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH---P-HPGLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLG-LGNKGERLKAKGK
PKIPVPYVDLEPQGSLQNTAFFNQPG-KGDQKPIATP--ASSTTPSSTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDEINEEELELEAVPEG-DDEEVLEETTKKAAPTTPKEIP-SSTTKKP
ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAAE-SVGVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFIRTS---TTA
GFSTSSGN---TVYP-YSPSPG-ASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPVGRRAoooooooooooooooooooo---
>C10
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGPKGAASERHEIRLP--A
ES---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQYPN--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-QKLNTSPSAFP-------
-SPSASASPSPATLKLPILAAGPGPGPHLIH-HPPHLHRLHHHPQHALAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPL---P---GLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFG-LGHKGERLKVKGK
TKIPVPYVDLEPQGSLQNTAFFNHPG-KVDQKSLAS----SIPIPSSTTT
TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
LFGEEINEEELELETAPEG-DDEDVPEETTKKSAPTTPKEIP-SSATKKP
EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAGD-SGAVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSTSSGN---TIYPSYSSSPG-ASTSTATATSSTSSSSSSSPFLSSSSL
RPISTKLQLLKPVGRRAooooooooooo------------

FORMAT of file /tmp/tmp8747085078941287535aln Not Supported[FATAL:T-COFFEE]
>C1
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGAASERHEIRLP--A
KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANLKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKA-SSVS---ISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFAEDLNEEELEMEP-MPVADDVESLEETTKKDAVTTTINIP-RNTTKKP
DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
TRVPSGALYTFDGKSVVDSSLVLPPKLDAPD-NANVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTG-ASTSTVSSSASSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooooooooooooooo
>C2
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANQKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKT-SSVSSILISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFGEDLHEEELEMEP-MPVADDVESLEETTKKDAVTTTIDIP-RNTTKKP
DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
TRLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGN---TIYP-YSSSTG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAoooooooooooooooooooo---
>C3
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQN--
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASPSPSQSASAS
AYPSPSATLSSANLKLPILAAG----PHPIH-YPPHLHRLHHQPQHAP--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQAGGK--GEQKPKT-SSVS-IPSSTTT
IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIP-KNTTKKP
DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
TQLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTGAASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooo------------
>C4
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGSPSERHEIRLP--P
MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQNQN
PIPNPNPHQKPNVTPTEISSRPEILLGETHA-HAHTLNASPSPSQSASAP
AYPSPSATLPTANLKLPILAAG----PHLIH-YPPHLHRLHHQPQHAT--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELG----GLNSKGDRLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQPGGK--GDQKPKS-TSIS-IPSSTTT
VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRV--KEVTPTASALRLPSAALEHALPSASELRKPTLGE
LFGDDSNEEQLEMEP-LPEADDVEPLEETTKKDAVTTTKDIL-RNTTKKP
DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
TRVPSGALYTFDGKSVVDSSLVLPPKLNAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAALSRTT-----P
VFSSSSGS---TIYP-HSSSSG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRAooooooooooo------------
>C5
MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGSASERHEIRLPAAA
EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLKRN-PNLN-----PNLN--
--LNLNPNQHPNQYP-KANVTPEILLGETHA-HKPNASPSASAS----AS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHPLHRLHHHPQHAPHS
HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHP-----QHPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPS-SSSSSMSSSTTT
TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGGELNEEELELEPLPQGDDDEE---ETTKNSATATTKEIQSTTTKKPK
ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTTGSTTTP
GFSSSSGS-GSTIYP-YSSSPG-TSTSASFSPSSSSSSP-----LSLSSL
RPISTKLQLLRPEGRRAoo---------------------
>C6
MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDTEA--GGLKGSASERHEIRLP--A
EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-QNLNHPNNHPNQY--
--PIPNPHQKPNVTPTEINSRPEILLGETQA-HKPNASPTASAP----PS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHSLHRLHHHPQHAPHS
AP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPH---PQHPVMLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISP--TSSSVTSSTTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRP-
ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGG-HQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSSSSSSSGSTIYP-YSSSPR-TSTSLSTLSSSSSSSP-----LSSSSL
RPISTKLQLLKPEGRRA-----------------------
>C7
MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGAR---NSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAASDRHEIRLP--V
EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLMKN-PNLNP-LNHPNQN--
--PIPYPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSVFP-------
---SPSASPSPANLKLPIYAAV----PHLIH-HPPHLHRLHQHPQHAL--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQLPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
LFGEEITDEEVVLEPLE---DDDELLEETTKKAAVKTTKEIPSTTTTKKP
EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
IFSSSSGS---TIYP-YSTSSG-TSTSISSLSSPSSSSSSP---LSSSSL
RPISTKLQLLKPEGRRAooooooooooooo----------
>C8
MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLP--A
EAA--EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNP-NLKPHPN--
--QNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPS---AS
ASASASASASPGNQKLPIYAAG----PHIIHPHPPHLHRLHHHPQHAANI
HP--HPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPQ---Q-HPVLLQQ-PSLIVSHYRKPV
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLG-PISKGERLKVKGK
PKIPVPYIDLEPQSSLQNTALFNQPA-KVEPKPVVTP--PTISTSSSTTS
IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
LFGEELNEEELELEPLPQG-DDEELLDETTKKAAPTTTKEPPPSSTTKQT
ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NLGIQQRHSQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTT---PGF
TTSSSSGS---TIYP-YSSSPG-TSTSISSSSSSP---------LSSSSL
RPISTKLQLLKPEGRRAooooo------------------
>C9
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAPSERHEIRLP--A
EP---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQNPI--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSAFP-------
-SPSPSASPSPGNLKLPIFAAG----PHLIH-HPPHLHRLQHHHLQQHAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH---P-HPGLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLG-LGNKGERLKAKGK
PKIPVPYVDLEPQGSLQNTAFFNQPG-KGDQKPIATP--ASSTTPSSTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDEINEEELELEAVPEG-DDEEVLEETTKKAAPTTPKEIP-SSTTKKP
ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAAE-SVGVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFIRTS---TTA
GFSTSSGN---TVYP-YSPSPG-ASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPVGRRAoooooooooooooooooooo---
>C10
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGPKGAASERHEIRLP--A
ES---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQYPN--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-QKLNTSPSAFP-------
-SPSASASPSPATLKLPILAAGPGPGPHLIH-HPPHLHRLHHHPQHALAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPL---P---GLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFG-LGHKGERLKVKGK
TKIPVPYVDLEPQGSLQNTAFFNHPG-KVDQKSLAS----SIPIPSSTTT
TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
LFGEEINEEELELETAPEG-DDEDVPEETTKKSAPTTPKEIP-SSATKKP
EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAGD-SGAVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSTSSGN---TIYPSYSSSPG-ASTSTATATSSTSSSSSSSPFLSSSSL
RPISTKLQLLKPVGRRAooooooooooo------------
input.fasta.prot.fasta.clustalw2_rs_0_0.fasta.aln I:1590 S:95 BS:1590
# TC_SIMILARITY_MATRIX_FORMAT_01
# SEQ_INDEX C1 0
# SEQ_INDEX C2 1
# SEQ_INDEX C3 2
# SEQ_INDEX C4 3
# SEQ_INDEX C5 4
# SEQ_INDEX C6 5
# SEQ_INDEX C7 6
# SEQ_INDEX C8 7
# SEQ_INDEX C9 8
# SEQ_INDEX C10 9
# PW_SEQ_DISTANCES 
BOT	    0    1	 98.82  C1	  C2	 98.82
TOP	    1    0	 98.82  C2	  C1	 98.82
BOT	    0    2	 96.23  C1	  C3	 96.23
TOP	    2    0	 96.23  C3	  C1	 96.23
BOT	    0    3	 95.89  C1	  C4	 95.89
TOP	    3    0	 95.89  C4	  C1	 95.89
BOT	    0    4	 91.29  C1	  C5	 91.29
TOP	    4    0	 91.29  C5	  C1	 91.29
BOT	    0    5	 90.39  C1	  C6	 90.39
TOP	    5    0	 90.39  C6	  C1	 90.39
BOT	    0    6	 92.15  C1	  C7	 92.15
TOP	    6    0	 92.15  C7	  C1	 92.15
BOT	    0    7	 90.91  C1	  C8	 90.91
TOP	    7    0	 90.91  C8	  C1	 90.91
BOT	    0    8	 91.84  C1	  C9	 91.84
TOP	    8    0	 91.84  C9	  C1	 91.84
BOT	    0    9	 91.37  C1	 C10	 91.37
TOP	    9    0	 91.37 C10	  C1	 91.37
BOT	    1    2	 96.37  C2	  C3	 96.37
TOP	    2    1	 96.37  C3	  C2	 96.37
BOT	    1    3	 95.90  C2	  C4	 95.90
TOP	    3    1	 95.90  C4	  C2	 95.90
BOT	    1    4	 91.24  C2	  C5	 91.24
TOP	    4    1	 91.24  C5	  C2	 91.24
BOT	    1    5	 90.47  C2	  C6	 90.47
TOP	    5    1	 90.47  C6	  C2	 90.47
BOT	    1    6	 92.30  C2	  C7	 92.30
TOP	    6    1	 92.30  C7	  C2	 92.30
BOT	    1    7	 90.93  C2	  C8	 90.93
TOP	    7    1	 90.93  C8	  C2	 90.93
BOT	    1    8	 91.86  C2	  C9	 91.86
TOP	    8    1	 91.86  C9	  C2	 91.86
BOT	    1    9	 91.52  C2	 C10	 91.52
TOP	    9    1	 91.52 C10	  C2	 91.52
BOT	    2    3	 96.12  C3	  C4	 96.12
TOP	    3    2	 96.12  C4	  C3	 96.12
BOT	    2    4	 90.79  C3	  C5	 90.79
TOP	    4    2	 90.79  C5	  C3	 90.79
BOT	    2    5	 90.09  C3	  C6	 90.09
TOP	    5    2	 90.09  C6	  C3	 90.09
BOT	    2    6	 91.70  C3	  C7	 91.70
TOP	    6    2	 91.70  C7	  C3	 91.70
BOT	    2    7	 89.89  C3	  C8	 89.89
TOP	    7    2	 89.89  C8	  C3	 89.89
BOT	    2    8	 91.49  C3	  C9	 91.49
TOP	    8    2	 91.49  C9	  C3	 91.49
BOT	    2    9	 90.93  C3	 C10	 90.93
TOP	    9    2	 90.93 C10	  C3	 90.93
BOT	    3    4	 90.78  C4	  C5	 90.78
TOP	    4    3	 90.78  C5	  C4	 90.78
BOT	    3    5	 89.89  C4	  C6	 89.89
TOP	    5    3	 89.89  C6	  C4	 89.89
BOT	    3    6	 91.76  C4	  C7	 91.76
TOP	    6    3	 91.76  C7	  C4	 91.76
BOT	    3    7	 90.21  C4	  C8	 90.21
TOP	    7    3	 90.21  C8	  C4	 90.21
BOT	    3    8	 91.22  C4	  C9	 91.22
TOP	    8    3	 91.22  C9	  C4	 91.22
BOT	    3    9	 90.79  C4	 C10	 90.79
TOP	    9    3	 90.79 C10	  C4	 90.79
BOT	    4    5	 94.52  C5	  C6	 94.52
TOP	    5    4	 94.52  C6	  C5	 94.52
BOT	    4    6	 92.87  C5	  C7	 92.87
TOP	    6    4	 92.87  C7	  C5	 92.87
BOT	    4    7	 92.29  C5	  C8	 92.29
TOP	    7    4	 92.29  C8	  C5	 92.29
BOT	    4    8	 92.46  C5	  C9	 92.46
TOP	    8    4	 92.46  C9	  C5	 92.46
BOT	    4    9	 92.45  C5	 C10	 92.45
TOP	    9    4	 92.45 C10	  C5	 92.45
BOT	    5    6	 92.96  C6	  C7	 92.96
TOP	    6    5	 92.96  C7	  C6	 92.96
BOT	    5    7	 91.12  C6	  C8	 91.12
TOP	    7    5	 91.12  C8	  C6	 91.12
BOT	    5    8	 92.48  C6	  C9	 92.48
TOP	    8    5	 92.48  C9	  C6	 92.48
BOT	    5    9	 91.82  C6	 C10	 91.82
TOP	    9    5	 91.82 C10	  C6	 91.82
BOT	    6    7	 92.42  C7	  C8	 92.42
TOP	    7    6	 92.42  C8	  C7	 92.42
BOT	    6    8	 93.18  C7	  C9	 93.18
TOP	    8    6	 93.18  C9	  C7	 93.18
BOT	    6    9	 92.91  C7	 C10	 92.91
TOP	    9    6	 92.91 C10	  C7	 92.91
BOT	    7    8	 92.05  C8	  C9	 92.05
TOP	    8    7	 92.05  C9	  C8	 92.05
BOT	    7    9	 91.77  C8	 C10	 91.77
TOP	    9    7	 91.77 C10	  C8	 91.77
BOT	    8    9	 95.84  C9	 C10	 95.84
TOP	    9    8	 95.84 C10	  C9	 95.84
AVG	 0	  C1	   *	 93.21
AVG	 1	  C2	   *	 93.27
AVG	 2	  C3	   *	 92.62
AVG	 3	  C4	   *	 92.51
AVG	 4	  C5	   *	 92.08
AVG	 5	  C6	   *	 91.53
AVG	 6	  C7	   *	 92.47
AVG	 7	  C8	   *	 91.29
AVG	 8	  C9	   *	 92.49
AVG	 9	 C10	   *	 92.16
TOT	 TOT	   *	 92.36
CLUSTAL W (1.83) multiple sequence alignment

C1              ATGTTGGCAATGAAGGATAAGCCTTGGCTGCTGCTATTTGGCCTATTGGC
C2              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C3              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C4              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C5              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C6              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCCATTTGGCCTATTGGC
C7              ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C8              ATGCTGGCAATGAAGGATAAACCTTGGCTGATGCTATTTGGCCTATTGGC
C9              ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
C10             ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
                *** ****************.*********.*** ***************

C1              CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
C2              CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
C3              CGCATTAAGCTGCCTAGTCAGCTTTGGAGACGCCGCCTACCCCTATTATG
C4              CGCATTAAGCTGCCTAGTCAGCTTTGGAGATGCCGCCTACCCCTATTATG
C5              CGCATTAAGCTGCCTAGCCAGCTTTGCAGATGCTGCCTACCCGTATTATG
C6              CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCTGCCTACCCGTATTATG
C7              CGCATTAAGCTGCTTTGTTGACTTTGGAGATGCTGCCTACCCGTATTATG
C8              CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCCGCCTACCCATATTACG
C9              CGCATTAAGCTGCTTAGCCAGCTTCGGTGACGCGGCTTACCCGTACTATG
C10             CGCATTAAGCTGCTTAGCCAGCTTCGGAGACGCGGCTTACCCGTACTATG
                ************  * *  ..*** * :** ** ** ***** ** ** *

C1              GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
C2              GCACCAAGATCGGTGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
C3              GCACCAAGATCGGAGCCCTGACCCGCCTCCACCACGGTGTCTCCGGCGAT
C4              GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
C5              GCACCAAGATCGGAGCCCTGACCCGCCTGCATCACGGCGTCTCCGGCGAT
C6              GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGCGTCTCCGGCGAC
C7              GCACCAAGATCGGAGCCCTAACCCGCCTCCATCACGGTGTCTCCGGGGAT
C8              GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGAGTCTCCGGGGAT
C9              GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
C10             GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
                *************:*****.******** ** ***** ******** ** 

C1              GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAATTACGA
C2              GTGTACGCCGTCGATTCCCGCACCATCTTTATCAAGAAATTCAATTACGA
C3              GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
C4              GTGTACGCCGTCGACTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
C5              GTGTACGCCGTGGATTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
C6              GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
C7              GTGTACGCCGTGGACTCACGCACCATTTTCATCAAGAAATTCAACTACGA
C8              GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
C9              GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
C10             GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
                *********** ** ** ******** ** ********.***** *****

C1              CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACTGCACGGCCAA
C2              CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACAGCGCGGCCAA
C3              CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAGCACTGGGCGGCCAA
C4              CGGCGAGGCGCCAGCTGCCTACTTCTACGTGGGCAATACTGCGCGGCCCA
C5              CGGCGAGGCGCCAGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
C6              CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGAAGCCCA
C7              TGGTGAGGCGCCGGCGGCCTACTTCTATGTAGGAAACACGGCGCGGCCTA
C8              TGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGCAACACGGCGAAGCCGA
C9              CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
C10             CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAATACGGCGCGGCCCA
                 ** ********.** *********** **.** *. ** * ...*** *

C1              GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGGACCGCCTCC
C2              GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
C3              GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
C4              GCAATGAAGGCGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
C5              GCAACGAGGGGGCCGCCCGGTTGAGGGACGAGAGGGGCGGAACTGCCTCC
C6              GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
C7              GTAATGAGGGAGCCGCTCGACTGAGGGATGAGCGCGGTGGAACTGCTTCC
C8              GCAACGAAGGAGCCGCTCGTCTGAGGGACGAAAAGGGCGGAACCGCCTCC
C9              GTAACGAGGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGTACCGCCTCC
C10             GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
                * ** **.** ***** **  ******* **... ** ** ** ** ***

C1              CTGACCCGCCGTTACAGGAACAAGGACGTCACACTGTCGCTGCCCGAGGG
C2              CTGACCCGCCGCTACAGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
C3              CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
C4              CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
C5              CTCACCCGCCGTTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
C6              CTGACCCGCCGCTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
C7              CTGACACGTCGCTATCGGAACAAAGATGTAACTCTGTCCCTGCCTGAGGG
C8              CTGACCCGTCGCTACAGGAACAAGGACGTAACCCTTTCGCTGCCAGAGGG
C9              CTGACCCGTCGCTACCGGAACAAGGACGTTACCTTGTCGCTGCCCGAGGG
C10             CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
                ** **.** ** ** .* *****.** ** **  * ** ***** *****

C1              CAAAACACTGCGCGACATCAAATGGTTCTCGGTGTGGTGCGATGAGTTCG
C2              GAAAACACTGCGCGACATCAAATGGTTCTCAGTGTGGTGCGATGAGTTTG
C3              CAAAACACTGCGCGACATTAAGTGGTTTTCGGTGTGGTGCGATGAGTTTG
C4              CAAAACACTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
C5              CAAGACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
C6              CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
C7              CAAAACGTTGCGCGACATCAAATGGTTCTCGGTTTGGTGCGATGAGTTTG
C8              AAAAACCCTGCGCGACATCAAGTGGTTCTCCGTGTGGTGCGATGAGTTCG
C9              CAAAACGCTGCGCGATATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTTG
C10             CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
                 **.**  ******* ** **.***** ** ** ************** *

C1              CGGTGAATTTCGGTGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
C2              CGGTGAATTTCGGCGACGTTTCTATTCCGCCCAACTTGGACTTCCCGAGG
C3              CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
C4              CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
C5              CGGTCAACTTCGGCGACGTCTCCATTCCGGCCAACTTGGACTTCCCGAGG
C6              CCGTGAACTTCGGCGACGTCTCCATTCCGGCCAACCTGGACTTCCCGAGG
C7              CGGTGAACTTTGGTGATGTCTCCATCCCAGCCAACTTGGACTTCCCGCGG
C8              CGGTGAACTTCGGAGATGTCTCCATTCCGGCCAACTTGGACTTCCCTCGG
C9              CCGTTAATTTCGGCGACGTCGCTATTCCGGCCAACTTGGACTTCCCGCGC
C10             CGGTCAACTTCGGCGACGTCGCCATTCCGGCCAACTTGGACTTCCCGCGT
                * ** ** ** ** ** **  * ** **. ***** ********** .* 

C1              CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGTGTCTCCTCCGACAA
C2              CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
C3              CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGAGAA
C4              CCACAGAAGATCAACGCTCTGCGGGGCGTCCATGGCGTCTCCTCCGACAA
C5              CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
C6              CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGAGTGTCCTCCGACAA
C7              CCACAGAAGATCAGTGCTCTTAGGGGTGTCCATGGCGTCTCCTCTGACAA
C8              CCGCAGAAGATCAACGCTTTGAGGGGCGTTCATGGCGTTTCCTCCGACAA
C9              CCGCAGAAGATCAACGCCCTGAGGGGAGTCCATGGGGTATCCTCCGACAA
C10             CCGCAGAAGATCAGTGCCCTGAGGGGAGTACACGGGGTCTCCTCCGACAA
                **.**********. **  * .**** ** ** ** ** ***** ** **

C1              CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
C2              CATTGTCATAGTGGACGCCCAAACGCTGCTGGTGCCAAACTTTAGCTACG
C3              CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
C4              CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
C5              CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAATTTCAGCTACG
C6              CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
C7              CATTGTCATCGTGGACGCTCAGACGCTGCTGGTCCCCAACTTCAGCTACG
C8              TATTGTGATCGTGGACGCCCAGACTCTGCTGGTTCCAAACTTCAGTTACG
C9              CATTGTCATCGTGGACGCCCAGACACTGCTCGTGCCCAACTTCAGCTATG
C10             CATTGTGATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
                 ***** **.******** **.** ***** ** **.** ** ** ** *

C1              ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
C2              ACGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
C3              ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGGCAGCGGCCC
C4              ACGGAGAGGCGCCAGATGCTAAATTCTGGGTGGGTCGAGGCCAGCGGCCC
C5              ACGGCGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGTCCC
C6              ACGGGGAGGCTCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
C7              ACGGCGAAGCGCCAGATGCCAAATTCTGGGTTGGTCGCGGCCAGAGGCCC
C8              ATGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGCAGAGGACAGAGGCCC
C9              ACGGCGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
C10             ACGGCGAGGCGCCAGATGCCAAGTTCTGGGTGGGTCGTGGCCAGCGGCCC
                * ** **.** ******** **.******** ** .* ** ***.* ***

C1              ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
C2              ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
C3              ACCTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
C4              ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
C5              ACTTCCGAGGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
C6              ACTTCCGAGGGCCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
C7              ACTTCTGAGGGTCTGAGGATTCCGGACGAGAATGGCAAAGAGAACCCGCT
C8              ACCTCGGAGGGTCTGAGGATTCCCGATGAGAACGGCAAGGAGAATCCCCT
C9              ACGTCCGAGGGTCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
C10             ACGTCCGAGGGTCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
                ** ** ** ** *********** ** ***** *****.***** ** **

C1              GCGTCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
C2              GCGCCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
C3              GCGTCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
C4              GCGCCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
C5              GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGATCTGA
C6              GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGACCTGA
C7              GCGTCGCTACGAACGCAAGACCATTGTGCTGACCCTGCCAGAGGATTTGA
C8              CCGTCGCTACGAGAGAAAAACTATCGTTTTGACTTTGCCGGAGGATCTGA
C9              GCGCCGCTACGAGCGCAAGACGATCGTATTAACCCTGCCCGAGGATCTGA
C10             GCGCCGCTACGAGCGCAAGACGATTGTGCTGACCCTGCCCGAGGACCTGA
                 ** ********..*.**.** ** **  *.**  **** ** **  ***

C1              CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
C2              CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTA
C3              CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
C4              CCATCTTCGACATTGGCCACTTCGGCGTTTGGTGCGAGGCCTTCACCGTC
C5              CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
C6              CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
C7              CCATCTTTGATATCGGTCACTTTGGCGTTTGGTGTGAGGCCTTCACTGTG
C8              CCATCTTCGATATTGGCCACTTTGGCGTGTGGTGCGAGGCCTTCACCGTG
C9              CCATCTTCGATATCGGTCACTTTGGCGTGTGGTGTGAGGCCTTCACCGTC
C10             CCATCTTCGACATCGGTCACTTTGGCGTGTGGTGCGAGGCCTTTACCGTC
                ******* ** ** ** ***** ***** ***** ******** ** ** 

C1              GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCCCT
C2              GATTTCGGACACGTTCGCCTACCGGAGGGCCTGAATGTGCCGCCCTCCTT
C3              GACTTTGGCCACGTTCGCCTGCCGGAGGGCTTGAATGTGCCGCCCTCCCT
C4              GATTTCGGCCACGTTCGCCTGCCCGAGGGCCTCAATGTGCCGCCTTCCCT
C5              GATTTCGGCCATGTGCGCCTGCCCGAGGGCCTAAATGTGCCGCCCTCGCT
C6              GACTTCGGCCATGTCCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCGCT
C7              GACTTCGGACATGTTCGCCTGCCGGACGGACTCAATGTACCGCCCTCGCT
C8              GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTCCCTCCCTCGCT
C9              GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTAAATGTGCCGCCCTCGCT
C10             GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTCAATGTGCCGCCCTCGCT
                ** ** **.** ** *****.** ** **. * ***** ** ** **  *

C1              GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
C2              AAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
C3              GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
C4              GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
C5              GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
C6              GAAGATGCTCGGCATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTTT
C7              GAAGATGCTGGGAATCAGCCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
C8              GAAAATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
C9              GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
C10             GAAGATGCTCGGCATCAGTCCACAGTCGAAACTCAACTGCGAGGTGCTCT
                .**.***** **.***** **:********.***************** *

C1              ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C2              ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C3              ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C4              ACGACGATCTGGCTTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C5              ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C6              ACGACGATCTGGCTTTCGAGGTGCGCTGGGCGGTGGCCGGCGAGAGCATC
C7              ACGATGATCTGGCATTCGAGGTGCGCTGGGCAGTGGCCGGCGAGAGCATC
C8              ACGACGATCTGGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C9              ACGACGATCTAGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
C10             ACGACGATCTAGCCTTCGAGGTCCGCTGGGCGGTGGCCGGCGAGAGCATC
                **** *****.** ******** ********.******************

C1              GTGGTCCAATTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
C2              GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTTGG
C3              GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
C4              GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTCGG
C5              GTGGTCCAGTTGGTAGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
C6              GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAATAACTATATGTCCTTTGG
C7              GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAACAATTACATGTCCTTTGG
C8              GTGGTCCAATTGGTGGCCAAGTTGGAACCCAACAACTACATGTCCTTCGG
C9              GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
C10             GTGGTCCAGTTGGTGGCCAAATTGGATCCGAACCACTACATGTCGTTCGG
                ********.*****.*****.*****:** ** .* ** ***** ** **

C1              AATTTCGCCAAATAAGAACATTAGCCAGATGATTGGTGCGGATGCAGTGG
C2              AATTTCGCCGAACAAGAACATCAGCCAGATGATTGGTGCGGATGCAGTGG
C3              AATCTCGCCGAACAAGAACATTAGCCAGATGATTGGCGCGGATGCAGTGG
C4              AATCTCGCCGAACAAGAACATCAGCCAGATGATTGGCGCGGATGCAGTGG
C5              AATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGCGCAGATGCGGTGG
C6              AATCTCGCCGAGCAAGAACATGTCCCAGATGATCGGCGCAGATGCAGTCG
C7              CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGTGCAGATGCTGTGG
C8              AATCTCCCCGAACAAGAATATCAGCCAGATGATTGGTGCGGATGCAGTGG
C9              CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGGGCAGATGCCGTGG
C10             CATCTCGCCGAGCAAGAACATCAGCCAGATGATTGGCGCAGATGCAGTGG
                .** ** **.*. ***** ** : ********* ** **.***** ** *

C1              TGGCCTGGGTGGATCCCCAGACCGGAAACGGATTTGCAACGGACTACTTC
C2              TGGCCTGGGTGGATCCACAGACCGGAAACGGATTTGCAACGGACTACTTC
C3              TGGCCTGGGTGGATCCACAAACCGGAAACGGATTTGCAACGGACTACTTC
C4              TGGCCTGGGTGGATCCGAAGTCCGGAAACGGATTTGCAACGGACTACTTC
C5              TCGCCTGGGTGGATCCCCAAACCGGAAACGGATTCGCCACGGACTACTTC
C6              TGTCCTGGGTGGACCCTCAAACCGGAAACGGATTCGCCATTGACTACTAC
C7              TGGCCTGGGTTGATCCTCAAACCGGAAATGGTTTCGCCACCGATTACTTC
C8              TTGCCTGGGTGGATCCCCAAACCGGAAATGGATTCGCCACCGATTACTTC
C9              TGGCTTGGGTGGATCCCCAAACCGGAAACGGATTCGCGACCGACTACTTC
C10             TGGCCTGGGTGGATCCCCAAACCGGAAACGGATTTGCAACGGACTACTTC
                *  * ***** ** ** .*.:******* **:** ** *  ** ****:*

C1              CTGGAGGGGAAGGCTCAGTGCTCTGGTGGGCGTGGCGCTTGTCCGGACAC
C2              CTGGAGGGCAAGGCTCAGTGCTCAGGTGGGCGTGGCGCTTGTCCCGACAC
C3              CTGGAGGGCAAGGCGCAGTGCTCGGGTGGGCGTGGCGCTTGTCCCGACAC
C4              CTGGAGGGCAAGGCGCAGTGCTCGGGCGGGCGTGGCGCTTGTCCCGACAC
C5              CTGGAGGGCAAGGCCCAGTGCTCCGGTGGACGTGGCGCCTGTCCGGACAC
C6              CTGGAGGGCAAGGCGCAGTGCTCCGGTGGGCGCGGCGCCTGTCCGGACAC
C7              CTGGAGGGCAAGGCCCAATGTTCAGGTGGACGCGGTGCCTGCCCAGACAC
C8              CTCGAAGGCAAGGCGCAGTGCTCCGGTGGGCGTGGCGCCTGTCCCGATAC
C9              CTGGAGGGCAAGGCGCAGTGTTCAGGTGGACGTGGCGCCTGTCCGGACAC
C10             CTGGAGGGCAAGGCGCAGTGCTCGGGCGGACGTGGTGCCTGTCCGGACAC
                ** **.** ***** **.** ** ** **.** ** ** ** ** ** **

C1              CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTTAACGCTGCCATGG
C2              CAAGATCTCTGAGAAGACCAACTCCATAAGACTACTAAATGCTGCCATGG
C3              CAAGATCTCTGAGAAGACCAACTCCATACGTCTACTCAATGCCGCCATGG
C4              CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTAAACGCCGCCATGG
C5              CAAGATCCAAGAGAAGACCAACTCCATTCGTCTGCTGAATGCCGCCATGG
C6              CAAGATCTCCGAGAAGACCAACTCCATCCGGCTGCTGAATGCCGCCATGG
C7              TAAGATCTCTGAGAAGACCAATTCCATTCGTCTGCTAAATGCCGCCATGG
C8              CAAGATCTCCGAGAAGACAAACTCCATCCGGCTGCTAAACGCTGCCATGG
C9              CAAGATCTCGGAGAAGACCAACTCCATCCGACTGCTCAATGCTGCCATGG
C10             CAAGATCTCGGAGAAGACCAACTCCATCCGGCTGCTCAATGCTGCCATGG
                 ****** . ********.** ***** .* **.** ** ** *******

C1              TAAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACGGAT
C2              TGAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACCGAT
C3              TGAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCAGCCACGGAT
C4              TGAATGGCTACTCGATTGTGACCTACCAGAGATCCCTAGCAGCCACGGAT
C5              TGAATGGCTATTCGATTGTGACCTACCAAAGATCTCTGGCTGCCACCGAT
C6              TGAACGGCTACTCGATTGTGACCTACCAGAGATCTCTGGCTGCCACGGAT
C7              TGAATGGCTATTCCATTGTGACCTACCAAAGATCTCTGGCAGCCACGGAT
C8              TGAATGGCTATTCGATTGTGACCTACCAGAGATCCCTGGCTGCCACGGAT
C9              TGAATGGCTATTCGATTGTGACCTACCAAAGATCGCTGGCTGCCACGGAT
C10             TCAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCTGCCACGGAT
                * ** ***** ** **************.***** **.**:***** ***

C1              CGCCTGGATCTGCCAATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
C2              CGCCTGGATCTGCCCATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
C3              CGCCTGGATCTGCCCATCTCGATGAAGGAAGCGGAATCAGTGGTGTGGGC
C4              CGCCTGGATCTGCCCATCTCGATAACGGAAGCCGAGTCAGTGGTGTGGGC
C5              CGTCTGGATCTGCCCATCTCGATAACGGAAGCGGAATCTGTGGTCTGGGC
C6              CGTCTGGATCTGCCTATCTCAATTACGGAGCCAGAATCGGTGGTCTGGGC
C7              CGTCTGGATCTGCCCATCTCGATTACGGAAGCGGAATCTGTGGTCTGGGC
C8              CGATTGGATCTTCCAATCTCGATTACGGATGCGGAATCTGTGGTCTGGGC
C9              CGTTTGGATTTGCCCATCTCGATTACGGACGCAGAATCGGTAGTGTGGGC
C10             CGCCTGGATCTGCCCATCTCGATCACGGACGCTGAGTCGGTGGTCTGGGC
                **  ***** * ** *****.** *.**.  * **.** **.** *****

C1              AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCATACATTCTACA
C2              AATTGGACCACTTAACGATTTCCAGGAAGTCTCCTTCCATACATTCTACA
C3              AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
C4              CATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
C5              AATTGGACCACTGAACGACTATCGCGAGGTCTCCTTCCACACGTTTTACA
C6              AATTGGACCACTGAACGATTACCACGAGGTCTCCTTCCACACGTTCTACA
C7              TATTGGACCACTGAATGATTACCGAGAGGTCTCCTTCCACACGTTCTACA
C8              AATTGGACCACTGAATGACTACCGCGAGGTCTCCTTCCACACCTTCTACA
C9              AATTGGACCGCTTAATGATTTCCGAGAAGTCTCCTTCCACACGTTCTACA
C10             CATTGGACCGCTGAACGATTTTCGAGAGGTCTCCTTCCACACGTTCTATA
                 ********.** ** ** *: *. **.*********** ** ** ** *

C1              ACAAGCATCTGCACCAGATTGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
C2              ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
C3              ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAACTGC
C4              ATAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGC
C5              ATAAGCACCTGCACAACATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
C6              ACAAGCACGTCCATCAGATCGAGTTCGGCCGCCAGCCCAAGTGGAATTGT
C7              ATAAGCATCTGCACCAGATCGAGTTCGGTCGTCAGCCCAAGTGGAATTGT
C8              ACAAACACTTGCACCAGATTGAATTTGGCCGTCAGCCCAAGTGGAATTGT
C9              ATAAGCACCTGCACCAGATCGAGTTTGGTCGCCAGCCCAAGTGGAATTGT
C10             ACAAGCACCTGCACCAGATCGAGTTCGGCCGGCAGCCCAAGTGGAATTGT
                * **.**  * ** .* ** **.** ** ** ************** ** 

C1              CCCTTGCCAGAGGGTGCTCGTGGCAATAGCAACTCATCGGAACAGGAGGA
C2              CCCTTGCCAGAGGGTGCTCGTGGCAACAGCAACTCATCGGAACAGGAGGA
C3              CCCTTGCCAGAAGGTGCTCGTGCCGGCAGCAACTCATCGGATGAGGAGGA
C4              CCCTTGCCAGAGGGTGCTCGTGCCGGCAGCAACTCATCGGAACAGGAGGA
C5              CCCCTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
C6              CCCTTGCCAGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
C7              CCTCTGCCTGAGGGAGCTCGC---------AACTCCTCTGAACAGGAGGA
C8              CCTCTGCCGGAAGGAGCTCGTCCTGGCAGCAACTCCTCCGAACAGGAGGA
C9              CCTTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCATCCGAGCAGGAAGA
C10             CCCTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAAGA
                **  **** **.** *****          *****.** **  ****.**

C1              CTCTGCTCCCGCGGCCCAGAGCTCTACTGGCGGAGCTGGTTATCCGCCAG
C2              CTCTGCTCCCGCGGCCCAGAGTTCTACTGGCGGAGCTGGTTATCCGCCAG
C3              CTCTGCTCCCGCGGCCCAGAGCTCCACTGGCGGAGCTGGTTATCCGCCAG
C4              CTCTGCTCCCGCGGCCCAGAGTTCCACTGGCGGAGCTGGCTACCCGCCAG
C5              TTCCGCTCCGGCTGCCCAGAGTTCAACCGGCGGAGCTGGTTACCCGCCAG
C6              CTCTGCTCCTGCTGCTCAGAGTTCAACTGGCGGAGCTGGTTACCCACCGG
C7              CTCGGCTCCAGCTGCACAGAGCTCAACTGGAGGAGCTGGTTATCCACCAG
C8              CTCCGCCCCCGCAGCCCAGAGTTCAACGGGAGGAGCAGGCTATCCCCCAG
C9              CTCCTCTCCCGCAGCCCAGAGTTCGACGGGTGGAGCGGGTTATCCGCCAG
C10             CTCCGCCCCCGCAGCCCAGAGTTCTACGGGTGGAGCGGGCTATCCGCCAG
                 **  * ** ** ** ***** ** ** ** ***** ** ** ** **.*

C1              CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGTGCG
C2              CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGGGCT
C3              CAGGCAAACCCAACGTAGAACCCGCCGAGGAATTCTACGAGAATCGGGCG
C4              CGGGCAGACCCAACGTAGAGCCCGATGAGGAATTCTACGATAACCGGGCG
C5              CCGGAAGGCCCAATGTGGAGCCCGAAGAGGAGTTCTATGAGAATCGGGCG
C6              CGGGAAGGCCCAATGTGGAGCCCGAAGAGGAATTCTATGAGAATCGGGCG
C7              CAGGAAGACCCAATGTTGAGCCCGACGAGGAGTTCTACGAGAATAGGGCG
C8              CAGGAAGACCCAATGTGGAGCCCGATGAGGAGTTCTACGAGAACCGGGCG
C9              CAGGAAGACCCAATGTCGAGCCTGATGAGGAGTTCTACGAGAATAGGGCG
C10             CGGGAAGACCCCATGTGGAGCCTGACGAGGAGTTCTACGAGAACCGGGCG
                * **....***.* ** **.** *. *****.***** ** ** .* ** 

C1              GAGGCTCTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
C2              GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAAGAGACAGCAATCAT
C3              GAGGCACTGCATCGTCAGCCACCGCAGCGGCGCCAGGAAACAGCGATCAT
C4              GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
C5              GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGCCAGGAAACGGCCATCAT
C6              GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGACAGGAAACGGCCATCAT
C7              GAGGCCTTGCATCGCCAGCCACCGCAGAGGCGCCAGGAAACGGCCATCAT
C8              GAGGCACTGCATCGCCAGCCGCCTCAGAGGCGCCAGGAAACCGCCATCAT
C9              GAGGCACTGCATCGACAGCCCCCGCAGAGGCGCCAGGAAACCGCCATTCT
C10             GAGGCACTGCATCGCCAGCCACCGCAGAGGCGCCAGGAGACCGCCATCGT
                *****  ******* ***** ** ***.****.**.**.** ** **  *

C1              CACCCAAAGGCGTCCAGTGCCCACTCCAAAGCCAGTGAACAGCAATGGCG
C2              TACCCAAAGGCGGCCAGTGCCTACTCCGAAGCCAGTTAACAGCAATGGCG
C3              CACCCAAAGGCGCCCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
C4              CACCCAAAGGCGCCCTGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
C5              CACCCAGCGACGTCCAGTGCCCACTCCAAAGCCGGTCAATAGCAATGGTG
C6              CACCCAGAGGCGTCCAGTGCCCACCCCAAAGCCAGTGAATAGCAATGGTG
C7              CACCCAAAGACGTCCAGTGCCCACACCAAAGCCAGTCAACAGTAACGGCG
C8              CACCCAACGGCGACCTGTTCCCACTCCGAAGCCAGTGAACAGCAATGGAG
C9              CACCCAGCGGAGACCCGTTCCCACTCCAAAACCAGTGAACAGCAATGGTG
C10             CACCCAACGGCGACCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
                 *****..*..* ** ** ** ** **.**.**.** ** ** ** ** *

C1              CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGACGGAGTGTTC
C2              CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGATGGAGTGTTC
C3              CCTGGGACATCCCGGCCATTCAGTGCCACGAGCCAGAGGACGGAGTGTTC
C4              CCTGGGACATCCCTGCCATTCAGTGCCACGAGCCAGAGGATGGAGTGTTC
C5              CCTGGGACATACCGGCCATTCAGTGCCACGAACCGGAGGACGGAGTTTTC
C6              CATGGGACATCCCTGCTATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
C7              CCTGGGACATCCCGGCCATCCAGTGTCACGAACCTGAGGATGGAGTTTTC
C8              CCTGGGACATCCCCGCCATCCAGTGCCACGAGCCGGAAGATGGAGTCTTC
C9              CCTGGGACATCCCCGCAATCCAGTGCCACGAGCCAGAGGACGGAGTGTTC
C10             CCTGGGACATCCCAGCCATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
                *.********.** ** ** ***** *****.** **.** ***** ***

C1              TATGCCCAGATGGGTCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
C2              TATGCCCAGATGGGCCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
C3              TATGCCCAGATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCCATCAC
C4              TATGCCCAGATGGGTCCCACTGGAGGCAAACACGGCTATCCAGCCATCAC
C5              TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGATATCCGGCCATTAC
C6              TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCTATCAC
C7              TATGCTCAGATGGGACCCACGGGAGGAAAGCACGGATATCCAGCAATCAC
C8              TACGCCCAGATGGGTCCCACGGGTGGAAAGCATGGCTATCCAGCAATCAC
C9              TACGCCCAGATGGGTCCCACGGGAGGAAAACACGGTTATCCAGCAATTAC
C10             TACGCCCAGATGGGTCCCACGGGCGGCAAACACGGTTATCCAGCCATCAC
                ** ** **.***** ***** ** **.**.** ** *****.** ** **

C1              AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
C2              AGGTCACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
C3              AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTACTGATCC
C4              AGGACACGTCGGTTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
C5              AGGCCACGTTGGCTGGGGAATTTCTTGGTACATCAACGGACTTCTGATTC
C6              AGGACACGTTGGCTGGGGAATTTCGTGGTACATCAACGGACTCCTGATTC
C7              AGGACACGTCGGCTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
C8              AGGTCATGTTGGCTGGGGAATTTCCTGGTACATCAACGGACTCCTGATCC
C9              AGGCCACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTACTTATCC
C10             AGGACACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTTCTTATCC
                *** ** ** ** *****.***** ***************** ** ** *

C1              CCGAGATTCATGTAGTGCGAGGCAAGACCTATACATTTGTAGTGGAGGGT
C2              CCGAGATCCATGTGGTGCGCGGCAAGACCTATACATTTGTGGTTGAGGGC
C3              CCGAGATCCACGTGGTGCGCGGCAAGACCTATACCTTTGTGGTGGAGGGC
C4              CCGAGATCCATGTGGTGCGCGGCAAGACGTACACATTTGTGGTGGAGGGC
C5              CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
C6              CCGAGATCCATGTAGTTCGCGGCAGGACGTACACCTTTGTGGTGGAGGGC
C7              CTGAAATTCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
C8              CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTCGTAGTGGAGGGT
C9              CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
C10             CCGAAATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
                * **.** ** **.** **.****.*** ** **.** **.** ***** 

C1              GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C2              GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C3              GGAAACAACCCGGACATCCCCGCCAAGTACCACCCGTTCTACATCAGTGA
C4              GGAAACAATCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C5              GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C6              GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C7              GGCAACAACCCCGACATTCCGGCCAAGTACCATCCATTCTACATCAGTGA
C8              GGTAACAACCCAGACATCCCAGCCAAGTACCATCCGTTCTACATCAGTGA
C9              GGCAACAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
C10             GGCAATAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
                ** ** ** ** ** ** ** *********** **.**************

C1              CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAAGAGAAAAAGGCCG
C2              CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAAAAGGCCG
C3              CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGGCCG
C4              CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAAAAGGCCG
C5              CGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAGAAGAAGGCCG
C6              CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAGAAGGCCG
C7              CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGTCCG
C8              TGATCCTGTGGGAGGATACGAACACAAACGCGAAGAGGAGAAGAAGGCCG
C9              TGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAAAAGAAGGCCG
C10             CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAAAAGAAGGCCG
                 ********************.*****.*****.**.**.**.*** ***

C1              TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACGCCC
C2              TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACCCCA
C3              TGCGCATCTACGCCGGAGTGCATCGCTCCCGGTCCGGCCAGGTCACGCCC
C4              TGCGCATCTACGCCGGGGTGCATCGCTCCCGGTCCGGTCAGGTCACGCCC
C5              TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACGCCC
C6              TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACACCC
C7              TTCGCATCTACGCCGGAGTGCATCGCTCCCGGTCTGGCCAAGTCACGCCC
C8              TTCGCATCTACGCCGGAGTGCATCGCTCCCGCTCCGGCCAGGTGACCCCC
C9              TTCGCATCTACGCCGGAGTGCACCGCTCTCGATCTGGCCAGGTCACGCCT
C10             TTCGCATCTACGCCGGAGTGCATCGCTCCCGATCTGGCCAGGTCACGCCC
                * **************.**.** ***** ** ** ** **.** ** ** 

C1              ACCGGCGTTGGCCGTCTCTGCAACTGGACACCAGATGTGGAAGGTCCACC
C2              ACCGGCGTTGGCCGTCTCTGCAATTGGACACCAGATGTGGAAGGTCCCCC
C3              ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCACC
C4              ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCTCC
C5              ACTGGGGTGGGCCGCCTCTGCAACTGGACGCCGGACGTGGAGGGACCTCC
C6              ACCGGCGTGGGCCGCCTCTGCAACTGGACGCCAGATGTGGAAGGTCCTCC
C7              ACCGGCGTTGGCCGCCTCTGTAACTGGACGCCAGACGTGGAGGGTCCTCC
C8              ACCGGCGTGGGCCGCCTGTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
C9              ACCGGCGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
C10             ACGGGAGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
                ** ** ** ** ** ** ** ** *****.**.** *****.**:** **

C1              GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C2              GGCGGACGATTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C3              GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C4              GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C5              GGCGGACGACTACCAGTCATTCGGAGCCTACCAGCGCACCCTGACCCTCA
C6              TGCGGACGACTACCAATCCTTTGGAGCCTATCAGCGCACTTTGACCCTCA
C7              GGCGGACGACTACCAATCGTTCGGAGCCTATCAGCGCACTTTAACCCTGA
C8              GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C9              GGCCGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
C10             AGCCGACGACTACCAGTCATTCGGCGCGTACCAGCGCACCCTGACCCTCA
                 ** ***** *****.** ** **.** ** ********  *.***** *

C1              AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
C2              AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
C3              AATGCGATGCCGGTGAGCCGGGCGTGATTACCTGGAAGCCGGACCGGAAT
C4              AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
C5              AGTGCGACGCCGGCGAACCGGGCGTCATCAGCTGGAAGCCGGACAGGAGT
C6              AGTGCGACGCCGGAGAGCCCGGCGTCATTAGCTGGAAGCCGGATAGAAAT
C7              AGTGCGATGCTGGAGAGCCGGGAGTGATAAGCTGGAAGCCAGACAGGAAC
C8              AGTGCGATGCCGGTGAGCCGGGCGTGATCAGTTGGAAGCCGGACAGGAGC
C9              AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCGGACAGGAAC
C10             AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCCGACAGGAGT
                *.***** ** ** **.** **.** ** *  ******** ** .*.*. 

C1              ACGCCGGACACGGTGTACTACCATTGCTTCACACACCGCTATCTGGGATG
C2              ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGTTACCTGGGATG
C3              ACGCCGGACACGGTGTACTACCACTGCTTTACACACCGCTATCTGGGATG
C4              ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGCTACCTGGGATG
C5              ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATTTGGGATG
C6              ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATCTGGGATG
C7              ACACCGGACACAGTCTACTATCACTGCTTCACACATCGCTATCTGGGATG
C8              ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTTGGATG
C9              ACACCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
C10             ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
                **.********.** ***** ** ***** ** ** ** **  * *****

C1              GAAGATCCACGTGCACGACTCATGTGACTCGGAAGCG------GGTGGAC
C2              GAAGATCCACGTGCACGACTCTTGTGACTCGGACGCG------GGCGGAC
C3              GAAGATCCACGTGCACGACTCCTGTGACTCGGACGCG------GGCGGAC
C4              GAAGATCCACGTGCACGACTCCTGTGACTCGGAGGCG------GGCGGCC
C5              GAAGATCCACGTGCACGATGCCTGCGACTCGGAGGCG------GGCGGCT
C6              GAAAATCCACGTGCATGATGCCTGCGACACGGAAGCC------GGTGGAC
C7              GAAGATCCACGTACATGACGCCTGTGACTCGGAAGCG------GGCGGAC
C8              GAAGATCCACGTCCACGACGAATGCGATTCGGAGGCGAGTGGCGGCGGAC
C9              GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGCC
C10             GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGTC
                ***.******** ** **  . ** ** :**** **       ** **  

C1              TCAAAGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
C2              TCAAGGGAGCCGCCTCTGAACGCCACGAAATCCGGCTGCCG------GCG
C3              TGAAGGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
C4              TTAAGGGATCCCCCTCCGAACGCCACGAAATCCGGCTGCCG------CCG
C5              TGAAGGGATCCGCCTCCGAACGCCACGAAATCCGCCTGCCAGCGGCTGCA
C6              TCAAGGGATCCGCGTCGGAGCGCCACGAAATCCGGCTGCCG------GCG
C7              TCAAGGGAGCCGCCTCGGATCGCCACGAGATCCGGCTGCCG------GTG
C8              TGAAGGGAGCCGCCTCCGATCGCCACGAGATCCGACTGCCG------GCG
C9              TGAAGGGAGCGCCCTCCGAGCGCCACGAGATCCGGCTGCCG------GCG
C10             CAAAGGGAGCGGCCTCCGAACGGCACGAGATCCGGCTGCCG------GCG
                  **.*** *  * ** ** ** *****.***** *****.        .

C1              AAAGCCACCGTCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
C2              AAAGCCACCGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
C3              ATGGCCAACGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
C4              ATGGCCAGCGCCGCGGAACCGGCGCCTGTGCACGAGGACTACGCCGGAGA
C5              GAGGCAACATCCGCGGAACCGGCTCCCGTGCACGAGGACTACGCCGGCGA
C6              GAGGCCAACCCCGCGGAAGCGGCTCCCGTGCACGAGGACTACGCCGGAGA
C7              GAAGGAACCGGAGCGGAACCGGCACCCGTGCACGAGGAGTACGCCGGAGA
C8              GAGGCAGCG------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
C9              GAACCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
C10             GAATCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
                .:.            *** **** ** *********** ********.**

C1              GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C2              GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C3              GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C4              GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C5              GGCGTCCGTGAGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C6              GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C7              GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C8              GGCGTCCGTGCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C9              GGCGTCCGTTCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
C10             GGCGTCCGTTCGGCACGAAACAAAGGTCAGCGCCAACGATAATTTTTTAT
                ********* .**********.****************************

C1              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C2              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C3              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C4              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C5              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C6              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C7              TGAAGCACCAAACTGATTTGATTAAGAACCACAATATGAACGGAACACCG
C8              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C9              TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
C10             TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
                ************* ************************************

C1              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C2              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C3              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C4              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C5              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C6              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C7              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C8              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C9              CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
C10             CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
                **************************************************

C1              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
C2              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
C3              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
C4              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
C5              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCTTAAAGAGGA
C6              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
C7              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTAATGAAGA
C8              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
C9              TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
C10             TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
                **************************************** **.:**.**

C1              AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
C2              AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
C3              AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAAC------
C4              AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAACCAGAAC
C5              AC---CCCAATCTGAAT---------------CCGAACCTGAAC------
C6              AC---CAGAACCTGAACCATCCCAACAACCACCCCAACCAGTAC------
C7              AC---CCGAATCTGAACCCT---CTGAACCATCCCAACCAGAAC------
C8              ACCTACCGAATCCGAATCCG---AATCTGAAACCCCATCCCAAC------
C9              AC---CCGAATCTGAACCCC---CATCCCAACCAGAACCCGATT------
C10             AC---CCGAATCTGAACCCC---CATCCCAACCAGTACCCGAAT------
                **   *. ** * ***                *.  *             

C1              ------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
C2              ------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
C3              ------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
C4              CCGATTCCGAATCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
C5              ------CTGAACCTGAACCCCAATCAACATCCCAACCAGTACCCG---AA
C6              ------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
C7              ------CCGATTCCGTATCCGCACCAGAAACCGAACGTGACCCCGACCGA
C8              ------CAGAACCCGAATCCGCACCAGAAACCGAACGTCATCCCGAACGA
C9              ------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
C10             ------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
                      * *.: * * * ** .* **..*:** *** : : ***.   .*

C1              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
C2              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
C3              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
C4              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CATG
C5              AGCGAACGTGACCCCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
C6              GATCAACTCGCGCCCCGAGATTCTGCTGGGCGAGACCCAAGCC---CACA
C7              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
C8              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCACGCCACCCACA
C9              GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
C10             GATCAGCTCGCGACCCGAGATTCTGTTGGGCGAGACCCATGCC---CAAA
                ..  *.*  *. .************ ***********         ** .

C1              CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
C2              CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
C3              CCCACACGCTGAACGCATCTCCATCGCCATCTCAATCCGCATCCGCATCC
C4              CCCACACGCTGAACGCATCTCCATCTCCATCTCAATCCGCATCCGCACCC
C5              AGCCGAATGCATCGCCATCCGCATCCGCATCA------------GCATCC
C6              AGCCGAATGCATCTCCAACCGCATCCGCACCA------------CCATCC
C7              AGCTGAATACATCTCCATCCGTATTCCCA---------------------
C8              AGCTGAACGCATCTCCATCCGCCATCCCCCCATCC---------GCATCC
C9              AGCTGAACACATCTCCATCCGCATTCCCA---------------------
C10             AGCTGAACACATCTCCATCCGCATTCCCA---------------------
                . *  *.   .:.  **:*   .                           

C1              GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCTAAAGCTACC
C2              GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCAAAAGCTACC
C3              GCATACCCATCCCCATCAGCCACTTTATCCTCTGCCAACCTGAAGCTACC
C4              GCATACCCATCCCCATCTGCCACTTTACCCACTGCCAACCTAAAGCTACC
C5              GCATTCCCATCCCCATCTGCATCTCCATCCCCCGCCACGCTGAAGCTACC
C6              GCATTCCCATCCCCATCTGCATCGCCATCCCCAGCCACACTGAAGCTACC
C7              ---------TCCCCATCTGCCTCACCATCCCCCGCCAATCTTAAGCTGCC
C8              GCATCCGCCTCAGCATCCGCATCCGCATCCCCTGGCAATCAAAAGCTGCC
C9              ---TCCCCATCCCCATCAGCATCACCCTCCCCCGGCAACCTGAAGCTGCC
C10             ---TCCCCATCAGCATCGGCCTCACCATCCCCCGCCACCCTGAAGCTGCC
                         **. **** **.:*   . ** * * **. *: *****.**

C1              CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
C2              CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
C3              CATACTCGCGGCTGGT------------CCCCATCCCATCCAT---TATC
C4              CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---TATC
C5              GATCTTCGCTAGCGGT------------CCCCATCTCATCCACCATCCCC
C6              CATCTTCGCCAGTGGT------------CCCCATCTCATCCACCACCCCC
C7              CATTTACGCGGCTGTT------------CCCCATCTCATCCAC---CATC
C8              CATTTATGCAGCTGGT------------CCCCACATCATCCATCCCCATC
C9              CATCTTCGCGGCCGGT------------CCCCATCTCATCCAC---CATC
C10             AATCCTTGCGGCTGGCCCAGGGCCAGGCCCCCATCTCATCCAC---CATC
                 **  : ** .  *              ***** . ******     . *

C1              CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
C2              CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
C3              CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
C4              CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCACC------
C5              CGCACCCCTTGCATCGTCTGCACCACCATCCGCAGCATGCCCCCCACTCG
C6              CACACTCCCTGCATCGCCTGCACCACCATCCGCAGCATGCCCCCCACTCA
C7              CCCCGCACTTGCATCGCCTGCACCAACATCCGCAGCATGCCCTG------
C8              CCCCGCACTTGCATCGCCTGCACCACCATCCGCAGCATGCCGCGAATATT
C9              CCCCGCACTTGCATCGCCTGCAACACCACCACCTCCAGCAGCATGCCCCC
C10             CCCCGCACCTGCATCGCCTGCACCACCATCCGCAGCATGCCCTTGCCCCC
                * *.  .* ******* *****.**.** *. *: **  .          

C1              CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
C2              CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
C3              CATCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
C4              CACCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
C5              CATCCGCATCCGCATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
C6              GCTCCG------CATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
C7              CATCCG------CATGTCCATTTGCATCATCACAATCTAACCGCTAATCT
C8              CATCCG------CATCCGCACTTGCATCACCACAATCTAACCGCTAATCT
C9              CACCCG------CATCTCCATTTGCATCACCACAACCTAACCGCTAATCT
C10             CACCCG------CATCTACATTTGCATCACCACAACCTAACCGCTAATCT
                 . ***      ***   ** ******** ***** **************

C1              TCCAGCGCTCGCACAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
C2              TCCAGCGCTCGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
C3              TCCAGCGCTGGCCCAAAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
C4              TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
C5              TCCAGCGCTTGCCCAGAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
C6              TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTCCTGCGTCCGC
C7              TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTTTGCGTCCGC
C8              TCCAGCGCTCGCACAGAAAACCATTGGACTCTCCGAGTTCCTGCGTCCGC
C9              TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
C10             TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
                ********* **.**.******** **.** ** *****  *.*******

C1              CGCAGAACGCTCCGCTCTTTCATCCGGTTAAACTGCCCGGCCGCCGACCT
C2              CGCAAAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
C3              CGCAGAACGCCCCACTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
C4              CGCAGAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
C5              CGCAGAACGCACCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGACCC
C6              CGCAGAATGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGACCC
C7              CGCAGAACGCTCCGCTCTTCCATCCGGTTAAGCTGCCCGGCCGTCGACCT
C8              CGCAGAATGCTCCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGTCCC
C9              CGCAGAACGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGCCCC
C10             CGCAGAACGCTCCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGTCCC
                ****.** ** **.***** ******** **.*********** ** ** 

C1              TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
C2              TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
C3              TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
C4              TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
C5              TTTCCCGCTCCCATCAAGAAGGTTCCGGCCTCGCGACCCGTGCTTCCGCA
C6              TTCCCAGCACCCATCAAGAAGGTTCCGGCCTCGAGGCCCGTGCTTCCGCA
C7              TTCCCTGCTCCGATCAAGAAAGTGCCGGCCTCCAGGCCCATACTACCGCA
C8              TTCCCGGCTCCCATCAAGAAAGTCCCCGCCTCGCGGCCTGTGCTTCCGCA
C9              TTTCCCGCGCCCATCAAGAAGGTCCCGGCCTCCAGGCCCATCCTCCCGCA
C10             TTCCCCGCTCCCATCAAGAAGGTGCCGGCCTCGAGGCCCGTGCTGCCGCA
                ** ** ** ** ********.** ** ***** .*.** .* ** *****

C1              GCAGCATCCGCATTTGCATCCGCAT------CCGCAGCAGCATCCCGTTC
C2              GCAGCATCCGCATTTGCATCCGCAT------CCACAGCAGCATCCCGTTC
C3              GCAGCATCCGCACCTGCATCCGCATCCACATCCGCAGCAGCATCCCGTGC
C4              GCAGCATCCGCACCTGCATCCGCAT------CCGCAGCAGCATCCCGTCC
C5              GCAACATCCGCACCTGCATCCG---------------CAGCATCCCGTCC
C6              GCAACATCCGCACCTGCATCCGCAT---------CCGCAGCATCCTGTCA
C7              GCAACATCCCCACCTGCATCCGCAT------CCACAGCAGCTGCCCGTCT
C8              GCAACATCCGCACCTGCATCCGCAA---------CAG---CATCCGGTTC
C9              GCAGCATCCGCATCTGCATCCGCAT---------CCG---CATCCCGGCC
C10             GCAGCATCCGCACTTGCATCCCCTC---------CCC---------GGCC
                ***.***** **  *******                         *   

C1              TTCTGCAGCAACAACCCTCCCTGATTGTAAGTCACTACAGGAAGCCGATA
C2              TTCTGCAGCAACAGCCCTCCCTGATTGTAAGTCACTATAGGAAGCCGATA
C3              ATCTGCAGCAACAGCCCTCCCTGATTGTTAGTCACTACAGAAAGCCGATA
C4              ATCTGCAGCAACAACCCTCCCTGATTGTTAGCCACTACAGAAAACCGATA
C5              TGCTGCAACAGCAACCCTCGCTGATTGTGAGCCACTACAGGAAGCCGGTG
C6              TGCTGCAACAGCAGCCCTCCTTGATTGTGAGCCACTACAGGAAGCCGGTG
C7              TACTGCAGCAGCAGCCCTCCTTGATTGTGAGTCACTACAGGAAGCCAGTG
C8              TGTTGCAACAA---CCTTCCTTGATTGTGAGTCACTACAGGAAACCGGTT
C9              TTCTGCAGCAG---CCCTCCTTGATTGTGAGTCACTACAGGAAGCCGGTG
C10             TCCTGCAGCAG---CCCTCCTTGATCGTGAGCCACTACAGGAAGCCGGTG
                :  ****.**.   ** **  **** ** ** ***** **.**.**..* 

C1              CCGGGATTGCTGAAACCCTTCGTCAAGGAGAAACCTTTTCCACTGCAACC
C2              CCGGGATTGCTGAAGCCCTTCGTAAAGGAGAAACCTTTTCCACTCCAACC
C3              CCGGGATTGCTAAAGCCCTTCGTCAAGGAGAAACCTTTCCCCCTGCAACC
C4              CCGGGATTGCTGAAGCCCTTCATCAAGGAGAAACCTTTTCCCCTGCAGCC
C5              CCGGGTCTGCTGAAACCCTTTGTCAAGGAGAAACCCTTTCCGCTGCAACC
C6              CCGGGTCTGCTCAAGCCTTTCGTCAAAGAGAAACCCTTTCCTCTGCAACC
C7              CCGGGATTGCTGAAGCCTTTCGTCAAGGAAAAACCCTTCCCACTGCAACC
C8              CCGGGATTGCTGAAACCCTTCATCAAGGAGAAACCCTTCCCGCTGCAACC
C9              CCCGGATTGCTGAAGCCCTTCGTCAAAGAGAAACCCTTCCCGCTGCAGCC
C10             CCGGGTTTGCTCAAGCCGTTCGTCAAGGAAAAGCCCTTCCCGCTGCAACC
                ** **: **** **.** ** .*.**.**.**.** ** ** ** **.**

C1              GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
C2              GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
C3              GCTGGCCGCATCTGTTTTGCTCCTGGGACAGCCCACTGAGCTGGGC----
C4              GCTGGCCGCGTCTGTCTTACTCCTGGGGCAGCCCACTGAGCTTGGA----
C5              GCTGGCCGCTTCTGTTTTGCTCCTAGGACAACCCACTGAGCTGGGCGGCG
C6              GCTGGCTGCTTCTGTTCTGCTCCTGGGACAACCCACGGAACTGGGCGGGG
C7              GCTTGCTGCCTCTGTCCTACTCCTGGGGCAACCCACTGAATTGGGCGGAG
C8              GCTGGCTGCCTCCGTTTTGCTCCTCGGGCAACCCACTGAATTGGGTGGCG
C9              GCTGGCTGCCTCGGTTCTGCTCCTGGGACAGCCCACTGAACTGGGCGGAG
C10             GCTGGCTGCCTCCGTCCTGCTTTTGGGACAGCCCACTGAACTGGGCGGAG
                *** ** ** ** **  *.**  * ** **.***** **. * **     

C1              --------GGCCTCAATAACAAGGGAGAACGACTCAAGATAAAGGGTAAA
C2              --------GGGCTCAATAACAAGGGAGAACGACTCAAGATTAAGGGTAAA
C3              --------GGACTGAATAACAAAGGAGAGCGACTCAAGGTCAAGGGTAAG
C4              --------GGGCTGAATAGCAAGGGGGACCGACTCAAGGTGAAGGGCAAG
C5              GACTGGGTGGGCTGACCGCCAAGGGAGAACGGCTCAAGGTCAAGGGTAAA
C6              GACTGGGCGGACTAGGCGCCAAGGGAGAACGACTCAAGGTCAAGGGTAAA
C7              GACTTGGTGGGCTGAACCAGAAAGGAGAGCGACTGAAGGTCAAGGGTAAA
C8              TCTTGGGG---CCAATCAGCAAAGGTGAACGACTGAAGGTCAAGGGCAAG
C9              GACTGGGG---CTGGGCAACAAGGGCGAGCGACTGAAGGCCAAGGGTAAG
C10             GTTTCGGC---CTGGGCCATAAAGGCGAACGACTGAAGGTCAAGGGAAAG
                           *  .     **.** ** **.** ***.  ***** **.

C1              CCAAAAATTCCAGTACCATATGTGGACCTAGAACCACAGGGGTCTCTGCA
C2              CCAAAGATTCCAGTACCTTATGTGGACCTAGAACCACAAGGGTCTCTGCA
C3              CCCAAAATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
C4              CCCAAGATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
C5              CCCAAAATTCCAGTGCCCTATGTTGACCTCGAACCGCAGGGCTCTCTGCA
C6              CCCAAAATTCCAGTGCCCTATGTCGACCTAGAACCGCAGAGCTCTCTGCA
C7              CCTAAAATTCCAGTACCCTATGTAGACTTGGAACCGCAGGGCTCTCTACA
C8              CCCAAAATTCCAGTTCCCTATATCGATTTGGAACCCCAAAGTTCACTGCA
C9              CCGAAAATTCCAGTGCCCTATGTGGATCTGGAACCGCAGGGCTCGCTGCA
C10             ACCAAAATTCCAGTACCCTATGTGGATCTGGAACCTCAGGGCTCACTGCA
                .* **.******** ** ***.* **  * ***** **..* ** **.**

C1              AAATACAGCTATCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
C2              AAATGCGGCCTTCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
C3              AAATACGGCTTTCTTCAAGCAGGCAGGCGGAAAG------GGGGAGCAGA
C4              AAACACGGCTTTCTTTAAGCAGCCAGGCGGAAAG------GGGGACCAGA
C5              GAACACTGCTTTCTTCAATCAACCGGGCGGAAAGGGGGATCCCAAGCCCG
C6              AAACACAGCCTTCTTTAATCAGCCAGGTGGAAAGGGTGATCCGAAGCCCA
C7              AAACACGGCCTTCTTTAATAAACCAGGCGGAAAGGTTGAACAGAAACCGA
C8              AAACACAGCCCTATTCAATCAACCTGCG---AAGGTGGAACCAAAGCCTG
C9              AAACACGGCCTTCTTTAATCAGCCGGGA---AAGGGGGATCAGAAGCCCA
C10             AAACACGGCCTTCTTTAATCATCCGGGA---AAGGTGGATCAAAAGTCTT
                .** .* **  *.** ** .*  * *     ***         .*  .  

C1              AACCCAAAGCC---TCATCTGTGTCC---------ATCTCAACCACGCCC
C2              AACCCAAGACC---TCCTCTGTGTCCTCCATTCTCATCTCAACTACGCCC
C3              AACCCAAAACC---TCCTCCGTCTCC---ATTCCCAGCTCGACCACGACC
C4              AACCCAAGAGC---ACCTCTATCTCC---ATTCCCAGCTCCACCACGACG
C5              TAGCACCCAGT---TCAAGTTCCAGTTCCATGAGCAGCTCAACCACGACC
C6              TTTCCCCC------ACATCCAGCTCCGTAACCAGCTCAACCACAACTACG
C7              TTGTTACTCCTCCTACTGGTGCTAGTTCTGTTAGCAGCACAACCACGACC
C8              TGGTGACTCCG------CCAACCATCTCCACTTCCAGTTCAACCACAAGT
C9              TAGCTACTCCC------GCCTCCAGCACCACACCCAGCTCAACCACGACC
C10             TAGCAAGC------------TCCATCCCTATTCCCAGCTCAACCACGACC
                :    .                 :           :  :* ** ** .  

C1              ATTCCGCTGGTGAAACGTCCTACAGTAAAGGAACCTTCCCAGGAGGAAAT
C2              ATTCCGCTGGTGAAACGTCCTACTGTAAAGGAACCCTCCCAGGAGGAAAT
C3              ATTCCACTGGTGAAACGTCCTGCTGTAAAGGAACCCTCCCAGGAGGAAAT
C4              GTTCCGCTGGTGAAACGTCCCACTGTAAAGGAACCGTCCCAGGAGGAAAT
C5              ACGCCGCTGGTCAAACGTCCTGCGGTGAAGGAACCCTCTCAAGAAGAAAT
C6              ACTCCGCTGGTGAAACGGCCGCCGGTGAAGGAACCCTCTCTGGAGGAGAT
C7              ACGCCGTTGGTTAAACGCCCTCCTGTCAAGGAACCATCCCAAGAAGAAAT
C8              ATTCCCCTCGTGAAACGTCTAAATGTTAAGGAACCTTCTCTTGAAGAAAT
C9              ACGCCGCTGGTGAAACGTCCTCCCGTGAAGGAACCTTCCCTGGAAGAAAT
C10             ACGCCCCTGATGAAACGTCCACCTGTGAAAGAACCCTCCCAGGAGGAAAT
                .  **  * .* ***** *   . ** **.***** ** *: **.**.**

C1              CGCCAGTATGCGTCCTGCCGTTAATCAGGGCTTCAAGCCCGACACCGTGA
C2              CGCCAGTATGCGTCCTGCCGTTAATCAGGGTTTCAAGCCCGACACCGTGA
C3              CGCCAGTATGCGGCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
C4              CGCCAGTATGCGTCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
C5              CGCCAGCATGCGACCTGCCGTCAATCAGGGCTTCAAGCCAGACACCGTGA
C6              CGCCAGCATGCGTCCTGCGGTAAATCAGGGCTTCAAGCCCGACACTGTGA
C7              CGCCAGCATGCGACCTGCTGTGAATCAGGGTTTTAAGCCCGATACCGTGA
C8              CGCCGCCATGAGACCTGCTGTGAATCAAGGCTTTAAACCGGACACCGTGA
C9              CGCCAGTATGCGACCAGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
C10             CGCCAGTATGCGACCGGCCGTCAATCAGGGTTTCAAGCCCGACACCGTGA
                ****.  ***.* ** ** ** *****.** ** **.** ** ** ****

C1              TTGTTGAGAGCGGATTTAAACCCATCGTTAGGACCGATGGCACTGGTGTT
C2              TTGTGGAGAGCGGATTCAAACCCATCGTTAGAACCGATGGCACTGGTGTC
C3              TTGTTGAAAGCGGATTCAGACCCATCGTTAGAACCGATGGCACAGGCGTC
C4              TTGTTGAGAGCGGATTCAGACCCATCGTTAGAACCGATGGCACTGGGGTC
C5              TTGTGGAGAGCGGTTTTCGACCCATCATGCGAACCGATGGAACGGGCGTG
C6              TCGTGGAGAGCGGATTCCGACCCATCATGAGAACCGATGGCACTGGGGTG
C7              TCGTGGAGAGCGGCTTCCGACCCATCATGAGAACTGATGGCAGTGGTGTC
C8              TCGTGGAGAGCGGTTTTCGACCCATCATGAGAACCGACGGCACGGGTGTC
C9              TCGTGGAAAGTGGCTTCCGACCCATCATGCGAACAGATGGCAGTGGGGTC
C10             TCGTGGAAAGTGGTTTCCGACCCATCATGAGAACAGACGGCAGTGGGGTC
                * ** **.** ** ** ..*******.* .*.** ** **.*  ** ** 

C1              CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
C2              CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
C3              CAATTGCCCAAGGAGATCATCGACCAGGTGGCCCATCGACGCGAGGACCC
C4              CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGCGAGGATCC
C5              CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAATCGTCGCGAGGATCC
C6              CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAACCGTCGCGAGGATCC
C7              CAATTGCCCAAGGAGATCATAGACCAGGTGGCCCATCGCCGAGAAGATCC
C8              CAACTGCCAAAGGAAATCATTGACCAAGTGGCTCATCGAAGAGAGGATCC
C9              CAGTTGCCCAAGGAAATCATTGAGCAAGTGGCCCATCGCCGGGAGGATCC
C10             CAGTTGCCCAAGGAAATCATTGAGCAGGTGGCCCATCGTCGGGAGGACCC
                **. ****.*****.***** ** **.***** .* ** .* **.** **

C1              TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
C2              TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
C3              TGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTCCTGACAG
C4              CGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTTCTGACAG
C5              TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACCG
C6              TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTGTTCCTGACCG
C7              TGGCACTGAAATCGACGAGGTAATGGAAACGGATACGCTATTTCTGACAG
C8              TGGCACCGAGATCGATGAGGTGATGGAAACGGATACTCTATTTTTGACTG
C9              GGGAACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACAG
C10             GGGAACCGAAATCGACGAGGTAATGGAAACGGACACCCTATTCCTGACAG
                 ** ** **.***** *****.******** ** ** **.**  **.* *

C1              CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
C2              CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
C3              CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
C4              CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
C5              CCCAGCAAGGCGGCAGTGAAACCCAAAGCTTTGAGCCCATGTTTATACCA
C6              CTCAACAGGGTGGCAGTGAGACCCAAAGCTTTGAGCCCATGTTTATACCA
C7              CTCAGCAGGGTGGCAGTGAAACCCAGAGCTTTGAGCCCATGTTTATACCA
C8              CCCAACAGGGAGGCACTGAAACCCAGAGCTTTGAGCCCATGTTTATACCC
C9              CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
C10             CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
                * **.**.** **** ***.** **.***********************.

C1              TCGCCCTTGGACAGTACTAATGCCACAAAAGTGTTGAGGGTTAACGTGAA
C2              TCGCCCTTGGACAGTACCAATGCTACAAAAGTGTTGAGGGTTAACGTGAA
C3              TCGCCCTTGGACAGCACCAATGCCACGAAAGTGTTGAGGGTCAACGTGAA
C4              TCGCCCTTGGACAGTACCAACGCCACGAAAGTGTTGAGGGTG------AA
C5              TCTCCGTTGGACAGCACCAATGCTTCGAAGGTTTTAAGGGTGAATGTGAA
C6              TCTCCCTTGGACAGTACCAACGCTACTAAGGTTTTAAGGGTTAATGTGAA
C7              TCTCCTTTGGATAGTACCAATGCCTCGAAGGTTCTAAGGGTAAATGTAAA
C8              TCTCCTTTGGACAGTACCAATGCCTCGAAGATTCTTAAGGTTAAGATAAA
C9              TCTCCTTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
C10             TCTCCGTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
                ** ** ***** ** ** ** ** :* **..*  * *.***       **

C1              GGAGGTTAGTCCCACGGCATCAGCTTTAAGATTGCCGTCGGCAGCCCTGG
C2              GGAGGTTAGTCCCACGGCATCGGCTCTAAGACTGCCGTCGGCAGCCCTGG
C3              GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTGCCCTCGGCAGCCTTGG
C4              GGAGGTTACTCCCACGGCGTCGGCTCTGAGATTGCCCTCGGCAGCTCTGG
C5              GGAGGTTAGTCCAACGGCTTCGGCTTTGAGATTACCATCGGCGGCTCTGG
C6              GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTACCCTCGGCTGCCTTGG
C7              GGAGGTTAGTCCTACGGCTTCGGCTTTGAGATTACCTTCCTCAGCTGTGG
C8              GGAGGTGAGTCCCACGGCTTCGGCATTGCGTTTACCCTCAGCAGCTTTGG
C9              GGAGGTGAGTCCCACGGCCTCGGCCTTAAGATTGCCCTCTGCGGCTCTGG
C10             GGAGGTAAGTCCATCGGCCTCAGCCTTGCGGTTGCCCTCGGCAGCTCTGG
                ****** * *** :**** **.**  *..*  *.** **  * **  ***

C1              AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
C2              AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
C3              AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTCGACGAA
C4              AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTGGGCGAA
C5              AGCACGCGCTGCCCTCCGCCTCGGAGTTGAGAAAACCGACCTTGGACGAG
C6              AGCACGCCCTGCCCTCCGCTTCGGAGTTGAGAAAGCCTACCTTGGATGAA
C7              AGCACGCCCTGCCATCCGCCTCGGAGTTGAGAAAGCCCACTTTGGATGAA
C8              AGCACTCTCTGCCCTCCGCTTCGGAGTTGAGAAAGCCCACTTTGGATGAG
C9              AGCACGCCCTGCCCTCCGCCTCGGAGTTGAGGAAGCCCACCTTGGACGAA
C10             AGCACGCCCTGCCTGCCGCCTCGGAGTTGAGGAAGCCCACCCTGGACGAG
                ***** * *****  **** ********.* .**.** **  * *. **.

C1              CTCTTTGCAGAGGATCTAAACGAAGAGGAGCTAGAAATGGAGCCT---AT
C2              CTCTTTGGAGAGGACCTACACGAAGAGGAGCTAGAAATGGAGCCT---AT
C3              CTCTTTGAAGACGACTTAAACGAAGAGGAGCTGGAAATGGAGGAGCCCAT
C4              CTCTTTGGAGACGACTCAAACGAAGAGCAGCTGGAAATGGAGCCC---CT
C5              CTCTTTGGCGGGGAGTTGAACGAGGAGGAGCTGGAACTAGAGCCACTGCC
C6              CTTTTTGGAGAGGAGATAGACGAGGAGGAGCTGGATCTAGAGCCAATGCC
C7              CTCTTTGGAGAGGAGATAACCGATGAGGAAGTGGTACTCGAACCACTTGA
C8              CTATTCGGGGAGGAGTTGAACGAAGAGGAGCTGGAACTGGAGCCACTGCC
C9              CTCTTTGAAGACGAGATAAACGAAGAGGAGCTGGAACTAGAGGCAGTTCC
C10             CTCTTTGGCGAGGAGATAAACGAAGAGGAACTGGAACTAGAGACAGCGCC
                ** ** *  *. **   . .*** *** *. *.*::.* **. .      

C1              GCCGGTGGCAGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
C2              GCCAGTGGCGGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
C3              GCCGGAGGCGGATGATGTGGAGCCACTGGAAGAGACAACCAAAAAAGATG
C4              GCCGGAGGCGGATGACGTGGAGCCACTGGAGGAGACAACCAAAAAAGATG
C5              GCAGGGGGATGATGATGAGGAG---------GAGACAACTAAGAATTCAG
C6              GGTTAGGGATGATGTTGAGGAGCTTCTCGAAGAGACAACCAAGAAGGCAG
C7              A---------GATGATGATGAGCTACTGGAAGAAACAACCAAGAAGGCAG
C8              CCAAGGA---GATGATGAGGAACTGCTGGACGAGACCACCAAGAAAGCAG
C9              CGAAGGA---GATGATGAAGAGGTACTTGAAGAGACCACCAAGAAGGCAG
C10             CGAGGGG---GACGATGAAGATGTGCCAGAGGAGACCACCAAGAAGTCAG
                          ** *: *: **          **.**.** **.**  .:*

C1              CTGTAACCACAACAATAAACATTCCA---AGAAACACGACCAAGAAACCG
C2              CTGTAACCACAACAATAGACATTCCA---AGAAACACCACAAAGAAACCG
C3              CAGTTACCACAAGAAAAGACATTCCG---AAAAACACCACCAAGAAACCG
C4              CCGTGACCACAACAAAAGACATTCTC---AGAAACACCACCAAGAAACCG
C5              CCACTGCAACTACAAAAGAGATTCAGAGCACGACCACCAAGAAACCCAAG
C6              CCATGGCCACCACAAAAGAGATGCCAAGTTCGACTACCAAGAGACCT---
C7              CAGTAAAAACTACAAAAGAGATTCCAAGCACCACTACAACCAAAAAACCT
C8              CTCCAACCACCACAAAGGAGCCACCACCAAGCAGCACCACCAAGCAAACG
C9              CGCCGACCACTCCAAAAGAGATTCCA---AGCAGTACCACCAAGAAACCG
C10             CCCCAACCACTCCAAAAGAGATCCCA---AGCAGTGCTACCAAGAAGCCG
                *    ...** . **:..* .  *     :  *  .* *. *....    

C1              GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTATA
C2              GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGATATA
C3              GATTCCGCACTCCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTGTA
C4              GATCCCGAACTGCTGGAGGACCTCTTCGGGCCCGATGAAGAGGAGTTATA
C5              GAAACCGAACTGCTGGAAGATCTCTTTGGACCCGATGAAGAGGATATATA
C6              GAATCCGAATTGCTTGAGGATCTCTTTGGGCCCGAAGAAGACGACATTTA
C7              GAACACGAACTCCTAGAGGACCTCTTTGGACCCGACGAAGAGGATATTTA
C8              GAAACGGAACTGTTGGATGACCTCTTCGGACCCGATGAGGAGGACGTCTA
C9              GAATCCGAACTCCTAGAGGACCTCTTCGGTCCCGAGGAAGAGGATATATA
C10             GAACCCGAACTCCTAGAGGACCTCTTCGGACCCGAAGAAGAAGACATTTA
                **: . *.: *  * ** ** ***** ** ***** **.** **  * **

C1              TGCGGATGAGCTGGAACTAGACATGGATGACCGAGTGGCCGCTGCTGCGG
C2              TGCGGATGAGTTGGAACTAGACATGGATGACCGAGTGGCAGCTGCTGCGG
C3              TGCTGAGGAGATGGAACTAGACATGGATGACCGAGTGGCGGCTGCTGCGG
C4              TGCGGATGAGCTGGAGCTAGACATGGATGACCGAATGGCAGCTGCTGCGG
C5              TGCCGATGAGCTGGAACTGGAAATGGATGACCGAGTGGCAGCTGCTGCGG
C6              TGCGGATGAAATGGAACTCGAAATGGATGACCGAGTGGCGGCTGCTGCGG
C7              TGCGGATGAGATGGAACTTGAAATGGACGACCGAGTGGCAGCTGCTGCGG
C8              TGCAGATGAGCTGGAGCTCGAGATGGATGATCGAGTGGCAGCTGCTGCGG
C9              TGCGGATGAGATGGAACTGGAAATGGATGACCGAGTGGCGGCTGCTGCGG
C10             CGCTGACGAGATGGAACTTGAAATGGATGACCGCGTGGCGGCTGCTGCGG
                 ** ** **. ****.** ** ***** ** **..**** **********

C1              AACGGATAGACACCTACTACCTGCCGCCGGATAACCGAAAGATTCCCGAT
C2              AACGGATAGACACTTACTACCTGCCGCCAGATAACCGAAAGATTCCCCAT
C3              AACGGATAGACACCTACTACCTGCCGCCGGACAACCGCAAGATACCCCAT
C4              AACGGATAGACACCTACTACCTGCCGCCGGATAACCGCAAGATTCCCCAT
C5              AGCGGATAGACACCTACTACCTGCCACCGGACAACAGGAAGGTTCCGCAT
C6              AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
C7              AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
C8              AGCGAATCGATACCTACTACTTGCCACCGGATAACCGAAAGATTCCCCAC
C9              AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGCAAGGTTCCCCAT
C10             AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGGAAGGTTCCCCAT
                *.**.** ** ** ****** ****.**.** ***.* ***.*:**  * 

C1              ACCAGGGTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCTGTGGT
C2              ACCAGGCTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCAGTGGT
C3              ACCCAGCTGCCGAGTGGAGCCCTGTACACCTTCGATGGCAAGTCGGTGGT
C4              ACCCGGGTGCCGAGTGGCGCCCTGTACACCTTTGATGGCAAGTCGGTGGT
C5              GCCAGCCTGCCGAGTGGAGCCCTCTACACTTTCGATGGCAAATCGGTGGT
C6              TCCAGCCTGCCGAGTGGAGCGCTCTACACCTTCGACGGCAAGTCGGTGGT
C7              GCCAGTCTACCAAGTGGAGCGCTCTATACCTTCGATGGCAAGTCAGTGGT
C8              GCCAGCTTGCCCAGTGGAGCACTCTACACCTTCGATGGCAAGTCGGTGGT
C9              TCGAGTCTACCAAGTGGAGCCCTCTACACCTTCGATGGCAAGTCCGTGGT
C10             TCGAGTCTGCCGAGTGGAGCGCTTTACACCTTCGATGGCAAGTCGGTGGT
                 * ..  *.** *****.** ** ** ** ** ** *****.** *****

C1              GGACAGTAGCCTAGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
C2              GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
C3              GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCGCCGGAC---AATG
C4              GGACAGTAGCCTGGTGCTGCCGCCCAAATTGAATGCACCGGAC---AATG
C5              GGACAGCAGCCTGGTGCTGCCACCCAAATTGGATGCTGCGGGCAGTGGTG
C6              GGACAGCAGCCTGGTGTTACCACCCAAATTGGATGCCGCGGACCTAGGTG
C7              GGACAGTAGTCTGGTGCTACCACCCAAATTGGATGCCGTAGAC---AATG
C8              GGATAGTAGCTTGGTATTGCCACCCAAATTGGATGCAGTGGAT---AATC
C9              GGACAGTAGCCTGGTGCTGCCACCCAAATTGGATGCGGCCGAG---AGTG
C10             GGACAGCAGCCTGGTGCTGCCGCCCAAATTGGACGCGGGCGAC---AGTG
                *** ** **  *.**. *.**.*********.* **    *.    ..* 

C1              CCAACGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
C2              GCGGCGTCCACCAGCGACATGCCCAATACGGATTGACCCCCTTGGAGCAG
C3              GCGGCGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
C4              GCGGCGTCCACCAGCGACATGCCCAGTATGGATTGACCCCCTTGGAACAG
C5              GTGGAGTCCAGCAGCGACATGCCCAGTATGGACTGACACCCTTGGAGCAG
C6              GTGGC---CACCAGCGACATGCCCAGTACGGTCTAACTCCCTTGGAGCAG
C7              GTGGAGTCCATCAGCGACATGCTCAGTATGGGCTTACACCCTTGGAGCAG
C8              TTGGAATTCAGCAAAGACATTCCCAGTACGGGTTGACTCCTTTGGAGCAG
C9              TAGGAGTCCACCAGCGTCATGCCCAGTATGGGCTTACGCCTTTGGAGCAG
C10             GAGCGGTCCACCAGCGCCATGCGCAGTATGGGCTTACACCGCTGGAGCAG
                  .     ** **..* *** * **.** **  * ** **  ****.***

C1              CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
C2              CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
C3              CTGGTCCGTACCACACCCCAGTTTGGAGTCTATCGAGGAGAGCTGCCACA
C4              CTGGTCCGTACCACACCACAGTTTGGAGTCTACAGAGGGGAGCTGCCACA
C5              CTGGTCCGAACCACTCCGCAATTCGGGATCTTTAGGGGAGAGCTACCACA
C6              CTGGTCCGAACCACACCGCAATTTGGCATCTTCAGGGGAGAGCTGCCACA
C7              CTCGTTCGAACTACCCCTCAATTTGGGGTATTTAGAGGAGAGCTGCCGCA
C8              CTAGTTCGCACCACTCCGCAGTTTGGGATCTTTAGAGGGGAGTTGCCACA
C9              CTCGTACGAACCACTCCGCAGTTTGGAGCTTACAGAGGGGAGTTGCCACA
C10             CTTGTTCGAACCACGCCGCAATTCGGAGCTTACAGGGGAGAGCTGCCACA
                ** ** ** ** ** ** **.** ** .  *: .*.**.*** *.**.**

C1              GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
C2              GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
C3              GGAATTCCGGAGCACAGAACCGCAACCCGTCTCGGAGTATTCCCAT----
C4              GGAATTCCGGGGCACAGAACCGCAACCCGTCTCGGAGTACTCCCAT----
C5              GGAGTTCCGGGGCACAGAGCCCCAACCCGTTTCGGAGTATTCCCAT----
C6              GGAGTTCCGGGGTACAGAGCCCCAACCCGTTTCGGAGTACTCCCAC----
C7              AGAATTCCGAGGAACAGAACCTCAGCCCGTTTCAGAGTATTCCCAT----
C8              AGAGTTCCGAGGCACAGAACCCCAGCCCGTTTCGGAGTACTCCCACACCC
C9              GGAGTTCCGGGGAACTGAGCCCCAACCCGTGTCGGAGTACTCACAT----
C10             GGAGTTCCGCGGCACGGAGCCCCAGCCCGTGTCGGAGTACTCACAT----
                .**.***** .* ** **.** **.***** ** ***** **.**     

C1              --------CCAGCGCCCTTCAGTCGTACCACT---------------CCT
C2              --------CCAGCGCCGTTCAGTCGTACCACT---------------CCT
C3              --------CCAGCGCCCTTCAGCCGAACCACT---------------CCT
C4              --------CCAGCGGCCCTTAGCCGAACCACT---------------CCT
C5              --------CCAGCGCCCTTTAGTCGAACCACCGGAAGCACCACCACTCCC
C6              --------CCAGCTCCATTTAGTCGAACCAGC---------ACCACTCCC
C7              --------CCAGCGCCTTTCAGTCGAACCAGC---------ACAACTCCG
C8              ATTCCAACCCGGCTCCATTCAGTCGAACGACT---------CCGGGATTC
C9              --------CCGGCGCCCTTCATTCGAACAAGC---------ACCACTGCG
C10             --------CCGGCGCCCTTCAGTCGAACCAGC---------ACCACTCCC
                        **.**  *  * *  **:** *                    

C1              GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
C2              GTGTTCTCCAGCAGCAGTGGCAAC---------ACCATCTATCCG---TA
C3              GTGTTCTCGAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
C4              GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTACCCG---CA
C5              GGATTTTCCAGCAGCAGTGGCAGT---GGCAGCACCATCTATCCG---TA
C6              GGATTTTCCAGCAGCAGCAGCAGCAGTGGCAGCACCATATATCCC---TA
C7              ATATTCTCCAGCAGCAGTGGCAGC---------ACCATATATCCG---TA
C8              ACCACATCGAGTAGCAGTGGCAGC---------ACCATCTATCCG---TA
C9              GGATTTTCCACCAGCAGTGGCAAC---------ACAGTCTATCCG---TA
C10             GGATTTTCCACCAGCAGTGGCAAC---------ACCATTTATCCGTCGTA
                .  :  ** *  ***** .***.          **..* ** **     *

C1              TTCCTCGTCGACAGGA---GCATCTACATCCACCGTATCATCATCGGCCT
C2              TTCCTCGTCGACAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
C3              CTCCTCATCGACAGGAGCCGCATCCACATCCACCCTATCATCGTCGTCCT
C4              CTCCTCATCGTCAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
C5              CTCCTCATCGCCGGGC---ACATCCACATCGGCATCCTTCTCGCCATCGT
C6              CTCCTCGTCGCCGAGA---ACATCCACATCCCTATCGACATTGTCATCGT
C7              CTCCACATCGTCAGGA---ACATCCACATCCATATCGTCACTGTCGTCAC
C8              CTCCTCATCCCCGGGA---ACATCCACATCCATATCATCATCATCATCAT
C9              CTCCCCATCGCCAGGA---GCATCCACATCCACATTATCATCATCATCAT
C10             CTCCTCATCGCCAGGA---GCATCAACATCCACAGCCACAGCCACATCAT
                 *** *.**  *..*.   .**** *****   .   : .    *. *  

C1              CATCGCCA------------------------TTGTCCTCATCATCGCTG
C2              CATCGCCA------------------------TTGTCGTCATCATCGCTG
C3              CATCGCCA------------------------TTGTCCTCATCATCGCTG
C4              CATCGCCA------------------------TTGTCCTCATCATCGCTG
C5              CATCGTCCTCATCGCCA---------------TTGTCATTATCATCGCTG
C6              CATCGTCCTCATCGCCA---------------TTGTCCTCATCATCGCTG
C7              CGTCGTCATCGTCCTCATCGCCA---------TTGTCCTCATCCTCGCTG
C8              CGCCA---------------------------TTGTCCTCATCCTCGCTG
C9              CGTCGCCA------------------------TTGTCCTCATCATCGCTG
C10             CAACATCATCATCATCATCATCATCGCCATTCTTGTCCTCATCATCGCTG
                *. *.                           ***** * ***.******

C1              AGACCCATTTCCACTAAGCTACAGCTTCTGAAGCCGGAGGGCCGAAGAGC
C2              AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
C3              AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
C4              AGACCCATTTCCACCAAGCTACAGCTTCTAAAGCCGGAAGGCCGAAGAGC
C5              AGACCCATTTCCACCAAGTTGCAGCTTCTGAGGCCGGAGGGCCGAAGGGC
C6              AGACCCATCTCCACCAAGCTGCAGCTCCTAAAGCCCGAGGGCCGAAGAGC
C7              AGACCCATTTCCACCAAGTTGCAACTTCTGAAACCGGAGGGCAGAAGAGC
C8              AGACCCATTTCCACCAAGTTGCAGCTACTGAAGCCGGAGGGAAGAAGGGC
C9              AGACCCATCTCCACCAAGTTGCAGCTACTGAAGCCAGTGGGCCGAAGGGC
C10             AGACCCATTTCCACCAAGCTGCAGCTACTGAAGCCAGTGGGCCGACGGGC
                ******** ***** *** *.**.** **.*..** *:.**..**.*.**

C1              G-------------------------------------------------
C2              G-------------------------------------------------
C3              G-------------------------------------------------
C4              G-------------------------------------------------
C5              G-------------------------------------------------
C6              G-------------------------------------------------
C7              G-------------------------------------------------
C8              G-------------------------------------------------
C9              G-------------------------------------------------
C10             G-------------------------------------------------
                *                                                 

C1              --------------------
C2              --------------------
C3              --------------------
C4              --------------------
C5              --------------------
C6              --------------------
C7              --------------------
C8              --------------------
C9              --------------------
C10             --------------------
                                    



>C1
ATGTTGGCAATGAAGGATAAGCCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAATTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACTGCACGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGGACCGCCTCC
CTGACCCGCCGTTACAGGAACAAGGACGTCACACTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATCAAATGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTGAATTTCGGTGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGTGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGTCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAATTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
AATTTCGCCAAATAAGAACATTAGCCAGATGATTGGTGCGGATGCAGTGG
TGGCCTGGGTGGATCCCCAGACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGGAAGGCTCAGTGCTCTGGTGGGCGTGGCGCTTGTCCGGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTTAACGCTGCCATGG
TAAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACGGAT
CGCCTGGATCTGCCAATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCATACATTCTACA
ACAAGCATCTGCACCAGATTGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGTGCTCGTGGCAATAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGCTCTACTGGCGGAGCTGGTTATCCGCCAG
CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGTGCG
GAGGCTCTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGTCCAGTGCCCACTCCAAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGACGGAGTGTTC
TATGCCCAGATGGGTCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATTCATGTAGTGCGAGGCAAGACCTATACATTTGTAGTGGAGGGT
GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAAGAGAAAAAGGCCG
TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACGCCC
ACCGGCGTTGGCCGTCTCTGCAACTGGACACCAGATGTGGAAGGTCCACC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCATTGCTTCACACACCGCTATCTGGGATG
GAAGATCCACGTGCACGACTCATGTGACTCGGAAGCG------GGTGGAC
TCAAAGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
AAAGCCACCGTCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCTAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCACAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAGAACGCTCCGCTCTTTCATCCGGTTAAACTGCCCGGCCGCCGACCT
TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCATTTGCATCCGCAT------CCGCAGCAGCATCCCGTTC
TTCTGCAGCAACAACCCTCCCTGATTGTAAGTCACTACAGGAAGCCGATA
CCGGGATTGCTGAAACCCTTCGTCAAGGAGAAACCTTTTCCACTGCAACC
GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
--------GGCCTCAATAACAAGGGAGAACGACTCAAGATAAAGGGTAAA
CCAAAAATTCCAGTACCATATGTGGACCTAGAACCACAGGGGTCTCTGCA
AAATACAGCTATCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
AACCCAAAGCC---TCATCTGTGTCC---------ATCTCAACCACGCCC
ATTCCGCTGGTGAAACGTCCTACAGTAAAGGAACCTTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTTAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAGAGCGGATTTAAACCCATCGTTAGGACCGATGGCACTGGTGTT
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACTAATGCCACAAAAGTGTTGAGGGTTAACGTGAA
GGAGGTTAGTCCCACGGCATCAGCTTTAAGATTGCCGTCGGCAGCCCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
CTCTTTGCAGAGGATCTAAACGAAGAGGAGCTAGAAATGGAGCCT---AT
GCCGGTGGCAGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
CTGTAACCACAACAATAAACATTCCA---AGAAACACGACCAAGAAACCG
GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTATA
TGCGGATGAGCTGGAACTAGACATGGATGACCGAGTGGCCGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGATAACCGAAAGATTCCCGAT
ACCAGGGTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCTGTGGT
GGACAGTAGCCTAGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
CCAACGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
--------CCAGCGCCCTTCAGTCGTACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
TTCCTCGTCGACAGGA---GCATCTACATCCACCGTATCATCATCGGCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACTAAGCTACAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>C2
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGTGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTTATCAAGAAATTCAATTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACAGCGCGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACAGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
GAAAACACTGCGCGACATCAAATGGTTCTCAGTGTGGTGCGATGAGTTTG
CGGTGAATTTCGGCGACGTTTCTATTCCGCCCAACTTGGACTTCCCGAGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATAGTGGACGCCCAAACGCTGCTGGTGCCAAACTTTAGCTACG
ACGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTA
GATTTCGGACACGTTCGCCTACCGGAGGGCCTGAATGTGCCGCCCTCCTT
AAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTTGG
AATTTCGCCGAACAAGAACATCAGCCAGATGATTGGTGCGGATGCAGTGG
TGGCCTGGGTGGATCCACAGACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCTCAGTGCTCAGGTGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGACTACTAAATGCTGCCATGG
TGAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACCGAT
CGCCTGGATCTGCCCATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTTCCAGGAAGTCTCCTTCCATACATTCTACA
ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGTGCTCGTGGCAACAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGTTCTACTGGCGGAGCTGGTTATCCGCCAG
CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGGGCT
GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAAGAGACAGCAATCAT
TACCCAAAGGCGGCCAGTGCCTACTCCGAAGCCAGTTAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGATGGAGTGTTC
TATGCCCAGATGGGCCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
AGGTCACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATCCATGTGGTGCGCGGCAAGACCTATACATTTGTGGTTGAGGGC
GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAAAAGGCCG
TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACCCCA
ACCGGCGTTGGCCGTCTCTGCAATTGGACACCAGATGTGGAAGGTCCCCC
GGCGGACGATTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGTTACCTGGGATG
GAAGATCCACGTGCACGACTCTTGTGACTCGGACGCG------GGCGGAC
TCAAGGGAGCCGCCTCTGAACGCCACGAAATCCGGCTGCCG------GCG
AAAGCCACCGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCAAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAAAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCATTTGCATCCGCAT------CCACAGCAGCATCCCGTTC
TTCTGCAGCAACAGCCCTCCCTGATTGTAAGTCACTATAGGAAGCCGATA
CCGGGATTGCTGAAGCCCTTCGTAAAGGAGAAACCTTTTCCACTCCAACC
GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
--------GGGCTCAATAACAAGGGAGAACGACTCAAGATTAAGGGTAAA
CCAAAGATTCCAGTACCTTATGTGGACCTAGAACCACAAGGGTCTCTGCA
AAATGCGGCCTTCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
AACCCAAGACC---TCCTCTGTGTCCTCCATTCTCATCTCAACTACGCCC
ATTCCGCTGGTGAAACGTCCTACTGTAAAGGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTTAATCAGGGTTTCAAGCCCGACACCGTGA
TTGTGGAGAGCGGATTCAAACCCATCGTTAGAACCGATGGCACTGGTGTC
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACCAATGCTACAAAAGTGTTGAGGGTTAACGTGAA
GGAGGTTAGTCCCACGGCATCGGCTCTAAGACTGCCGTCGGCAGCCCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
CTCTTTGGAGAGGACCTACACGAAGAGGAGCTAGAAATGGAGCCT---AT
GCCAGTGGCGGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
CTGTAACCACAACAATAGACATTCCA---AGAAACACCACAAAGAAACCG
GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGATATA
TGCGGATGAGTTGGAACTAGACATGGATGACCGAGTGGCAGCTGCTGCGG
AACGGATAGACACTTACTACCTGCCGCCAGATAACCGAAAGATTCCCCAT
ACCAGGCTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCAGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAATACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
--------CCAGCGCCGTTCAGTCGTACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAAC---------ACCATCTATCCG---TA
TTCCTCGTCGACAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
CATCGCCA------------------------TTGTCGTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>C3
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGTCAGCTTTGGAGACGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTCCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAGCACTGGGCGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATTAAGTGGTTTTCGGTGTGGTGCGATGAGTTTG
CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGAGAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGGCAGCGGCCC
ACCTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
GCGTCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
GACTTTGGCCACGTTCGCCTGCCGGAGGGCTTGAATGTGCCGCCCTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
AATCTCGCCGAACAAGAACATTAGCCAGATGATTGGCGCGGATGCAGTGG
TGGCCTGGGTGGATCCACAAACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGTGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATACGTCTACTCAATGCCGCCATGG
TGAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCAGCCACGGAT
CGCCTGGATCTGCCCATCTCGATGAAGGAAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAACTGC
CCCTTGCCAGAAGGTGCTCGTGCCGGCAGCAACTCATCGGATGAGGAGGA
CTCTGCTCCCGCGGCCCAGAGCTCCACTGGCGGAGCTGGTTATCCGCCAG
CAGGCAAACCCAACGTAGAACCCGCCGAGGAATTCTACGAGAATCGGGCG
GAGGCACTGCATCGTCAGCCACCGCAGCGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGCCCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCGGCCATTCAGTGCCACGAGCCAGAGGACGGAGTGTTC
TATGCCCAGATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCCATCAC
AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTACTGATCC
CCGAGATCCACGTGGTGCGCGGCAAGACCTATACCTTTGTGGTGGAGGGC
GGAAACAACCCGGACATCCCCGCCAAGTACCACCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGGCCG
TGCGCATCTACGCCGGAGTGCATCGCTCCCGGTCCGGCCAGGTCACGCCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCACC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AATGCGATGCCGGTGAGCCGGGCGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTTACACACCGCTATCTGGGATG
GAAGATCCACGTGCACGACTCCTGTGACTCGGACGCG------GGCGGAC
TGAAGGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
ATGGCCAACGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAAC------
------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCATCGCCATCTCAATCCGCATCCGCATCC
GCATACCCATCCCCATCAGCCACTTTATCCTCTGCCAACCTGAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCCCATCCAT---TATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CATCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAAAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
CGCAGAACGCCCCACTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCACCTGCATCCGCATCCACATCCGCAGCAGCATCCCGTGC
ATCTGCAGCAACAGCCCTCCCTGATTGTTAGTCACTACAGAAAGCCGATA
CCGGGATTGCTAAAGCCCTTCGTCAAGGAGAAACCTTTCCCCCTGCAACC
GCTGGCCGCATCTGTTTTGCTCCTGGGACAGCCCACTGAGCTGGGC----
--------GGACTGAATAACAAAGGAGAGCGACTCAAGGTCAAGGGTAAG
CCCAAAATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
AAATACGGCTTTCTTCAAGCAGGCAGGCGGAAAG------GGGGAGCAGA
AACCCAAAACC---TCCTCCGTCTCC---ATTCCCAGCTCGACCACGACC
ATTCCACTGGTGAAACGTCCTGCTGTAAAGGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGGCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAAAGCGGATTCAGACCCATCGTTAGAACCGATGGCACAGGCGTC
CAATTGCCCAAGGAGATCATCGACCAGGTGGCCCATCGACGCGAGGACCC
TGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTCCTGACAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGCACCAATGCCACGAAAGTGTTGAGGGTCAACGTGAA
GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTGCCCTCGGCAGCCTTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTCGACGAA
CTCTTTGAAGACGACTTAAACGAAGAGGAGCTGGAAATGGAGGAGCCCAT
GCCGGAGGCGGATGATGTGGAGCCACTGGAAGAGACAACCAAAAAAGATG
CAGTTACCACAAGAAAAGACATTCCG---AAAAACACCACCAAGAAACCG
GATTCCGCACTCCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTGTA
TGCTGAGGAGATGGAACTAGACATGGATGACCGAGTGGCGGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGACAACCGCAAGATACCCCAT
ACCCAGCTGCCGAGTGGAGCCCTGTACACCTTCGATGGCAAGTCGGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCGCCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCCCAGTTTGGAGTCTATCGAGGAGAGCTGCCACA
GGAATTCCGGAGCACAGAACCGCAACCCGTCTCGGAGTATTCCCAT----
--------CCAGCGCCCTTCAGCCGAACCACT---------------CCT
GTGTTCTCGAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
CTCCTCATCGACAGGAGCCGCATCCACATCCACCCTATCATCGTCGTCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>C4
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGTCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGACTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTACGTGGGCAATACTGCGCGGCCCA
GCAATGAAGGCGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAACGCTCTGCGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCTAAATTCTGGGTGGGTCGAGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
CCATCTTCGACATTGGCCACTTCGGCGTTTGGTGCGAGGCCTTCACCGTC
GATTTCGGCCACGTTCGCCTGCCCGAGGGCCTCAATGTGCCGCCTTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCTTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTCGG
AATCTCGCCGAACAAGAACATCAGCCAGATGATTGGCGCGGATGCAGTGG
TGGCCTGGGTGGATCCGAAGTCCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGCGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTAAACGCCGCCATGG
TGAATGGCTACTCGATTGTGACCTACCAGAGATCCCTAGCAGCCACGGAT
CGCCTGGATCTGCCCATCTCGATAACGGAAGCCGAGTCAGTGGTGTGGGC
CATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
ATAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGC
CCCTTGCCAGAGGGTGCTCGTGCCGGCAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGTTCCACTGGCGGAGCTGGCTACCCGCCAG
CGGGCAGACCCAACGTAGAGCCCGATGAGGAATTCTACGATAACCGGGCG
GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGCCCTGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGCCACGAGCCAGAGGATGGAGTGTTC
TATGCCCAGATGGGTCCCACTGGAGGCAAACACGGCTATCCAGCCATCAC
AGGACACGTCGGTTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATCCATGTGGTGCGCGGCAAGACGTACACATTTGTGGTGGAGGGC
GGAAACAATCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAAAAGGCCG
TGCGCATCTACGCCGGGGTGCATCGCTCCCGGTCCGGTCAGGTCACGCCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCTCC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGCTACCTGGGATG
GAAGATCCACGTGCACGACTCCTGTGACTCGGAGGCG------GGCGGCC
TTAAGGGATCCCCCTCCGAACGCCACGAAATCCGGCTGCCG------CCG
ATGGCCAGCGCCGCGGAACCGGCGCCTGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAACCAGAAC
CCGATTCCGAATCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CATG
CCCACACGCTGAACGCATCTCCATCTCCATCTCAATCCGCATCCGCACCC
GCATACCCATCCCCATCTGCCACTTTACCCACTGCCAACCTAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---TATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCACC------
CACCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAGAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCACCTGCATCCGCAT------CCGCAGCAGCATCCCGTCC
ATCTGCAGCAACAACCCTCCCTGATTGTTAGCCACTACAGAAAACCGATA
CCGGGATTGCTGAAGCCCTTCATCAAGGAGAAACCTTTTCCCCTGCAGCC
GCTGGCCGCGTCTGTCTTACTCCTGGGGCAGCCCACTGAGCTTGGA----
--------GGGCTGAATAGCAAGGGGGACCGACTCAAGGTGAAGGGCAAG
CCCAAGATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
AAACACGGCTTTCTTTAAGCAGCCAGGCGGAAAG------GGGGACCAGA
AACCCAAGAGC---ACCTCTATCTCC---ATTCCCAGCTCCACCACGACG
GTTCCGCTGGTGAAACGTCCCACTGTAAAGGAACCGTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAGAGCGGATTCAGACCCATCGTTAGAACCGATGGCACTGGGGTC
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGCGAGGATCC
CGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTTCTGACAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACCAACGCCACGAAAGTGTTGAGGGTG------AA
GGAGGTTACTCCCACGGCGTCGGCTCTGAGATTGCCCTCGGCAGCTCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTGGGCGAA
CTCTTTGGAGACGACTCAAACGAAGAGCAGCTGGAAATGGAGCCC---CT
GCCGGAGGCGGATGACGTGGAGCCACTGGAGGAGACAACCAAAAAAGATG
CCGTGACCACAACAAAAGACATTCTC---AGAAACACCACCAAGAAACCG
GATCCCGAACTGCTGGAGGACCTCTTCGGGCCCGATGAAGAGGAGTTATA
TGCGGATGAGCTGGAGCTAGACATGGATGACCGAATGGCAGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGATAACCGCAAGATTCCCCAT
ACCCGGGTGCCGAGTGGCGCCCTGTACACCTTTGATGGCAAGTCGGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGAATGCACCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAGTATGGATTGACCCCCTTGGAACAG
CTGGTCCGTACCACACCACAGTTTGGAGTCTACAGAGGGGAGCTGCCACA
GGAATTCCGGGGCACAGAACCGCAACCCGTCTCGGAGTACTCCCAT----
--------CCAGCGGCCCTTAGCCGAACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTACCCG---CA
CTCCTCATCGTCAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTACAGCTTCTAAAGCCGGAAGGCCGAAGAGC
G-------------------------------------------------
--------------------
>C5
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGCAGATGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCATCACGGCGTCTCCGGCGAT
GTGTACGCCGTGGATTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
GCAACGAGGGGGCCGCCCGGTTGAGGGACGAGAGGGGCGGAACTGCCTCC
CTCACCCGCCGTTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAGACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTCAACTTCGGCGACGTCTCCATTCCGGCCAACTTGGACTTCCCGAGG
CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAATTTCAGCTACG
ACGGCGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGTCCC
ACTTCCGAGGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGATCTGA
CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
GATTTCGGCCATGTGCGCCTGCCCGAGGGCCTAAATGTGCCGCCCTCGCT
GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTAGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
AATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGCGCAGATGCGGTGG
TCGCCTGGGTGGATCCCCAAACCGGAAACGGATTCGCCACGGACTACTTC
CTGGAGGGCAAGGCCCAGTGCTCCGGTGGACGTGGCGCCTGTCCGGACAC
CAAGATCCAAGAGAAGACCAACTCCATTCGTCTGCTGAATGCCGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAAAGATCTCTGGCTGCCACCGAT
CGTCTGGATCTGCCCATCTCGATAACGGAAGCGGAATCTGTGGTCTGGGC
AATTGGACCACTGAACGACTATCGCGAGGTCTCCTTCCACACGTTTTACA
ATAAGCACCTGCACAACATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCCTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
TTCCGCTCCGGCTGCCCAGAGTTCAACCGGCGGAGCTGGTTACCCGCCAG
CCGGAAGGCCCAATGTGGAGCCCGAAGAGGAGTTCTATGAGAATCGGGCG
GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGCCAGGAAACGGCCATCAT
CACCCAGCGACGTCCAGTGCCCACTCCAAAGCCGGTCAATAGCAATGGTG
CCTGGGACATACCGGCCATTCAGTGCCACGAACCGGAGGACGGAGTTTTC
TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGATATCCGGCCATTAC
AGGCCACGTTGGCTGGGGAATTTCTTGGTACATCAACGGACTTCTGATTC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACGCCC
ACTGGGGTGGGCCGCCTCTGCAACTGGACGCCGGACGTGGAGGGACCTCC
GGCGGACGACTACCAGTCATTCGGAGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAACCGGGCGTCATCAGCTGGAAGCCGGACAGGAGT
ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATTTGGGATG
GAAGATCCACGTGCACGATGCCTGCGACTCGGAGGCG------GGCGGCT
TGAAGGGATCCGCCTCCGAACGCCACGAAATCCGCCTGCCAGCGGCTGCA
GAGGCAACATCCGCGGAACCGGCTCCCGTGCACGAGGACTACGCCGGCGA
GGCGTCCGTGAGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCTTAAAGAGGA
AC---CCCAATCTGAAT---------------CCGAACCTGAAC------
------CTGAACCTGAACCCCAATCAACATCCCAACCAGTACCCG---AA
AGCGAACGTGACCCCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCCGAATGCATCGCCATCCGCATCCGCATCA------------GCATCC
GCATTCCCATCCCCATCTGCATCTCCATCCCCCGCCACGCTGAAGCTACC
GATCTTCGCTAGCGGT------------CCCCATCTCATCCACCATCCCC
CGCACCCCTTGCATCGTCTGCACCACCATCCGCAGCATGCCCCCCACTCG
CATCCGCATCCGCATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTTGCCCAGAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
CGCAGAACGCACCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGACCC
TTTCCCGCTCCCATCAAGAAGGTTCCGGCCTCGCGACCCGTGCTTCCGCA
GCAACATCCGCACCTGCATCCG---------------CAGCATCCCGTCC
TGCTGCAACAGCAACCCTCGCTGATTGTGAGCCACTACAGGAAGCCGGTG
CCGGGTCTGCTGAAACCCTTTGTCAAGGAGAAACCCTTTCCGCTGCAACC
GCTGGCCGCTTCTGTTTTGCTCCTAGGACAACCCACTGAGCTGGGCGGCG
GACTGGGTGGGCTGACCGCCAAGGGAGAACGGCTCAAGGTCAAGGGTAAA
CCCAAAATTCCAGTGCCCTATGTTGACCTCGAACCGCAGGGCTCTCTGCA
GAACACTGCTTTCTTCAATCAACCGGGCGGAAAGGGGGATCCCAAGCCCG
TAGCACCCAGT---TCAAGTTCCAGTTCCATGAGCAGCTCAACCACGACC
ACGCCGCTGGTCAAACGTCCTGCGGTGAAGGAACCCTCTCAAGAAGAAAT
CGCCAGCATGCGACCTGCCGTCAATCAGGGCTTCAAGCCAGACACCGTGA
TTGTGGAGAGCGGTTTTCGACCCATCATGCGAACCGATGGAACGGGCGTG
CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAATCGTCGCGAGGATCC
TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACCG
CCCAGCAAGGCGGCAGTGAAACCCAAAGCTTTGAGCCCATGTTTATACCA
TCTCCGTTGGACAGCACCAATGCTTCGAAGGTTTTAAGGGTGAATGTGAA
GGAGGTTAGTCCAACGGCTTCGGCTTTGAGATTACCATCGGCGGCTCTGG
AGCACGCGCTGCCCTCCGCCTCGGAGTTGAGAAAACCGACCTTGGACGAG
CTCTTTGGCGGGGAGTTGAACGAGGAGGAGCTGGAACTAGAGCCACTGCC
GCAGGGGGATGATGATGAGGAG---------GAGACAACTAAGAATTCAG
CCACTGCAACTACAAAAGAGATTCAGAGCACGACCACCAAGAAACCCAAG
GAAACCGAACTGCTGGAAGATCTCTTTGGACCCGATGAAGAGGATATATA
TGCCGATGAGCTGGAACTGGAAATGGATGACCGAGTGGCAGCTGCTGCGG
AGCGGATAGACACCTACTACCTGCCACCGGACAACAGGAAGGTTCCGCAT
GCCAGCCTGCCGAGTGGAGCCCTCTACACTTTCGATGGCAAATCGGTGGT
GGACAGCAGCCTGGTGCTGCCACCCAAATTGGATGCTGCGGGCAGTGGTG
GTGGAGTCCAGCAGCGACATGCCCAGTATGGACTGACACCCTTGGAGCAG
CTGGTCCGAACCACTCCGCAATTCGGGATCTTTAGGGGAGAGCTACCACA
GGAGTTCCGGGGCACAGAGCCCCAACCCGTTTCGGAGTATTCCCAT----
--------CCAGCGCCCTTTAGTCGAACCACCGGAAGCACCACCACTCCC
GGATTTTCCAGCAGCAGTGGCAGT---GGCAGCACCATCTATCCG---TA
CTCCTCATCGCCGGGC---ACATCCACATCGGCATCCTTCTCGCCATCGT
CATCGTCCTCATCGCCA---------------TTGTCATTATCATCGCTG
AGACCCATTTCCACCAAGTTGCAGCTTCTGAGGCCGGAGGGCCGAAGGGC
G-------------------------------------------------
--------------------
>C6
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCCATTTGGCCTATTGGC
CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGCGTCTCCGGCGAC
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGAAGCCCA
GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CCGTGAACTTCGGCGACGTCTCCATTCCGGCCAACCTGGACTTCCCGAGG
CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGAGTGTCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
ACGGGGAGGCTCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGAGGGCCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
GACTTCGGCCATGTCCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCGCT
GAAGATGCTCGGCATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTTT
ACGACGATCTGGCTTTCGAGGTGCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAATAACTATATGTCCTTTGG
AATCTCGCCGAGCAAGAACATGTCCCAGATGATCGGCGCAGATGCAGTCG
TGTCCTGGGTGGACCCTCAAACCGGAAACGGATTCGCCATTGACTACTAC
CTGGAGGGCAAGGCGCAGTGCTCCGGTGGGCGCGGCGCCTGTCCGGACAC
CAAGATCTCCGAGAAGACCAACTCCATCCGGCTGCTGAATGCCGCCATGG
TGAACGGCTACTCGATTGTGACCTACCAGAGATCTCTGGCTGCCACGGAT
CGTCTGGATCTGCCTATCTCAATTACGGAGCCAGAATCGGTGGTCTGGGC
AATTGGACCACTGAACGATTACCACGAGGTCTCCTTCCACACGTTCTACA
ACAAGCACGTCCATCAGATCGAGTTCGGCCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
CTCTGCTCCTGCTGCTCAGAGTTCAACTGGCGGAGCTGGTTACCCACCGG
CGGGAAGGCCCAATGTGGAGCCCGAAGAGGAATTCTATGAGAATCGGGCG
GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGACAGGAAACGGCCATCAT
CACCCAGAGGCGTCCAGTGCCCACCCCAAAGCCAGTGAATAGCAATGGTG
CATGGGACATCCCTGCTATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCTATCAC
AGGACACGTTGGCTGGGGAATTTCGTGGTACATCAACGGACTCCTGATTC
CCGAGATCCATGTAGTTCGCGGCAGGACGTACACCTTTGTGGTGGAGGGC
GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACACCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACGCCAGATGTGGAAGGTCCTCC
TGCGGACGACTACCAATCCTTTGGAGCCTATCAGCGCACTTTGACCCTCA
AGTGCGACGCCGGAGAGCCCGGCGTCATTAGCTGGAAGCCGGATAGAAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATCTGGGATG
GAAAATCCACGTGCATGATGCCTGCGACACGGAAGCC------GGTGGAC
TCAAGGGATCCGCGTCGGAGCGCCACGAAATCCGGCTGCCG------GCG
GAGGCCAACCCCGCGGAAGCGGCTCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CAGAACCTGAACCATCCCAACAACCACCCCAACCAGTAC------
------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAACTCGCGCCCCGAGATTCTGCTGGGCGAGACCCAAGCC---CACA
AGCCGAATGCATCTCCAACCGCATCCGCACCA------------CCATCC
GCATTCCCATCCCCATCTGCATCGCCATCCCCAGCCACACTGAAGCTACC
CATCTTCGCCAGTGGT------------CCCCATCTCATCCACCACCCCC
CACACTCCCTGCATCGCCTGCACCACCATCCGCAGCATGCCCCCCACTCA
GCTCCG------CATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTCCTGCGTCCGC
CGCAGAATGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGACCC
TTCCCAGCACCCATCAAGAAGGTTCCGGCCTCGAGGCCCGTGCTTCCGCA
GCAACATCCGCACCTGCATCCGCAT---------CCGCAGCATCCTGTCA
TGCTGCAACAGCAGCCCTCCTTGATTGTGAGCCACTACAGGAAGCCGGTG
CCGGGTCTGCTCAAGCCTTTCGTCAAAGAGAAACCCTTTCCTCTGCAACC
GCTGGCTGCTTCTGTTCTGCTCCTGGGACAACCCACGGAACTGGGCGGGG
GACTGGGCGGACTAGGCGCCAAGGGAGAACGACTCAAGGTCAAGGGTAAA
CCCAAAATTCCAGTGCCCTATGTCGACCTAGAACCGCAGAGCTCTCTGCA
AAACACAGCCTTCTTTAATCAGCCAGGTGGAAAGGGTGATCCGAAGCCCA
TTTCCCCC------ACATCCAGCTCCGTAACCAGCTCAACCACAACTACG
ACTCCGCTGGTGAAACGGCCGCCGGTGAAGGAACCCTCTCTGGAGGAGAT
CGCCAGCATGCGTCCTGCGGTAAATCAGGGCTTCAAGCCCGACACTGTGA
TCGTGGAGAGCGGATTCCGACCCATCATGAGAACCGATGGCACTGGGGTG
CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAACCGTCGCGAGGATCC
TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTGTTCCTGACCG
CTCAACAGGGTGGCAGTGAGACCCAAAGCTTTGAGCCCATGTTTATACCA
TCTCCCTTGGACAGTACCAACGCTACTAAGGTTTTAAGGGTTAATGTGAA
GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTACCCTCGGCTGCCTTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTGAGAAAGCCTACCTTGGATGAA
CTTTTTGGAGAGGAGATAGACGAGGAGGAGCTGGATCTAGAGCCAATGCC
GGTTAGGGATGATGTTGAGGAGCTTCTCGAAGAGACAACCAAGAAGGCAG
CCATGGCCACCACAAAAGAGATGCCAAGTTCGACTACCAAGAGACCT---
GAATCCGAATTGCTTGAGGATCTCTTTGGGCCCGAAGAAGACGACATTTA
TGCGGATGAAATGGAACTCGAAATGGATGACCGAGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
TCCAGCCTGCCGAGTGGAGCGCTCTACACCTTCGACGGCAAGTCGGTGGT
GGACAGCAGCCTGGTGTTACCACCCAAATTGGATGCCGCGGACCTAGGTG
GTGGC---CACCAGCGACATGCCCAGTACGGTCTAACTCCCTTGGAGCAG
CTGGTCCGAACCACACCGCAATTTGGCATCTTCAGGGGAGAGCTGCCACA
GGAGTTCCGGGGTACAGAGCCCCAACCCGTTTCGGAGTACTCCCAC----
--------CCAGCTCCATTTAGTCGAACCAGC---------ACCACTCCC
GGATTTTCCAGCAGCAGCAGCAGCAGTGGCAGCACCATATATCCC---TA
CTCCTCGTCGCCGAGA---ACATCCACATCCCTATCGACATTGTCATCGT
CATCGTCCTCATCGCCA---------------TTGTCCTCATCATCGCTG
AGACCCATCTCCACCAAGCTGCAGCTCCTAAAGCCCGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>C7
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTTGTTGACTTTGGAGATGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTAACCCGCCTCCATCACGGTGTCTCCGGGGAT
GTGTACGCCGTGGACTCACGCACCATTTTCATCAAGAAATTCAACTACGA
TGGTGAGGCGCCGGCGGCCTACTTCTATGTAGGAAACACGGCGCGGCCTA
GTAATGAGGGAGCCGCTCGACTGAGGGATGAGCGCGGTGGAACTGCTTCC
CTGACACGTCGCTATCGGAACAAAGATGTAACTCTGTCCCTGCCTGAGGG
CAAAACGTTGCGCGACATCAAATGGTTCTCGGTTTGGTGCGATGAGTTTG
CGGTGAACTTTGGTGATGTCTCCATCCCAGCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGTGCTCTTAGGGGTGTCCATGGCGTCTCCTCTGACAA
CATTGTCATCGTGGACGCTCAGACGCTGCTGGTCCCCAACTTCAGCTACG
ACGGCGAAGCGCCAGATGCCAAATTCTGGGTTGGTCGCGGCCAGAGGCCC
ACTTCTGAGGGTCTGAGGATTCCGGACGAGAATGGCAAAGAGAACCCGCT
GCGTCGCTACGAACGCAAGACCATTGTGCTGACCCTGCCAGAGGATTTGA
CCATCTTTGATATCGGTCACTTTGGCGTTTGGTGTGAGGCCTTCACTGTG
GACTTCGGACATGTTCGCCTGCCGGACGGACTCAATGTACCGCCCTCGCT
GAAGATGCTGGGAATCAGCCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGATGATCTGGCATTCGAGGTGCGCTGGGCAGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAACAATTACATGTCCTTTGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGTGCAGATGCTGTGG
TGGCCTGGGTTGATCCTCAAACCGGAAATGGTTTCGCCACCGATTACTTC
CTGGAGGGCAAGGCCCAATGTTCAGGTGGACGCGGTGCCTGCCCAGACAC
TAAGATCTCTGAGAAGACCAATTCCATTCGTCTGCTAAATGCCGCCATGG
TGAATGGCTATTCCATTGTGACCTACCAAAGATCTCTGGCAGCCACGGAT
CGTCTGGATCTGCCCATCTCGATTACGGAAGCGGAATCTGTGGTCTGGGC
TATTGGACCACTGAATGATTACCGAGAGGTCTCCTTCCACACGTTCTACA
ATAAGCATCTGCACCAGATCGAGTTCGGTCGTCAGCCCAAGTGGAATTGT
CCTCTGCCTGAGGGAGCTCGC---------AACTCCTCTGAACAGGAGGA
CTCGGCTCCAGCTGCACAGAGCTCAACTGGAGGAGCTGGTTATCCACCAG
CAGGAAGACCCAATGTTGAGCCCGACGAGGAGTTCTACGAGAATAGGGCG
GAGGCCTTGCATCGCCAGCCACCGCAGAGGCGCCAGGAAACGGCCATCAT
CACCCAAAGACGTCCAGTGCCCACACCAAAGCCAGTCAACAGTAACGGCG
CCTGGGACATCCCGGCCATCCAGTGTCACGAACCTGAGGATGGAGTTTTC
TATGCTCAGATGGGACCCACGGGAGGAAAGCACGGATATCCAGCAATCAC
AGGACACGTCGGCTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CTGAAATTCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCCGACATTCCGGCCAAGTACCATCCATTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGTCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGGTCTGGCCAAGTCACGCCC
ACCGGCGTTGGCCGCCTCTGTAACTGGACGCCAGACGTGGAGGGTCCTCC
GGCGGACGACTACCAATCGTTCGGAGCCTATCAGCGCACTTTAACCCTGA
AGTGCGATGCTGGAGAGCCGGGAGTGATAAGCTGGAAGCCAGACAGGAAC
ACACCGGACACAGTCTACTATCACTGCTTCACACATCGCTATCTGGGATG
GAAGATCCACGTACATGACGCCTGTGACTCGGAAGCG------GGCGGAC
TCAAGGGAGCCGCCTCGGATCGCCACGAGATCCGGCTGCCG------GTG
GAAGGAACCGGAGCGGAACCGGCACCCGTGCACGAGGAGTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACTGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTAATGAAGA
AC---CCGAATCTGAACCCT---CTGAACCATCCCAACCAGAAC------
------CCGATTCCGTATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCTGAATACATCTCCATCCGTATTCCCA---------------------
---------TCCCCATCTGCCTCACCATCCCCCGCCAATCTTAAGCTGCC
CATTTACGCGGCTGTT------------CCCCATCTCATCCAC---CATC
CCCCGCACTTGCATCGCCTGCACCAACATCCGCAGCATGCCCTG------
CATCCG------CATGTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTTTGCGTCCGC
CGCAGAACGCTCCGCTCTTCCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCTGCTCCGATCAAGAAAGTGCCGGCCTCCAGGCCCATACTACCGCA
GCAACATCCCCACCTGCATCCGCAT------CCACAGCAGCTGCCCGTCT
TACTGCAGCAGCAGCCCTCCTTGATTGTGAGTCACTACAGGAAGCCAGTG
CCGGGATTGCTGAAGCCTTTCGTCAAGGAAAAACCCTTCCCACTGCAACC
GCTTGCTGCCTCTGTCCTACTCCTGGGGCAACCCACTGAATTGGGCGGAG
GACTTGGTGGGCTGAACCAGAAAGGAGAGCGACTGAAGGTCAAGGGTAAA
CCTAAAATTCCAGTACCCTATGTAGACTTGGAACCGCAGGGCTCTCTACA
AAACACGGCCTTCTTTAATAAACCAGGCGGAAAGGTTGAACAGAAACCGA
TTGTTACTCCTCCTACTGGTGCTAGTTCTGTTAGCAGCACAACCACGACC
ACGCCGTTGGTTAAACGCCCTCCTGTCAAGGAACCATCCCAAGAAGAAAT
CGCCAGCATGCGACCTGCTGTGAATCAGGGTTTTAAGCCCGATACCGTGA
TCGTGGAGAGCGGCTTCCGACCCATCATGAGAACTGATGGCAGTGGTGTC
CAATTGCCCAAGGAGATCATAGACCAGGTGGCCCATCGCCGAGAAGATCC
TGGCACTGAAATCGACGAGGTAATGGAAACGGATACGCTATTTCTGACAG
CTCAGCAGGGTGGCAGTGAAACCCAGAGCTTTGAGCCCATGTTTATACCA
TCTCCTTTGGATAGTACCAATGCCTCGAAGGTTCTAAGGGTAAATGTAAA
GGAGGTTAGTCCTACGGCTTCGGCTTTGAGATTACCTTCCTCAGCTGTGG
AGCACGCCCTGCCATCCGCCTCGGAGTTGAGAAAGCCCACTTTGGATGAA
CTCTTTGGAGAGGAGATAACCGATGAGGAAGTGGTACTCGAACCACTTGA
A---------GATGATGATGAGCTACTGGAAGAAACAACCAAGAAGGCAG
CAGTAAAAACTACAAAAGAGATTCCAAGCACCACTACAACCAAAAAACCT
GAACACGAACTCCTAGAGGACCTCTTTGGACCCGACGAAGAGGATATTTA
TGCGGATGAGATGGAACTTGAAATGGACGACCGAGTGGCAGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
GCCAGTCTACCAAGTGGAGCGCTCTATACCTTCGATGGCAAGTCAGTGGT
GGACAGTAGTCTGGTGCTACCACCCAAATTGGATGCCGTAGAC---AATG
GTGGAGTCCATCAGCGACATGCTCAGTATGGGCTTACACCCTTGGAGCAG
CTCGTTCGAACTACCCCTCAATTTGGGGTATTTAGAGGAGAGCTGCCGCA
AGAATTCCGAGGAACAGAACCTCAGCCCGTTTCAGAGTATTCCCAT----
--------CCAGCGCCTTTCAGTCGAACCAGC---------ACAACTCCG
ATATTCTCCAGCAGCAGTGGCAGC---------ACCATATATCCG---TA
CTCCACATCGTCAGGA---ACATCCACATCCATATCGTCACTGTCGTCAC
CGTCGTCATCGTCCTCATCGCCA---------TTGTCCTCATCCTCGCTG
AGACCCATTTCCACCAAGTTGCAACTTCTGAAACCGGAGGGCAGAAGAGC
G-------------------------------------------------
--------------------
>C8
ATGCTGGCAATGAAGGATAAACCTTGGCTGATGCTATTTGGCCTATTGGC
CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCCGCCTACCCATATTACG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGAGTCTCCGGGGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
TGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGCAACACGGCGAAGCCGA
GCAACGAAGGAGCCGCTCGTCTGAGGGACGAAAAGGGCGGAACCGCCTCC
CTGACCCGTCGCTACAGGAACAAGGACGTAACCCTTTCGCTGCCAGAGGG
AAAAACCCTGCGCGACATCAAGTGGTTCTCCGTGTGGTGCGATGAGTTCG
CGGTGAACTTCGGAGATGTCTCCATTCCGGCCAACTTGGACTTCCCTCGG
CCGCAGAAGATCAACGCTTTGAGGGGCGTTCATGGCGTTTCCTCCGACAA
TATTGTGATCGTGGACGCCCAGACTCTGCTGGTTCCAAACTTCAGTTACG
ATGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGCAGAGGACAGAGGCCC
ACCTCGGAGGGTCTGAGGATTCCCGATGAGAACGGCAAGGAGAATCCCCT
CCGTCGCTACGAGAGAAAAACTATCGTTTTGACTTTGCCGGAGGATCTGA
CCATCTTCGATATTGGCCACTTTGGCGTGTGGTGCGAGGCCTTCACCGTG
GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTCCCTCCCTCGCT
GAAAATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAATTGGTGGCCAAGTTGGAACCCAACAACTACATGTCCTTCGG
AATCTCCCCGAACAAGAATATCAGCCAGATGATTGGTGCGGATGCAGTGG
TTGCCTGGGTGGATCCCCAAACCGGAAATGGATTCGCCACCGATTACTTC
CTCGAAGGCAAGGCGCAGTGCTCCGGTGGGCGTGGCGCCTGTCCCGATAC
CAAGATCTCCGAGAAGACAAACTCCATCCGGCTGCTAAACGCTGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAGAGATCCCTGGCTGCCACGGAT
CGATTGGATCTTCCAATCTCGATTACGGATGCGGAATCTGTGGTCTGGGC
AATTGGACCACTGAATGACTACCGCGAGGTCTCCTTCCACACCTTCTACA
ACAAACACTTGCACCAGATTGAATTTGGCCGTCAGCCCAAGTGGAATTGT
CCTCTGCCGGAAGGAGCTCGTCCTGGCAGCAACTCCTCCGAACAGGAGGA
CTCCGCCCCCGCAGCCCAGAGTTCAACGGGAGGAGCAGGCTATCCCCCAG
CAGGAAGACCCAATGTGGAGCCCGATGAGGAGTTCTACGAGAACCGGGCG
GAGGCACTGCATCGCCAGCCGCCTCAGAGGCGCCAGGAAACCGCCATCAT
CACCCAACGGCGACCTGTTCCCACTCCGAAGCCAGTGAACAGCAATGGAG
CCTGGGACATCCCCGCCATCCAGTGCCACGAGCCGGAAGATGGAGTCTTC
TACGCCCAGATGGGTCCCACGGGTGGAAAGCATGGCTATCCAGCAATCAC
AGGTCATGTTGGCTGGGGAATTTCCTGGTACATCAACGGACTCCTGATCC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTCGTAGTGGAGGGT
GGTAACAACCCAGACATCCCAGCCAAGTACCATCCGTTCTACATCAGTGA
TGATCCTGTGGGAGGATACGAACACAAACGCGAAGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGCTCCGGCCAGGTGACCCCC
ACCGGCGTGGGCCGCCTGTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGATGCCGGTGAGCCGGGCGTGATCAGTTGGAAGCCGGACAGGAGC
ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTTGGATG
GAAGATCCACGTCCACGACGAATGCGATTCGGAGGCGAGTGGCGGCGGAC
TGAAGGGAGCCGCCTCCGATCGCCACGAGATCCGACTGCCG------GCG
GAGGCAGCG------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTGCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
ACCTACCGAATCCGAATCCG---AATCTGAAACCCCATCCCAAC------
------CAGAACCCGAATCCGCACCAGAAACCGAACGTCATCCCGAACGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCACGCCACCCACA
AGCTGAACGCATCTCCATCCGCCATCCCCCCATCC---------GCATCC
GCATCCGCCTCAGCATCCGCATCCGCATCCCCTGGCAATCAAAAGCTGCC
CATTTATGCAGCTGGT------------CCCCACATCATCCATCCCCATC
CCCCGCACTTGCATCGCCTGCACCACCATCCGCAGCATGCCGCGAATATT
CATCCG------CATCCGCACTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCACAGAAAACCATTGGACTCTCCGAGTTCCTGCGTCCGC
CGCAGAATGCTCCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGTCCC
TTCCCGGCTCCCATCAAGAAAGTCCCCGCCTCGCGGCCTGTGCTTCCGCA
GCAACATCCGCACCTGCATCCGCAA---------CAG---CATCCGGTTC
TGTTGCAACAA---CCTTCCTTGATTGTGAGTCACTACAGGAAACCGGTT
CCGGGATTGCTGAAACCCTTCATCAAGGAGAAACCCTTCCCGCTGCAACC
GCTGGCTGCCTCCGTTTTGCTCCTCGGGCAACCCACTGAATTGGGTGGCG
TCTTGGGG---CCAATCAGCAAAGGTGAACGACTGAAGGTCAAGGGCAAG
CCCAAAATTCCAGTTCCCTATATCGATTTGGAACCCCAAAGTTCACTGCA
AAACACAGCCCTATTCAATCAACCTGCG---AAGGTGGAACCAAAGCCTG
TGGTGACTCCG------CCAACCATCTCCACTTCCAGTTCAACCACAAGT
ATTCCCCTCGTGAAACGTCTAAATGTTAAGGAACCTTCTCTTGAAGAAAT
CGCCGCCATGAGACCTGCTGTGAATCAAGGCTTTAAACCGGACACCGTGA
TCGTGGAGAGCGGTTTTCGACCCATCATGAGAACCGACGGCACGGGTGTC
CAACTGCCAAAGGAAATCATTGACCAAGTGGCTCATCGAAGAGAGGATCC
TGGCACCGAGATCGATGAGGTGATGGAAACGGATACTCTATTTTTGACTG
CCCAACAGGGAGGCACTGAAACCCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCTTTGGACAGTACCAATGCCTCGAAGATTCTTAAGGTTAAGATAAA
GGAGGTGAGTCCCACGGCTTCGGCATTGCGTTTACCCTCAGCAGCTTTGG
AGCACTCTCTGCCCTCCGCTTCGGAGTTGAGAAAGCCCACTTTGGATGAG
CTATTCGGGGAGGAGTTGAACGAAGAGGAGCTGGAACTGGAGCCACTGCC
CCAAGGA---GATGATGAGGAACTGCTGGACGAGACCACCAAGAAAGCAG
CTCCAACCACCACAAAGGAGCCACCACCAAGCAGCACCACCAAGCAAACG
GAAACGGAACTGTTGGATGACCTCTTCGGACCCGATGAGGAGGACGTCTA
TGCAGATGAGCTGGAGCTCGAGATGGATGATCGAGTGGCAGCTGCTGCGG
AGCGAATCGATACCTACTACTTGCCACCGGATAACCGAAAGATTCCCCAC
GCCAGCTTGCCCAGTGGAGCACTCTACACCTTCGATGGCAAGTCGGTGGT
GGATAGTAGCTTGGTATTGCCACCCAAATTGGATGCAGTGGAT---AATC
TTGGAATTCAGCAAAGACATTCCCAGTACGGGTTGACTCCTTTGGAGCAG
CTAGTTCGCACCACTCCGCAGTTTGGGATCTTTAGAGGGGAGTTGCCACA
AGAGTTCCGAGGCACAGAACCCCAGCCCGTTTCGGAGTACTCCCACACCC
ATTCCAACCCGGCTCCATTCAGTCGAACGACT---------CCGGGATTC
ACCACATCGAGTAGCAGTGGCAGC---------ACCATCTATCCG---TA
CTCCTCATCCCCGGGA---ACATCCACATCCATATCATCATCATCATCAT
CGCCA---------------------------TTGTCCTCATCCTCGCTG
AGACCCATTTCCACCAAGTTGCAGCTACTGAAGCCGGAGGGAAGAAGGGC
G-------------------------------------------------
--------------------
>C9
ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTAGCCAGCTTCGGTGACGCGGCTTACCCGTACTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
GTAACGAGGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGTACCGCCTCC
CTGACCCGTCGCTACCGGAACAAGGACGTTACCTTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGATATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTTG
CCGTTAATTTCGGCGACGTCGCTATTCCGGCCAACTTGGACTTCCCGCGC
CCGCAGAAGATCAACGCCCTGAGGGGAGTCCATGGGGTATCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACACTGCTCGTGCCCAACTTCAGCTATG
ACGGCGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACGTCCGAGGGTCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACGATCGTATTAACCCTGCCCGAGGATCTGA
CCATCTTCGATATCGGTCACTTTGGCGTGTGGTGTGAGGCCTTCACCGTC
GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTAAATGTGCCGCCCTCGCT
GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTAGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGGGCAGATGCCGTGG
TGGCTTGGGTGGATCCCCAAACCGGAAACGGATTCGCGACCGACTACTTC
CTGGAGGGCAAGGCGCAGTGTTCAGGTGGACGTGGCGCCTGTCCGGACAC
CAAGATCTCGGAGAAGACCAACTCCATCCGACTGCTCAATGCTGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAAAGATCGCTGGCTGCCACGGAT
CGTTTGGATTTGCCCATCTCGATTACGGACGCAGAATCGGTAGTGTGGGC
AATTGGACCGCTTAATGATTTCCGAGAAGTCTCCTTCCACACGTTCTACA
ATAAGCACCTGCACCAGATCGAGTTTGGTCGCCAGCCCAAGTGGAATTGT
CCTTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCATCCGAGCAGGAAGA
CTCCTCTCCCGCAGCCCAGAGTTCGACGGGTGGAGCGGGTTATCCGCCAG
CAGGAAGACCCAATGTCGAGCCTGATGAGGAGTTCTACGAGAATAGGGCG
GAGGCACTGCATCGACAGCCCCCGCAGAGGCGCCAGGAAACCGCCATTCT
CACCCAGCGGAGACCCGTTCCCACTCCAAAACCAGTGAACAGCAATGGTG
CCTGGGACATCCCCGCAATCCAGTGCCACGAGCCAGAGGACGGAGTGTTC
TACGCCCAGATGGGTCCCACGGGAGGAAAACACGGTTATCCAGCAATTAC
AGGCCACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTACTTATCC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
TGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAAAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCACCGCTCTCGATCTGGCCAGGTCACGCCT
ACCGGCGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
GGCCGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCGGACAGGAAC
ACACCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGCC
TGAAGGGAGCGCCCTCCGAGCGCCACGAGATCCGGCTGCCG------GCG
GAACCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTTCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCC---CATCCCAACCAGAACCCGATT------
------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCTGAACACATCTCCATCCGCATTCCCA---------------------
---TCCCCATCCCCATCAGCATCACCCTCCCCCGGCAACCTGAAGCTGCC
CATCTTCGCGGCCGGT------------CCCCATCTCATCCAC---CATC
CCCCGCACTTGCATCGCCTGCAACACCACCACCTCCAGCAGCATGCCCCC
CACCCG------CATCTCCATTTGCATCACCACAACCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
CGCAGAACGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGCCCC
TTTCCCGCGCCCATCAAGAAGGTCCCGGCCTCCAGGCCCATCCTCCCGCA
GCAGCATCCGCATCTGCATCCGCAT---------CCG---CATCCCGGCC
TTCTGCAGCAG---CCCTCCTTGATTGTGAGTCACTACAGGAAGCCGGTG
CCCGGATTGCTGAAGCCCTTCGTCAAAGAGAAACCCTTCCCGCTGCAGCC
GCTGGCTGCCTCGGTTCTGCTCCTGGGACAGCCCACTGAACTGGGCGGAG
GACTGGGG---CTGGGCAACAAGGGCGAGCGACTGAAGGCCAAGGGTAAG
CCGAAAATTCCAGTGCCCTATGTGGATCTGGAACCGCAGGGCTCGCTGCA
AAACACGGCCTTCTTTAATCAGCCGGGA---AAGGGGGATCAGAAGCCCA
TAGCTACTCCC------GCCTCCAGCACCACACCCAGCTCAACCACGACC
ACGCCGCTGGTGAAACGTCCTCCCGTGAAGGAACCTTCCCTGGAAGAAAT
CGCCAGTATGCGACCAGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TCGTGGAAAGTGGCTTCCGACCCATCATGCGAACAGATGGCAGTGGGGTC
CAGTTGCCCAAGGAAATCATTGAGCAAGTGGCCCATCGCCGGGAGGATCC
GGGAACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACAG
CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCTTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
GGAGGTGAGTCCCACGGCCTCGGCCTTAAGATTGCCCTCTGCGGCTCTGG
AGCACGCCCTGCCCTCCGCCTCGGAGTTGAGGAAGCCCACCTTGGACGAA
CTCTTTGAAGACGAGATAAACGAAGAGGAGCTGGAACTAGAGGCAGTTCC
CGAAGGA---GATGATGAAGAGGTACTTGAAGAGACCACCAAGAAGGCAG
CGCCGACCACTCCAAAAGAGATTCCA---AGCAGTACCACCAAGAAACCG
GAATCCGAACTCCTAGAGGACCTCTTCGGTCCCGAGGAAGAGGATATATA
TGCGGATGAGATGGAACTGGAAATGGATGACCGAGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGCAAGGTTCCCCAT
TCGAGTCTACCAAGTGGAGCCCTCTACACCTTCGATGGCAAGTCCGTGGT
GGACAGTAGCCTGGTGCTGCCACCCAAATTGGATGCGGCCGAG---AGTG
TAGGAGTCCACCAGCGTCATGCCCAGTATGGGCTTACGCCTTTGGAGCAG
CTCGTACGAACCACTCCGCAGTTTGGAGCTTACAGAGGGGAGTTGCCACA
GGAGTTCCGGGGAACTGAGCCCCAACCCGTGTCGGAGTACTCACAT----
--------CCGGCGCCCTTCATTCGAACAAGC---------ACCACTGCG
GGATTTTCCACCAGCAGTGGCAAC---------ACAGTCTATCCG---TA
CTCCCCATCGCCAGGA---GCATCCACATCCACATTATCATCATCATCAT
CGTCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATCTCCACCAAGTTGCAGCTACTGAAGCCAGTGGGCCGAAGGGC
G-------------------------------------------------
--------------------
>C10
ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTAGCCAGCTTCGGAGACGCGGCTTACCCGTACTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAATACGGCGCGGCCCA
GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTCAACTTCGGCGACGTCGCCATTCCGGCCAACTTGGACTTCCCGCGT
CCGCAGAAGATCAGTGCCCTGAGGGGAGTACACGGGGTCTCCTCCGACAA
CATTGTGATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
ACGGCGAGGCGCCAGATGCCAAGTTCTGGGTGGGTCGTGGCCAGCGGCCC
ACGTCCGAGGGTCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACGATTGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATCGGTCACTTTGGCGTGTGGTGCGAGGCCTTTACCGTC
GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTCAATGTGCCGCCCTCGCT
GAAGATGCTCGGCATCAGTCCACAGTCGAAACTCAACTGCGAGGTGCTCT
ACGACGATCTAGCCTTCGAGGTCCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGATCCGAACCACTACATGTCGTTCGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATTGGCGCAGATGCAGTGG
TGGCCTGGGTGGATCCCCAAACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGCGGACGTGGTGCCTGTCCGGACAC
CAAGATCTCGGAGAAGACCAACTCCATCCGGCTGCTCAATGCTGCCATGG
TCAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCTGCCACGGAT
CGCCTGGATCTGCCCATCTCGATCACGGACGCTGAGTCGGTGGTCTGGGC
CATTGGACCGCTGAACGATTTTCGAGAGGTCTCCTTCCACACGTTCTATA
ACAAGCACCTGCACCAGATCGAGTTCGGCCGGCAGCCCAAGTGGAATTGT
CCCTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAAGA
CTCCGCCCCCGCAGCCCAGAGTTCTACGGGTGGAGCGGGCTATCCGCCAG
CGGGAAGACCCCATGTGGAGCCTGACGAGGAGTTCTACGAGAACCGGGCG
GAGGCACTGCATCGCCAGCCACCGCAGAGGCGCCAGGAGACCGCCATCGT
CACCCAACGGCGACCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCAGCCATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
TACGCCCAGATGGGTCCCACGGGCGGCAAACACGGTTATCCAGCCATCAC
AGGACACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTTCTTATCC
CCGAAATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAATAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAAAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGATCTGGCCAGGTCACGCCC
ACGGGAGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
AGCCGACGACTACCAGTCATTCGGCGCGTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCCGACAGGAGT
ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGTC
CAAAGGGAGCGGCCTCCGAACGGCACGAGATCCGGCTGCCG------GCG
GAATCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTTCGGCACGAAACAAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCC---CATCCCAACCAGTACCCGAAT------
------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGTTGGGCGAGACCCATGCC---CAAA
AGCTGAACACATCTCCATCCGCATTCCCA---------------------
---TCCCCATCAGCATCGGCCTCACCATCCCCCGCCACCCTGAAGCTGCC
AATCCTTGCGGCTGGCCCAGGGCCAGGCCCCCATCTCATCCAC---CATC
CCCCGCACCTGCATCGCCTGCACCACCATCCGCAGCATGCCCTTGCCCCC
CACCCG------CATCTACATTTGCATCACCACAACCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
CGCAGAACGCTCCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGTCCC
TTCCCCGCTCCCATCAAGAAGGTGCCGGCCTCGAGGCCCGTGCTGCCGCA
GCAGCATCCGCACTTGCATCCCCTC---------CCC---------GGCC
TCCTGCAGCAG---CCCTCCTTGATCGTGAGCCACTACAGGAAGCCGGTG
CCGGGTTTGCTCAAGCCGTTCGTCAAGGAAAAGCCCTTCCCGCTGCAACC
GCTGGCTGCCTCCGTCCTGCTTTTGGGACAGCCCACTGAACTGGGCGGAG
GTTTCGGC---CTGGGCCATAAAGGCGAACGACTGAAGGTCAAGGGAAAG
ACCAAAATTCCAGTACCCTATGTGGATCTGGAACCTCAGGGCTCACTGCA
AAACACGGCCTTCTTTAATCATCCGGGA---AAGGTGGATCAAAAGTCTT
TAGCAAGC------------TCCATCCCTATTCCCAGCTCAACCACGACC
ACGCCCCTGATGAAACGTCCACCTGTGAAAGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGACCGGCCGTCAATCAGGGTTTCAAGCCCGACACCGTGA
TCGTGGAAAGTGGTTTCCGACCCATCATGAGAACAGACGGCAGTGGGGTC
CAGTTGCCCAAGGAAATCATTGAGCAGGTGGCCCATCGTCGGGAGGACCC
GGGAACCGAAATCGACGAGGTAATGGAAACGGACACCCTATTCCTGACAG
CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCGTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
GGAGGTAAGTCCATCGGCCTCAGCCTTGCGGTTGCCCTCGGCAGCTCTGG
AGCACGCCCTGCCTGCCGCCTCGGAGTTGAGGAAGCCCACCCTGGACGAG
CTCTTTGGCGAGGAGATAAACGAAGAGGAACTGGAACTAGAGACAGCGCC
CGAGGGG---GACGATGAAGATGTGCCAGAGGAGACCACCAAGAAGTCAG
CCCCAACCACTCCAAAAGAGATCCCA---AGCAGTGCTACCAAGAAGCCG
GAACCCGAACTCCTAGAGGACCTCTTCGGACCCGAAGAAGAAGACATTTA
CGCTGACGAGATGGAACTTGAAATGGATGACCGCGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGGAAGGTTCCCCAT
TCGAGTCTGCCGAGTGGAGCGCTTTACACCTTCGATGGCAAGTCGGTGGT
GGACAGCAGCCTGGTGCTGCCGCCCAAATTGGACGCGGGCGAC---AGTG
GAGCGGTCCACCAGCGCCATGCGCAGTATGGGCTTACACCGCTGGAGCAG
CTTGTTCGAACCACGCCGCAATTCGGAGCTTACAGGGGAGAGCTGCCACA
GGAGTTCCGCGGCACGGAGCCCCAGCCCGTGTCGGAGTACTCACAT----
--------CCGGCGCCCTTCAGTCGAACCAGC---------ACCACTCCC
GGATTTTCCACCAGCAGTGGCAAC---------ACCATTTATCCGTCGTA
CTCCTCATCGCCAGGA---GCATCAACATCCACAGCCACAGCCACATCAT
CAACATCATCATCATCATCATCATCGCCATTCTTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTACTGAAGCCAGTGGGCCGACGGGC
G-------------------------------------------------
--------------------
>C1
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEAooGGLKGAASERHEIRLPooA
KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNoPNLNPNHPNQNoooo
ooPIPNPHQKPNVTPTEISSRPEILLGEToooHAHTLNASPooooooSAS
AYPSPSATLPSANLKLPILAAGooooPHLIHoHPPHLHRLHHQPQHAPoo
HPooHVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHooPQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGooooGLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKAoSSVSoooISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFAEDLNEEELEMEPoMPVADDVESLEETTKKDAVTTTINIPoRNTTKKP
DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
TRVPSGALYTFDGKSVVDSSLVLPPKLDAPDoNANVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSHooooPAPFSRTToooooP
VFSSSSGSoooTIYPoYSSSTGoASTSTVSSSASSPooooooooLSSSSL
RPISTKLQLLKPEGRRA
>C2
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDAooGGLKGAASERHEIRLPooA
KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNoPNLNPNHPNQNoooo
ooPIPNPHQKPNVTPTEISSRPEILLGEToooHAHTLNASPooooooSAS
AYPSPSATLPSANQKLPILAAGooooPHLIHoHPPHLHRLHHQPQHAPoo
HPooHVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHooPQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGooooGLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKToSSVSSILISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFGEDLHEEELEMEPoMPVADDVESLEETTKKDAVTTTIDIPoRNTTKKP
DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
TRLPSGALYTFDGKSVVDSSLVLPPKLDAPDoNGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSHooooPAPFSRTToooooP
VFSSSSGNoooTIYPoYSSSTGoASTSTVSSSSSSPooooooooLSSSSL
RPISTKLQLLKPEGRRA
>C3
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDAooGGLKGAASERHEIRLPooA
MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKNoPNLNPNHPNQNQNoo
ooPIPNPHQKPNVTPTEISSRPEILLGEToooHAHTLNASPSPSQSASAS
AYPSPSATLSSANLKLPILAAGooooPHPIHoYPPHLHRLHHQPQHAPoo
HPooHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGooooGLNNKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQAGGKooGEQKPKToSSVSoIPSSTTT
IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIPoKNTTKKP
DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
TQLPSGALYTFDGKSVVDSSLVLPPKLDAPDoNGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSHooooPAPFSRTToooooP
VFSSSSGSoooTIYPoYSSSTGAASTSTLSSSSSSPooooooooLSSSSL
RPISTKLQLLKPEGRRA
>C4
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEAooGGLKGSPSERHEIRLPooP
MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKNoPNLNPNHPNQNQNQN
PIPNPNPHQKPNVTPTEISSRPEILLGETHAoHAHTLNASPSPSQSASAP
AYPSPSATLPTANLKLPILAAGooooPHLIHoYPPHLHRLHHQPQHAToo
HPooHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHooPQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGooooGLNSKGDRLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQPGGKooGDQKPKSoTSISoIPSSTTT
VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVooKEVTPTASALRLPSAALEHALPSASELRKPTLGE
LFGDDSNEEQLEMEPoLPEADDVEPLEETTKKDAVTTTKDILoRNTTKKP
DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
TRVPSGALYTFDGKSVVDSSLVLPPKLNAPDoNGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSHooooPAALSRTToooooP
VFSSSSGSoooTIYPoHSSSSGoASTSTVSSSSSSPooooooooLSSSSL
RPISTKLQLLKPEGRRA
>C5
MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEAooGGLKGSASERHEIRLPAAA
EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLKRNoPNLNoooooPNLNoo
ooLNLNPNQHPNQYPoKANVTPEILLGETHAoHKPNASPSASASooooAS
AFPSPSASPSPATLKLPIFASGooooPHLIHHPPHPLHRLHHHPQHAPHS
HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPoooooQHPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPSoSSSSSMSSSTTT
TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGGELNEEELELEPLPQGDDDEEoooETTKNSATATTKEIQSTTTKKPK
ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHooooPAPFSRTTGSTTTP
GFSSSSGSoGSTIYPoYSSSPGoTSTSASFSPSSSSSSPoooooLSLSSL
RPISTKLQLLRPEGRRA
>C6
MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDTEAooGGLKGSASERHEIRLPooA
EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNoQNLNHPNNHPNQYoo
ooPIPNPHQKPNVTPTEINSRPEILLGETQAoHKPNASPTASAPooooPS
AFPSPSASPSPATLKLPIFASGooooPHLIHHPPHSLHRLHHHPQHAPHS
APooHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPHoooPQHPVMLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISPooTSSSVTSSTTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRPo
ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGGoHQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHooooPAPFSRTSoooTTP
GFSSSSSSSGSTIYPoYSSSPRoTSTSLSTLSSSSSSSPoooooLSSSSL
RPISTKLQLLKPEGRRA
>C7
MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARoooNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEAooGGLKGAASDRHEIRLPooV
EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLMKNoPNLNPoLNHPNQNoo
ooPIPYPHQKPNVTPTEISSRPEILLGETHAoHKLNTSPSVFPooooooo
oooSPSASPSPANLKLPIYAAVooooPHLIHoHPPHLHRLHQHPQHALoo
HPooHVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHooPQQLPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
LFGEEITDEEVVLEPLEoooDDDELLEETTKKAAVKTTKEIPSTTTTKKP
EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVDoNGGVHQRHAQYGLTPLEQ
LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSHooooPAPFSRTSoooTTP
IFSSSSGSoooTIYPoYSTSSGoTSTSISSLSSPSSSSSSPoooLSSSSL
RPISTKLQLLKPEGRRA
>C8
MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLPooA
EAAooEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNPoNLKPHPNoo
ooQNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPSoooAS
ASASASASASPGNQKLPIYAAGooooPHIIHPHPPHLHRLHHHPQHAANI
HPooHPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPQoooQoHPVLLQQoPSLIVSHYRKPV
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLGoPISKGERLKVKGK
PKIPVPYIDLEPQSSLQNTALFNQPAoKVEPKPVVTPooPTISTSSSTTS
IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
LFGEELNEEELELEPLPQGoDDEELLDETTKKAAPTTTKEPPPSSTTKQT
ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVDoNLGIQQRHSQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTToooPGF
TTSSSSGSoooTIYPoYSSSPGoTSTSISSSSSSPoooooooooLSSSSL
RPISTKLQLLKPEGRRA
>C9
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEAooGGLKGAPSERHEIRLPooA
EPoooEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNoPNLNPoHPNQNPIoo
ooPHPHPHQKPNVTPTEISSRPEILLGETHAoHKLNTSPSAFPooooooo
oSPSPSASPSPGNLKLPIFAAGooooPHLIHoHPPHLHRLQHHHLQQHAP
HPooHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHoooPoHPGLLQQoPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGoLGNKGERLKAKGK
PKIPVPYVDLEPQGSLQNTAFFNQPGoKGDQKPIATPooASSTTPSSTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDEINEEELELEAVPEGoDDEEVLEETTKKAAPTTPKEIPoSSTTKKP
ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAAEoSVGVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSHooooPAPFIRTSoooTTA
GFSTSSGNoooTVYPoYSPSPGoASTSTLSSSSSSPooooooooLSSSSL
RPISTKLQLLKPVGRRA
>C10
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEAooGGPKGAASERHEIRLPooA
ESoooEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNoPNLNPoHPNQYPNoo
ooPHPHPHQKPNVTPTEISSRPEILLGETHAoQKLNTSPSAFPooooooo
oSPSASASPSPATLKLPILAAGPGPGPHLIHoHPPHLHRLHHHPQHALAP
HPooHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPLoooPoooGLLQQoPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFGoLGHKGERLKVKGK
TKIPVPYVDLEPQGSLQNTAFFNHPGoKVDQKSLASooooSIPIPSSTTT
TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
LFGEEINEEELELETAPEGoDDEDVPEETTKKSAPTTPKEIPoSSATKKP
EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAGDoSGAVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSHooooPAPFSRTSoooTTP
GFSTSSGNoooTIYPSYSSSPGoASTSTATATSSTSSSSSSSPFLSSSSL
RPISTKLQLLKPVGRRA


                            MrBayes v3.2.2 x64

                      (Bayesian Analysis of Phylogeny)

              Distributed under the GNU General Public License


               Type "help" or "help <command>" for information
                     on the commands that are available.

                   Type "about" for authorship and general
                       information about the program.



   Executing file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb"
   UNIX line termination
   Longest line length = 63
   Parsing file
   Expecting NEXUS formatted file
   Reading data block
      Allocated taxon set
      Allocated matrix
      Defining new matrix with 10 taxa and 4770 characters
      Missing data coded as ?
      Data matrix is interleaved
      Data is Dna
      Gaps coded as -
      Matching characters coded as .
      Taxon  1 -> C1
      Taxon  2 -> C2
      Taxon  3 -> C3
      Taxon  4 -> C4
      Taxon  5 -> C5
      Taxon  6 -> C6
      Taxon  7 -> C7
      Taxon  8 -> C8
      Taxon  9 -> C9
      Taxon 10 -> C10
      Successfully read matrix
      Setting default partition (does not divide up characters)
      Setting model defaults
      Seed (for generating default start values) = 1481035489
      Setting output file names to "/opt/ADOPS/393/Skeletor-PE/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) = 2124645026
      Setting Nst to 6 for partition 1
      Setting Nst to 6 for partition 2
      Setting Nst to 6 for partition 3
      Setting Rates to Invgamma for partition 1
      Setting Rates to Invgamma for partition 2
      Setting Rates to Invgamma for partition 3
      Successfully set likelihood model parameters to all
         applicable data partitions 
      Unlinking
      Setting number of generations to 1000000
      Running Markov chain
      MCMC stamp = 1384951952
      Seed = 1016758431
      Swapseed = 1481035489
      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 252 unique site patterns
      Division 2 has 194 unique site patterns
      Division 3 has 742 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 -- -24907.990594 -- -24.412588
         Chain 2 -- -25138.589056 -- -24.412588
         Chain 3 -- -24583.741880 -- -24.412588
         Chain 4 -- -24223.811173 -- -24.412588

      Initial log likelihoods and log prior probs for run 2:
         Chain 1 -- -24630.160982 -- -24.412588
         Chain 2 -- -24841.699252 -- -24.412588
         Chain 3 -- -25104.335573 -- -24.412588
         Chain 4 -- -24644.504199 -- -24.412588


      Using a relative burnin of 25.0 % for diagnostics

      Chain results (1000000 generations requested):

          0 -- [-24907.991] (-25138.589) (-24583.742) (-24223.811) * [-24630.161] (-24841.699) (-25104.336) (-24644.504) 
        500 -- (-19736.782) (-19760.658) (-19756.683) [-19734.590] * [-19669.678] (-19769.605) (-19895.710) (-19744.648) -- 0:33:19
       1000 -- (-19471.763) (-19306.881) [-19273.524] (-19412.489) * [-19188.559] (-19486.821) (-19364.296) (-19453.669) -- 0:33:18
       1500 -- (-19173.624) (-19123.514) (-19041.077) [-18942.610] * (-18992.811) (-19091.108) (-19014.609) [-18986.722] -- 0:33:17
       2000 -- (-18978.185) (-18911.821) (-18860.926) [-18790.021] * [-18788.783] (-18939.430) (-18790.846) (-18916.105) -- 0:33:16
       2500 -- (-18841.824) (-18838.406) (-18771.085) [-18751.799] * (-18786.222) (-18783.743) [-18753.590] (-18822.912) -- 0:39:54
       3000 -- (-18802.383) (-18752.492) (-18770.018) [-18755.193] * (-18759.593) (-18765.267) [-18739.897] (-18781.162) -- 0:38:46
       3500 -- (-18775.554) (-18751.225) [-18746.356] (-18752.649) * (-18757.170) (-18766.634) [-18748.024] (-18753.445) -- 0:37:57
       4000 -- (-18769.203) [-18744.780] (-18757.158) (-18746.874) * (-18757.878) [-18747.543] (-18751.536) (-18744.682) -- 0:37:21
       4500 -- (-18770.727) (-18751.050) (-18747.659) [-18745.160] * (-18752.748) [-18745.124] (-18746.271) (-18757.825) -- 0:36:52
       5000 -- (-18757.484) (-18758.927) (-18745.141) [-18741.557] * (-18761.723) (-18740.191) (-18742.405) [-18743.835] -- 0:36:29

      Average standard deviation of split frequencies: 0.057140

       5500 -- (-18754.233) (-18758.342) [-18739.087] (-18749.661) * (-18755.943) [-18747.475] (-18757.465) (-18746.756) -- 0:36:09
       6000 -- (-18751.340) [-18748.350] (-18745.867) (-18761.463) * [-18744.810] (-18749.913) (-18751.700) (-18743.379) -- 0:38:39
       6500 -- (-18748.851) [-18751.575] (-18759.286) (-18761.210) * (-18749.396) (-18741.277) (-18752.483) [-18745.617] -- 0:38:12
       7000 -- [-18750.962] (-18746.829) (-18747.454) (-18742.316) * [-18743.026] (-18745.234) (-18740.955) (-18750.862) -- 0:37:49
       7500 -- (-18749.580) (-18743.844) [-18755.870] (-18759.208) * (-18753.947) (-18748.298) [-18743.847] (-18745.232) -- 0:37:29
       8000 -- (-18745.659) (-18746.003) [-18743.039] (-18758.241) * [-18750.647] (-18748.953) (-18751.618) (-18740.986) -- 0:37:12
       8500 -- (-18747.893) (-18748.353) [-18746.899] (-18745.154) * [-18742.798] (-18744.047) (-18763.007) (-18758.118) -- 0:36:56
       9000 -- (-18748.457) (-18752.861) [-18750.168] (-18749.052) * [-18739.058] (-18748.616) (-18748.499) (-18751.487) -- 0:36:42
       9500 -- (-18748.683) (-18743.609) (-18750.968) [-18751.747] * (-18743.895) (-18756.689) [-18742.698] (-18742.567) -- 0:36:29
      10000 -- [-18755.963] (-18753.655) (-18757.937) (-18745.509) * (-18754.325) (-18745.532) (-18749.811) [-18744.550] -- 0:37:57

      Average standard deviation of split frequencies: 0.032141

      10500 -- (-18757.417) (-18755.386) [-18752.503] (-18750.599) * (-18756.041) [-18746.269] (-18749.454) (-18753.521) -- 0:37:41
      11000 -- (-18745.810) [-18747.421] (-18754.264) (-18747.433) * [-18742.074] (-18744.303) (-18742.349) (-18749.716) -- 0:37:27
      11500 -- (-18753.753) [-18746.464] (-18751.229) (-18747.806) * (-18748.808) (-18754.584) (-18749.077) [-18741.079] -- 0:37:14
      12000 -- (-18742.786) (-18750.459) [-18742.350] (-18743.214) * (-18748.097) (-18746.744) [-18738.936] (-18744.332) -- 0:37:03
      12500 -- (-18747.370) [-18749.255] (-18740.406) (-18751.717) * (-18745.298) (-18741.509) [-18738.719] (-18743.280) -- 0:36:52
      13000 -- (-18752.989) (-18749.853) [-18748.522] (-18749.396) * (-18752.212) [-18746.017] (-18747.033) (-18750.969) -- 0:36:41
      13500 -- (-18750.771) (-18741.736) (-18749.161) [-18744.703] * (-18750.722) [-18744.649] (-18752.249) (-18749.432) -- 0:36:32
      14000 -- (-18763.753) (-18747.672) [-18743.002] (-18740.068) * (-18747.137) [-18739.909] (-18748.917) (-18749.983) -- 0:37:33
      14500 -- (-18746.427) (-18749.678) [-18746.429] (-18753.242) * (-18754.066) (-18743.044) (-18751.246) [-18740.951] -- 0:37:22
      15000 -- [-18745.934] (-18744.549) (-18747.010) (-18746.556) * (-18745.979) [-18741.708] (-18742.501) (-18745.919) -- 0:37:12

      Average standard deviation of split frequencies: 0.026189

      15500 -- (-18745.153) [-18754.556] (-18745.235) (-18751.430) * (-18742.865) (-18740.646) (-18747.223) [-18740.009] -- 0:37:03
      16000 -- (-18754.462) (-18745.112) (-18743.609) [-18754.928] * (-18746.934) [-18746.061] (-18749.545) (-18745.518) -- 0:36:54
      16500 -- (-18753.205) [-18739.876] (-18740.913) (-18744.289) * (-18756.587) [-18749.356] (-18748.929) (-18751.181) -- 0:36:45
      17000 -- (-18753.587) (-18747.930) [-18745.315] (-18745.952) * (-18757.563) (-18745.720) [-18745.385] (-18742.167) -- 0:36:37
      17500 -- (-18762.512) (-18754.435) [-18750.185] (-18743.387) * (-18760.194) [-18745.257] (-18749.103) (-18748.755) -- 0:36:29
      18000 -- [-18742.730] (-18758.572) (-18743.348) (-18740.136) * (-18753.754) (-18745.134) (-18757.234) [-18738.698] -- 0:36:22
      18500 -- [-18751.244] (-18749.278) (-18748.112) (-18743.333) * (-18743.384) (-18745.177) [-18748.633] (-18742.250) -- 0:37:08
      19000 -- (-18750.331) (-18743.434) (-18751.435) [-18744.864] * (-18748.827) [-18752.151] (-18749.302) (-18749.685) -- 0:37:00
      19500 -- [-18747.658] (-18736.320) (-18742.588) (-18759.147) * (-18749.428) (-18750.581) (-18744.735) [-18749.984] -- 0:36:52
      20000 -- [-18743.146] (-18750.802) (-18750.223) (-18748.276) * [-18747.526] (-18744.900) (-18751.305) (-18748.330) -- 0:36:45

      Average standard deviation of split frequencies: 0.040551

      20500 -- [-18745.958] (-18749.521) (-18743.138) (-18754.672) * (-18748.896) (-18765.982) (-18743.046) [-18755.358] -- 0:36:37
      21000 -- [-18745.163] (-18741.111) (-18757.207) (-18745.503) * [-18752.715] (-18757.596) (-18751.675) (-18746.055) -- 0:36:31
      21500 -- (-18755.524) [-18744.947] (-18758.625) (-18750.729) * (-18751.759) (-18755.656) [-18747.355] (-18739.800) -- 0:36:24
      22000 -- [-18748.455] (-18743.593) (-18745.232) (-18745.982) * [-18744.984] (-18753.854) (-18749.378) (-18744.162) -- 0:36:18
      22500 -- (-18754.597) (-18747.977) (-18752.713) [-18741.307] * (-18745.454) [-18746.220] (-18747.959) (-18748.536) -- 0:36:12
      23000 -- (-18745.204) (-18748.164) [-18741.978] (-18750.104) * (-18742.120) (-18753.341) (-18743.977) [-18749.052] -- 0:36:48
      23500 -- (-18765.562) (-18761.557) (-18742.867) [-18744.732] * (-18752.818) (-18753.780) [-18745.041] (-18744.886) -- 0:36:42
      24000 -- (-18743.601) (-18754.483) (-18745.993) [-18744.948] * [-18740.887] (-18743.621) (-18751.154) (-18749.963) -- 0:36:36
      24500 -- (-18746.672) [-18746.801] (-18743.258) (-18752.493) * (-18739.934) [-18747.608] (-18760.203) (-18744.802) -- 0:36:29
      25000 -- (-18744.694) (-18743.786) [-18746.132] (-18752.698) * [-18750.339] (-18744.428) (-18753.569) (-18748.648) -- 0:36:24

      Average standard deviation of split frequencies: 0.036262

      25500 -- (-18743.622) (-18745.389) (-18743.987) [-18750.739] * [-18736.965] (-18750.002) (-18753.615) (-18744.656) -- 0:36:18
      26000 -- (-18749.991) [-18741.920] (-18746.261) (-18742.681) * [-18739.619] (-18746.717) (-18743.354) (-18744.743) -- 0:36:12
      26500 -- (-18749.235) (-18744.073) [-18750.154] (-18748.658) * (-18735.978) [-18743.598] (-18749.229) (-18747.618) -- 0:36:07
      27000 -- (-18750.358) (-18746.085) (-18743.693) [-18744.690] * [-18740.075] (-18744.490) (-18747.365) (-18756.039) -- 0:36:02
      27500 -- [-18746.937] (-18753.935) (-18752.138) (-18739.192) * (-18753.047) [-18749.498] (-18749.173) (-18746.554) -- 0:36:32
      28000 -- (-18750.270) (-18749.045) (-18750.944) [-18749.290] * (-18741.573) (-18745.110) (-18751.862) [-18745.204] -- 0:36:27
      28500 -- [-18739.190] (-18743.569) (-18745.887) (-18746.056) * (-18745.282) (-18754.419) (-18742.916) [-18744.909] -- 0:36:21
      29000 -- (-18751.183) (-18738.776) [-18746.638] (-18755.863) * (-18746.489) (-18741.438) (-18745.067) [-18746.954] -- 0:36:16
      29500 -- (-18763.768) (-18748.579) [-18742.420] (-18755.475) * (-18743.389) [-18750.775] (-18743.532) (-18749.669) -- 0:36:11
      30000 -- (-18748.229) (-18762.227) (-18742.070) [-18747.720] * (-18758.080) (-18750.706) [-18752.889] (-18747.064) -- 0:36:06

      Average standard deviation of split frequencies: 0.044408

      30500 -- [-18752.776] (-18742.384) (-18751.607) (-18753.447) * (-18749.504) (-18738.838) [-18751.836] (-18742.564) -- 0:36:01
      31000 -- (-18749.416) [-18743.664] (-18753.104) (-18745.482) * (-18750.720) (-18744.147) [-18745.777] (-18747.351) -- 0:35:56
      31500 -- (-18747.929) (-18751.211) (-18739.865) [-18745.220] * [-18751.831] (-18746.819) (-18759.250) (-18739.007) -- 0:35:52
      32000 -- (-18756.333) [-18745.767] (-18749.351) (-18743.978) * [-18741.830] (-18750.426) (-18754.128) (-18751.185) -- 0:36:18
      32500 -- (-18757.133) [-18750.328] (-18745.628) (-18753.500) * (-18747.269) [-18757.465] (-18751.290) (-18741.893) -- 0:36:13
      33000 -- (-18761.383) (-18744.797) (-18751.369) [-18742.141] * [-18742.928] (-18749.811) (-18745.133) (-18741.727) -- 0:36:08
      33500 -- [-18760.275] (-18754.354) (-18748.652) (-18738.372) * [-18742.934] (-18749.969) (-18756.024) (-18739.489) -- 0:36:03
      34000 -- (-18745.010) (-18745.424) [-18743.215] (-18753.451) * (-18742.761) [-18738.112] (-18744.112) (-18750.378) -- 0:35:59
      34500 -- (-18758.952) (-18748.947) (-18739.328) [-18746.376] * (-18753.939) (-18741.841) (-18749.850) [-18741.096] -- 0:35:54
      35000 -- (-18755.110) [-18744.987] (-18742.573) (-18751.349) * (-18754.601) (-18753.262) (-18746.806) [-18740.968] -- 0:35:50

      Average standard deviation of split frequencies: 0.032009

      35500 -- (-18748.727) (-18746.758) (-18745.952) [-18746.380] * (-18742.760) (-18753.827) (-18749.312) [-18739.051] -- 0:35:46
      36000 -- (-18751.575) (-18744.976) [-18746.486] (-18750.192) * (-18745.267) (-18744.503) (-18756.678) [-18745.344] -- 0:35:42
      36500 -- (-18750.204) [-18737.421] (-18749.149) (-18748.286) * (-18756.288) (-18747.159) (-18748.863) [-18749.427] -- 0:36:04
      37000 -- (-18754.549) (-18744.245) (-18750.949) [-18745.300] * (-18755.293) [-18743.959] (-18750.518) (-18742.863) -- 0:36:00
      37500 -- (-18745.114) (-18748.267) [-18747.321] (-18747.403) * (-18745.266) (-18747.217) (-18742.108) [-18736.047] -- 0:35:56
      38000 -- [-18747.708] (-18741.483) (-18744.381) (-18751.093) * (-18749.059) (-18741.967) (-18756.203) [-18746.123] -- 0:35:51
      38500 -- (-18745.933) [-18742.895] (-18745.741) (-18744.227) * (-18745.835) [-18742.982] (-18739.690) (-18748.931) -- 0:35:47
      39000 -- (-18748.260) (-18744.079) [-18744.295] (-18753.164) * (-18745.272) [-18739.130] (-18747.705) (-18747.375) -- 0:35:43
      39500 -- (-18745.303) [-18750.511] (-18749.268) (-18741.201) * (-18753.444) (-18744.758) [-18745.289] (-18747.053) -- 0:35:39
      40000 -- (-18748.701) [-18749.655] (-18749.763) (-18744.041) * (-18750.347) (-18748.596) [-18744.755] (-18743.566) -- 0:35:36

      Average standard deviation of split frequencies: 0.028336

      40500 -- (-18750.658) [-18747.882] (-18747.241) (-18746.525) * [-18740.874] (-18753.579) (-18753.402) (-18741.950) -- 0:35:32
      41000 -- (-18762.466) (-18749.736) [-18743.449] (-18746.105) * (-18752.524) [-18749.621] (-18751.111) (-18750.550) -- 0:35:51
      41500 -- [-18741.288] (-18748.344) (-18745.765) (-18743.001) * (-18750.267) (-18747.545) (-18756.788) [-18746.851] -- 0:35:47
      42000 -- (-18750.612) (-18741.379) (-18746.376) [-18746.358] * (-18749.757) [-18745.781] (-18750.464) (-18752.238) -- 0:35:44
      42500 -- (-18750.369) (-18752.762) (-18752.489) [-18739.688] * [-18742.772] (-18746.412) (-18751.477) (-18751.765) -- 0:35:40
      43000 -- (-18756.713) (-18754.186) (-18750.775) [-18740.464] * [-18747.724] (-18746.985) (-18751.545) (-18746.211) -- 0:35:36
      43500 -- (-18758.714) [-18742.051] (-18748.658) (-18744.239) * (-18749.816) [-18748.170] (-18746.694) (-18744.393) -- 0:35:32
      44000 -- (-18763.776) (-18752.408) (-18755.181) [-18742.932] * [-18745.920] (-18746.809) (-18747.428) (-18737.577) -- 0:35:29
      44500 -- (-18752.091) (-18746.367) (-18749.776) [-18744.706] * (-18747.018) (-18750.030) (-18752.424) [-18751.079] -- 0:35:25
      45000 -- [-18741.601] (-18748.566) (-18745.631) (-18748.000) * (-18745.926) (-18739.707) (-18748.255) [-18746.833] -- 0:35:22

      Average standard deviation of split frequencies: 0.020496

      45500 -- (-18745.453) (-18749.182) (-18744.751) [-18748.428] * (-18751.928) (-18740.656) [-18752.938] (-18756.873) -- 0:35:39
      46000 -- (-18759.628) (-18748.924) (-18748.578) [-18743.238] * (-18754.548) (-18750.489) [-18742.021] (-18749.511) -- 0:35:36
      46500 -- [-18743.877] (-18747.175) (-18749.043) (-18751.364) * (-18755.212) [-18744.050] (-18745.701) (-18754.035) -- 0:35:32
      47000 -- [-18747.449] (-18745.888) (-18745.552) (-18743.874) * (-18757.393) (-18750.578) (-18744.105) [-18745.399] -- 0:35:29
      47500 -- (-18754.016) [-18750.282] (-18747.764) (-18743.649) * (-18748.221) (-18752.616) [-18741.822] (-18750.041) -- 0:35:25
      48000 -- (-18742.302) [-18741.662] (-18748.852) (-18752.762) * [-18745.367] (-18753.574) (-18747.726) (-18745.323) -- 0:35:22
      48500 -- (-18746.590) [-18748.514] (-18741.715) (-18748.064) * (-18746.479) [-18753.731] (-18748.322) (-18747.593) -- 0:35:18
      49000 -- [-18742.479] (-18750.614) (-18749.539) (-18755.784) * [-18743.674] (-18764.788) (-18753.559) (-18749.038) -- 0:35:15
      49500 -- [-18742.222] (-18760.692) (-18743.903) (-18758.693) * [-18739.868] (-18751.834) (-18747.946) (-18754.543) -- 0:35:12
      50000 -- (-18751.297) (-18750.011) [-18741.510] (-18747.152) * (-18754.422) (-18757.391) (-18751.768) [-18747.550] -- 0:35:28

      Average standard deviation of split frequencies: 0.020676

      50500 -- (-18747.783) (-18747.489) (-18750.913) [-18740.440] * (-18747.117) (-18764.079) [-18743.842] (-18758.607) -- 0:35:24
      51000 -- [-18741.706] (-18747.555) (-18746.896) (-18744.993) * (-18749.507) (-18749.507) (-18753.031) [-18748.440] -- 0:35:21
      51500 -- (-18744.186) [-18746.097] (-18745.554) (-18746.089) * (-18752.993) (-18752.600) (-18744.888) [-18754.058] -- 0:35:18
      52000 -- (-18746.204) (-18751.953) (-18754.555) [-18748.725] * (-18739.641) (-18749.567) [-18747.814] (-18772.085) -- 0:35:14
      52500 -- (-18744.656) (-18753.779) (-18751.387) [-18747.907] * (-18738.612) [-18750.199] (-18750.561) (-18746.527) -- 0:35:11
      53000 -- [-18747.387] (-18758.006) (-18745.615) (-18740.560) * (-18742.002) [-18744.670] (-18757.016) (-18753.213) -- 0:35:08
      53500 -- (-18750.961) (-18754.031) (-18749.013) [-18745.523] * (-18744.938) [-18748.079] (-18748.137) (-18750.395) -- 0:35:05
      54000 -- (-18753.509) (-18758.528) (-18749.468) [-18751.687] * (-18743.416) (-18747.820) (-18762.221) [-18751.251] -- 0:35:02
      54500 -- (-18747.680) (-18753.338) [-18741.702] (-18749.866) * (-18748.056) (-18747.245) (-18754.740) [-18748.533] -- 0:35:16
      55000 -- (-18748.739) (-18745.376) (-18750.886) [-18748.894] * [-18744.094] (-18741.249) (-18750.332) (-18745.603) -- 0:35:13

      Average standard deviation of split frequencies: 0.016836

      55500 -- (-18751.433) (-18744.832) [-18739.925] (-18750.222) * (-18745.986) (-18746.016) (-18748.448) [-18739.946] -- 0:35:10
      56000 -- [-18751.340] (-18751.647) (-18748.207) (-18757.148) * [-18746.829] (-18747.336) (-18748.380) (-18744.558) -- 0:35:07
      56500 -- [-18743.841] (-18758.428) (-18748.667) (-18752.454) * (-18739.669) [-18746.698] (-18750.445) (-18739.336) -- 0:35:04
      57000 -- [-18750.227] (-18750.362) (-18749.853) (-18748.202) * (-18750.461) (-18744.115) (-18760.580) [-18738.464] -- 0:35:01
      57500 -- (-18745.871) (-18746.591) [-18738.933] (-18752.818) * (-18745.218) [-18747.744] (-18752.065) (-18751.325) -- 0:34:58
      58000 -- (-18748.448) [-18746.022] (-18761.901) (-18753.143) * (-18744.182) (-18745.530) [-18750.304] (-18742.473) -- 0:34:55
      58500 -- (-18746.459) [-18740.958] (-18746.105) (-18749.600) * [-18745.934] (-18749.239) (-18739.656) (-18754.419) -- 0:34:52
      59000 -- [-18742.639] (-18759.729) (-18744.272) (-18757.064) * [-18755.141] (-18752.892) (-18745.029) (-18749.878) -- 0:35:05
      59500 -- (-18748.699) [-18755.757] (-18752.082) (-18747.693) * (-18747.949) (-18759.133) (-18741.560) [-18737.981] -- 0:35:02
      60000 -- (-18746.443) [-18745.427] (-18747.786) (-18747.479) * [-18745.960] (-18758.675) (-18744.168) (-18742.707) -- 0:34:59

      Average standard deviation of split frequencies: 0.020721

      60500 -- [-18749.328] (-18746.666) (-18741.684) (-18747.667) * (-18744.892) (-18751.786) (-18752.409) [-18741.956] -- 0:34:56
      61000 -- [-18743.829] (-18746.471) (-18755.400) (-18752.957) * (-18746.261) (-18754.970) [-18743.735] (-18740.935) -- 0:34:53
      61500 -- (-18745.148) (-18753.206) (-18747.681) [-18748.013] * (-18750.980) (-18748.897) (-18748.280) [-18739.858] -- 0:34:50
      62000 -- (-18751.522) (-18746.195) (-18746.981) [-18750.098] * (-18746.939) (-18750.772) (-18742.505) [-18743.767] -- 0:34:47
      62500 -- (-18751.485) (-18750.783) (-18743.291) [-18743.905] * (-18749.534) (-18745.718) (-18742.663) [-18747.425] -- 0:34:45
      63000 -- (-18749.304) [-18752.317] (-18754.816) (-18746.663) * (-18750.450) (-18746.132) (-18743.617) [-18740.201] -- 0:34:42
      63500 -- (-18742.499) (-18759.006) (-18741.177) [-18750.929] * (-18747.716) [-18744.177] (-18745.208) (-18742.163) -- 0:34:54
      64000 -- [-18740.712] (-18745.270) (-18744.977) (-18748.569) * (-18746.175) [-18746.431] (-18744.159) (-18746.213) -- 0:34:51
      64500 -- (-18748.537) [-18741.744] (-18749.052) (-18752.026) * (-18748.861) [-18747.959] (-18742.442) (-18749.243) -- 0:34:48
      65000 -- [-18747.864] (-18752.458) (-18743.795) (-18748.649) * (-18746.197) (-18740.907) [-18755.604] (-18743.541) -- 0:34:45

      Average standard deviation of split frequencies: 0.017459

      65500 -- [-18745.135] (-18755.317) (-18745.870) (-18748.770) * (-18744.899) (-18737.020) [-18744.770] (-18756.469) -- 0:34:43
      66000 -- (-18752.520) (-18744.212) [-18743.235] (-18741.065) * (-18753.253) [-18746.218] (-18748.223) (-18748.465) -- 0:34:40
      66500 -- (-18752.659) (-18744.936) [-18754.451] (-18746.174) * (-18740.412) (-18750.473) (-18746.209) [-18748.417] -- 0:34:37
      67000 -- (-18745.795) (-18752.154) [-18744.285] (-18745.071) * (-18747.245) (-18744.973) (-18750.972) [-18743.609] -- 0:34:34
      67500 -- (-18742.597) (-18740.311) [-18745.181] (-18750.493) * (-18750.837) (-18749.159) (-18747.602) [-18748.776] -- 0:34:32
      68000 -- (-18743.900) [-18743.045] (-18752.784) (-18747.126) * (-18751.498) (-18745.810) (-18748.353) [-18740.585] -- 0:34:43
      68500 -- (-18748.387) (-18750.670) (-18745.378) [-18751.556] * (-18748.227) (-18755.285) [-18743.556] (-18744.394) -- 0:34:40
      69000 -- (-18745.885) [-18744.993] (-18746.217) (-18755.169) * (-18753.677) (-18751.853) [-18745.780] (-18745.749) -- 0:34:37
      69500 -- (-18749.230) [-18745.348] (-18745.641) (-18749.845) * (-18750.416) (-18751.278) [-18742.304] (-18754.534) -- 0:34:35
      70000 -- (-18754.728) [-18745.833] (-18747.747) (-18748.446) * [-18744.874] (-18747.145) (-18743.155) (-18755.348) -- 0:34:32

      Average standard deviation of split frequencies: 0.016306

      70500 -- (-18741.941) [-18748.960] (-18749.976) (-18751.000) * (-18750.188) [-18744.453] (-18745.182) (-18752.171) -- 0:34:29
      71000 -- [-18752.962] (-18750.212) (-18747.085) (-18747.879) * [-18743.169] (-18738.073) (-18748.952) (-18750.285) -- 0:34:27
      71500 -- (-18736.359) [-18749.113] (-18745.307) (-18749.224) * (-18744.846) [-18743.355] (-18748.913) (-18745.865) -- 0:34:24
      72000 -- (-18745.730) (-18750.410) [-18748.157] (-18742.918) * [-18746.646] (-18749.001) (-18753.645) (-18750.230) -- 0:34:22
      72500 -- [-18743.264] (-18745.754) (-18749.011) (-18749.155) * (-18747.331) (-18746.128) (-18747.090) [-18741.859] -- 0:34:32
      73000 -- [-18741.014] (-18751.572) (-18750.475) (-18749.221) * (-18746.132) (-18746.811) (-18744.610) [-18745.537] -- 0:34:29
      73500 -- (-18745.999) (-18745.637) [-18747.169] (-18745.890) * (-18743.786) [-18742.762] (-18741.532) (-18752.348) -- 0:34:27
      74000 -- (-18754.398) (-18746.581) [-18743.265] (-18747.775) * (-18751.597) [-18748.169] (-18747.499) (-18747.260) -- 0:34:24
      74500 -- (-18746.635) (-18750.603) (-18742.410) [-18747.644] * [-18743.507] (-18746.516) (-18747.420) (-18750.871) -- 0:34:22
      75000 -- (-18749.197) (-18748.196) [-18748.391] (-18748.798) * [-18742.637] (-18752.508) (-18746.645) (-18749.216) -- 0:34:19

      Average standard deviation of split frequencies: 0.013784

      75500 -- (-18749.771) (-18741.964) (-18743.518) [-18744.231] * (-18745.538) (-18759.293) (-18739.746) [-18743.668] -- 0:34:17
      76000 -- [-18751.397] (-18746.967) (-18744.635) (-18747.667) * (-18750.572) (-18757.304) (-18741.458) [-18750.863] -- 0:34:14
      76500 -- (-18743.870) (-18749.914) [-18745.198] (-18740.941) * (-18753.785) (-18754.599) [-18751.265] (-18754.109) -- 0:34:12
      77000 -- (-18744.960) (-18750.451) [-18747.615] (-18743.602) * (-18758.741) (-18749.672) [-18752.217] (-18740.910) -- 0:34:21
      77500 -- [-18746.838] (-18754.476) (-18743.706) (-18753.718) * [-18744.070] (-18749.822) (-18761.848) (-18740.086) -- 0:34:19
      78000 -- (-18752.145) [-18752.556] (-18744.487) (-18742.462) * (-18756.512) (-18750.504) (-18757.000) [-18749.975] -- 0:34:16
      78500 -- (-18751.199) (-18754.927) (-18749.655) [-18751.186] * [-18745.724] (-18745.638) (-18753.067) (-18752.555) -- 0:34:14
      79000 -- (-18743.080) (-18757.018) (-18752.795) [-18748.036] * (-18746.543) [-18744.219] (-18745.503) (-18749.394) -- 0:34:11
      79500 -- (-18745.774) (-18738.653) (-18745.809) [-18746.312] * [-18742.746] (-18741.135) (-18756.020) (-18741.312) -- 0:34:09
      80000 -- (-18747.263) (-18755.033) [-18745.996] (-18752.374) * (-18746.499) (-18740.603) (-18759.293) [-18744.291] -- 0:34:07

      Average standard deviation of split frequencies: 0.014285

      80500 -- (-18747.111) [-18750.957] (-18748.631) (-18748.357) * (-18745.822) [-18742.305] (-18748.381) (-18747.592) -- 0:34:04
      81000 -- (-18753.689) [-18747.958] (-18749.562) (-18743.840) * (-18741.785) (-18743.050) (-18743.012) [-18743.785] -- 0:34:02
      81500 -- (-18752.735) [-18740.623] (-18750.654) (-18748.899) * (-18747.151) (-18747.564) (-18749.255) [-18743.529] -- 0:34:11
      82000 -- [-18742.298] (-18741.105) (-18748.675) (-18753.679) * [-18745.226] (-18739.806) (-18749.754) (-18743.715) -- 0:34:08
      82500 -- [-18744.920] (-18749.284) (-18743.204) (-18749.222) * [-18748.391] (-18745.151) (-18753.995) (-18742.069) -- 0:34:06
      83000 -- (-18751.356) (-18756.587) (-18745.077) [-18746.547] * (-18741.998) (-18745.439) [-18746.549] (-18745.645) -- 0:34:03
      83500 -- (-18743.276) (-18753.802) [-18742.986] (-18752.104) * [-18742.621] (-18748.861) (-18746.197) (-18746.731) -- 0:34:01
      84000 -- (-18745.388) [-18744.816] (-18746.535) (-18757.314) * [-18748.914] (-18749.879) (-18746.754) (-18760.783) -- 0:33:59
      84500 -- [-18747.759] (-18748.709) (-18763.146) (-18752.099) * (-18747.412) (-18750.026) [-18748.881] (-18752.291) -- 0:33:56
      85000 -- [-18748.441] (-18744.736) (-18749.306) (-18746.338) * (-18742.181) (-18750.612) (-18745.026) [-18749.910] -- 0:33:54

      Average standard deviation of split frequencies: 0.014617

      85500 -- [-18743.860] (-18740.861) (-18756.647) (-18748.499) * (-18737.727) (-18745.296) (-18757.023) [-18742.496] -- 0:33:52
      86000 -- (-18751.858) [-18748.988] (-18757.436) (-18747.598) * (-18749.605) (-18745.202) (-18749.642) [-18745.223] -- 0:34:00
      86500 -- (-18753.314) (-18754.940) (-18750.636) [-18749.517] * [-18739.448] (-18748.137) (-18746.412) (-18740.453) -- 0:33:58
      87000 -- (-18757.572) [-18745.067] (-18750.389) (-18747.655) * (-18748.471) (-18743.412) (-18740.412) [-18746.038] -- 0:33:55
      87500 -- (-18756.054) (-18748.989) [-18747.800] (-18745.236) * (-18746.431) [-18748.020] (-18747.848) (-18754.727) -- 0:33:53
      88000 -- (-18748.310) [-18743.234] (-18739.510) (-18755.948) * [-18741.222] (-18748.858) (-18756.048) (-18745.660) -- 0:33:51
      88500 -- [-18744.078] (-18748.738) (-18744.958) (-18744.951) * (-18750.635) (-18750.792) (-18740.919) [-18745.745] -- 0:33:48
      89000 -- (-18747.787) (-18742.271) [-18739.799] (-18744.127) * (-18752.071) [-18750.862] (-18741.958) (-18743.139) -- 0:33:46
      89500 -- (-18756.646) (-18744.392) (-18750.380) [-18747.221] * [-18744.435] (-18742.764) (-18750.617) (-18743.547) -- 0:33:44
      90000 -- (-18747.681) [-18746.504] (-18746.231) (-18745.673) * (-18744.544) (-18752.356) (-18740.520) [-18743.427] -- 0:33:42

      Average standard deviation of split frequencies: 0.013865

      90500 -- (-18751.190) (-18744.270) (-18752.359) [-18750.192] * (-18746.610) (-18751.637) [-18741.977] (-18747.095) -- 0:33:50
      91000 -- (-18755.910) (-18747.482) (-18755.661) [-18751.235] * (-18742.829) (-18741.667) [-18751.248] (-18748.464) -- 0:33:47
      91500 -- (-18744.807) [-18747.939] (-18748.448) (-18759.175) * [-18749.011] (-18746.090) (-18745.188) (-18739.335) -- 0:33:45
      92000 -- (-18748.765) [-18752.654] (-18745.921) (-18764.179) * (-18752.628) (-18754.910) [-18750.464] (-18748.948) -- 0:33:43
      92500 -- (-18756.282) [-18752.043] (-18746.320) (-18749.701) * (-18751.884) (-18745.603) (-18752.212) [-18746.026] -- 0:33:41
      93000 -- (-18761.351) (-18754.797) [-18739.471] (-18743.680) * (-18759.668) [-18745.612] (-18750.016) (-18750.775) -- 0:33:38
      93500 -- (-18751.555) (-18747.110) [-18744.658] (-18748.441) * (-18752.246) (-18748.309) [-18747.965] (-18741.234) -- 0:33:36
      94000 -- (-18758.584) [-18742.739] (-18747.253) (-18741.849) * (-18749.799) [-18754.343] (-18748.825) (-18746.073) -- 0:33:34
      94500 -- (-18754.959) (-18745.644) (-18751.775) [-18746.339] * (-18750.423) (-18745.502) (-18747.698) [-18747.889] -- 0:33:41
      95000 -- (-18744.789) [-18749.794] (-18748.391) (-18753.617) * (-18749.666) (-18754.160) (-18750.485) [-18748.485] -- 0:33:39

      Average standard deviation of split frequencies: 0.010912

      95500 -- (-18744.699) [-18752.950] (-18748.122) (-18756.370) * (-18739.584) (-18745.014) (-18750.656) [-18740.741] -- 0:33:37
      96000 -- (-18755.461) (-18749.491) (-18750.535) [-18740.526] * (-18742.459) (-18746.039) (-18749.326) [-18738.790] -- 0:33:35
      96500 -- (-18761.712) (-18740.963) (-18752.928) [-18743.126] * (-18743.811) (-18750.309) (-18753.628) [-18743.707] -- 0:33:32
      97000 -- (-18748.653) (-18752.932) [-18746.534] (-18752.612) * (-18746.403) (-18751.039) (-18738.781) [-18739.502] -- 0:33:30
      97500 -- (-18751.388) [-18748.265] (-18740.434) (-18754.376) * (-18751.125) [-18754.162] (-18739.817) (-18753.548) -- 0:33:28
      98000 -- (-18746.085) (-18753.187) (-18744.675) [-18740.562] * (-18750.299) (-18743.182) (-18740.131) [-18749.484] -- 0:33:26
      98500 -- (-18747.727) (-18746.818) [-18750.807] (-18744.460) * (-18755.564) (-18751.314) (-18744.598) [-18739.642] -- 0:33:24
      99000 -- (-18741.459) [-18740.178] (-18747.034) (-18750.842) * [-18751.608] (-18753.462) (-18751.090) (-18747.191) -- 0:33:31
      99500 -- (-18752.496) (-18746.533) [-18754.719] (-18745.864) * (-18744.846) (-18753.171) (-18746.940) [-18745.228] -- 0:33:29
      100000 -- (-18747.272) (-18747.528) (-18751.117) [-18744.582] * (-18740.123) [-18751.306] (-18753.988) (-18748.701) -- 0:33:27

      Average standard deviation of split frequencies: 0.011447

      100500 -- (-18744.388) [-18738.709] (-18739.289) (-18744.150) * (-18745.918) (-18760.353) [-18747.312] (-18746.969) -- 0:33:24
      101000 -- (-18740.776) (-18738.798) [-18743.825] (-18746.273) * (-18741.958) (-18752.200) (-18747.247) [-18741.513] -- 0:33:22
      101500 -- [-18746.005] (-18751.023) (-18741.928) (-18750.576) * [-18742.077] (-18745.978) (-18741.006) (-18754.796) -- 0:33:20
      102000 -- (-18751.445) (-18745.567) [-18746.123] (-18754.021) * (-18745.030) (-18752.751) (-18748.435) [-18744.789] -- 0:33:18
      102500 -- [-18746.165] (-18743.532) (-18742.655) (-18746.198) * (-18748.134) (-18746.480) (-18752.838) [-18743.913] -- 0:33:16
      103000 -- (-18746.091) (-18745.069) [-18744.869] (-18748.905) * (-18744.657) (-18755.751) [-18745.894] (-18757.028) -- 0:33:14
      103500 -- [-18747.988] (-18744.894) (-18748.649) (-18742.989) * (-18748.864) [-18744.498] (-18748.998) (-18747.993) -- 0:33:20
      104000 -- [-18743.140] (-18755.141) (-18749.456) (-18754.080) * (-18740.104) [-18739.656] (-18746.378) (-18745.452) -- 0:33:18
      104500 -- (-18745.335) (-18751.596) [-18746.190] (-18753.198) * (-18739.594) [-18739.964] (-18751.909) (-18751.710) -- 0:33:16
      105000 -- (-18741.203) (-18742.516) (-18756.460) [-18741.535] * (-18755.325) [-18745.608] (-18750.149) (-18742.585) -- 0:33:14

      Average standard deviation of split frequencies: 0.008894

      105500 -- (-18747.928) (-18746.070) [-18755.556] (-18747.971) * (-18747.578) (-18748.535) (-18741.417) [-18753.148] -- 0:33:12
      106000 -- [-18746.504] (-18749.432) (-18742.602) (-18747.425) * (-18750.450) [-18742.321] (-18745.089) (-18748.063) -- 0:33:10
      106500 -- (-18754.701) (-18746.683) (-18757.421) [-18748.240] * [-18744.745] (-18748.681) (-18744.428) (-18746.867) -- 0:33:08
      107000 -- (-18753.800) [-18748.694] (-18746.909) (-18753.148) * (-18749.130) [-18747.647] (-18745.644) (-18749.311) -- 0:33:06
      107500 -- (-18746.388) [-18741.240] (-18750.659) (-18748.604) * (-18751.364) (-18749.762) (-18749.557) [-18745.732] -- 0:33:04
      108000 -- (-18744.016) (-18756.519) (-18755.555) [-18744.115] * (-18742.026) (-18753.930) [-18743.512] (-18746.447) -- 0:33:10
      108500 -- (-18743.244) (-18760.725) (-18761.159) [-18747.937] * (-18742.883) [-18747.334] (-18752.604) (-18748.314) -- 0:33:08
      109000 -- [-18739.547] (-18753.353) (-18753.332) (-18755.400) * [-18748.923] (-18752.540) (-18748.523) (-18743.985) -- 0:33:06
      109500 -- (-18754.345) [-18748.345] (-18754.036) (-18744.861) * [-18745.369] (-18745.724) (-18746.052) (-18741.075) -- 0:33:04
      110000 -- (-18746.592) (-18747.003) (-18751.787) [-18748.679] * (-18754.176) (-18754.075) (-18750.854) [-18742.124] -- 0:33:02

      Average standard deviation of split frequencies: 0.005680

      110500 -- (-18750.314) (-18744.707) (-18738.904) [-18747.084] * (-18755.952) (-18742.910) [-18740.795] (-18747.022) -- 0:33:00
      111000 -- [-18761.200] (-18752.783) (-18748.601) (-18749.050) * (-18752.397) [-18747.399] (-18745.346) (-18746.110) -- 0:32:58
      111500 -- (-18746.115) (-18757.360) (-18761.707) [-18745.768] * [-18750.595] (-18750.345) (-18748.732) (-18749.838) -- 0:32:56
      112000 -- (-18742.714) [-18750.106] (-18749.479) (-18744.809) * [-18748.319] (-18748.397) (-18756.522) (-18741.980) -- 0:32:54
      112500 -- (-18754.775) (-18740.923) (-18756.697) [-18743.651] * (-18740.814) (-18753.119) [-18750.796] (-18752.248) -- 0:33:00
      113000 -- (-18755.718) (-18747.501) [-18745.667] (-18759.372) * (-18742.683) [-18747.273] (-18744.325) (-18744.113) -- 0:32:58
      113500 -- [-18751.582] (-18744.749) (-18762.908) (-18748.906) * [-18745.799] (-18748.058) (-18745.125) (-18744.762) -- 0:32:56
      114000 -- (-18761.142) (-18741.054) [-18750.732] (-18753.626) * (-18748.918) (-18741.590) (-18747.262) [-18742.316] -- 0:32:54
      114500 -- (-18753.528) (-18745.091) [-18744.258] (-18748.902) * (-18748.187) [-18739.827] (-18752.151) (-18742.793) -- 0:32:52
      115000 -- [-18750.632] (-18751.456) (-18752.804) (-18744.381) * (-18750.036) (-18743.835) [-18742.173] (-18749.909) -- 0:32:50

      Average standard deviation of split frequencies: 0.005418

      115500 -- [-18749.973] (-18752.803) (-18747.690) (-18752.873) * (-18741.177) (-18741.307) [-18745.777] (-18751.057) -- 0:32:48
      116000 -- [-18750.082] (-18753.652) (-18760.380) (-18742.589) * [-18749.935] (-18744.398) (-18752.219) (-18743.761) -- 0:32:46
      116500 -- (-18747.347) (-18749.746) [-18753.616] (-18742.104) * (-18746.708) (-18742.311) [-18750.620] (-18744.221) -- 0:32:44
      117000 -- (-18748.695) (-18748.860) (-18748.191) [-18747.720] * [-18747.556] (-18745.376) (-18741.418) (-18747.961) -- 0:32:49
      117500 -- (-18746.185) [-18734.913] (-18746.048) (-18745.745) * (-18747.932) [-18743.968] (-18744.659) (-18755.461) -- 0:32:47
      118000 -- (-18745.407) (-18742.053) (-18749.257) [-18744.192] * (-18757.227) [-18741.012] (-18743.979) (-18744.326) -- 0:32:45
      118500 -- [-18758.359] (-18753.929) (-18748.162) (-18744.152) * (-18739.833) [-18749.847] (-18747.421) (-18744.020) -- 0:32:43
      119000 -- (-18756.206) (-18747.920) [-18739.195] (-18749.875) * (-18750.674) (-18747.555) (-18740.278) [-18739.420] -- 0:32:41
      119500 -- (-18755.726) (-18745.506) [-18742.443] (-18763.863) * (-18749.715) (-18744.345) (-18752.253) [-18745.451] -- 0:32:39
      120000 -- (-18752.093) [-18746.699] (-18742.026) (-18744.727) * (-18763.432) [-18755.911] (-18750.414) (-18743.980) -- 0:32:38

      Average standard deviation of split frequencies: 0.004341

      120500 -- [-18744.783] (-18750.843) (-18746.556) (-18754.376) * (-18753.004) (-18741.025) (-18755.419) [-18745.503] -- 0:32:36
      121000 -- (-18753.263) [-18760.691] (-18735.705) (-18747.098) * (-18748.066) (-18748.537) (-18749.590) [-18741.509] -- 0:32:34
      121500 -- (-18761.767) (-18752.638) (-18745.354) [-18745.599] * (-18741.957) (-18750.947) (-18743.210) [-18751.235] -- 0:32:39
      122000 -- (-18746.633) (-18752.040) (-18745.629) [-18749.548] * (-18750.684) (-18742.292) (-18747.974) [-18749.408] -- 0:32:37
      122500 -- (-18759.634) (-18735.125) [-18743.434] (-18750.763) * (-18747.935) [-18748.590] (-18748.160) (-18749.347) -- 0:32:35
      123000 -- (-18756.840) [-18746.867] (-18748.644) (-18755.605) * (-18752.551) (-18749.715) (-18745.923) [-18747.648] -- 0:32:33
      123500 -- (-18746.777) (-18750.128) (-18740.595) [-18746.976] * (-18747.184) (-18743.193) [-18745.533] (-18754.729) -- 0:32:31
      124000 -- (-18746.006) [-18749.658] (-18743.245) (-18751.738) * (-18746.086) [-18738.554] (-18749.804) (-18742.644) -- 0:32:29
      124500 -- (-18753.309) (-18749.364) (-18757.703) [-18749.118] * (-18751.674) (-18744.440) (-18749.740) [-18749.041] -- 0:32:27
      125000 -- (-18749.591) (-18757.639) (-18749.352) [-18744.955] * (-18755.208) (-18748.907) (-18755.473) [-18739.738] -- 0:32:25

      Average standard deviation of split frequencies: 0.007483

      125500 -- (-18748.923) [-18749.888] (-18744.776) (-18741.930) * (-18751.998) (-18745.412) [-18755.625] (-18744.377) -- 0:32:31
      126000 -- (-18755.220) (-18744.363) (-18747.387) [-18751.143] * (-18764.372) [-18745.358] (-18748.943) (-18748.005) -- 0:32:29
      126500 -- (-18753.723) (-18742.949) [-18743.452] (-18740.244) * (-18744.709) [-18750.351] (-18741.928) (-18748.923) -- 0:32:27
      127000 -- [-18743.405] (-18743.946) (-18747.818) (-18749.419) * (-18750.676) (-18750.015) (-18743.082) [-18742.784] -- 0:32:25
      127500 -- (-18754.285) [-18739.698] (-18743.616) (-18749.049) * (-18745.473) [-18747.479] (-18739.588) (-18748.447) -- 0:32:23
      128000 -- (-18744.051) (-18752.202) (-18744.680) [-18749.740] * (-18754.768) (-18748.562) [-18744.318] (-18748.570) -- 0:32:21
      128500 -- (-18746.741) (-18748.834) [-18747.465] (-18738.105) * (-18763.195) [-18748.475] (-18739.979) (-18742.547) -- 0:32:19
      129000 -- (-18751.374) (-18763.635) (-18744.195) [-18753.416] * (-18754.896) [-18748.125] (-18742.270) (-18750.397) -- 0:32:17
      129500 -- (-18755.096) (-18747.480) [-18753.097] (-18746.500) * (-18749.099) (-18754.135) [-18757.419] (-18744.863) -- 0:32:15
      130000 -- (-18749.126) (-18748.781) [-18749.216] (-18744.169) * (-18749.278) (-18757.653) (-18749.243) [-18746.634] -- 0:32:20

      Average standard deviation of split frequencies: 0.008819

      130500 -- [-18749.100] (-18741.546) (-18754.326) (-18746.154) * (-18749.308) [-18751.252] (-18746.104) (-18748.086) -- 0:32:18
      131000 -- (-18747.287) (-18744.802) (-18748.202) [-18747.861] * [-18741.636] (-18747.505) (-18753.150) (-18756.534) -- 0:32:17
      131500 -- [-18748.376] (-18745.340) (-18753.971) (-18744.272) * (-18745.340) [-18743.241] (-18751.586) (-18752.873) -- 0:32:15
      132000 -- (-18750.631) (-18747.253) [-18749.718] (-18747.481) * (-18745.382) [-18744.170] (-18751.688) (-18753.725) -- 0:32:13
      132500 -- [-18742.309] (-18744.271) (-18751.027) (-18745.082) * (-18747.489) (-18754.890) [-18753.540] (-18750.591) -- 0:32:11
      133000 -- [-18742.574] (-18756.733) (-18756.274) (-18747.328) * [-18744.064] (-18757.089) (-18745.181) (-18760.377) -- 0:32:09
      133500 -- (-18747.848) (-18749.029) [-18749.724] (-18746.648) * [-18745.409] (-18751.928) (-18745.537) (-18756.975) -- 0:32:14
      134000 -- (-18748.505) [-18744.000] (-18744.310) (-18755.170) * (-18753.441) (-18749.131) [-18744.613] (-18745.467) -- 0:32:12
      134500 -- [-18753.074] (-18752.251) (-18751.168) (-18748.583) * [-18741.647] (-18745.410) (-18748.200) (-18751.380) -- 0:32:10
      135000 -- (-18752.855) [-18748.827] (-18743.602) (-18746.203) * [-18748.384] (-18751.629) (-18743.615) (-18742.030) -- 0:32:08

      Average standard deviation of split frequencies: 0.007703

      135500 -- (-18743.114) [-18749.268] (-18745.670) (-18750.161) * [-18741.379] (-18749.867) (-18741.691) (-18754.505) -- 0:32:13
      136000 -- (-18754.197) [-18748.987] (-18748.702) (-18752.747) * (-18747.753) [-18748.045] (-18744.001) (-18748.508) -- 0:32:11
      136500 -- (-18740.458) (-18751.553) [-18747.206] (-18758.677) * [-18744.627] (-18754.571) (-18745.584) (-18755.638) -- 0:32:09
      137000 -- [-18744.717] (-18745.478) (-18751.917) (-18753.179) * (-18747.197) (-18754.184) [-18754.460] (-18743.190) -- 0:32:07
      137500 -- (-18745.577) [-18748.819] (-18753.354) (-18754.784) * (-18740.984) (-18752.191) (-18741.511) [-18743.448] -- 0:32:05
      138000 -- (-18749.871) (-18745.108) [-18744.226] (-18748.800) * (-18742.822) (-18752.434) [-18741.483] (-18753.946) -- 0:32:03
      138500 -- (-18751.740) (-18745.655) (-18749.994) [-18740.926] * [-18747.605] (-18745.122) (-18740.239) (-18760.578) -- 0:32:02
      139000 -- (-18746.141) [-18749.959] (-18750.328) (-18739.751) * (-18748.162) [-18746.666] (-18747.257) (-18751.351) -- 0:32:00
      139500 -- (-18742.887) (-18743.699) [-18743.331] (-18737.530) * [-18751.754] (-18748.952) (-18745.499) (-18747.642) -- 0:31:58
      140000 -- (-18749.935) (-18741.963) (-18746.523) [-18745.760] * [-18744.566] (-18757.862) (-18759.606) (-18748.408) -- 0:32:02

      Average standard deviation of split frequencies: 0.010426

      140500 -- [-18746.334] (-18754.524) (-18744.934) (-18751.027) * (-18749.906) [-18753.733] (-18746.508) (-18753.401) -- 0:32:00
      141000 -- [-18745.864] (-18752.953) (-18749.105) (-18749.756) * [-18751.732] (-18750.745) (-18741.244) (-18754.629) -- 0:31:59
      141500 -- (-18748.033) [-18741.412] (-18744.406) (-18747.286) * (-18747.237) [-18742.388] (-18747.533) (-18747.747) -- 0:31:57
      142000 -- (-18748.068) [-18738.885] (-18744.507) (-18753.318) * [-18743.888] (-18743.629) (-18744.095) (-18750.592) -- 0:31:55
      142500 -- [-18752.196] (-18746.077) (-18749.623) (-18749.726) * (-18748.471) (-18748.519) (-18753.383) [-18741.650] -- 0:31:53
      143000 -- (-18750.923) (-18747.288) [-18743.513] (-18748.767) * [-18744.211] (-18748.834) (-18745.005) (-18739.950) -- 0:31:51
      143500 -- (-18754.737) [-18747.812] (-18740.600) (-18739.676) * [-18743.139] (-18748.628) (-18750.587) (-18751.369) -- 0:31:49
      144000 -- (-18749.954) [-18749.899] (-18747.552) (-18747.098) * (-18739.886) (-18750.088) [-18743.248] (-18748.253) -- 0:31:48
      144500 -- (-18746.973) (-18750.919) [-18744.224] (-18744.419) * (-18742.169) [-18748.011] (-18746.967) (-18740.352) -- 0:31:52
      145000 -- [-18744.076] (-18756.266) (-18742.354) (-18742.214) * (-18743.019) [-18740.964] (-18755.841) (-18739.126) -- 0:31:50

      Average standard deviation of split frequencies: 0.007893

      145500 -- (-18749.861) (-18758.573) (-18753.105) [-18745.177] * (-18749.981) [-18741.453] (-18742.885) (-18751.288) -- 0:31:48
      146000 -- (-18749.759) [-18744.990] (-18746.287) (-18749.913) * [-18741.941] (-18748.077) (-18751.678) (-18748.932) -- 0:31:46
      146500 -- (-18751.256) (-18750.937) (-18753.634) [-18742.143] * (-18745.904) (-18752.224) [-18748.629] (-18740.974) -- 0:31:45
      147000 -- (-18752.950) [-18748.674] (-18750.060) (-18764.738) * (-18749.657) (-18755.955) (-18747.224) [-18744.857] -- 0:31:43
      147500 -- [-18745.529] (-18751.850) (-18752.751) (-18754.532) * [-18739.328] (-18755.780) (-18741.041) (-18743.991) -- 0:31:41
      148000 -- (-18744.859) [-18748.843] (-18750.654) (-18754.643) * (-18748.150) (-18756.727) [-18749.370] (-18750.182) -- 0:31:39
      148500 -- (-18755.277) [-18747.033] (-18747.636) (-18743.740) * (-18737.729) (-18757.136) (-18751.582) [-18747.835] -- 0:31:43
      149000 -- (-18751.811) [-18750.480] (-18746.185) (-18752.289) * [-18746.111] (-18750.865) (-18750.084) (-18744.632) -- 0:31:41
      149500 -- (-18749.926) (-18752.614) [-18742.815] (-18748.081) * [-18748.628] (-18745.507) (-18751.208) (-18752.047) -- 0:31:40
      150000 -- [-18747.935] (-18750.574) (-18744.157) (-18755.985) * (-18741.432) (-18754.528) (-18744.734) [-18744.357] -- 0:31:38

      Average standard deviation of split frequencies: 0.007648

      150500 -- (-18753.562) (-18751.225) (-18747.273) [-18742.645] * (-18745.757) (-18753.272) [-18742.232] (-18747.545) -- 0:31:36
      151000 -- (-18747.487) (-18741.772) (-18746.008) [-18742.150] * (-18748.543) (-18744.544) [-18751.183] (-18746.459) -- 0:31:34
      151500 -- (-18746.982) [-18750.576] (-18750.384) (-18744.329) * (-18750.751) (-18757.317) (-18744.249) [-18749.406] -- 0:31:33
      152000 -- (-18762.651) [-18739.092] (-18749.727) (-18745.771) * [-18749.153] (-18754.952) (-18756.956) (-18747.860) -- 0:31:31
      152500 -- [-18746.533] (-18743.362) (-18751.732) (-18749.006) * (-18745.824) (-18752.475) (-18756.286) [-18748.672] -- 0:31:35
      153000 -- (-18748.099) (-18754.740) [-18746.386] (-18743.739) * (-18745.908) [-18742.452] (-18746.330) (-18747.792) -- 0:31:33
      153500 -- [-18740.553] (-18758.928) (-18747.678) (-18743.847) * [-18741.281] (-18745.088) (-18747.365) (-18764.134) -- 0:31:31
      154000 -- [-18740.422] (-18750.529) (-18748.356) (-18740.294) * (-18749.975) (-18748.293) (-18749.614) [-18747.558] -- 0:31:29
      154500 -- (-18753.424) (-18740.723) [-18747.510] (-18747.116) * [-18746.128] (-18748.129) (-18750.382) (-18745.079) -- 0:31:28
      155000 -- (-18744.720) (-18753.856) (-18739.829) [-18743.756] * (-18745.606) [-18743.241] (-18754.133) (-18753.714) -- 0:31:26

      Average standard deviation of split frequencies: 0.009401

      155500 -- (-18745.854) (-18748.867) [-18746.244] (-18748.386) * [-18738.963] (-18746.456) (-18746.833) (-18754.113) -- 0:31:24
      156000 -- (-18745.677) [-18740.512] (-18740.535) (-18749.848) * (-18752.583) (-18738.753) (-18749.596) [-18752.360] -- 0:31:22
      156500 -- [-18747.630] (-18746.957) (-18748.030) (-18741.954) * (-18749.237) [-18744.861] (-18748.601) (-18746.752) -- 0:31:26
      157000 -- [-18744.419] (-18742.118) (-18746.058) (-18745.103) * (-18747.087) (-18749.740) (-18748.404) [-18742.716] -- 0:31:24
      157500 -- (-18757.813) [-18744.902] (-18744.477) (-18748.033) * [-18738.233] (-18746.046) (-18758.340) (-18741.491) -- 0:31:22
      158000 -- (-18747.118) (-18742.944) [-18745.101] (-18749.897) * [-18742.184] (-18745.398) (-18753.852) (-18747.051) -- 0:31:21
      158500 -- (-18744.298) [-18746.180] (-18748.259) (-18758.220) * [-18744.694] (-18747.750) (-18742.625) (-18741.857) -- 0:31:19
      159000 -- (-18750.126) (-18743.111) (-18752.980) [-18746.791] * [-18742.800] (-18752.819) (-18741.353) (-18755.714) -- 0:31:17
      159500 -- [-18740.058] (-18742.713) (-18741.844) (-18746.810) * (-18745.428) (-18752.670) [-18743.169] (-18744.261) -- 0:31:15
      160000 -- (-18753.482) (-18746.477) (-18743.519) [-18750.454] * (-18745.941) (-18751.553) [-18752.487] (-18744.618) -- 0:31:14

      Average standard deviation of split frequencies: 0.008476

      160500 -- (-18750.377) [-18746.311] (-18750.002) (-18747.832) * (-18747.734) (-18748.701) [-18749.115] (-18746.768) -- 0:31:12
      161000 -- (-18752.423) (-18751.505) (-18748.090) [-18746.115] * [-18756.198] (-18753.953) (-18743.670) (-18755.186) -- 0:31:16
      161500 -- (-18739.228) [-18750.007] (-18752.884) (-18746.103) * (-18754.924) [-18744.867] (-18736.031) (-18750.546) -- 0:31:14
      162000 -- (-18745.505) (-18755.903) (-18744.333) [-18752.900] * (-18747.896) [-18748.173] (-18750.127) (-18745.998) -- 0:31:12
      162500 -- (-18745.318) (-18746.016) [-18745.879] (-18745.040) * (-18748.981) (-18740.959) [-18747.946] (-18754.770) -- 0:31:10
      163000 -- (-18756.930) (-18751.876) (-18746.949) [-18749.070] * (-18751.847) (-18746.166) [-18750.958] (-18746.079) -- 0:31:09
      163500 -- (-18747.002) (-18746.747) (-18749.909) [-18739.528] * (-18754.404) [-18741.843] (-18756.493) (-18740.992) -- 0:31:07
      164000 -- [-18747.025] (-18750.755) (-18741.697) (-18742.078) * [-18744.771] (-18754.112) (-18746.260) (-18741.282) -- 0:31:05
      164500 -- (-18746.616) [-18743.342] (-18744.268) (-18751.385) * (-18744.063) (-18754.508) (-18743.695) [-18742.647] -- 0:31:04
      165000 -- [-18750.589] (-18753.865) (-18745.728) (-18748.678) * (-18749.381) (-18752.078) (-18744.184) [-18745.772] -- 0:31:02

      Average standard deviation of split frequencies: 0.010097

      165500 -- (-18743.933) [-18751.405] (-18752.476) (-18748.127) * (-18746.676) [-18740.871] (-18743.348) (-18747.211) -- 0:31:05
      166000 -- [-18742.732] (-18747.790) (-18754.910) (-18744.461) * (-18739.370) (-18746.646) [-18749.092] (-18746.138) -- 0:31:03
      166500 -- (-18744.323) [-18743.014] (-18749.157) (-18754.723) * (-18752.768) (-18746.294) [-18739.194] (-18758.333) -- 0:31:02
      167000 -- (-18743.468) [-18750.126] (-18749.057) (-18752.045) * (-18741.932) (-18752.498) [-18745.626] (-18747.230) -- 0:31:00
      167500 -- [-18745.927] (-18751.463) (-18744.169) (-18744.226) * (-18748.644) (-18750.773) (-18745.813) [-18743.481] -- 0:30:58
      168000 -- (-18747.747) (-18746.607) [-18755.252] (-18753.898) * (-18745.147) (-18742.877) [-18747.549] (-18748.091) -- 0:30:57
      168500 -- (-18742.095) [-18745.892] (-18759.937) (-18752.867) * (-18743.235) (-18746.879) [-18753.075] (-18750.260) -- 0:30:55
      169000 -- (-18742.713) (-18743.527) [-18749.879] (-18748.459) * (-18750.019) [-18749.150] (-18749.062) (-18755.140) -- 0:30:53
      169500 -- (-18760.096) [-18741.832] (-18748.262) (-18756.186) * (-18744.046) (-18751.117) [-18745.072] (-18750.435) -- 0:30:56
      170000 -- (-18749.043) [-18745.627] (-18741.532) (-18749.727) * [-18740.682] (-18744.319) (-18745.742) (-18747.621) -- 0:30:55

      Average standard deviation of split frequencies: 0.010435

      170500 -- (-18751.696) [-18741.123] (-18746.821) (-18743.222) * [-18744.606] (-18749.055) (-18753.149) (-18752.378) -- 0:30:53
      171000 -- (-18754.693) [-18748.372] (-18747.069) (-18743.468) * (-18754.579) (-18741.911) [-18749.259] (-18744.945) -- 0:30:51
      171500 -- (-18760.685) (-18754.162) (-18740.424) [-18735.841] * (-18747.398) [-18746.612] (-18743.644) (-18746.991) -- 0:30:50
      172000 -- (-18747.679) (-18740.221) (-18749.174) [-18745.644] * (-18747.023) [-18743.591] (-18742.820) (-18746.235) -- 0:30:48
      172500 -- (-18749.657) (-18747.614) [-18749.097] (-18746.227) * (-18763.860) [-18752.102] (-18748.435) (-18738.469) -- 0:30:46
      173000 -- (-18748.231) (-18739.605) [-18755.017] (-18746.239) * (-18749.657) (-18746.848) (-18745.103) [-18739.543] -- 0:30:45
      173500 -- (-18745.749) [-18749.362] (-18750.554) (-18748.691) * (-18748.500) (-18740.164) (-18750.480) [-18742.154] -- 0:30:43
      174000 -- (-18742.245) [-18744.474] (-18751.901) (-18748.391) * (-18752.079) [-18747.725] (-18751.575) (-18741.997) -- 0:30:46
      174500 -- [-18748.241] (-18747.076) (-18744.980) (-18743.665) * (-18754.026) (-18747.818) [-18751.804] (-18752.740) -- 0:30:44
      175000 -- (-18751.573) (-18753.494) (-18747.975) [-18749.412] * (-18746.443) (-18750.895) [-18744.645] (-18746.374) -- 0:30:43

      Average standard deviation of split frequencies: 0.013690

      175500 -- [-18741.027] (-18755.210) (-18750.431) (-18758.127) * [-18745.528] (-18754.545) (-18746.809) (-18745.692) -- 0:30:41
      176000 -- (-18742.853) (-18756.912) [-18746.501] (-18754.800) * (-18760.318) (-18746.591) [-18757.890] (-18746.880) -- 0:30:39
      176500 -- (-18743.020) [-18740.595] (-18748.158) (-18752.910) * (-18748.784) (-18739.920) (-18753.920) [-18746.166] -- 0:30:38
      177000 -- (-18742.567) (-18739.820) [-18749.761] (-18744.020) * [-18742.406] (-18745.777) (-18750.919) (-18747.632) -- 0:30:36
      177500 -- (-18751.805) [-18742.056] (-18745.713) (-18747.652) * (-18746.610) [-18744.045] (-18744.482) (-18743.766) -- 0:30:34
      178000 -- (-18751.151) (-18743.820) (-18747.840) [-18745.740] * (-18745.050) (-18750.839) (-18748.694) [-18755.045] -- 0:30:33
      178500 -- (-18744.132) (-18744.949) (-18746.243) [-18749.422] * (-18747.313) (-18746.040) [-18744.667] (-18747.009) -- 0:30:36
      179000 -- (-18750.152) (-18752.046) [-18751.911] (-18748.024) * (-18749.041) [-18741.339] (-18747.649) (-18750.032) -- 0:30:34
      179500 -- (-18748.078) [-18744.961] (-18749.765) (-18751.081) * [-18752.930] (-18750.379) (-18745.656) (-18743.453) -- 0:30:32
      180000 -- (-18751.308) (-18746.611) (-18745.670) [-18760.393] * (-18753.279) [-18747.112] (-18749.027) (-18745.592) -- 0:30:31

      Average standard deviation of split frequencies: 0.012177

      180500 -- (-18740.161) (-18748.777) [-18742.664] (-18766.906) * (-18750.983) (-18743.229) (-18747.269) [-18744.235] -- 0:30:29
      181000 -- (-18748.444) (-18743.487) [-18742.667] (-18742.570) * (-18749.069) (-18750.741) [-18743.130] (-18744.618) -- 0:30:28
      181500 -- [-18749.150] (-18748.506) (-18747.483) (-18754.735) * (-18753.687) (-18749.721) [-18749.766] (-18740.791) -- 0:30:26
      182000 -- (-18751.976) (-18740.556) [-18746.852] (-18748.272) * (-18744.657) (-18746.447) (-18743.568) [-18748.139] -- 0:30:24
      182500 -- (-18745.424) [-18744.365] (-18739.613) (-18746.496) * [-18745.039] (-18744.435) (-18745.547) (-18751.189) -- 0:30:27
      183000 -- (-18753.171) (-18752.572) (-18750.127) [-18745.087] * (-18747.405) (-18744.188) [-18746.833] (-18757.140) -- 0:30:25
      183500 -- (-18755.165) (-18755.124) (-18747.216) [-18750.765] * (-18746.121) [-18739.514] (-18744.305) (-18761.515) -- 0:30:24
      184000 -- (-18747.866) (-18745.554) [-18745.670] (-18747.464) * (-18742.564) [-18739.089] (-18751.071) (-18745.763) -- 0:30:22
      184500 -- (-18742.556) (-18751.816) (-18748.264) [-18744.859] * (-18746.603) [-18746.736] (-18746.553) (-18752.103) -- 0:30:21
      185000 -- (-18751.835) (-18752.098) [-18750.965] (-18741.751) * [-18757.006] (-18756.167) (-18749.086) (-18751.091) -- 0:30:19

      Average standard deviation of split frequencies: 0.011827

      185500 -- (-18750.827) (-18748.021) [-18745.989] (-18752.060) * (-18753.837) (-18742.833) (-18746.249) [-18751.009] -- 0:30:17
      186000 -- (-18749.381) (-18752.369) (-18750.055) [-18747.866] * (-18740.695) (-18753.551) [-18745.901] (-18747.926) -- 0:30:16
      186500 -- (-18761.404) (-18738.018) [-18746.888] (-18745.610) * (-18746.770) [-18748.088] (-18747.254) (-18751.950) -- 0:30:14
      187000 -- [-18753.910] (-18755.006) (-18750.564) (-18741.341) * [-18745.309] (-18749.905) (-18758.888) (-18747.894) -- 0:30:17
      187500 -- (-18760.202) (-18758.766) (-18754.639) [-18747.825] * (-18752.461) [-18740.968] (-18748.634) (-18748.156) -- 0:30:15
      188000 -- (-18748.807) [-18747.400] (-18750.475) (-18751.625) * (-18744.005) (-18746.120) [-18750.236] (-18746.767) -- 0:30:14
      188500 -- (-18748.346) (-18743.072) [-18743.376] (-18761.087) * (-18740.848) (-18745.898) (-18742.313) [-18743.030] -- 0:30:12
      189000 -- (-18754.545) (-18742.240) [-18750.484] (-18753.785) * (-18753.048) (-18742.610) (-18760.078) [-18740.406] -- 0:30:10
      189500 -- (-18747.277) (-18755.343) (-18746.909) [-18749.166] * (-18747.187) [-18745.815] (-18744.820) (-18747.094) -- 0:30:09
      190000 -- (-18746.165) (-18745.291) (-18753.522) [-18744.674] * (-18746.304) (-18759.968) (-18753.677) [-18743.683] -- 0:30:07

      Average standard deviation of split frequencies: 0.014834

      190500 -- (-18747.907) [-18743.200] (-18742.142) (-18754.218) * (-18755.713) (-18747.316) (-18771.415) [-18744.022] -- 0:30:05
      191000 -- (-18751.042) (-18752.911) [-18748.366] (-18746.179) * (-18747.031) [-18744.049] (-18748.059) (-18742.481) -- 0:30:04
      191500 -- (-18747.705) (-18750.121) [-18747.541] (-18752.075) * (-18743.001) (-18738.330) (-18750.566) [-18744.632] -- 0:30:06
      192000 -- [-18752.985] (-18744.119) (-18746.101) (-18748.047) * (-18738.076) [-18749.363] (-18757.057) (-18746.686) -- 0:30:05
      192500 -- (-18745.658) (-18743.953) [-18748.808] (-18760.202) * (-18750.463) [-18750.323] (-18753.233) (-18747.186) -- 0:30:03
      193000 -- (-18749.158) (-18750.103) [-18746.924] (-18751.315) * [-18744.410] (-18746.208) (-18740.831) (-18751.689) -- 0:30:02
      193500 -- (-18743.808) (-18751.273) [-18744.337] (-18748.811) * (-18745.095) (-18745.980) (-18747.331) [-18745.730] -- 0:30:00
      194000 -- [-18744.376] (-18750.521) (-18747.240) (-18750.513) * (-18741.727) (-18744.805) [-18740.432] (-18751.608) -- 0:29:58
      194500 -- [-18747.994] (-18741.739) (-18743.413) (-18756.314) * (-18759.284) [-18751.741] (-18744.624) (-18753.663) -- 0:29:57
      195000 -- (-18747.948) [-18751.918] (-18747.619) (-18751.154) * (-18740.819) (-18748.329) (-18740.164) [-18748.364] -- 0:29:55

      Average standard deviation of split frequencies: 0.013362

      195500 -- (-18747.987) (-18748.446) [-18750.812] (-18748.013) * (-18749.001) (-18750.560) (-18762.053) [-18745.164] -- 0:29:54
      196000 -- (-18753.679) (-18752.344) (-18758.699) [-18751.312] * (-18746.077) (-18754.862) [-18749.819] (-18756.020) -- 0:29:56
      196500 -- (-18751.571) [-18748.715] (-18746.251) (-18746.355) * (-18744.795) [-18749.290] (-18749.665) (-18753.936) -- 0:29:55
      197000 -- (-18749.018) (-18752.738) [-18740.089] (-18742.541) * (-18755.625) (-18747.916) [-18746.111] (-18755.469) -- 0:29:53
      197500 -- (-18744.190) [-18757.001] (-18751.764) (-18750.920) * (-18753.162) [-18750.127] (-18750.175) (-18754.880) -- 0:29:51
      198000 -- (-18757.948) (-18744.573) [-18747.403] (-18745.333) * (-18752.078) (-18759.880) (-18740.450) [-18742.910] -- 0:29:50
      198500 -- (-18744.272) (-18741.853) (-18738.497) [-18739.152] * [-18753.933] (-18743.733) (-18742.582) (-18737.691) -- 0:29:48
      199000 -- (-18751.038) [-18743.347] (-18743.694) (-18755.452) * [-18743.619] (-18752.384) (-18750.445) (-18738.402) -- 0:29:47
      199500 -- [-18739.607] (-18745.211) (-18753.183) (-18746.479) * (-18747.220) (-18755.331) (-18758.744) [-18741.144] -- 0:29:45
      200000 -- (-18755.012) (-18747.115) [-18748.177] (-18747.070) * (-18746.392) (-18754.197) (-18746.304) [-18744.181] -- 0:29:48

      Average standard deviation of split frequencies: 0.013573

      200500 -- (-18746.429) (-18757.881) [-18747.689] (-18747.977) * (-18753.480) (-18752.994) (-18749.235) [-18739.697] -- 0:29:46
      201000 -- (-18743.632) (-18753.526) [-18746.447] (-18742.217) * [-18750.969] (-18741.516) (-18758.226) (-18750.817) -- 0:29:44
      201500 -- (-18749.102) (-18753.028) (-18752.505) [-18743.642] * (-18748.155) [-18745.996] (-18746.346) (-18742.627) -- 0:29:43
      202000 -- (-18747.863) [-18753.255] (-18747.377) (-18747.404) * (-18747.704) [-18751.159] (-18747.272) (-18745.401) -- 0:29:41
      202500 -- [-18742.874] (-18755.781) (-18751.246) (-18749.347) * (-18749.238) (-18744.689) [-18741.761] (-18743.535) -- 0:29:40
      203000 -- (-18738.880) (-18756.286) [-18744.932] (-18746.833) * (-18755.331) (-18749.808) (-18743.336) [-18743.861] -- 0:29:38
      203500 -- [-18742.464] (-18751.966) (-18751.757) (-18751.996) * (-18754.019) (-18756.198) (-18747.963) [-18740.958] -- 0:29:36
      204000 -- (-18746.426) (-18748.804) [-18744.816] (-18750.244) * (-18761.423) (-18749.428) [-18741.080] (-18743.769) -- 0:29:39
      204500 -- [-18739.464] (-18748.627) (-18749.783) (-18746.684) * (-18756.237) (-18752.283) [-18745.773] (-18749.325) -- 0:29:37
      205000 -- [-18738.981] (-18751.283) (-18739.146) (-18739.189) * [-18754.573] (-18746.585) (-18756.657) (-18744.707) -- 0:29:36

      Average standard deviation of split frequencies: 0.012713

      205500 -- (-18751.002) (-18751.165) [-18741.291] (-18758.469) * (-18740.648) (-18748.643) [-18742.309] (-18743.010) -- 0:29:34
      206000 -- (-18745.706) (-18747.189) (-18745.041) [-18752.624] * (-18740.887) (-18748.603) [-18748.243] (-18747.621) -- 0:29:33
      206500 -- (-18755.958) (-18746.109) [-18747.834] (-18754.254) * (-18752.974) (-18746.301) [-18747.347] (-18748.193) -- 0:29:31
      207000 -- (-18743.286) (-18757.003) [-18741.179] (-18754.818) * (-18763.243) (-18738.747) [-18736.963] (-18743.158) -- 0:29:29
      207500 -- (-18743.021) (-18758.099) (-18751.324) [-18746.959] * (-18746.164) [-18742.639] (-18750.073) (-18752.011) -- 0:29:28
      208000 -- (-18740.961) [-18745.861] (-18746.090) (-18743.161) * (-18742.519) [-18744.269] (-18746.944) (-18748.378) -- 0:29:30
      208500 -- (-18750.638) (-18755.845) (-18747.123) [-18742.619] * (-18743.284) [-18748.842] (-18756.105) (-18740.536) -- 0:29:29
      209000 -- [-18742.908] (-18753.653) (-18745.806) (-18754.101) * [-18752.929] (-18747.584) (-18744.440) (-18739.403) -- 0:29:27
      209500 -- (-18757.039) [-18748.453] (-18746.087) (-18742.085) * [-18749.261] (-18757.842) (-18749.946) (-18743.919) -- 0:29:25
      210000 -- (-18748.366) [-18747.261] (-18749.822) (-18741.847) * (-18759.771) (-18759.509) (-18756.547) [-18746.958] -- 0:29:24

      Average standard deviation of split frequencies: 0.013923

      210500 -- (-18748.963) (-18747.441) [-18745.221] (-18743.858) * (-18754.207) (-18750.441) [-18748.813] (-18740.138) -- 0:29:22
      211000 -- (-18747.326) (-18747.649) [-18742.031] (-18752.067) * [-18744.730] (-18754.404) (-18748.812) (-18742.921) -- 0:29:21
      211500 -- (-18754.252) (-18755.788) [-18746.267] (-18746.208) * (-18749.501) [-18742.712] (-18760.925) (-18748.299) -- 0:29:19
      212000 -- (-18747.878) (-18740.369) [-18749.767] (-18752.902) * (-18752.543) (-18749.010) [-18750.679] (-18752.554) -- 0:29:18
      212500 -- (-18751.539) (-18746.426) [-18747.686] (-18754.689) * (-18746.363) (-18755.637) (-18757.184) [-18745.184] -- 0:29:20
      213000 -- [-18741.111] (-18750.982) (-18745.879) (-18753.248) * (-18744.137) (-18754.519) [-18750.111] (-18744.919) -- 0:29:18
      213500 -- [-18747.288] (-18747.655) (-18752.060) (-18759.675) * (-18747.384) (-18752.246) [-18751.288] (-18751.555) -- 0:29:17
      214000 -- (-18747.221) (-18747.043) [-18750.110] (-18742.856) * (-18746.964) [-18749.929] (-18750.274) (-18755.376) -- 0:29:15
      214500 -- (-18744.592) (-18751.142) (-18753.051) [-18744.898] * [-18744.743] (-18749.623) (-18746.262) (-18739.885) -- 0:29:14
      215000 -- (-18741.873) (-18750.858) [-18741.208] (-18751.955) * (-18742.162) (-18749.355) (-18751.052) [-18738.679] -- 0:29:12

      Average standard deviation of split frequencies: 0.013580

      215500 -- (-18748.195) [-18751.359] (-18747.030) (-18759.417) * [-18745.492] (-18750.474) (-18766.014) (-18743.365) -- 0:29:11
      216000 -- [-18749.086] (-18747.093) (-18744.387) (-18746.008) * (-18746.122) (-18747.307) (-18744.602) [-18743.106] -- 0:29:09
      216500 -- (-18742.571) (-18745.937) [-18741.554] (-18746.082) * (-18746.467) (-18753.031) (-18744.539) [-18742.375] -- 0:29:07
      217000 -- (-18744.853) [-18748.995] (-18747.635) (-18743.159) * (-18743.176) (-18749.463) (-18743.036) [-18741.217] -- 0:29:10
      217500 -- [-18740.168] (-18746.979) (-18751.967) (-18753.838) * (-18742.177) (-18740.391) (-18748.733) [-18745.074] -- 0:29:08
      218000 -- (-18742.667) (-18753.042) (-18746.761) [-18747.419] * (-18742.752) [-18746.197] (-18745.520) (-18743.762) -- 0:29:06
      218500 -- (-18747.426) [-18753.993] (-18742.630) (-18749.823) * (-18748.841) (-18741.072) [-18748.454] (-18755.922) -- 0:29:05
      219000 -- [-18746.881] (-18745.879) (-18748.248) (-18744.008) * [-18751.346] (-18745.877) (-18746.542) (-18746.315) -- 0:29:03
      219500 -- [-18744.864] (-18751.263) (-18743.250) (-18756.314) * (-18744.515) [-18749.305] (-18739.732) (-18745.376) -- 0:29:02
      220000 -- [-18747.720] (-18739.705) (-18742.177) (-18752.721) * (-18748.267) (-18757.383) (-18739.019) [-18754.340] -- 0:29:00

      Average standard deviation of split frequencies: 0.012343

      220500 -- [-18759.255] (-18744.178) (-18758.272) (-18752.815) * [-18743.146] (-18751.748) (-18741.156) (-18756.331) -- 0:28:59
      221000 -- (-18752.692) (-18744.067) [-18740.612] (-18750.930) * (-18746.814) (-18752.507) [-18745.107] (-18746.060) -- 0:28:57
      221500 -- (-18751.023) [-18740.748] (-18745.803) (-18742.302) * (-18754.002) (-18750.174) [-18754.013] (-18750.713) -- 0:28:59
      222000 -- (-18755.165) (-18750.512) (-18741.993) [-18745.784] * (-18748.856) (-18755.819) [-18744.523] (-18750.627) -- 0:28:58
      222500 -- [-18748.941] (-18745.653) (-18739.999) (-18743.236) * (-18754.171) (-18750.239) [-18740.552] (-18743.768) -- 0:28:56
      223000 -- [-18748.773] (-18753.219) (-18747.204) (-18740.917) * (-18746.722) (-18748.185) (-18752.084) [-18740.176] -- 0:28:55
      223500 -- (-18750.411) (-18740.557) (-18747.975) [-18747.271] * (-18751.761) [-18741.988] (-18749.710) (-18744.366) -- 0:28:53
      224000 -- (-18742.593) [-18742.714] (-18751.511) (-18743.307) * [-18750.847] (-18750.713) (-18751.521) (-18745.782) -- 0:28:52
      224500 -- (-18750.993) [-18746.826] (-18749.262) (-18750.857) * (-18757.226) (-18746.999) (-18743.575) [-18749.572] -- 0:28:50
      225000 -- (-18749.124) (-18755.969) [-18743.890] (-18744.627) * (-18754.024) (-18741.529) (-18748.335) [-18741.356] -- 0:28:49

      Average standard deviation of split frequencies: 0.012979

      225500 -- (-18763.373) (-18745.447) (-18745.619) [-18738.980] * (-18743.167) (-18747.836) [-18745.744] (-18748.410) -- 0:28:51
      226000 -- (-18742.625) (-18755.215) [-18742.357] (-18744.766) * (-18759.116) (-18743.742) (-18743.169) [-18747.460] -- 0:28:49
      226500 -- (-18754.747) [-18748.288] (-18749.720) (-18741.339) * (-18742.183) (-18740.353) (-18750.105) [-18749.927] -- 0:28:47
      227000 -- (-18749.707) [-18739.662] (-18749.661) (-18749.677) * (-18746.074) (-18748.565) (-18750.604) [-18743.956] -- 0:28:46
      227500 -- (-18745.596) [-18739.691] (-18759.809) (-18763.053) * [-18741.644] (-18739.201) (-18743.691) (-18743.980) -- 0:28:44
      228000 -- (-18747.268) [-18742.752] (-18758.406) (-18750.499) * (-18754.060) [-18742.489] (-18746.026) (-18748.418) -- 0:28:43
      228500 -- (-18756.098) [-18747.102] (-18755.893) (-18748.114) * (-18753.557) (-18751.128) [-18749.025] (-18740.677) -- 0:28:41
      229000 -- (-18754.946) (-18748.366) (-18756.063) [-18744.281] * (-18749.023) [-18747.912] (-18749.684) (-18745.714) -- 0:28:40
      229500 -- (-18752.582) (-18752.472) (-18745.740) [-18750.386] * (-18763.828) [-18749.770] (-18742.848) (-18757.326) -- 0:28:38
      230000 -- (-18752.294) (-18752.181) (-18748.277) [-18752.472] * (-18760.127) (-18744.632) (-18750.067) [-18753.149] -- 0:28:40

      Average standard deviation of split frequencies: 0.010900

      230500 -- (-18751.168) [-18746.232] (-18748.025) (-18761.840) * (-18762.392) (-18747.057) (-18747.096) [-18740.208] -- 0:28:39
      231000 -- (-18746.792) (-18752.861) (-18746.772) [-18743.127] * (-18755.234) [-18745.940] (-18745.650) (-18741.903) -- 0:28:37
      231500 -- (-18760.249) [-18745.472] (-18753.098) (-18751.336) * (-18744.176) (-18745.237) (-18741.865) [-18747.125] -- 0:28:36
      232000 -- (-18760.575) [-18746.817] (-18749.270) (-18747.049) * (-18752.902) [-18744.007] (-18744.978) (-18743.735) -- 0:28:34
      232500 -- (-18768.257) (-18751.735) [-18744.956] (-18746.246) * (-18752.182) (-18748.533) (-18751.025) [-18746.292] -- 0:28:33
      233000 -- (-18756.950) (-18759.193) (-18742.601) [-18740.347] * (-18760.077) [-18750.111] (-18744.154) (-18748.743) -- 0:28:31
      233500 -- (-18747.530) (-18743.028) (-18749.873) [-18747.189] * (-18744.045) (-18753.426) (-18753.750) [-18747.920] -- 0:28:30
      234000 -- (-18754.429) (-18749.978) [-18750.598] (-18742.600) * [-18744.411] (-18750.739) (-18747.941) (-18740.444) -- 0:28:28
      234500 -- (-18745.026) (-18748.336) (-18743.693) [-18748.368] * (-18743.559) (-18747.717) (-18746.581) [-18753.945] -- 0:28:30
      235000 -- (-18757.930) (-18747.942) (-18751.191) [-18741.787] * [-18744.650] (-18744.463) (-18746.051) (-18743.520) -- 0:28:29

      Average standard deviation of split frequencies: 0.010653

      235500 -- (-18747.687) (-18747.889) [-18747.755] (-18745.601) * (-18741.466) [-18746.287] (-18743.668) (-18742.697) -- 0:28:27
      236000 -- (-18756.722) (-18752.110) (-18757.471) [-18744.173] * [-18742.217] (-18746.183) (-18753.598) (-18749.376) -- 0:28:26
      236500 -- [-18748.229] (-18753.743) (-18751.494) (-18758.130) * (-18742.798) (-18747.533) [-18746.071] (-18750.896) -- 0:28:24
      237000 -- (-18751.777) [-18745.799] (-18747.046) (-18743.821) * [-18744.023] (-18750.489) (-18749.175) (-18757.596) -- 0:28:23
      237500 -- (-18742.339) (-18756.004) (-18752.939) [-18745.237] * (-18743.276) (-18744.873) [-18746.159] (-18751.026) -- 0:28:21
      238000 -- (-18743.243) (-18750.953) (-18742.843) [-18749.074] * (-18758.172) [-18753.578] (-18755.052) (-18744.533) -- 0:28:20
      238500 -- [-18744.567] (-18746.423) (-18748.455) (-18741.378) * (-18757.439) [-18748.674] (-18751.432) (-18751.849) -- 0:28:18
      239000 -- (-18745.522) (-18747.957) (-18748.159) [-18747.045] * [-18741.614] (-18759.676) (-18751.551) (-18742.703) -- 0:28:20
      239500 -- [-18742.039] (-18756.878) (-18750.010) (-18744.730) * (-18745.802) (-18758.956) (-18745.720) [-18741.317] -- 0:28:18
      240000 -- (-18754.727) [-18747.407] (-18745.660) (-18749.078) * (-18740.139) (-18758.344) [-18741.458] (-18747.220) -- 0:28:17

      Average standard deviation of split frequencies: 0.011752

      240500 -- [-18743.805] (-18749.988) (-18743.108) (-18745.337) * [-18737.395] (-18755.132) (-18741.420) (-18748.064) -- 0:28:15
      241000 -- (-18744.143) [-18745.706] (-18751.268) (-18748.968) * (-18745.729) (-18751.429) (-18752.595) [-18749.177] -- 0:28:14
      241500 -- (-18747.197) (-18751.218) [-18739.010] (-18754.024) * [-18752.868] (-18751.687) (-18743.314) (-18747.898) -- 0:28:12
      242000 -- [-18741.854] (-18757.280) (-18745.432) (-18756.323) * [-18746.478] (-18752.541) (-18744.887) (-18740.616) -- 0:28:11
      242500 -- (-18744.732) (-18747.512) (-18747.255) [-18746.510] * [-18740.806] (-18747.130) (-18743.081) (-18743.435) -- 0:28:09
      243000 -- [-18741.413] (-18752.045) (-18748.181) (-18751.060) * (-18742.612) (-18747.340) (-18749.572) [-18742.193] -- 0:28:11
      243500 -- (-18750.156) (-18752.473) (-18756.591) [-18742.678] * [-18741.291] (-18745.705) (-18745.208) (-18749.944) -- 0:28:10
      244000 -- [-18750.513] (-18745.944) (-18752.526) (-18741.249) * (-18746.758) [-18743.414] (-18747.613) (-18757.290) -- 0:28:08
      244500 -- (-18750.527) (-18760.998) [-18742.671] (-18743.250) * (-18744.675) (-18747.058) (-18746.783) [-18740.210] -- 0:28:07
      245000 -- (-18752.987) [-18746.454] (-18747.233) (-18747.095) * (-18749.561) (-18742.655) (-18749.021) [-18742.193] -- 0:28:05

      Average standard deviation of split frequencies: 0.012775

      245500 -- (-18753.013) (-18742.490) [-18749.409] (-18736.827) * (-18745.885) (-18740.292) (-18752.104) [-18742.475] -- 0:28:04
      246000 -- (-18751.633) [-18742.516] (-18741.247) (-18750.834) * (-18754.964) (-18740.727) (-18744.345) [-18744.662] -- 0:28:02
      246500 -- [-18747.562] (-18745.303) (-18745.747) (-18750.454) * (-18747.550) (-18750.637) (-18752.122) [-18747.395] -- 0:28:01
      247000 -- [-18742.596] (-18745.759) (-18746.289) (-18747.274) * (-18749.428) (-18757.565) [-18740.913] (-18737.339) -- 0:27:59
      247500 -- (-18756.519) (-18749.325) [-18743.699] (-18753.414) * (-18741.971) (-18756.248) (-18743.771) [-18744.684] -- 0:28:01
      248000 -- (-18751.719) [-18757.503] (-18749.159) (-18760.275) * (-18751.459) [-18744.413] (-18749.861) (-18744.892) -- 0:27:59
      248500 -- (-18752.281) [-18742.002] (-18743.573) (-18750.091) * (-18750.627) (-18739.098) (-18751.435) [-18752.721] -- 0:27:58
      249000 -- (-18745.110) [-18742.820] (-18753.785) (-18755.463) * (-18748.652) (-18745.309) [-18744.506] (-18752.735) -- 0:27:56
      249500 -- (-18743.501) [-18744.963] (-18751.640) (-18747.108) * [-18742.913] (-18744.704) (-18751.048) (-18750.197) -- 0:27:55
      250000 -- [-18742.395] (-18757.385) (-18745.719) (-18749.320) * (-18748.585) [-18746.204] (-18749.125) (-18749.439) -- 0:27:54

      Average standard deviation of split frequencies: 0.012955

      250500 -- (-18744.897) (-18742.936) (-18745.710) [-18742.316] * (-18747.975) [-18739.410] (-18738.790) (-18746.859) -- 0:27:52
      251000 -- (-18744.307) [-18753.124] (-18757.447) (-18750.521) * (-18746.658) [-18739.642] (-18741.024) (-18755.871) -- 0:27:51
      251500 -- (-18741.618) [-18741.498] (-18758.048) (-18752.646) * [-18756.459] (-18739.582) (-18740.079) (-18752.253) -- 0:27:49
      252000 -- [-18749.143] (-18751.837) (-18744.904) (-18740.965) * (-18744.827) [-18740.969] (-18741.394) (-18745.404) -- 0:27:51
      252500 -- (-18749.894) (-18748.613) [-18754.579] (-18741.641) * (-18743.853) (-18744.666) (-18749.380) [-18740.937] -- 0:27:49
      253000 -- [-18743.410] (-18756.646) (-18754.795) (-18753.797) * [-18750.105] (-18748.158) (-18753.872) (-18743.306) -- 0:27:48
      253500 -- (-18744.298) (-18745.916) (-18749.815) [-18744.018] * (-18743.091) (-18754.921) (-18756.065) [-18742.690] -- 0:27:46
      254000 -- (-18749.835) (-18745.358) (-18740.298) [-18743.281] * (-18743.149) (-18741.411) (-18749.831) [-18744.241] -- 0:27:45
      254500 -- [-18749.557] (-18747.579) (-18742.560) (-18747.021) * (-18745.070) (-18742.456) (-18745.836) [-18749.254] -- 0:27:43
      255000 -- (-18747.995) (-18751.385) (-18746.134) [-18747.456] * (-18746.585) (-18748.303) [-18747.958] (-18740.794) -- 0:27:42

      Average standard deviation of split frequencies: 0.012685

      255500 -- (-18749.023) (-18762.197) (-18752.742) [-18753.276] * [-18752.537] (-18751.566) (-18748.052) (-18750.771) -- 0:27:43
      256000 -- [-18742.788] (-18749.879) (-18747.733) (-18747.719) * (-18740.869) (-18749.627) [-18742.920] (-18746.974) -- 0:27:42
      256500 -- [-18742.102] (-18754.582) (-18748.911) (-18755.606) * (-18741.861) (-18748.938) [-18742.219] (-18749.042) -- 0:27:40
      257000 -- [-18748.045] (-18748.467) (-18749.053) (-18759.375) * (-18748.689) [-18748.334] (-18743.407) (-18747.552) -- 0:27:39
      257500 -- (-18752.212) (-18739.174) (-18757.395) [-18742.821] * (-18755.775) (-18744.854) (-18743.981) [-18745.203] -- 0:27:38
      258000 -- (-18752.078) (-18746.113) (-18746.728) [-18744.436] * (-18752.726) (-18752.553) [-18743.492] (-18740.084) -- 0:27:36
      258500 -- (-18746.863) (-18747.545) [-18752.906] (-18755.637) * (-18750.667) [-18741.904] (-18741.606) (-18752.392) -- 0:27:35
      259000 -- [-18741.861] (-18742.552) (-18744.887) (-18744.371) * (-18737.486) (-18752.141) [-18743.078] (-18761.898) -- 0:27:36
      259500 -- [-18744.287] (-18759.671) (-18760.472) (-18751.397) * [-18741.649] (-18750.437) (-18742.794) (-18766.406) -- 0:27:35
      260000 -- (-18759.389) (-18743.948) (-18755.529) [-18742.751] * (-18756.457) (-18749.647) [-18748.248] (-18747.733) -- 0:27:33

      Average standard deviation of split frequencies: 0.012458

      260500 -- (-18737.983) (-18758.123) [-18752.075] (-18748.780) * (-18748.876) (-18754.310) [-18742.085] (-18751.547) -- 0:27:32
      261000 -- [-18744.588] (-18745.350) (-18748.688) (-18750.698) * (-18756.029) [-18747.190] (-18743.713) (-18758.440) -- 0:27:30
      261500 -- (-18743.394) [-18744.463] (-18755.136) (-18749.761) * [-18748.397] (-18751.726) (-18746.266) (-18750.977) -- 0:27:29
      262000 -- (-18754.424) (-18749.836) (-18747.053) [-18749.939] * (-18753.010) [-18748.351] (-18751.266) (-18745.618) -- 0:27:27
      262500 -- (-18743.966) (-18743.483) [-18747.344] (-18749.419) * (-18742.113) [-18756.342] (-18746.648) (-18753.852) -- 0:27:26
      263000 -- (-18748.281) (-18747.880) (-18742.321) [-18743.232] * [-18747.888] (-18746.972) (-18746.221) (-18749.358) -- 0:27:27
      263500 -- (-18749.002) (-18746.719) [-18741.318] (-18745.001) * (-18745.196) [-18740.417] (-18749.946) (-18756.160) -- 0:27:26
      264000 -- (-18752.394) (-18746.263) [-18748.004] (-18745.144) * [-18739.597] (-18757.164) (-18746.853) (-18746.402) -- 0:27:24
      264500 -- (-18748.163) [-18743.632] (-18749.352) (-18741.015) * (-18751.450) (-18740.779) (-18746.613) [-18743.392] -- 0:27:23
      265000 -- (-18749.120) [-18744.228] (-18746.496) (-18744.148) * (-18741.264) (-18751.414) [-18744.458] (-18751.769) -- 0:27:21

      Average standard deviation of split frequencies: 0.011815

      265500 -- [-18745.101] (-18755.277) (-18745.739) (-18744.810) * (-18751.499) [-18741.381] (-18749.308) (-18749.335) -- 0:27:20
      266000 -- (-18749.281) (-18757.772) (-18741.222) [-18751.205] * (-18750.733) [-18738.994] (-18744.547) (-18751.328) -- 0:27:19
      266500 -- (-18750.555) (-18746.069) (-18743.600) [-18747.575] * (-18746.262) (-18744.501) [-18750.259] (-18752.655) -- 0:27:17
      267000 -- [-18755.080] (-18748.011) (-18749.924) (-18748.368) * [-18743.284] (-18749.962) (-18743.717) (-18749.857) -- 0:27:16
      267500 -- [-18745.635] (-18751.051) (-18748.339) (-18743.861) * (-18746.948) [-18746.687] (-18741.806) (-18754.206) -- 0:27:17
      268000 -- (-18746.417) (-18751.492) [-18753.181] (-18742.168) * (-18747.801) (-18748.986) (-18740.926) [-18740.351] -- 0:27:16
      268500 -- [-18736.869] (-18744.695) (-18748.166) (-18749.200) * [-18742.809] (-18738.130) (-18748.201) (-18755.209) -- 0:27:14
      269000 -- (-18751.658) [-18744.772] (-18749.822) (-18743.037) * [-18741.808] (-18753.644) (-18751.610) (-18743.648) -- 0:27:13
      269500 -- [-18755.711] (-18749.588) (-18750.850) (-18757.609) * [-18738.326] (-18749.116) (-18745.885) (-18742.903) -- 0:27:11
      270000 -- (-18751.769) [-18742.272] (-18746.467) (-18746.619) * (-18744.757) (-18750.767) (-18748.491) [-18746.882] -- 0:27:10

      Average standard deviation of split frequencies: 0.010837

      270500 -- (-18753.274) [-18751.721] (-18744.549) (-18748.621) * [-18748.886] (-18756.750) (-18754.261) (-18742.962) -- 0:27:08
      271000 -- (-18744.847) [-18746.126] (-18746.636) (-18747.622) * (-18746.209) [-18748.728] (-18751.109) (-18747.290) -- 0:27:07
      271500 -- (-18745.051) [-18745.410] (-18758.068) (-18736.393) * (-18749.367) (-18750.221) [-18742.544] (-18757.377) -- 0:27:06
      272000 -- (-18748.980) (-18737.873) [-18737.686] (-18756.874) * [-18745.640] (-18762.145) (-18741.303) (-18752.473) -- 0:27:07
      272500 -- (-18746.382) [-18744.480] (-18743.966) (-18749.103) * (-18751.376) (-18758.796) [-18741.105] (-18757.806) -- 0:27:05
      273000 -- (-18745.281) [-18748.134] (-18765.350) (-18751.296) * (-18753.214) (-18755.345) [-18745.813] (-18748.123) -- 0:27:04
      273500 -- [-18749.136] (-18748.445) (-18753.581) (-18758.596) * [-18744.354] (-18754.732) (-18745.961) (-18754.760) -- 0:27:03
      274000 -- (-18752.395) (-18739.580) [-18750.364] (-18757.637) * (-18740.758) (-18745.054) [-18743.502] (-18756.518) -- 0:27:01
      274500 -- [-18745.116] (-18747.247) (-18746.731) (-18758.216) * (-18751.098) [-18743.048] (-18751.393) (-18750.787) -- 0:27:00
      275000 -- (-18747.558) [-18743.830] (-18753.606) (-18744.081) * [-18742.458] (-18755.289) (-18754.278) (-18750.046) -- 0:26:58

      Average standard deviation of split frequencies: 0.011387

      275500 -- (-18747.016) [-18741.455] (-18752.800) (-18743.875) * (-18751.727) (-18750.082) (-18757.786) [-18747.351] -- 0:26:57
      276000 -- (-18754.530) [-18743.612] (-18752.650) (-18753.010) * [-18751.768] (-18751.290) (-18751.091) (-18742.896) -- 0:26:55
      276500 -- (-18753.752) [-18744.214] (-18751.445) (-18748.550) * (-18743.280) (-18746.251) [-18750.273] (-18743.743) -- 0:26:57
      277000 -- (-18755.167) (-18743.619) (-18744.832) [-18744.244] * (-18754.033) [-18741.333] (-18751.753) (-18747.560) -- 0:26:55
      277500 -- [-18748.525] (-18749.933) (-18742.997) (-18742.576) * (-18745.003) (-18744.548) [-18746.724] (-18739.018) -- 0:26:54
      278000 -- (-18745.134) (-18754.457) [-18746.248] (-18740.153) * (-18748.214) [-18741.981] (-18746.665) (-18757.995) -- 0:26:52
      278500 -- [-18743.244] (-18746.350) (-18743.919) (-18741.824) * (-18759.862) (-18753.835) [-18744.586] (-18740.967) -- 0:26:51
      279000 -- (-18743.506) (-18747.849) (-18751.731) [-18747.499] * (-18748.675) (-18749.265) (-18757.145) [-18751.752] -- 0:26:49
      279500 -- (-18749.820) (-18741.984) (-18746.780) [-18748.684] * (-18743.861) [-18743.073] (-18753.136) (-18747.745) -- 0:26:48
      280000 -- (-18750.642) (-18754.746) (-18752.900) [-18742.554] * (-18744.885) (-18743.402) [-18742.476] (-18752.948) -- 0:26:47

      Average standard deviation of split frequencies: 0.011197

      280500 -- (-18749.940) (-18746.316) (-18751.752) [-18747.675] * [-18744.951] (-18748.018) (-18757.349) (-18751.886) -- 0:26:45
      281000 -- [-18750.931] (-18744.242) (-18747.696) (-18743.288) * (-18751.869) (-18749.802) (-18748.373) [-18750.723] -- 0:26:46
      281500 -- [-18741.847] (-18745.547) (-18749.422) (-18748.097) * (-18746.887) (-18746.987) (-18740.656) [-18750.098] -- 0:26:45
      282000 -- [-18748.643] (-18744.906) (-18750.651) (-18755.044) * [-18743.173] (-18741.353) (-18745.426) (-18746.243) -- 0:26:44
      282500 -- (-18753.059) (-18740.254) [-18750.647] (-18746.018) * (-18742.890) [-18740.992] (-18747.619) (-18750.064) -- 0:26:42
      283000 -- (-18745.445) (-18743.389) (-18746.442) [-18742.660] * (-18746.729) [-18748.249] (-18750.410) (-18755.678) -- 0:26:41
      283500 -- (-18745.902) [-18742.688] (-18743.898) (-18745.473) * (-18751.219) (-18746.061) (-18741.063) [-18751.041] -- 0:26:39
      284000 -- [-18747.500] (-18741.126) (-18748.939) (-18749.597) * [-18742.650] (-18742.552) (-18752.633) (-18748.305) -- 0:26:38
      284500 -- (-18747.300) [-18745.470] (-18742.495) (-18752.539) * [-18743.767] (-18745.303) (-18747.377) (-18744.431) -- 0:26:36
      285000 -- (-18748.527) (-18747.347) [-18742.352] (-18743.580) * (-18750.208) [-18741.065] (-18741.659) (-18750.599) -- 0:26:38

      Average standard deviation of split frequencies: 0.010622

      285500 -- (-18755.910) (-18748.614) [-18752.226] (-18754.567) * (-18754.710) [-18740.211] (-18745.585) (-18742.817) -- 0:26:36
      286000 -- (-18742.973) (-18748.478) (-18746.236) [-18749.694] * (-18749.619) (-18751.366) (-18749.600) [-18741.823] -- 0:26:35
      286500 -- (-18745.225) (-18744.534) [-18749.032] (-18751.609) * (-18750.080) (-18751.172) [-18743.528] (-18744.783) -- 0:26:33
      287000 -- [-18748.423] (-18747.142) (-18744.938) (-18747.992) * [-18744.011] (-18745.641) (-18743.753) (-18748.090) -- 0:26:32
      287500 -- [-18744.394] (-18751.151) (-18760.534) (-18741.889) * (-18751.446) (-18751.676) [-18756.951] (-18740.041) -- 0:26:31
      288000 -- (-18750.676) [-18746.916] (-18742.653) (-18749.887) * (-18751.573) (-18747.727) (-18753.850) [-18752.822] -- 0:26:29
      288500 -- [-18751.198] (-18743.665) (-18754.057) (-18750.623) * [-18745.721] (-18752.955) (-18753.942) (-18745.383) -- 0:26:28
      289000 -- (-18751.981) [-18745.304] (-18743.919) (-18750.224) * (-18747.348) [-18749.415] (-18745.352) (-18745.826) -- 0:26:26
      289500 -- (-18743.574) [-18739.242] (-18748.370) (-18740.875) * (-18745.444) (-18745.093) (-18745.139) [-18741.139] -- 0:26:27
      290000 -- (-18755.097) (-18746.798) (-18752.032) [-18739.492] * (-18751.715) (-18745.246) [-18750.449] (-18752.131) -- 0:26:26

      Average standard deviation of split frequencies: 0.010091

      290500 -- (-18749.339) (-18755.187) [-18752.165] (-18746.240) * (-18753.198) (-18751.458) [-18755.227] (-18745.680) -- 0:26:25
      291000 -- (-18747.471) [-18743.799] (-18752.927) (-18746.932) * (-18756.811) [-18750.966] (-18748.151) (-18747.614) -- 0:26:23
      291500 -- (-18756.341) (-18740.750) (-18748.688) [-18744.709] * [-18750.512] (-18748.787) (-18750.706) (-18744.816) -- 0:26:22
      292000 -- (-18742.496) (-18749.659) [-18740.721] (-18744.793) * (-18758.156) (-18741.571) [-18746.859] (-18752.853) -- 0:26:20
      292500 -- (-18738.389) (-18750.372) [-18742.766] (-18752.886) * [-18743.940] (-18752.965) (-18751.775) (-18744.165) -- 0:26:19
      293000 -- (-18738.719) [-18751.119] (-18743.850) (-18756.632) * [-18736.820] (-18756.885) (-18758.846) (-18743.741) -- 0:26:18
      293500 -- (-18742.828) (-18750.113) [-18742.972] (-18748.192) * (-18748.091) (-18753.224) (-18749.124) [-18741.493] -- 0:26:16
      294000 -- (-18741.466) [-18741.837] (-18750.448) (-18753.613) * (-18750.401) (-18748.187) [-18744.449] (-18757.108) -- 0:26:17
      294500 -- (-18752.435) [-18739.772] (-18736.172) (-18747.409) * (-18746.213) (-18745.867) [-18749.383] (-18754.837) -- 0:26:16
      295000 -- (-18745.305) [-18739.449] (-18743.293) (-18751.920) * (-18751.033) (-18744.350) [-18751.687] (-18745.946) -- 0:26:14

      Average standard deviation of split frequencies: 0.011325

      295500 -- [-18744.834] (-18742.897) (-18747.369) (-18754.453) * (-18746.435) (-18743.482) [-18747.878] (-18749.025) -- 0:26:13
      296000 -- (-18757.888) (-18743.810) (-18748.688) [-18746.215] * (-18750.315) [-18741.751] (-18744.343) (-18755.450) -- 0:26:12
      296500 -- (-18754.838) (-18743.311) (-18748.456) [-18743.186] * (-18745.125) [-18747.097] (-18757.158) (-18754.686) -- 0:26:10
      297000 -- (-18755.236) (-18748.622) [-18751.036] (-18749.319) * (-18741.837) (-18750.738) (-18751.261) [-18750.169] -- 0:26:09
      297500 -- (-18742.903) (-18749.289) [-18740.357] (-18755.321) * (-18744.000) (-18748.658) (-18754.041) [-18744.350] -- 0:26:07
      298000 -- [-18757.010] (-18745.903) (-18745.208) (-18740.964) * (-18744.106) [-18753.102] (-18743.314) (-18747.913) -- 0:26:06
      298500 -- (-18758.243) (-18752.258) [-18749.337] (-18744.528) * (-18747.141) (-18751.093) [-18748.775] (-18751.412) -- 0:26:07
      299000 -- (-18750.937) (-18748.550) [-18747.882] (-18748.131) * [-18748.755] (-18750.803) (-18746.059) (-18756.681) -- 0:26:06
      299500 -- (-18759.086) (-18752.345) [-18743.835] (-18745.805) * (-18745.511) (-18753.301) (-18753.098) [-18746.162] -- 0:26:04
      300000 -- (-18745.327) (-18749.298) [-18747.484] (-18744.905) * (-18757.690) (-18740.165) [-18744.784] (-18746.964) -- 0:26:03

      Average standard deviation of split frequencies: 0.010452

      300500 -- (-18761.901) [-18741.501] (-18746.488) (-18750.562) * (-18757.085) (-18748.802) [-18740.312] (-18744.974) -- 0:26:01
      301000 -- (-18757.748) [-18755.503] (-18742.555) (-18748.685) * (-18752.925) [-18745.181] (-18740.867) (-18756.476) -- 0:26:00
      301500 -- (-18747.711) [-18747.538] (-18747.747) (-18748.300) * (-18751.849) (-18748.754) [-18743.739] (-18749.080) -- 0:25:59
      302000 -- (-18742.816) [-18748.574] (-18744.306) (-18758.268) * (-18753.569) (-18745.479) [-18748.597] (-18751.462) -- 0:25:57
      302500 -- (-18742.299) (-18751.230) [-18743.041] (-18750.219) * (-18752.969) (-18742.706) [-18750.945] (-18752.077) -- 0:25:56
      303000 -- (-18743.389) [-18750.389] (-18746.578) (-18748.589) * [-18758.650] (-18758.534) (-18753.795) (-18758.555) -- 0:25:57
      303500 -- (-18749.001) (-18748.413) (-18751.810) [-18744.269] * (-18741.559) (-18745.842) [-18751.864] (-18754.057) -- 0:25:55
      304000 -- [-18745.118] (-18735.605) (-18748.418) (-18743.664) * (-18751.222) (-18755.217) [-18748.179] (-18753.197) -- 0:25:54
      304500 -- (-18746.848) [-18742.782] (-18744.210) (-18741.271) * (-18760.006) (-18753.795) (-18740.268) [-18748.260] -- 0:25:53
      305000 -- (-18745.954) (-18748.896) (-18743.011) [-18749.044] * [-18748.345] (-18750.478) (-18751.718) (-18754.436) -- 0:25:51

      Average standard deviation of split frequencies: 0.011297

      305500 -- [-18752.926] (-18745.418) (-18747.811) (-18748.125) * (-18749.101) (-18746.447) [-18741.453] (-18755.444) -- 0:25:50
      306000 -- [-18744.380] (-18749.372) (-18746.021) (-18754.433) * (-18746.654) [-18746.430] (-18754.040) (-18742.003) -- 0:25:49
      306500 -- [-18745.551] (-18749.045) (-18748.358) (-18750.711) * [-18743.962] (-18744.062) (-18748.575) (-18738.239) -- 0:25:47
      307000 -- (-18746.099) (-18734.165) (-18747.816) [-18742.967] * (-18745.614) (-18751.476) (-18754.316) [-18747.193] -- 0:25:48
      307500 -- (-18742.785) (-18744.901) (-18760.552) [-18749.081] * (-18749.992) [-18748.102] (-18752.657) (-18750.585) -- 0:25:47
      308000 -- [-18740.124] (-18744.264) (-18759.597) (-18747.144) * (-18747.600) (-18745.518) (-18749.410) [-18751.858] -- 0:25:45
      308500 -- (-18741.535) (-18740.475) (-18742.322) [-18745.587] * (-18750.906) (-18749.545) (-18743.982) [-18742.865] -- 0:25:44
      309000 -- (-18743.680) (-18743.888) (-18754.436) [-18740.771] * (-18747.380) (-18750.831) [-18741.486] (-18743.296) -- 0:25:43
      309500 -- (-18744.813) (-18752.072) [-18745.780] (-18754.433) * (-18759.080) (-18750.841) [-18746.570] (-18741.990) -- 0:25:41
      310000 -- (-18738.818) [-18746.717] (-18752.841) (-18747.932) * (-18745.277) [-18751.325] (-18756.044) (-18746.374) -- 0:25:40

      Average standard deviation of split frequencies: 0.011465

      310500 -- (-18745.975) [-18746.285] (-18747.584) (-18750.280) * (-18748.152) (-18748.680) [-18742.385] (-18743.109) -- 0:25:38
      311000 -- (-18754.147) (-18755.132) [-18741.828] (-18752.870) * (-18750.623) (-18745.854) [-18745.119] (-18745.287) -- 0:25:37
      311500 -- (-18753.851) (-18755.423) [-18746.323] (-18743.694) * (-18754.439) (-18742.491) (-18748.016) [-18748.736] -- 0:25:36
      312000 -- (-18758.533) (-18748.315) (-18750.372) [-18739.699] * [-18752.496] (-18752.497) (-18754.541) (-18754.837) -- 0:25:36
      312500 -- (-18749.381) (-18744.051) [-18740.988] (-18745.037) * (-18752.557) (-18753.718) [-18751.071] (-18753.932) -- 0:25:35
      313000 -- (-18753.437) [-18745.893] (-18747.543) (-18745.802) * (-18748.395) [-18756.160] (-18741.830) (-18742.523) -- 0:25:34
      313500 -- (-18754.965) [-18742.922] (-18743.203) (-18752.555) * (-18743.105) (-18744.152) (-18746.741) [-18741.970] -- 0:25:32
      314000 -- (-18759.618) (-18742.316) (-18748.516) [-18746.492] * (-18744.692) (-18749.901) (-18749.033) [-18745.011] -- 0:25:31
      314500 -- [-18754.123] (-18754.341) (-18739.026) (-18748.166) * (-18739.779) (-18752.406) [-18745.623] (-18750.260) -- 0:25:30
      315000 -- [-18749.889] (-18746.966) (-18745.660) (-18755.020) * (-18751.235) [-18748.041] (-18752.956) (-18742.328) -- 0:25:28

      Average standard deviation of split frequencies: 0.010940

      315500 -- (-18750.269) (-18748.205) (-18743.339) [-18743.655] * (-18744.583) (-18741.008) [-18745.684] (-18747.261) -- 0:25:29
      316000 -- (-18745.015) (-18756.355) (-18749.024) [-18744.379] * (-18749.152) (-18745.398) [-18737.409] (-18744.481) -- 0:25:28
      316500 -- (-18745.021) (-18741.320) [-18747.300] (-18746.136) * [-18750.680] (-18751.264) (-18742.580) (-18747.462) -- 0:25:26
      317000 -- (-18741.613) [-18742.738] (-18753.971) (-18741.637) * (-18751.178) [-18746.509] (-18744.163) (-18742.520) -- 0:25:25
      317500 -- (-18757.660) (-18748.978) [-18747.815] (-18752.365) * [-18755.088] (-18741.025) (-18745.344) (-18746.098) -- 0:25:24
      318000 -- (-18744.074) [-18747.425] (-18746.004) (-18747.838) * (-18741.176) [-18741.053] (-18739.932) (-18748.214) -- 0:25:22
      318500 -- (-18758.653) (-18746.726) [-18742.499] (-18749.088) * (-18743.001) [-18739.955] (-18743.533) (-18745.690) -- 0:25:21
      319000 -- (-18747.987) (-18749.789) [-18740.607] (-18751.096) * (-18737.496) [-18747.215] (-18750.256) (-18748.862) -- 0:25:19
      319500 -- (-18754.403) [-18749.868] (-18754.583) (-18748.189) * [-18743.070] (-18752.135) (-18746.653) (-18748.760) -- 0:25:20
      320000 -- (-18745.887) [-18746.563] (-18759.783) (-18758.343) * (-18758.419) (-18738.865) (-18749.066) [-18745.709] -- 0:25:19

      Average standard deviation of split frequencies: 0.010454

      320500 -- (-18751.241) [-18744.309] (-18752.049) (-18751.434) * (-18749.208) (-18745.346) (-18757.683) [-18749.946] -- 0:25:18
      321000 -- [-18747.077] (-18743.327) (-18750.274) (-18744.336) * (-18742.496) (-18752.908) [-18749.461] (-18747.351) -- 0:25:16
      321500 -- (-18750.272) [-18751.683] (-18750.438) (-18751.861) * (-18747.805) (-18752.475) (-18748.519) [-18745.097] -- 0:25:15
      322000 -- [-18744.980] (-18746.024) (-18740.509) (-18742.350) * (-18752.656) (-18755.900) (-18749.007) [-18739.753] -- 0:25:13
      322500 -- [-18746.055] (-18745.923) (-18746.891) (-18750.757) * [-18752.651] (-18743.101) (-18746.747) (-18753.220) -- 0:25:12
      323000 -- (-18744.857) [-18747.865] (-18755.241) (-18746.913) * (-18740.077) [-18749.736] (-18743.845) (-18752.657) -- 0:25:11
      323500 -- (-18743.764) (-18742.924) [-18746.736] (-18749.176) * [-18743.647] (-18760.690) (-18747.682) (-18747.045) -- 0:25:09
      324000 -- (-18758.236) [-18740.822] (-18738.035) (-18756.325) * (-18741.861) (-18752.930) (-18753.888) [-18747.688] -- 0:25:10
      324500 -- (-18746.765) (-18745.665) [-18742.646] (-18746.421) * (-18742.523) (-18745.476) (-18751.438) [-18751.296] -- 0:25:09
      325000 -- (-18753.903) (-18751.712) [-18735.389] (-18742.820) * (-18749.875) [-18744.892] (-18747.970) (-18744.246) -- 0:25:07

      Average standard deviation of split frequencies: 0.009962

      325500 -- [-18745.400] (-18751.582) (-18755.853) (-18752.674) * [-18743.068] (-18744.219) (-18759.178) (-18749.724) -- 0:25:06
      326000 -- [-18742.337] (-18752.406) (-18756.862) (-18748.396) * (-18744.964) (-18752.460) (-18748.605) [-18745.520] -- 0:25:05
      326500 -- (-18757.105) [-18752.730] (-18755.043) (-18755.040) * (-18741.921) (-18752.157) (-18759.800) [-18744.681] -- 0:25:03
      327000 -- (-18751.817) (-18744.528) [-18747.542] (-18747.838) * [-18750.101] (-18749.511) (-18752.901) (-18750.719) -- 0:25:02
      327500 -- (-18748.608) [-18746.026] (-18754.576) (-18749.609) * [-18741.342] (-18750.917) (-18751.913) (-18752.192) -- 0:25:01
      328000 -- (-18745.381) (-18760.267) (-18745.884) [-18750.738] * (-18746.052) (-18739.571) [-18740.443] (-18743.310) -- 0:25:01
      328500 -- (-18744.542) (-18750.930) [-18747.040] (-18743.212) * (-18748.595) (-18742.407) (-18744.767) [-18744.342] -- 0:25:00
      329000 -- (-18741.901) (-18745.958) (-18752.388) [-18746.531] * (-18752.824) (-18750.951) (-18744.378) [-18745.918] -- 0:24:59
      329500 -- (-18749.198) (-18737.543) (-18751.425) [-18742.307] * (-18745.269) (-18754.146) [-18743.399] (-18746.641) -- 0:24:57
      330000 -- (-18747.464) (-18747.225) (-18754.279) [-18746.482] * (-18739.042) (-18754.093) (-18746.714) [-18748.088] -- 0:24:56

      Average standard deviation of split frequencies: 0.009187

      330500 -- (-18750.311) [-18743.961] (-18737.313) (-18747.591) * (-18756.030) [-18747.996] (-18743.418) (-18741.268) -- 0:24:54
      331000 -- (-18744.262) (-18756.521) [-18748.885] (-18747.637) * [-18744.094] (-18748.289) (-18745.069) (-18751.925) -- 0:24:53
      331500 -- (-18745.782) (-18747.408) [-18742.759] (-18742.063) * (-18743.050) (-18743.818) [-18747.093] (-18754.592) -- 0:24:52
      332000 -- (-18748.362) (-18747.271) [-18747.614] (-18754.644) * (-18746.147) (-18744.668) (-18747.600) [-18741.672] -- 0:24:50
      332500 -- [-18748.231] (-18745.374) (-18745.852) (-18757.035) * (-18741.654) [-18746.419] (-18746.437) (-18748.263) -- 0:24:51
      333000 -- [-18742.068] (-18753.295) (-18748.859) (-18760.917) * (-18746.231) [-18748.614] (-18750.459) (-18747.071) -- 0:24:50
      333500 -- (-18749.240) [-18746.252] (-18742.362) (-18760.668) * (-18740.765) (-18750.344) (-18747.102) [-18740.379] -- 0:24:48
      334000 -- (-18744.788) (-18749.044) (-18752.913) [-18752.372] * (-18743.092) [-18740.770] (-18746.992) (-18740.538) -- 0:24:47
      334500 -- [-18739.571] (-18753.060) (-18759.457) (-18751.219) * (-18755.171) (-18746.501) [-18745.421] (-18739.810) -- 0:24:46
      335000 -- (-18746.430) [-18743.090] (-18748.600) (-18745.430) * (-18745.843) [-18742.283] (-18750.254) (-18756.537) -- 0:24:44

      Average standard deviation of split frequencies: 0.009041

      335500 -- (-18750.142) (-18740.250) [-18748.049] (-18746.809) * (-18751.816) (-18750.574) [-18746.615] (-18748.319) -- 0:24:43
      336000 -- [-18746.438] (-18752.319) (-18747.626) (-18750.062) * [-18752.809] (-18738.002) (-18754.997) (-18741.574) -- 0:24:42
      336500 -- [-18747.545] (-18756.609) (-18739.848) (-18748.653) * (-18744.816) (-18755.231) (-18750.853) [-18742.607] -- 0:24:40
      337000 -- (-18748.979) (-18754.795) [-18744.492] (-18746.489) * [-18743.132] (-18752.422) (-18753.934) (-18745.605) -- 0:24:41
      337500 -- [-18751.817] (-18755.172) (-18742.078) (-18758.076) * [-18743.087] (-18738.205) (-18766.856) (-18750.667) -- 0:24:40
      338000 -- [-18749.183] (-18757.332) (-18751.595) (-18737.991) * (-18752.664) (-18743.448) [-18744.725] (-18740.946) -- 0:24:38
      338500 -- (-18754.572) (-18747.774) (-18758.633) [-18742.664] * [-18751.408] (-18746.163) (-18742.287) (-18749.493) -- 0:24:37
      339000 -- (-18751.583) [-18749.221] (-18761.006) (-18748.064) * (-18748.142) [-18750.460] (-18752.391) (-18749.113) -- 0:24:36
      339500 -- [-18751.488] (-18753.044) (-18748.464) (-18754.244) * [-18746.198] (-18741.858) (-18748.182) (-18747.151) -- 0:24:34
      340000 -- (-18744.860) (-18757.254) (-18745.895) [-18754.212] * (-18748.919) (-18751.142) (-18746.496) [-18745.108] -- 0:24:33

      Average standard deviation of split frequencies: 0.009840

      340500 -- (-18745.169) (-18756.633) (-18756.691) [-18744.167] * (-18749.318) (-18754.779) (-18742.845) [-18747.258] -- 0:24:32
      341000 -- (-18743.599) (-18749.592) (-18739.850) [-18742.009] * (-18750.155) (-18745.692) [-18752.007] (-18759.009) -- 0:24:30
      341500 -- (-18744.444) [-18741.343] (-18747.517) (-18754.299) * [-18740.722] (-18754.244) (-18745.391) (-18754.720) -- 0:24:31
      342000 -- (-18743.091) [-18747.324] (-18754.371) (-18752.139) * (-18748.173) [-18752.767] (-18749.178) (-18745.666) -- 0:24:29
      342500 -- (-18748.048) (-18741.809) (-18749.584) [-18749.017] * [-18748.498] (-18753.058) (-18746.569) (-18756.490) -- 0:24:28
      343000 -- (-18741.200) [-18745.942] (-18737.802) (-18746.760) * (-18739.613) [-18741.356] (-18758.807) (-18744.566) -- 0:24:27
      343500 -- (-18740.476) (-18744.394) [-18746.130] (-18753.207) * (-18749.916) (-18744.636) (-18754.369) [-18751.674] -- 0:24:25
      344000 -- (-18749.460) [-18747.427] (-18743.687) (-18748.085) * (-18739.293) (-18745.592) [-18743.645] (-18738.911) -- 0:24:24
      344500 -- (-18749.220) [-18749.132] (-18744.014) (-18757.060) * (-18756.149) (-18755.228) [-18745.418] (-18742.339) -- 0:24:23
      345000 -- (-18748.165) [-18746.751] (-18751.521) (-18747.313) * (-18749.385) (-18750.393) [-18742.119] (-18743.932) -- 0:24:21

      Average standard deviation of split frequencies: 0.009991

      345500 -- (-18745.986) (-18741.683) (-18745.427) [-18747.992] * [-18747.859] (-18753.513) (-18742.166) (-18751.692) -- 0:24:22
      346000 -- (-18758.883) [-18742.639] (-18751.057) (-18750.998) * (-18743.804) (-18748.222) [-18748.665] (-18746.860) -- 0:24:21
      346500 -- (-18751.460) (-18746.649) (-18747.273) [-18744.245] * (-18747.404) (-18746.408) (-18740.045) [-18742.819] -- 0:24:19
      347000 -- (-18757.577) (-18739.380) (-18750.467) [-18742.926] * (-18746.775) (-18746.019) [-18741.968] (-18773.929) -- 0:24:18
      347500 -- (-18753.761) [-18738.753] (-18754.481) (-18748.659) * [-18746.992] (-18745.923) (-18748.078) (-18755.233) -- 0:24:17
      348000 -- (-18755.106) (-18743.847) (-18750.508) [-18745.879] * (-18751.626) (-18748.170) [-18753.505] (-18767.999) -- 0:24:15
      348500 -- (-18758.003) (-18753.925) (-18745.815) [-18742.042] * (-18750.186) (-18745.827) [-18741.042] (-18752.654) -- 0:24:14
      349000 -- (-18757.784) (-18763.119) (-18749.705) [-18745.145] * (-18746.801) [-18746.775] (-18742.295) (-18750.880) -- 0:24:13
      349500 -- (-18747.960) (-18752.096) (-18746.322) [-18743.503] * (-18746.186) [-18749.749] (-18747.613) (-18748.273) -- 0:24:11
      350000 -- [-18743.798] (-18744.259) (-18743.011) (-18748.267) * [-18755.435] (-18747.778) (-18741.981) (-18757.062) -- 0:24:12

      Average standard deviation of split frequencies: 0.009858

      350500 -- (-18746.815) [-18744.765] (-18750.842) (-18753.331) * (-18752.991) (-18755.165) [-18744.365] (-18741.750) -- 0:24:10
      351000 -- [-18745.553] (-18739.505) (-18745.028) (-18739.780) * (-18756.453) (-18749.780) [-18743.970] (-18741.403) -- 0:24:09
      351500 -- (-18747.997) (-18741.336) [-18742.533] (-18742.967) * (-18750.526) (-18748.840) (-18752.940) [-18745.560] -- 0:24:08
      352000 -- (-18748.130) (-18751.140) (-18750.538) [-18749.195] * (-18749.219) (-18741.597) [-18745.128] (-18746.188) -- 0:24:06
      352500 -- (-18747.445) (-18747.673) [-18751.889] (-18747.394) * (-18743.265) (-18747.666) (-18751.962) [-18747.531] -- 0:24:05
      353000 -- (-18749.306) (-18744.483) [-18746.405] (-18753.643) * (-18748.518) (-18757.076) (-18757.173) [-18744.469] -- 0:24:04
      353500 -- (-18739.861) [-18744.670] (-18752.390) (-18746.869) * (-18749.333) (-18750.916) [-18747.870] (-18743.716) -- 0:24:02
      354000 -- (-18744.728) (-18748.147) (-18749.770) [-18744.477] * (-18747.223) (-18747.418) [-18747.690] (-18743.620) -- 0:24:01
      354500 -- (-18749.441) [-18744.894] (-18752.095) (-18748.039) * (-18765.922) (-18754.466) [-18741.787] (-18743.796) -- 0:24:02
      355000 -- (-18738.877) (-18746.837) [-18748.768] (-18748.725) * [-18743.342] (-18746.717) (-18743.839) (-18754.880) -- 0:24:00

      Average standard deviation of split frequencies: 0.008828

      355500 -- (-18739.902) (-18744.855) (-18745.636) [-18741.082] * [-18750.044] (-18748.840) (-18754.027) (-18740.736) -- 0:23:59
      356000 -- (-18746.534) (-18747.929) [-18739.950] (-18753.854) * (-18743.022) (-18746.132) (-18749.868) [-18743.826] -- 0:23:58
      356500 -- (-18749.938) (-18748.603) (-18745.287) [-18746.492] * [-18743.456] (-18745.322) (-18744.678) (-18747.712) -- 0:23:56
      357000 -- [-18745.419] (-18748.056) (-18746.181) (-18754.944) * (-18744.448) [-18744.585] (-18748.888) (-18748.123) -- 0:23:55
      357500 -- [-18750.249] (-18750.979) (-18744.631) (-18749.575) * (-18746.740) (-18743.033) [-18741.111] (-18747.993) -- 0:23:54
      358000 -- (-18747.941) [-18746.871] (-18753.006) (-18747.075) * (-18760.949) (-18748.950) (-18745.944) [-18741.016] -- 0:23:52
      358500 -- [-18747.795] (-18773.611) (-18748.142) (-18743.389) * (-18743.975) (-18746.851) (-18748.492) [-18745.554] -- 0:23:53
      359000 -- [-18742.352] (-18760.381) (-18760.707) (-18748.154) * (-18748.272) (-18747.811) (-18760.824) [-18743.405] -- 0:23:51
      359500 -- (-18744.334) (-18746.502) [-18744.534] (-18742.341) * [-18747.612] (-18746.098) (-18754.626) (-18747.575) -- 0:23:50
      360000 -- (-18747.476) (-18749.769) [-18743.608] (-18745.910) * (-18746.844) [-18740.886] (-18754.023) (-18743.571) -- 0:23:49

      Average standard deviation of split frequencies: 0.008714

      360500 -- [-18753.920] (-18749.549) (-18738.165) (-18757.295) * [-18738.078] (-18757.551) (-18748.737) (-18739.054) -- 0:23:48
      361000 -- (-18755.242) (-18750.268) [-18741.200] (-18746.638) * (-18752.982) (-18756.130) (-18747.829) [-18740.826] -- 0:23:46
      361500 -- [-18751.271] (-18756.603) (-18742.618) (-18751.051) * (-18739.352) [-18746.935] (-18748.496) (-18743.786) -- 0:23:45
      362000 -- (-18752.008) (-18744.046) [-18740.068] (-18761.031) * (-18747.732) (-18746.078) [-18745.368] (-18743.510) -- 0:23:44
      362500 -- (-18758.161) (-18755.615) [-18742.733] (-18750.548) * (-18744.065) [-18746.360] (-18751.862) (-18749.726) -- 0:23:42
      363000 -- (-18759.325) (-18748.190) [-18738.211] (-18761.899) * (-18745.815) (-18751.255) [-18752.059] (-18745.050) -- 0:23:43
      363500 -- (-18741.242) (-18753.502) (-18743.859) [-18742.700] * [-18745.173] (-18745.412) (-18751.394) (-18742.999) -- 0:23:41
      364000 -- (-18746.032) [-18749.130] (-18748.015) (-18753.822) * (-18755.713) (-18751.880) [-18746.419] (-18746.642) -- 0:23:40
      364500 -- (-18742.083) (-18745.804) [-18741.012] (-18747.083) * (-18749.339) [-18749.817] (-18756.684) (-18759.432) -- 0:23:39
      365000 -- (-18749.879) (-18751.268) (-18750.982) [-18753.851] * [-18755.785] (-18747.036) (-18749.835) (-18760.956) -- 0:23:37

      Average standard deviation of split frequencies: 0.008014

      365500 -- (-18748.704) (-18746.811) (-18745.138) [-18748.233] * (-18746.629) [-18740.222] (-18752.828) (-18751.036) -- 0:23:36
      366000 -- (-18752.953) (-18751.889) (-18743.537) [-18755.569] * (-18748.184) (-18743.099) [-18743.811] (-18741.574) -- 0:23:35
      366500 -- (-18745.171) (-18751.095) (-18749.934) [-18737.075] * (-18745.926) (-18743.089) (-18745.243) [-18753.668] -- 0:23:33
      367000 -- [-18744.355] (-18757.118) (-18743.243) (-18745.927) * (-18750.523) (-18745.305) (-18746.809) [-18749.492] -- 0:23:32
      367500 -- (-18751.213) [-18745.441] (-18753.312) (-18739.350) * (-18746.517) [-18745.799] (-18750.582) (-18743.220) -- 0:23:33
      368000 -- [-18743.334] (-18754.873) (-18756.367) (-18739.715) * (-18757.772) [-18742.009] (-18746.158) (-18749.915) -- 0:23:31
      368500 -- [-18737.546] (-18750.124) (-18744.528) (-18748.840) * (-18744.330) (-18748.426) [-18747.815] (-18751.728) -- 0:23:30
      369000 -- (-18742.052) (-18744.266) (-18751.619) [-18750.845] * [-18747.385] (-18749.895) (-18750.128) (-18744.727) -- 0:23:29
      369500 -- (-18751.242) [-18748.076] (-18743.536) (-18744.045) * (-18741.336) (-18736.700) [-18746.465] (-18743.630) -- 0:23:27
      370000 -- (-18756.732) [-18755.510] (-18742.733) (-18743.520) * (-18747.284) (-18746.775) (-18741.014) [-18740.282] -- 0:23:26

      Average standard deviation of split frequencies: 0.008196

      370500 -- (-18743.649) (-18751.556) [-18743.596] (-18747.309) * [-18740.969] (-18742.355) (-18748.687) (-18748.159) -- 0:23:25
      371000 -- (-18743.482) (-18752.352) [-18744.316] (-18751.121) * [-18746.037] (-18745.284) (-18752.729) (-18746.430) -- 0:23:23
      371500 -- [-18752.005] (-18743.331) (-18747.297) (-18750.533) * (-18760.225) (-18743.581) (-18754.168) [-18745.325] -- 0:23:24
      372000 -- (-18741.028) [-18744.228] (-18750.932) (-18745.839) * (-18751.889) (-18745.161) (-18741.900) [-18747.819] -- 0:23:22
      372500 -- (-18752.050) [-18746.850] (-18751.909) (-18744.305) * (-18748.559) (-18745.018) [-18742.209] (-18743.652) -- 0:23:21
      373000 -- (-18743.485) (-18738.948) (-18762.080) [-18746.465] * (-18745.366) (-18750.153) (-18757.199) [-18742.657] -- 0:23:20
      373500 -- (-18753.795) (-18749.378) (-18746.915) [-18738.783] * (-18758.347) (-18752.288) [-18747.781] (-18750.198) -- 0:23:18
      374000 -- (-18743.867) (-18748.628) (-18740.883) [-18743.863] * (-18758.951) [-18744.757] (-18761.889) (-18753.078) -- 0:23:17
      374500 -- (-18749.187) [-18746.007] (-18740.112) (-18738.511) * (-18761.153) (-18755.667) (-18747.492) [-18744.753] -- 0:23:16
      375000 -- (-18754.372) (-18743.689) (-18742.508) [-18747.388] * (-18755.069) (-18754.125) (-18748.866) [-18746.038] -- 0:23:15

      Average standard deviation of split frequencies: 0.006687

      375500 -- (-18745.265) (-18747.531) [-18752.488] (-18750.846) * (-18739.694) (-18745.875) [-18744.270] (-18748.589) -- 0:23:13
      376000 -- (-18743.573) (-18751.967) (-18752.074) [-18750.382] * (-18742.240) (-18751.487) [-18743.786] (-18753.892) -- 0:23:14
      376500 -- (-18748.916) (-18759.749) (-18741.858) [-18750.363] * (-18750.372) (-18763.101) [-18738.275] (-18745.418) -- 0:23:12
      377000 -- (-18747.444) [-18746.511] (-18741.397) (-18748.392) * [-18748.296] (-18755.009) (-18748.357) (-18746.713) -- 0:23:11
      377500 -- [-18741.961] (-18744.894) (-18743.809) (-18749.293) * (-18745.913) [-18748.191] (-18750.136) (-18741.923) -- 0:23:10
      378000 -- [-18749.592] (-18750.668) (-18750.497) (-18745.219) * [-18740.822] (-18750.503) (-18749.364) (-18740.498) -- 0:23:08
      378500 -- (-18746.060) (-18747.731) (-18751.577) [-18740.516] * [-18746.820] (-18748.777) (-18760.873) (-18754.580) -- 0:23:07
      379000 -- [-18748.751] (-18753.583) (-18752.067) (-18742.223) * (-18755.590) (-18744.703) [-18751.118] (-18743.282) -- 0:23:06
      379500 -- (-18753.941) (-18758.336) (-18755.642) [-18739.388] * (-18747.041) (-18744.450) [-18749.982] (-18745.323) -- 0:23:04
      380000 -- (-18749.945) (-18750.364) (-18759.800) [-18739.324] * (-18760.412) (-18738.985) (-18743.443) [-18745.952] -- 0:23:05

      Average standard deviation of split frequencies: 0.006054

      380500 -- [-18751.952] (-18754.883) (-18759.166) (-18743.925) * (-18745.817) [-18743.923] (-18747.454) (-18747.756) -- 0:23:03
      381000 -- [-18741.092] (-18758.336) (-18765.706) (-18746.852) * (-18758.894) (-18749.395) (-18750.133) [-18749.212] -- 0:23:02
      381500 -- (-18746.429) [-18748.278] (-18754.483) (-18746.828) * (-18750.985) (-18758.051) (-18744.116) [-18739.760] -- 0:23:01
      382000 -- [-18753.440] (-18756.787) (-18750.752) (-18755.264) * [-18742.636] (-18750.974) (-18749.892) (-18740.631) -- 0:22:59
      382500 -- (-18745.137) (-18754.550) [-18745.935] (-18747.756) * (-18746.220) (-18743.073) (-18742.872) [-18742.132] -- 0:22:58
      383000 -- (-18747.539) (-18748.409) [-18745.839] (-18749.646) * (-18751.686) (-18746.210) (-18746.663) [-18745.951] -- 0:22:57
      383500 -- [-18749.499] (-18752.699) (-18740.524) (-18746.209) * (-18741.581) [-18749.419] (-18742.149) (-18744.375) -- 0:22:56
      384000 -- (-18749.552) (-18747.822) [-18746.880] (-18744.172) * (-18743.900) (-18750.621) (-18747.993) [-18742.022] -- 0:22:54
      384500 -- [-18747.521] (-18758.213) (-18748.830) (-18739.425) * (-18744.730) [-18737.697] (-18742.760) (-18745.970) -- 0:22:55
      385000 -- (-18756.597) (-18756.558) (-18749.710) [-18741.872] * (-18739.394) [-18745.629] (-18752.945) (-18751.309) -- 0:22:53

      Average standard deviation of split frequencies: 0.004885

      385500 -- (-18756.224) (-18745.389) (-18742.396) [-18747.986] * (-18746.150) (-18739.722) (-18753.892) [-18747.910] -- 0:22:52
      386000 -- (-18749.967) [-18746.546] (-18743.242) (-18753.730) * (-18747.431) (-18741.158) [-18742.583] (-18746.306) -- 0:22:51
      386500 -- (-18755.683) (-18753.487) [-18741.514] (-18755.177) * [-18744.801] (-18746.362) (-18745.302) (-18745.744) -- 0:22:49
      387000 -- (-18747.309) (-18753.560) [-18742.622] (-18744.171) * (-18746.423) [-18741.477] (-18752.904) (-18742.745) -- 0:22:48
      387500 -- (-18750.369) (-18765.991) (-18741.657) [-18742.759] * (-18749.753) (-18745.774) (-18746.639) [-18737.914] -- 0:22:47
      388000 -- (-18754.275) (-18743.105) (-18736.420) [-18742.293] * (-18760.887) (-18751.635) [-18753.311] (-18742.713) -- 0:22:45
      388500 -- (-18744.817) (-18753.233) [-18737.531] (-18753.999) * (-18751.532) [-18741.601] (-18752.520) (-18757.156) -- 0:22:46
      389000 -- (-18750.331) (-18752.024) (-18742.441) [-18750.749] * (-18751.727) (-18748.934) [-18744.444] (-18741.765) -- 0:22:44
      389500 -- (-18756.734) (-18749.441) [-18746.279] (-18754.935) * [-18751.595] (-18745.355) (-18750.738) (-18749.854) -- 0:22:43
      390000 -- (-18750.207) (-18745.761) [-18740.166] (-18754.449) * (-18756.663) [-18743.876] (-18746.393) (-18747.218) -- 0:22:42

      Average standard deviation of split frequencies: 0.005631

      390500 -- [-18748.211] (-18741.176) (-18749.721) (-18746.531) * [-18753.658] (-18748.077) (-18755.587) (-18745.544) -- 0:22:41
      391000 -- (-18745.501) (-18748.499) [-18751.969] (-18742.655) * (-18754.158) (-18745.674) (-18752.436) [-18744.393] -- 0:22:39
      391500 -- (-18750.030) (-18744.229) (-18749.462) [-18742.046] * (-18748.113) (-18745.129) (-18754.638) [-18744.608] -- 0:22:38
      392000 -- (-18747.998) (-18748.351) [-18744.587] (-18744.181) * (-18740.936) (-18752.846) (-18742.028) [-18741.803] -- 0:22:37
      392500 -- (-18743.583) (-18749.607) [-18740.644] (-18753.909) * (-18743.073) [-18742.575] (-18747.561) (-18744.744) -- 0:22:35
      393000 -- [-18742.907] (-18745.847) (-18741.834) (-18748.473) * (-18754.536) [-18742.123] (-18754.848) (-18749.697) -- 0:22:36
      393500 -- (-18743.041) (-18761.251) [-18740.401] (-18745.592) * (-18744.663) [-18757.841] (-18754.703) (-18742.522) -- 0:22:34
      394000 -- (-18748.535) (-18765.115) [-18749.471] (-18745.010) * [-18749.273] (-18758.148) (-18754.558) (-18751.663) -- 0:22:33
      394500 -- (-18750.973) [-18746.482] (-18742.553) (-18745.628) * (-18750.217) [-18748.849] (-18751.304) (-18748.528) -- 0:22:32
      395000 -- (-18750.047) [-18746.158] (-18754.487) (-18745.582) * (-18749.748) (-18748.030) [-18747.778] (-18754.874) -- 0:22:30

      Average standard deviation of split frequencies: 0.005291

      395500 -- [-18741.453] (-18744.702) (-18751.754) (-18753.293) * (-18747.977) (-18742.822) (-18753.071) [-18754.880] -- 0:22:29
      396000 -- (-18746.161) (-18741.952) [-18742.848] (-18756.334) * [-18748.144] (-18742.201) (-18751.322) (-18751.566) -- 0:22:28
      396500 -- (-18742.557) [-18739.530] (-18740.563) (-18752.858) * (-18742.437) [-18742.038] (-18758.799) (-18760.580) -- 0:22:27
      397000 -- [-18741.991] (-18749.492) (-18739.247) (-18748.181) * (-18742.158) (-18744.505) (-18748.761) [-18750.844] -- 0:22:25
      397500 -- [-18741.482] (-18755.891) (-18747.713) (-18747.236) * [-18750.832] (-18745.415) (-18750.052) (-18753.102) -- 0:22:25
      398000 -- [-18741.732] (-18746.848) (-18759.224) (-18757.245) * (-18757.110) (-18743.965) [-18746.000] (-18747.531) -- 0:22:24
      398500 -- (-18744.274) (-18750.039) (-18747.406) [-18745.661] * [-18748.320] (-18752.898) (-18751.040) (-18747.541) -- 0:22:23
      399000 -- [-18743.039] (-18758.709) (-18747.321) (-18748.327) * (-18757.207) (-18749.283) [-18755.451] (-18744.914) -- 0:22:22
      399500 -- (-18745.198) [-18744.771] (-18759.890) (-18742.231) * (-18749.094) (-18747.728) (-18747.050) [-18746.887] -- 0:22:20
      400000 -- (-18747.375) [-18747.416] (-18750.900) (-18747.907) * (-18742.258) (-18748.262) (-18751.047) [-18741.777] -- 0:22:19

      Average standard deviation of split frequencies: 0.004445

      400500 -- [-18738.474] (-18749.263) (-18752.323) (-18753.985) * (-18747.422) (-18744.854) [-18749.794] (-18743.517) -- 0:22:18
      401000 -- (-18753.092) [-18741.712] (-18746.494) (-18748.924) * [-18744.016] (-18741.628) (-18758.550) (-18748.108) -- 0:22:16
      401500 -- (-18746.062) [-18741.770] (-18751.721) (-18745.351) * (-18746.494) (-18742.765) (-18753.385) [-18743.837] -- 0:22:15
      402000 -- (-18744.964) (-18748.472) [-18750.335] (-18742.679) * (-18743.478) (-18750.629) (-18744.706) [-18738.911] -- 0:22:15
      402500 -- (-18750.986) [-18753.359] (-18749.928) (-18746.880) * (-18741.935) [-18744.310] (-18746.926) (-18747.176) -- 0:22:14
      403000 -- (-18746.892) [-18740.347] (-18747.888) (-18748.327) * (-18742.013) [-18739.793] (-18747.557) (-18746.113) -- 0:22:13
      403500 -- [-18746.317] (-18750.448) (-18754.749) (-18753.989) * (-18751.474) (-18745.217) [-18744.011] (-18744.717) -- 0:22:11
      404000 -- (-18746.941) (-18748.015) (-18745.827) [-18739.911] * (-18746.355) [-18752.052] (-18753.453) (-18750.243) -- 0:22:10
      404500 -- (-18746.127) (-18746.428) (-18757.001) [-18740.372] * (-18744.136) [-18744.045] (-18754.991) (-18742.829) -- 0:22:10
      405000 -- [-18741.911] (-18746.555) (-18749.646) (-18747.018) * (-18750.354) [-18747.876] (-18743.244) (-18757.380) -- 0:22:09

      Average standard deviation of split frequencies: 0.005160

      405500 -- (-18756.147) (-18739.690) (-18751.097) [-18743.201] * (-18745.140) [-18743.693] (-18747.709) (-18752.988) -- 0:22:08
      406000 -- (-18752.795) [-18742.024] (-18746.559) (-18747.032) * [-18744.501] (-18749.597) (-18745.770) (-18743.312) -- 0:22:06
      406500 -- (-18754.887) (-18748.584) [-18748.643] (-18758.862) * [-18739.096] (-18746.388) (-18750.756) (-18747.291) -- 0:22:05
      407000 -- [-18748.745] (-18745.193) (-18748.317) (-18748.814) * (-18739.362) (-18756.415) (-18745.534) [-18748.259] -- 0:22:04
      407500 -- (-18747.803) (-18746.216) (-18742.079) [-18737.592] * (-18743.140) (-18756.637) [-18743.691] (-18745.810) -- 0:22:04
      408000 -- (-18740.143) (-18749.046) (-18744.013) [-18741.669] * [-18745.147] (-18755.044) (-18749.978) (-18745.714) -- 0:22:03
      408500 -- (-18745.441) (-18752.444) [-18740.800] (-18746.106) * [-18744.839] (-18750.390) (-18746.620) (-18754.262) -- 0:22:02
      409000 -- [-18740.857] (-18756.767) (-18740.211) (-18757.825) * (-18750.873) [-18748.355] (-18753.342) (-18744.868) -- 0:22:00
      409500 -- (-18746.676) (-18754.663) (-18741.755) [-18763.362] * [-18744.841] (-18754.091) (-18746.343) (-18745.078) -- 0:21:59
      410000 -- [-18747.719] (-18750.810) (-18740.894) (-18745.753) * [-18747.038] (-18752.426) (-18758.304) (-18747.313) -- 0:21:58

      Average standard deviation of split frequencies: 0.005612

      410500 -- (-18755.583) [-18749.821] (-18745.035) (-18751.242) * (-18745.362) (-18749.702) (-18749.881) [-18744.414] -- 0:21:58
      411000 -- (-18741.439) (-18746.989) (-18747.318) [-18753.296] * (-18744.433) [-18747.496] (-18742.854) (-18750.264) -- 0:21:57
      411500 -- (-18748.483) [-18745.788] (-18748.321) (-18754.828) * [-18747.654] (-18749.853) (-18750.625) (-18745.877) -- 0:21:55
      412000 -- (-18749.936) (-18751.174) (-18745.002) [-18744.379] * [-18745.133] (-18749.195) (-18752.507) (-18752.229) -- 0:21:54
      412500 -- [-18742.587] (-18745.716) (-18750.143) (-18747.712) * (-18759.734) (-18751.849) (-18746.459) [-18756.356] -- 0:21:53
      413000 -- (-18750.397) [-18742.464] (-18749.808) (-18744.055) * (-18750.219) (-18753.226) [-18739.524] (-18755.493) -- 0:21:51
      413500 -- (-18741.568) (-18740.796) (-18745.862) [-18742.914] * [-18749.309] (-18758.512) (-18744.819) (-18760.290) -- 0:21:50
      414000 -- (-18745.877) (-18749.452) [-18755.611] (-18738.990) * (-18758.340) [-18746.615] (-18744.714) (-18749.092) -- 0:21:50
      414500 -- (-18742.810) (-18745.650) [-18750.536] (-18760.702) * (-18747.867) (-18750.377) (-18749.083) [-18749.631] -- 0:21:49
      415000 -- [-18753.093] (-18755.172) (-18742.517) (-18754.857) * (-18750.762) (-18745.362) [-18744.382] (-18746.425) -- 0:21:48

      Average standard deviation of split frequencies: 0.005288

      415500 -- (-18746.825) (-18748.361) (-18746.372) [-18746.085] * (-18747.853) [-18747.101] (-18746.988) (-18751.332) -- 0:21:46
      416000 -- (-18744.962) (-18752.487) (-18756.396) [-18748.742] * (-18758.733) [-18755.189] (-18750.149) (-18750.974) -- 0:21:45
      416500 -- (-18746.922) [-18740.744] (-18771.842) (-18748.459) * [-18748.426] (-18743.246) (-18748.122) (-18745.696) -- 0:21:44
      417000 -- (-18752.954) (-18745.250) [-18754.746] (-18749.894) * [-18743.793] (-18745.026) (-18749.873) (-18751.494) -- 0:21:43
      417500 -- (-18762.691) [-18745.746] (-18751.516) (-18744.134) * (-18743.444) [-18754.334] (-18752.564) (-18747.765) -- 0:21:43
      418000 -- (-18753.203) (-18741.131) (-18747.949) [-18743.722] * (-18747.512) (-18746.312) (-18748.963) [-18746.920] -- 0:21:41
      418500 -- (-18750.397) (-18754.801) (-18743.402) [-18747.794] * (-18746.778) (-18747.939) [-18744.918] (-18756.493) -- 0:21:40
      419000 -- (-18751.818) (-18749.039) [-18748.088] (-18755.117) * (-18737.155) (-18750.016) (-18742.278) [-18748.554] -- 0:21:39
      419500 -- [-18750.762] (-18757.447) (-18758.186) (-18746.903) * (-18748.258) (-18754.537) [-18744.541] (-18741.579) -- 0:21:37
      420000 -- (-18749.224) (-18746.007) (-18749.131) [-18743.757] * (-18748.112) (-18751.989) (-18756.906) [-18736.164] -- 0:21:36

      Average standard deviation of split frequencies: 0.005479

      420500 -- [-18748.967] (-18750.313) (-18743.687) (-18746.152) * (-18742.223) (-18754.392) (-18746.561) [-18737.264] -- 0:21:35
      421000 -- (-18750.691) (-18745.191) (-18747.347) [-18745.167] * [-18746.356] (-18749.738) (-18746.292) (-18739.133) -- 0:21:35
      421500 -- (-18746.071) [-18743.474] (-18746.468) (-18758.775) * (-18749.225) [-18747.982] (-18747.059) (-18741.198) -- 0:21:34
      422000 -- (-18751.511) (-18753.487) (-18744.424) [-18749.270] * (-18747.203) (-18745.345) (-18760.443) [-18749.025] -- 0:21:32
      422500 -- (-18756.519) [-18747.821] (-18745.117) (-18747.039) * (-18747.571) [-18738.957] (-18749.504) (-18745.983) -- 0:21:31
      423000 -- (-18744.595) [-18742.839] (-18747.028) (-18746.999) * (-18756.904) (-18744.373) [-18748.070] (-18747.076) -- 0:21:30
      423500 -- (-18755.830) (-18742.253) (-18753.910) [-18749.133] * (-18748.362) [-18746.465] (-18755.982) (-18751.677) -- 0:21:29
      424000 -- (-18751.360) [-18743.703] (-18747.514) (-18736.433) * (-18747.255) [-18746.880] (-18748.489) (-18746.802) -- 0:21:27
      424500 -- [-18745.782] (-18745.661) (-18749.227) (-18755.073) * [-18743.700] (-18745.966) (-18748.677) (-18745.101) -- 0:21:27
      425000 -- [-18741.748] (-18744.638) (-18749.234) (-18753.033) * [-18744.209] (-18745.573) (-18744.249) (-18744.584) -- 0:21:26

      Average standard deviation of split frequencies: 0.005410

      425500 -- (-18749.482) (-18753.529) [-18746.726] (-18758.512) * (-18748.447) (-18749.376) (-18750.517) [-18741.589] -- 0:21:25
      426000 -- (-18755.638) [-18750.235] (-18744.648) (-18756.470) * [-18750.089] (-18741.903) (-18745.467) (-18749.705) -- 0:21:24
      426500 -- (-18748.610) (-18743.445) (-18741.312) [-18754.784] * (-18748.319) (-18751.018) (-18746.561) [-18746.120] -- 0:21:22
      427000 -- (-18742.985) (-18744.299) [-18743.944] (-18747.829) * [-18753.730] (-18752.828) (-18750.479) (-18744.995) -- 0:21:21
      427500 -- [-18746.974] (-18754.327) (-18742.151) (-18753.038) * [-18751.761] (-18746.968) (-18749.669) (-18747.001) -- 0:21:20
      428000 -- (-18748.878) [-18745.320] (-18744.423) (-18751.775) * (-18763.024) [-18752.463] (-18743.629) (-18744.403) -- 0:21:20
      428500 -- [-18744.580] (-18749.872) (-18743.778) (-18745.859) * (-18753.596) (-18759.643) [-18746.074] (-18754.101) -- 0:21:19
      429000 -- (-18753.027) (-18746.671) [-18749.799] (-18743.385) * (-18753.128) (-18740.267) [-18750.199] (-18746.893) -- 0:21:17
      429500 -- (-18745.933) (-18748.742) [-18742.991] (-18753.503) * [-18748.382] (-18753.298) (-18758.706) (-18750.010) -- 0:21:16
      430000 -- (-18743.679) (-18745.722) [-18743.248] (-18751.061) * (-18746.921) [-18750.606] (-18753.626) (-18759.841) -- 0:21:15

      Average standard deviation of split frequencies: 0.005838

      430500 -- (-18753.316) (-18754.885) [-18753.122] (-18746.174) * (-18748.969) (-18740.025) [-18751.130] (-18749.304) -- 0:21:13
      431000 -- (-18752.944) [-18752.462] (-18754.908) (-18753.862) * (-18744.697) (-18745.303) [-18763.296] (-18748.692) -- 0:21:12
      431500 -- (-18744.525) (-18751.795) [-18758.783] (-18750.292) * (-18746.053) (-18750.675) [-18745.724] (-18751.747) -- 0:21:12
      432000 -- (-18749.730) [-18745.964] (-18749.742) (-18748.198) * (-18741.789) [-18748.398] (-18748.199) (-18748.228) -- 0:21:11
      432500 -- (-18749.040) [-18749.632] (-18747.134) (-18753.521) * [-18747.431] (-18745.919) (-18752.370) (-18752.062) -- 0:21:10
      433000 -- (-18746.557) (-18746.393) [-18742.329] (-18750.029) * [-18758.872] (-18740.967) (-18745.819) (-18748.063) -- 0:21:08
      433500 -- (-18740.028) [-18741.848] (-18755.285) (-18746.278) * (-18752.209) (-18750.713) [-18752.235] (-18743.488) -- 0:21:07
      434000 -- (-18749.141) (-18747.174) [-18755.999] (-18751.336) * (-18744.077) (-18744.515) [-18745.650] (-18754.926) -- 0:21:06
      434500 -- [-18740.101] (-18748.227) (-18747.621) (-18740.539) * (-18750.316) (-18743.366) (-18752.835) [-18744.022] -- 0:21:05
      435000 -- (-18737.315) (-18748.507) [-18747.085] (-18749.331) * (-18750.662) (-18746.247) (-18757.904) [-18738.905] -- 0:21:05

      Average standard deviation of split frequencies: 0.006007

      435500 -- [-18738.821] (-18758.115) (-18757.562) (-18746.660) * [-18750.568] (-18753.083) (-18754.523) (-18745.640) -- 0:21:03
      436000 -- [-18745.927] (-18750.419) (-18757.457) (-18753.066) * (-18756.504) (-18753.157) [-18750.257] (-18743.777) -- 0:21:02
      436500 -- [-18746.065] (-18750.945) (-18737.271) (-18746.980) * (-18758.245) (-18749.585) [-18747.062] (-18760.907) -- 0:21:01
      437000 -- [-18743.659] (-18742.188) (-18746.230) (-18744.919) * (-18746.709) [-18747.601] (-18743.954) (-18753.915) -- 0:20:59
      437500 -- (-18744.354) [-18743.779] (-18737.429) (-18740.758) * (-18748.040) (-18742.528) [-18754.300] (-18745.821) -- 0:20:58
      438000 -- (-18746.976) [-18749.070] (-18747.833) (-18756.487) * (-18755.259) (-18744.238) (-18752.871) [-18752.120] -- 0:20:57
      438500 -- (-18739.179) (-18749.937) (-18747.334) [-18743.717] * (-18752.709) (-18752.907) (-18748.866) [-18746.549] -- 0:20:57
      439000 -- (-18748.628) [-18748.141] (-18746.729) (-18744.139) * (-18754.201) (-18746.560) (-18758.256) [-18744.035] -- 0:20:56
      439500 -- [-18746.301] (-18745.408) (-18745.663) (-18746.016) * (-18751.845) (-18742.821) [-18744.426] (-18759.911) -- 0:20:54
      440000 -- (-18742.447) [-18750.252] (-18749.531) (-18746.360) * (-18753.862) [-18741.213] (-18747.470) (-18751.116) -- 0:20:53

      Average standard deviation of split frequencies: 0.006419

      440500 -- (-18749.247) (-18747.423) [-18744.453] (-18758.976) * (-18747.961) [-18743.427] (-18743.522) (-18757.959) -- 0:20:52
      441000 -- [-18745.598] (-18753.903) (-18752.442) (-18745.684) * (-18745.258) (-18738.617) [-18742.515] (-18748.712) -- 0:20:51
      441500 -- (-18746.537) (-18750.973) (-18756.228) [-18747.750] * [-18742.646] (-18745.477) (-18744.641) (-18747.476) -- 0:20:49
      442000 -- (-18752.154) [-18750.885] (-18747.953) (-18753.468) * (-18739.749) (-18743.616) [-18747.132] (-18745.918) -- 0:20:49
      442500 -- (-18750.067) (-18749.857) [-18761.292] (-18752.093) * [-18751.021] (-18741.945) (-18744.821) (-18741.345) -- 0:20:48
      443000 -- (-18749.727) (-18749.628) (-18757.015) [-18745.256] * (-18748.863) (-18758.173) [-18752.039] (-18743.055) -- 0:20:47
      443500 -- [-18744.989] (-18743.150) (-18748.117) (-18747.773) * (-18752.415) (-18754.556) (-18749.554) [-18744.998] -- 0:20:46
      444000 -- [-18749.467] (-18741.268) (-18745.666) (-18752.020) * (-18746.662) (-18746.343) (-18744.890) [-18748.672] -- 0:20:44
      444500 -- [-18753.575] (-18743.032) (-18749.074) (-18746.406) * (-18740.789) (-18751.108) [-18751.160] (-18742.258) -- 0:20:43
      445000 -- (-18742.872) (-18747.906) [-18750.909] (-18755.628) * (-18757.006) (-18752.928) (-18740.871) [-18740.246] -- 0:20:42

      Average standard deviation of split frequencies: 0.006812

      445500 -- [-18747.229] (-18754.720) (-18747.684) (-18759.427) * (-18753.362) (-18749.614) (-18743.449) [-18749.864] -- 0:20:42
      446000 -- [-18751.474] (-18754.744) (-18749.723) (-18752.713) * (-18753.242) (-18750.353) [-18745.783] (-18752.325) -- 0:20:40
      446500 -- (-18754.873) (-18753.001) [-18742.310] (-18744.462) * (-18753.813) [-18757.599] (-18747.423) (-18746.703) -- 0:20:39
      447000 -- (-18749.490) [-18751.816] (-18743.423) (-18755.551) * (-18748.420) (-18752.081) [-18745.524] (-18747.578) -- 0:20:38
      447500 -- (-18741.092) (-18755.060) (-18747.405) [-18752.733] * (-18745.378) (-18755.994) (-18753.845) [-18741.746] -- 0:20:37
      448000 -- (-18749.450) (-18749.763) [-18745.269] (-18744.298) * [-18743.825] (-18754.685) (-18743.236) (-18744.228) -- 0:20:35
      448500 -- (-18749.671) (-18751.793) (-18743.711) [-18763.135] * (-18750.247) (-18743.353) [-18741.265] (-18744.344) -- 0:20:34
      449000 -- (-18750.065) [-18747.751] (-18755.787) (-18748.787) * (-18754.977) (-18748.748) (-18747.847) [-18743.294] -- 0:20:34
      449500 -- (-18745.604) [-18742.586] (-18744.357) (-18745.598) * (-18741.271) (-18743.524) (-18744.662) [-18741.415] -- 0:20:33
      450000 -- (-18754.309) (-18749.642) (-18746.562) [-18753.991] * (-18743.601) (-18752.913) [-18757.940] (-18750.065) -- 0:20:32

      Average standard deviation of split frequencies: 0.006276

      450500 -- (-18752.664) (-18759.170) [-18748.759] (-18756.510) * [-18740.048] (-18750.590) (-18750.309) (-18750.735) -- 0:20:30
      451000 -- (-18740.306) (-18758.821) [-18745.359] (-18750.305) * [-18748.698] (-18745.892) (-18747.507) (-18747.465) -- 0:20:29
      451500 -- [-18746.227] (-18755.490) (-18744.386) (-18739.480) * (-18749.375) (-18743.945) [-18744.939] (-18746.396) -- 0:20:28
      452000 -- [-18740.422] (-18753.792) (-18741.548) (-18744.264) * [-18738.617] (-18750.282) (-18747.226) (-18760.524) -- 0:20:28
      452500 -- [-18742.900] (-18748.253) (-18745.731) (-18755.597) * (-18750.446) (-18748.793) (-18753.351) [-18749.550] -- 0:20:26
      453000 -- (-18747.569) [-18742.120] (-18746.604) (-18743.706) * (-18742.642) (-18748.006) (-18749.062) [-18749.220] -- 0:20:25
      453500 -- (-18752.421) [-18738.319] (-18758.933) (-18748.646) * (-18753.423) (-18758.822) (-18747.124) [-18744.534] -- 0:20:24
      454000 -- (-18751.699) (-18748.963) [-18739.813] (-18740.859) * (-18753.235) (-18748.275) [-18750.215] (-18737.658) -- 0:20:23
      454500 -- [-18744.767] (-18748.801) (-18742.183) (-18745.838) * [-18748.892] (-18745.628) (-18751.444) (-18748.844) -- 0:20:21
      455000 -- (-18745.104) (-18746.153) [-18743.002] (-18745.692) * (-18753.309) (-18748.496) [-18752.436] (-18748.877) -- 0:20:21

      Average standard deviation of split frequencies: 0.006662

      455500 -- [-18747.629] (-18748.170) (-18742.850) (-18749.528) * (-18746.526) (-18752.868) [-18741.628] (-18738.439) -- 0:20:20
      456000 -- (-18747.308) (-18761.958) [-18741.997] (-18748.069) * (-18757.169) [-18743.175] (-18740.911) (-18763.172) -- 0:20:19
      456500 -- [-18750.157] (-18753.234) (-18755.134) (-18749.859) * [-18748.484] (-18750.824) (-18752.967) (-18748.948) -- 0:20:17
      457000 -- [-18749.030] (-18751.768) (-18749.316) (-18743.592) * [-18745.279] (-18744.745) (-18752.679) (-18759.793) -- 0:20:16
      457500 -- [-18741.387] (-18748.160) (-18741.205) (-18756.805) * (-18754.225) [-18752.306] (-18745.063) (-18744.450) -- 0:20:15
      458000 -- (-18745.192) (-18757.068) (-18753.137) [-18742.652] * (-18748.427) [-18741.642] (-18738.976) (-18747.467) -- 0:20:14
      458500 -- (-18743.958) (-18751.984) (-18749.149) [-18744.514] * (-18746.413) (-18748.743) [-18749.090] (-18742.736) -- 0:20:14
      459000 -- (-18745.702) (-18739.623) (-18745.203) [-18747.912] * (-18750.744) (-18752.838) [-18747.970] (-18755.011) -- 0:20:12
      459500 -- (-18744.401) [-18748.839] (-18749.813) (-18746.095) * (-18748.087) [-18748.424] (-18746.309) (-18754.903) -- 0:20:11
      460000 -- [-18752.292] (-18752.063) (-18745.709) (-18748.977) * (-18749.651) (-18747.601) (-18743.279) [-18748.341] -- 0:20:10

      Average standard deviation of split frequencies: 0.006367

      460500 -- (-18745.875) (-18767.607) (-18742.088) [-18742.472] * [-18745.478] (-18754.031) (-18749.958) (-18748.111) -- 0:20:09
      461000 -- (-18739.378) (-18743.180) [-18745.197] (-18746.299) * [-18738.630] (-18752.246) (-18747.095) (-18744.605) -- 0:20:07
      461500 -- (-18749.539) [-18741.559] (-18755.572) (-18749.411) * [-18744.375] (-18745.822) (-18749.453) (-18744.506) -- 0:20:06
      462000 -- (-18752.365) (-18743.654) (-18749.817) [-18742.615] * (-18751.494) (-18752.345) (-18755.563) [-18748.650] -- 0:20:05
      462500 -- (-18756.767) (-18751.047) (-18751.805) [-18747.426] * [-18746.625] (-18746.675) (-18744.147) (-18748.576) -- 0:20:05
      463000 -- (-18739.719) [-18749.197] (-18749.502) (-18741.882) * (-18750.575) [-18747.825] (-18751.509) (-18749.494) -- 0:20:03
      463500 -- (-18752.397) [-18746.783] (-18754.319) (-18740.266) * (-18738.988) (-18756.705) (-18757.798) [-18744.546] -- 0:20:02
      464000 -- [-18744.007] (-18746.456) (-18751.227) (-18750.433) * (-18741.511) (-18746.307) (-18748.121) [-18744.557] -- 0:20:01
      464500 -- (-18743.738) (-18748.950) [-18748.061] (-18744.093) * (-18749.872) (-18756.897) (-18757.492) [-18744.465] -- 0:20:00
      465000 -- (-18750.686) (-18743.203) (-18749.187) [-18737.455] * (-18745.487) [-18741.578] (-18753.708) (-18750.465) -- 0:19:58

      Average standard deviation of split frequencies: 0.005620

      465500 -- (-18742.453) (-18748.528) [-18752.397] (-18744.747) * (-18744.707) (-18745.604) [-18747.424] (-18748.069) -- 0:19:58
      466000 -- [-18743.195] (-18747.177) (-18751.119) (-18744.631) * (-18747.608) [-18742.943] (-18749.068) (-18748.373) -- 0:19:57
      466500 -- [-18749.364] (-18755.083) (-18750.090) (-18745.935) * [-18747.909] (-18745.890) (-18743.164) (-18750.827) -- 0:19:56
      467000 -- [-18740.189] (-18751.838) (-18756.846) (-18744.103) * [-18742.967] (-18745.446) (-18764.610) (-18754.394) -- 0:19:54
      467500 -- [-18743.695] (-18743.337) (-18750.455) (-18744.662) * [-18745.113] (-18753.078) (-18753.704) (-18759.373) -- 0:19:53
      468000 -- (-18751.846) [-18739.197] (-18752.080) (-18757.273) * (-18744.811) [-18746.767] (-18742.613) (-18748.353) -- 0:19:52
      468500 -- (-18745.204) [-18753.121] (-18743.670) (-18746.169) * (-18745.496) [-18755.358] (-18743.759) (-18752.924) -- 0:19:51
      469000 -- (-18753.312) (-18750.199) [-18743.875] (-18753.463) * (-18752.641) (-18745.908) [-18745.823] (-18745.055) -- 0:19:51
      469500 -- (-18755.239) (-18749.595) [-18742.825] (-18752.342) * (-18746.627) [-18748.508] (-18743.138) (-18747.052) -- 0:19:49
      470000 -- (-18739.929) (-18742.770) [-18743.575] (-18753.365) * (-18754.721) (-18754.730) [-18747.263] (-18752.040) -- 0:19:48

      Average standard deviation of split frequencies: 0.006232

      470500 -- (-18745.658) (-18753.028) [-18742.849] (-18753.364) * [-18744.485] (-18753.222) (-18749.637) (-18741.415) -- 0:19:47
      471000 -- (-18749.534) [-18744.271] (-18743.353) (-18770.006) * (-18749.567) (-18754.017) (-18751.494) [-18743.140] -- 0:19:46
      471500 -- [-18750.118] (-18743.651) (-18741.764) (-18745.410) * (-18747.572) (-18744.864) [-18749.160] (-18749.009) -- 0:19:44
      472000 -- (-18747.351) (-18746.420) [-18738.209] (-18748.890) * (-18745.888) (-18745.448) [-18743.113] (-18741.166) -- 0:19:43
      472500 -- (-18742.535) [-18748.447] (-18743.128) (-18746.141) * (-18746.896) (-18743.578) [-18742.323] (-18749.672) -- 0:19:42
      473000 -- [-18744.734] (-18749.556) (-18746.013) (-18743.796) * (-18742.582) (-18744.746) (-18749.451) [-18742.558] -- 0:19:42
      473500 -- [-18746.944] (-18753.912) (-18748.051) (-18739.814) * (-18742.454) (-18745.299) [-18746.710] (-18743.864) -- 0:19:40
      474000 -- (-18755.408) [-18744.767] (-18748.061) (-18750.042) * [-18744.527] (-18747.523) (-18752.551) (-18755.716) -- 0:19:39
      474500 -- (-18751.645) (-18749.585) (-18739.333) [-18748.898] * (-18753.753) [-18745.742] (-18749.643) (-18749.713) -- 0:19:38
      475000 -- (-18751.821) (-18743.741) [-18738.844] (-18745.700) * [-18743.252] (-18756.134) (-18749.990) (-18753.741) -- 0:19:37

      Average standard deviation of split frequencies: 0.006382

      475500 -- [-18747.309] (-18750.123) (-18744.299) (-18751.291) * (-18743.564) [-18740.506] (-18756.189) (-18752.171) -- 0:19:35
      476000 -- [-18750.481] (-18743.277) (-18744.014) (-18750.944) * [-18742.558] (-18738.988) (-18739.785) (-18748.913) -- 0:19:34
      476500 -- [-18743.687] (-18744.561) (-18746.481) (-18754.685) * (-18735.043) (-18751.291) (-18743.097) [-18753.910] -- 0:19:34
      477000 -- (-18748.838) (-18749.465) [-18744.351] (-18748.312) * [-18744.150] (-18747.970) (-18740.488) (-18750.129) -- 0:19:33
      477500 -- (-18745.325) (-18745.195) [-18751.164] (-18742.474) * (-18739.635) (-18747.074) [-18744.962] (-18749.070) -- 0:19:31
      478000 -- [-18743.615] (-18751.556) (-18742.116) (-18748.959) * (-18747.181) (-18748.085) [-18747.440] (-18753.381) -- 0:19:30
      478500 -- (-18754.874) [-18746.367] (-18746.156) (-18749.946) * (-18750.823) (-18746.526) [-18741.945] (-18749.065) -- 0:19:30
      479000 -- (-18749.340) [-18741.656] (-18757.979) (-18749.939) * (-18752.889) (-18750.125) (-18744.411) [-18746.047] -- 0:19:29
      479500 -- (-18751.580) (-18747.389) [-18743.941] (-18744.564) * (-18752.613) [-18745.434] (-18741.128) (-18755.271) -- 0:19:28
      480000 -- (-18748.584) (-18752.109) [-18741.750] (-18746.422) * (-18746.723) [-18743.048] (-18741.936) (-18741.909) -- 0:19:26

      Average standard deviation of split frequencies: 0.005666

      480500 -- (-18751.560) (-18752.914) [-18739.783] (-18752.942) * (-18741.010) [-18746.198] (-18750.355) (-18748.575) -- 0:19:25
      481000 -- [-18746.759] (-18745.394) (-18746.356) (-18748.899) * (-18741.991) (-18749.036) (-18755.051) [-18739.226] -- 0:19:25
      481500 -- (-18751.578) (-18750.333) (-18745.438) [-18745.444] * (-18755.558) (-18745.723) (-18745.414) [-18739.807] -- 0:19:24
      482000 -- (-18751.950) [-18751.524] (-18751.158) (-18744.552) * (-18750.640) (-18752.181) (-18749.159) [-18742.893] -- 0:19:22
      482500 -- [-18744.844] (-18739.354) (-18747.741) (-18751.016) * (-18747.368) (-18746.185) (-18752.326) [-18742.563] -- 0:19:21
      483000 -- (-18744.434) (-18745.078) (-18748.128) [-18750.093] * (-18746.869) (-18757.677) (-18752.228) [-18746.318] -- 0:19:20
      483500 -- (-18740.222) [-18746.406] (-18748.788) (-18746.688) * (-18744.341) [-18742.879] (-18759.874) (-18749.724) -- 0:19:19
      484000 -- [-18744.576] (-18750.451) (-18740.983) (-18751.305) * (-18749.360) [-18751.626] (-18751.674) (-18753.606) -- 0:19:17
      484500 -- (-18748.779) (-18753.715) (-18747.838) [-18744.633] * (-18750.467) [-18752.332] (-18754.546) (-18751.331) -- 0:19:17
      485000 -- [-18747.127] (-18746.528) (-18754.770) (-18745.907) * [-18744.211] (-18754.295) (-18745.006) (-18752.484) -- 0:19:16

      Average standard deviation of split frequencies: 0.006251

      485500 -- [-18740.979] (-18741.119) (-18757.761) (-18750.626) * (-18745.774) [-18745.418] (-18752.801) (-18746.032) -- 0:19:15
      486000 -- (-18755.808) [-18752.244] (-18763.433) (-18742.953) * [-18743.403] (-18745.510) (-18756.959) (-18744.082) -- 0:19:13
      486500 -- (-18756.583) [-18744.266] (-18757.341) (-18750.427) * (-18744.583) (-18745.096) (-18747.992) [-18749.130] -- 0:19:12
      487000 -- (-18747.579) [-18739.406] (-18743.493) (-18742.347) * [-18749.318] (-18746.510) (-18755.962) (-18744.324) -- 0:19:11
      487500 -- (-18752.883) (-18739.510) [-18749.563] (-18744.310) * (-18747.250) (-18750.765) (-18756.161) [-18740.046] -- 0:19:10
      488000 -- (-18751.570) (-18748.823) [-18742.519] (-18741.372) * (-18744.735) [-18742.939] (-18751.029) (-18744.193) -- 0:19:09
      488500 -- (-18754.090) (-18754.355) [-18759.002] (-18742.924) * (-18740.706) [-18746.350] (-18745.510) (-18744.266) -- 0:19:08
      489000 -- (-18748.389) (-18755.447) [-18745.286] (-18748.529) * (-18745.603) (-18752.024) (-18755.785) [-18745.986] -- 0:19:07
      489500 -- (-18746.246) [-18751.697] (-18745.306) (-18761.528) * (-18754.622) [-18749.314] (-18746.096) (-18758.340) -- 0:19:06
      490000 -- (-18740.272) [-18743.374] (-18739.126) (-18749.533) * (-18746.062) (-18743.222) (-18752.668) [-18753.172] -- 0:19:04

      Average standard deviation of split frequencies: 0.006191

      490500 -- (-18744.397) [-18738.938] (-18759.144) (-18751.875) * [-18752.123] (-18746.910) (-18744.018) (-18745.761) -- 0:19:03
      491000 -- (-18745.850) (-18755.205) [-18737.566] (-18750.198) * [-18743.602] (-18749.124) (-18747.832) (-18752.753) -- 0:19:02
      491500 -- (-18740.775) [-18744.471] (-18747.634) (-18745.922) * (-18742.826) (-18760.830) (-18754.472) [-18747.982] -- 0:19:02
      492000 -- [-18740.504] (-18742.659) (-18747.419) (-18747.143) * [-18739.265] (-18762.551) (-18750.084) (-18753.073) -- 0:19:00
      492500 -- [-18744.059] (-18744.912) (-18757.752) (-18740.771) * [-18739.291] (-18762.438) (-18748.381) (-18757.282) -- 0:18:59
      493000 -- [-18747.531] (-18750.131) (-18750.198) (-18744.607) * (-18738.877) (-18749.655) (-18747.548) [-18746.004] -- 0:18:58
      493500 -- (-18743.924) (-18748.832) [-18755.510] (-18748.416) * [-18748.059] (-18749.595) (-18749.057) (-18751.088) -- 0:18:57
      494000 -- [-18743.208] (-18744.654) (-18753.894) (-18751.578) * (-18745.780) (-18748.616) [-18745.920] (-18744.021) -- 0:18:55
      494500 -- (-18742.736) (-18745.298) (-18749.425) [-18740.558] * (-18739.828) (-18753.952) [-18741.575] (-18750.108) -- 0:18:54
      495000 -- (-18750.994) (-18749.374) (-18754.490) [-18745.900] * (-18749.834) (-18751.518) [-18749.584] (-18741.145) -- 0:18:53

      Average standard deviation of split frequencies: 0.005280

      495500 -- (-18749.747) (-18748.082) [-18753.182] (-18744.249) * (-18757.005) (-18750.501) (-18749.136) [-18744.683] -- 0:18:53
      496000 -- (-18745.385) (-18742.474) [-18750.234] (-18737.664) * (-18745.593) (-18751.401) (-18757.892) [-18748.693] -- 0:18:51
      496500 -- (-18752.403) (-18751.307) (-18750.121) [-18741.544] * (-18751.472) (-18742.049) (-18748.653) [-18743.687] -- 0:18:50
      497000 -- (-18744.092) (-18749.428) (-18750.047) [-18746.563] * (-18750.662) (-18744.867) (-18748.343) [-18745.122] -- 0:18:49
      497500 -- (-18748.676) [-18747.320] (-18742.484) (-18754.817) * (-18748.521) [-18750.272] (-18748.268) (-18753.476) -- 0:18:48
      498000 -- (-18752.792) (-18747.588) (-18746.762) [-18753.762] * (-18749.133) (-18750.934) [-18750.221] (-18748.651) -- 0:18:46
      498500 -- [-18748.452] (-18745.355) (-18748.343) (-18743.713) * (-18747.882) (-18749.757) [-18744.289] (-18756.107) -- 0:18:45
      499000 -- [-18740.216] (-18746.618) (-18753.219) (-18745.272) * (-18758.797) [-18738.625] (-18748.090) (-18747.130) -- 0:18:45
      499500 -- (-18745.286) (-18741.555) (-18752.058) [-18751.146] * (-18748.865) [-18746.455] (-18744.742) (-18749.844) -- 0:18:44
      500000 -- (-18746.841) (-18749.267) [-18747.147] (-18743.945) * (-18743.805) (-18754.289) [-18750.435] (-18744.578) -- 0:18:43

      Average standard deviation of split frequencies: 0.004603

      500500 -- (-18745.464) (-18754.691) [-18743.053] (-18747.472) * [-18743.199] (-18752.410) (-18754.461) (-18752.767) -- 0:18:41
      501000 -- (-18745.609) (-18747.638) (-18740.859) [-18742.436] * (-18742.529) (-18758.625) [-18745.855] (-18753.646) -- 0:18:40
      501500 -- [-18744.473] (-18748.197) (-18743.786) (-18745.076) * [-18749.073] (-18747.701) (-18741.748) (-18749.603) -- 0:18:39
      502000 -- [-18751.063] (-18743.661) (-18746.636) (-18754.724) * [-18744.116] (-18747.678) (-18756.524) (-18752.604) -- 0:18:38
      502500 -- (-18755.372) (-18746.521) [-18741.534] (-18745.968) * (-18745.814) (-18743.965) [-18746.501] (-18745.707) -- 0:18:37
      503000 -- (-18748.240) (-18758.320) [-18741.699] (-18747.278) * [-18748.031] (-18741.523) (-18749.048) (-18750.895) -- 0:18:36
      503500 -- (-18748.624) (-18750.780) [-18741.325] (-18746.850) * (-18748.995) (-18752.849) (-18748.712) [-18745.424] -- 0:18:35
      504000 -- [-18741.196] (-18746.662) (-18755.125) (-18743.726) * [-18751.466] (-18745.965) (-18749.855) (-18743.908) -- 0:18:34
      504500 -- (-18753.588) (-18751.371) [-18747.926] (-18752.737) * (-18747.000) [-18745.900] (-18739.910) (-18739.953) -- 0:18:32
      505000 -- (-18747.211) (-18751.228) (-18747.628) [-18744.667] * [-18741.748] (-18749.823) (-18746.015) (-18742.260) -- 0:18:31

      Average standard deviation of split frequencies: 0.004348

      505500 -- (-18749.919) (-18757.276) (-18746.268) [-18741.640] * (-18739.518) [-18740.992] (-18745.803) (-18746.989) -- 0:18:30
      506000 -- (-18747.583) (-18748.732) [-18748.438] (-18755.054) * (-18744.999) (-18748.923) [-18748.725] (-18758.786) -- 0:18:30
      506500 -- [-18744.795] (-18748.440) (-18747.308) (-18750.460) * (-18744.744) (-18745.553) (-18746.690) [-18743.851] -- 0:18:28
      507000 -- (-18746.822) (-18759.007) [-18741.636] (-18746.586) * (-18753.495) [-18744.780] (-18741.143) (-18754.141) -- 0:18:27
      507500 -- (-18748.790) [-18747.545] (-18747.382) (-18746.043) * (-18748.180) [-18752.649] (-18752.073) (-18749.100) -- 0:18:26
      508000 -- (-18749.645) [-18746.694] (-18740.636) (-18744.985) * (-18748.518) [-18747.775] (-18747.020) (-18745.826) -- 0:18:25
      508500 -- [-18750.800] (-18753.286) (-18751.882) (-18745.000) * (-18749.473) (-18749.741) [-18743.807] (-18759.155) -- 0:18:23
      509000 -- (-18748.029) (-18742.607) (-18752.494) [-18741.792] * (-18743.994) [-18741.995] (-18745.771) (-18750.211) -- 0:18:22
      509500 -- (-18764.360) (-18740.233) [-18740.634] (-18751.593) * (-18744.210) [-18745.697] (-18750.273) (-18745.507) -- 0:18:22
      510000 -- [-18749.041] (-18746.211) (-18748.679) (-18741.611) * (-18749.454) [-18745.282] (-18755.996) (-18747.492) -- 0:18:21

      Average standard deviation of split frequencies: 0.004513

      510500 -- (-18759.794) [-18746.119] (-18745.245) (-18742.640) * (-18749.345) (-18752.635) [-18753.743] (-18741.960) -- 0:18:19
      511000 -- (-18749.931) (-18745.354) [-18746.829] (-18756.831) * (-18747.966) (-18744.691) (-18746.329) [-18741.596] -- 0:18:18
      511500 -- (-18745.883) (-18747.030) [-18748.538] (-18757.643) * [-18742.291] (-18743.992) (-18748.492) (-18748.033) -- 0:18:17
      512000 -- (-18758.681) (-18756.888) [-18744.686] (-18746.807) * [-18745.279] (-18744.277) (-18749.574) (-18754.567) -- 0:18:16
      512500 -- (-18743.190) [-18754.182] (-18746.540) (-18753.693) * (-18742.766) (-18749.825) [-18753.538] (-18750.320) -- 0:18:14
      513000 -- (-18749.274) [-18743.256] (-18745.509) (-18746.550) * (-18741.501) (-18754.455) [-18750.048] (-18747.492) -- 0:18:14
      513500 -- (-18753.682) [-18741.797] (-18740.645) (-18750.645) * (-18742.613) [-18751.535] (-18752.145) (-18746.514) -- 0:18:13
      514000 -- (-18746.065) (-18739.348) [-18741.989] (-18745.217) * [-18741.814] (-18752.996) (-18751.024) (-18747.886) -- 0:18:12
      514500 -- (-18745.775) [-18743.177] (-18754.532) (-18742.426) * [-18741.877] (-18746.465) (-18745.747) (-18743.998) -- 0:18:10
      515000 -- [-18746.493] (-18746.068) (-18759.286) (-18744.254) * [-18749.214] (-18748.483) (-18758.186) (-18738.396) -- 0:18:09

      Average standard deviation of split frequencies: 0.003451

      515500 -- (-18745.148) [-18740.108] (-18761.232) (-18745.595) * (-18753.389) [-18742.785] (-18748.441) (-18744.630) -- 0:18:08
      516000 -- [-18749.208] (-18750.413) (-18752.139) (-18749.054) * (-18756.286) (-18746.804) (-18740.092) [-18741.206] -- 0:18:07
      516500 -- (-18755.226) [-18753.016] (-18746.629) (-18755.040) * (-18745.015) [-18748.504] (-18741.331) (-18751.592) -- 0:18:06
      517000 -- (-18747.451) (-18754.269) [-18748.523] (-18751.173) * (-18746.538) (-18744.782) [-18739.956] (-18752.855) -- 0:18:05
      517500 -- (-18753.366) (-18746.640) [-18744.599] (-18746.056) * (-18747.962) (-18745.427) [-18742.873] (-18748.961) -- 0:18:04
      518000 -- (-18746.574) [-18749.194] (-18747.373) (-18761.516) * (-18748.009) (-18744.959) (-18749.159) [-18743.913] -- 0:18:03
      518500 -- (-18743.918) (-18747.933) (-18740.059) [-18741.405] * (-18751.836) (-18757.589) [-18739.236] (-18747.106) -- 0:18:01
      519000 -- (-18748.048) (-18753.537) [-18742.496] (-18758.988) * [-18746.217] (-18762.649) (-18739.972) (-18738.950) -- 0:18:00
      519500 -- (-18754.357) [-18747.772] (-18746.473) (-18754.941) * [-18742.327] (-18752.610) (-18750.251) (-18753.761) -- 0:17:59
      520000 -- [-18750.097] (-18753.411) (-18750.134) (-18755.978) * [-18745.501] (-18759.185) (-18748.628) (-18746.422) -- 0:17:58

      Average standard deviation of split frequencies: 0.002616

      520500 -- (-18757.823) [-18743.204] (-18747.116) (-18750.748) * (-18744.965) (-18746.511) (-18752.509) [-18740.762] -- 0:17:57
      521000 -- [-18745.003] (-18741.270) (-18760.894) (-18740.180) * (-18741.010) (-18760.424) (-18747.213) [-18744.062] -- 0:17:56
      521500 -- [-18738.210] (-18741.786) (-18757.919) (-18749.187) * (-18753.631) (-18750.136) (-18753.263) [-18746.892] -- 0:17:55
      522000 -- (-18747.361) (-18743.757) [-18750.530] (-18754.116) * (-18744.699) (-18745.991) (-18756.280) [-18746.057] -- 0:17:54
      522500 -- (-18748.324) [-18751.235] (-18746.375) (-18746.826) * [-18748.377] (-18754.156) (-18745.622) (-18748.898) -- 0:17:52
      523000 -- [-18740.986] (-18755.416) (-18749.706) (-18749.404) * (-18756.255) (-18741.364) [-18744.482] (-18749.145) -- 0:17:51
      523500 -- [-18745.572] (-18748.744) (-18766.266) (-18748.015) * (-18750.089) (-18748.791) (-18742.977) [-18746.782] -- 0:17:50
      524000 -- [-18744.800] (-18743.927) (-18752.986) (-18747.455) * (-18749.494) (-18749.925) [-18756.471] (-18758.984) -- 0:17:50
      524500 -- (-18736.084) [-18749.092] (-18756.217) (-18743.780) * (-18750.855) [-18739.808] (-18750.033) (-18746.046) -- 0:17:48
      525000 -- (-18743.596) (-18740.924) (-18748.892) [-18755.895] * (-18739.257) (-18752.946) (-18746.103) [-18742.434] -- 0:17:47

      Average standard deviation of split frequencies: 0.001792

      525500 -- (-18743.956) (-18748.121) [-18752.908] (-18760.436) * (-18747.035) (-18744.322) (-18741.334) [-18743.227] -- 0:17:46
      526000 -- (-18747.541) (-18748.906) (-18759.207) [-18750.204] * (-18749.779) (-18747.681) (-18742.680) [-18744.183] -- 0:17:45
      526500 -- (-18745.831) [-18751.720] (-18747.171) (-18751.250) * (-18755.825) [-18747.504] (-18744.995) (-18747.974) -- 0:17:43
      527000 -- (-18749.250) (-18753.619) (-18747.203) [-18753.767] * (-18759.688) (-18746.185) (-18746.107) [-18752.805] -- 0:17:42
      527500 -- (-18741.050) (-18754.136) [-18743.682] (-18749.427) * (-18754.024) [-18743.670] (-18749.160) (-18739.181) -- 0:17:41
      528000 -- (-18753.792) (-18743.330) (-18748.254) [-18741.875] * [-18747.287] (-18751.129) (-18758.865) (-18751.102) -- 0:17:41
      528500 -- [-18747.195] (-18749.626) (-18754.771) (-18753.135) * (-18747.967) (-18760.820) [-18746.450] (-18748.136) -- 0:17:39
      529000 -- (-18742.142) (-18751.304) (-18743.894) [-18744.539] * (-18746.251) [-18755.145] (-18745.297) (-18750.675) -- 0:17:38
      529500 -- (-18744.590) (-18747.697) [-18744.059] (-18749.762) * (-18755.316) (-18748.786) [-18748.524] (-18752.918) -- 0:17:37
      530000 -- (-18740.805) [-18742.084] (-18745.339) (-18754.390) * (-18748.485) (-18753.890) (-18752.002) [-18754.543] -- 0:17:36

      Average standard deviation of split frequencies: 0.001579

      530500 -- (-18746.198) [-18746.130] (-18747.299) (-18744.061) * [-18745.555] (-18757.944) (-18750.861) (-18749.830) -- 0:17:34
      531000 -- [-18746.378] (-18746.310) (-18757.711) (-18751.568) * [-18741.184] (-18747.579) (-18751.320) (-18750.280) -- 0:17:33
      531500 -- (-18748.816) (-18747.748) (-18741.280) [-18746.466] * (-18741.690) (-18750.975) (-18756.196) [-18745.172] -- 0:17:33
      532000 -- (-18749.979) (-18749.277) (-18748.855) [-18738.833] * [-18746.546] (-18743.047) (-18747.949) (-18747.128) -- 0:17:32
      532500 -- (-18758.886) (-18762.494) (-18749.956) [-18738.754] * (-18751.382) (-18757.326) [-18746.241] (-18744.887) -- 0:17:30
      533000 -- (-18752.111) (-18741.893) (-18751.670) [-18742.564] * (-18753.669) (-18749.474) [-18746.194] (-18747.529) -- 0:17:29
      533500 -- (-18743.252) (-18746.107) (-18756.798) [-18743.839] * (-18756.322) (-18749.835) [-18745.148] (-18746.004) -- 0:17:28
      534000 -- (-18747.031) [-18743.763] (-18744.198) (-18747.751) * (-18749.753) (-18748.633) [-18742.865] (-18750.375) -- 0:17:27
      534500 -- [-18743.870] (-18742.599) (-18745.909) (-18753.005) * (-18745.753) (-18746.455) (-18744.648) [-18742.465] -- 0:17:25
      535000 -- [-18749.121] (-18742.731) (-18742.502) (-18745.432) * (-18752.619) (-18748.413) [-18753.849] (-18741.482) -- 0:17:25

      Average standard deviation of split frequencies: 0.001173

      535500 -- (-18745.937) (-18756.047) [-18743.401] (-18744.877) * [-18746.265] (-18753.414) (-18742.846) (-18751.626) -- 0:17:24
      536000 -- (-18749.456) (-18755.276) [-18740.028] (-18750.396) * (-18742.625) [-18745.600] (-18748.309) (-18746.691) -- 0:17:23
      536500 -- (-18745.925) (-18748.435) [-18748.557] (-18753.623) * (-18745.784) (-18744.524) (-18748.921) [-18743.319] -- 0:17:21
      537000 -- [-18747.132] (-18752.788) (-18750.310) (-18755.186) * (-18741.086) (-18741.653) [-18747.959] (-18738.025) -- 0:17:20
      537500 -- (-18745.617) [-18758.134] (-18751.155) (-18760.420) * (-18748.545) (-18742.643) [-18753.026] (-18743.187) -- 0:17:19
      538000 -- (-18745.170) [-18747.804] (-18753.918) (-18754.070) * (-18748.522) [-18750.014] (-18746.842) (-18742.796) -- 0:17:18
      538500 -- (-18751.831) (-18745.503) (-18754.865) [-18747.863] * (-18740.600) (-18744.522) [-18745.479] (-18752.815) -- 0:17:17
      539000 -- [-18745.491] (-18739.422) (-18745.647) (-18753.194) * (-18746.633) [-18747.383] (-18747.554) (-18755.869) -- 0:17:16
      539500 -- (-18758.053) [-18748.587] (-18752.979) (-18748.591) * (-18744.153) (-18740.457) [-18744.202] (-18745.601) -- 0:17:15
      540000 -- (-18757.547) (-18749.281) (-18750.400) [-18743.543] * (-18747.190) (-18747.692) [-18743.195] (-18748.895) -- 0:17:14

      Average standard deviation of split frequencies: 0.001356

      540500 -- (-18750.968) (-18746.961) (-18744.324) [-18745.221] * (-18748.604) [-18749.518] (-18748.663) (-18745.906) -- 0:17:12
      541000 -- (-18752.205) [-18741.977] (-18753.474) (-18745.223) * (-18752.871) (-18749.304) (-18742.555) [-18753.596] -- 0:17:11
      541500 -- (-18752.739) (-18754.817) [-18745.489] (-18756.054) * (-18744.216) (-18747.595) (-18744.883) [-18749.613] -- 0:17:10
      542000 -- (-18751.778) [-18748.073] (-18748.918) (-18744.952) * (-18744.316) (-18750.341) (-18747.015) [-18745.224] -- 0:17:10
      542500 -- (-18750.175) (-18745.968) [-18747.262] (-18758.791) * (-18750.278) [-18743.882] (-18741.354) (-18743.891) -- 0:17:08
      543000 -- (-18747.144) [-18750.841] (-18752.691) (-18754.569) * (-18750.807) (-18747.222) [-18751.966] (-18749.455) -- 0:17:07
      543500 -- (-18747.955) [-18750.093] (-18748.755) (-18748.856) * (-18748.646) (-18737.328) (-18744.512) [-18745.510] -- 0:17:06
      544000 -- (-18748.799) (-18744.249) [-18745.474] (-18751.761) * (-18748.602) [-18739.775] (-18751.187) (-18747.682) -- 0:17:05
      544500 -- [-18741.242] (-18744.873) (-18749.558) (-18744.849) * (-18740.575) (-18740.979) [-18744.736] (-18748.088) -- 0:17:03
      545000 -- [-18745.222] (-18747.930) (-18758.155) (-18746.820) * [-18747.584] (-18741.037) (-18746.471) (-18740.462) -- 0:17:02

      Average standard deviation of split frequencies: 0.001535

      545500 -- (-18754.956) [-18747.424] (-18754.070) (-18744.268) * [-18743.571] (-18753.186) (-18743.930) (-18757.238) -- 0:17:01
      546000 -- (-18749.882) (-18744.301) (-18752.322) [-18754.242] * (-18742.753) [-18741.182] (-18753.304) (-18749.864) -- 0:17:01
      546500 -- (-18750.453) [-18744.170] (-18743.785) (-18759.857) * (-18749.968) [-18744.417] (-18750.023) (-18757.415) -- 0:16:59
      547000 -- [-18750.900] (-18740.072) (-18742.677) (-18755.457) * (-18747.001) [-18742.819] (-18753.400) (-18751.712) -- 0:16:58
      547500 -- (-18750.516) (-18743.927) (-18744.286) [-18742.409] * (-18761.243) [-18743.097] (-18747.683) (-18749.907) -- 0:16:57
      548000 -- (-18743.268) [-18743.956] (-18748.380) (-18744.941) * (-18753.100) [-18753.378] (-18742.687) (-18749.310) -- 0:16:56
      548500 -- (-18744.489) (-18746.481) (-18746.984) [-18738.951] * (-18750.020) (-18754.268) (-18750.745) [-18739.767] -- 0:16:54
      549000 -- (-18745.268) (-18747.718) [-18736.925] (-18748.952) * (-18748.021) (-18752.597) (-18743.369) [-18748.382] -- 0:16:54
      549500 -- (-18749.372) (-18741.190) [-18742.955] (-18748.066) * (-18743.655) [-18741.619] (-18742.037) (-18754.895) -- 0:16:53
      550000 -- (-18751.863) (-18741.568) (-18740.184) [-18755.862] * (-18743.900) [-18746.575] (-18749.610) (-18738.767) -- 0:16:52

      Average standard deviation of split frequencies: 0.002093

      550500 -- (-18740.525) (-18743.890) [-18737.304] (-18738.554) * (-18757.488) (-18746.074) (-18754.829) [-18742.678] -- 0:16:50
      551000 -- (-18744.625) (-18757.983) (-18746.880) [-18745.476] * [-18746.749] (-18740.173) (-18750.264) (-18749.462) -- 0:16:49
      551500 -- (-18747.682) [-18744.617] (-18748.687) (-18747.442) * [-18742.142] (-18741.565) (-18750.006) (-18748.833) -- 0:16:48
      552000 -- [-18743.301] (-18750.651) (-18744.508) (-18751.282) * (-18742.837) (-18749.155) (-18755.843) [-18738.770] -- 0:16:47
      552500 -- (-18746.531) [-18742.782] (-18752.680) (-18742.637) * (-18749.703) (-18753.190) (-18752.877) [-18745.289] -- 0:16:45
      553000 -- (-18750.894) (-18756.270) (-18742.289) [-18748.161] * [-18746.804] (-18749.827) (-18757.084) (-18745.280) -- 0:16:45
      553500 -- (-18746.451) (-18749.044) [-18745.473] (-18750.403) * (-18754.449) [-18751.985] (-18745.788) (-18740.382) -- 0:16:44
      554000 -- (-18744.766) (-18749.108) (-18739.944) [-18741.994] * [-18740.264] (-18755.332) (-18751.353) (-18748.113) -- 0:16:43
      554500 -- [-18748.730] (-18750.139) (-18743.705) (-18747.653) * (-18746.708) (-18745.341) (-18748.653) [-18742.595] -- 0:16:41
      555000 -- (-18749.943) [-18750.702] (-18742.418) (-18751.454) * (-18743.228) (-18750.104) (-18747.551) [-18744.251] -- 0:16:40

      Average standard deviation of split frequencies: 0.002261

      555500 -- [-18736.487] (-18744.935) (-18754.022) (-18742.740) * (-18740.909) (-18751.339) [-18748.593] (-18751.474) -- 0:16:39
      556000 -- (-18760.252) [-18747.001] (-18743.974) (-18751.140) * (-18741.329) [-18751.332] (-18750.669) (-18751.209) -- 0:16:38
      556500 -- (-18747.594) [-18747.708] (-18745.098) (-18743.837) * (-18748.817) (-18750.028) [-18740.298] (-18756.910) -- 0:16:36
      557000 -- (-18748.465) (-18750.889) [-18744.765] (-18756.803) * (-18749.501) (-18757.326) [-18742.636] (-18752.839) -- 0:16:36
      557500 -- [-18754.667] (-18751.007) (-18741.777) (-18751.365) * (-18750.210) (-18749.907) [-18740.191] (-18756.772) -- 0:16:35
      558000 -- [-18743.381] (-18749.851) (-18744.062) (-18750.407) * (-18743.361) [-18748.816] (-18748.724) (-18753.845) -- 0:16:34
      558500 -- (-18750.090) [-18743.761] (-18751.305) (-18749.926) * (-18752.105) (-18745.362) (-18752.753) [-18753.641] -- 0:16:32
      559000 -- (-18746.622) [-18741.865] (-18750.361) (-18753.918) * (-18750.800) (-18753.192) (-18752.559) [-18742.968] -- 0:16:31
      559500 -- [-18737.004] (-18739.391) (-18750.957) (-18767.032) * (-18747.290) (-18744.261) (-18748.839) [-18744.413] -- 0:16:30
      560000 -- (-18741.410) (-18750.101) [-18744.808] (-18751.757) * (-18746.741) [-18746.897] (-18760.205) (-18750.545) -- 0:16:29

      Average standard deviation of split frequencies: 0.001495

      560500 -- (-18747.657) (-18752.937) [-18749.093] (-18750.726) * (-18750.429) (-18750.048) [-18742.897] (-18747.744) -- 0:16:27
      561000 -- (-18745.881) (-18750.030) (-18746.313) [-18748.814] * (-18750.815) (-18749.172) [-18745.195] (-18744.930) -- 0:16:26
      561500 -- [-18741.614] (-18747.755) (-18751.986) (-18746.161) * (-18757.085) (-18748.317) (-18748.103) [-18739.361] -- 0:16:26
      562000 -- (-18741.185) [-18746.410] (-18758.316) (-18748.907) * (-18756.548) (-18746.146) [-18746.062] (-18747.006) -- 0:16:25
      562500 -- (-18747.290) [-18743.025] (-18754.777) (-18741.095) * (-18757.852) (-18753.944) (-18748.595) [-18743.862] -- 0:16:23
      563000 -- (-18762.874) (-18742.439) (-18752.138) [-18744.976] * (-18747.186) [-18745.779] (-18745.209) (-18743.584) -- 0:16:22
      563500 -- (-18751.590) (-18749.471) (-18742.140) [-18737.002] * [-18754.518] (-18750.808) (-18747.890) (-18741.561) -- 0:16:21
      564000 -- [-18751.114] (-18746.037) (-18747.744) (-18761.249) * [-18739.574] (-18747.567) (-18741.816) (-18751.905) -- 0:16:20
      564500 -- (-18746.336) [-18751.397] (-18747.790) (-18751.174) * (-18754.470) (-18736.819) [-18746.430] (-18751.214) -- 0:16:19
      565000 -- (-18743.402) (-18762.627) [-18751.658] (-18745.744) * (-18747.467) [-18739.988] (-18746.150) (-18748.944) -- 0:16:17

      Average standard deviation of split frequencies: 0.001666

      565500 -- (-18748.094) (-18759.239) (-18749.794) [-18741.624] * (-18747.459) (-18739.866) [-18747.135] (-18753.454) -- 0:16:16
      566000 -- (-18744.135) [-18743.763] (-18749.395) (-18746.064) * (-18744.800) (-18749.205) [-18744.840] (-18747.547) -- 0:16:16
      566500 -- (-18746.156) (-18750.315) (-18739.855) [-18759.480] * (-18748.634) (-18746.331) (-18750.601) [-18741.063] -- 0:16:14
      567000 -- (-18741.063) (-18750.739) [-18742.128] (-18748.772) * (-18746.850) (-18746.736) (-18746.893) [-18745.885] -- 0:16:13
      567500 -- (-18739.121) (-18746.444) (-18745.618) [-18745.592] * [-18754.522] (-18743.929) (-18747.007) (-18745.530) -- 0:16:12
      568000 -- [-18749.657] (-18751.275) (-18743.533) (-18746.143) * [-18746.154] (-18744.270) (-18739.004) (-18742.225) -- 0:16:11
      568500 -- [-18746.754] (-18752.260) (-18746.146) (-18750.457) * (-18755.607) (-18751.721) [-18739.203] (-18748.141) -- 0:16:10
      569000 -- (-18747.134) (-18742.602) [-18749.594] (-18749.660) * (-18751.419) [-18748.157] (-18742.102) (-18757.550) -- 0:16:08
      569500 -- (-18749.483) [-18743.842] (-18746.196) (-18742.628) * (-18746.976) (-18746.233) (-18745.614) [-18748.425] -- 0:16:07
      570000 -- (-18744.904) [-18745.764] (-18751.332) (-18752.595) * [-18753.192] (-18743.261) (-18753.087) (-18748.215) -- 0:16:07

      Average standard deviation of split frequencies: 0.001285

      570500 -- [-18748.658] (-18748.634) (-18743.148) (-18742.981) * (-18760.247) [-18741.699] (-18750.522) (-18748.837) -- 0:16:05
      571000 -- (-18755.916) (-18740.642) [-18747.585] (-18749.713) * (-18761.960) (-18743.095) (-18749.809) [-18741.982] -- 0:16:04
      571500 -- [-18748.232] (-18744.411) (-18745.150) (-18741.457) * [-18747.203] (-18753.939) (-18753.079) (-18744.887) -- 0:16:03
      572000 -- (-18753.249) (-18749.182) [-18742.266] (-18751.492) * [-18748.533] (-18741.059) (-18743.644) (-18748.713) -- 0:16:02
      572500 -- [-18743.778] (-18746.995) (-18750.033) (-18753.356) * [-18746.627] (-18750.657) (-18744.053) (-18761.383) -- 0:16:01
      573000 -- (-18745.746) (-18753.755) (-18744.392) [-18743.286] * [-18745.271] (-18743.149) (-18755.906) (-18748.296) -- 0:15:59
      573500 -- (-18746.737) [-18748.606] (-18752.829) (-18748.384) * (-18738.689) (-18744.811) [-18748.233] (-18751.477) -- 0:15:58
      574000 -- [-18751.792] (-18748.189) (-18752.631) (-18745.921) * (-18752.387) [-18744.402] (-18758.247) (-18749.332) -- 0:15:58
      574500 -- (-18745.006) (-18742.746) (-18754.421) [-18746.531] * [-18741.589] (-18741.839) (-18741.973) (-18741.461) -- 0:15:56
      575000 -- [-18746.056] (-18740.182) (-18745.995) (-18745.320) * [-18745.734] (-18746.049) (-18754.727) (-18753.040) -- 0:15:55

      Average standard deviation of split frequencies: 0.000909

      575500 -- [-18747.768] (-18744.203) (-18751.088) (-18746.387) * (-18752.794) (-18744.375) (-18746.044) [-18744.403] -- 0:15:54
      576000 -- (-18757.953) (-18736.792) (-18754.000) [-18744.602] * (-18752.361) (-18746.693) [-18744.281] (-18740.593) -- 0:15:53
      576500 -- (-18759.301) [-18743.108] (-18747.763) (-18759.602) * (-18751.588) (-18747.791) [-18741.316] (-18744.859) -- 0:15:52
      577000 -- (-18756.906) [-18747.054] (-18748.695) (-18745.065) * [-18746.993] (-18755.532) (-18745.738) (-18753.316) -- 0:15:50
      577500 -- (-18753.002) (-18742.140) [-18745.583] (-18746.447) * [-18750.829] (-18745.171) (-18746.242) (-18754.923) -- 0:15:49
      578000 -- (-18750.135) (-18751.434) [-18749.781] (-18746.503) * [-18747.929] (-18743.400) (-18748.515) (-18748.874) -- 0:15:48
      578500 -- (-18755.461) (-18743.646) (-18744.782) [-18748.639] * [-18747.162] (-18760.865) (-18740.989) (-18745.235) -- 0:15:47
      579000 -- (-18750.757) (-18744.381) [-18746.405] (-18755.389) * (-18763.542) [-18752.368] (-18743.677) (-18747.649) -- 0:15:46
      579500 -- (-18753.544) [-18753.736] (-18751.733) (-18753.137) * (-18744.948) (-18751.714) [-18744.391] (-18753.803) -- 0:15:45
      580000 -- (-18744.292) (-18763.337) (-18743.939) [-18750.908] * (-18758.901) (-18749.926) (-18745.742) [-18747.475] -- 0:15:44

      Average standard deviation of split frequencies: 0.001082

      580500 -- (-18747.557) (-18750.679) [-18740.646] (-18752.616) * (-18750.316) [-18740.754] (-18749.479) (-18750.993) -- 0:15:43
      581000 -- (-18752.832) [-18743.131] (-18735.398) (-18749.197) * [-18747.530] (-18748.088) (-18750.368) (-18748.618) -- 0:15:41
      581500 -- (-18761.469) (-18751.997) [-18743.216] (-18741.507) * (-18752.796) [-18747.908] (-18746.946) (-18743.142) -- 0:15:40
      582000 -- [-18752.777] (-18742.314) (-18745.433) (-18740.781) * (-18760.292) (-18749.017) (-18743.257) [-18750.428] -- 0:15:39
      582500 -- (-18748.868) [-18744.835] (-18746.560) (-18738.740) * [-18738.497] (-18745.587) (-18746.723) (-18754.171) -- 0:15:38
      583000 -- [-18741.748] (-18746.629) (-18750.250) (-18745.709) * (-18745.961) (-18746.564) (-18748.564) [-18745.150] -- 0:15:37
      583500 -- (-18741.388) (-18749.563) (-18752.784) [-18752.964] * (-18747.451) (-18743.206) [-18738.217] (-18745.964) -- 0:15:36
      584000 -- [-18748.551] (-18750.146) (-18742.709) (-18773.132) * (-18741.101) (-18750.471) (-18736.516) [-18755.641] -- 0:15:35
      584500 -- (-18746.437) [-18746.617] (-18749.749) (-18762.510) * (-18744.204) [-18744.089] (-18752.976) (-18740.349) -- 0:15:34
      585000 -- (-18760.052) [-18749.707] (-18746.672) (-18757.220) * (-18752.585) (-18748.426) [-18736.972] (-18744.914) -- 0:15:32

      Average standard deviation of split frequencies: 0.001609

      585500 -- (-18762.443) (-18742.527) [-18752.579] (-18752.881) * (-18747.572) [-18750.668] (-18743.732) (-18755.760) -- 0:15:31
      586000 -- (-18758.971) (-18746.068) [-18743.468] (-18746.409) * (-18744.703) [-18741.272] (-18757.040) (-18748.088) -- 0:15:30
      586500 -- (-18754.961) [-18741.735] (-18751.673) (-18753.681) * [-18743.742] (-18744.328) (-18752.683) (-18752.206) -- 0:15:29
      587000 -- (-18754.155) [-18746.689] (-18754.456) (-18745.720) * [-18743.434] (-18738.669) (-18748.679) (-18744.753) -- 0:15:28
      587500 -- (-18747.378) [-18740.605] (-18752.282) (-18758.158) * [-18749.859] (-18742.845) (-18751.310) (-18750.370) -- 0:15:27
      588000 -- (-18758.104) [-18751.260] (-18760.579) (-18755.644) * (-18746.377) [-18744.938] (-18745.792) (-18754.517) -- 0:15:26
      588500 -- (-18743.525) (-18748.095) [-18747.140] (-18752.252) * [-18747.390] (-18747.996) (-18744.405) (-18749.858) -- 0:15:25
      589000 -- (-18741.948) (-18752.806) [-18747.948] (-18753.831) * [-18744.206] (-18747.912) (-18744.754) (-18758.086) -- 0:15:23
      589500 -- (-18750.522) (-18744.740) [-18742.318] (-18752.127) * (-18743.450) (-18754.932) (-18745.420) [-18739.181] -- 0:15:22
      590000 -- (-18752.122) [-18740.672] (-18745.168) (-18753.941) * (-18744.841) [-18745.291] (-18745.375) (-18743.339) -- 0:15:21

      Average standard deviation of split frequencies: 0.001419

      590500 -- (-18752.840) (-18746.342) (-18747.537) [-18744.620] * [-18750.581] (-18749.939) (-18755.106) (-18741.103) -- 0:15:20
      591000 -- (-18748.963) (-18744.456) [-18748.685] (-18753.646) * (-18749.430) (-18747.194) (-18753.437) [-18743.290] -- 0:15:19
      591500 -- (-18747.280) (-18754.241) (-18740.736) [-18740.360] * [-18748.038] (-18746.983) (-18758.070) (-18741.336) -- 0:15:18
      592000 -- (-18747.460) (-18747.675) [-18740.960] (-18747.081) * (-18752.979) [-18752.536] (-18749.328) (-18744.084) -- 0:15:17
      592500 -- (-18755.482) (-18740.882) (-18749.260) [-18743.961] * (-18746.312) (-18760.500) [-18747.123] (-18741.166) -- 0:15:16
      593000 -- (-18747.815) [-18746.280] (-18747.331) (-18743.615) * (-18744.085) (-18748.469) (-18745.813) [-18750.668] -- 0:15:14
      593500 -- (-18744.048) (-18747.646) [-18741.934] (-18744.365) * [-18744.027] (-18754.297) (-18745.377) (-18759.644) -- 0:15:13
      594000 -- [-18741.781] (-18747.741) (-18750.500) (-18749.432) * (-18749.132) (-18751.781) [-18742.060] (-18746.454) -- 0:15:12
      594500 -- [-18743.690] (-18748.609) (-18749.888) (-18748.041) * (-18746.077) (-18740.376) [-18752.031] (-18747.700) -- 0:15:11
      595000 -- (-18744.032) [-18743.190] (-18758.535) (-18752.922) * (-18750.375) [-18745.159] (-18742.990) (-18752.048) -- 0:15:10

      Average standard deviation of split frequencies: 0.001055

      595500 -- (-18749.063) (-18746.759) [-18746.920] (-18746.369) * (-18750.236) (-18745.840) (-18738.334) [-18743.435] -- 0:15:09
      596000 -- [-18744.137] (-18750.002) (-18743.867) (-18751.447) * (-18750.299) [-18743.426] (-18748.264) (-18736.758) -- 0:15:08
      596500 -- (-18747.968) (-18743.111) (-18750.733) [-18750.669] * (-18752.594) [-18749.110] (-18746.646) (-18746.350) -- 0:15:07
      597000 -- [-18748.568] (-18745.288) (-18741.211) (-18742.834) * (-18749.953) (-18746.116) [-18745.186] (-18754.276) -- 0:15:05
      597500 -- (-18752.172) (-18746.844) [-18743.411] (-18745.809) * (-18747.886) (-18746.903) [-18742.133] (-18747.497) -- 0:15:04
      598000 -- (-18748.821) [-18753.179] (-18746.658) (-18748.441) * [-18747.804] (-18751.446) (-18745.486) (-18752.208) -- 0:15:03
      598500 -- (-18752.685) (-18751.296) (-18747.826) [-18744.114] * (-18747.524) (-18759.313) (-18749.797) [-18745.333] -- 0:15:02
      599000 -- (-18747.095) (-18756.917) [-18741.870] (-18750.176) * [-18747.486] (-18749.183) (-18749.964) (-18746.204) -- 0:15:01
      599500 -- (-18742.731) (-18747.345) (-18750.938) [-18744.861] * [-18741.043] (-18760.068) (-18746.334) (-18738.414) -- 0:15:00
      600000 -- (-18756.937) [-18746.042] (-18763.555) (-18750.657) * (-18746.915) [-18757.280] (-18760.508) (-18740.415) -- 0:14:59

      Average standard deviation of split frequencies: 0.000872

      600500 -- (-18756.576) (-18749.957) [-18752.948] (-18755.898) * (-18749.437) (-18752.707) (-18753.560) [-18749.497] -- 0:14:58
      601000 -- (-18750.473) (-18743.635) [-18749.817] (-18747.460) * (-18747.884) (-18752.427) (-18748.550) [-18747.091] -- 0:14:56
      601500 -- (-18753.985) (-18743.763) (-18747.289) [-18740.643] * (-18752.414) (-18758.627) (-18743.977) [-18747.668] -- 0:14:55
      602000 -- (-18751.275) (-18750.800) (-18747.069) [-18743.700] * (-18747.757) [-18749.966] (-18752.341) (-18751.943) -- 0:14:54
      602500 -- (-18743.854) [-18743.185] (-18749.792) (-18748.696) * (-18752.653) (-18743.501) (-18745.526) [-18746.575] -- 0:14:53
      603000 -- (-18749.468) (-18751.082) (-18754.480) [-18746.777] * [-18751.145] (-18749.859) (-18747.084) (-18742.454) -- 0:14:52
      603500 -- [-18746.997] (-18752.967) (-18748.090) (-18760.329) * [-18755.350] (-18753.917) (-18741.052) (-18740.582) -- 0:14:51
      604000 -- (-18751.580) [-18740.908] (-18749.567) (-18748.768) * [-18743.184] (-18745.344) (-18742.385) (-18744.708) -- 0:14:50
      604500 -- (-18761.768) (-18744.673) (-18749.493) [-18749.525] * [-18746.019] (-18749.926) (-18752.274) (-18747.587) -- 0:14:49
      605000 -- [-18748.535] (-18744.695) (-18746.511) (-18753.059) * (-18740.909) [-18755.676] (-18746.893) (-18742.485) -- 0:14:47

      Average standard deviation of split frequencies: 0.001556

      605500 -- [-18746.468] (-18749.837) (-18750.275) (-18750.845) * (-18744.796) (-18744.966) [-18741.847] (-18748.860) -- 0:14:46
      606000 -- (-18744.356) (-18753.170) (-18750.591) [-18744.461] * [-18749.437] (-18746.763) (-18745.576) (-18745.660) -- 0:14:45
      606500 -- (-18748.931) [-18748.133] (-18746.659) (-18751.723) * (-18756.091) [-18746.198] (-18751.354) (-18741.954) -- 0:14:44
      607000 -- [-18744.142] (-18747.718) (-18751.937) (-18756.955) * (-18754.047) [-18748.317] (-18747.216) (-18755.155) -- 0:14:43
      607500 -- (-18747.992) [-18759.878] (-18745.338) (-18749.129) * (-18748.811) (-18748.332) (-18750.258) [-18744.996] -- 0:14:41
      608000 -- [-18749.384] (-18752.254) (-18749.644) (-18750.211) * (-18746.381) (-18749.201) (-18748.111) [-18739.396] -- 0:14:41
      608500 -- (-18752.380) (-18750.473) [-18745.688] (-18755.441) * (-18755.749) (-18749.013) [-18744.013] (-18743.744) -- 0:14:40
      609000 -- (-18747.806) (-18749.127) [-18747.183] (-18750.357) * (-18750.916) (-18750.965) (-18751.296) [-18745.714] -- 0:14:38
      609500 -- (-18745.144) (-18752.852) (-18747.863) [-18741.918] * (-18745.829) (-18759.633) (-18743.580) [-18746.314] -- 0:14:37
      610000 -- (-18746.799) (-18750.081) (-18750.385) [-18746.052] * (-18741.331) (-18748.566) (-18745.538) [-18745.225] -- 0:14:36

      Average standard deviation of split frequencies: 0.002230

      610500 -- (-18752.524) (-18741.386) [-18742.912] (-18744.794) * [-18748.394] (-18764.499) (-18747.779) (-18748.428) -- 0:14:35
      611000 -- (-18745.113) [-18739.638] (-18746.893) (-18753.188) * [-18741.309] (-18761.720) (-18749.441) (-18745.216) -- 0:14:34
      611500 -- (-18749.918) (-18747.803) [-18745.803] (-18745.579) * (-18745.249) (-18758.112) (-18739.683) [-18748.783] -- 0:14:32
      612000 -- (-18759.562) (-18746.377) [-18743.060] (-18750.947) * (-18745.586) (-18753.110) [-18738.965] (-18763.362) -- 0:14:31
      612500 -- (-18750.429) (-18745.842) (-18747.004) [-18747.858] * [-18753.321] (-18739.059) (-18747.885) (-18750.077) -- 0:14:31
      613000 -- (-18744.132) (-18752.554) (-18750.876) [-18744.307] * [-18746.539] (-18749.145) (-18749.227) (-18748.354) -- 0:14:29
      613500 -- (-18747.484) (-18748.433) [-18746.364] (-18736.866) * (-18748.084) (-18757.594) [-18748.549] (-18757.430) -- 0:14:28
      614000 -- (-18747.223) [-18750.550] (-18758.849) (-18741.805) * (-18746.138) (-18757.465) (-18750.784) [-18748.887] -- 0:14:27
      614500 -- (-18744.287) (-18755.553) (-18747.649) [-18740.396] * (-18746.892) [-18752.315] (-18751.340) (-18743.739) -- 0:14:26
      615000 -- (-18747.110) (-18745.776) [-18751.145] (-18750.306) * (-18754.360) (-18746.775) [-18749.607] (-18743.174) -- 0:14:25

      Average standard deviation of split frequencies: 0.003061

      615500 -- (-18744.898) (-18753.964) (-18750.052) [-18739.881] * [-18749.702] (-18747.428) (-18755.582) (-18739.420) -- 0:14:23
      616000 -- (-18744.385) [-18748.725] (-18752.298) (-18743.167) * [-18746.029] (-18744.538) (-18752.247) (-18746.222) -- 0:14:22
      616500 -- (-18742.432) (-18741.912) [-18744.001] (-18751.129) * (-18754.464) (-18749.690) [-18747.099] (-18747.895) -- 0:14:21
      617000 -- (-18754.518) [-18745.945] (-18746.183) (-18756.891) * (-18755.780) (-18744.859) (-18757.480) [-18749.882] -- 0:14:20
      617500 -- (-18747.558) (-18744.026) (-18751.561) [-18746.040] * (-18752.864) [-18749.842] (-18753.286) (-18745.381) -- 0:14:19
      618000 -- (-18744.195) (-18749.187) (-18756.463) [-18739.755] * [-18750.407] (-18748.174) (-18746.983) (-18741.092) -- 0:14:18
      618500 -- (-18749.618) [-18745.480] (-18746.812) (-18754.435) * [-18741.753] (-18745.466) (-18755.570) (-18763.282) -- 0:14:17
      619000 -- (-18751.740) (-18759.837) [-18742.884] (-18746.318) * (-18751.960) (-18748.237) [-18750.278] (-18747.381) -- 0:14:16
      619500 -- (-18742.736) (-18747.118) [-18742.594] (-18754.418) * [-18743.967] (-18755.178) (-18752.843) (-18748.602) -- 0:14:14
      620000 -- (-18739.195) (-18754.302) (-18741.699) [-18740.918] * (-18744.291) (-18746.595) [-18745.394] (-18750.654) -- 0:14:13

      Average standard deviation of split frequencies: 0.003038

      620500 -- (-18739.956) (-18753.586) (-18756.611) [-18740.160] * (-18760.628) [-18749.490] (-18744.629) (-18738.488) -- 0:14:12
      621000 -- (-18743.331) (-18747.401) (-18761.100) [-18742.646] * [-18743.703] (-18744.934) (-18745.764) (-18750.278) -- 0:14:11
      621500 -- [-18745.205] (-18754.049) (-18751.405) (-18747.954) * (-18745.304) [-18749.229] (-18749.589) (-18748.604) -- 0:14:10
      622000 -- [-18747.838] (-18752.372) (-18750.378) (-18740.240) * (-18746.170) (-18750.074) [-18742.979] (-18760.676) -- 0:14:09
      622500 -- (-18748.133) (-18742.637) (-18752.410) [-18745.693] * (-18745.574) (-18754.229) (-18742.763) [-18753.955] -- 0:14:08
      623000 -- (-18755.558) [-18747.522] (-18757.305) (-18745.023) * [-18753.888] (-18747.194) (-18743.792) (-18752.695) -- 0:14:07
      623500 -- [-18742.415] (-18749.896) (-18752.414) (-18743.943) * (-18765.652) [-18744.815] (-18748.472) (-18749.794) -- 0:14:05
      624000 -- (-18751.508) (-18748.886) (-18749.260) [-18751.537] * (-18752.346) (-18746.840) [-18747.053] (-18754.704) -- 0:14:04
      624500 -- (-18739.464) (-18745.923) (-18752.151) [-18746.810] * (-18754.981) [-18749.193] (-18751.429) (-18753.083) -- 0:14:04
      625000 -- (-18745.627) (-18742.092) [-18742.541] (-18754.317) * (-18751.183) [-18753.765] (-18748.818) (-18744.734) -- 0:14:03

      Average standard deviation of split frequencies: 0.002845

      625500 -- (-18746.240) (-18747.664) (-18757.087) [-18745.126] * (-18758.988) (-18766.275) [-18743.421] (-18747.150) -- 0:14:01
      626000 -- (-18748.280) (-18742.938) [-18746.247] (-18752.672) * (-18755.416) (-18747.281) (-18745.755) [-18747.902] -- 0:14:00
      626500 -- (-18747.886) (-18742.971) [-18752.505] (-18750.545) * [-18755.754] (-18751.995) (-18753.778) (-18745.774) -- 0:13:59
      627000 -- (-18748.887) [-18744.468] (-18754.379) (-18745.873) * [-18749.303] (-18759.146) (-18751.226) (-18746.763) -- 0:13:58
      627500 -- (-18744.965) [-18743.536] (-18752.485) (-18743.821) * (-18745.707) [-18743.796] (-18755.950) (-18742.178) -- 0:13:57
      628000 -- (-18744.101) (-18748.605) [-18755.463] (-18749.467) * (-18751.135) (-18744.101) [-18743.990] (-18741.424) -- 0:13:55
      628500 -- (-18745.719) (-18750.626) (-18752.590) [-18745.765] * (-18748.777) [-18742.927] (-18743.891) (-18741.706) -- 0:13:55
      629000 -- [-18751.562] (-18750.080) (-18747.084) (-18744.349) * (-18744.029) (-18742.614) [-18742.490] (-18748.301) -- 0:13:54
      629500 -- (-18747.997) (-18754.853) (-18742.889) [-18742.975] * (-18747.724) (-18751.460) [-18745.567] (-18743.629) -- 0:13:52
      630000 -- [-18749.053] (-18754.150) (-18745.047) (-18747.564) * (-18747.843) (-18749.571) (-18754.637) [-18741.253] -- 0:13:51

      Average standard deviation of split frequencies: 0.002824

      630500 -- (-18763.593) (-18745.380) (-18749.755) [-18747.779] * (-18750.791) (-18748.846) (-18746.776) [-18743.160] -- 0:13:50
      631000 -- (-18751.416) (-18753.521) [-18745.149] (-18742.415) * (-18745.826) (-18751.686) (-18743.833) [-18740.678] -- 0:13:49
      631500 -- (-18757.595) (-18744.458) (-18747.845) [-18742.708] * (-18750.375) (-18741.272) (-18745.136) [-18749.681] -- 0:13:48
      632000 -- (-18746.333) [-18749.582] (-18737.439) (-18754.059) * (-18742.631) (-18744.285) [-18749.645] (-18751.933) -- 0:13:46
      632500 -- (-18747.041) (-18749.449) [-18740.914] (-18742.228) * (-18751.007) (-18749.370) (-18761.453) [-18742.925] -- 0:13:45
      633000 -- [-18741.538] (-18748.006) (-18750.020) (-18753.894) * [-18743.191] (-18744.121) (-18756.323) (-18744.367) -- 0:13:45
      633500 -- [-18744.370] (-18758.412) (-18747.387) (-18747.451) * (-18746.532) (-18748.865) (-18751.007) [-18752.894] -- 0:13:43
      634000 -- [-18751.504] (-18752.530) (-18746.936) (-18745.801) * (-18755.389) (-18753.274) [-18740.379] (-18742.010) -- 0:13:42
      634500 -- (-18751.227) [-18747.317] (-18745.022) (-18747.119) * (-18751.899) [-18748.893] (-18745.504) (-18742.382) -- 0:13:41
      635000 -- (-18743.899) (-18744.281) [-18738.048] (-18749.164) * (-18750.677) (-18750.734) [-18749.525] (-18742.306) -- 0:13:40

      Average standard deviation of split frequencies: 0.002635

      635500 -- (-18743.560) (-18742.437) (-18741.089) [-18741.059] * (-18749.072) (-18747.803) [-18747.849] (-18742.349) -- 0:13:39
      636000 -- [-18749.626] (-18743.957) (-18747.365) (-18745.185) * (-18749.618) (-18752.637) [-18748.835] (-18743.989) -- 0:13:37
      636500 -- [-18747.142] (-18743.402) (-18752.753) (-18742.740) * (-18754.662) [-18746.970] (-18746.724) (-18749.878) -- 0:13:36
      637000 -- [-18750.524] (-18747.471) (-18746.125) (-18743.431) * (-18752.773) [-18744.110] (-18748.390) (-18749.726) -- 0:13:36
      637500 -- (-18742.951) [-18742.771] (-18755.625) (-18753.133) * (-18743.254) (-18745.897) [-18739.344] (-18755.631) -- 0:13:34
      638000 -- (-18747.886) (-18749.247) [-18742.130] (-18757.965) * (-18734.834) (-18755.625) [-18743.483] (-18758.072) -- 0:13:33
      638500 -- (-18748.344) (-18745.426) [-18746.997] (-18754.346) * (-18737.906) (-18757.527) [-18742.346] (-18745.731) -- 0:13:32
      639000 -- (-18740.343) [-18746.644] (-18754.958) (-18760.302) * (-18743.408) [-18743.371] (-18754.837) (-18747.609) -- 0:13:31
      639500 -- [-18742.276] (-18740.423) (-18749.251) (-18751.976) * (-18745.115) (-18745.629) [-18744.402] (-18741.325) -- 0:13:30
      640000 -- (-18746.786) [-18742.476] (-18749.103) (-18757.814) * (-18743.948) (-18743.333) [-18748.223] (-18749.456) -- 0:13:28

      Average standard deviation of split frequencies: 0.002453

      640500 -- (-18743.530) [-18749.633] (-18761.644) (-18761.276) * (-18748.328) [-18753.254] (-18749.586) (-18747.484) -- 0:13:27
      641000 -- (-18748.401) (-18755.580) (-18762.141) [-18747.138] * (-18741.649) (-18755.743) (-18749.293) [-18745.581] -- 0:13:26
      641500 -- (-18745.387) [-18746.656] (-18766.551) (-18748.454) * (-18747.697) (-18745.411) [-18737.452] (-18757.033) -- 0:13:25
      642000 -- (-18746.306) (-18747.917) [-18749.129] (-18745.549) * (-18748.850) (-18746.644) [-18742.441] (-18755.231) -- 0:13:24
      642500 -- [-18742.959] (-18742.091) (-18741.885) (-18745.630) * (-18743.180) [-18746.079] (-18756.718) (-18744.370) -- 0:13:23
      643000 -- (-18744.554) (-18743.167) [-18743.418] (-18745.840) * (-18739.880) [-18746.799] (-18757.287) (-18741.777) -- 0:13:22
      643500 -- (-18750.761) (-18741.891) [-18750.429] (-18759.024) * (-18749.649) (-18748.381) (-18749.368) [-18746.440] -- 0:13:21
      644000 -- (-18751.724) [-18747.676] (-18746.708) (-18743.115) * [-18749.535] (-18743.706) (-18746.461) (-18744.760) -- 0:13:19
      644500 -- [-18752.724] (-18750.340) (-18745.448) (-18751.861) * (-18757.725) (-18749.061) (-18748.321) [-18739.452] -- 0:13:19
      645000 -- [-18740.744] (-18752.723) (-18740.609) (-18753.773) * (-18748.678) (-18752.586) (-18743.298) [-18746.605] -- 0:13:18

      Average standard deviation of split frequencies: 0.002919

      645500 -- (-18749.066) [-18744.518] (-18749.139) (-18748.636) * [-18740.659] (-18752.774) (-18744.525) (-18744.982) -- 0:13:16
      646000 -- (-18755.370) (-18744.806) (-18747.852) [-18743.507] * (-18747.580) [-18751.973] (-18745.612) (-18748.949) -- 0:13:15
      646500 -- (-18766.552) (-18748.897) (-18749.086) [-18744.425] * (-18746.228) [-18741.696] (-18743.023) (-18753.672) -- 0:13:14
      647000 -- [-18742.305] (-18750.054) (-18751.087) (-18742.215) * (-18756.610) [-18739.987] (-18749.931) (-18753.570) -- 0:13:13
      647500 -- (-18746.553) (-18749.797) [-18747.625] (-18761.972) * [-18740.982] (-18751.129) (-18746.122) (-18750.648) -- 0:13:12
      648000 -- [-18748.255] (-18748.548) (-18751.482) (-18753.799) * [-18743.742] (-18750.909) (-18746.680) (-18743.698) -- 0:13:10
      648500 -- (-18745.433) [-18745.800] (-18755.699) (-18742.778) * [-18737.678] (-18754.982) (-18755.187) (-18746.068) -- 0:13:10
      649000 -- (-18748.452) (-18746.923) [-18751.026] (-18744.029) * (-18741.316) (-18759.356) [-18745.462] (-18754.312) -- 0:13:09
      649500 -- (-18742.926) (-18744.752) (-18753.434) [-18740.985] * (-18752.002) [-18746.438] (-18744.171) (-18749.509) -- 0:13:07
      650000 -- [-18749.753] (-18743.182) (-18747.103) (-18754.557) * (-18746.644) (-18756.402) (-18759.756) [-18744.821] -- 0:13:06

      Average standard deviation of split frequencies: 0.002898

      650500 -- (-18741.176) [-18743.251] (-18745.935) (-18754.495) * (-18740.377) (-18752.291) (-18747.973) [-18740.429] -- 0:13:05
      651000 -- (-18746.969) [-18747.483] (-18743.722) (-18749.002) * (-18736.611) (-18758.302) [-18739.177] (-18759.528) -- 0:13:04
      651500 -- (-18744.666) (-18746.964) [-18751.718] (-18754.020) * (-18741.086) (-18759.656) (-18739.585) [-18742.586] -- 0:13:03
      652000 -- (-18755.732) [-18746.036] (-18744.799) (-18758.707) * [-18739.164] (-18756.815) (-18748.160) (-18745.936) -- 0:13:02
      652500 -- (-18762.425) (-18739.844) [-18743.328] (-18744.468) * (-18749.280) [-18754.775] (-18750.961) (-18737.349) -- 0:13:01
      653000 -- (-18755.855) (-18745.671) [-18743.723] (-18764.303) * (-18747.292) [-18744.403] (-18753.134) (-18753.052) -- 0:13:00
      653500 -- [-18756.736] (-18749.451) (-18746.010) (-18760.426) * (-18752.137) (-18754.320) (-18748.334) [-18747.783] -- 0:12:58
      654000 -- (-18745.894) (-18750.108) (-18745.464) [-18746.573] * (-18749.953) (-18746.704) [-18747.421] (-18746.633) -- 0:12:57
      654500 -- (-18747.420) [-18754.284] (-18739.583) (-18746.941) * (-18744.067) (-18748.162) (-18744.818) [-18753.475] -- 0:12:56
      655000 -- (-18747.358) [-18753.882] (-18748.637) (-18745.946) * (-18747.739) (-18741.602) [-18745.239] (-18752.315) -- 0:12:55

      Average standard deviation of split frequencies: 0.002715

      655500 -- (-18743.214) (-18743.854) [-18742.585] (-18742.400) * (-18748.861) [-18739.769] (-18740.796) (-18748.404) -- 0:12:54
      656000 -- (-18744.545) [-18741.312] (-18747.109) (-18745.994) * (-18746.557) [-18741.467] (-18746.034) (-18740.583) -- 0:12:53
      656500 -- (-18744.140) (-18752.322) [-18747.492] (-18745.997) * (-18752.087) (-18748.225) [-18745.122] (-18751.807) -- 0:12:52
      657000 -- [-18743.731] (-18756.415) (-18751.669) (-18751.319) * [-18753.062] (-18743.915) (-18749.100) (-18745.151) -- 0:12:51
      657500 -- (-18741.305) (-18748.935) (-18746.104) [-18742.814] * (-18752.438) [-18740.733] (-18743.660) (-18756.022) -- 0:12:49
      658000 -- (-18750.479) (-18754.977) (-18750.033) [-18743.813] * [-18745.079] (-18752.977) (-18754.357) (-18759.396) -- 0:12:48
      658500 -- [-18742.497] (-18751.968) (-18745.849) (-18743.526) * (-18744.171) [-18745.217] (-18749.354) (-18759.013) -- 0:12:47
      659000 -- [-18749.606] (-18761.678) (-18743.368) (-18756.032) * (-18746.038) (-18749.668) [-18746.610] (-18747.055) -- 0:12:46
      659500 -- (-18747.833) [-18748.078] (-18746.172) (-18743.885) * (-18754.400) (-18748.575) [-18740.986] (-18749.650) -- 0:12:45
      660000 -- (-18742.621) (-18750.647) [-18750.022] (-18745.448) * [-18749.958] (-18753.229) (-18755.766) (-18757.718) -- 0:12:44

      Average standard deviation of split frequencies: 0.002537

      660500 -- (-18746.024) [-18747.150] (-18747.080) (-18745.441) * [-18744.400] (-18746.568) (-18748.928) (-18754.183) -- 0:12:43
      661000 -- (-18749.938) [-18752.476] (-18751.556) (-18744.760) * (-18744.278) [-18750.452] (-18752.176) (-18756.776) -- 0:12:42
      661500 -- (-18744.872) (-18752.027) [-18746.192] (-18744.976) * (-18750.499) (-18744.136) (-18749.263) [-18753.532] -- 0:12:40
      662000 -- (-18743.150) (-18745.229) (-18742.298) [-18747.696] * (-18756.268) [-18751.585] (-18746.693) (-18748.773) -- 0:12:39
      662500 -- [-18749.767] (-18757.429) (-18746.079) (-18752.432) * (-18757.824) (-18747.494) [-18752.349] (-18756.414) -- 0:12:39
      663000 -- (-18744.644) (-18756.316) [-18746.206] (-18747.188) * [-18750.480] (-18748.262) (-18750.985) (-18752.138) -- 0:12:37
      663500 -- (-18750.731) (-18749.001) [-18742.207] (-18742.787) * [-18753.336] (-18751.476) (-18759.875) (-18753.968) -- 0:12:36
      664000 -- [-18741.312] (-18762.675) (-18743.544) (-18746.341) * (-18744.686) (-18755.236) (-18755.936) [-18737.061] -- 0:12:35
      664500 -- [-18742.211] (-18742.417) (-18742.722) (-18744.592) * (-18741.796) (-18746.831) [-18757.340] (-18742.364) -- 0:12:34
      665000 -- (-18748.202) (-18740.557) [-18742.315] (-18750.919) * (-18743.117) (-18742.664) [-18741.671] (-18742.288) -- 0:12:33

      Average standard deviation of split frequencies: 0.002595

      665500 -- (-18746.024) (-18747.904) (-18754.775) [-18748.166] * (-18752.164) (-18742.965) [-18750.640] (-18740.735) -- 0:12:31
      666000 -- [-18746.929] (-18745.771) (-18748.491) (-18749.441) * (-18751.066) (-18742.564) (-18757.184) [-18747.733] -- 0:12:31
      666500 -- [-18743.493] (-18751.313) (-18745.898) (-18743.101) * (-18752.363) (-18752.731) (-18745.362) [-18743.511] -- 0:12:30
      667000 -- [-18739.783] (-18753.123) (-18743.916) (-18746.560) * (-18753.991) [-18751.012] (-18757.840) (-18755.315) -- 0:12:28
      667500 -- (-18754.986) (-18752.482) [-18745.951] (-18746.925) * [-18746.813] (-18743.100) (-18752.165) (-18742.713) -- 0:12:27
      668000 -- (-18741.467) (-18748.615) [-18747.243] (-18745.181) * [-18751.733] (-18753.180) (-18758.914) (-18742.166) -- 0:12:26
      668500 -- (-18742.135) (-18744.901) (-18744.101) [-18742.763] * (-18754.259) (-18747.134) [-18747.135] (-18744.404) -- 0:12:25
      669000 -- (-18742.504) (-18750.889) [-18751.869] (-18742.566) * (-18755.177) [-18742.152] (-18746.028) (-18740.374) -- 0:12:24
      669500 -- [-18747.272] (-18751.584) (-18744.811) (-18742.940) * (-18767.961) [-18746.074] (-18746.619) (-18741.893) -- 0:12:23
      670000 -- (-18740.509) [-18752.426] (-18745.277) (-18748.547) * [-18739.933] (-18752.778) (-18740.826) (-18740.532) -- 0:12:22

      Average standard deviation of split frequencies: 0.001952

      670500 -- (-18746.755) (-18748.519) (-18752.453) [-18743.442] * (-18741.733) [-18748.810] (-18750.866) (-18741.760) -- 0:12:21
      671000 -- [-18749.450] (-18744.705) (-18760.288) (-18744.761) * (-18760.200) (-18748.243) (-18748.295) [-18757.734] -- 0:12:19
      671500 -- (-18747.163) [-18741.764] (-18741.883) (-18737.851) * (-18748.355) (-18739.699) (-18748.647) [-18738.212] -- 0:12:18
      672000 -- (-18740.106) (-18739.819) (-18750.210) [-18747.503] * (-18752.558) [-18749.805] (-18749.742) (-18753.623) -- 0:12:17
      672500 -- (-18743.827) [-18740.136] (-18753.337) (-18746.423) * (-18742.665) (-18750.282) [-18756.080] (-18739.416) -- 0:12:16
      673000 -- [-18747.502] (-18749.802) (-18754.683) (-18746.218) * [-18748.762] (-18739.414) (-18742.437) (-18746.321) -- 0:12:15
      673500 -- (-18753.849) (-18749.387) [-18744.956] (-18742.029) * (-18746.875) [-18743.970] (-18746.899) (-18755.357) -- 0:12:14
      674000 -- (-18751.288) (-18750.572) [-18742.902] (-18747.172) * (-18746.764) (-18749.958) (-18753.755) [-18746.801] -- 0:12:13
      674500 -- (-18756.304) [-18740.670] (-18747.605) (-18751.731) * (-18751.860) (-18751.006) (-18748.101) [-18755.817] -- 0:12:12
      675000 -- (-18745.956) [-18742.815] (-18743.824) (-18738.597) * (-18750.209) (-18749.841) (-18739.978) [-18743.516] -- 0:12:10

      Average standard deviation of split frequencies: 0.002092

      675500 -- (-18746.338) (-18746.920) (-18746.090) [-18739.016] * [-18741.408] (-18753.823) (-18747.635) (-18744.171) -- 0:12:09
      676000 -- (-18744.809) [-18740.073] (-18745.105) (-18740.984) * (-18745.381) (-18747.366) (-18743.004) [-18746.700] -- 0:12:08
      676500 -- [-18746.553] (-18745.535) (-18748.388) (-18742.465) * [-18740.024] (-18757.735) (-18743.173) (-18743.756) -- 0:12:07
      677000 -- [-18746.621] (-18752.483) (-18751.444) (-18744.777) * (-18747.495) (-18761.361) [-18749.036] (-18752.981) -- 0:12:06
      677500 -- [-18744.807] (-18748.362) (-18747.248) (-18742.542) * [-18747.416] (-18753.887) (-18745.331) (-18746.306) -- 0:12:05
      678000 -- [-18741.542] (-18746.921) (-18758.695) (-18748.502) * [-18743.098] (-18751.017) (-18753.198) (-18750.310) -- 0:12:04
      678500 -- (-18744.021) (-18749.669) [-18750.072] (-18743.553) * [-18741.501] (-18752.385) (-18759.626) (-18756.612) -- 0:12:03
      679000 -- [-18744.956] (-18756.646) (-18752.749) (-18745.086) * [-18747.276] (-18746.954) (-18748.184) (-18757.084) -- 0:12:01
      679500 -- [-18739.933] (-18749.898) (-18745.903) (-18749.481) * [-18746.035] (-18749.084) (-18742.614) (-18750.577) -- 0:12:00
      680000 -- (-18755.857) (-18758.091) [-18750.124] (-18747.864) * (-18743.211) (-18744.469) (-18748.707) [-18751.108] -- 0:12:00

      Average standard deviation of split frequencies: 0.002232

      680500 -- [-18748.006] (-18750.427) (-18748.986) (-18749.403) * (-18746.371) (-18751.296) [-18741.747] (-18753.542) -- 0:11:58
      681000 -- (-18744.403) (-18755.549) (-18750.600) [-18742.063] * [-18743.278] (-18744.747) (-18754.989) (-18753.457) -- 0:11:57
      681500 -- [-18741.885] (-18750.160) (-18753.043) (-18748.518) * (-18748.184) [-18754.456] (-18748.035) (-18745.916) -- 0:11:56
      682000 -- (-18742.430) [-18751.240] (-18761.621) (-18748.765) * [-18747.396] (-18739.390) (-18746.492) (-18739.877) -- 0:11:55
      682500 -- [-18742.733] (-18763.018) (-18751.630) (-18753.242) * [-18743.145] (-18749.610) (-18743.157) (-18747.590) -- 0:11:54
      683000 -- (-18746.355) (-18763.518) [-18753.755] (-18744.689) * (-18743.138) (-18756.709) (-18750.433) [-18742.469] -- 0:11:52
      683500 -- (-18750.758) (-18760.932) [-18752.291] (-18746.124) * (-18746.768) [-18739.345] (-18749.913) (-18744.229) -- 0:11:52
      684000 -- (-18748.658) (-18748.079) [-18748.398] (-18752.858) * (-18755.340) (-18751.736) (-18764.852) [-18747.650] -- 0:11:51
      684500 -- (-18753.327) [-18744.192] (-18745.073) (-18752.537) * (-18754.788) (-18755.955) (-18746.536) [-18742.188] -- 0:11:49
      685000 -- (-18746.821) (-18750.465) [-18749.943] (-18756.490) * (-18748.265) (-18751.321) (-18738.616) [-18740.480] -- 0:11:48

      Average standard deviation of split frequencies: 0.002214

      685500 -- (-18750.139) (-18744.186) [-18745.563] (-18747.684) * (-18748.151) (-18754.093) [-18743.384] (-18741.214) -- 0:11:47
      686000 -- [-18744.267] (-18746.163) (-18746.275) (-18751.955) * (-18751.393) (-18746.089) (-18749.275) [-18742.457] -- 0:11:46
      686500 -- (-18745.219) (-18751.971) [-18749.714] (-18747.419) * (-18744.219) (-18754.597) (-18744.626) [-18745.902] -- 0:11:45
      687000 -- (-18745.093) [-18744.586] (-18746.950) (-18747.567) * (-18744.548) (-18740.385) [-18749.091] (-18750.034) -- 0:11:44
      687500 -- [-18746.177] (-18751.725) (-18752.201) (-18753.264) * (-18748.590) [-18740.468] (-18755.051) (-18745.188) -- 0:11:43
      688000 -- (-18747.320) [-18748.487] (-18748.856) (-18744.844) * [-18747.878] (-18744.234) (-18740.237) (-18741.151) -- 0:11:42
      688500 -- (-18742.099) (-18749.889) [-18755.063] (-18746.936) * (-18745.956) [-18739.752] (-18748.250) (-18743.469) -- 0:11:40
      689000 -- [-18747.454] (-18743.348) (-18748.346) (-18746.615) * (-18749.892) (-18745.535) [-18744.733] (-18742.982) -- 0:11:39
      689500 -- (-18741.215) (-18746.532) [-18746.144] (-18745.564) * (-18752.957) (-18753.048) (-18748.926) [-18747.590] -- 0:11:38
      690000 -- [-18743.946] (-18744.910) (-18753.127) (-18748.524) * [-18737.994] (-18744.699) (-18754.276) (-18750.167) -- 0:11:37

      Average standard deviation of split frequencies: 0.002199

      690500 -- (-18757.668) (-18744.235) (-18756.630) [-18740.881] * [-18748.847] (-18748.385) (-18754.103) (-18754.817) -- 0:11:36
      691000 -- (-18751.829) (-18758.200) [-18745.957] (-18745.732) * [-18741.961] (-18746.171) (-18747.953) (-18744.891) -- 0:11:35
      691500 -- (-18744.617) (-18748.124) [-18744.110] (-18754.104) * (-18748.123) [-18741.985] (-18743.058) (-18750.080) -- 0:11:34
      692000 -- [-18740.502] (-18746.418) (-18741.734) (-18752.397) * (-18750.487) (-18749.903) [-18743.020] (-18745.305) -- 0:11:33
      692500 -- (-18748.154) (-18753.883) [-18743.418] (-18744.705) * (-18757.707) (-18752.787) [-18740.264] (-18743.008) -- 0:11:31
      693000 -- (-18750.205) (-18741.635) [-18738.696] (-18743.510) * (-18753.053) (-18749.674) [-18751.418] (-18748.538) -- 0:11:30
      693500 -- (-18749.912) [-18742.872] (-18744.233) (-18753.950) * (-18751.753) [-18748.919] (-18758.101) (-18752.053) -- 0:11:29
      694000 -- (-18749.071) [-18738.896] (-18747.016) (-18744.996) * [-18748.972] (-18739.435) (-18760.511) (-18749.408) -- 0:11:28
      694500 -- [-18746.212] (-18747.238) (-18755.570) (-18742.200) * (-18743.507) (-18746.677) [-18750.861] (-18754.458) -- 0:11:27
      695000 -- (-18747.531) (-18742.616) [-18738.155] (-18740.003) * (-18741.500) (-18743.663) [-18750.879] (-18749.507) -- 0:11:26

      Average standard deviation of split frequencies: 0.002333

      695500 -- (-18751.875) (-18748.175) (-18744.042) [-18744.752] * (-18750.061) [-18747.584] (-18749.154) (-18745.569) -- 0:11:25
      696000 -- (-18747.965) (-18750.439) (-18751.885) [-18748.773] * [-18738.785] (-18752.906) (-18748.835) (-18743.779) -- 0:11:24
      696500 -- [-18746.243] (-18745.339) (-18747.470) (-18748.641) * (-18748.278) (-18747.333) [-18744.946] (-18755.639) -- 0:11:22
      697000 -- (-18746.331) [-18751.391] (-18740.231) (-18742.603) * [-18754.018] (-18750.523) (-18752.691) (-18741.187) -- 0:11:21
      697500 -- (-18746.311) (-18758.346) [-18740.009] (-18751.271) * [-18741.577] (-18752.627) (-18745.744) (-18752.705) -- 0:11:20
      698000 -- (-18750.308) (-18764.366) [-18749.732] (-18753.101) * (-18745.574) (-18744.522) (-18753.641) [-18739.970] -- 0:11:19
      698500 -- [-18750.971] (-18757.938) (-18754.828) (-18742.903) * (-18757.225) [-18742.699] (-18752.136) (-18754.180) -- 0:11:18
      699000 -- (-18754.808) (-18747.604) [-18746.151] (-18749.606) * (-18759.919) (-18750.205) [-18745.984] (-18749.972) -- 0:11:17
      699500 -- (-18749.602) [-18745.342] (-18747.749) (-18747.382) * (-18747.061) (-18752.944) (-18754.166) [-18745.884] -- 0:11:16
      700000 -- (-18740.682) (-18751.408) [-18743.676] (-18745.700) * (-18749.165) (-18748.421) (-18755.458) [-18748.361] -- 0:11:15

      Average standard deviation of split frequencies: 0.002018

      700500 -- (-18748.464) (-18752.808) [-18742.671] (-18741.251) * (-18751.178) (-18747.935) [-18759.032] (-18756.404) -- 0:11:13
      701000 -- [-18748.387] (-18760.316) (-18759.157) (-18750.491) * (-18743.236) [-18749.339] (-18761.829) (-18738.951) -- 0:11:12
      701500 -- (-18768.583) (-18759.800) [-18746.084] (-18745.582) * [-18743.210] (-18746.737) (-18743.391) (-18743.345) -- 0:11:11
      702000 -- (-18749.788) [-18745.461] (-18750.278) (-18748.392) * [-18741.733] (-18745.183) (-18749.869) (-18742.813) -- 0:11:10
      702500 -- (-18745.386) [-18749.657] (-18746.753) (-18754.784) * (-18746.669) [-18745.133] (-18750.710) (-18755.885) -- 0:11:09
      703000 -- [-18744.325] (-18745.727) (-18753.325) (-18754.194) * (-18743.284) (-18750.696) [-18758.342] (-18754.680) -- 0:11:08
      703500 -- (-18747.360) (-18746.056) (-18750.005) [-18748.339] * (-18755.184) (-18743.750) (-18766.930) [-18745.841] -- 0:11:07
      704000 -- [-18747.659] (-18740.823) (-18757.157) (-18751.528) * (-18748.966) (-18749.703) [-18743.782] (-18746.997) -- 0:11:06
      704500 -- (-18742.622) [-18747.646] (-18756.210) (-18756.776) * (-18751.396) (-18757.927) [-18750.554] (-18747.346) -- 0:11:04
      705000 -- (-18751.071) (-18755.309) (-18748.374) [-18743.188] * (-18764.134) (-18752.185) [-18747.023] (-18744.571) -- 0:11:03

      Average standard deviation of split frequencies: 0.002152

      705500 -- (-18752.447) (-18745.955) [-18741.817] (-18746.231) * (-18755.164) [-18746.638] (-18752.099) (-18750.213) -- 0:11:02
      706000 -- (-18758.076) (-18747.438) [-18748.936] (-18752.688) * (-18745.872) [-18742.901] (-18745.732) (-18746.508) -- 0:11:01
      706500 -- (-18755.261) (-18742.962) (-18748.294) [-18741.260] * (-18747.019) [-18740.391] (-18746.488) (-18757.218) -- 0:11:00
      707000 -- (-18752.057) [-18736.473] (-18753.454) (-18751.672) * (-18747.883) (-18745.367) (-18745.158) [-18737.317] -- 0:10:59
      707500 -- (-18748.556) [-18739.319] (-18746.335) (-18750.900) * [-18740.227] (-18751.898) (-18754.740) (-18753.155) -- 0:10:58
      708000 -- (-18757.472) (-18743.604) (-18743.927) [-18747.045] * [-18740.920] (-18751.461) (-18755.283) (-18759.979) -- 0:10:57
      708500 -- (-18739.786) [-18743.988] (-18748.747) (-18746.825) * (-18745.380) [-18743.980] (-18748.361) (-18752.158) -- 0:10:55
      709000 -- (-18745.610) (-18738.112) (-18742.083) [-18752.796] * (-18751.380) (-18746.907) [-18743.603] (-18753.767) -- 0:10:54
      709500 -- (-18742.045) (-18747.780) (-18748.958) [-18751.508] * (-18747.038) (-18753.905) (-18748.673) [-18747.422] -- 0:10:53
      710000 -- (-18748.401) (-18746.871) (-18741.495) [-18749.198] * (-18754.634) (-18749.846) (-18749.710) [-18746.883] -- 0:10:52

      Average standard deviation of split frequencies: 0.001695

      710500 -- (-18741.617) (-18742.565) [-18743.703] (-18739.609) * (-18748.624) (-18757.068) [-18746.908] (-18748.385) -- 0:10:51
      711000 -- (-18752.762) [-18749.701] (-18748.301) (-18744.494) * (-18751.306) (-18750.015) [-18743.344] (-18748.967) -- 0:10:50
      711500 -- (-18753.157) [-18746.392] (-18745.761) (-18746.474) * (-18749.030) (-18753.985) (-18754.308) [-18748.436] -- 0:10:49
      712000 -- (-18748.543) [-18745.912] (-18759.030) (-18743.814) * (-18743.669) (-18755.116) [-18746.740] (-18747.078) -- 0:10:48
      712500 -- (-18753.578) (-18745.841) (-18751.002) [-18757.615] * [-18743.596] (-18753.202) (-18745.553) (-18743.560) -- 0:10:46
      713000 -- [-18743.859] (-18742.036) (-18755.769) (-18747.294) * (-18747.226) (-18759.209) [-18746.452] (-18748.288) -- 0:10:45
      713500 -- (-18745.858) [-18750.130] (-18761.406) (-18753.071) * [-18749.002] (-18750.908) (-18742.489) (-18751.110) -- 0:10:44
      714000 -- [-18747.697] (-18753.066) (-18748.187) (-18753.097) * (-18749.571) (-18743.677) [-18742.997] (-18748.930) -- 0:10:43
      714500 -- [-18749.597] (-18742.278) (-18749.783) (-18746.142) * [-18745.420] (-18741.217) (-18748.843) (-18747.502) -- 0:10:42
      715000 -- (-18744.402) (-18746.477) (-18755.461) [-18745.729] * (-18746.776) [-18749.031] (-18748.320) (-18758.593) -- 0:10:41

      Average standard deviation of split frequencies: 0.002121

      715500 -- (-18746.636) (-18754.805) [-18745.952] (-18750.648) * [-18742.693] (-18752.070) (-18744.976) (-18749.695) -- 0:10:40
      716000 -- [-18743.221] (-18752.897) (-18748.511) (-18754.684) * [-18751.649] (-18747.322) (-18739.557) (-18751.023) -- 0:10:39
      716500 -- (-18748.216) (-18751.529) [-18745.966] (-18744.676) * (-18738.997) (-18756.450) (-18757.258) [-18747.128] -- 0:10:37
      717000 -- (-18744.651) [-18741.396] (-18745.558) (-18742.013) * [-18744.131] (-18748.360) (-18747.504) (-18760.556) -- 0:10:36
      717500 -- (-18746.382) [-18746.455] (-18752.137) (-18749.576) * (-18745.818) [-18748.996] (-18752.693) (-18756.209) -- 0:10:35
      718000 -- (-18756.082) (-18749.488) [-18755.960] (-18740.743) * (-18755.073) [-18746.004] (-18743.782) (-18752.197) -- 0:10:34
      718500 -- [-18748.922] (-18745.605) (-18763.398) (-18741.753) * [-18744.154] (-18756.230) (-18751.593) (-18747.555) -- 0:10:33
      719000 -- [-18750.122] (-18741.728) (-18753.111) (-18747.782) * (-18749.031) (-18748.823) (-18763.613) [-18750.842] -- 0:10:31
      719500 -- (-18741.839) (-18740.402) (-18752.334) [-18744.443] * (-18751.082) (-18764.686) [-18745.879] (-18747.196) -- 0:10:31
      720000 -- [-18748.124] (-18752.619) (-18763.269) (-18748.743) * [-18747.352] (-18753.806) (-18746.119) (-18753.641) -- 0:10:30

      Average standard deviation of split frequencies: 0.002253

      720500 -- (-18748.743) [-18744.494] (-18751.136) (-18746.072) * (-18757.652) (-18747.960) [-18745.991] (-18748.121) -- 0:10:28
      721000 -- (-18746.941) (-18747.393) (-18751.599) [-18747.397] * (-18742.296) (-18753.873) [-18746.390] (-18752.018) -- 0:10:27
      721500 -- [-18751.863] (-18770.144) (-18747.402) (-18745.063) * (-18745.633) [-18750.564] (-18746.114) (-18749.365) -- 0:10:26
      722000 -- (-18746.598) [-18750.650] (-18743.969) (-18747.962) * (-18748.029) [-18748.919] (-18746.773) (-18758.171) -- 0:10:25
      722500 -- (-18751.455) [-18746.734] (-18746.742) (-18750.222) * (-18747.206) (-18754.718) [-18743.152] (-18762.723) -- 0:10:24
      723000 -- (-18744.332) [-18740.927] (-18746.573) (-18758.549) * (-18741.816) (-18746.081) (-18744.356) [-18747.470] -- 0:10:22
      723500 -- [-18747.378] (-18748.162) (-18751.771) (-18747.384) * (-18746.873) [-18744.495] (-18760.249) (-18748.070) -- 0:10:21
      724000 -- (-18739.915) [-18752.879] (-18746.874) (-18756.685) * (-18748.732) [-18752.270] (-18739.299) (-18759.128) -- 0:10:21
      724500 -- (-18747.664) [-18752.204] (-18751.961) (-18751.547) * (-18742.186) (-18744.420) [-18736.996] (-18748.417) -- 0:10:19
      725000 -- (-18750.428) [-18746.667] (-18752.738) (-18747.814) * (-18747.687) [-18746.007] (-18751.278) (-18745.891) -- 0:10:18

      Average standard deviation of split frequencies: 0.002669

      725500 -- (-18744.143) (-18741.429) (-18746.195) [-18740.637] * (-18748.122) [-18747.779] (-18749.957) (-18746.570) -- 0:10:17
      726000 -- [-18742.262] (-18745.734) (-18755.341) (-18741.255) * (-18742.769) (-18739.954) (-18759.020) [-18748.159] -- 0:10:16
      726500 -- (-18754.592) [-18753.485] (-18751.689) (-18738.886) * [-18745.963] (-18742.008) (-18748.905) (-18746.476) -- 0:10:15
      727000 -- (-18749.569) (-18757.556) [-18746.735] (-18743.420) * (-18744.846) (-18748.874) [-18741.414] (-18739.623) -- 0:10:13
      727500 -- [-18738.900] (-18750.616) (-18746.783) (-18746.405) * (-18747.434) (-18745.930) (-18742.602) [-18747.408] -- 0:10:12
      728000 -- [-18746.255] (-18759.494) (-18747.683) (-18746.092) * (-18751.255) (-18748.127) [-18744.162] (-18750.657) -- 0:10:12
      728500 -- [-18748.285] (-18748.963) (-18753.319) (-18744.939) * [-18747.264] (-18747.621) (-18745.987) (-18748.029) -- 0:10:10
      729000 -- (-18748.706) (-18756.809) (-18752.341) [-18740.055] * (-18744.409) (-18745.028) (-18755.316) [-18749.185] -- 0:10:09
      729500 -- (-18751.420) (-18758.974) (-18747.065) [-18741.680] * (-18742.909) (-18752.529) (-18738.993) [-18742.367] -- 0:10:08
      730000 -- (-18752.690) [-18741.568] (-18743.455) (-18747.439) * (-18751.662) (-18745.012) (-18747.601) [-18741.040] -- 0:10:07

      Average standard deviation of split frequencies: 0.002366

      730500 -- [-18750.026] (-18755.605) (-18746.130) (-18745.431) * (-18752.738) (-18741.929) [-18744.120] (-18750.941) -- 0:10:06
      731000 -- (-18750.030) (-18739.997) (-18757.804) [-18743.733] * [-18746.925] (-18742.042) (-18748.491) (-18754.868) -- 0:10:04
      731500 -- (-18741.725) (-18758.958) [-18745.378] (-18748.197) * (-18752.406) [-18741.336] (-18741.351) (-18747.885) -- 0:10:03
      732000 -- (-18747.193) (-18753.473) (-18747.238) [-18741.554] * (-18748.259) [-18737.832] (-18744.148) (-18753.245) -- 0:10:02
      732500 -- (-18748.677) [-18752.263] (-18749.811) (-18739.264) * (-18746.573) (-18743.638) [-18742.879] (-18740.308) -- 0:10:01
      733000 -- (-18747.670) (-18744.556) (-18756.295) [-18753.090] * (-18752.014) (-18744.400) [-18746.701] (-18747.759) -- 0:10:00
      733500 -- (-18751.719) [-18746.317] (-18750.229) (-18751.674) * (-18746.640) [-18750.137] (-18743.724) (-18751.519) -- 0:09:59
      734000 -- (-18745.054) (-18747.270) [-18750.285] (-18751.819) * [-18740.788] (-18751.030) (-18740.458) (-18747.381) -- 0:09:58
      734500 -- (-18743.184) (-18746.130) (-18747.431) [-18763.480] * (-18748.915) (-18747.834) [-18740.838] (-18751.095) -- 0:09:57
      735000 -- [-18743.767] (-18750.623) (-18749.443) (-18758.767) * [-18747.073] (-18765.107) (-18756.015) (-18746.470) -- 0:09:55

      Average standard deviation of split frequencies: 0.002491

      735500 -- (-18746.159) [-18751.578] (-18748.148) (-18750.074) * [-18744.121] (-18752.874) (-18755.760) (-18747.837) -- 0:09:54
      736000 -- (-18741.561) (-18752.280) [-18747.318] (-18746.106) * [-18748.980] (-18749.625) (-18753.089) (-18751.719) -- 0:09:53
      736500 -- [-18744.804] (-18746.445) (-18742.502) (-18740.353) * (-18747.676) (-18744.423) [-18743.738] (-18751.432) -- 0:09:52
      737000 -- (-18745.957) [-18744.439] (-18742.526) (-18742.928) * (-18752.794) [-18745.596] (-18743.143) (-18744.058) -- 0:09:51
      737500 -- (-18745.066) [-18758.831] (-18754.738) (-18745.785) * [-18750.523] (-18750.255) (-18746.704) (-18746.935) -- 0:09:50
      738000 -- [-18744.081] (-18768.390) (-18744.580) (-18747.917) * (-18753.739) (-18744.776) (-18744.429) [-18743.259] -- 0:09:49
      738500 -- (-18749.921) [-18746.400] (-18754.474) (-18745.031) * [-18741.484] (-18754.201) (-18739.989) (-18749.636) -- 0:09:48
      739000 -- (-18748.166) (-18749.984) [-18747.028] (-18742.033) * (-18749.780) (-18757.719) (-18743.493) [-18750.674] -- 0:09:46
      739500 -- (-18741.179) [-18743.780] (-18750.740) (-18745.992) * (-18756.887) (-18756.565) (-18748.129) [-18744.291] -- 0:09:45
      740000 -- (-18747.674) [-18739.695] (-18746.219) (-18749.306) * (-18745.719) (-18746.264) (-18748.844) [-18738.659] -- 0:09:44

      Average standard deviation of split frequencies: 0.002192

      740500 -- [-18744.028] (-18748.530) (-18756.140) (-18749.736) * (-18750.071) [-18743.221] (-18751.041) (-18750.404) -- 0:09:43
      741000 -- (-18753.294) (-18744.587) (-18743.073) [-18750.141] * (-18740.918) [-18744.598] (-18747.028) (-18758.353) -- 0:09:42
      741500 -- (-18752.043) (-18750.386) [-18740.874] (-18757.340) * (-18743.447) (-18754.147) [-18740.356] (-18744.453) -- 0:09:41
      742000 -- (-18750.391) [-18743.476] (-18742.856) (-18753.262) * (-18747.458) (-18752.822) (-18751.919) [-18737.091] -- 0:09:40
      742500 -- [-18743.597] (-18743.032) (-18744.963) (-18754.565) * (-18744.988) (-18752.634) (-18742.552) [-18741.832] -- 0:09:39
      743000 -- (-18751.659) [-18748.790] (-18742.424) (-18752.715) * (-18748.154) (-18749.774) [-18747.697] (-18742.605) -- 0:09:37
      743500 -- (-18751.466) (-18745.554) [-18745.391] (-18740.199) * (-18745.313) (-18754.532) [-18754.605] (-18749.210) -- 0:09:36
      744000 -- (-18744.413) [-18744.386] (-18747.296) (-18749.723) * (-18740.960) (-18743.184) [-18745.611] (-18741.778) -- 0:09:35
      744500 -- (-18749.142) (-18745.769) [-18740.184] (-18754.763) * (-18742.128) [-18749.227] (-18745.125) (-18744.912) -- 0:09:34
      745000 -- (-18757.383) (-18743.691) [-18747.812] (-18757.291) * (-18746.553) (-18754.577) [-18745.279] (-18745.134) -- 0:09:33

      Average standard deviation of split frequencies: 0.002036

      745500 -- (-18745.862) [-18743.056] (-18753.397) (-18742.291) * (-18747.144) [-18744.051] (-18748.907) (-18748.669) -- 0:09:32
      746000 -- (-18751.504) (-18750.921) [-18746.679] (-18740.056) * (-18739.291) (-18745.053) [-18750.491] (-18746.681) -- 0:09:31
      746500 -- (-18748.554) (-18750.880) (-18743.930) [-18741.946] * (-18752.270) [-18747.634] (-18753.204) (-18760.165) -- 0:09:30
      747000 -- (-18757.698) (-18740.516) [-18745.886] (-18745.806) * (-18744.854) [-18746.373] (-18748.353) (-18747.665) -- 0:09:28
      747500 -- (-18743.424) (-18741.607) [-18744.311] (-18745.838) * (-18751.615) (-18748.677) [-18746.986] (-18761.706) -- 0:09:27
      748000 -- (-18750.742) (-18752.507) [-18742.633] (-18746.300) * (-18748.175) (-18765.393) (-18746.143) [-18749.879] -- 0:09:26
      748500 -- (-18754.889) (-18749.901) [-18750.589] (-18749.138) * (-18743.685) (-18754.289) (-18750.300) [-18751.162] -- 0:09:25
      749000 -- (-18743.544) [-18742.230] (-18752.041) (-18744.569) * (-18745.790) (-18754.248) [-18747.342] (-18754.369) -- 0:09:24
      749500 -- (-18739.349) (-18743.487) [-18746.899] (-18747.325) * (-18741.043) (-18762.801) (-18747.019) [-18750.618] -- 0:09:23
      750000 -- [-18745.626] (-18747.004) (-18743.284) (-18747.311) * [-18754.368] (-18754.070) (-18749.193) (-18750.116) -- 0:09:22

      Average standard deviation of split frequencies: 0.002023

      750500 -- (-18742.850) [-18748.569] (-18743.891) (-18750.608) * (-18751.923) (-18743.983) [-18744.531] (-18743.082) -- 0:09:21
      751000 -- (-18742.820) [-18742.867] (-18742.739) (-18752.935) * (-18749.645) (-18749.152) (-18740.279) [-18745.616] -- 0:09:20
      751500 -- (-18762.541) [-18744.393] (-18740.134) (-18751.306) * (-18746.255) [-18744.404] (-18751.390) (-18747.753) -- 0:09:18
      752000 -- (-18740.719) (-18748.919) (-18740.064) [-18744.852] * [-18744.540] (-18744.016) (-18752.463) (-18744.401) -- 0:09:17
      752500 -- (-18746.449) [-18747.215] (-18752.787) (-18745.664) * (-18747.411) (-18745.211) [-18749.141] (-18747.823) -- 0:09:16
      753000 -- (-18745.071) [-18741.920] (-18746.413) (-18745.371) * (-18745.449) (-18747.457) [-18741.671] (-18742.772) -- 0:09:15
      753500 -- (-18745.997) (-18750.946) (-18747.596) [-18745.160] * [-18744.356] (-18745.933) (-18745.449) (-18747.810) -- 0:09:14
      754000 -- (-18755.358) (-18752.576) [-18746.895] (-18752.595) * [-18745.313] (-18747.525) (-18754.015) (-18747.350) -- 0:09:13
      754500 -- [-18742.427] (-18749.186) (-18743.672) (-18747.485) * (-18746.120) [-18740.858] (-18747.430) (-18747.660) -- 0:09:12
      755000 -- (-18740.680) (-18748.150) [-18745.921] (-18745.024) * [-18741.895] (-18748.813) (-18746.294) (-18748.153) -- 0:09:11

      Average standard deviation of split frequencies: 0.002148

      755500 -- (-18745.515) [-18740.987] (-18744.474) (-18746.934) * (-18743.099) [-18749.419] (-18758.922) (-18743.970) -- 0:09:09
      756000 -- (-18752.994) (-18740.065) (-18747.386) [-18751.590] * [-18745.142] (-18741.627) (-18763.311) (-18755.262) -- 0:09:08
      756500 -- (-18756.491) (-18750.224) (-18751.303) [-18745.346] * (-18741.614) [-18739.215] (-18755.675) (-18759.396) -- 0:09:07
      757000 -- (-18746.397) (-18746.608) [-18757.160] (-18745.735) * (-18746.351) [-18740.535] (-18751.513) (-18751.651) -- 0:09:06
      757500 -- [-18751.593] (-18738.847) (-18758.548) (-18744.922) * [-18740.269] (-18755.635) (-18748.352) (-18752.621) -- 0:09:05
      758000 -- (-18741.920) (-18748.628) [-18747.389] (-18756.670) * (-18747.878) (-18744.145) (-18752.639) [-18744.089] -- 0:09:04
      758500 -- (-18752.000) [-18744.530] (-18745.613) (-18759.103) * (-18749.405) [-18744.667] (-18752.154) (-18742.751) -- 0:09:03
      759000 -- (-18746.368) (-18748.137) [-18750.600] (-18745.993) * (-18744.451) (-18756.518) (-18753.859) [-18745.293] -- 0:09:02
      759500 -- [-18749.320] (-18751.123) (-18759.693) (-18750.120) * (-18754.691) [-18742.139] (-18746.116) (-18759.714) -- 0:09:00
      760000 -- (-18751.180) [-18747.753] (-18746.111) (-18750.470) * (-18755.275) (-18745.066) [-18753.325] (-18743.740) -- 0:08:59

      Average standard deviation of split frequencies: 0.002823

      760500 -- [-18750.512] (-18748.580) (-18744.950) (-18763.002) * (-18746.327) (-18750.120) [-18747.436] (-18750.019) -- 0:08:58
      761000 -- (-18749.270) [-18746.336] (-18759.608) (-18755.085) * (-18750.026) [-18742.718] (-18750.456) (-18744.584) -- 0:08:57
      761500 -- (-18742.530) [-18743.138] (-18750.379) (-18753.841) * (-18746.836) (-18740.650) [-18748.326] (-18750.485) -- 0:08:56
      762000 -- (-18744.344) [-18743.429] (-18754.271) (-18755.253) * (-18744.361) (-18747.548) (-18749.146) [-18740.488] -- 0:08:55
      762500 -- (-18755.569) (-18747.628) (-18748.675) [-18742.334] * [-18752.528] (-18746.428) (-18746.867) (-18751.899) -- 0:08:54
      763000 -- [-18752.003] (-18743.551) (-18755.512) (-18738.498) * (-18744.159) (-18758.345) (-18752.676) [-18749.242] -- 0:08:53
      763500 -- (-18753.450) (-18746.374) (-18739.855) [-18746.505] * (-18748.473) (-18741.972) (-18754.890) [-18742.440] -- 0:08:51
      764000 -- (-18754.285) [-18745.919] (-18748.943) (-18756.902) * (-18747.219) [-18750.686] (-18745.005) (-18744.892) -- 0:08:50
      764500 -- [-18747.730] (-18741.425) (-18752.466) (-18757.191) * [-18744.011] (-18764.519) (-18749.004) (-18747.777) -- 0:08:49
      765000 -- [-18744.371] (-18751.195) (-18743.185) (-18753.383) * (-18747.506) (-18749.765) [-18744.230] (-18750.283) -- 0:08:48

      Average standard deviation of split frequencies: 0.003077

      765500 -- (-18750.030) [-18749.946] (-18750.881) (-18747.982) * [-18743.466] (-18747.596) (-18741.268) (-18749.673) -- 0:08:47
      766000 -- (-18750.631) (-18742.556) [-18748.235] (-18753.954) * (-18754.148) (-18754.602) [-18741.716] (-18753.577) -- 0:08:46
      766500 -- [-18747.836] (-18748.512) (-18742.996) (-18749.550) * (-18741.410) (-18747.199) [-18745.160] (-18752.649) -- 0:08:45
      767000 -- [-18742.708] (-18741.603) (-18746.949) (-18745.638) * (-18743.708) (-18750.482) [-18746.632] (-18745.424) -- 0:08:44
      767500 -- (-18745.514) [-18743.760] (-18763.484) (-18747.090) * (-18746.174) (-18747.230) (-18745.427) [-18740.710] -- 0:08:42
      768000 -- (-18743.615) (-18743.854) (-18747.017) [-18740.902] * (-18750.538) [-18751.196] (-18743.478) (-18740.669) -- 0:08:41
      768500 -- (-18746.044) (-18751.739) [-18744.913] (-18742.350) * (-18758.297) (-18765.319) [-18748.286] (-18745.981) -- 0:08:40
      769000 -- [-18752.105] (-18751.548) (-18750.455) (-18747.769) * (-18753.590) (-18746.786) [-18753.685] (-18741.736) -- 0:08:39
      769500 -- (-18739.402) [-18747.389] (-18746.740) (-18739.979) * (-18752.617) [-18744.418] (-18753.718) (-18745.232) -- 0:08:38
      770000 -- [-18745.650] (-18745.786) (-18749.422) (-18743.107) * [-18747.228] (-18746.778) (-18752.657) (-18744.127) -- 0:08:37

      Average standard deviation of split frequencies: 0.002922

      770500 -- (-18747.584) (-18750.593) (-18758.650) [-18740.130] * (-18749.934) [-18743.454] (-18758.907) (-18758.181) -- 0:08:36
      771000 -- [-18741.317] (-18745.827) (-18755.925) (-18747.820) * (-18744.955) [-18750.417] (-18744.165) (-18749.920) -- 0:08:35
      771500 -- (-18756.541) (-18745.715) (-18750.165) [-18756.180] * (-18750.832) [-18749.863] (-18747.823) (-18755.984) -- 0:08:33
      772000 -- (-18751.611) (-18756.532) (-18752.208) [-18743.973] * [-18748.931] (-18749.383) (-18749.197) (-18744.840) -- 0:08:32
      772500 -- (-18744.410) (-18746.781) (-18746.635) [-18741.245] * (-18756.316) (-18739.260) (-18745.502) [-18746.499] -- 0:08:31
      773000 -- (-18749.840) (-18741.496) (-18752.064) [-18748.378] * (-18747.229) (-18755.364) (-18743.801) [-18740.744] -- 0:08:30
      773500 -- (-18745.662) (-18749.639) [-18748.226] (-18749.038) * [-18755.827] (-18751.468) (-18748.034) (-18749.323) -- 0:08:29
      774000 -- [-18747.348] (-18749.023) (-18742.576) (-18751.477) * (-18758.270) [-18747.807] (-18744.941) (-18747.546) -- 0:08:28
      774500 -- (-18752.716) [-18744.668] (-18744.948) (-18755.865) * (-18749.479) (-18760.690) (-18753.101) [-18743.417] -- 0:08:27
      775000 -- (-18746.446) [-18740.627] (-18741.216) (-18750.862) * (-18747.686) (-18757.375) [-18744.336] (-18750.623) -- 0:08:26

      Average standard deviation of split frequencies: 0.003307

      775500 -- [-18754.716] (-18749.756) (-18744.191) (-18748.173) * (-18750.411) (-18744.864) [-18745.293] (-18744.579) -- 0:08:24
      776000 -- (-18745.650) (-18743.122) (-18745.486) [-18747.140] * (-18748.637) (-18755.418) (-18751.903) [-18743.563] -- 0:08:23
      776500 -- (-18746.280) (-18747.906) (-18759.370) [-18743.790] * (-18742.726) (-18750.305) [-18742.484] (-18748.059) -- 0:08:22
      777000 -- [-18745.650] (-18746.835) (-18751.737) (-18753.748) * [-18746.098] (-18744.807) (-18752.719) (-18746.533) -- 0:08:21
      777500 -- (-18745.621) [-18750.025] (-18750.401) (-18752.921) * (-18749.125) [-18748.401] (-18748.978) (-18743.456) -- 0:08:20
      778000 -- (-18748.887) [-18746.560] (-18747.358) (-18748.612) * (-18750.322) (-18748.976) (-18750.183) [-18739.689] -- 0:08:19
      778500 -- (-18748.564) [-18739.694] (-18758.042) (-18742.977) * (-18743.359) [-18742.750] (-18750.162) (-18750.011) -- 0:08:18
      779000 -- (-18745.357) [-18742.850] (-18742.668) (-18750.163) * (-18751.314) [-18750.112] (-18755.557) (-18756.645) -- 0:08:17
      779500 -- (-18744.201) (-18747.593) (-18747.568) [-18741.473] * (-18762.599) [-18746.990] (-18756.141) (-18750.142) -- 0:08:15
      780000 -- [-18741.049] (-18746.949) (-18747.931) (-18746.269) * [-18743.749] (-18748.444) (-18747.404) (-18752.539) -- 0:08:14

      Average standard deviation of split frequencies: 0.002885

      780500 -- [-18741.807] (-18742.539) (-18755.611) (-18745.384) * [-18741.710] (-18744.399) (-18743.483) (-18749.779) -- 0:08:13
      781000 -- (-18749.483) [-18749.366] (-18744.715) (-18746.749) * (-18735.694) (-18752.501) [-18746.523] (-18747.269) -- 0:08:12
      781500 -- (-18739.227) (-18750.585) (-18742.231) [-18744.279] * (-18747.005) (-18758.219) [-18750.368] (-18742.928) -- 0:08:11
      782000 -- (-18746.581) (-18761.781) [-18743.193] (-18751.564) * [-18740.520] (-18749.695) (-18760.217) (-18745.546) -- 0:08:10
      782500 -- (-18748.653) (-18774.200) (-18742.698) [-18747.347] * (-18742.707) [-18742.733] (-18750.570) (-18750.621) -- 0:08:09
      783000 -- (-18741.253) (-18750.490) (-18747.325) [-18745.564] * (-18756.532) (-18747.402) (-18750.690) [-18741.457] -- 0:08:08
      783500 -- [-18745.729] (-18743.255) (-18746.422) (-18743.761) * (-18756.669) (-18750.407) [-18746.296] (-18745.982) -- 0:08:06
      784000 -- (-18741.416) (-18748.708) (-18752.700) [-18744.292] * [-18741.588] (-18742.173) (-18745.940) (-18739.896) -- 0:08:05
      784500 -- [-18743.662] (-18751.257) (-18743.577) (-18740.727) * (-18755.850) (-18743.662) [-18748.212] (-18743.193) -- 0:08:04
      785000 -- (-18747.347) [-18748.719] (-18757.345) (-18742.091) * (-18747.515) (-18751.473) [-18745.702] (-18745.866) -- 0:08:03

      Average standard deviation of split frequencies: 0.002599

      785500 -- [-18741.050] (-18751.225) (-18757.829) (-18747.858) * (-18749.228) [-18745.235] (-18745.530) (-18747.944) -- 0:08:02
      786000 -- [-18748.806] (-18745.646) (-18752.659) (-18749.960) * (-18753.260) [-18746.599] (-18748.535) (-18756.035) -- 0:08:01
      786500 -- [-18742.020] (-18753.484) (-18752.071) (-18750.079) * (-18744.151) [-18740.782] (-18743.147) (-18751.546) -- 0:07:59
      787000 -- (-18741.715) (-18744.574) [-18744.366] (-18751.375) * (-18752.861) (-18752.632) [-18744.387] (-18746.068) -- 0:07:59
      787500 -- (-18747.873) [-18737.984] (-18755.359) (-18751.799) * [-18747.390] (-18748.271) (-18750.547) (-18744.712) -- 0:07:57
      788000 -- (-18743.220) (-18749.722) (-18755.138) [-18749.068] * (-18745.317) (-18745.473) (-18745.123) [-18744.101] -- 0:07:56
      788500 -- (-18749.592) (-18761.920) (-18742.546) [-18745.252] * (-18743.672) [-18739.096] (-18751.861) (-18752.515) -- 0:07:55
      789000 -- (-18742.057) (-18749.696) (-18753.458) [-18740.255] * (-18747.465) (-18747.656) [-18745.673] (-18758.343) -- 0:07:54
      789500 -- [-18749.823] (-18743.487) (-18764.041) (-18742.439) * (-18748.560) (-18746.184) [-18747.837] (-18741.445) -- 0:07:53
      790000 -- (-18740.143) [-18752.116] (-18745.006) (-18744.367) * [-18743.050] (-18746.929) (-18744.084) (-18748.166) -- 0:07:52

      Average standard deviation of split frequencies: 0.002849

      790500 -- (-18739.103) [-18748.181] (-18746.616) (-18747.197) * [-18743.129] (-18741.822) (-18742.854) (-18747.487) -- 0:07:50
      791000 -- (-18741.672) (-18751.205) [-18742.530] (-18767.520) * (-18740.459) [-18748.007] (-18753.693) (-18745.532) -- 0:07:50
      791500 -- [-18745.986] (-18744.347) (-18746.254) (-18748.524) * (-18750.943) (-18742.078) [-18748.035] (-18745.380) -- 0:07:48
      792000 -- (-18746.237) (-18747.529) [-18749.903] (-18749.687) * [-18742.857] (-18741.206) (-18750.655) (-18745.335) -- 0:07:47
      792500 -- (-18742.182) [-18747.140] (-18747.949) (-18752.612) * (-18746.528) [-18742.706] (-18743.709) (-18744.594) -- 0:07:46
      793000 -- (-18740.917) (-18749.881) [-18745.574] (-18744.967) * (-18750.458) (-18740.187) (-18747.334) [-18744.874] -- 0:07:45
      793500 -- [-18750.898] (-18751.662) (-18753.054) (-18750.069) * [-18748.593] (-18748.981) (-18752.168) (-18747.004) -- 0:07:44
      794000 -- (-18743.630) (-18749.711) (-18757.236) [-18749.316] * (-18749.943) (-18747.874) [-18744.117] (-18744.738) -- 0:07:43
      794500 -- (-18745.430) [-18741.192] (-18748.489) (-18750.183) * (-18753.901) (-18748.155) [-18747.072] (-18742.238) -- 0:07:41
      795000 -- (-18741.517) (-18742.263) (-18767.031) [-18751.058] * (-18754.448) (-18750.240) [-18754.561] (-18759.905) -- 0:07:40

      Average standard deviation of split frequencies: 0.003093

      795500 -- (-18739.504) [-18740.750] (-18749.894) (-18748.549) * [-18743.592] (-18734.833) (-18755.518) (-18743.304) -- 0:07:39
      796000 -- (-18747.911) (-18742.232) [-18758.121] (-18751.300) * (-18745.023) [-18738.989] (-18752.538) (-18749.657) -- 0:07:38
      796500 -- (-18751.782) [-18741.109] (-18745.635) (-18741.491) * [-18744.947] (-18749.667) (-18748.598) (-18749.067) -- 0:07:37
      797000 -- (-18753.348) (-18744.420) (-18751.661) [-18745.062] * [-18753.161] (-18743.141) (-18741.633) (-18747.674) -- 0:07:36
      797500 -- (-18753.817) (-18750.564) (-18757.954) [-18744.438] * (-18744.743) [-18740.563] (-18743.636) (-18743.735) -- 0:07:35
      798000 -- (-18742.194) (-18748.611) [-18743.788] (-18750.048) * (-18739.767) [-18741.368] (-18751.291) (-18749.016) -- 0:07:34
      798500 -- (-18742.869) (-18749.807) (-18747.720) [-18744.148] * (-18749.525) (-18749.380) [-18752.575] (-18747.822) -- 0:07:32
      799000 -- (-18745.605) (-18745.856) [-18746.778] (-18745.732) * (-18746.539) (-18742.835) [-18745.988] (-18753.256) -- 0:07:31
      799500 -- (-18752.014) [-18739.113] (-18750.564) (-18749.107) * [-18743.876] (-18740.695) (-18746.059) (-18754.716) -- 0:07:30
      800000 -- (-18757.879) [-18745.173] (-18747.344) (-18746.716) * [-18745.679] (-18750.715) (-18759.623) (-18743.602) -- 0:07:29

      Average standard deviation of split frequencies: 0.003205

      800500 -- [-18755.933] (-18749.581) (-18752.842) (-18745.649) * (-18754.685) [-18745.900] (-18757.096) (-18744.089) -- 0:07:28
      801000 -- (-18742.049) (-18740.762) [-18745.655] (-18745.432) * (-18754.470) (-18753.356) (-18754.198) [-18745.105] -- 0:07:27
      801500 -- [-18750.703] (-18740.180) (-18746.700) (-18754.745) * (-18744.483) [-18743.926] (-18749.205) (-18739.888) -- 0:07:26
      802000 -- (-18748.724) (-18741.151) (-18743.516) [-18752.066] * [-18746.329] (-18741.422) (-18750.855) (-18753.182) -- 0:07:25
      802500 -- (-18749.515) [-18746.391] (-18744.553) (-18749.510) * (-18741.324) (-18746.255) (-18747.269) [-18745.353] -- 0:07:23
      803000 -- (-18740.907) [-18748.011] (-18752.900) (-18751.434) * (-18744.631) [-18744.099] (-18747.755) (-18742.991) -- 0:07:22
      803500 -- (-18748.947) (-18747.962) [-18746.594] (-18746.653) * [-18746.303] (-18741.746) (-18752.306) (-18751.597) -- 0:07:21
      804000 -- (-18751.556) (-18750.240) [-18744.892] (-18758.615) * [-18752.641] (-18744.365) (-18753.780) (-18745.102) -- 0:07:20
      804500 -- (-18742.258) [-18741.279] (-18753.236) (-18756.225) * (-18752.844) (-18750.169) [-18755.287] (-18745.976) -- 0:07:19
      805000 -- (-18746.903) [-18741.390] (-18753.150) (-18749.818) * (-18742.657) [-18747.194] (-18746.381) (-18747.909) -- 0:07:18

      Average standard deviation of split frequencies: 0.003314

      805500 -- (-18753.439) (-18743.269) (-18746.248) [-18738.644] * (-18749.580) (-18745.672) (-18746.933) [-18741.514] -- 0:07:17
      806000 -- (-18743.269) [-18747.983] (-18748.580) (-18750.325) * (-18748.448) (-18743.818) (-18753.401) [-18746.557] -- 0:07:16
      806500 -- (-18750.908) (-18742.541) (-18745.257) [-18747.555] * (-18751.699) (-18743.299) (-18746.826) [-18741.015] -- 0:07:14
      807000 -- [-18749.181] (-18748.702) (-18740.689) (-18755.373) * (-18753.160) (-18742.007) (-18743.329) [-18745.072] -- 0:07:13
      807500 -- (-18747.436) (-18740.604) [-18744.268] (-18744.062) * [-18749.960] (-18748.771) (-18743.695) (-18741.873) -- 0:07:12
      808000 -- (-18745.487) (-18756.948) (-18743.386) [-18750.699] * (-18741.057) (-18748.153) (-18743.939) [-18744.365] -- 0:07:11
      808500 -- (-18745.762) [-18751.340] (-18744.557) (-18754.227) * (-18745.528) [-18755.428] (-18752.993) (-18745.214) -- 0:07:10
      809000 -- (-18748.140) [-18747.967] (-18739.235) (-18754.211) * (-18744.452) (-18749.666) (-18746.331) [-18739.687] -- 0:07:09
      809500 -- (-18751.668) [-18744.877] (-18748.044) (-18750.549) * (-18748.901) (-18747.247) (-18758.147) [-18741.049] -- 0:07:08
      810000 -- (-18751.014) (-18748.424) (-18743.988) [-18753.841] * (-18743.569) [-18740.969] (-18757.270) (-18738.015) -- 0:07:07

      Average standard deviation of split frequencies: 0.002908

      810500 -- (-18752.603) (-18747.687) [-18746.859] (-18756.915) * (-18745.862) (-18753.692) (-18747.937) [-18741.236] -- 0:07:05
      811000 -- [-18748.627] (-18752.402) (-18738.687) (-18750.414) * [-18743.461] (-18749.566) (-18749.131) (-18744.570) -- 0:07:04
      811500 -- (-18747.746) (-18744.461) [-18746.624] (-18750.925) * [-18737.395] (-18749.395) (-18747.090) (-18748.709) -- 0:07:03
      812000 -- [-18740.889] (-18750.850) (-18746.553) (-18757.329) * [-18747.338] (-18760.436) (-18752.455) (-18754.154) -- 0:07:02
      812500 -- (-18746.577) [-18747.150] (-18754.307) (-18748.867) * (-18748.089) (-18756.860) (-18752.112) [-18746.433] -- 0:07:01
      813000 -- (-18750.714) (-18747.142) [-18744.757] (-18747.301) * (-18751.003) (-18750.929) [-18752.496] (-18752.692) -- 0:07:00
      813500 -- [-18740.301] (-18745.928) (-18750.831) (-18744.728) * (-18756.074) [-18744.815] (-18741.495) (-18739.083) -- 0:06:59
      814000 -- (-18743.079) (-18752.347) (-18746.447) [-18744.253] * (-18747.706) (-18751.603) (-18740.895) [-18746.168] -- 0:06:58
      814500 -- (-18746.179) [-18742.227] (-18745.905) (-18752.883) * (-18752.054) (-18749.524) [-18741.944] (-18737.528) -- 0:06:57
      815000 -- (-18756.261) [-18749.947] (-18753.602) (-18740.419) * (-18754.096) (-18742.699) [-18746.520] (-18741.512) -- 0:06:55

      Average standard deviation of split frequencies: 0.002760

      815500 -- (-18753.684) (-18750.325) (-18741.906) [-18744.640] * (-18745.174) [-18740.852] (-18745.566) (-18746.504) -- 0:06:54
      816000 -- (-18745.769) [-18747.451] (-18747.188) (-18747.989) * (-18747.925) [-18741.401] (-18746.553) (-18755.686) -- 0:06:53
      816500 -- [-18744.775] (-18752.038) (-18753.582) (-18755.246) * (-18745.553) (-18741.124) (-18747.652) [-18746.335] -- 0:06:52
      817000 -- (-18749.446) (-18749.115) [-18747.319] (-18752.329) * (-18742.925) [-18746.917] (-18747.241) (-18745.910) -- 0:06:51
      817500 -- (-18756.553) (-18754.852) [-18742.531] (-18746.127) * (-18745.404) (-18741.586) (-18750.283) [-18742.515] -- 0:06:50
      818000 -- (-18749.205) (-18752.494) (-18749.757) [-18740.756] * [-18752.998] (-18754.852) (-18753.622) (-18742.589) -- 0:06:49
      818500 -- (-18749.871) (-18752.893) (-18750.553) [-18746.358] * (-18744.202) (-18757.854) (-18751.812) [-18745.225] -- 0:06:48
      819000 -- (-18755.416) (-18755.189) (-18744.000) [-18742.734] * (-18747.000) (-18749.642) (-18744.192) [-18743.927] -- 0:06:46
      819500 -- (-18753.525) (-18753.552) [-18742.663] (-18749.646) * (-18743.676) [-18745.522] (-18751.012) (-18751.278) -- 0:06:45
      820000 -- (-18742.600) [-18739.952] (-18746.729) (-18753.251) * (-18747.081) [-18748.776] (-18749.361) (-18742.843) -- 0:06:44

      Average standard deviation of split frequencies: 0.003064

      820500 -- (-18743.474) [-18745.296] (-18754.761) (-18764.598) * (-18751.681) [-18743.490] (-18750.730) (-18746.343) -- 0:06:43
      821000 -- (-18750.585) (-18748.213) [-18757.434] (-18749.507) * [-18744.530] (-18756.256) (-18742.541) (-18746.500) -- 0:06:42
      821500 -- (-18742.125) (-18749.392) [-18743.393] (-18753.667) * [-18745.831] (-18749.907) (-18751.996) (-18746.739) -- 0:06:41
      822000 -- (-18740.868) (-18748.780) (-18751.125) [-18747.683] * (-18753.354) (-18746.881) [-18745.913] (-18747.454) -- 0:06:40
      822500 -- [-18745.721] (-18748.448) (-18758.851) (-18748.334) * (-18753.306) [-18748.752] (-18747.932) (-18749.400) -- 0:06:39
      823000 -- (-18743.766) (-18738.019) (-18747.922) [-18755.581] * (-18753.435) (-18743.379) (-18757.948) [-18741.894] -- 0:06:37
      823500 -- (-18758.295) [-18739.648] (-18745.066) (-18748.044) * (-18748.590) [-18744.671] (-18756.688) (-18753.272) -- 0:06:36
      824000 -- (-18740.314) (-18750.573) [-18749.563] (-18752.773) * [-18749.051] (-18750.140) (-18759.297) (-18756.457) -- 0:06:35
      824500 -- [-18749.900] (-18750.353) (-18755.614) (-18745.763) * [-18745.645] (-18754.200) (-18753.177) (-18764.566) -- 0:06:34
      825000 -- (-18744.321) [-18742.394] (-18760.811) (-18742.795) * [-18743.785] (-18745.017) (-18749.612) (-18750.347) -- 0:06:33

      Average standard deviation of split frequencies: 0.003424

      825500 -- (-18753.009) [-18745.836] (-18755.034) (-18745.943) * (-18750.468) (-18750.988) (-18750.805) [-18746.046] -- 0:06:32
      826000 -- (-18748.544) [-18739.170] (-18755.584) (-18742.117) * (-18744.955) (-18751.629) (-18750.402) [-18747.001] -- 0:06:31
      826500 -- [-18745.604] (-18743.403) (-18753.863) (-18750.637) * (-18750.054) (-18744.627) [-18753.791] (-18750.194) -- 0:06:30
      827000 -- (-18746.518) (-18750.608) (-18755.016) [-18747.979] * (-18754.742) [-18741.136] (-18756.345) (-18751.359) -- 0:06:28
      827500 -- (-18752.089) (-18750.689) [-18748.369] (-18751.354) * [-18745.320] (-18750.641) (-18747.254) (-18751.448) -- 0:06:27
      828000 -- [-18743.776] (-18751.264) (-18752.444) (-18748.565) * (-18746.881) (-18756.047) [-18741.854] (-18744.424) -- 0:06:26
      828500 -- (-18744.125) (-18752.480) [-18747.218] (-18747.616) * (-18747.788) (-18755.649) (-18744.004) [-18742.023] -- 0:06:25
      829000 -- (-18752.446) [-18749.136] (-18745.295) (-18746.392) * [-18742.373] (-18754.196) (-18747.024) (-18749.043) -- 0:06:24
      829500 -- (-18739.312) (-18741.568) (-18754.646) [-18744.453] * [-18744.262] (-18752.148) (-18749.718) (-18745.948) -- 0:06:23
      830000 -- (-18748.319) (-18744.089) (-18747.264) [-18746.051] * (-18742.368) [-18743.515] (-18751.864) (-18741.727) -- 0:06:22

      Average standard deviation of split frequencies: 0.003153

      830500 -- (-18751.435) [-18755.400] (-18754.908) (-18752.792) * (-18747.061) (-18746.560) (-18750.017) [-18738.581] -- 0:06:21
      831000 -- [-18748.385] (-18746.072) (-18755.048) (-18753.474) * (-18747.593) [-18748.479] (-18740.872) (-18748.099) -- 0:06:19
      831500 -- [-18745.174] (-18742.176) (-18751.303) (-18760.142) * [-18748.751] (-18751.926) (-18751.295) (-18746.341) -- 0:06:18
      832000 -- (-18747.120) (-18746.803) [-18747.447] (-18741.512) * [-18742.837] (-18751.334) (-18750.783) (-18747.535) -- 0:06:17
      832500 -- (-18747.298) [-18746.710] (-18757.847) (-18743.571) * (-18743.666) (-18751.138) (-18749.977) [-18737.198] -- 0:06:16
      833000 -- [-18742.057] (-18747.781) (-18758.406) (-18746.372) * [-18744.986] (-18749.754) (-18755.585) (-18744.436) -- 0:06:15
      833500 -- [-18747.033] (-18756.446) (-18745.640) (-18746.597) * [-18744.813] (-18768.363) (-18745.945) (-18752.517) -- 0:06:14
      834000 -- (-18745.834) (-18751.315) (-18745.972) [-18748.288] * [-18740.419] (-18744.175) (-18744.227) (-18745.976) -- 0:06:13
      834500 -- (-18757.840) (-18746.715) [-18736.697] (-18753.541) * (-18747.053) (-18750.348) (-18741.618) [-18742.318] -- 0:06:12
      835000 -- [-18754.753] (-18753.811) (-18739.191) (-18750.979) * (-18762.334) (-18749.056) (-18740.277) [-18738.057] -- 0:06:10

      Average standard deviation of split frequencies: 0.003133

      835500 -- (-18751.830) (-18747.978) (-18747.426) [-18747.071] * (-18750.740) [-18746.055] (-18749.034) (-18749.806) -- 0:06:09
      836000 -- (-18751.445) [-18748.452] (-18750.634) (-18749.457) * (-18761.202) [-18745.694] (-18750.300) (-18747.123) -- 0:06:08
      836500 -- (-18749.622) (-18745.839) [-18748.792] (-18747.747) * (-18748.633) [-18752.517] (-18741.223) (-18747.021) -- 0:06:07
      837000 -- (-18741.407) [-18746.542] (-18741.251) (-18744.921) * (-18755.147) (-18757.649) [-18739.963] (-18743.491) -- 0:06:06
      837500 -- [-18742.918] (-18746.795) (-18746.359) (-18740.721) * (-18762.633) (-18763.428) (-18746.292) [-18748.774] -- 0:06:05
      838000 -- (-18746.630) [-18744.356] (-18743.874) (-18743.065) * (-18749.428) (-18745.998) (-18743.126) [-18746.028] -- 0:06:04
      838500 -- [-18745.907] (-18744.433) (-18755.679) (-18746.752) * (-18746.087) (-18767.073) [-18746.332] (-18747.479) -- 0:06:03
      839000 -- (-18746.519) (-18745.098) (-18759.082) [-18746.492] * (-18751.482) (-18758.590) (-18741.721) [-18742.304] -- 0:06:01
      839500 -- [-18750.089] (-18755.550) (-18747.528) (-18741.477) * (-18750.841) (-18743.057) (-18745.394) [-18750.968] -- 0:06:00
      840000 -- [-18744.609] (-18744.984) (-18745.491) (-18745.435) * (-18756.293) (-18746.659) (-18748.438) [-18740.587] -- 0:05:59

      Average standard deviation of split frequencies: 0.003240

      840500 -- (-18747.500) (-18748.770) [-18745.052] (-18763.836) * (-18757.162) (-18746.900) [-18748.473] (-18754.106) -- 0:05:58
      841000 -- (-18757.422) (-18749.895) [-18747.895] (-18750.590) * (-18751.761) (-18745.739) [-18742.767] (-18761.153) -- 0:05:57
      841500 -- [-18747.940] (-18743.482) (-18745.997) (-18745.086) * (-18741.759) (-18754.767) [-18740.895] (-18749.660) -- 0:05:56
      842000 -- (-18751.904) (-18742.251) (-18742.290) [-18739.940] * (-18751.693) [-18744.161] (-18754.582) (-18749.949) -- 0:05:55
      842500 -- (-18750.202) (-18747.995) [-18741.963] (-18747.161) * (-18758.946) (-18745.411) (-18747.314) [-18747.404] -- 0:05:54
      843000 -- (-18754.911) (-18756.341) (-18741.865) [-18746.019] * (-18754.480) (-18746.824) (-18745.642) [-18750.900] -- 0:05:52
      843500 -- (-18757.548) (-18754.219) [-18748.455] (-18747.514) * [-18748.131] (-18740.314) (-18747.806) (-18745.773) -- 0:05:51
      844000 -- (-18741.151) (-18752.066) (-18746.749) [-18744.775] * (-18751.209) [-18746.305] (-18753.195) (-18750.316) -- 0:05:50
      844500 -- (-18746.709) (-18744.257) [-18745.413] (-18754.029) * (-18749.414) (-18747.972) [-18756.818] (-18744.205) -- 0:05:49
      845000 -- [-18748.235] (-18743.441) (-18760.723) (-18742.379) * (-18749.253) (-18748.134) (-18748.935) [-18748.766] -- 0:05:48

      Average standard deviation of split frequencies: 0.002848

      845500 -- [-18747.368] (-18744.797) (-18746.184) (-18748.774) * [-18751.134] (-18747.453) (-18749.081) (-18743.800) -- 0:05:47
      846000 -- (-18744.085) [-18749.848] (-18758.115) (-18747.104) * (-18749.983) [-18744.997] (-18752.170) (-18745.695) -- 0:05:46
      846500 -- [-18744.342] (-18751.968) (-18751.544) (-18742.460) * (-18756.003) [-18748.659] (-18762.970) (-18754.093) -- 0:05:45
      847000 -- [-18746.157] (-18756.945) (-18739.235) (-18747.671) * (-18741.936) [-18743.407] (-18749.380) (-18746.764) -- 0:05:43
      847500 -- (-18748.645) [-18751.395] (-18743.391) (-18747.142) * [-18749.415] (-18744.931) (-18760.574) (-18747.223) -- 0:05:42
      848000 -- (-18750.172) (-18747.209) [-18745.684] (-18747.926) * (-18741.807) (-18760.241) (-18752.321) [-18742.486] -- 0:05:41
      848500 -- (-18752.876) (-18751.182) [-18746.155] (-18744.262) * (-18746.084) (-18753.393) (-18758.581) [-18738.188] -- 0:05:40
      849000 -- (-18747.124) (-18753.818) [-18745.619] (-18747.496) * (-18746.677) (-18746.603) (-18756.611) [-18746.993] -- 0:05:39
      849500 -- (-18752.285) (-18747.420) [-18743.766] (-18751.049) * (-18746.687) [-18748.261] (-18746.857) (-18746.953) -- 0:05:38
      850000 -- (-18738.547) [-18754.815] (-18758.308) (-18753.083) * (-18760.356) (-18754.772) (-18751.459) [-18747.437] -- 0:05:37

      Average standard deviation of split frequencies: 0.002832

      850500 -- [-18744.254] (-18747.421) (-18759.991) (-18751.194) * (-18753.385) (-18750.970) [-18743.700] (-18750.910) -- 0:05:36
      851000 -- (-18748.061) [-18743.984] (-18745.550) (-18754.905) * (-18749.073) [-18743.537] (-18749.330) (-18743.176) -- 0:05:34
      851500 -- [-18746.386] (-18754.080) (-18750.216) (-18748.465) * (-18741.925) (-18745.766) [-18746.918] (-18748.738) -- 0:05:33
      852000 -- (-18752.194) [-18747.232] (-18748.806) (-18749.969) * [-18742.767] (-18743.511) (-18747.158) (-18752.205) -- 0:05:32
      852500 -- (-18755.057) [-18742.256] (-18739.020) (-18752.029) * (-18747.619) [-18744.148] (-18746.349) (-18745.561) -- 0:05:31
      853000 -- (-18747.309) (-18747.957) (-18752.998) [-18753.271] * (-18755.439) (-18748.082) (-18753.133) [-18740.962] -- 0:05:30
      853500 -- [-18744.137] (-18746.805) (-18751.727) (-18745.843) * (-18748.205) [-18749.168] (-18753.356) (-18748.505) -- 0:05:29
      854000 -- (-18744.855) [-18737.329] (-18747.104) (-18744.378) * (-18745.416) (-18757.066) (-18749.068) [-18744.266] -- 0:05:28
      854500 -- [-18740.052] (-18746.722) (-18750.294) (-18751.761) * (-18744.880) (-18751.849) (-18749.975) [-18743.098] -- 0:05:27
      855000 -- [-18740.797] (-18753.006) (-18754.333) (-18759.092) * (-18744.936) (-18747.874) [-18744.701] (-18745.685) -- 0:05:25

      Average standard deviation of split frequencies: 0.002937

      855500 -- (-18752.304) (-18751.810) [-18750.771] (-18746.412) * (-18757.287) [-18755.057] (-18739.640) (-18753.962) -- 0:05:24
      856000 -- (-18748.663) (-18746.946) [-18745.534] (-18755.524) * (-18741.923) (-18745.056) (-18746.743) [-18742.582] -- 0:05:23
      856500 -- [-18751.228] (-18754.465) (-18748.125) (-18748.732) * [-18748.157] (-18747.773) (-18745.569) (-18746.255) -- 0:05:22
      857000 -- (-18756.784) (-18751.985) (-18750.746) [-18749.966] * (-18747.517) (-18744.714) [-18741.201] (-18748.694) -- 0:05:21
      857500 -- (-18749.765) [-18746.016] (-18743.134) (-18755.724) * (-18747.646) (-18749.470) [-18752.968] (-18744.492) -- 0:05:20
      858000 -- [-18749.376] (-18744.112) (-18756.495) (-18765.029) * (-18749.449) (-18751.371) (-18749.453) [-18743.724] -- 0:05:19
      858500 -- (-18746.408) (-18751.214) (-18751.666) [-18748.749] * [-18744.662] (-18747.975) (-18753.721) (-18741.249) -- 0:05:18
      859000 -- (-18749.892) [-18753.203] (-18749.515) (-18741.522) * [-18744.008] (-18745.176) (-18753.213) (-18738.842) -- 0:05:16
      859500 -- [-18737.474] (-18749.058) (-18749.639) (-18749.340) * (-18740.153) [-18748.404] (-18744.897) (-18744.672) -- 0:05:15
      860000 -- [-18743.140] (-18755.668) (-18755.479) (-18751.654) * (-18751.304) [-18745.067] (-18751.312) (-18738.411) -- 0:05:14

      Average standard deviation of split frequencies: 0.002799

      860500 -- [-18748.522] (-18757.904) (-18747.090) (-18750.818) * (-18742.289) [-18748.740] (-18747.577) (-18742.256) -- 0:05:13
      861000 -- (-18753.682) (-18750.592) (-18758.601) [-18745.466] * (-18748.975) (-18752.108) [-18739.723] (-18747.209) -- 0:05:12
      861500 -- (-18754.588) [-18751.251] (-18752.024) (-18747.120) * (-18751.136) [-18746.422] (-18750.894) (-18739.309) -- 0:05:11
      862000 -- (-18747.361) (-18746.644) [-18744.521] (-18745.427) * (-18751.124) (-18743.148) [-18743.667] (-18753.552) -- 0:05:10
      862500 -- (-18750.976) [-18752.644] (-18742.030) (-18739.579) * [-18750.916] (-18743.162) (-18747.084) (-18742.741) -- 0:05:08
      863000 -- [-18754.108] (-18749.449) (-18751.156) (-18745.337) * (-18754.087) (-18740.414) [-18750.083] (-18752.938) -- 0:05:07
      863500 -- (-18750.193) [-18743.655] (-18741.472) (-18747.395) * [-18746.638] (-18743.426) (-18761.517) (-18752.807) -- 0:05:06
      864000 -- [-18748.490] (-18750.786) (-18747.730) (-18756.010) * [-18752.980] (-18741.330) (-18748.245) (-18750.718) -- 0:05:05
      864500 -- (-18752.797) [-18739.880] (-18749.438) (-18739.883) * [-18741.368] (-18750.074) (-18744.726) (-18744.356) -- 0:05:04
      865000 -- (-18742.300) (-18750.276) [-18739.449] (-18753.534) * (-18745.448) (-18753.676) [-18745.018] (-18741.139) -- 0:05:03

      Average standard deviation of split frequencies: 0.003024

      865500 -- (-18753.826) (-18750.699) [-18746.618] (-18758.409) * [-18738.686] (-18748.884) (-18761.890) (-18748.719) -- 0:05:02
      866000 -- (-18748.972) [-18743.318] (-18752.680) (-18751.577) * [-18743.166] (-18749.266) (-18747.571) (-18750.352) -- 0:05:01
      866500 -- (-18745.937) [-18743.405] (-18753.038) (-18761.683) * [-18747.527] (-18748.213) (-18743.762) (-18743.554) -- 0:04:59
      867000 -- (-18749.058) (-18755.152) (-18748.768) [-18747.083] * (-18745.478) (-18743.154) [-18744.542] (-18749.627) -- 0:04:58
      867500 -- (-18749.490) (-18749.963) [-18747.612] (-18746.009) * [-18743.322] (-18745.381) (-18739.066) (-18749.463) -- 0:04:57
      868000 -- (-18748.789) (-18747.086) (-18754.649) [-18747.271] * (-18746.854) [-18742.397] (-18745.746) (-18751.532) -- 0:04:56
      868500 -- (-18752.587) (-18745.389) (-18750.643) [-18743.987] * (-18749.994) [-18748.148] (-18746.883) (-18763.699) -- 0:04:55
      869000 -- (-18750.978) (-18737.732) [-18741.388] (-18747.967) * (-18742.647) (-18755.334) [-18747.041] (-18751.427) -- 0:04:54
      869500 -- (-18745.401) (-18742.323) [-18746.000] (-18749.914) * [-18748.725] (-18755.900) (-18741.421) (-18758.969) -- 0:04:53
      870000 -- (-18744.012) [-18742.910] (-18753.293) (-18750.510) * (-18749.386) (-18760.020) [-18746.408] (-18751.564) -- 0:04:52

      Average standard deviation of split frequencies: 0.003249

      870500 -- (-18740.137) [-18743.621] (-18753.344) (-18746.781) * (-18753.770) (-18753.772) (-18751.169) [-18746.488] -- 0:04:50
      871000 -- (-18752.145) (-18747.407) (-18749.350) [-18743.705] * [-18756.342] (-18750.987) (-18746.999) (-18757.944) -- 0:04:49
      871500 -- (-18758.861) (-18747.294) [-18736.812] (-18751.086) * (-18748.540) (-18748.858) (-18745.801) [-18742.068] -- 0:04:48
      872000 -- (-18746.670) [-18742.468] (-18746.035) (-18750.035) * (-18745.573) (-18742.053) [-18754.839] (-18751.884) -- 0:04:47
      872500 -- (-18746.008) (-18745.245) (-18753.697) [-18749.661] * (-18740.755) (-18741.588) [-18741.536] (-18751.030) -- 0:04:46
      873000 -- (-18746.871) (-18744.368) [-18753.195] (-18747.317) * (-18750.122) [-18738.221] (-18753.284) (-18749.538) -- 0:04:45
      873500 -- (-18747.691) (-18745.500) (-18755.925) [-18748.281] * (-18748.784) (-18750.700) [-18757.285] (-18745.307) -- 0:04:44
      874000 -- (-18741.434) [-18743.081] (-18754.551) (-18744.185) * (-18749.983) [-18741.650] (-18741.859) (-18744.868) -- 0:04:43
      874500 -- [-18746.098] (-18774.978) (-18745.618) (-18754.869) * (-18757.560) (-18755.116) (-18749.785) [-18748.046] -- 0:04:41
      875000 -- (-18757.669) [-18746.298] (-18748.040) (-18751.336) * (-18750.301) (-18744.603) (-18760.865) [-18748.840] -- 0:04:40

      Average standard deviation of split frequencies: 0.003468

      875500 -- [-18751.408] (-18751.204) (-18752.986) (-18753.043) * (-18757.162) (-18757.104) (-18744.766) [-18745.615] -- 0:04:39
      876000 -- (-18754.234) (-18743.502) [-18741.507] (-18747.231) * (-18754.620) [-18745.603] (-18739.443) (-18742.321) -- 0:04:38
      876500 -- [-18741.462] (-18747.824) (-18752.911) (-18749.086) * [-18744.184] (-18740.495) (-18739.315) (-18761.300) -- 0:04:37
      877000 -- (-18753.987) [-18748.289] (-18747.892) (-18760.550) * [-18753.466] (-18741.716) (-18748.951) (-18744.422) -- 0:04:36
      877500 -- (-18755.709) (-18746.918) (-18742.405) [-18747.110] * (-18746.676) [-18750.515] (-18746.875) (-18744.609) -- 0:04:35
      878000 -- [-18748.832] (-18743.578) (-18748.435) (-18745.920) * (-18750.728) (-18747.747) [-18747.211] (-18742.998) -- 0:04:34
      878500 -- (-18752.604) [-18747.134] (-18740.839) (-18756.790) * (-18744.431) (-18743.865) [-18750.995] (-18745.941) -- 0:04:33
      879000 -- [-18745.949] (-18747.219) (-18742.591) (-18744.784) * (-18745.226) (-18741.556) [-18749.205] (-18750.978) -- 0:04:31
      879500 -- (-18744.891) [-18745.231] (-18745.265) (-18739.843) * [-18747.944] (-18743.344) (-18752.550) (-18753.136) -- 0:04:30
      880000 -- [-18748.896] (-18750.258) (-18750.633) (-18744.312) * (-18746.733) (-18749.135) (-18756.618) [-18745.982] -- 0:04:29

      Average standard deviation of split frequencies: 0.003569

      880500 -- (-18752.203) (-18749.384) (-18743.575) [-18750.383] * [-18744.396] (-18743.714) (-18749.402) (-18753.950) -- 0:04:28
      881000 -- (-18745.484) [-18747.498] (-18743.933) (-18748.366) * [-18744.684] (-18755.295) (-18748.067) (-18745.211) -- 0:04:27
      881500 -- (-18748.336) (-18746.016) (-18745.000) [-18734.458] * (-18750.779) [-18756.535] (-18748.339) (-18750.324) -- 0:04:26
      882000 -- (-18753.672) [-18748.648] (-18745.951) (-18752.622) * (-18743.992) (-18758.023) [-18742.621] (-18747.770) -- 0:04:25
      882500 -- (-18760.497) (-18746.635) (-18753.125) [-18739.977] * [-18753.999] (-18757.137) (-18746.494) (-18745.008) -- 0:04:24
      883000 -- (-18752.090) [-18744.669] (-18760.511) (-18748.038) * (-18749.747) [-18748.965] (-18751.762) (-18755.275) -- 0:04:22
      883500 -- (-18742.507) (-18746.301) (-18748.895) [-18744.577] * [-18743.436] (-18747.569) (-18749.776) (-18753.474) -- 0:04:21
      884000 -- [-18743.636] (-18742.528) (-18747.384) (-18753.060) * (-18741.509) [-18748.700] (-18759.912) (-18751.899) -- 0:04:20
      884500 -- (-18754.859) (-18752.821) (-18747.760) [-18754.249] * [-18746.789] (-18764.711) (-18749.984) (-18742.257) -- 0:04:19
      885000 -- (-18751.745) (-18754.877) [-18751.544] (-18746.171) * (-18750.571) [-18744.143] (-18750.181) (-18746.138) -- 0:04:18

      Average standard deviation of split frequencies: 0.003665

      885500 -- (-18750.555) [-18749.778] (-18741.408) (-18744.926) * [-18747.311] (-18741.157) (-18761.795) (-18743.568) -- 0:04:17
      886000 -- (-18750.326) (-18749.492) [-18744.539] (-18750.139) * (-18754.318) (-18745.201) (-18750.145) [-18738.497] -- 0:04:16
      886500 -- (-18752.262) (-18751.999) [-18742.308] (-18758.253) * (-18749.486) [-18741.541] (-18762.617) (-18754.554) -- 0:04:15
      887000 -- (-18752.076) (-18755.246) (-18744.048) [-18742.847] * (-18742.507) (-18743.619) [-18741.702] (-18746.073) -- 0:04:13
      887500 -- (-18747.864) (-18746.706) (-18739.947) [-18740.861] * (-18740.674) (-18752.113) [-18742.302] (-18744.758) -- 0:04:12
      888000 -- (-18770.831) (-18753.387) [-18743.948] (-18748.247) * (-18743.405) (-18762.941) [-18751.031] (-18747.611) -- 0:04:11
      888500 -- (-18750.753) (-18753.134) [-18741.018] (-18748.711) * (-18740.059) (-18758.272) [-18744.116] (-18754.953) -- 0:04:10
      889000 -- (-18756.160) [-18746.405] (-18742.464) (-18744.718) * [-18748.765] (-18747.214) (-18740.407) (-18748.579) -- 0:04:09
      889500 -- [-18748.436] (-18747.205) (-18750.184) (-18746.764) * (-18757.557) [-18750.730] (-18739.208) (-18746.242) -- 0:04:08
      890000 -- (-18754.703) [-18746.912] (-18747.010) (-18742.280) * (-18761.200) (-18742.236) (-18742.413) [-18744.892] -- 0:04:07

      Average standard deviation of split frequencies: 0.003411

      890500 -- (-18746.769) (-18748.317) [-18750.233] (-18745.578) * (-18747.080) (-18746.594) (-18755.335) [-18746.247] -- 0:04:06
      891000 -- (-18749.388) [-18742.027] (-18750.879) (-18751.038) * [-18746.926] (-18755.310) (-18745.488) (-18755.216) -- 0:04:04
      891500 -- (-18745.027) (-18742.574) [-18739.676] (-18749.283) * (-18740.995) [-18749.998] (-18744.691) (-18751.565) -- 0:04:03
      892000 -- (-18750.570) (-18738.770) (-18743.039) [-18738.855] * [-18743.270] (-18746.384) (-18750.523) (-18754.953) -- 0:04:02
      892500 -- [-18744.600] (-18748.934) (-18756.672) (-18749.185) * (-18745.251) (-18742.016) (-18742.180) [-18742.729] -- 0:04:01
      893000 -- (-18741.361) [-18753.350] (-18744.069) (-18753.578) * (-18752.506) (-18753.406) (-18738.989) [-18744.576] -- 0:04:00
      893500 -- (-18757.143) (-18751.864) (-18738.784) [-18751.433] * [-18737.604] (-18746.775) (-18742.515) (-18751.126) -- 0:03:59
      894000 -- (-18747.700) (-18746.103) [-18747.763] (-18749.382) * (-18746.504) [-18741.706] (-18749.322) (-18751.866) -- 0:03:58
      894500 -- (-18746.580) [-18752.700] (-18761.271) (-18742.555) * [-18744.071] (-18750.422) (-18749.017) (-18747.380) -- 0:03:57
      895000 -- [-18742.543] (-18747.076) (-18757.189) (-18748.718) * (-18745.227) [-18739.969] (-18761.494) (-18754.972) -- 0:03:55

      Average standard deviation of split frequencies: 0.003391

      895500 -- (-18744.944) [-18746.003] (-18750.865) (-18752.558) * [-18746.407] (-18744.074) (-18748.630) (-18766.030) -- 0:03:54
      896000 -- [-18743.707] (-18756.912) (-18745.735) (-18757.556) * (-18742.274) [-18747.147] (-18740.594) (-18743.015) -- 0:03:53
      896500 -- (-18738.575) (-18749.756) [-18743.289] (-18746.093) * (-18748.644) [-18747.127] (-18742.019) (-18748.395) -- 0:03:52
      897000 -- [-18738.615] (-18742.988) (-18751.842) (-18747.516) * (-18745.144) [-18744.216] (-18752.321) (-18748.253) -- 0:03:51
      897500 -- (-18739.223) [-18743.368] (-18750.829) (-18771.963) * [-18744.836] (-18748.696) (-18752.077) (-18746.432) -- 0:03:50
      898000 -- [-18740.459] (-18745.175) (-18747.570) (-18753.342) * (-18749.401) (-18746.236) (-18758.258) [-18742.164] -- 0:03:49
      898500 -- (-18743.819) [-18742.164] (-18747.602) (-18757.473) * (-18746.085) [-18742.166] (-18748.936) (-18752.087) -- 0:03:48
      899000 -- (-18751.640) [-18743.088] (-18747.279) (-18748.914) * (-18756.248) (-18746.109) [-18746.254] (-18749.946) -- 0:03:46
      899500 -- (-18748.103) (-18754.417) [-18744.971] (-18748.974) * (-18752.799) [-18753.672] (-18745.478) (-18754.886) -- 0:03:45
      900000 -- (-18745.564) (-18747.326) (-18742.638) [-18741.150] * [-18742.870] (-18755.801) (-18750.536) (-18747.299) -- 0:03:44

      Average standard deviation of split frequencies: 0.003838

      900500 -- [-18745.332] (-18748.968) (-18745.129) (-18748.706) * (-18749.390) [-18745.190] (-18751.287) (-18742.478) -- 0:03:43
      901000 -- [-18740.276] (-18758.667) (-18746.048) (-18749.959) * (-18754.215) (-18748.297) (-18749.976) [-18748.636] -- 0:03:42
      901500 -- [-18738.370] (-18748.265) (-18744.123) (-18746.419) * (-18755.464) (-18753.612) (-18746.218) [-18744.459] -- 0:03:41
      902000 -- [-18741.303] (-18755.724) (-18752.572) (-18748.953) * (-18741.157) [-18751.940] (-18751.944) (-18750.538) -- 0:03:40
      902500 -- (-18751.129) (-18752.860) (-18754.678) [-18752.679] * (-18746.362) (-18756.262) [-18741.096] (-18753.890) -- 0:03:39
      903000 -- [-18745.179] (-18743.195) (-18758.931) (-18744.358) * [-18749.813] (-18752.188) (-18746.695) (-18750.527) -- 0:03:37
      903500 -- (-18743.174) (-18742.698) (-18746.530) [-18759.367] * (-18747.097) (-18745.687) [-18752.376] (-18755.140) -- 0:03:36
      904000 -- (-18747.488) [-18752.304] (-18745.658) (-18746.262) * (-18743.097) (-18743.171) (-18747.037) [-18750.344] -- 0:03:35
      904500 -- (-18757.612) (-18753.567) [-18747.204] (-18748.894) * (-18744.002) (-18742.446) [-18745.299] (-18752.471) -- 0:03:34
      905000 -- (-18751.930) (-18749.228) (-18746.194) [-18746.700] * (-18749.981) (-18755.142) [-18748.251] (-18748.307) -- 0:03:33

      Average standard deviation of split frequencies: 0.004047

      905500 -- (-18754.199) (-18746.255) [-18739.374] (-18743.867) * (-18749.586) [-18747.804] (-18744.164) (-18745.776) -- 0:03:32
      906000 -- (-18754.329) [-18756.954] (-18754.857) (-18744.964) * [-18742.834] (-18751.102) (-18747.237) (-18752.774) -- 0:03:31
      906500 -- (-18757.804) [-18750.950] (-18744.374) (-18749.219) * [-18751.303] (-18752.188) (-18745.782) (-18754.265) -- 0:03:30
      907000 -- [-18756.990] (-18762.078) (-18753.019) (-18754.155) * (-18748.332) (-18740.193) (-18745.774) [-18748.060] -- 0:03:28
      907500 -- (-18744.864) (-18754.412) (-18748.893) [-18752.208] * [-18747.858] (-18747.787) (-18753.380) (-18747.068) -- 0:03:27
      908000 -- (-18751.953) (-18748.271) [-18746.595] (-18744.891) * (-18754.679) (-18749.236) [-18739.931] (-18747.750) -- 0:03:26
      908500 -- (-18746.984) (-18747.775) [-18743.822] (-18757.025) * (-18755.381) [-18746.254] (-18748.172) (-18749.298) -- 0:03:25
      909000 -- [-18742.296] (-18750.162) (-18740.416) (-18747.896) * [-18747.423] (-18750.663) (-18748.051) (-18754.514) -- 0:03:24
      909500 -- (-18748.554) (-18743.404) [-18743.026] (-18744.300) * [-18758.122] (-18746.673) (-18747.173) (-18756.504) -- 0:03:23
      910000 -- (-18747.263) [-18747.270] (-18752.826) (-18749.023) * (-18743.870) (-18759.617) [-18742.907] (-18752.288) -- 0:03:22

      Average standard deviation of split frequencies: 0.004141

      910500 -- [-18740.220] (-18748.898) (-18745.393) (-18743.287) * (-18751.224) (-18748.175) (-18746.877) [-18742.851] -- 0:03:21
      911000 -- (-18750.577) (-18744.124) [-18743.829] (-18753.030) * (-18749.391) (-18754.794) [-18742.044] (-18748.585) -- 0:03:19
      911500 -- (-18747.850) (-18745.730) [-18737.098] (-18748.364) * (-18748.139) (-18752.648) [-18747.259] (-18738.030) -- 0:03:18
      912000 -- (-18753.703) (-18747.903) [-18739.181] (-18744.656) * (-18748.334) (-18745.292) (-18745.503) [-18747.488] -- 0:03:17
      912500 -- [-18744.826] (-18746.071) (-18745.955) (-18744.222) * (-18750.532) (-18739.234) [-18750.824] (-18748.202) -- 0:03:16
      913000 -- (-18747.528) [-18748.826] (-18756.942) (-18747.887) * (-18755.883) (-18744.229) (-18747.403) [-18743.580] -- 0:03:15
      913500 -- (-18747.841) (-18753.859) (-18746.853) [-18745.151] * (-18746.102) (-18748.277) [-18745.012] (-18743.756) -- 0:03:14
      914000 -- [-18749.191] (-18754.597) (-18750.581) (-18750.410) * (-18751.817) (-18752.585) [-18743.817] (-18763.412) -- 0:03:13
      914500 -- (-18747.983) (-18743.485) [-18740.660] (-18739.316) * [-18747.204] (-18751.033) (-18746.449) (-18745.207) -- 0:03:12
      915000 -- (-18742.945) (-18747.003) [-18747.179] (-18755.173) * (-18747.145) (-18740.773) [-18748.194] (-18747.705) -- 0:03:10

      Average standard deviation of split frequencies: 0.003888

      915500 -- (-18746.343) (-18744.598) (-18745.617) [-18752.082] * (-18745.023) (-18747.652) (-18750.001) [-18748.395] -- 0:03:09
      916000 -- (-18748.417) [-18744.857] (-18748.241) (-18749.201) * (-18743.963) (-18748.282) (-18753.110) [-18753.447] -- 0:03:08
      916500 -- (-18748.537) [-18737.823] (-18746.730) (-18750.713) * [-18754.250] (-18741.857) (-18750.200) (-18744.924) -- 0:03:07
      917000 -- (-18747.545) (-18745.215) [-18742.988] (-18749.648) * (-18747.477) [-18746.689] (-18745.098) (-18746.727) -- 0:03:06
      917500 -- (-18748.917) [-18748.661] (-18747.092) (-18746.879) * [-18745.942] (-18749.604) (-18743.120) (-18751.655) -- 0:03:05
      918000 -- (-18755.833) [-18753.320] (-18753.004) (-18741.192) * (-18748.728) (-18749.175) [-18747.619] (-18735.459) -- 0:03:04
      918500 -- (-18754.885) (-18745.377) (-18745.538) [-18745.984] * (-18747.639) (-18744.196) [-18744.814] (-18752.778) -- 0:03:03
      919000 -- (-18749.975) (-18745.787) (-18743.295) [-18751.383] * (-18757.593) (-18748.107) [-18752.227] (-18751.627) -- 0:03:02
      919500 -- (-18752.433) [-18749.774] (-18743.715) (-18744.546) * (-18750.463) (-18748.080) (-18748.223) [-18748.771] -- 0:03:00
      920000 -- (-18749.026) (-18745.952) [-18744.850] (-18748.177) * (-18746.689) (-18742.308) [-18753.606] (-18746.271) -- 0:02:59

      Average standard deviation of split frequencies: 0.003869

      920500 -- (-18746.347) [-18742.760] (-18748.843) (-18749.355) * (-18750.840) (-18746.975) [-18749.972] (-18739.777) -- 0:02:58
      921000 -- (-18745.807) [-18746.040] (-18737.631) (-18746.020) * (-18750.274) [-18746.868] (-18749.651) (-18746.298) -- 0:02:57
      921500 -- (-18740.611) (-18748.464) (-18745.663) [-18746.773] * (-18747.440) [-18745.738] (-18757.380) (-18752.875) -- 0:02:56
      922000 -- (-18747.660) (-18745.421) [-18740.991] (-18749.027) * [-18740.920] (-18739.855) (-18752.185) (-18739.670) -- 0:02:55
      922500 -- (-18753.004) (-18743.778) [-18747.453] (-18752.682) * (-18746.369) (-18753.233) (-18754.341) [-18738.947] -- 0:02:54
      923000 -- [-18744.600] (-18744.123) (-18742.591) (-18746.215) * (-18743.393) [-18744.111] (-18740.653) (-18744.822) -- 0:02:53
      923500 -- (-18744.385) (-18749.146) (-18751.074) [-18746.362] * [-18746.685] (-18746.462) (-18741.558) (-18751.682) -- 0:02:51
      924000 -- (-18749.168) [-18749.784] (-18750.001) (-18745.776) * (-18743.935) (-18760.124) [-18743.734] (-18750.142) -- 0:02:50
      924500 -- (-18745.239) (-18751.446) [-18746.868] (-18749.738) * (-18753.764) (-18753.762) [-18739.780] (-18749.183) -- 0:02:49
      925000 -- (-18745.296) (-18746.700) (-18756.456) [-18750.302] * [-18747.123] (-18753.048) (-18747.400) (-18753.359) -- 0:02:48

      Average standard deviation of split frequencies: 0.003507

      925500 -- (-18753.200) [-18740.392] (-18752.109) (-18748.450) * (-18744.335) (-18744.481) [-18741.665] (-18752.347) -- 0:02:47
      926000 -- (-18739.842) (-18752.827) (-18750.441) [-18749.006] * (-18753.406) [-18747.269] (-18749.035) (-18746.275) -- 0:02:46
      926500 -- (-18742.704) [-18750.121] (-18745.338) (-18745.813) * [-18754.960] (-18753.916) (-18742.375) (-18743.219) -- 0:02:45
      927000 -- (-18756.210) (-18748.725) (-18742.774) [-18739.310] * (-18743.210) [-18748.419] (-18758.606) (-18740.538) -- 0:02:44
      927500 -- (-18747.426) (-18754.471) (-18746.101) [-18742.542] * (-18744.274) (-18745.137) (-18754.367) [-18751.080] -- 0:02:42
      928000 -- (-18749.284) (-18756.701) [-18744.863] (-18735.303) * (-18745.035) (-18746.500) (-18745.063) [-18748.588] -- 0:02:41
      928500 -- [-18740.921] (-18749.353) (-18748.752) (-18749.916) * [-18740.499] (-18751.612) (-18749.287) (-18744.331) -- 0:02:40
      929000 -- (-18744.631) (-18746.242) (-18755.229) [-18748.350] * [-18746.033] (-18747.277) (-18745.820) (-18748.739) -- 0:02:39
      929500 -- [-18740.748] (-18757.278) (-18757.943) (-18742.785) * (-18753.603) (-18758.783) (-18755.269) [-18742.731] -- 0:02:38
      930000 -- (-18740.189) (-18760.399) (-18749.903) [-18751.533] * (-18743.031) (-18748.634) (-18747.231) [-18742.801] -- 0:02:37

      Average standard deviation of split frequencies: 0.003489

      930500 -- (-18741.426) [-18746.149] (-18753.110) (-18744.651) * (-18746.963) (-18750.515) (-18740.679) [-18744.492] -- 0:02:36
      931000 -- (-18745.457) (-18753.391) [-18752.031] (-18746.315) * (-18751.822) (-18757.315) [-18749.904] (-18741.531) -- 0:02:35
      931500 -- (-18757.863) (-18742.170) [-18746.901] (-18738.521) * [-18746.153] (-18750.526) (-18741.894) (-18756.318) -- 0:02:33
      932000 -- (-18763.231) [-18745.643] (-18742.333) (-18748.500) * (-18751.198) [-18740.486] (-18749.386) (-18753.519) -- 0:02:32
      932500 -- (-18750.515) (-18742.792) [-18743.728] (-18751.061) * (-18752.153) (-18746.630) (-18750.629) [-18743.542] -- 0:02:31
      933000 -- (-18740.974) (-18745.921) [-18749.778] (-18751.685) * [-18748.527] (-18748.006) (-18745.896) (-18746.077) -- 0:02:30
      933500 -- [-18740.646] (-18753.010) (-18740.453) (-18749.648) * (-18745.671) (-18744.794) (-18746.251) [-18751.944] -- 0:02:29
      934000 -- (-18748.922) (-18748.371) (-18741.796) [-18749.889] * (-18751.358) (-18746.537) (-18745.743) [-18743.369] -- 0:02:28
      934500 -- (-18750.820) (-18759.222) (-18751.268) [-18745.758] * (-18746.750) (-18749.795) [-18748.272] (-18752.776) -- 0:02:27
      935000 -- (-18744.683) [-18744.729] (-18752.707) (-18748.072) * (-18749.946) (-18742.304) [-18746.032] (-18750.858) -- 0:02:26

      Average standard deviation of split frequencies: 0.002910

      935500 -- [-18743.549] (-18753.670) (-18746.147) (-18752.728) * (-18746.132) (-18747.338) [-18749.611] (-18745.841) -- 0:02:24
      936000 -- [-18743.826] (-18749.483) (-18746.814) (-18748.694) * [-18755.585] (-18753.354) (-18749.124) (-18748.588) -- 0:02:23
      936500 -- (-18761.250) (-18748.803) [-18743.981] (-18749.834) * [-18753.867] (-18745.771) (-18750.521) (-18746.982) -- 0:02:22
      937000 -- (-18750.357) [-18746.919] (-18749.308) (-18746.576) * (-18750.053) (-18745.829) [-18747.857] (-18749.240) -- 0:02:21
      937500 -- (-18750.719) (-18746.290) (-18751.013) [-18744.810] * (-18751.674) [-18748.237] (-18745.123) (-18750.453) -- 0:02:20
      938000 -- (-18742.228) [-18741.120] (-18753.611) (-18747.822) * (-18753.386) (-18745.176) (-18749.870) [-18746.557] -- 0:02:19
      938500 -- [-18750.113] (-18751.093) (-18757.787) (-18755.170) * [-18744.134] (-18747.541) (-18754.213) (-18743.966) -- 0:02:18
      939000 -- (-18752.222) (-18749.123) [-18749.495] (-18746.664) * (-18753.633) [-18741.390] (-18750.235) (-18756.024) -- 0:02:17
      939500 -- (-18753.016) (-18740.417) (-18754.108) [-18746.688] * (-18755.660) [-18743.103] (-18753.068) (-18742.795) -- 0:02:15
      940000 -- [-18747.711] (-18753.552) (-18744.583) (-18747.074) * [-18745.666] (-18753.831) (-18750.298) (-18743.342) -- 0:02:14

      Average standard deviation of split frequencies: 0.003341

      940500 -- [-18746.916] (-18748.185) (-18748.469) (-18740.621) * (-18749.516) (-18739.506) (-18753.310) [-18745.429] -- 0:02:13
      941000 -- (-18746.984) (-18752.941) [-18743.985] (-18747.669) * (-18749.791) (-18744.153) (-18745.570) [-18749.424] -- 0:02:12
      941500 -- (-18748.997) [-18745.401] (-18755.489) (-18751.115) * (-18743.017) [-18738.723] (-18753.960) (-18759.106) -- 0:02:11
      942000 -- (-18746.766) (-18741.749) [-18748.969] (-18748.137) * (-18744.217) [-18743.068] (-18755.261) (-18748.442) -- 0:02:10
      942500 -- (-18747.455) [-18741.020] (-18747.702) (-18748.991) * [-18746.103] (-18747.290) (-18747.895) (-18746.490) -- 0:02:09
      943000 -- [-18745.815] (-18740.529) (-18751.218) (-18754.762) * (-18745.328) (-18746.631) [-18744.006] (-18759.310) -- 0:02:08
      943500 -- (-18745.475) [-18747.059] (-18742.757) (-18751.777) * [-18745.802] (-18750.190) (-18752.951) (-18751.007) -- 0:02:06
      944000 -- (-18758.582) (-18751.956) [-18737.704] (-18744.965) * (-18754.445) [-18739.267] (-18749.857) (-18745.819) -- 0:02:05
      944500 -- (-18750.004) [-18743.156] (-18752.806) (-18757.837) * [-18755.156] (-18751.811) (-18748.154) (-18755.932) -- 0:02:04
      945000 -- (-18744.430) (-18752.765) [-18746.452] (-18742.859) * (-18743.600) (-18749.561) (-18749.327) [-18745.437] -- 0:02:03

      Average standard deviation of split frequencies: 0.003433

      945500 -- (-18759.644) (-18755.349) [-18749.347] (-18746.006) * (-18747.411) (-18746.560) [-18755.731] (-18744.420) -- 0:02:02
      946000 -- (-18754.518) (-18750.201) (-18743.509) [-18741.572] * [-18744.949] (-18746.225) (-18752.421) (-18761.794) -- 0:02:01
      946500 -- [-18755.808] (-18749.155) (-18750.407) (-18747.398) * [-18748.098] (-18751.663) (-18745.380) (-18749.394) -- 0:02:00
      947000 -- (-18746.530) (-18754.539) (-18750.526) [-18746.566] * [-18748.282] (-18752.805) (-18741.659) (-18747.476) -- 0:01:59
      947500 -- (-18744.028) [-18749.868] (-18753.623) (-18746.983) * (-18738.556) [-18740.841] (-18748.311) (-18756.411) -- 0:01:57
      948000 -- [-18744.635] (-18758.366) (-18752.021) (-18759.346) * [-18738.643] (-18747.599) (-18750.480) (-18746.495) -- 0:01:56
      948500 -- [-18744.101] (-18752.094) (-18748.182) (-18748.629) * (-18745.067) (-18748.744) [-18746.800] (-18742.709) -- 0:01:55
      949000 -- (-18754.035) [-18750.079] (-18749.728) (-18739.434) * [-18742.139] (-18743.036) (-18753.176) (-18747.232) -- 0:01:54
      949500 -- (-18750.275) (-18747.130) [-18740.104] (-18739.698) * (-18741.801) [-18743.612] (-18751.007) (-18743.402) -- 0:01:53
      950000 -- [-18752.531] (-18740.506) (-18755.943) (-18746.365) * (-18746.914) (-18746.753) [-18742.564] (-18747.617) -- 0:01:52

      Average standard deviation of split frequencies: 0.003196

      950500 -- (-18762.526) [-18738.936] (-18756.554) (-18761.153) * (-18747.005) (-18742.001) [-18745.974] (-18751.023) -- 0:01:51
      951000 -- [-18749.581] (-18742.783) (-18751.400) (-18759.755) * (-18745.952) [-18742.220] (-18746.198) (-18757.661) -- 0:01:50
      951500 -- (-18746.460) (-18748.437) [-18746.151] (-18754.265) * [-18747.061] (-18744.478) (-18748.318) (-18756.707) -- 0:01:48
      952000 -- (-18748.157) (-18749.201) (-18752.242) [-18745.062] * [-18747.341] (-18747.123) (-18747.472) (-18749.800) -- 0:01:47
      952500 -- (-18758.906) (-18761.276) [-18759.680] (-18751.628) * (-18753.299) (-18746.816) (-18751.274) [-18751.905] -- 0:01:46
      953000 -- (-18746.298) (-18749.637) (-18751.655) [-18748.161] * [-18749.799] (-18745.520) (-18752.232) (-18745.191) -- 0:01:45
      953500 -- (-18745.293) (-18741.145) (-18757.167) [-18743.585] * (-18746.191) [-18743.485] (-18758.467) (-18756.206) -- 0:01:44
      954000 -- (-18741.191) (-18742.432) (-18745.855) [-18752.665] * (-18746.604) [-18743.294] (-18750.115) (-18748.786) -- 0:01:43
      954500 -- [-18741.990] (-18758.681) (-18740.317) (-18748.542) * (-18739.471) (-18752.745) (-18756.581) [-18744.144] -- 0:01:42
      955000 -- (-18745.649) (-18763.304) (-18747.097) [-18744.338] * (-18746.245) [-18749.556] (-18756.228) (-18750.096) -- 0:01:41

      Average standard deviation of split frequencies: 0.003068

      955500 -- (-18742.293) [-18750.123] (-18746.580) (-18745.884) * (-18748.586) (-18743.662) (-18756.174) [-18742.825] -- 0:01:39
      956000 -- (-18749.485) (-18747.825) [-18745.392] (-18757.787) * [-18746.964] (-18758.242) (-18747.173) (-18751.024) -- 0:01:38
      956500 -- (-18745.053) [-18746.693] (-18748.560) (-18739.442) * [-18745.852] (-18747.734) (-18741.129) (-18751.233) -- 0:01:37
      957000 -- [-18751.802] (-18752.474) (-18753.958) (-18746.520) * [-18744.934] (-18746.107) (-18746.064) (-18746.119) -- 0:01:36
      957500 -- (-18748.465) (-18743.910) (-18754.641) [-18741.242] * (-18749.962) (-18751.547) (-18752.452) [-18746.732] -- 0:01:35
      958000 -- [-18740.351] (-18742.905) (-18744.670) (-18744.156) * [-18744.718] (-18763.614) (-18749.539) (-18742.617) -- 0:01:34
      958500 -- (-18745.808) (-18742.669) (-18747.961) [-18740.046] * (-18743.324) (-18745.419) (-18749.432) [-18747.660] -- 0:01:33
      959000 -- (-18744.432) (-18747.889) [-18750.715] (-18742.487) * (-18741.695) (-18745.850) (-18750.398) [-18741.574] -- 0:01:32
      959500 -- (-18745.319) (-18753.348) (-18741.553) [-18739.826] * (-18754.332) (-18754.074) [-18745.108] (-18751.851) -- 0:01:31
      960000 -- [-18744.754] (-18749.936) (-18746.966) (-18751.236) * [-18747.879] (-18746.055) (-18752.030) (-18752.667) -- 0:01:29

      Average standard deviation of split frequencies: 0.003053

      960500 -- (-18751.093) [-18742.106] (-18744.063) (-18745.573) * [-18743.949] (-18754.955) (-18748.544) (-18762.154) -- 0:01:28
      961000 -- (-18750.689) (-18741.366) (-18744.269) [-18752.787] * (-18755.889) (-18743.047) (-18751.736) [-18755.485] -- 0:01:27
      961500 -- [-18751.342] (-18746.224) (-18750.004) (-18747.023) * (-18746.981) [-18745.366] (-18755.731) (-18751.967) -- 0:01:26
      962000 -- (-18747.008) (-18753.602) [-18753.940] (-18743.665) * (-18744.591) (-18748.916) [-18744.375] (-18755.499) -- 0:01:25
      962500 -- (-18744.782) (-18747.294) (-18746.594) [-18749.672] * (-18743.881) (-18759.406) [-18748.122] (-18738.793) -- 0:01:24
      963000 -- (-18751.031) (-18743.767) (-18750.257) [-18755.105] * (-18744.176) (-18752.978) [-18743.132] (-18744.803) -- 0:01:23
      963500 -- (-18752.762) [-18747.506] (-18760.307) (-18745.115) * [-18746.235] (-18751.145) (-18749.758) (-18751.330) -- 0:01:22
      964000 -- [-18745.163] (-18748.921) (-18750.756) (-18746.316) * (-18755.149) (-18742.748) (-18755.139) [-18744.958] -- 0:01:20
      964500 -- (-18740.495) [-18744.366] (-18748.184) (-18746.450) * (-18745.933) (-18750.283) [-18763.716] (-18747.983) -- 0:01:19
      965000 -- (-18754.333) (-18755.080) [-18750.920] (-18747.091) * [-18737.709] (-18747.037) (-18749.405) (-18741.620) -- 0:01:18

      Average standard deviation of split frequencies: 0.003145

      965500 -- (-18760.362) (-18753.035) (-18746.925) [-18739.892] * (-18748.206) [-18744.572] (-18766.802) (-18742.756) -- 0:01:17
      966000 -- (-18751.971) (-18744.204) (-18743.843) [-18751.392] * (-18741.736) [-18751.359] (-18749.609) (-18741.515) -- 0:01:16
      966500 -- (-18747.766) (-18744.321) [-18738.186] (-18741.386) * (-18748.582) (-18748.846) [-18748.273] (-18753.432) -- 0:01:15
      967000 -- (-18746.747) (-18746.340) [-18740.932] (-18739.435) * (-18747.762) (-18749.889) (-18749.779) [-18744.004] -- 0:01:14
      967500 -- (-18748.726) (-18747.205) (-18746.715) [-18742.079] * (-18751.574) [-18741.554] (-18753.094) (-18752.972) -- 0:01:13
      968000 -- [-18746.699] (-18755.660) (-18751.528) (-18754.263) * [-18747.903] (-18747.042) (-18743.215) (-18760.737) -- 0:01:11
      968500 -- (-18747.546) [-18743.088] (-18749.097) (-18741.415) * (-18747.780) (-18756.436) [-18748.140] (-18747.360) -- 0:01:10
      969000 -- [-18743.390] (-18746.039) (-18744.507) (-18756.978) * (-18743.426) [-18756.510] (-18746.068) (-18749.087) -- 0:01:09
      969500 -- [-18746.400] (-18747.322) (-18762.401) (-18753.388) * [-18743.789] (-18749.698) (-18749.481) (-18748.464) -- 0:01:08
      970000 -- (-18751.633) [-18746.054] (-18763.642) (-18750.670) * [-18736.404] (-18751.461) (-18752.513) (-18739.207) -- 0:01:07

      Average standard deviation of split frequencies: 0.002914

      970500 -- [-18742.435] (-18741.200) (-18761.950) (-18752.709) * [-18751.885] (-18752.611) (-18742.179) (-18749.744) -- 0:01:06
      971000 -- (-18742.246) [-18743.310] (-18758.354) (-18752.867) * (-18750.082) (-18749.497) (-18746.953) [-18738.374] -- 0:01:05
      971500 -- [-18754.569] (-18747.668) (-18745.087) (-18749.521) * (-18744.790) (-18743.451) (-18744.139) [-18742.354] -- 0:01:04
      972000 -- (-18747.107) (-18744.201) [-18748.216] (-18753.101) * (-18748.633) (-18753.060) (-18742.459) [-18742.832] -- 0:01:02
      972500 -- [-18747.014] (-18747.735) (-18748.628) (-18742.311) * [-18748.303] (-18743.582) (-18736.709) (-18741.042) -- 0:01:01
      973000 -- (-18748.583) (-18755.883) (-18753.629) [-18743.520] * (-18741.318) (-18758.897) [-18745.463] (-18748.533) -- 0:01:00
      973500 -- [-18750.506] (-18748.472) (-18746.000) (-18738.415) * [-18745.982] (-18747.171) (-18743.685) (-18748.943) -- 0:00:59
      974000 -- [-18742.773] (-18747.554) (-18752.089) (-18749.586) * (-18748.519) [-18752.342] (-18743.499) (-18750.515) -- 0:00:58
      974500 -- [-18743.516] (-18752.797) (-18745.236) (-18746.447) * (-18744.204) (-18752.467) [-18747.801] (-18752.781) -- 0:00:57
      975000 -- [-18741.255] (-18753.233) (-18742.450) (-18745.912) * (-18751.408) (-18748.070) (-18746.005) [-18744.110] -- 0:00:56

      Average standard deviation of split frequencies: 0.003327

      975500 -- (-18748.437) (-18746.911) (-18745.444) [-18746.042] * [-18742.885] (-18748.370) (-18742.960) (-18750.097) -- 0:00:55
      976000 -- (-18763.744) [-18745.252] (-18754.817) (-18746.179) * [-18743.707] (-18744.530) (-18747.882) (-18744.366) -- 0:00:53
      976500 -- (-18745.926) [-18745.440] (-18750.054) (-18745.684) * (-18743.170) [-18743.027] (-18742.017) (-18740.261) -- 0:00:52
      977000 -- (-18744.505) [-18742.546] (-18754.776) (-18758.758) * (-18746.890) [-18741.762] (-18755.130) (-18742.584) -- 0:00:51
      977500 -- (-18749.824) (-18738.975) [-18748.886] (-18751.324) * (-18746.347) (-18745.318) [-18741.789] (-18753.088) -- 0:00:50
      978000 -- (-18749.386) (-18745.402) (-18744.724) [-18748.378] * (-18738.576) (-18747.267) (-18746.136) [-18748.363] -- 0:00:49
      978500 -- (-18748.100) (-18747.554) [-18746.176] (-18747.876) * (-18742.678) (-18748.290) (-18748.786) [-18740.866] -- 0:00:48
      979000 -- (-18745.315) (-18751.092) [-18751.603] (-18743.154) * (-18757.161) (-18752.351) [-18749.280] (-18747.639) -- 0:00:47
      979500 -- (-18747.335) (-18742.894) (-18749.339) [-18738.477] * (-18744.892) (-18742.990) [-18759.722] (-18750.788) -- 0:00:46
      980000 -- (-18748.005) [-18750.022] (-18749.797) (-18739.074) * (-18745.877) (-18752.961) (-18756.090) [-18744.632] -- 0:00:44

      Average standard deviation of split frequencies: 0.003418

      980500 -- (-18741.427) (-18752.524) [-18750.126] (-18744.403) * [-18753.041] (-18748.379) (-18756.000) (-18745.406) -- 0:00:43
      981000 -- (-18743.252) (-18748.807) (-18749.388) [-18752.771] * (-18754.261) (-18752.497) (-18753.483) [-18747.137] -- 0:00:42
      981500 -- (-18741.626) (-18748.433) (-18753.948) [-18748.990] * (-18754.735) (-18746.654) (-18746.336) [-18745.235] -- 0:00:41
      982000 -- (-18749.284) [-18745.045] (-18747.349) (-18751.435) * (-18742.671) [-18750.206] (-18755.056) (-18749.781) -- 0:00:40
      982500 -- (-18746.534) (-18743.441) (-18750.222) [-18740.875] * (-18744.318) (-18745.879) (-18757.145) [-18746.251] -- 0:00:39
      983000 -- (-18750.384) (-18741.458) (-18753.459) [-18754.575] * [-18748.880] (-18747.414) (-18752.575) (-18753.483) -- 0:00:38
      983500 -- (-18756.514) [-18739.799] (-18754.712) (-18745.547) * (-18745.601) [-18742.894] (-18744.536) (-18750.566) -- 0:00:37
      984000 -- (-18751.916) (-18747.730) [-18747.985] (-18747.110) * (-18744.842) [-18740.681] (-18745.769) (-18744.704) -- 0:00:35
      984500 -- (-18752.545) (-18749.987) (-18742.679) [-18747.709] * (-18755.555) (-18757.408) (-18751.031) [-18742.340] -- 0:00:34
      985000 -- (-18746.469) (-18750.851) (-18746.739) [-18744.745] * (-18750.914) [-18738.521] (-18753.278) (-18745.789) -- 0:00:33

      Average standard deviation of split frequencies: 0.003187

      985500 -- [-18748.451] (-18748.472) (-18746.918) (-18744.093) * [-18749.004] (-18749.145) (-18755.317) (-18750.930) -- 0:00:32
      986000 -- (-18742.684) [-18746.866] (-18747.671) (-18741.367) * (-18740.971) (-18756.385) [-18746.690] (-18753.189) -- 0:00:31
      986500 -- [-18745.820] (-18748.703) (-18754.818) (-18753.817) * (-18740.883) (-18751.052) [-18754.917] (-18755.852) -- 0:00:30
      987000 -- (-18742.880) [-18748.278] (-18746.151) (-18745.627) * (-18751.739) [-18752.059] (-18746.696) (-18754.568) -- 0:00:29
      987500 -- (-18748.833) (-18745.674) (-18742.989) [-18746.810] * [-18744.641] (-18746.419) (-18747.160) (-18741.810) -- 0:00:28
      988000 -- (-18756.239) (-18745.837) [-18738.339] (-18749.907) * [-18748.985] (-18755.870) (-18749.586) (-18745.643) -- 0:00:26
      988500 -- [-18750.308] (-18747.800) (-18744.017) (-18755.662) * (-18750.635) (-18747.906) (-18745.158) [-18751.759] -- 0:00:25
      989000 -- (-18748.985) [-18751.895] (-18745.991) (-18745.092) * (-18744.918) (-18755.109) (-18748.136) [-18746.193] -- 0:00:24
      989500 -- (-18750.184) (-18753.228) [-18746.888] (-18745.086) * [-18741.802] (-18741.848) (-18757.586) (-18754.855) -- 0:00:23
      990000 -- (-18742.073) [-18746.897] (-18739.693) (-18754.386) * [-18750.152] (-18748.507) (-18758.521) (-18742.257) -- 0:00:22

      Average standard deviation of split frequencies: 0.003172

      990500 -- (-18749.112) (-18743.367) (-18753.089) [-18743.971] * (-18748.300) (-18748.337) (-18755.993) [-18744.919] -- 0:00:21
      991000 -- (-18750.512) (-18746.867) [-18742.720] (-18741.696) * (-18743.649) [-18748.082] (-18749.903) (-18742.739) -- 0:00:20
      991500 -- (-18746.235) (-18738.765) (-18757.060) [-18738.730] * (-18745.599) (-18746.622) (-18748.508) [-18742.659] -- 0:00:19
      992000 -- (-18747.831) [-18749.142] (-18752.564) (-18740.268) * [-18750.933] (-18753.087) (-18746.219) (-18741.866) -- 0:00:17
      992500 -- (-18744.220) (-18745.570) (-18741.985) [-18746.666] * (-18750.683) (-18750.722) [-18742.709] (-18746.415) -- 0:00:16
      993000 -- (-18749.705) [-18750.131] (-18747.010) (-18753.946) * (-18743.806) (-18749.799) [-18749.292] (-18739.410) -- 0:00:15
      993500 -- (-18748.185) (-18748.912) [-18748.869] (-18743.198) * (-18743.486) [-18743.912] (-18749.572) (-18745.285) -- 0:00:14
      994000 -- (-18749.420) [-18742.607] (-18748.392) (-18746.319) * (-18750.132) [-18743.936] (-18743.184) (-18745.888) -- 0:00:13
      994500 -- (-18739.988) (-18748.016) [-18748.791] (-18748.535) * [-18742.141] (-18747.933) (-18745.333) (-18745.264) -- 0:00:12
      995000 -- (-18745.508) [-18745.054] (-18742.118) (-18754.116) * (-18754.260) (-18741.884) [-18740.274] (-18749.726) -- 0:00:11

      Average standard deviation of split frequencies: 0.003366

      995500 -- (-18754.162) (-18740.017) (-18742.989) [-18742.845] * (-18753.939) [-18748.841] (-18741.592) (-18757.801) -- 0:00:10
      996000 -- (-18751.159) [-18738.688] (-18743.694) (-18749.688) * (-18750.415) (-18749.777) [-18750.442] (-18756.826) -- 0:00:08
      996500 -- (-18747.002) (-18742.537) [-18741.662] (-18747.085) * [-18753.686] (-18756.417) (-18742.056) (-18751.249) -- 0:00:07
      997000 -- [-18751.577] (-18744.136) (-18747.011) (-18744.704) * (-18744.443) [-18756.285] (-18756.530) (-18743.875) -- 0:00:06
      997500 -- (-18753.063) [-18748.283] (-18756.566) (-18749.601) * (-18751.898) (-18745.473) [-18751.528] (-18758.052) -- 0:00:05
      998000 -- (-18753.016) (-18750.295) [-18750.177] (-18740.421) * (-18751.394) [-18745.708] (-18750.705) (-18748.282) -- 0:00:04
      998500 -- [-18747.539] (-18757.313) (-18750.082) (-18744.463) * (-18749.775) [-18746.567] (-18753.594) (-18749.966) -- 0:00:03
      999000 -- [-18740.484] (-18750.160) (-18750.099) (-18750.488) * (-18741.492) (-18745.327) (-18756.301) [-18744.661] -- 0:00:02
      999500 -- (-18746.898) (-18749.015) [-18756.347] (-18741.504) * (-18747.438) (-18739.316) (-18754.826) [-18748.387] -- 0:00:01
      1000000 -- (-18748.928) (-18744.974) [-18763.319] (-18749.885) * (-18747.263) (-18743.296) [-18748.680] (-18746.755) -- 0:00:00

      Average standard deviation of split frequencies: 0.003455
      Final log likelihoods and log prior probs for run 1 (stored and calculated):
         Chain 1 -- -18748.927566 -- 6.426363
         Chain 1 -- -18748.927538 -- 6.426363
         Chain 2 -- -18744.974071 -- 3.714571
         Chain 2 -- -18744.974071 -- 3.714571
         Chain 3 -- -18763.319328 -- 6.070607
         Chain 3 -- -18763.319230 -- 6.070607
         Chain 4 -- -18749.885498 -- 5.908466
         Chain 4 -- -18749.885515 -- 5.908466
      Final log likelihoods and log prior probs for run 2 (stored and calculated):
         Chain 1 -- -18747.262781 -- 4.553265
         Chain 1 -- -18747.262816 -- 4.553265
         Chain 2 -- -18743.295769 -- 9.591900
         Chain 2 -- -18743.295749 -- 9.591900
         Chain 3 -- -18748.680262 -- 5.640676
         Chain 3 -- -18748.680240 -- 5.640676
         Chain 4 -- -18746.754596 -- 1.898655
         Chain 4 -- -18746.754628 -- 1.898655

      Analysis completed in 37 mins 27 seconds
      Analysis used 2246.65 seconds of CPU time
      Likelihood of best state for "cold" chain of run 1 was -18732.77
      Likelihood of best state for "cold" chain of run 2 was -18732.77

      Acceptance rates for the moves in the "cold" chain of run 1:
         With prob.   (last 100)   chain accepted proposals by move
            20.0 %     ( 20 %)     Dirichlet(Revmat{all})
            30.1 %     ( 26 %)     Slider(Revmat{all})
             7.2 %     ( 17 %)     Dirichlet(Pi{all})
            20.1 %     ( 28 %)     Slider(Pi{all})
            24.1 %     ( 23 %)     Multiplier(Alpha{1,2})
            33.2 %     ( 32 %)     Multiplier(Alpha{3})
            29.0 %     ( 29 %)     Slider(Pinvar{all})
             9.6 %     (  9 %)     ExtSPR(Tau{all},V{all})
             1.3 %     (  0 %)     ExtTBR(Tau{all},V{all})
            11.8 %     ( 12 %)     NNI(Tau{all},V{all})
             8.5 %     ( 10 %)     ParsSPR(Tau{all},V{all})
            25.6 %     ( 33 %)     Multiplier(V{all})
            12.1 %     (  9 %)     Nodeslider(V{all})
            21.7 %     ( 22 %)     TLMultiplier(V{all})

      Acceptance rates for the moves in the "cold" chain of run 2:
         With prob.   (last 100)   chain accepted proposals by move
            19.7 %     ( 21 %)     Dirichlet(Revmat{all})
            29.5 %     ( 24 %)     Slider(Revmat{all})
             6.6 %     ( 17 %)     Dirichlet(Pi{all})
            20.5 %     ( 23 %)     Slider(Pi{all})
            24.5 %     ( 19 %)     Multiplier(Alpha{1,2})
            32.9 %     ( 29 %)     Multiplier(Alpha{3})
            28.7 %     ( 28 %)     Slider(Pinvar{all})
             9.7 %     ( 12 %)     ExtSPR(Tau{all},V{all})
             1.3 %     (  3 %)     ExtTBR(Tau{all},V{all})
            12.0 %     ( 13 %)     NNI(Tau{all},V{all})
             8.6 %     (  8 %)     ParsSPR(Tau{all},V{all})
            25.7 %     ( 22 %)     Multiplier(V{all})
            12.1 %     ( 13 %)     Nodeslider(V{all})
            22.0 %     ( 29 %)     TLMultiplier(V{all})

      Chain swap information for run 1:

                   1       2       3       4 
           ----------------------------------
         1 |            0.80    0.63    0.49 
         2 |  166955            0.81    0.65 
         3 |  166622  166011            0.83 
         4 |  166776  166719  166917         

      Chain swap information for run 2:

                   1       2       3       4 
           ----------------------------------
         1 |            0.80    0.63    0.49 
         2 |  166696            0.82    0.66 
         3 |  167317  166407            0.83 
         4 |  166761  166225  166594         

      Upper diagonal: Proportion of successful state exchanges between chains
      Lower diagonal: Number of attempted state exchanges between chains

      Chain information:

        ID -- Heat 
       -----------
         1 -- 1.00  (cold chain)
         2 -- 0.91 
         3 -- 0.83 
         4 -- 0.77 

      Heat = 1 / (1 + T * (ID - 1))
         (where T = 0.10 is the temperature and ID is the chain number)

      Setting burn-in to 2500
      Summarizing parameters in files /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p and /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p
      Writing summary statistics to file /opt/ADOPS/393/Skeletor-PE/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)

      +------------------------------------------------------------+ -18743.81
      |           1                   2              2             |
      | 2                                                          |
      |        2 2                       2     2 2        1        |
      |  21  2     *   1 2 1   2  1 1   1 2  2   1                 |
      |2                11  2  1 2        1   1   22   21 2   2    |
      |    111 11       2 2 11  2     12 1 1        *        1  1  |
      |  1    1 2          2  *   21       2  2 1 1   1  1 1  12   |
      |11        1  2 2   1  2       *      21       1212   1   22 |
      |     2 2     11 2        11             12        2 22  1 11|
      |    2                       2   1           1         2    2|
      |           2                                                |
      |   2                                 1                      |
      |                             2   2                          |
      |                                                            |
      |              21                                            |
      +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -18749.05
      ^                                                            ^
      250000                                                       1000000


      Estimated marginal likelihoods for runs sampled in files
         "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
         (Use the harmonic mean for Bayes factor comparisons of models)

         (Values are saved to the file /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

      Run   Arithmetic mean   Harmonic mean
      --------------------------------------
        1     -18740.41        -18757.48
        2     -18740.90        -18756.96
      --------------------------------------
      TOTAL   -18740.63        -18757.25
      --------------------------------------


      Model parameter summaries over the runs sampled in files
         "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
         Summaries are based on a total of 3002 samples from 2 runs.
         Each run produced 2001 samples of which 1501 samples were included.
         Parameter summaries saved to file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

                                                95% HPD Interval
                                              --------------------
      Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+ 
      ------------------------------------------------------------------------------------------------------
      TL{all}         1.383297    0.002277    1.291807    1.476400    1.381619   1272.88   1386.94    1.000
      r(A<->C){all}   0.099684    0.000056    0.085038    0.113805    0.099584   1004.75   1060.81    1.000
      r(A<->G){all}   0.250728    0.000149    0.226346    0.273566    0.250559    911.86    915.63    1.001
      r(A<->T){all}   0.143850    0.000120    0.123215    0.165404    0.143800    842.82    878.50    1.002
      r(C<->G){all}   0.064250    0.000026    0.054836    0.074408    0.064087    826.29   1017.93    1.000
      r(C<->T){all}   0.368557    0.000204    0.341391    0.396482    0.368358    681.61    787.11    1.002
      r(G<->T){all}   0.072931    0.000054    0.058334    0.086670    0.072887   1000.75   1096.42    1.003
      pi(A){all}      0.225722    0.000030    0.214834    0.236181    0.225879    822.08    896.96    1.002
      pi(C){all}      0.325935    0.000039    0.314792    0.338906    0.325817    878.31    994.87    1.000
      pi(G){all}      0.267179    0.000035    0.255376    0.278501    0.267018   1115.21   1126.46    1.000
      pi(T){all}      0.181164    0.000023    0.172089    0.190476    0.181245    845.60    868.36    1.005
      alpha{1,2}      0.167470    0.000068    0.151483    0.183911    0.166947   1222.92   1355.64    1.000
      alpha{3}        6.429207    1.349668    4.369078    8.768751    6.312852   1336.63   1349.90    1.000
      pinvar{all}     0.308207    0.000316    0.274348    0.342687    0.308336   1404.53   1429.63    1.000
      ------------------------------------------------------------------------------------------------------
      * Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
        correspond to minimal and average ESS among runs. 
        ESS value below 100 may indicate that the parameter is undersampled. 
      + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
        and Rubin, 1992) should approach 1.0 as runs converge.


   Setting sumt conformat to Simple
   Setting urn-in to 2500
   Summarizing trees in files "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.t"
   Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees
   Writing statistics to files /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.<parts|tstat|vstat|trprobs|con>
   Examining first file ...
   Found one tree block in file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" with 2001 trees in last block
   Expecting the same number of trees in the last tree block of all files

   Tree reading status:

   0      10      20      30      40      50      60      70      80      90     100
   v-------v-------v-------v-------v-------v-------v-------v-------v-------v-------v
   *********************************************************************************

   Read a total of 4002 trees in 2 files (sampling 3002 of them)
      (Each file contained 2001 trees of which 1501 were sampled)
                                                                                   
   General explanation:                                                          
                                                                                   
   In an unrooted tree, a taxon bipartition (split) is specified by removing a   
   branch, thereby dividing the species into those to the left and those to the  
   right of the branch. Here, taxa to one side of the removed branch are denoted 
   '.' and those to the other side are denoted '*'. Specifically, the '.' symbol 
   is used for the taxa on the same side as the outgroup.                        
                                                                                   
   In a rooted or clock tree, the tree is rooted using the model and not by      
   reference to an outgroup. Each bipartition therefore corresponds to a clade,  
   that is, a group that includes all the descendants of a particular branch in  
   the tree.  Taxa that are included in each clade are denoted using '*', and    
   taxa that are not included are denoted using the '.' symbol.                  
                                                                                   
   The output first includes a key to all the bipartitions with frequency larger 
   or equual to (Minpartfreq) in at least one run. Minpartfreq is a paramiter to 
   sumt command and currently it is set to 0.10.  This is followed by a table  
   with statistics for the informative bipartitions (those including at least    
   two taxa), sorted from highest to lowest probability. For each bipartition,   
   the table gives the number of times the partition or split was observed in all
   runs (#obs) and the posterior probability of the bipartition (Probab.), which 
   is the same as the split frequency. If several runs are summarized, this is   
   followed by the minimum split frequency (Min(s)), the maximum frequency       
   (Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs.  
   The latter value should approach 0 for all bipartitions as MCMC runs converge.
                                                                                   
   This is followed by a table summarizing branch lengths, node heights (if a    
   clock model was used) and relaxed clock parameters (if a relaxed clock model  
   was used). The mean, variance, and 95 % credible interval are given for each 
   of these parameters. If several runs are summarized, the potential scale      
   reduction factor (PSRF) is also given; it should approach 1 as runs converge. 
   Node heights will take calibration points into account, if such points were   
   used in the analysis.                                                         
                                                                                 
   Note that Stddev may be unreliable if the partition is not present in all     
   runs (the last column indicates the number of runs that sampled the partition 
   if more than one run is summarized). The PSRF is not calculated at all if     
   the partition is not present in all runs.The PSRF is also sensitive to small  
   sample sizes and it should only be considered a rough guide to convergence    
   since some of the assumptions allowing one to interpret it as a true potential
   scale reduction factor are violated in MrBayes.                               
                                                                                 
   List of taxa in bipartitions:                                                 
                                                                                   
      1 -- C1
      2 -- C2
      3 -- C3
      4 -- C4
      5 -- C5
      6 -- C6
      7 -- C7
      8 -- C8
      9 -- C9
     10 -- C10

   Key to taxon bipartitions (saved to file "/opt/ADOPS/393/Skeletor-PE/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 -- ....**.***
   ----------------

   Summary statistics for informative taxon bipartitions
      (saved to file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.tstat"):

   ID   #obs    Probab.     Sd(s)+      Min(s)      Max(s)   Nruns 
   ----------------------------------------------------------------
   11  3002    1.000000    0.000000    1.000000    1.000000    2
   12  3002    1.000000    0.000000    1.000000    1.000000    2
   13  3002    1.000000    0.000000    1.000000    1.000000    2
   14  3002    1.000000    0.000000    1.000000    1.000000    2
   15  3002    1.000000    0.000000    1.000000    1.000000    2
   16  2935    0.977682    0.001413    0.976682    0.978681    2
   17  1143    0.380746    0.010835    0.373085    0.388408    2
   18  1014    0.337775    0.004711    0.334444    0.341106    2
   19   782    0.260493    0.014133    0.250500    0.270486    2
   ----------------------------------------------------------------
   + Convergence diagnostic (standard deviation of split frequencies)
     should approach 0.0 as runs converge.


   Summary statistics for branch and node parameters
      (saved to file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.vstat"):

                                                95% HPD Interval
                                              --------------------
   Parameter           Mean       Variance     Lower       Upper       Median     PSRF+  Nruns
   -------------------------------------------------------------------------------------------
   length{all}[1]     0.030661    0.000015    0.022784    0.037767    0.030544    1.000    2
   length{all}[2]     0.028509    0.000014    0.021078    0.035407    0.028395    1.000    2
   length{all}[3]     0.045800    0.000025    0.035784    0.054904    0.045771    1.000    2
   length{all}[4]     0.054759    0.000033    0.043721    0.065962    0.054400    1.000    2
   length{all}[5]     0.114024    0.000101    0.095337    0.134593    0.113837    1.000    2
   length{all}[6]     0.125374    0.000112    0.105011    0.146334    0.125085    1.000    2
   length{all}[7]     0.194278    0.000182    0.167315    0.218925    0.193843    1.000    2
   length{all}[8]     0.262142    0.000300    0.229902    0.298472    0.261615    1.000    2
   length{all}[9]     0.073180    0.000061    0.058118    0.088283    0.072754    1.000    2
   length{all}[10]    0.098692    0.000075    0.081557    0.115552    0.098583    1.000    2
   length{all}[11]    0.013544    0.000013    0.006785    0.020651    0.013332    1.002    2
   length{all}[12]    0.036178    0.000026    0.026927    0.046907    0.035941    1.000    2
   length{all}[13]    0.054422    0.000063    0.039116    0.069478    0.054066    1.000    2
   length{all}[14]    0.150107    0.000151    0.126568    0.173948    0.150070    1.000    2
   length{all}[15]    0.070899    0.000089    0.052978    0.089862    0.070599    1.000    2
   length{all}[16]    0.024883    0.000046    0.012248    0.038467    0.024522    1.000    2
   length{all}[17]    0.006481    0.000020    0.000035    0.014276    0.005746    1.001    2
   length{all}[18]    0.005713    0.000015    0.000023    0.013259    0.005019    0.999    2
   length{all}[19]    0.005215    0.000015    0.000001    0.012673    0.004354    1.000    2
   -------------------------------------------------------------------------------------------
   + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
     and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when
     deviation of parameter values within all runs is 0 or when a parameter
     value (a branch length, for instance) is not sampled in all runs.


   Summary statistics for partitions with frequency >= 0.10 in at least one run:
       Average standard deviation of split frequencies = 0.003455
       Maximum standard deviation of split frequencies = 0.014133
       Average PSRF for parameter values ( excluding NA and >10.0 ) = 1.000
       Maximum PSRF for parameter values = 1.002


   Clade credibility values:

   /---------------------------------------------------------------------- C1 (1)
   |                                                                               
   |---------------------------------------------------------------------- C2 (2)
   |                                                                               
   |                                                       /-------------- C3 (3)
   +             /-------------------100-------------------+                       
   |             |                                         \-------------- C4 (4)
   |             |                                                                 
   |             |                                         /-------------- C5 (5)
   \-----100-----+             /------------100------------+                       
                 |             |                           \-------------- C6 (6)
                 |             |                                                   
                 |             |------------------------------------------ C7 (7)
                 \-----100-----+                                                   
                               |             /---------------------------- C8 (8)
                               |             |                                     
                               \------98-----+             /-------------- C9 (9)
                                             \-----100-----+                       
                                                           \-------------- C10 (10)
                                                                                   

   Phylogram (based on average branch lengths):

   /----- C1 (1)
   |                                                                               
   |---- C2 (2)
   |                                                                               
   |       /------ C3 (3)
   +    /--+                                                                       
   |    |  \-------- C4 (4)
   |    |                                                                          
   |    |                               /----------------- C5 (5)
   \----+                      /--------+                                          
        |                      |        \------------------- C6 (6)
        |                      |                                                   
        |                      |------------------------------ C7 (7)
        \----------------------+                                                   
                               |   /---------------------------------------- C8 (8)
                               |   |                                               
                               \---+          /----------- C9 (9)
                                   \----------+                                    
                                              \--------------- C10 (10)
                                                                                   
   |--------------| 0.100 expected changes per site

   Calculating tree probabilities...

   Credible sets of trees (9 trees sampled):
      50 % credible set contains 2 trees
      90 % credible set contains 3 trees
      95 % credible set contains 3 trees
      99 % credible set contains 4 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 4.8, March 2014

----------------------------------------------
Phe F TTT | Ser S TCT | Tyr Y TAT | Cys C TGT
      TTC |       TCC |       TAC |       TGC
Leu L TTA |       TCA | *** * TAA | *** * TGA
      TTG |       TCG |       TAG | Trp W TGG
----------------------------------------------
Leu L CTT | Pro P CCT | His H CAT | Arg R CGT
      CTC |       CCC |       CAC |       CGC
      CTA |       CCA | Gln Q CAA |       CGA
      CTG |       CCG |       CAG |       CGG
----------------------------------------------
Ile I ATT | Thr T ACT | Asn N AAT | Ser S AGT
      ATC |       ACC |       AAC |       AGC
      ATA |       ACA | Lys K AAA | Arg R AGA
Met M ATG |       ACG |       AAG |       AGG
----------------------------------------------
Val V GTT | Ala A GCT | Asp D GAT | Gly G GGT
      GTC |       GCC |       GAC |       GGC
      GTA |       GCA | Glu E GAA |       GGA
      GTG |       GCG |       GAG |       GGG
----------------------------------------------
Nice code, uuh?
NSsites batch run (ncatG as in YNGP2000):   0  1  2  3  7  8

seq file is not paml/phylip format.  Trying nexus format.
ns = 10  	ls = 4770
Reading sequences, sequential format..
Reading seq # 1: C1     
Reading seq # 2: C2     
Reading seq # 3: C3     
Reading seq # 4: C4     
Reading seq # 5: C5     
Reading seq # 6: C6     
Reading seq # 7: C7     
Reading seq # 8: C8     
Reading seq # 9: C9     
Reading seq #10: C10     
Sites with gaps or missing data are removed.

   261 ambiguity characters in seq. 1
   252 ambiguity characters in seq. 2
   225 ambiguity characters in seq. 3
   225 ambiguity characters in seq. 4
   198 ambiguity characters in seq. 5
   192 ambiguity characters in seq. 6
   231 ambiguity characters in seq. 7
   207 ambiguity characters in seq. 8
   252 ambiguity characters in seq. 9
   225 ambiguity characters in seq. 10
130 sites are removed.  458 459 460 730 731 748 749 753 754 755 835 840 841 842 843 844 847 848 849 850 851 852 866 880 881 882 892 893 894 895 896 897 898 899 900 901 902 903 923 924 925 926 932 949 950 953 954 1025 1026 1027 1028 1029 1030 1031 1032 1038 1083 1084 1085 1086 1087 1127 1129 1130 1137 1138 1139 1140 1143 1144 1145 1265 1266 1316 1318 1319 1320 1325 1326 1327 1343 1350 1432 1436 1483 1484 1485 1486 1495 1496 1497 1498 1499 1509 1510 1511 1516 1523 1536 1537 1538 1539 1540 1541 1542 1543 1544 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590
codon     325: AGC AGC AGC AGC AGC TCC AGC AGC AGC AGC 
Sequences read..
Counting site patterns..  0:00

        1013 patterns at     1460 /     1460 sites (100.0%),  0:00
Counting codons..


      360 bytes for distance
   988688 bytes for conP
   137768 bytes for fhK
  5000000 bytes for space


Model 0: one-ratio

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
  3460408 bytes for conP, adjusted

    0.045973    0.050307    0.077051    0.000000    0.075323    0.089714    0.172276    0.061842    0.164798    0.155100    0.280370    0.021268    0.320233    0.081417    0.109349    0.136120    0.300000    1.300000

ntime & nrate & np:    16     2    18

Bounds (np=18):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100   0.000100
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000 999.000000

np =    18
lnL0 = -20317.520811

Iterating by ming2
Initial: fx= 20317.520811
x=  0.04597  0.05031  0.07705  0.00000  0.07532  0.08971  0.17228  0.06184  0.16480  0.15510  0.28037  0.02127  0.32023  0.08142  0.10935  0.13612  0.30000  1.30000

  1 h-m-p  0.0000 0.0011 23671.7797 YYCYCCC 20250.474713  6 0.0000    32 | 0/18
  2 h-m-p  0.0000 0.0002 3565.1025 ++CYYYYC 19164.782410  5 0.0002    61 | 0/18
  3 h-m-p  0.0000 0.0001 19861.9045 +YYYCYYYCCC 17840.983818  9 0.0001    96 | 0/18
  4 h-m-p  0.0000 0.0000 2743.2562 CYCCCC 17815.796552  5 0.0000   126 | 0/18
  5 h-m-p  0.0000 0.0001 2503.1332 +CCC  17740.416479  2 0.0001   152 | 0/18
  6 h-m-p  0.0001 0.0005 1079.9201 +YCYCCC 17633.937881  5 0.0003   182 | 0/18
  7 h-m-p  0.0000 0.0001 2354.4211 +YYCCCC 17573.163972  5 0.0001   212 | 0/18
  8 h-m-p  0.0000 0.0002 1855.8595 ++    17428.244861  m 0.0002   233 | 0/18
  9 h-m-p  0.0000 0.0000 15560.2973 YCCCC 17416.519223  4 0.0000   261 | 0/18
 10 h-m-p  0.0000 0.0001 1094.6564 YCCCC 17408.445090  4 0.0000   289 | 0/18
 11 h-m-p  0.0002 0.0008 128.6078 CCC   17407.956890  2 0.0001   314 | 0/18
 12 h-m-p  0.0002 0.0123  46.5781 YC    17407.577708  1 0.0003   336 | 0/18
 13 h-m-p  0.0002 0.0119  67.4311 YCC   17407.347361  2 0.0002   360 | 0/18
 14 h-m-p  0.0002 0.0072  43.1698 YC    17407.192095  1 0.0002   382 | 0/18
 15 h-m-p  0.0004 0.0234  20.8573 YC    17406.672780  1 0.0008   404 | 0/18
 16 h-m-p  0.0006 0.0130  29.1930 YCCC  17404.199257  3 0.0012   430 | 0/18
 17 h-m-p  0.0009 0.0090  37.3236 +YYCC 17369.571276  3 0.0032   456 | 0/18
 18 h-m-p  0.0003 0.0017 377.4113 CCCC  17319.127452  3 0.0005   483 | 0/18
 19 h-m-p  0.0014 0.0068  37.3485 YC    17318.935381  1 0.0002   505 | 0/18
 20 h-m-p  0.0197 1.0242   0.4577 ++CYCCC 17228.820915  4 0.6438   536 | 0/18
 21 h-m-p  0.4404 2.2022   0.5201 ++    16989.286141  m 2.2022   575 | 0/18
 22 h-m-p  0.0775 0.3877   2.9322 +YYCCCC 16870.484682  5 0.2586   623 | 0/18
 23 h-m-p  0.2990 1.4952   0.2302 YCCCC 16806.240587  4 0.7714   651 | 0/18
 24 h-m-p  0.2207 1.4151   0.8046 CYCC  16777.288328  3 0.2856   695 | 0/18
 25 h-m-p  0.3960 1.9798   0.0749 YCCCCC 16758.707013  5 0.8341   743 | 0/18
 26 h-m-p  0.8093 4.0465   0.0729 CCCC  16736.999399  3 1.1074   788 | 0/18
 27 h-m-p  1.1039 5.9991   0.0732 CCCC  16724.915637  3 1.6701   833 | 0/18
 28 h-m-p  1.6000 8.0000   0.0319 CYC   16719.791060  2 1.7759   875 | 0/18
 29 h-m-p  1.1898 8.0000   0.0476 +CCC  16713.451824  2 3.9693   919 | 0/18
 30 h-m-p  1.6000 8.0000   0.0536 CCC   16710.916955  2 1.3971   962 | 0/18
 31 h-m-p  1.6000 8.0000   0.0187 YCC   16710.334505  2 1.0939  1004 | 0/18
 32 h-m-p  1.6000 8.0000   0.0087 CC    16710.205988  1 1.3336  1045 | 0/18
 33 h-m-p  1.6000 8.0000   0.0026 CC    16710.104735  1 2.2041  1086 | 0/18
 34 h-m-p  1.6000 8.0000   0.0034 CC    16710.017630  1 2.1547  1127 | 0/18
 35 h-m-p  1.6000 8.0000   0.0039 YC    16709.921727  1 3.0614  1167 | 0/18
 36 h-m-p  1.6000 8.0000   0.0024 YC    16709.846500  1 2.7369  1207 | 0/18
 37 h-m-p  1.6000 8.0000   0.0015 CC    16709.819913  1 1.7958  1248 | 0/18
 38 h-m-p  1.4718 8.0000   0.0019 C     16709.817962  0 1.6816  1287 | 0/18
 39 h-m-p  1.6000 8.0000   0.0003 +YC   16709.816125  1 4.1523  1328 | 0/18
 40 h-m-p  1.6000 8.0000   0.0002 YC    16709.813085  1 3.8308  1368 | 0/18
 41 h-m-p  0.8284 8.0000   0.0008 Y     16709.812602  0 1.8072  1407 | 0/18
 42 h-m-p  1.6000 8.0000   0.0001 C     16709.812567  0 1.4815  1446 | 0/18
 43 h-m-p  1.6000 8.0000   0.0000 C     16709.812565  0 1.3401  1485 | 0/18
 44 h-m-p  1.6000 8.0000   0.0000 C     16709.812565  0 1.6000  1524 | 0/18
 45 h-m-p  1.6000 8.0000   0.0000 -Y    16709.812565  0 0.1000  1564 | 0/18
 46 h-m-p  0.0169 8.0000   0.0000 -------------..  | 0/18
 47 h-m-p  0.0160 8.0000   0.0095 ------------- | 0/18
 48 h-m-p  0.0160 8.0000   0.0095 -------------
Out..
lnL  = -16709.812565
1715 lfun, 1715 eigenQcodon, 27440 P(t)

Time used:  0:37


Model 1: NearlyNeutral

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
    0.049488    0.051699    0.076283    0.000000    0.074789    0.087837    0.174560    0.060928    0.163603    0.161092    0.285481    0.021335    0.330636    0.082846    0.111605    0.135147    1.984278    0.816750    0.136540

ntime & nrate & np:    16     2    19

Bounds (np=19):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100   0.000010   0.000001
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000   0.999990   1.000000
Qfactor_NS = 10.010598

np =    19
lnL0 = -16939.158433

Iterating by ming2
Initial: fx= 16939.158433
x=  0.04949  0.05170  0.07628  0.00000  0.07479  0.08784  0.17456  0.06093  0.16360  0.16109  0.28548  0.02134  0.33064  0.08285  0.11160  0.13515  1.98428  0.81675  0.13654

  1 h-m-p  0.0000 0.0000 5153.9715 +YYYCYCCCC 16547.990740  8 0.0000    56 | 0/19
  2 h-m-p  0.0000 0.0000 1204.3260 CYCCC 16538.072787  4 0.0000   104 | 0/19
  3 h-m-p  0.0000 0.0001 1682.5152 +YYCC 16513.948274  3 0.0000   150 | 0/19
  4 h-m-p  0.0001 0.0004 244.4931 CCCC  16511.276454  3 0.0001   197 | 0/19
  5 h-m-p  0.0001 0.0025 161.9756 YCC   16510.314660  2 0.0001   241 | 0/19
  6 h-m-p  0.0001 0.0023 147.1009 CCC   16509.750407  2 0.0001   286 | 0/19
  7 h-m-p  0.0004 0.0195  34.6273 YC    16509.636817  1 0.0002   328 | 0/19
  8 h-m-p  0.0003 0.0165  29.3365 CC    16509.538782  1 0.0003   371 | 0/19
  9 h-m-p  0.0002 0.0103  53.1606 CC    16509.449006  1 0.0002   414 | 0/19
 10 h-m-p  0.0002 0.0070  56.1303 CC    16509.353010  1 0.0002   457 | 0/19
 11 h-m-p  0.0001 0.0079 111.9608 +YC   16509.108669  1 0.0003   500 | 0/19
 12 h-m-p  0.0002 0.0115 150.0219 CC    16508.763566  1 0.0003   543 | 0/19
 13 h-m-p  0.0006 0.0089  84.2594 CC    16508.662058  1 0.0002   586 | 0/19
 14 h-m-p  0.0021 0.0214   7.3220 YC    16508.650993  1 0.0003   628 | 0/19
 15 h-m-p  0.0011 0.1376   2.0418 +YC   16508.561357  1 0.0031   671 | 0/19
 16 h-m-p  0.0012 0.0671   5.1111 +YCCC 16504.678903  3 0.0093   718 | 0/19
 17 h-m-p  0.0004 0.0021  59.1731 YCCCC 16488.093335  4 0.0011   766 | 0/19
 18 h-m-p  0.0000 0.0002 315.6645 +YYCCCC 16469.706232  5 0.0002   816 | 0/19
 19 h-m-p  0.0002 0.0011  80.6261 YCC   16469.135393  2 0.0002   860 | 0/19
 20 h-m-p  0.0038 0.0621   3.6108 -YC   16469.128239  1 0.0005   903 | 0/19
 21 h-m-p  0.0142 7.1220   0.2007 ++CCCC 16462.280311  3 0.3312   952 | 0/19
 22 h-m-p  0.7637 3.8184   0.0189 YYC   16461.956383  2 0.5905   995 | 0/19
 23 h-m-p  1.6000 8.0000   0.0033 YC    16461.943449  1 0.9315  1037 | 0/19
 24 h-m-p  1.6000 8.0000   0.0003 Y     16461.942593  0 1.1595  1078 | 0/19
 25 h-m-p  1.6000 8.0000   0.0002 Y     16461.942579  0 0.9549  1119 | 0/19
 26 h-m-p  1.6000 8.0000   0.0000 Y     16461.942579  0 1.0753  1160 | 0/19
 27 h-m-p  1.6000 8.0000   0.0000 C     16461.942579  0 1.6000  1201 | 0/19
 28 h-m-p  1.6000 8.0000   0.0000 C     16461.942579  0 1.6000  1242 | 0/19
 29 h-m-p  1.6000 8.0000   0.0000 -------------Y 16461.942579  0 0.0000  1296
Out..
lnL  = -16461.942579
1297 lfun, 3891 eigenQcodon, 41504 P(t)

Time used:  1:34


Model 2: PositiveSelection

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
initial w for M2:NSpselection reset.

    0.048629    0.052024    0.075888    0.000000    0.074038    0.089490    0.176911    0.061236    0.166610    0.160690    0.289136    0.020699    0.333853    0.084597    0.113617    0.138245    2.054422    1.098208    0.580294    0.458835    2.948231

ntime & nrate & np:    16     3    21

Bounds (np=21):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100 -99.000000 -99.000000   0.000001   1.000000
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000  99.000000  99.000000   1.000000 999.000000
Qfactor_NS = 4.423195

np =    21
lnL0 = -18238.377728

Iterating by ming2
Initial: fx= 18238.377728
x=  0.04863  0.05202  0.07589  0.00000  0.07404  0.08949  0.17691  0.06124  0.16661  0.16069  0.28914  0.02070  0.33385  0.08460  0.11362  0.13824  2.05442  1.09821  0.58029  0.45883  2.94823

  1 h-m-p  0.0000 0.0003 5888.5623 +Y

a     0.000010     0.000040     0.000160     0.000089
f 18147.331510 18128.892004 18141.782578 18153.363140
	1.000000e-05 	18147.331510
	1.750000e-05 	18133.679116
	2.500000e-05 	18128.393264
	3.250000e-05 	18127.400732
	4.000000e-05 	18128.892004
	4.750000e-05 	18131.854089
	5.500000e-05 	18135.642342
	6.250000e-05 	18139.811294
	7.000000e-05 	18144.034889
	7.750000e-05 	18148.064178
	8.500000e-05 	18151.702905
	9.250000e-05 	18154.792486
	1.000000e-04 	18157.202296
	1.075000e-04 	18158.823127
	1.150000e-04 	18159.562638
	1.225000e-04 	18159.342101
	1.300000e-04 	18158.094026
	1.375000e-04 	18155.760395
	1.450000e-04 	18152.291341
	1.525000e-04 	18147.644161
	1.600000e-04 	18141.782578
Linesearch2 a4: multiple optima?
CYCCC 18127.357945  5 0.0000    77 | 0/21
  2 h-m-p  0.0000 0.0002 2056.4055 ++    17079.611341  m 0.0002   122 | 1/21
  3 h-m-p  0.0001 0.0029 3221.4100 CCCC  16925.471398  3 0.0001   173 | 0/21
  4 h-m-p  0.0000 0.0000 485657.9949 YCCCCC 16842.176403  5 0.0000   226 | 0/21
  5 h-m-p  0.0002 0.0008 418.1854 +YYCCC 16786.613865  4 0.0006   278 | 0/21
  6 h-m-p  0.0009 0.0045 226.6549 YCCC  16774.670247  3 0.0006   328 | 0/21
  7 h-m-p  0.0005 0.0030 265.7444 CCCC  16759.959456  3 0.0008   379 | 0/21
  8 h-m-p  0.0010 0.0050 137.0876 CYC   16753.868346  2 0.0010   427 | 0/21
  9 h-m-p  0.0011 0.0166 123.9745 YCCC  16745.731695  3 0.0018   477 | 0/21
 10 h-m-p  0.0010 0.0122 233.5851 +CYC  16716.391174  2 0.0036   526 | 0/21
 11 h-m-p  0.0009 0.0047 503.3400 YCC   16687.182543  2 0.0018   574 | 0/21
 12 h-m-p  0.0004 0.0018 817.5100 CCCC  16670.958354  3 0.0006   625 | 0/21
 13 h-m-p  0.0005 0.0023 284.5405 YCCC  16663.476463  3 0.0008   675 | 0/21
 14 h-m-p  0.0018 0.0088  87.8305 YCCC  16657.655617  3 0.0029   725 | 0/21
 15 h-m-p  0.0016 0.0082 130.0593 YCCC  16648.652965  3 0.0036   775 | 0/21
 16 h-m-p  0.0013 0.0063 142.5933 CC    16645.987184  1 0.0011   822 | 0/21
 17 h-m-p  0.0016 0.0079  64.9269 CC    16644.764147  1 0.0015   869 | 0/21
 18 h-m-p  0.0038 0.0768  25.5104 +YC   16641.997482  1 0.0112   916 | 0/21
 19 h-m-p  0.0035 0.0679  81.6179 CCC   16638.696417  2 0.0043   965 | 0/21
 20 h-m-p  0.0216 0.1079  15.1385 -YC   16638.454056  1 0.0024  1012 | 0/21
 21 h-m-p  0.0126 0.3613   2.9131 YC    16637.721584  1 0.0258  1058 | 0/21
 22 h-m-p  0.0026 0.1060  28.3556 +CCCC 16632.527770  3 0.0149  1110 | 0/21
 23 h-m-p  0.0437 0.2186   8.8608 YCCCCC 16592.610160  5 0.0925  1164 | 0/21
 24 h-m-p  0.7955 4.3095   1.0307 YCYCCC 16544.552521  5 2.1022  1217 | 0/21
 25 h-m-p  0.4649 2.3245   1.5621 CYCCCC 16519.078888  5 0.7017  1271 | 0/21
 26 h-m-p  0.4401 2.3739   2.4905 YCCC  16510.904819  3 0.2701  1321 | 0/21
 27 h-m-p  0.4389 2.1943   1.0883 CCCCC 16500.962342  4 0.5944  1374 | 0/21
 28 h-m-p  0.3574 4.2086   1.8101 +YCCC 16484.667004  3 0.9214  1425 | 0/21
 29 h-m-p  0.3603 1.8013   2.4831 CCCCC 16475.738650  4 0.4679  1478 | 0/21
 30 h-m-p  0.7260 5.0712   1.6004 YCCC  16471.898979  3 0.4314  1528 | 0/21
 31 h-m-p  0.5323 4.8790   1.2969 CC    16469.984539  1 0.5330  1575 | 0/21
 32 h-m-p  0.4257 5.4227   1.6238 CCCC  16468.291733  3 0.5262  1626 | 0/21
 33 h-m-p  0.7396 8.0000   1.1553 YCC   16467.345681  2 0.4514  1674 | 0/21
 34 h-m-p  0.6591 8.0000   0.7912 YCC   16467.000198  2 0.5306  1722 | 0/21
 35 h-m-p  0.5123 8.0000   0.8196 CY    16466.766274  1 0.4922  1769 | 0/21
 36 h-m-p  0.5539 8.0000   0.7283 CC    16466.586739  1 0.4735  1816 | 0/21
 37 h-m-p  0.4496 8.0000   0.7671 YC    16466.243322  1 0.8140  1862 | 0/21
 38 h-m-p  0.7228 8.0000   0.8638 CCC   16465.929474  2 0.6056  1911 | 0/21
 39 h-m-p  0.3200 8.0000   1.6348 +YCC  16465.020781  2 0.8463  1960 | 0/21
 40 h-m-p  0.3436 7.3412   4.0270 CCCC  16463.904375  3 0.4588  2011 | 0/21
 41 h-m-p  0.5573 5.7253   3.3150 YCC   16463.112327  2 0.3730  2059 | 0/21
 42 h-m-p  0.6201 4.8876   1.9940 YYC   16462.720658  2 0.5121  2106 | 0/21
 43 h-m-p  1.2708 8.0000   0.8035 C     16462.621270  0 0.3305  2151 | 0/21
 44 h-m-p  0.2800 8.0000   0.9483 YC    16462.512311  1 0.6600  2197 | 0/21
 45 h-m-p  0.4284 8.0000   1.4610 CC    16462.419681  1 0.6526  2244 | 0/21
 46 h-m-p  0.4975 8.0000   1.9165 C     16462.340688  0 0.5111  2289 | 0/21
 47 h-m-p  0.3353 8.0000   2.9215 YC    16462.223314  1 0.5374  2335 | 0/21
 48 h-m-p  0.6251 8.0000   2.5114 CC    16462.131237  1 0.5329  2382 | 0/21
 49 h-m-p  0.6942 8.0000   1.9281 CY    16462.062274  1 0.7630  2429 | 0/21
 50 h-m-p  0.9356 8.0000   1.5722 YC    16462.041772  1 0.5867  2475 | 0/21
 51 h-m-p  0.2249 8.0000   4.1013 +YC   16461.991235  1 0.7041  2522 | 0/21
 52 h-m-p  1.6000 8.0000   1.3525 C     16461.968769  0 1.6000  2567 | 0/21
 53 h-m-p  0.7827 8.0000   2.7647 C     16461.959387  0 0.7096  2612 | 0/21
 54 h-m-p  1.0633 8.0000   1.8452 YC    16461.950503  1 1.7361  2658 | 0/21
 55 h-m-p  1.6000 8.0000   1.5326 C     16461.946061  0 2.0586  2703 | 0/21
 56 h-m-p  1.6000 8.0000   1.3654 C     16461.944196  0 2.1799  2748 | 0/21
 57 h-m-p  1.6000 8.0000   1.4835 C     16461.943309  0 2.1879  2793 | 0/21
 58 h-m-p  1.6000 8.0000   1.4487 C     16461.942908  0 2.1461  2838 | 0/21
 59 h-m-p  1.6000 8.0000   1.5216 C     16461.942738  0 1.9334  2883 | 0/21
 60 h-m-p  1.6000 8.0000   1.5620 C     16461.942657  0 1.7837  2928 | 0/21
 61 h-m-p  1.6000 8.0000   1.5876 C     16461.942612  0 2.1789  2973 | 0/21
 62 h-m-p  1.6000 8.0000   1.4627 C     16461.942593  0 2.2357  3018 | 0/21
 63 h-m-p  1.6000 8.0000   1.5235 C     16461.942585  0 2.5271  3063 | 0/21
 64 h-m-p  1.6000 8.0000   1.3109 C     16461.942582  0 1.9442  3108 | 0/21
 65 h-m-p  1.3650 8.0000   1.8672 +Y    16461.942580  0 3.4448  3154 | 0/21
 66 h-m-p  1.6000 8.0000   2.8853 C     16461.942579  0 1.5629  3199 | 0/21
 67 h-m-p  0.0070 0.4700 643.4765 --------C 16461.942579  0 0.0000  3252 | 0/21
 68 h-m-p  0.0784 8.0000   0.0002 -----C 16461.942579  0 0.0000  3302 | 0/21
 69 h-m-p  0.0160 8.0000   0.0019 C     16461.942579  0 0.0160  3347 | 0/21
 70 h-m-p  0.1074 8.0000   0.0003 ------C 16461.942579  0 0.0000  3398 | 0/21
 71 h-m-p  0.0160 8.0000   0.0031 -------------..  | 0/21
 72 h-m-p  0.0092 4.6177   0.0236 ---Y  16461.942579  0 0.0000  3502 | 0/21
 73 h-m-p  0.0034 1.7214   0.0749 ---C  16461.942579  0 0.0000  3550 | 0/21
 74 h-m-p  0.0160 8.0000   0.0176 ---C  16461.942579  0 0.0001  3598 | 0/21
 75 h-m-p  0.0160 8.0000   0.0074 ---Y  16461.942579  0 0.0001  3646 | 0/21
 76 h-m-p  0.0160 8.0000   0.0053 ----Y 16461.942579  0 0.0000  3695 | 0/21
 77 h-m-p  0.0160 8.0000   0.0033 --------C 16461.942579  0 0.0000  3748 | 0/21
 78 h-m-p  0.0160 8.0000   0.0022 -------------..  | 0/21
 79 h-m-p  0.0160 8.0000   0.0086 ------Y 16461.942579  0 0.0000  3855 | 0/21
 80 h-m-p  0.0160 8.0000   0.0094 -------------..  | 0/21
 81 h-m-p  0.0160 8.0000   0.0079 -------------
Out..
lnL  = -16461.942579
3968 lfun, 15872 eigenQcodon, 190464 P(t)

BEBing (dim = 4).  This may take several minutes.
Calculating f(x_h|w): 10 categories 21 w sets.
Calculating f(X), the marginal probability of data.
	log(fX) = -16512.160988  S = -15980.847496  -522.103152
Calculating f(w|X), posterior probabilities of site classes.

	did  10 / 1013 patterns   5:56
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	did 1000 / 1013 patterns   6:01
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Time used:  6:01


Model 3: discrete

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
    0.047843    0.049384    0.073116    0.000000    0.066347    0.079174    0.166067    0.061887    0.159224    0.153902    0.263051    0.020329    0.300468    0.079684    0.112392    0.134725    2.054435    0.923969    0.634343    0.032695    0.081822    0.114292

ntime & nrate & np:    16     4    22

Bounds (np=22):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100 -99.000000 -99.000000   0.000001   0.000001   0.000001
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000  99.000000  99.000000 999.000000 999.000000 999.000000
Qfactor_NS = 15.563612

np =    22
lnL0 = -16720.461456

Iterating by ming2
Initial: fx= 16720.461456
x=  0.04784  0.04938  0.07312  0.00000  0.06635  0.07917  0.16607  0.06189  0.15922  0.15390  0.26305  0.02033  0.30047  0.07968  0.11239  0.13472  2.05443  0.92397  0.63434  0.03270  0.08182  0.11429

  1 h-m-p  0.0000 0.0000 8851.2307 YYCCCC 16664.221909  5 0.0000    57 | 0/22
  2 h-m-p  0.0000 0.0000 2386.4932 ++    16609.005158  m 0.0000   104 | 1/22
  3 h-m-p  0.0000 0.0001 5019.6082 +CCCC 16525.237033  3 0.0000   158 | 1/22
  4 h-m-p  0.0000 0.0001 1159.7715 +YYYYC 16453.719272  4 0.0001   209 | 1/22
  5 h-m-p  0.0001 0.0003 262.1286 CCCC  16451.650920  3 0.0001   261 | 0/22
  6 h-m-p  0.0000 0.0001 956.8541 YCCC  16450.848804  3 0.0000   312 | 0/22
  7 h-m-p  0.0001 0.0019 142.3838 CCC   16450.171481  2 0.0001   363 | 0/22
  8 h-m-p  0.0001 0.0005 106.5363 CC    16449.864834  1 0.0001   412 | 0/22
  9 h-m-p  0.0002 0.0049  37.9485 CC    16449.632604  1 0.0003   461 | 0/22
 10 h-m-p  0.0002 0.0019  55.9409 CCC   16449.408305  2 0.0002   512 | 0/22
 11 h-m-p  0.0001 0.0008 141.8913 +CCC  16448.267924  2 0.0004   564 | 0/22
 12 h-m-p  0.0000 0.0002 430.1146 ++    16446.224641  m 0.0002   611 | 1/22
 13 h-m-p  0.0000 0.0003 4149.2106 +YYC  16439.691802  2 0.0001   661 | 1/22
 14 h-m-p  0.0002 0.0009 755.3194 YYCC  16436.859882  3 0.0002   711 | 1/22
 15 h-m-p  0.0006 0.0030 167.0085 CCC   16436.149387  2 0.0002   761 | 1/22
 16 h-m-p  0.0004 0.0052  99.7173 CC    16435.135411  1 0.0006   809 | 1/22
 17 h-m-p  0.0003 0.0041 223.4891 +YCC  16432.022611  2 0.0008   859 | 0/22
 18 h-m-p  0.0001 0.0005 1377.1108 -CY   16431.842261  1 0.0000   908 | 0/22
 19 h-m-p  0.0000 0.0034 214.2192 ++YCC 16430.065242  2 0.0005   960 | 0/22
 20 h-m-p  0.0031 0.0167  34.4620 -YC   16429.911409  1 0.0004  1009 | 0/22
 21 h-m-p  0.0014 0.0373   9.2225 CC    16429.887765  1 0.0004  1058 | 0/22
 22 h-m-p  0.0004 0.0676  10.0074 ++YC  16429.617653  1 0.0051  1108 | 0/22
 23 h-m-p  0.0006 0.0060  91.3607 YC    16429.477677  1 0.0003  1156 | 0/22
 24 h-m-p  0.0068 0.0851   3.9682 YC    16429.316450  1 0.0135  1204 | 0/22
 25 h-m-p  0.7654 8.0000   0.0700 CYC   16427.817176  2 0.9306  1254 | 0/22
 26 h-m-p  1.5328 8.0000   0.0425 CC    16427.484656  1 2.0338  1303 | 0/22
 27 h-m-p  0.6004 3.0022   0.0409 ++    16426.910214  m 3.0022  1350 | 1/22
 28 h-m-p  0.4994 8.0000   0.2459 +YYCCC 16425.899696  4 1.5319  1404 | 1/22
 29 h-m-p  1.3834 8.0000   0.2722 YCCC  16425.334449  3 0.6967  1455 | 0/22
 30 h-m-p  0.0000 0.0012 9179.0229 CC    16425.243436  1 0.0000  1503 | 0/22
 31 h-m-p  0.1365 0.6825   0.0881 ++    16423.999777  m 0.6825  1550 | 1/22
 32 h-m-p  0.1644 8.0000   0.3654 +CCC  16422.173814  2 0.8438  1602 | 1/22
 33 h-m-p  0.3919 8.0000   0.7868 CCCC  16421.005359  3 0.4458  1654 | 1/22
 34 h-m-p  1.6000 8.0000   0.1236 YCC   16418.242662  2 3.1719  1703 | 0/22
 35 h-m-p  0.0001 0.0004 3665.1747 -YC   16418.197752  1 0.0000  1751 | 0/22
 36 h-m-p  0.1505 0.7526   0.0519 ++    16417.789505  m 0.7526  1798 | 1/22
 37 h-m-p  0.7586 8.0000   0.0514 YC    16417.712844  1 0.4889  1846 | 1/22
 38 h-m-p  0.3590 8.0000   0.0701 YC    16417.687894  1 0.8106  1893 | 1/22
 39 h-m-p  1.6000 8.0000   0.0036 YC    16417.686620  1 1.1683  1940 | 1/22
 40 h-m-p  1.6000 8.0000   0.0012 C     16417.685744  0 1.9784  1986 | 1/22
 41 h-m-p  0.6581 8.0000   0.0035 Y     16417.685362  0 1.4882  2032 | 1/22
 42 h-m-p  1.6000 8.0000   0.0008 +Y    16417.685218  0 4.4377  2079 | 1/22
 43 h-m-p  1.6000 8.0000   0.0009 ++    16417.683925  m 8.0000  2125 | 1/22
 44 h-m-p  0.8433 8.0000   0.0089 C     16417.683232  0 1.0328  2171 | 1/22
 45 h-m-p  1.6000 8.0000   0.0002 Y     16417.683229  0 1.1689  2217 | 1/22
 46 h-m-p  1.6000 8.0000   0.0000 Y     16417.683229  0 1.0315  2263 | 1/22
 47 h-m-p  1.6000 8.0000   0.0000 Y     16417.683229  0 2.9106  2309 | 1/22
 48 h-m-p  1.5155 8.0000   0.0000 Y     16417.683229  0 1.5155  2355 | 1/22
 49 h-m-p  1.6000 8.0000   0.0000 -Y    16417.683229  0 0.1000  2402
Out..
lnL  = -16417.683229
2403 lfun, 9612 eigenQcodon, 115344 P(t)

Time used:  8:36


Model 7: beta

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
    0.048516    0.052777    0.075382    0.000000    0.072612    0.087730    0.177916    0.061780    0.167788    0.162196    0.290347    0.020863    0.333002    0.084034    0.114434    0.137599    1.994921    1.091300    1.180709

ntime & nrate & np:    16     1    19

Bounds (np=19):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100   0.005000   0.005000
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000  99.000000  99.000000
Qfactor_NS = 7.689725

np =    19
lnL0 = -17494.163038

Iterating by ming2
Initial: fx= 17494.163038
x=  0.04852  0.05278  0.07538  0.00000  0.07261  0.08773  0.17792  0.06178  0.16779  0.16220  0.29035  0.02086  0.33300  0.08403  0.11443  0.13760  1.99492  1.09130  1.18071

  1 h-m-p  0.0000 0.0016 4364.4337 YYCCCC 17436.060543  5 0.0000    51 | 0/19
  2 h-m-p  0.0000 0.0005 1293.3718 +YCYCCC 17259.450827  5 0.0003   101 | 0/19
  3 h-m-p  0.0000 0.0002 2731.2281 ++    16900.423322  m 0.0002   142 | 0/19
  4 h-m-p  0.0000 0.0002 2611.8193 YCYCCC 16804.544765  5 0.0001   191 | 0/19
  5 h-m-p  0.0003 0.0016 364.4670 CYCCCC 16764.124243  5 0.0006   241 | 0/19
  6 h-m-p  0.0001 0.0003 2244.8550 CCCC  16738.936704  3 0.0001   288 | 0/19
  7 h-m-p  0.0001 0.0003 2134.8956 +YCYCCC 16682.138682  5 0.0002   338 | 0/19
  8 h-m-p  0.0000 0.0002 1546.4549 YCCCC 16665.656996  4 0.0001   386 | 0/19
  9 h-m-p  0.0002 0.0009 248.2895 CC    16661.994041  1 0.0002   429 | 0/19
 10 h-m-p  0.0002 0.0016 202.7683 CCC   16659.321179  2 0.0002   474 | 0/19
 11 h-m-p  0.0002 0.0015 303.6435 YCC   16657.788402  2 0.0001   518 | 0/19
 12 h-m-p  0.0005 0.0080  61.3778 YC    16657.414963  1 0.0002   560 | 0/19
 13 h-m-p  0.0004 0.0053  38.4052 CC    16657.315323  1 0.0001   603 | 0/19
 14 h-m-p  0.0003 0.0241  16.8288 +CCC  16656.705612  2 0.0017   649 | 0/19
 15 h-m-p  0.0010 0.0162  29.4019 CCC   16655.266697  2 0.0015   694 | 0/19
 16 h-m-p  0.0006 0.0292  79.2648 +YCCC 16639.030520  3 0.0045   741 | 0/19
 17 h-m-p  0.0007 0.0039 485.4836 YYCC  16627.076803  3 0.0005   786 | 0/19
 18 h-m-p  0.0008 0.0042 189.3853 YCCC  16620.632051  3 0.0006   832 | 0/19
 19 h-m-p  0.0011 0.0056  53.7581 CCCCC 16607.623880  4 0.0020   881 | 0/19
 20 h-m-p  0.0007 0.0037 114.8012 +CCCC 16517.486961  3 0.0030   929 | 0/19
 21 h-m-p  0.2182 1.0909   0.2846 YCCCCC 16483.948481  5 0.5205   979 | 0/19
 22 h-m-p  0.3943 1.9713   0.2162 CCCCC 16463.912119  4 0.6516  1028 | 0/19
 23 h-m-p  0.7701 5.6580   0.1830 CYC   16459.540194  2 0.9006  1072 | 0/19
 24 h-m-p  0.4589 2.2945   0.2821 YCCCC 16450.221771  4 0.8987  1120 | 0/19
 25 h-m-p  0.4656 2.3280   0.2563 YCCCC 16445.316627  4 0.8872  1168 | 0/19
 26 h-m-p  1.0486 5.5220   0.2169 CC    16441.790341  1 1.0355  1211 | 0/19
 27 h-m-p  1.3248 8.0000   0.1695 YCCC  16435.095550  3 2.6302  1257 | 0/19
 28 h-m-p  0.4494 2.2471   0.7027 CYCCC 16428.615606  4 0.7994  1305 | 0/19
 29 h-m-p  1.6000 8.0000   0.1312 YCC   16425.157028  2 1.0240  1349 | 0/19
 30 h-m-p  1.2808 8.0000   0.1049 YCC   16424.744120  2 0.2194  1393 | 0/19
 31 h-m-p  0.6181 8.0000   0.0372 YC    16424.378639  1 1.2555  1435 | 0/19
 32 h-m-p  0.7423 8.0000   0.0630 C     16424.270914  0 0.7423  1476 | 0/19
 33 h-m-p  1.6000 8.0000   0.0119 YC    16424.161593  1 1.3088  1518 | 0/19
 34 h-m-p  1.6000 8.0000   0.0065 YC    16424.144108  1 0.9068  1560 | 0/19
 35 h-m-p  1.6000 8.0000   0.0019 YC    16424.142682  1 0.8585  1602 | 0/19
 36 h-m-p  1.6000 8.0000   0.0002 Y     16424.142647  0 0.9066  1643 | 0/19
 37 h-m-p  1.6000 8.0000   0.0000 Y     16424.142646  0 0.9676  1684 | 0/19
 38 h-m-p  1.6000 8.0000   0.0000 Y     16424.142646  0 0.9411  1725 | 0/19
 39 h-m-p  1.6000 8.0000   0.0000 Y     16424.142646  0 0.0125  1766
Out..
lnL  = -16424.142646
1767 lfun, 19437 eigenQcodon, 282720 P(t)

Time used: 15:04


Model 8: beta&w>1

TREE #  1
(1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
initial w for M8:NSbetaw>1 reset.

    0.048418    0.056499    0.075753    0.000000    0.071421    0.090756    0.168180    0.060390    0.160038    0.156510    0.272983    0.019476    0.315496    0.082670    0.108225    0.131139    1.995901    0.900000    0.318342    1.765725    2.851152

ntime & nrate & np:    16     2    21

Bounds (np=21):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100   0.000010   0.005000   0.005000   1.000000
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000   0.999990  99.000000  99.000000 999.000000
Qfactor_NS = 8.312386

np =    21
lnL0 = -16959.361958

Iterating by ming2
Initial: fx= 16959.361958
x=  0.04842  0.05650  0.07575  0.00000  0.07142  0.09076  0.16818  0.06039  0.16004  0.15651  0.27298  0.01948  0.31550  0.08267  0.10822  0.13114  1.99590  0.90000  0.31834  1.76572  2.85115

  1 h-m-p  0.0000 0.0000 6122.5981 ++    16575.305911  m 0.0000    47 | 1/21
  2 h-m-p  0.0001 0.0003 1133.5889 YCYCCC 16474.168512  5 0.0001   100 | 0/21
  3 h-m-p  0.0000 0.0001 1874.6691 YCYC  16466.285826  3 0.0000   148 | 0/21
  4 h-m-p  0.0001 0.0005 502.6894 CCC   16461.585253  2 0.0001   197 | 0/21
  5 h-m-p  0.0001 0.0010 199.8046 CCC   16459.054250  2 0.0002   246 | 0/21
  6 h-m-p  0.0001 0.0010 215.8927 CYC   16457.399628  2 0.0001   294 | 0/21
  7 h-m-p  0.0003 0.0039  86.6731 YCC   16456.885845  2 0.0002   342 | 0/21
  8 h-m-p  0.0003 0.0047  66.6206 YC    16456.733472  1 0.0001   388 | 0/21
  9 h-m-p  0.0002 0.0120  50.1550 YC    16456.518970  1 0.0003   434 | 0/21
 10 h-m-p  0.0003 0.0068  59.6881 CC    16456.344763  1 0.0003   481 | 0/21
 11 h-m-p  0.0002 0.0168  75.1765 +YC   16455.080797  1 0.0018   528 | 0/21
 12 h-m-p  0.0002 0.0025 684.2775 +CYCCC 16446.309312  4 0.0013   581 | 0/21
 13 h-m-p  0.0000 0.0002 3497.6314 +CYCC 16439.628404  3 0.0002   632 | 0/21
 14 h-m-p  0.0001 0.0004 524.5011 YC    16438.715512  1 0.0002   678 | 0/21
 15 h-m-p  0.0006 0.0030  50.6206 YC    16438.542762  1 0.0004   724 | 0/21
 16 h-m-p  0.0005 0.0034  42.7227 CC    16438.355116  1 0.0007   771 | 0/21
 17 h-m-p  0.0002 0.0009 128.6093 ++    16437.422265  m 0.0009   816 | 0/21
 18 h-m-p -0.0000 -0.0000 109.1417 
h-m-p:     -0.00000000e+00     -0.00000000e+00      1.09141710e+02 16437.422265
..  | 0/21
 19 h-m-p  0.0000 0.0002 585.1113 +CYC  16430.905753  2 0.0000   907 | 0/21
 20 h-m-p  0.0001 0.0005 318.2502 CCCC  16426.649702  3 0.0001   958 | 0/21
 21 h-m-p  0.0002 0.0008 213.4877 YCCC  16425.189613  3 0.0001  1008 | 0/21
 22 h-m-p  0.0001 0.0018 156.5580 YC    16424.612769  1 0.0001  1054 | 0/21
 23 h-m-p  0.0002 0.0047  66.6040 CC    16424.223697  1 0.0002  1101 | 0/21
 24 h-m-p  0.0002 0.0021 105.5082 CCC   16423.892533  2 0.0002  1150 | 0/21
 25 h-m-p  0.0001 0.0041 185.1120 CCC   16423.664567  2 0.0001  1199 | 0/21
 26 h-m-p  0.0001 0.0035 112.4621 YC    16423.324643  1 0.0002  1245 | 0/21
 27 h-m-p  0.0001 0.0034 263.8214 +YC   16422.500416  1 0.0002  1292 | 0/21
 28 h-m-p  0.0001 0.0019 445.0879 YCCC  16420.745183  3 0.0003  1342 | 0/21
 29 h-m-p  0.0005 0.0051 271.7199 YC    16420.024841  1 0.0002  1388 | 0/21
 30 h-m-p  0.0006 0.0054  93.4701 YC    16419.913555  1 0.0001  1434 | 0/21
 31 h-m-p  0.0005 0.0163  18.5916 CC    16419.893472  1 0.0002  1481 | 0/21
 32 h-m-p  0.0004 0.0602   8.5234 CC    16419.889535  1 0.0001  1528 | 0/21
 33 h-m-p  0.0003 0.0561   3.5157 Y     16419.888769  0 0.0001  1573 | 0/21
 34 h-m-p  0.0019 0.9442   1.9150 YC    16419.886698  1 0.0013  1619 | 0/21
 35 h-m-p  0.0004 0.2211   8.1098 +YC   16419.864597  1 0.0037  1666 | 0/21
 36 h-m-p  0.0003 0.0123  96.2335 YC    16419.847041  1 0.0002  1712 | 0/21
 37 h-m-p  0.0015 0.0456  15.9546 YC    16419.844792  1 0.0002  1758 | 0/21
 38 h-m-p  0.0066 0.5326   0.4695 YC    16419.843463  1 0.0043  1804 | 0/21
 39 h-m-p  0.0002 0.0207  10.0426 ++++  16419.710851  m 0.0207  1851 | 1/21
 40 h-m-p  0.3350 2.0607   0.5845 CC    16419.701249  1 0.0720  1898 | 0/21
 41 h-m-p  0.0210 0.6457   2.0003 YC    16419.685411  1 0.0409  1943 | 0/21
 42 h-m-p  1.6000 8.0000   0.0106 YC    16419.670518  1 1.1171  1989 | 0/21
 43 h-m-p  1.6000 8.0000   0.0064 YC    16419.668945  1 1.1756  2035 | 0/21
 44 h-m-p  1.6000 8.0000   0.0020 Y     16419.668913  0 0.9871  2080 | 0/21
 45 h-m-p  1.6000 8.0000   0.0001 Y     16419.668912  0 1.0308  2125 | 0/21
 46 h-m-p  1.6000 8.0000   0.0000 Y     16419.668912  0 0.4000  2170 | 0/21
 47 h-m-p  0.3969 8.0000   0.0000 Y     16419.668912  0 0.3969  2215 | 0/21
 48 h-m-p  1.6000 8.0000   0.0000 Y     16419.668912  0 1.6000  2260 | 0/21
 49 h-m-p  1.6000 8.0000   0.0000 ----------------..  | 0/21
 50 h-m-p  0.0160 8.0000   0.0006 -------------
Out..
lnL  = -16419.668912
2376 lfun, 28512 eigenQcodon, 418176 P(t)

BEBing (dim = 4).  This may take several minutes.
Calculating f(x_h|w): 10 categories 20 w sets.
Calculating f(X), the marginal probability of data.
	log(fX) = -16541.556696  S = -15995.744491  -536.613252
Calculating f(w|X), posterior probabilities of site classes.

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Time used: 24:54
CodeML output code: -1
Download 
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE:  ], CPU=0.02 sec, SCORE=99, Nseq=10, Len=1590 

D_melanogaster_Skeletor-PE   MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
D_simulans_Skeletor-PE       MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
D_yakuba_Skeletor-PE         MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
D_erecta_Skeletor-PE         MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
D_takahashii_Skeletor-PE     MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
D_biarmipes_Skeletor-PE      MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
D_eugracilis_Skeletor-PE     MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
D_ficusphila_Skeletor-PE     MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
D_rhopaloa_Skeletor-PE       MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
D_elegans_Skeletor-PE        MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
                             **********: *********:..*.************************

D_melanogaster_Skeletor-PE   VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_simulans_Skeletor-PE       VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_yakuba_Skeletor-PE         VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
D_erecta_Skeletor-PE         VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_takahashii_Skeletor-PE     VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_biarmipes_Skeletor-PE      VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
D_eugracilis_Skeletor-PE     VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_ficusphila_Skeletor-PE     VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
D_rhopaloa_Skeletor-PE       VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
D_elegans_Skeletor-PE        VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
                             ****************************.*.:************:*****

D_melanogaster_Skeletor-PE   LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
D_simulans_Skeletor-PE       LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
D_yakuba_Skeletor-PE         LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
D_erecta_Skeletor-PE         LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
D_takahashii_Skeletor-PE     LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
D_biarmipes_Skeletor-PE      LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
D_eugracilis_Skeletor-PE     LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
D_ficusphila_Skeletor-PE     LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
D_rhopaloa_Skeletor-PE       LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
D_elegans_Skeletor-PE        LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
                             ****************************************:**.******

D_melanogaster_Skeletor-PE   PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_simulans_Skeletor-PE       PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_yakuba_Skeletor-PE         PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_erecta_Skeletor-PE         PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_takahashii_Skeletor-PE     PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_biarmipes_Skeletor-PE      PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_eugracilis_Skeletor-PE     PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_ficusphila_Skeletor-PE     PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_rhopaloa_Skeletor-PE       PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
D_elegans_Skeletor-PE        PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
                             ****.**********:**********************************

D_melanogaster_Skeletor-PE   TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_simulans_Skeletor-PE       TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_yakuba_Skeletor-PE         TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
D_erecta_Skeletor-PE         TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
D_takahashii_Skeletor-PE     TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_biarmipes_Skeletor-PE      TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_eugracilis_Skeletor-PE     TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_ficusphila_Skeletor-PE     TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_rhopaloa_Skeletor-PE       TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
D_elegans_Skeletor-PE        TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
                             **:***************************:*******************

D_melanogaster_Skeletor-PE   DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_simulans_Skeletor-PE       DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_yakuba_Skeletor-PE         DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_erecta_Skeletor-PE         DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_takahashii_Skeletor-PE     DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_biarmipes_Skeletor-PE      DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_eugracilis_Skeletor-PE     DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_ficusphila_Skeletor-PE     DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_rhopaloa_Skeletor-PE       DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
D_elegans_Skeletor-PE        DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
                             ********:*****************************************

D_melanogaster_Skeletor-PE   VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
D_simulans_Skeletor-PE       VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
D_yakuba_Skeletor-PE         VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
D_erecta_Skeletor-PE         VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
D_takahashii_Skeletor-PE     VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
D_biarmipes_Skeletor-PE      VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
D_eugracilis_Skeletor-PE     VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
D_ficusphila_Skeletor-PE     VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
D_rhopaloa_Skeletor-PE       VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
D_elegans_Skeletor-PE        VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
                             ********:**:********.**:**********:****::***** **:

D_melanogaster_Skeletor-PE   LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_simulans_Skeletor-PE       LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_yakuba_Skeletor-PE         LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_erecta_Skeletor-PE         LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_takahashii_Skeletor-PE     LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_biarmipes_Skeletor-PE      LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_eugracilis_Skeletor-PE     LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_ficusphila_Skeletor-PE     LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_rhopaloa_Skeletor-PE       LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
D_elegans_Skeletor-PE        LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
                             *******************.******************************

D_melanogaster_Skeletor-PE   RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
D_simulans_Skeletor-PE       RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
D_yakuba_Skeletor-PE         RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
D_erecta_Skeletor-PE         RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
D_takahashii_Skeletor-PE     RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
D_biarmipes_Skeletor-PE      RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
D_eugracilis_Skeletor-PE     RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
D_ficusphila_Skeletor-PE     RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
D_rhopaloa_Skeletor-PE       RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
D_elegans_Skeletor-PE        RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
                             *******:. .************::***********:*:***********

D_melanogaster_Skeletor-PE   PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
D_simulans_Skeletor-PE       PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
D_yakuba_Skeletor-PE         PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
D_erecta_Skeletor-PE         PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
D_takahashii_Skeletor-PE     PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
D_biarmipes_Skeletor-PE      PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
D_eugracilis_Skeletor-PE     PLPEGAR---NSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
D_ficusphila_Skeletor-PE     PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
D_rhopaloa_Skeletor-PE       PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
D_elegans_Skeletor-PE        PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
                             *******   ***::***:****************:*:*** ****:***

D_melanogaster_Skeletor-PE   EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_simulans_Skeletor-PE       EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_yakuba_Skeletor-PE         EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_erecta_Skeletor-PE         EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_takahashii_Skeletor-PE     EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_biarmipes_Skeletor-PE      EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_eugracilis_Skeletor-PE     EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_ficusphila_Skeletor-PE     EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_rhopaloa_Skeletor-PE       EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
D_elegans_Skeletor-PE        EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
                             ****************:*********************************

D_melanogaster_Skeletor-PE   YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
D_simulans_Skeletor-PE       YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
D_yakuba_Skeletor-PE         YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
D_erecta_Skeletor-PE         YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
D_takahashii_Skeletor-PE     YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
D_biarmipes_Skeletor-PE      YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
D_eugracilis_Skeletor-PE     YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
D_ficusphila_Skeletor-PE     YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
D_rhopaloa_Skeletor-PE       YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
D_elegans_Skeletor-PE        YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
                             *****************************************:********

D_melanogaster_Skeletor-PE   GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_simulans_Skeletor-PE       GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_yakuba_Skeletor-PE         GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_erecta_Skeletor-PE         GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_takahashii_Skeletor-PE     GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_biarmipes_Skeletor-PE      GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_eugracilis_Skeletor-PE     GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
D_ficusphila_Skeletor-PE     GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_rhopaloa_Skeletor-PE       GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
D_elegans_Skeletor-PE        GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
                             ********************************:*****************

D_melanogaster_Skeletor-PE   TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
D_simulans_Skeletor-PE       TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
D_yakuba_Skeletor-PE         TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
D_erecta_Skeletor-PE         TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
D_takahashii_Skeletor-PE     TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
D_biarmipes_Skeletor-PE      TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
D_eugracilis_Skeletor-PE     TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
D_ficusphila_Skeletor-PE     TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
D_rhopaloa_Skeletor-PE       TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
D_elegans_Skeletor-PE        TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
                             *******************************************:*****.

D_melanogaster_Skeletor-PE   TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGAASERHEIRLP--A
D_simulans_Skeletor-PE       TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
D_yakuba_Skeletor-PE         TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
D_erecta_Skeletor-PE         TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGSPSERHEIRLP--P
D_takahashii_Skeletor-PE     TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGSASERHEIRLPAAA
D_biarmipes_Skeletor-PE      TPDTVYYHCFTHRYLGWKIHVHDACDTEA--GGLKGSASERHEIRLP--A
D_eugracilis_Skeletor-PE     TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAASDRHEIRLP--V
D_ficusphila_Skeletor-PE     TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLP--A
D_rhopaloa_Skeletor-PE       TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAPSERHEIRLP--A
D_elegans_Skeletor-PE        TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGPKGAASERHEIRLP--A
                             *********************** **::*  ** **:.*:*******   

D_melanogaster_Skeletor-PE   KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_simulans_Skeletor-PE       KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_yakuba_Skeletor-PE         MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_erecta_Skeletor-PE         MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_takahashii_Skeletor-PE     EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_biarmipes_Skeletor-PE      EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_eugracilis_Skeletor-PE     EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_ficusphila_Skeletor-PE     EAA--EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_rhopaloa_Skeletor-PE       EP---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
D_elegans_Skeletor-PE        ES---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
                                  *.*****:*************************************

D_melanogaster_Skeletor-PE   PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
D_simulans_Skeletor-PE       PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
D_yakuba_Skeletor-PE         PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQN--
D_erecta_Skeletor-PE         PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQNQN
D_takahashii_Skeletor-PE     PKLSFEITKSSEITKLISDGIRAAEALEESLKRN-PNLN-----PNLN--
D_biarmipes_Skeletor-PE      PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-QNLNHPNNHPNQY--
D_eugracilis_Skeletor-PE     PKLSFEITKSSEITKLISDGIRAAEALEESLMKN-PNLNP-LNHPNQN--
D_ficusphila_Skeletor-PE     PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNP-NLKPHPN--
D_rhopaloa_Skeletor-PE       PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQNPI--
D_elegans_Skeletor-PE        PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQYPN--
                             ******************************* :*  * *           

D_melanogaster_Skeletor-PE   --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
D_simulans_Skeletor-PE       --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
D_yakuba_Skeletor-PE         --PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASPSPSQSASAS
D_erecta_Skeletor-PE         PIPNPNPHQKPNVTPTEISSRPEILLGETHA-HAHTLNASPSPSQSASAP
D_takahashii_Skeletor-PE     --LNLNPNQHPNQYP-KANVTPEILLGETHA-HKPNASPSASAS----AS
D_biarmipes_Skeletor-PE      --PIPNPHQKPNVTPTEINSRPEILLGETQA-HKPNASPTASAP----PS
D_eugracilis_Skeletor-PE     --PIPYPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSVFP-------
D_ficusphila_Skeletor-PE     --QNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPS---AS
D_rhopaloa_Skeletor-PE       --PHPHPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSAFP-------
D_elegans_Skeletor-PE        --PHPHPHQKPNVTPTEISSRPEILLGETHA-QKLNTSPSAFP-------
                                   *:*:**  * : .  ********   :  . ..:          

D_melanogaster_Skeletor-PE   AYPSPSATLPSANLKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
D_simulans_Skeletor-PE       AYPSPSATLPSANQKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
D_yakuba_Skeletor-PE         AYPSPSATLSSANLKLPILAAG----PHPIH-YPPHLHRLHHQPQHAP--
D_erecta_Skeletor-PE         AYPSPSATLPTANLKLPILAAG----PHLIH-YPPHLHRLHHQPQHAT--
D_takahashii_Skeletor-PE     AFPSPSASPSPATLKLPIFASG----PHLIHHPPHPLHRLHHHPQHAPHS
D_biarmipes_Skeletor-PE      AFPSPSASPSPATLKLPIFASG----PHLIHHPPHSLHRLHHHPQHAPHS
D_eugracilis_Skeletor-PE     ---SPSASPSPANLKLPIYAAV----PHLIH-HPPHLHRLHQHPQHAL--
D_ficusphila_Skeletor-PE     ASASASASASPGNQKLPIYAAG----PHIIHPHPPHLHRLHHHPQHAANI
D_rhopaloa_Skeletor-PE       -SPSPSASPSPGNLKLPIFAAG----PHLIH-HPPHLHRLQHHHLQQHAP
D_elegans_Skeletor-PE        -SPSASASPSPATLKLPILAAGPGPGPHLIH-HPPHLHRLHHHPQHALAP
                                *.**: .... **** *:     ** **  *  ****:::  :    

D_melanogaster_Skeletor-PE   HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_simulans_Skeletor-PE       HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_yakuba_Skeletor-PE         HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_erecta_Skeletor-PE         HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_takahashii_Skeletor-PE     HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_biarmipes_Skeletor-PE      AP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_eugracilis_Skeletor-PE     HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_ficusphila_Skeletor-PE     HP--HPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_rhopaloa_Skeletor-PE       HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
D_elegans_Skeletor-PE        HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
                              *  * ********************************************

D_melanogaster_Skeletor-PE   FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
D_simulans_Skeletor-PE       FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
D_yakuba_Skeletor-PE         FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
D_erecta_Skeletor-PE         FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVHLQQQPSLIVSHYRKPI
D_takahashii_Skeletor-PE     FPAPIKKVPASRPVLPQQHPHLHP-----QHPVLLQQQPSLIVSHYRKPV
D_biarmipes_Skeletor-PE      FPAPIKKVPASRPVLPQQHPHLHPH---PQHPVMLQQQPSLIVSHYRKPV
D_eugracilis_Skeletor-PE     FPAPIKKVPASRPILPQQHPHLHPH--PQQLPVLLQQQPSLIVSHYRKPV
D_ficusphila_Skeletor-PE     FPAPIKKVPASRPVLPQQHPHLHPQ---Q-HPVLLQQ-PSLIVSHYRKPV
D_rhopaloa_Skeletor-PE       FPAPIKKVPASRPILPQQHPHLHPH---P-HPGLLQQ-PSLIVSHYRKPV
D_elegans_Skeletor-PE        FPAPIKKVPASRPVLPQQHPHLHPL---P---GLLQQ-PSLIVSHYRKPV
                             *************:**********          *** ***********:

D_melanogaster_Skeletor-PE   PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
D_simulans_Skeletor-PE       PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
D_yakuba_Skeletor-PE         PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKVKGK
D_erecta_Skeletor-PE         PGLLKPFIKEKPFPLQPLAASVLLLGQPTELG----GLNSKGDRLKVKGK
D_takahashii_Skeletor-PE     PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
D_biarmipes_Skeletor-PE      PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
D_eugracilis_Skeletor-PE     PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
D_ficusphila_Skeletor-PE     PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLG-PISKGERLKVKGK
D_rhopaloa_Skeletor-PE       PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLG-LGNKGERLKAKGK
D_elegans_Skeletor-PE        PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFG-LGHKGERLKVKGK
                             *******:************************        **:*** ***

D_melanogaster_Skeletor-PE   PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKA-SSVS---ISTTP
D_simulans_Skeletor-PE       PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKT-SSVSSILISTTP
D_yakuba_Skeletor-PE         PKIPVPYVDLEPQGSLQNTAFFKQAGGK--GEQKPKT-SSVS-IPSSTTT
D_erecta_Skeletor-PE         PKIPVPYVDLEPQGSLQNTAFFKQPGGK--GDQKPKS-TSIS-IPSSTTT
D_takahashii_Skeletor-PE     PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPS-SSSSSMSSSTTT
D_biarmipes_Skeletor-PE      PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISP--TSSSVTSSTTTT
D_eugracilis_Skeletor-PE     PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
D_ficusphila_Skeletor-PE     PKIPVPYIDLEPQSSLQNTALFNQPA-KVEPKPVVTP--PTISTSSSTTS
D_rhopaloa_Skeletor-PE       PKIPVPYVDLEPQGSLQNTAFFNQPG-KGDQKPIATP--ASSTTPSSTTT
D_elegans_Skeletor-PE        TKIPVPYVDLEPQGSLQNTAFFNHPG-KVDQKSLAS----SIPIPSSTTT
                             .******:*****.****:*:*::.. *   .              :**.

D_melanogaster_Skeletor-PE   IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
D_simulans_Skeletor-PE       IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
D_yakuba_Skeletor-PE         IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
D_erecta_Skeletor-PE         VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
D_takahashii_Skeletor-PE     TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
D_biarmipes_Skeletor-PE      TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
D_eugracilis_Skeletor-PE     TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
D_ficusphila_Skeletor-PE     IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
D_rhopaloa_Skeletor-PE       TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
D_elegans_Skeletor-PE        TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
                              **:**  ***** ****:********************:**:****:**

D_melanogaster_Skeletor-PE   QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
D_simulans_Skeletor-PE       QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
D_yakuba_Skeletor-PE         QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_erecta_Skeletor-PE         QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_takahashii_Skeletor-PE     QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_biarmipes_Skeletor-PE      QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_eugracilis_Skeletor-PE     QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_ficusphila_Skeletor-PE     QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
D_rhopaloa_Skeletor-PE       QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
D_elegans_Skeletor-PE        QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
                             *******:***:********************:*****:***********

D_melanogaster_Skeletor-PE   SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
D_simulans_Skeletor-PE       SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
D_yakuba_Skeletor-PE         SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
D_erecta_Skeletor-PE         SPLDSTNATKVLRV--KEVTPTASALRLPSAALEHALPSASELRKPTLGE
D_takahashii_Skeletor-PE     SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
D_biarmipes_Skeletor-PE      SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
D_eugracilis_Skeletor-PE     SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
D_ficusphila_Skeletor-PE     SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
D_rhopaloa_Skeletor-PE       SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
D_elegans_Skeletor-PE        SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
                             ********:*:*:*  ***:*:********:*:**:**:**** ****.*

D_melanogaster_Skeletor-PE   LFAEDLNEEELEMEP-MPVADDVESLEETTKKDAVTTTINIP-RNTTKKP
D_simulans_Skeletor-PE       LFGEDLHEEELEMEP-MPVADDVESLEETTKKDAVTTTIDIP-RNTTKKP
D_yakuba_Skeletor-PE         LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIP-KNTTKKP
D_erecta_Skeletor-PE         LFGDDSNEEQLEMEP-LPEADDVEPLEETTKKDAVTTTKDIL-RNTTKKP
D_takahashii_Skeletor-PE     LFGGELNEEELELEPLPQGDDDEE---ETTKNSATATTKEIQSTTTKKPK
D_biarmipes_Skeletor-PE      LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRP-
D_eugracilis_Skeletor-PE     LFGEEITDEEVVLEPLE---DDDELLEETTKKAAVKTTKEIPSTTTTKKP
D_ficusphila_Skeletor-PE     LFGEELNEEELELEPLPQG-DDEELLDETTKKAAPTTTKEPPPSSTTKQT
D_rhopaloa_Skeletor-PE       LFEDEINEEELELEAVPEG-DDEEVLEETTKKAAPTTPKEIP-SSTTKKP
D_elegans_Skeletor-PE        LFGEEINEEELELETAPEG-DDEDVPEETTKKSAPTTPKEIP-SSATKKP
                             **  :  :*:: :*      *  :   ****: *  *  :    .:.:  

D_melanogaster_Skeletor-PE   DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
D_simulans_Skeletor-PE       DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
D_yakuba_Skeletor-PE         DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
D_erecta_Skeletor-PE         DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
D_takahashii_Skeletor-PE     ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
D_biarmipes_Skeletor-PE      ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
D_eugracilis_Skeletor-PE     EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
D_ficusphila_Skeletor-PE     ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
D_rhopaloa_Skeletor-PE       ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
D_elegans_Skeletor-PE        EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
                             :  **:*****:*:::**:*:**:****:******************:*.

D_melanogaster_Skeletor-PE   TRVPSGALYTFDGKSVVDSSLVLPPKLDAPD-NANVHQRHAQYGLTPLEQ
D_simulans_Skeletor-PE       TRLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
D_yakuba_Skeletor-PE         TQLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
D_erecta_Skeletor-PE         TRVPSGALYTFDGKSVVDSSLVLPPKLNAPD-NGGVHQRHAQYGLTPLEQ
D_takahashii_Skeletor-PE     ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
D_biarmipes_Skeletor-PE      SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGG-HQRHAQYGLTPLEQ
D_eugracilis_Skeletor-PE     ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NGGVHQRHAQYGLTPLEQ
D_ficusphila_Skeletor-PE     ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NLGIQQRHSQYGLTPLEQ
D_rhopaloa_Skeletor-PE       SSLPSGALYTFDGKSVVDSSLVLPPKLDAAE-SVGVHQRHAQYGLTPLEQ
D_elegans_Skeletor-PE        SSLPSGALYTFDGKSVVDSSLVLPPKLDAGD-SGAVHQRHAQYGLTPLEQ
                             : :************************:*   .   :***:*********

D_melanogaster_Skeletor-PE   LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
D_simulans_Skeletor-PE       LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
D_yakuba_Skeletor-PE         LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSH----PAPFSRTT-----P
D_erecta_Skeletor-PE         LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAALSRTT-----P
D_takahashii_Skeletor-PE     LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTTGSTTTP
D_biarmipes_Skeletor-PE      LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
D_eugracilis_Skeletor-PE     LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
D_ficusphila_Skeletor-PE     LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTT---PGF
D_rhopaloa_Skeletor-PE       LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFIRTS---TTA
D_elegans_Skeletor-PE        LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
                             ********* :*********.***********    **.: **:      

D_melanogaster_Skeletor-PE   VFSSSSGS---TIYP-YSSSTG-ASTSTVSSSASSP--------LSSSSL
D_simulans_Skeletor-PE       VFSSSSGN---TIYP-YSSSTG-ASTSTVSSSSSSP--------LSSSSL
D_yakuba_Skeletor-PE         VFSSSSGS---TIYP-YSSSTGAASTSTLSSSSSSP--------LSSSSL
D_erecta_Skeletor-PE         VFSSSSGS---TIYP-HSSSSG-ASTSTVSSSSSSP--------LSSSSL
D_takahashii_Skeletor-PE     GFSSSSGS-GSTIYP-YSSSPG-TSTSASFSPSSSSSSP-----LSLSSL
D_biarmipes_Skeletor-PE      GFSSSSSSSGSTIYP-YSSSPR-TSTSLSTLSSSSSSSP-----LSSSSL
D_eugracilis_Skeletor-PE     IFSSSSGS---TIYP-YSTSSG-TSTSISSLSSPSSSSSSP---LSSSSL
D_ficusphila_Skeletor-PE     TTSSSSGS---TIYP-YSSSPG-TSTSISSSSSSP---------LSSSSL
D_rhopaloa_Skeletor-PE       GFSTSSGN---TVYP-YSPSPG-ASTSTLSSSSSSP--------LSSSSL
D_elegans_Skeletor-PE        GFSTSSGN---TIYPSYSSSPG-ASTSTATATSSTSSSSSSSPFLSSSSL
                               *:**..   *:** :*.*.  :***    .:..         ** ***

D_melanogaster_Skeletor-PE   RPISTKLQLLKPEGRRAooooooooooooooooooooooo
D_simulans_Skeletor-PE       RPISTKLQLLKPEGRRAoooooooooooooooooooo---
D_yakuba_Skeletor-PE         RPISTKLQLLKPEGRRAooooooooooo------------
D_erecta_Skeletor-PE         RPISTKLQLLKPEGRRAooooooooooo------------
D_takahashii_Skeletor-PE     RPISTKLQLLRPEGRRAoo---------------------
D_biarmipes_Skeletor-PE      RPISTKLQLLKPEGRRA-----------------------
D_eugracilis_Skeletor-PE     RPISTKLQLLKPEGRRAooooooooooooo----------
D_ficusphila_Skeletor-PE     RPISTKLQLLKPEGRRAooooo------------------
D_rhopaloa_Skeletor-PE       RPISTKLQLLKPVGRRAoooooooooooooooooooo---
D_elegans_Skeletor-PE        RPISTKLQLLKPVGRRAooooooooooo------------
                             **********:* ****
Download 
>D_melanogaster_Skeletor-PE
ATGTTGGCAATGAAGGATAAGCCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAATTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACTGCACGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGGACCGCCTCC
CTGACCCGCCGTTACAGGAACAAGGACGTCACACTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATCAAATGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTGAATTTCGGTGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGTGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGTCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAATTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
AATTTCGCCAAATAAGAACATTAGCCAGATGATTGGTGCGGATGCAGTGG
TGGCCTGGGTGGATCCCCAGACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGGAAGGCTCAGTGCTCTGGTGGGCGTGGCGCTTGTCCGGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTTAACGCTGCCATGG
TAAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACGGAT
CGCCTGGATCTGCCAATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCATACATTCTACA
ACAAGCATCTGCACCAGATTGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGTGCTCGTGGCAATAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGCTCTACTGGCGGAGCTGGTTATCCGCCAG
CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGTGCG
GAGGCTCTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGTCCAGTGCCCACTCCAAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGACGGAGTGTTC
TATGCCCAGATGGGTCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATTCATGTAGTGCGAGGCAAGACCTATACATTTGTAGTGGAGGGT
GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAAGAGAAAAAGGCCG
TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACGCCC
ACCGGCGTTGGCCGTCTCTGCAACTGGACACCAGATGTGGAAGGTCCACC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCATTGCTTCACACACCGCTATCTGGGATG
GAAGATCCACGTGCACGACTCATGTGACTCGGAAGCG------GGTGGAC
TCAAAGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
AAAGCCACCGTCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCTAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCACAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAGAACGCTCCGCTCTTTCATCCGGTTAAACTGCCCGGCCGCCGACCT
TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCATTTGCATCCGCAT------CCGCAGCAGCATCCCGTTC
TTCTGCAGCAACAACCCTCCCTGATTGTAAGTCACTACAGGAAGCCGATA
CCGGGATTGCTGAAACCCTTCGTCAAGGAGAAACCTTTTCCACTGCAACC
GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
--------GGCCTCAATAACAAGGGAGAACGACTCAAGATAAAGGGTAAA
CCAAAAATTCCAGTACCATATGTGGACCTAGAACCACAGGGGTCTCTGCA
AAATACAGCTATCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
AACCCAAAGCC---TCATCTGTGTCC---------ATCTCAACCACGCCC
ATTCCGCTGGTGAAACGTCCTACAGTAAAGGAACCTTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTTAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAGAGCGGATTTAAACCCATCGTTAGGACCGATGGCACTGGTGTT
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACTAATGCCACAAAAGTGTTGAGGGTTAACGTGAA
GGAGGTTAGTCCCACGGCATCAGCTTTAAGATTGCCGTCGGCAGCCCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
CTCTTTGCAGAGGATCTAAACGAAGAGGAGCTAGAAATGGAGCCT---AT
GCCGGTGGCAGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
CTGTAACCACAACAATAAACATTCCA---AGAAACACGACCAAGAAACCG
GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTATA
TGCGGATGAGCTGGAACTAGACATGGATGACCGAGTGGCCGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGATAACCGAAAGATTCCCGAT
ACCAGGGTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCTGTGGT
GGACAGTAGCCTAGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
CCAACGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
--------CCAGCGCCCTTCAGTCGTACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
TTCCTCGTCGACAGGA---GCATCTACATCCACCGTATCATCATCGGCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACTAAGCTACAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>D_simulans_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGTGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTTATCAAGAAATTCAATTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAATACAGCGCGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACAGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
GAAAACACTGCGCGACATCAAATGGTTCTCAGTGTGGTGCGATGAGTTTG
CGGTGAATTTCGGCGACGTTTCTATTCCGCCCAACTTGGACTTCCCGAGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATAGTGGACGCCCAAACGCTGCTGGTGCCAAACTTTAGCTACG
ACGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACAATCGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTA
GATTTCGGACACGTTCGCCTACCGGAGGGCCTGAATGTGCCGCCCTCCTT
AAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTTGG
AATTTCGCCGAACAAGAACATCAGCCAGATGATTGGTGCGGATGCAGTGG
TGGCCTGGGTGGATCCACAGACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCTCAGTGCTCAGGTGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGACTACTAAATGCTGCCATGG
TGAATGGCTATTCAATTGTGACCTACCAAAGATCCCTAGCTGCCACCGAT
CGCCTGGATCTGCCCATCTCGATTACGGGAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTTCCAGGAAGTCTCCTTCCATACATTCTACA
ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGTGCTCGTGGCAACAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGTTCTACTGGCGGAGCTGGTTATCCGCCAG
CAGGCCGACCCAACGTGGAACCCGATGAGGAGTTCTACGAGAATCGGGCT
GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAAGAGACAGCAATCAT
TACCCAAAGGCGGCCAGTGCCTACTCCGAAGCCAGTTAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGTCACGAACCAGAGGATGGAGTGTTC
TATGCCCAGATGGGCCCCACGGGAGGAAAACACGGCTATCCAGCAATCAC
AGGTCACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATCCATGTGGTGCGCGGCAAGACCTATACATTTGTGGTTGAGGGC
GGAAACAATCCGGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAAAAGGCCG
TGCGCATCTACGCCGGAGTACATCGCTCCCGGTCCGGCCAAGTCACCCCA
ACCGGCGTTGGCCGTCTCTGCAATTGGACACCAGATGTGGAAGGTCCCCC
GGCGGACGATTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGTTACCTGGGATG
GAAGATCCACGTGCACGACTCTTGTGACTCGGACGCG------GGCGGAC
TCAAGGGAGCCGCCTCTGAACGCCACGAAATCCGGCTGCCG------GCG
AAAGCCACCGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTACGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAAC------------
------CCGATTCCGAATCCACACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCA------------------TCCGCATCC
GCATACCCATCCCCATCAGCCACTTTACCCTCTGCCAACCAAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---CATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CACCCG------CATGTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAAAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCTGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCATTTGCATCCGCAT------CCACAGCAGCATCCCGTTC
TTCTGCAGCAACAGCCCTCCCTGATTGTAAGTCACTATAGGAAGCCGATA
CCGGGATTGCTGAAGCCCTTCGTAAAGGAGAAACCTTTTCCACTCCAACC
GCTGGCGGCATCTGTTTTACTCCTGGGTCAGCCCACTGAGCTAGGC----
--------GGGCTCAATAACAAGGGAGAACGACTCAAGATTAAGGGTAAA
CCAAAGATTCCAGTACCTTATGTGGACCTAGAACCACAAGGGTCTCTGCA
AAATGCGGCCTTCTTTAATCAACCAGGCGGAAAGGGAAAGGGGGACCAGA
AACCCAAGACC---TCCTCTGTGTCCTCCATTCTCATCTCAACTACGCCC
ATTCCGCTGGTGAAACGTCCTACTGTAAAGGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTTAATCAGGGTTTCAAGCCCGACACCGTGA
TTGTGGAGAGCGGATTCAAACCCATCGTTAGAACCGATGGCACTGGTGTC
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGAGAGGATCC
TGGGACAGAAATCGATGAGGTGATGGAAACAGATACCCTGTTCCTGGCAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACCAATGCTACAAAAGTGTTGAGGGTTAACGTGAA
GGAGGTTAGTCCCACGGCATCGGCTCTAAGACTGCCGTCGGCAGCCCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAATAAAGCCCACCCTGGACGAA
CTCTTTGGAGAGGACCTACACGAAGAGGAGCTAGAAATGGAGCCT---AT
GCCAGTGGCGGATGATGTGGAGTCACTGGAAGAGACAACCAAAAAAGATG
CTGTAACCACAACAATAGACATTCCA---AGAAACACCACAAAGAAACCG
GATCCCGATCTGCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGATATA
TGCGGATGAGTTGGAACTAGACATGGATGACCGAGTGGCAGCTGCTGCGG
AACGGATAGACACTTACTACCTGCCGCCAGATAACCGAAAGATTCCCCAT
ACCAGGCTGCCGAGTGGAGCCCTCTACACCTTTGATGGCAAGTCAGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCCCCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAATACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCTCAGTTTGGAGTCTACAGAGGAGAGCTGCCACA
GGAATTCCGAGGCACAGAGCCCCAACCCGTCTCCGAGTATTCCCAT----
--------CCAGCGCCGTTCAGTCGTACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAAC---------ACCATCTATCCG---TA
TTCCTCGTCGACAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
CATCGCCA------------------------TTGTCGTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>D_yakuba_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGTCAGCTTTGGAGACGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTCCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGATTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGGAGCACTGGGCGGCCAA
GTAATGAAGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATTAAGTGGTTTTCGGTGTGGTGCGATGAGTTTG
CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGCGCTCTGAGGGGCGTCCATGGCGTCTCCTCCGAGAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGGCAGCGGCCC
ACCTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
GCGTCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
CCATCTTCGACATTGGTCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTG
GACTTTGGCCACGTTCGCCTGCCGGAGGGCTTGAATGTGCCGCCCTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
AATCTCGCCGAACAAGAACATTAGCCAGATGATTGGCGCGGATGCAGTGG
TGGCCTGGGTGGATCCACAAACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGTGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATACGTCTACTCAATGCCGCCATGG
TGAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCAGCCACGGAT
CGCCTGGATCTGCCCATCTCGATGAAGGAAGCGGAATCAGTGGTGTGGGC
AATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
ACAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAACTGC
CCCTTGCCAGAAGGTGCTCGTGCCGGCAGCAACTCATCGGATGAGGAGGA
CTCTGCTCCCGCGGCCCAGAGCTCCACTGGCGGAGCTGGTTATCCGCCAG
CAGGCAAACCCAACGTAGAACCCGCCGAGGAATTCTACGAGAATCGGGCG
GAGGCACTGCATCGTCAGCCACCGCAGCGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGCCCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCGGCCATTCAGTGCCACGAGCCAGAGGACGGAGTGTTC
TATGCCCAGATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCCATCAC
AGGACACGTCGGATGGGGAATTTCCTGGTACATCAACGGACTACTGATCC
CCGAGATCCACGTGGTGCGCGGCAAGACCTATACCTTTGTGGTGGAGGGC
GGAAACAACCCGGACATCCCCGCCAAGTACCACCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGGCCG
TGCGCATCTACGCCGGAGTGCATCGCTCCCGGTCCGGCCAGGTCACGCCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCACC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AATGCGATGCCGGTGAGCCGGGCGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTTACACACCGCTATCTGGGATG
GAAGATCCACGTGCACGACTCCTGTGACTCGGACGCG------GGCGGAC
TGAAGGGAGCCGCCTCCGAACGCCACGAAATCCGGCTGCCG------GCG
ATGGCCAACGCCGCGGAACCGGCGCCAGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAAC------
------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACC---------CATG
CCCACACGCTGAACGCATCTCCATCGCCATCTCAATCCGCATCCGCATCC
GCATACCCATCCCCATCAGCCACTTTATCCTCTGCCAACCTGAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCCCATCCAT---TATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCCCC------
CATCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAAAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
CGCAGAACGCCCCACTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCACCTGCATCCGCATCCACATCCGCAGCAGCATCCCGTGC
ATCTGCAGCAACAGCCCTCCCTGATTGTTAGTCACTACAGAAAGCCGATA
CCGGGATTGCTAAAGCCCTTCGTCAAGGAGAAACCTTTCCCCCTGCAACC
GCTGGCCGCATCTGTTTTGCTCCTGGGACAGCCCACTGAGCTGGGC----
--------GGACTGAATAACAAAGGAGAGCGACTCAAGGTCAAGGGTAAG
CCCAAAATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
AAATACGGCTTTCTTCAAGCAGGCAGGCGGAAAG------GGGGAGCAGA
AACCCAAAACC---TCCTCCGTCTCC---ATTCCCAGCTCGACCACGACC
ATTCCACTGGTGAAACGTCCTGCTGTAAAGGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGGCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAAAGCGGATTCAGACCCATCGTTAGAACCGATGGCACAGGCGTC
CAATTGCCCAAGGAGATCATCGACCAGGTGGCCCATCGACGCGAGGACCC
TGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTCCTGACAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGCACCAATGCCACGAAAGTGTTGAGGGTCAACGTGAA
GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTGCCCTCGGCAGCCTTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTCGACGAA
CTCTTTGAAGACGACTTAAACGAAGAGGAGCTGGAAATGGAGGAGCCCAT
GCCGGAGGCGGATGATGTGGAGCCACTGGAAGAGACAACCAAAAAAGATG
CAGTTACCACAAGAAAAGACATTCCG---AAAAACACCACCAAGAAACCG
GATTCCGCACTCCTGGAGGATCTCTTTGGGCCCGATGAAGAAGAGTTGTA
TGCTGAGGAGATGGAACTAGACATGGATGACCGAGTGGCGGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGACAACCGCAAGATACCCCAT
ACCCAGCTGCCGAGTGGAGCCCTGTACACCTTCGATGGCAAGTCGGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGGATGCGCCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAGTACGGATTGACCCCCTTGGAGCAG
CTGGTCCGTACCACACCCCAGTTTGGAGTCTATCGAGGAGAGCTGCCACA
GGAATTCCGGAGCACAGAACCGCAACCCGTCTCGGAGTATTCCCAT----
--------CCAGCGCCCTTCAGCCGAACCACT---------------CCT
GTGTTCTCGAGCAGCAGTGGCAGC---------ACCATCTATCCG---TA
CTCCTCATCGACAGGAGCCGCATCCACATCCACCCTATCATCGTCGTCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTTCTGAAGCCGGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>D_erecta_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGTCAGCTTTGGAGATGCCGCCTACCCCTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTCGACTCCCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCTGCCTACTTCTACGTGGGCAATACTGCGCGGCCCA
GCAATGAAGGCGCCGCCCGGCTGAGGGACGAAAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACACTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTGAACTTCGGCGACGTTTCCATTCCGCCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAACGCTCTGCGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAAACGCTGCTGGTGCCCAACTTTAGCTACG
ACGGAGAGGCGCCAGATGCTAAATTCTGGGTGGGTCGAGGCCAGCGGCCC
ACTTCCGACGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACAATTGTGCTGACCCTGCCCGATGACCTGA
CCATCTTCGACATTGGCCACTTCGGCGTTTGGTGCGAGGCCTTCACCGTC
GATTTCGGCCACGTTCGCCTGCCCGAGGGCCTCAATGTGCCGCCTTCCCT
GAAGATGCTCGGAATCAGTCCTCAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCTTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACAACTACATGTCCTTCGG
AATCTCGCCGAACAAGAACATCAGCCAGATGATTGGCGCGGATGCAGTGG
TGGCCTGGGTGGATCCGAAGTCCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGCGGGCGTGGCGCTTGTCCCGACAC
CAAGATCTCTGAGAAGACCAACTCCATAAGGCTACTAAACGCCGCCATGG
TGAATGGCTACTCGATTGTGACCTACCAGAGATCCCTAGCAGCCACGGAT
CGCCTGGATCTGCCCATCTCGATAACGGAAGCCGAGTCAGTGGTGTGGGC
CATTGGACCACTTAACGATTACCAGGAGGTCTCCTTCCACACTTTCTACA
ATAAGCATCTGCACCAGATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGC
CCCTTGCCAGAGGGTGCTCGTGCCGGCAGCAACTCATCGGAACAGGAGGA
CTCTGCTCCCGCGGCCCAGAGTTCCACTGGCGGAGCTGGCTACCCGCCAG
CGGGCAGACCCAACGTAGAGCCCGATGAGGAATTCTACGATAACCGGGCG
GAGGCACTGCATCGTCAGCCACCGCAGAGGCGCCAGGAAACAGCGATCAT
CACCCAAAGGCGCCCTGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCTGCCATTCAGTGCCACGAGCCAGAGGATGGAGTGTTC
TATGCCCAGATGGGTCCCACTGGAGGCAAACACGGCTATCCAGCCATCAC
AGGACACGTCGGTTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CCGAGATCCATGTGGTGCGCGGCAAGACGTACACATTTGTGGTGGAGGGC
GGAAACAATCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAAAAGGCCG
TGCGCATCTACGCCGGGGTGCATCGCTCCCGGTCCGGTCAGGTCACGCCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACACCGGACGTGGAGGGTCCTCC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAGCCGGGAGTGATTACCTGGAAGCCGGACCGGAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACACACCGCTACCTGGGATG
GAAGATCCACGTGCACGACTCCTGTGACTCGGAGGCG------GGCGGCC
TTAAGGGATCCCCCTCCGAACGCCACGAAATCCGGCTGCCG------CCG
ATGGCCAGCGCCGCGGAACCGGCGCCTGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAAGA
AC---CCGAATCTGAACCCCAACCATCCCAACCAGAACCAGAACCAGAAC
CCGATTCCGAATCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CATG
CCCACACGCTGAACGCATCTCCATCTCCATCTCAATCCGCATCCGCACCC
GCATACCCATCCCCATCTGCCACTTTACCCACTGCCAACCTAAAGCTACC
CATACTCGCGGCTGGT------------CCCCATCTCATCCAT---TATC
CCCCGCACTTGCATCGCCTGCACCACCAACCGCAGCATGCCACC------
CACCCG------CATCTCCATTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTCTACGTCCGC
CGCAGAACGCTCCGCTCTTTCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCCGCTCCGATCAAGAAGGTTCCGGCCTCAAGGCCCATACTTCCGCA
GCAGCATCCGCACCTGCATCCGCAT------CCGCAGCAGCATCCCGTCC
ATCTGCAGCAACAACCCTCCCTGATTGTTAGCCACTACAGAAAACCGATA
CCGGGATTGCTGAAGCCCTTCATCAAGGAGAAACCTTTTCCCCTGCAGCC
GCTGGCCGCGTCTGTCTTACTCCTGGGGCAGCCCACTGAGCTTGGA----
--------GGGCTGAATAGCAAGGGGGACCGACTCAAGGTGAAGGGCAAG
CCCAAGATTCCAGTACCTTATGTGGACCTGGAACCGCAGGGCTCTCTGCA
AAACACGGCTTTCTTTAAGCAGCCAGGCGGAAAG------GGGGACCAGA
AACCCAAGAGC---ACCTCTATCTCC---ATTCCCAGCTCCACCACGACG
GTTCCGCTGGTGAAACGTCCCACTGTAAAGGAACCGTCCCAGGAGGAAAT
CGCCAGTATGCGTCCTGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TTGTTGAGAGCGGATTCAGACCCATCGTTAGAACCGATGGCACTGGGGTC
CAATTGCCCAAGGAGATCATCGATCAGGTGGCCCATCGACGCGAGGATCC
CGGCACAGAAATCGATGAGGTGATGGAAACCGATACCCTGTTTCTGACAG
CCCAGCAGGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCA
TCGCCCTTGGACAGTACCAACGCCACGAAAGTGTTGAGGGTG------AA
GGAGGTTACTCCCACGGCGTCGGCTCTGAGATTGCCCTCGGCAGCTCTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTAAGGAAGCCCACCCTGGGCGAA
CTCTTTGGAGACGACTCAAACGAAGAGCAGCTGGAAATGGAGCCC---CT
GCCGGAGGCGGATGACGTGGAGCCACTGGAGGAGACAACCAAAAAAGATG
CCGTGACCACAACAAAAGACATTCTC---AGAAACACCACCAAGAAACCG
GATCCCGAACTGCTGGAGGACCTCTTCGGGCCCGATGAAGAGGAGTTATA
TGCGGATGAGCTGGAGCTAGACATGGATGACCGAATGGCAGCTGCTGCGG
AACGGATAGACACCTACTACCTGCCGCCGGATAACCGCAAGATTCCCCAT
ACCCGGGTGCCGAGTGGCGCCCTGTACACCTTTGATGGCAAGTCGGTGGT
GGACAGTAGCCTGGTGCTGCCGCCCAAATTGAATGCACCGGAC---AATG
GCGGCGTCCACCAGCGACATGCCCAGTATGGATTGACCCCCTTGGAACAG
CTGGTCCGTACCACACCACAGTTTGGAGTCTACAGAGGGGAGCTGCCACA
GGAATTCCGGGGCACAGAACCGCAACCCGTCTCGGAGTACTCCCAT----
--------CCAGCGGCCCTTAGCCGAACCACT---------------CCT
GTGTTCTCCAGCAGCAGTGGCAGC---------ACCATCTACCCG---CA
CTCCTCATCGTCAGGA---GCATCCACATCCACCGTATCATCATCGTCCT
CATCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTACAGCTTCTAAAGCCGGAAGGCCGAAGAGC
G-------------------------------------------------
--------------------
>D_takahashii_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCCTAGCCAGCTTTGCAGATGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCATCACGGCGTCTCCGGCGAT
GTGTACGCCGTGGATTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCAGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
GCAACGAGGGGGCCGCCCGGTTGAGGGACGAGAGGGGCGGAACTGCCTCC
CTCACCCGCCGTTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAGACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTCAACTTCGGCGACGTCTCCATTCCGGCCAACTTGGACTTCCCGAGG
CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGCGTCTCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAATTTCAGCTACG
ACGGCGAAGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGTCCC
ACTTCCGAGGGCCTGAGGATTCCGGACGAGAATGGCAAGGAGAATCCGCT
GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGATCTGA
CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
GATTTCGGCCATGTGCGCCTGCCCGAGGGCCTAAATGTGCCGCCCTCGCT
GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCATTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTAGCCAAATTGGAACCGAACCACTACATGTCCTTTGG
AATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGCGCAGATGCGGTGG
TCGCCTGGGTGGATCCCCAAACCGGAAACGGATTCGCCACGGACTACTTC
CTGGAGGGCAAGGCCCAGTGCTCCGGTGGACGTGGCGCCTGTCCGGACAC
CAAGATCCAAGAGAAGACCAACTCCATTCGTCTGCTGAATGCCGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAAAGATCTCTGGCTGCCACCGAT
CGTCTGGATCTGCCCATCTCGATAACGGAAGCGGAATCTGTGGTCTGGGC
AATTGGACCACTGAACGACTATCGCGAGGTCTCCTTCCACACGTTTTACA
ATAAGCACCTGCACAACATCGAGTTCGGTCGCCAGCCCAAGTGGAATTGT
CCCCTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
TTCCGCTCCGGCTGCCCAGAGTTCAACCGGCGGAGCTGGTTACCCGCCAG
CCGGAAGGCCCAATGTGGAGCCCGAAGAGGAGTTCTATGAGAATCGGGCG
GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGCCAGGAAACGGCCATCAT
CACCCAGCGACGTCCAGTGCCCACTCCAAAGCCGGTCAATAGCAATGGTG
CCTGGGACATACCGGCCATTCAGTGCCACGAACCGGAGGACGGAGTTTTC
TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGATATCCGGCCATTAC
AGGCCACGTTGGCTGGGGAATTTCTTGGTACATCAACGGACTTCTGATTC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACGCCC
ACTGGGGTGGGCCGCCTCTGCAACTGGACGCCGGACGTGGAGGGACCTCC
GGCGGACGACTACCAGTCATTCGGAGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGCGAACCGGGCGTCATCAGCTGGAAGCCGGACAGGAGT
ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATTTGGGATG
GAAGATCCACGTGCACGATGCCTGCGACTCGGAGGCG------GGCGGCT
TGAAGGGATCCGCCTCCGAACGCCACGAAATCCGCCTGCCAGCGGCTGCA
GAGGCAACATCCGCGGAACCGGCTCCCGTGCACGAGGACTACGCCGGCGA
GGCGTCCGTGAGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCTTAAAGAGGA
AC---CCCAATCTGAAT---------------CCGAACCTGAAC------
------CTGAACCTGAACCCCAATCAACATCCCAACCAGTACCCG---AA
AGCGAACGTGACCCCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCCGAATGCATCGCCATCCGCATCCGCATCA------------GCATCC
GCATTCCCATCCCCATCTGCATCTCCATCCCCCGCCACGCTGAAGCTACC
GATCTTCGCTAGCGGT------------CCCCATCTCATCCACCATCCCC
CGCACCCCTTGCATCGTCTGCACCACCATCCGCAGCATGCCCCCCACTCG
CATCCGCATCCGCATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTTGCCCAGAAAACCATTGGACTCTCTGAGTTTCTGCGTCCGC
CGCAGAACGCACCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGACCC
TTTCCCGCTCCCATCAAGAAGGTTCCGGCCTCGCGACCCGTGCTTCCGCA
GCAACATCCGCACCTGCATCCG---------------CAGCATCCCGTCC
TGCTGCAACAGCAACCCTCGCTGATTGTGAGCCACTACAGGAAGCCGGTG
CCGGGTCTGCTGAAACCCTTTGTCAAGGAGAAACCCTTTCCGCTGCAACC
GCTGGCCGCTTCTGTTTTGCTCCTAGGACAACCCACTGAGCTGGGCGGCG
GACTGGGTGGGCTGACCGCCAAGGGAGAACGGCTCAAGGTCAAGGGTAAA
CCCAAAATTCCAGTGCCCTATGTTGACCTCGAACCGCAGGGCTCTCTGCA
GAACACTGCTTTCTTCAATCAACCGGGCGGAAAGGGGGATCCCAAGCCCG
TAGCACCCAGT---TCAAGTTCCAGTTCCATGAGCAGCTCAACCACGACC
ACGCCGCTGGTCAAACGTCCTGCGGTGAAGGAACCCTCTCAAGAAGAAAT
CGCCAGCATGCGACCTGCCGTCAATCAGGGCTTCAAGCCAGACACCGTGA
TTGTGGAGAGCGGTTTTCGACCCATCATGCGAACCGATGGAACGGGCGTG
CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAATCGTCGCGAGGATCC
TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACCG
CCCAGCAAGGCGGCAGTGAAACCCAAAGCTTTGAGCCCATGTTTATACCA
TCTCCGTTGGACAGCACCAATGCTTCGAAGGTTTTAAGGGTGAATGTGAA
GGAGGTTAGTCCAACGGCTTCGGCTTTGAGATTACCATCGGCGGCTCTGG
AGCACGCGCTGCCCTCCGCCTCGGAGTTGAGAAAACCGACCTTGGACGAG
CTCTTTGGCGGGGAGTTGAACGAGGAGGAGCTGGAACTAGAGCCACTGCC
GCAGGGGGATGATGATGAGGAG---------GAGACAACTAAGAATTCAG
CCACTGCAACTACAAAAGAGATTCAGAGCACGACCACCAAGAAACCCAAG
GAAACCGAACTGCTGGAAGATCTCTTTGGACCCGATGAAGAGGATATATA
TGCCGATGAGCTGGAACTGGAAATGGATGACCGAGTGGCAGCTGCTGCGG
AGCGGATAGACACCTACTACCTGCCACCGGACAACAGGAAGGTTCCGCAT
GCCAGCCTGCCGAGTGGAGCCCTCTACACTTTCGATGGCAAATCGGTGGT
GGACAGCAGCCTGGTGCTGCCACCCAAATTGGATGCTGCGGGCAGTGGTG
GTGGAGTCCAGCAGCGACATGCCCAGTATGGACTGACACCCTTGGAGCAG
CTGGTCCGAACCACTCCGCAATTCGGGATCTTTAGGGGAGAGCTACCACA
GGAGTTCCGGGGCACAGAGCCCCAACCCGTTTCGGAGTATTCCCAT----
--------CCAGCGCCCTTTAGTCGAACCACCGGAAGCACCACCACTCCC
GGATTTTCCAGCAGCAGTGGCAGT---GGCAGCACCATCTATCCG---TA
CTCCTCATCGCCGGGC---ACATCCACATCGGCATCCTTCTCGCCATCGT
CATCGTCCTCATCGCCA---------------TTGTCATTATCATCGCTG
AGACCCATTTCCACCAAGTTGCAGCTTCTGAGGCCGGAGGGCCGAAGGGC
G-------------------------------------------------
--------------------
>D_biarmipes_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCCATTTGGCCTATTGGC
CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGCGTCTCCGGCGAC
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGAAGCCCA
GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGCAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CCGTGAACTTCGGCGACGTCTCCATTCCGGCCAACCTGGACTTCCCGAGG
CCGCAGAAGATCAACGCCCTGAGGGGCGTCCATGGAGTGTCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
ACGGGGAGGCTCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACTTCCGAGGGCCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
GCGTCGCTACGAGCGCAAGACCATTGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGATATCGGCCACTTTGGCGTTTGGTGCGAGGCCTTCACCGTC
GACTTCGGCCATGTCCGCCTGCCGGAGGGCCTGAATGTGCCGCCCTCGCT
GAAGATGCTCGGCATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTTT
ACGACGATCTGGCTTTCGAGGTGCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAATAACTATATGTCCTTTGG
AATCTCGCCGAGCAAGAACATGTCCCAGATGATCGGCGCAGATGCAGTCG
TGTCCTGGGTGGACCCTCAAACCGGAAACGGATTCGCCATTGACTACTAC
CTGGAGGGCAAGGCGCAGTGCTCCGGTGGGCGCGGCGCCTGTCCGGACAC
CAAGATCTCCGAGAAGACCAACTCCATCCGGCTGCTGAATGCCGCCATGG
TGAACGGCTACTCGATTGTGACCTACCAGAGATCTCTGGCTGCCACGGAT
CGTCTGGATCTGCCTATCTCAATTACGGAGCCAGAATCGGTGGTCTGGGC
AATTGGACCACTGAACGATTACCACGAGGTCTCCTTCCACACGTTCTACA
ACAAGCACGTCCATCAGATCGAGTTCGGCCGCCAGCCCAAGTGGAATTGT
CCCTTGCCAGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAGGA
CTCTGCTCCTGCTGCTCAGAGTTCAACTGGCGGAGCTGGTTACCCACCGG
CGGGAAGGCCCAATGTGGAGCCCGAAGAGGAATTCTATGAGAATCGGGCG
GAGGCACTGCATCGCCAGCCGCCGCAGAGGCGACAGGAAACGGCCATCAT
CACCCAGAGGCGTCCAGTGCCCACCCCAAAGCCAGTGAATAGCAATGGTG
CATGGGACATCCCTGCTATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
TACGCCCAAATGGGTCCCACGGGAGGAAAGCACGGCTATCCAGCTATCAC
AGGACACGTTGGCTGGGGAATTTCGTGGTACATCAACGGACTCCTGATTC
CCGAGATCCATGTAGTTCGCGGCAGGACGTACACCTTTGTGGTGGAGGGC
GGCAACAACCCGGACATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAGCGCGAGGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGTTCCGGCCAGGTCACACCC
ACCGGCGTGGGCCGCCTCTGCAACTGGACGCCAGATGTGGAAGGTCCTCC
TGCGGACGACTACCAATCCTTTGGAGCCTATCAGCGCACTTTGACCCTCA
AGTGCGACGCCGGAGAGCCCGGCGTCATTAGCTGGAAGCCGGATAGAAAT
ACGCCGGACACGGTGTACTACCACTGCTTCACCCACCGCTATCTGGGATG
GAAAATCCACGTGCATGATGCCTGCGACACGGAAGCC------GGTGGAC
TCAAGGGATCCGCGTCGGAGCGCCACGAAATCCGGCTGCCG------GCG
GAGGCCAACCCCGCGGAAGCGGCTCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CAGAACCTGAACCATCCCAACAACCACCCCAACCAGTAC------
------CCGATTCCGAATCCGCACCAGAAACCGAACGTGACCCCAACCGA
GATCAACTCGCGCCCCGAGATTCTGCTGGGCGAGACCCAAGCC---CACA
AGCCGAATGCATCTCCAACCGCATCCGCACCA------------CCATCC
GCATTCCCATCCCCATCTGCATCGCCATCCCCAGCCACACTGAAGCTACC
CATCTTCGCCAGTGGT------------CCCCATCTCATCCACCACCCCC
CACACTCCCTGCATCGCCTGCACCACCATCCGCAGCATGCCCCCCACTCA
GCTCCG------CATCTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTCCTGCGTCCGC
CGCAGAATGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGACCC
TTCCCAGCACCCATCAAGAAGGTTCCGGCCTCGAGGCCCGTGCTTCCGCA
GCAACATCCGCACCTGCATCCGCAT---------CCGCAGCATCCTGTCA
TGCTGCAACAGCAGCCCTCCTTGATTGTGAGCCACTACAGGAAGCCGGTG
CCGGGTCTGCTCAAGCCTTTCGTCAAAGAGAAACCCTTTCCTCTGCAACC
GCTGGCTGCTTCTGTTCTGCTCCTGGGACAACCCACGGAACTGGGCGGGG
GACTGGGCGGACTAGGCGCCAAGGGAGAACGACTCAAGGTCAAGGGTAAA
CCCAAAATTCCAGTGCCCTATGTCGACCTAGAACCGCAGAGCTCTCTGCA
AAACACAGCCTTCTTTAATCAGCCAGGTGGAAAGGGTGATCCGAAGCCCA
TTTCCCCC------ACATCCAGCTCCGTAACCAGCTCAACCACAACTACG
ACTCCGCTGGTGAAACGGCCGCCGGTGAAGGAACCCTCTCTGGAGGAGAT
CGCCAGCATGCGTCCTGCGGTAAATCAGGGCTTCAAGCCCGACACTGTGA
TCGTGGAGAGCGGATTCCGACCCATCATGAGAACCGATGGCACTGGGGTG
CAGTTGCCCAAGGAGATCATCGAACAGGTGGCCAACCGTCGCGAGGATCC
TGGCACCGAAATCGATGAGGTGATGGAAACGGATACGCTGTTCCTGACCG
CTCAACAGGGTGGCAGTGAGACCCAAAGCTTTGAGCCCATGTTTATACCA
TCTCCCTTGGACAGTACCAACGCTACTAAGGTTTTAAGGGTTAATGTGAA
GGAGGTTAGTCCCACGGCTTCGGCTCTGAGATTACCCTCGGCTGCCTTGG
AGCACGCCCTGCCCTCCGCTTCGGAGTTGAGAAAGCCTACCTTGGATGAA
CTTTTTGGAGAGGAGATAGACGAGGAGGAGCTGGATCTAGAGCCAATGCC
GGTTAGGGATGATGTTGAGGAGCTTCTCGAAGAGACAACCAAGAAGGCAG
CCATGGCCACCACAAAAGAGATGCCAAGTTCGACTACCAAGAGACCT---
GAATCCGAATTGCTTGAGGATCTCTTTGGGCCCGAAGAAGACGACATTTA
TGCGGATGAAATGGAACTCGAAATGGATGACCGAGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
TCCAGCCTGCCGAGTGGAGCGCTCTACACCTTCGACGGCAAGTCGGTGGT
GGACAGCAGCCTGGTGTTACCACCCAAATTGGATGCCGCGGACCTAGGTG
GTGGC---CACCAGCGACATGCCCAGTACGGTCTAACTCCCTTGGAGCAG
CTGGTCCGAACCACACCGCAATTTGGCATCTTCAGGGGAGAGCTGCCACA
GGAGTTCCGGGGTACAGAGCCCCAACCCGTTTCGGAGTACTCCCAC----
--------CCAGCTCCATTTAGTCGAACCAGC---------ACCACTCCC
GGATTTTCCAGCAGCAGCAGCAGCAGTGGCAGCACCATATATCCC---TA
CTCCTCGTCGCCGAGA---ACATCCACATCCCTATCGACATTGTCATCGT
CATCGTCCTCATCGCCA---------------TTGTCCTCATCATCGCTG
AGACCCATCTCCACCAAGCTGCAGCTCCTAAAGCCCGAGGGCCGAAGAGC
G-------------------------------------------------
--------------------
>D_eugracilis_Skeletor-PE
ATGTTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTTGTTGACTTTGGAGATGCTGCCTACCCGTATTATG
GCACCAAGATCGGAGCCCTAACCCGCCTCCATCACGGTGTCTCCGGGGAT
GTGTACGCCGTGGACTCACGCACCATTTTCATCAAGAAATTCAACTACGA
TGGTGAGGCGCCGGCGGCCTACTTCTATGTAGGAAACACGGCGCGGCCTA
GTAATGAGGGAGCCGCTCGACTGAGGGATGAGCGCGGTGGAACTGCTTCC
CTGACACGTCGCTATCGGAACAAAGATGTAACTCTGTCCCTGCCTGAGGG
CAAAACGTTGCGCGACATCAAATGGTTCTCGGTTTGGTGCGATGAGTTTG
CGGTGAACTTTGGTGATGTCTCCATCCCAGCCAACTTGGACTTCCCGCGG
CCACAGAAGATCAGTGCTCTTAGGGGTGTCCATGGCGTCTCCTCTGACAA
CATTGTCATCGTGGACGCTCAGACGCTGCTGGTCCCCAACTTCAGCTACG
ACGGCGAAGCGCCAGATGCCAAATTCTGGGTTGGTCGCGGCCAGAGGCCC
ACTTCTGAGGGTCTGAGGATTCCGGACGAGAATGGCAAAGAGAACCCGCT
GCGTCGCTACGAACGCAAGACCATTGTGCTGACCCTGCCAGAGGATTTGA
CCATCTTTGATATCGGTCACTTTGGCGTTTGGTGTGAGGCCTTCACTGTG
GACTTCGGACATGTTCGCCTGCCGGACGGACTCAATGTACCGCCCTCGCT
GAAGATGCTGGGAATCAGCCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGATGATCTGGCATTCGAGGTGCGCTGGGCAGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAGTTGGAACCGAACAATTACATGTCCTTTGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGTGCAGATGCTGTGG
TGGCCTGGGTTGATCCTCAAACCGGAAATGGTTTCGCCACCGATTACTTC
CTGGAGGGCAAGGCCCAATGTTCAGGTGGACGCGGTGCCTGCCCAGACAC
TAAGATCTCTGAGAAGACCAATTCCATTCGTCTGCTAAATGCCGCCATGG
TGAATGGCTATTCCATTGTGACCTACCAAAGATCTCTGGCAGCCACGGAT
CGTCTGGATCTGCCCATCTCGATTACGGAAGCGGAATCTGTGGTCTGGGC
TATTGGACCACTGAATGATTACCGAGAGGTCTCCTTCCACACGTTCTACA
ATAAGCATCTGCACCAGATCGAGTTCGGTCGTCAGCCCAAGTGGAATTGT
CCTCTGCCTGAGGGAGCTCGC---------AACTCCTCTGAACAGGAGGA
CTCGGCTCCAGCTGCACAGAGCTCAACTGGAGGAGCTGGTTATCCACCAG
CAGGAAGACCCAATGTTGAGCCCGACGAGGAGTTCTACGAGAATAGGGCG
GAGGCCTTGCATCGCCAGCCACCGCAGAGGCGCCAGGAAACGGCCATCAT
CACCCAAAGACGTCCAGTGCCCACACCAAAGCCAGTCAACAGTAACGGCG
CCTGGGACATCCCGGCCATCCAGTGTCACGAACCTGAGGATGGAGTTTTC
TATGCTCAGATGGGACCCACGGGAGGAAAGCACGGATATCCAGCAATCAC
AGGACACGTCGGCTGGGGAATTTCCTGGTACATCAACGGACTTCTGATCC
CTGAAATTCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCCGACATTCCGGCCAAGTACCATCCATTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAGAAGAAGTCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGGTCTGGCCAAGTCACGCCC
ACCGGCGTTGGCCGCCTCTGTAACTGGACGCCAGACGTGGAGGGTCCTCC
GGCGGACGACTACCAATCGTTCGGAGCCTATCAGCGCACTTTAACCCTGA
AGTGCGATGCTGGAGAGCCGGGAGTGATAAGCTGGAAGCCAGACAGGAAC
ACACCGGACACAGTCTACTATCACTGCTTCACACATCGCTATCTGGGATG
GAAGATCCACGTACATGACGCCTGTGACTCGGAAGCG------GGCGGAC
TCAAGGGAGCCGCCTCGGATCGCCACGAGATCCGGCTGCCG------GTG
GAAGGAACCGGAGCGGAACCGGCACCCGTGCACGAGGAGTACGCCGGAGA
GGCGTCCGTCCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACTGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTAATGAAGA
AC---CCGAATCTGAACCCT---CTGAACCATCCCAACCAGAAC------
------CCGATTCCGTATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCTGAATACATCTCCATCCGTATTCCCA---------------------
---------TCCCCATCTGCCTCACCATCCCCCGCCAATCTTAAGCTGCC
CATTTACGCGGCTGTT------------CCCCATCTCATCCAC---CATC
CCCCGCACTTGCATCGCCTGCACCAACATCCGCAGCATGCCCTG------
CATCCG------CATGTCCATTTGCATCATCACAATCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATTGGACTCTCTGAGTTTTTGCGTCCGC
CGCAGAACGCTCCGCTCTTCCATCCGGTTAAGCTGCCCGGCCGTCGACCT
TTCCCTGCTCCGATCAAGAAAGTGCCGGCCTCCAGGCCCATACTACCGCA
GCAACATCCCCACCTGCATCCGCAT------CCACAGCAGCTGCCCGTCT
TACTGCAGCAGCAGCCCTCCTTGATTGTGAGTCACTACAGGAAGCCAGTG
CCGGGATTGCTGAAGCCTTTCGTCAAGGAAAAACCCTTCCCACTGCAACC
GCTTGCTGCCTCTGTCCTACTCCTGGGGCAACCCACTGAATTGGGCGGAG
GACTTGGTGGGCTGAACCAGAAAGGAGAGCGACTGAAGGTCAAGGGTAAA
CCTAAAATTCCAGTACCCTATGTAGACTTGGAACCGCAGGGCTCTCTACA
AAACACGGCCTTCTTTAATAAACCAGGCGGAAAGGTTGAACAGAAACCGA
TTGTTACTCCTCCTACTGGTGCTAGTTCTGTTAGCAGCACAACCACGACC
ACGCCGTTGGTTAAACGCCCTCCTGTCAAGGAACCATCCCAAGAAGAAAT
CGCCAGCATGCGACCTGCTGTGAATCAGGGTTTTAAGCCCGATACCGTGA
TCGTGGAGAGCGGCTTCCGACCCATCATGAGAACTGATGGCAGTGGTGTC
CAATTGCCCAAGGAGATCATAGACCAGGTGGCCCATCGCCGAGAAGATCC
TGGCACTGAAATCGACGAGGTAATGGAAACGGATACGCTATTTCTGACAG
CTCAGCAGGGTGGCAGTGAAACCCAGAGCTTTGAGCCCATGTTTATACCA
TCTCCTTTGGATAGTACCAATGCCTCGAAGGTTCTAAGGGTAAATGTAAA
GGAGGTTAGTCCTACGGCTTCGGCTTTGAGATTACCTTCCTCAGCTGTGG
AGCACGCCCTGCCATCCGCCTCGGAGTTGAGAAAGCCCACTTTGGATGAA
CTCTTTGGAGAGGAGATAACCGATGAGGAAGTGGTACTCGAACCACTTGA
A---------GATGATGATGAGCTACTGGAAGAAACAACCAAGAAGGCAG
CAGTAAAAACTACAAAAGAGATTCCAAGCACCACTACAACCAAAAAACCT
GAACACGAACTCCTAGAGGACCTCTTTGGACCCGACGAAGAGGATATTTA
TGCGGATGAGATGGAACTTGAAATGGACGACCGAGTGGCAGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCACCGGACAACCGGAAGGTTCCCCAT
GCCAGTCTACCAAGTGGAGCGCTCTATACCTTCGATGGCAAGTCAGTGGT
GGACAGTAGTCTGGTGCTACCACCCAAATTGGATGCCGTAGAC---AATG
GTGGAGTCCATCAGCGACATGCTCAGTATGGGCTTACACCCTTGGAGCAG
CTCGTTCGAACTACCCCTCAATTTGGGGTATTTAGAGGAGAGCTGCCGCA
AGAATTCCGAGGAACAGAACCTCAGCCCGTTTCAGAGTATTCCCAT----
--------CCAGCGCCTTTCAGTCGAACCAGC---------ACAACTCCG
ATATTCTCCAGCAGCAGTGGCAGC---------ACCATATATCCG---TA
CTCCACATCGTCAGGA---ACATCCACATCCATATCGTCACTGTCGTCAC
CGTCGTCATCGTCCTCATCGCCA---------TTGTCCTCATCCTCGCTG
AGACCCATTTCCACCAAGTTGCAACTTCTGAAACCGGAGGGCAGAAGAGC
G-------------------------------------------------
--------------------
>D_ficusphila_Skeletor-PE
ATGCTGGCAATGAAGGATAAACCTTGGCTGATGCTATTTGGCCTATTGGC
CGCATTAAGCTGTTTGGCCAGCTTTGGAGACGCCGCCTACCCATATTACG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGAGTCTCCGGGGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
TGGCGAGGCGCCAGCTGCCTACTTCTATGTGGGCAACACGGCGAAGCCGA
GCAACGAAGGAGCCGCTCGTCTGAGGGACGAAAAGGGCGGAACCGCCTCC
CTGACCCGTCGCTACAGGAACAAGGACGTAACCCTTTCGCTGCCAGAGGG
AAAAACCCTGCGCGACATCAAGTGGTTCTCCGTGTGGTGCGATGAGTTCG
CGGTGAACTTCGGAGATGTCTCCATTCCGGCCAACTTGGACTTCCCTCGG
CCGCAGAAGATCAACGCTTTGAGGGGCGTTCATGGCGTTTCCTCCGACAA
TATTGTGATCGTGGACGCCCAGACTCTGCTGGTTCCAAACTTCAGTTACG
ATGGAGAAGCGCCAGATGCCAAATTCTGGGTGGGCAGAGGACAGAGGCCC
ACCTCGGAGGGTCTGAGGATTCCCGATGAGAACGGCAAGGAGAATCCCCT
CCGTCGCTACGAGAGAAAAACTATCGTTTTGACTTTGCCGGAGGATCTGA
CCATCTTCGATATTGGCCACTTTGGCGTGTGGTGCGAGGCCTTCACCGTG
GATTTTGGCCACGTTCGCCTGCCGGAGGGCCTGAATGTCCCTCCCTCGCT
GAAAATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTGGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAATTGGTGGCCAAGTTGGAACCCAACAACTACATGTCCTTCGG
AATCTCCCCGAACAAGAATATCAGCCAGATGATTGGTGCGGATGCAGTGG
TTGCCTGGGTGGATCCCCAAACCGGAAATGGATTCGCCACCGATTACTTC
CTCGAAGGCAAGGCGCAGTGCTCCGGTGGGCGTGGCGCCTGTCCCGATAC
CAAGATCTCCGAGAAGACAAACTCCATCCGGCTGCTAAACGCTGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAGAGATCCCTGGCTGCCACGGAT
CGATTGGATCTTCCAATCTCGATTACGGATGCGGAATCTGTGGTCTGGGC
AATTGGACCACTGAATGACTACCGCGAGGTCTCCTTCCACACCTTCTACA
ACAAACACTTGCACCAGATTGAATTTGGCCGTCAGCCCAAGTGGAATTGT
CCTCTGCCGGAAGGAGCTCGTCCTGGCAGCAACTCCTCCGAACAGGAGGA
CTCCGCCCCCGCAGCCCAGAGTTCAACGGGAGGAGCAGGCTATCCCCCAG
CAGGAAGACCCAATGTGGAGCCCGATGAGGAGTTCTACGAGAACCGGGCG
GAGGCACTGCATCGCCAGCCGCCTCAGAGGCGCCAGGAAACCGCCATCAT
CACCCAACGGCGACCTGTTCCCACTCCGAAGCCAGTGAACAGCAATGGAG
CCTGGGACATCCCCGCCATCCAGTGCCACGAGCCGGAAGATGGAGTCTTC
TACGCCCAGATGGGTCCCACGGGTGGAAAGCATGGCTATCCAGCAATCAC
AGGTCATGTTGGCTGGGGAATTTCCTGGTACATCAACGGACTCCTGATCC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTCGTAGTGGAGGGT
GGTAACAACCCAGACATCCCAGCCAAGTACCATCCGTTCTACATCAGTGA
TGATCCTGTGGGAGGATACGAACACAAACGCGAAGAGGAGAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGCTCCGGCCAGGTGACCCCC
ACCGGCGTGGGCCGCCTGTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
GGCGGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGATGCCGGTGAGCCGGGCGTGATCAGTTGGAAGCCGGACAGGAGC
ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTTGGATG
GAAGATCCACGTCCACGACGAATGCGATTCGGAGGCGAGTGGCGGCGGAC
TGAAGGGAGCCGCCTCCGATCGCCACGAGATCCGACTGCCG------GCG
GAGGCAGCG------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTGCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
ACCTACCGAATCCGAATCCG---AATCTGAAACCCCATCCCAAC------
------CAGAACCCGAATCCGCACCAGAAACCGAACGTCATCCCGAACGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCACGCCACCCACA
AGCTGAACGCATCTCCATCCGCCATCCCCCCATCC---------GCATCC
GCATCCGCCTCAGCATCCGCATCCGCATCCCCTGGCAATCAAAAGCTGCC
CATTTATGCAGCTGGT------------CCCCACATCATCCATCCCCATC
CCCCGCACTTGCATCGCCTGCACCACCATCCGCAGCATGCCGCGAATATT
CATCCG------CATCCGCACTTGCATCACCACAATCTAACCGCTAATCT
TCCAGCGCTCGCACAGAAAACCATTGGACTCTCCGAGTTCCTGCGTCCGC
CGCAGAATGCTCCGCTCTTCCATCCGGTCAAGCTGCCCGGCCGTCGTCCC
TTCCCGGCTCCCATCAAGAAAGTCCCCGCCTCGCGGCCTGTGCTTCCGCA
GCAACATCCGCACCTGCATCCGCAA---------CAG---CATCCGGTTC
TGTTGCAACAA---CCTTCCTTGATTGTGAGTCACTACAGGAAACCGGTT
CCGGGATTGCTGAAACCCTTCATCAAGGAGAAACCCTTCCCGCTGCAACC
GCTGGCTGCCTCCGTTTTGCTCCTCGGGCAACCCACTGAATTGGGTGGCG
TCTTGGGG---CCAATCAGCAAAGGTGAACGACTGAAGGTCAAGGGCAAG
CCCAAAATTCCAGTTCCCTATATCGATTTGGAACCCCAAAGTTCACTGCA
AAACACAGCCCTATTCAATCAACCTGCG---AAGGTGGAACCAAAGCCTG
TGGTGACTCCG------CCAACCATCTCCACTTCCAGTTCAACCACAAGT
ATTCCCCTCGTGAAACGTCTAAATGTTAAGGAACCTTCTCTTGAAGAAAT
CGCCGCCATGAGACCTGCTGTGAATCAAGGCTTTAAACCGGACACCGTGA
TCGTGGAGAGCGGTTTTCGACCCATCATGAGAACCGACGGCACGGGTGTC
CAACTGCCAAAGGAAATCATTGACCAAGTGGCTCATCGAAGAGAGGATCC
TGGCACCGAGATCGATGAGGTGATGGAAACGGATACTCTATTTTTGACTG
CCCAACAGGGAGGCACTGAAACCCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCTTTGGACAGTACCAATGCCTCGAAGATTCTTAAGGTTAAGATAAA
GGAGGTGAGTCCCACGGCTTCGGCATTGCGTTTACCCTCAGCAGCTTTGG
AGCACTCTCTGCCCTCCGCTTCGGAGTTGAGAAAGCCCACTTTGGATGAG
CTATTCGGGGAGGAGTTGAACGAAGAGGAGCTGGAACTGGAGCCACTGCC
CCAAGGA---GATGATGAGGAACTGCTGGACGAGACCACCAAGAAAGCAG
CTCCAACCACCACAAAGGAGCCACCACCAAGCAGCACCACCAAGCAAACG
GAAACGGAACTGTTGGATGACCTCTTCGGACCCGATGAGGAGGACGTCTA
TGCAGATGAGCTGGAGCTCGAGATGGATGATCGAGTGGCAGCTGCTGCGG
AGCGAATCGATACCTACTACTTGCCACCGGATAACCGAAAGATTCCCCAC
GCCAGCTTGCCCAGTGGAGCACTCTACACCTTCGATGGCAAGTCGGTGGT
GGATAGTAGCTTGGTATTGCCACCCAAATTGGATGCAGTGGAT---AATC
TTGGAATTCAGCAAAGACATTCCCAGTACGGGTTGACTCCTTTGGAGCAG
CTAGTTCGCACCACTCCGCAGTTTGGGATCTTTAGAGGGGAGTTGCCACA
AGAGTTCCGAGGCACAGAACCCCAGCCCGTTTCGGAGTACTCCCACACCC
ATTCCAACCCGGCTCCATTCAGTCGAACGACT---------CCGGGATTC
ACCACATCGAGTAGCAGTGGCAGC---------ACCATCTATCCG---TA
CTCCTCATCCCCGGGA---ACATCCACATCCATATCATCATCATCATCAT
CGCCA---------------------------TTGTCCTCATCCTCGCTG
AGACCCATTTCCACCAAGTTGCAGCTACTGAAGCCGGAGGGAAGAAGGGC
G-------------------------------------------------
--------------------
>D_rhopaloa_Skeletor-PE
ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTAGCCAGCTTCGGTGACGCGGCTTACCCGTACTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAACACGGCGCGGCCCA
GTAACGAGGGTGCCGCCCGGCTGAGGGACGAAAGGGGCGGTACCGCCTCC
CTGACCCGTCGCTACCGGAACAAGGACGTTACCTTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGATATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTTG
CCGTTAATTTCGGCGACGTCGCTATTCCGGCCAACTTGGACTTCCCGCGC
CCGCAGAAGATCAACGCCCTGAGGGGAGTCCATGGGGTATCCTCCGACAA
CATTGTCATCGTGGACGCCCAGACACTGCTCGTGCCCAACTTCAGCTATG
ACGGCGAGGCGCCAGATGCCAAATTCTGGGTGGGTCGTGGCCAGCGGCCC
ACGTCCGAGGGTCTGAGGATTCCGGACGAGAATGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACGATCGTATTAACCCTGCCCGAGGATCTGA
CCATCTTCGATATCGGTCACTTTGGCGTGTGGTGTGAGGCCTTCACCGTC
GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTAAATGTGCCGCCCTCGCT
GAAGATGCTCGGAATCAGTCCACAGTCGAAGCTCAACTGCGAGGTGCTCT
ACGACGATCTAGCCTTCGAGGTTCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGAACCGAACCACTACATGTCCTTCGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATCGGGGCAGATGCCGTGG
TGGCTTGGGTGGATCCCCAAACCGGAAACGGATTCGCGACCGACTACTTC
CTGGAGGGCAAGGCGCAGTGTTCAGGTGGACGTGGCGCCTGTCCGGACAC
CAAGATCTCGGAGAAGACCAACTCCATCCGACTGCTCAATGCTGCCATGG
TGAATGGCTATTCGATTGTGACCTACCAAAGATCGCTGGCTGCCACGGAT
CGTTTGGATTTGCCCATCTCGATTACGGACGCAGAATCGGTAGTGTGGGC
AATTGGACCGCTTAATGATTTCCGAGAAGTCTCCTTCCACACGTTCTACA
ATAAGCACCTGCACCAGATCGAGTTTGGTCGCCAGCCCAAGTGGAATTGT
CCTTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCATCCGAGCAGGAAGA
CTCCTCTCCCGCAGCCCAGAGTTCGACGGGTGGAGCGGGTTATCCGCCAG
CAGGAAGACCCAATGTCGAGCCTGATGAGGAGTTCTACGAGAATAGGGCG
GAGGCACTGCATCGACAGCCCCCGCAGAGGCGCCAGGAAACCGCCATTCT
CACCCAGCGGAGACCCGTTCCCACTCCAAAACCAGTGAACAGCAATGGTG
CCTGGGACATCCCCGCAATCCAGTGCCACGAGCCAGAGGACGGAGTGTTC
TACGCCCAGATGGGTCCCACGGGAGGAAAACACGGTTATCCAGCAATTAC
AGGCCACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTACTTATCC
CCGAGATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAACAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
TGATCCTGTGGGAGGATACGAACACAAACGCGAGGAGGAAAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCACCGCTCTCGATCTGGCCAGGTCACGCCT
ACCGGCGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
GGCCGACGACTACCAGTCCTTCGGCGCCTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCGGACAGGAAC
ACACCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGCC
TGAAGGGAGCGCCCTCCGAGCGCCACGAGATCCGGCTGCCG------GCG
GAACCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTTCGGCACGAAACCAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCC---CATCCCAACCAGAACCCGATT------
------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGCTGGGCGAGACCCATGCC---CACA
AGCTGAACACATCTCCATCCGCATTCCCA---------------------
---TCCCCATCCCCATCAGCATCACCCTCCCCCGGCAACCTGAAGCTGCC
CATCTTCGCGGCCGGT------------CCCCATCTCATCCAC---CATC
CCCCGCACTTGCATCGCCTGCAACACCACCACCTCCAGCAGCATGCCCCC
CACCCG------CATCTCCATTTGCATCACCACAACCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
CGCAGAACGCACCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGCCCC
TTTCCCGCGCCCATCAAGAAGGTCCCGGCCTCCAGGCCCATCCTCCCGCA
GCAGCATCCGCATCTGCATCCGCAT---------CCG---CATCCCGGCC
TTCTGCAGCAG---CCCTCCTTGATTGTGAGTCACTACAGGAAGCCGGTG
CCCGGATTGCTGAAGCCCTTCGTCAAAGAGAAACCCTTCCCGCTGCAGCC
GCTGGCTGCCTCGGTTCTGCTCCTGGGACAGCCCACTGAACTGGGCGGAG
GACTGGGG---CTGGGCAACAAGGGCGAGCGACTGAAGGCCAAGGGTAAG
CCGAAAATTCCAGTGCCCTATGTGGATCTGGAACCGCAGGGCTCGCTGCA
AAACACGGCCTTCTTTAATCAGCCGGGA---AAGGGGGATCAGAAGCCCA
TAGCTACTCCC------GCCTCCAGCACCACACCCAGCTCAACCACGACC
ACGCCGCTGGTGAAACGTCCTCCCGTGAAGGAACCTTCCCTGGAAGAAAT
CGCCAGTATGCGACCAGCCGTAAATCAGGGCTTCAAGCCCGACACCGTGA
TCGTGGAAAGTGGCTTCCGACCCATCATGCGAACAGATGGCAGTGGGGTC
CAGTTGCCCAAGGAAATCATTGAGCAAGTGGCCCATCGCCGGGAGGATCC
GGGAACCGAAATCGATGAGGTGATGGAAACGGATACGCTATTCCTGACAG
CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCTTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
GGAGGTGAGTCCCACGGCCTCGGCCTTAAGATTGCCCTCTGCGGCTCTGG
AGCACGCCCTGCCCTCCGCCTCGGAGTTGAGGAAGCCCACCTTGGACGAA
CTCTTTGAAGACGAGATAAACGAAGAGGAGCTGGAACTAGAGGCAGTTCC
CGAAGGA---GATGATGAAGAGGTACTTGAAGAGACCACCAAGAAGGCAG
CGCCGACCACTCCAAAAGAGATTCCA---AGCAGTACCACCAAGAAACCG
GAATCCGAACTCCTAGAGGACCTCTTCGGTCCCGAGGAAGAGGATATATA
TGCGGATGAGATGGAACTGGAAATGGATGACCGAGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGCAAGGTTCCCCAT
TCGAGTCTACCAAGTGGAGCCCTCTACACCTTCGATGGCAAGTCCGTGGT
GGACAGTAGCCTGGTGCTGCCACCCAAATTGGATGCGGCCGAG---AGTG
TAGGAGTCCACCAGCGTCATGCCCAGTATGGGCTTACGCCTTTGGAGCAG
CTCGTACGAACCACTCCGCAGTTTGGAGCTTACAGAGGGGAGTTGCCACA
GGAGTTCCGGGGAACTGAGCCCCAACCCGTGTCGGAGTACTCACAT----
--------CCGGCGCCCTTCATTCGAACAAGC---------ACCACTGCG
GGATTTTCCACCAGCAGTGGCAAC---------ACAGTCTATCCG---TA
CTCCCCATCGCCAGGA---GCATCCACATCCACATTATCATCATCATCAT
CGTCGCCA------------------------TTGTCCTCATCATCGCTG
AGACCCATCTCCACCAAGTTGCAGCTACTGAAGCCAGTGGGCCGAAGGGC
G-------------------------------------------------
--------------------
>D_elegans_Skeletor-PE
ATGCTGGCAATGAAGGATAAACCTTGGCTGCTGCTATTTGGCCTATTGGC
CGCATTAAGCTGCTTAGCCAGCTTCGGAGACGCGGCTTACCCGTACTATG
GCACCAAGATCGGAGCCCTGACCCGCCTGCACCACGGTGTCTCCGGCGAT
GTGTACGCCGTGGACTCGCGCACCATCTTCATCAAGAAGTTCAACTACGA
CGGCGAGGCGCCGGCGGCCTACTTCTATGTGGGCAATACGGCGCGGCCCA
GCAACGAGGGTGCCGCCCGGCTGAGGGACGAGAGGGGCGGAACCGCCTCC
CTGACCCGCCGCTACCGGAACAAGGACGTCACCCTGTCGCTGCCCGAGGG
CAAAACGCTGCGCGACATCAAGTGGTTCTCGGTGTGGTGCGATGAGTTCG
CGGTCAACTTCGGCGACGTCGCCATTCCGGCCAACTTGGACTTCCCGCGT
CCGCAGAAGATCAGTGCCCTGAGGGGAGTACACGGGGTCTCCTCCGACAA
CATTGTGATCGTGGACGCCCAGACGCTGCTGGTGCCCAACTTCAGCTACG
ACGGCGAGGCGCCAGATGCCAAGTTCTGGGTGGGTCGTGGCCAGCGGCCC
ACGTCCGAGGGTCTGAGGATTCCGGACGAGAACGGCAAGGAGAACCCGCT
GCGCCGCTACGAGCGCAAGACGATTGTGCTGACCCTGCCCGAGGACCTGA
CCATCTTCGACATCGGTCACTTTGGCGTGTGGTGCGAGGCCTTTACCGTC
GATTTCGGCCATGTCCGCCTGCCGGAGGGCCTCAATGTGCCGCCCTCGCT
GAAGATGCTCGGCATCAGTCCACAGTCGAAACTCAACTGCGAGGTGCTCT
ACGACGATCTAGCCTTCGAGGTCCGCTGGGCGGTGGCCGGCGAGAGCATC
GTGGTCCAGTTGGTGGCCAAATTGGATCCGAACCACTACATGTCGTTCGG
CATCTCGCCGAGCAAGAACATCAGCCAGATGATTGGCGCAGATGCAGTGG
TGGCCTGGGTGGATCCCCAAACCGGAAACGGATTTGCAACGGACTACTTC
CTGGAGGGCAAGGCGCAGTGCTCGGGCGGACGTGGTGCCTGTCCGGACAC
CAAGATCTCGGAGAAGACCAACTCCATCCGGCTGCTCAATGCTGCCATGG
TCAATGGCTACTCGATTGTGACCTACCAAAGATCCCTGGCTGCCACGGAT
CGCCTGGATCTGCCCATCTCGATCACGGACGCTGAGTCGGTGGTCTGGGC
CATTGGACCGCTGAACGATTTTCGAGAGGTCTCCTTCCACACGTTCTATA
ACAAGCACCTGCACCAGATCGAGTTCGGCCGGCAGCCCAAGTGGAATTGT
CCCTTGCCCGAGGGCGCTCGTCCTGGCAGCAACTCCTCCGAGCAGGAAGA
CTCCGCCCCCGCAGCCCAGAGTTCTACGGGTGGAGCGGGCTATCCGCCAG
CGGGAAGACCCCATGTGGAGCCTGACGAGGAGTTCTACGAGAACCGGGCG
GAGGCACTGCATCGCCAGCCACCGCAGAGGCGCCAGGAGACCGCCATCGT
CACCCAACGGCGACCAGTGCCCACTCCGAAGCCAGTGAACAGCAATGGCG
CCTGGGACATCCCAGCCATCCAGTGCCACGAGCCAGAGGACGGAGTCTTC
TACGCCCAGATGGGTCCCACGGGCGGCAAACACGGTTATCCAGCCATCAC
AGGACACGTCGGCTGGGGCATTTCCTGGTACATCAACGGACTTCTTATCC
CCGAAATCCATGTGGTGCGCGGCAGGACCTACACCTTTGTGGTGGAGGGC
GGCAATAACCCCGATATTCCGGCCAAGTACCATCCGTTCTACATCAGTGA
CGATCCTGTGGGAGGATACGAGCACAAACGCGAGGAGGAAAAGAAGGCCG
TTCGCATCTACGCCGGAGTGCATCGCTCCCGATCTGGCCAGGTCACGCCC
ACGGGAGTGGGTCGCCTCTGCAACTGGACGCCGGACGTGGAGGGTCCTCC
AGCCGACGACTACCAGTCATTCGGCGCGTACCAGCGCACCCTGACCCTCA
AGTGCGACGCCGGAGAGCCGGGCGTGATCAGCTGGAAGCCCGACAGGAGT
ACGCCGGACACGGTGTACTACCACTGCTTCACGCACCGCTACCTGGGATG
GAAGATCCACGTCCACGACGCCTGCGACTCGGAGGCG------GGCGGTC
CAAAGGGAGCGGCCTCCGAACGGCACGAGATCCGGCTGCCG------GCG
GAATCG---------GAACCGGCGCCCGTGCACGAGGACTACGCCGGAGA
GGCGTCCGTTCGGCACGAAACAAAGGTCAGCGCCAACGATAATTTTTTAT
TGAAGCACCAAACCGATTTGATTAAGAACCACAATATGAACGGAACACCG
CCCAAACTGAGTTTTGAAATAACGAAATCTTCGGAAATAACCAAACTGAT
TTCAGATGGCATCCGCGCTGCTGAGGCTCTCGAGGAGAGCCTACTGAGGA
AC---CCGAATCTGAACCCC---CATCCCAACCAGTACCCGAAT------
------CCGCATCCGCATCCGCACCAGAAACCGAACGTGACCCCGACCGA
GATCAGCTCGCGACCCGAGATTCTGTTGGGCGAGACCCATGCC---CAAA
AGCTGAACACATCTCCATCCGCATTCCCA---------------------
---TCCCCATCAGCATCGGCCTCACCATCCCCCGCCACCCTGAAGCTGCC
AATCCTTGCGGCTGGCCCAGGGCCAGGCCCCCATCTCATCCAC---CATC
CCCCGCACCTGCATCGCCTGCACCACCATCCGCAGCATGCCCTTGCCCCC
CACCCG------CATCTACATTTGCATCACCACAACCTAACCGCTAATCT
TCCAGCGCTGGCCCAGAAAACCATCGGCCTGTCCGAGTTCCTGCGTCCGC
CGCAGAACGCTCCGCTCTTCCATCCGGTGAAGCTGCCCGGCCGTCGTCCC
TTCCCCGCTCCCATCAAGAAGGTGCCGGCCTCGAGGCCCGTGCTGCCGCA
GCAGCATCCGCACTTGCATCCCCTC---------CCC---------GGCC
TCCTGCAGCAG---CCCTCCTTGATCGTGAGCCACTACAGGAAGCCGGTG
CCGGGTTTGCTCAAGCCGTTCGTCAAGGAAAAGCCCTTCCCGCTGCAACC
GCTGGCTGCCTCCGTCCTGCTTTTGGGACAGCCCACTGAACTGGGCGGAG
GTTTCGGC---CTGGGCCATAAAGGCGAACGACTGAAGGTCAAGGGAAAG
ACCAAAATTCCAGTACCCTATGTGGATCTGGAACCTCAGGGCTCACTGCA
AAACACGGCCTTCTTTAATCATCCGGGA---AAGGTGGATCAAAAGTCTT
TAGCAAGC------------TCCATCCCTATTCCCAGCTCAACCACGACC
ACGCCCCTGATGAAACGTCCACCTGTGAAAGAACCCTCCCAGGAGGAAAT
CGCCAGTATGCGACCGGCCGTCAATCAGGGTTTCAAGCCCGACACCGTGA
TCGTGGAAAGTGGTTTCCGACCCATCATGAGAACAGACGGCAGTGGGGTC
CAGTTGCCCAAGGAAATCATTGAGCAGGTGGCCCATCGTCGGGAGGACCC
GGGAACCGAAATCGACGAGGTAATGGAAACGGACACCCTATTCCTGACAG
CTCAACAAGGAGGCAGTGAAACGCAGAGCTTTGAGCCCATGTTTATACCC
TCTCCGTTGGACAGTACCAATGCCTCAAAGATATTGAAGGTTAAAATAAA
GGAGGTAAGTCCATCGGCCTCAGCCTTGCGGTTGCCCTCGGCAGCTCTGG
AGCACGCCCTGCCTGCCGCCTCGGAGTTGAGGAAGCCCACCCTGGACGAG
CTCTTTGGCGAGGAGATAAACGAAGAGGAACTGGAACTAGAGACAGCGCC
CGAGGGG---GACGATGAAGATGTGCCAGAGGAGACCACCAAGAAGTCAG
CCCCAACCACTCCAAAAGAGATCCCA---AGCAGTGCTACCAAGAAGCCG
GAACCCGAACTCCTAGAGGACCTCTTCGGACCCGAAGAAGAAGACATTTA
CGCTGACGAGATGGAACTTGAAATGGATGACCGCGTGGCGGCTGCTGCGG
AGCGGATTGACACCTACTACCTGCCGCCGGACAACCGGAAGGTTCCCCAT
TCGAGTCTGCCGAGTGGAGCGCTTTACACCTTCGATGGCAAGTCGGTGGT
GGACAGCAGCCTGGTGCTGCCGCCCAAATTGGACGCGGGCGAC---AGTG
GAGCGGTCCACCAGCGCCATGCGCAGTATGGGCTTACACCGCTGGAGCAG
CTTGTTCGAACCACGCCGCAATTCGGAGCTTACAGGGGAGAGCTGCCACA
GGAGTTCCGCGGCACGGAGCCCCAGCCCGTGTCGGAGTACTCACAT----
--------CCGGCGCCCTTCAGTCGAACCAGC---------ACCACTCCC
GGATTTTCCACCAGCAGTGGCAAC---------ACCATTTATCCGTCGTA
CTCCTCATCGCCAGGA---GCATCAACATCCACAGCCACAGCCACATCAT
CAACATCATCATCATCATCATCATCGCCATTCTTGTCCTCATCATCGCTG
AGACCCATTTCCACCAAGCTGCAGCTACTGAAGCCAGTGGGCCGACGGGC
G-------------------------------------------------
--------------------
Download 
>D_melanogaster_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGAASERHEIRLP--A
KATVAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANLKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNTAIFNQPGGKGKGDQKPKA-SSVS---ISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFAEDLNEEELEMEP-MPVADDVESLEETTKKDAVTTTINIP-RNTTKKP
DPDLLEDLFGPDEEELYADELELDMDDRVAAAAERIDTYYLPPDNRKIPD
TRVPSGALYTFDGKSVVDSSLVLPPKLDAPD-NANVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTG-ASTSTVSSSASSP--------LSSSSL
RPISTKLQLLKPEGRRA
>D_simulans_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITGAESVVWAIGPLNDFQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARGNSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
KATAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNPNHPNQN----
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASP------SAS
AYPSPSATLPSANQKLPILAAG----PHLIH-HPPHLHRLHHQPQHAP--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVLLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKIKGK
PKIPVPYVDLEPQGSLQNAAFFNQPGGKGKGDQKPKT-SSVSSILISTTP
IPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFKPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLAAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELIKPTLDE
LFGEDLHEEELEMEP-MPVADDVESLEETTKKDAVTTTIDIP-RNTTKKP
DPDLLEDLFGPDEEEIYADELELDMDDRVAAAAERIDTYYLPPDNRKIPH
TRLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGN---TIYP-YSSSTG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRA
>D_yakuba_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGSTGRPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKISALRGVHGVSSENIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISMKEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSDEEDSAPAAQSSTGGAGYPPAGKPNVEPAEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSDA--GGLKGAASERHEIRLP--A
MANAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQN--
--PIPNPHQKPNVTPTEISSRPEILLGET---HAHTLNASPSPSQSASAS
AYPSPSATLSSANLKLPILAAG----PHPIH-YPPHLHRLHHQPQHAP--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPHPHPQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELG----GLNNKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQAGGK--GEQKPKT-SSVS-IPSSTTT
IPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDDLNEEELEMEEPMPEADDVEPLEETTKKDAVTTRKDIP-KNTTKKP
DSALLEDLFGPDEEELYAEEMELDMDDRVAAAAERIDTYYLPPDNRKIPH
TQLPSGALYTFDGKSVVDSSLVLPPKLDAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRSTEPQPVSEYSH----PAPFSRTT-----P
VFSSSSGS---TIYP-YSSSTGAASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRA
>D_erecta_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLVSFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPPNLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSDGLRIPDENGKENPLRRYERKTIVLTLPDDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPKSGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYQEVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARAGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYDNRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGKTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVITWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDSCDSEA--GGLKGSPSERHEIRLP--P
MASAAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLKN-PNLNPNHPNQNQNQN
PIPNPNPHQKPNVTPTEISSRPEILLGETHA-HAHTLNASPSPSQSASAP
AYPSPSATLPTANLKLPILAAG----PHLIH-YPPHLHRLHHQPQHAT--
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQHPVHLQQQPSLIVSHYRKPI
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELG----GLNSKGDRLKVKGK
PKIPVPYVDLEPQGSLQNTAFFKQPGGK--GDQKPKS-TSIS-IPSSTTT
VPLVKRPTVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIVRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRV--KEVTPTASALRLPSAALEHALPSASELRKPTLGE
LFGDDSNEEQLEMEP-LPEADDVEPLEETTKKDAVTTTKDIL-RNTTKKP
DPELLEDLFGPDEEELYADELELDMDDRMAAAAERIDTYYLPPDNRKIPH
TRVPSGALYTFDGKSVVDSSLVLPPKLNAPD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVYRGELPQEFRGTEPQPVSEYSH----PAALSRTT-----P
VFSSSSGS---TIYP-HSSSSG-ASTSTVSSSSSSP--------LSSSSL
RPISTKLQLLKPEGRRA
>D_takahashii_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLASFADAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKIQEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHNIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGSASERHEIRLPAAA
EATSAEPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLKRN-PNLN-----PNLN--
--LNLNPNQHPNQYP-KANVTPEILLGETHA-HKPNASPSASAS----AS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHPLHRLHHHPQHAPHS
HPHPHLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHP-----QHPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLTAKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNQPGGKGDPKPVAPS-SSSSSMSSSTTT
TPLVKRPAVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGGELNEEELELEPLPQGDDDEE---ETTKNSATATTKEIQSTTTKKPK
ETELLEDLFGPDEEDIYADELELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAAGSGGGVQQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTTGSTTTP
GFSSSSGS-GSTIYP-YSSSPG-TSTSASFSPSSSSSSP-----LSLSSL
RPISTKLQLLRPEGRRA
>D_biarmipes_Skeletor-PE
MLAMKDKPWLLPFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNMSQMIGADAVVSWVDPQTGNGFAIDYY
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEPESVVWAIGPLNDYHEVSFHTFYNKHVHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPEEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDTEA--GGLKGSASERHEIRLP--A
EANPAEAAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-QNLNHPNNHPNQY--
--PIPNPHQKPNVTPTEINSRPEILLGETQA-HKPNASPTASAP----PS
AFPSPSASPSPATLKLPIFASG----PHLIHHPPHSLHRLHHHPQHAPHS
AP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPH---PQHPVMLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLGAKGERLKVKGK
PKIPVPYVDLEPQSSLQNTAFFNQPGGKGDPKPISP--TSSSVTSSTTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIEQVANRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNATKVLRVNVKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFGEEIDEEELDLEPMPVRDDVEELLEETTKKAAMATTKEMPSSTTKRP-
ESELLEDLFGPEEDDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAADLGGG-HQRHAQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSSSSSSSGSTIYP-YSSSPR-TSTSLSTLSSSSSSSP-----LSSSSL
RPISTKLQLLKPEGRRA
>D_eugracilis_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCFVDFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPDGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITEAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGAR---NSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKSVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAASDRHEIRLP--V
EGTGAEPAPVHEEYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLMKN-PNLNP-LNHPNQN--
--PIPYPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSVFP-------
---SPSASPSPANLKLPIYAAV----PHLIH-HPPHLHRLHQHPQHAL--
HP--HVHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH--PQQLPVLLQQQPSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLGGLNQKGERLKVKGK
PKIPVPYVDLEPQGSLQNTAFFNKPGGKVEQKPIVTPPTGASSVSSTTTT
TPLVKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKVLRVNVKEVSPTASALRLPSSAVEHALPSASELRKPTLDE
LFGEEITDEEVVLEPLE---DDDELLEETTKKAAVKTTKEIPSTTTTKKP
EHELLEDLFGPDEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NGGVHQRHAQYGLTPLEQ
LVRTTPQFGVFRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
IFSSSSGS---TIYP-YSTSSG-TSTSISSLSSPSSSSSSP---LSSSSL
RPISTKLQLLKPEGRRA
>D_ficusphila_Skeletor-PE
MLAMKDKPWLMLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTAKPSNEGAARLRDEKGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVSIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNNYMSFGISPNKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDYREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAIITQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDECDSEASGGGLKGAASDRHEIRLP--A
EAA--EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRNLPNPNP-NLKPHPN--
--QNPNPHQKPNVIPNEISSRPEILLGETHATHKLNASPSAIPPS---AS
ASASASASASPGNQKLPIYAAG----PHIIHPHPPHLHRLHHHPQHAANI
HP--HPHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPQ---Q-HPVLLQQ-PSLIVSHYRKPV
PGLLKPFIKEKPFPLQPLAASVLLLGQPTELGGVLG-PISKGERLKVKGK
PKIPVPYIDLEPQSSLQNTALFNQPA-KVEPKPVVTP--PTISTSSSTTS
IPLVKRLNVKEPSLEEIAAMRPAVNQGFKPDTVIVESGFRPIMRTDGTGV
QLPKEIIDQVAHRREDPGTEIDEVMETDTLFLTAQQGGTETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHSLPSASELRKPTLDE
LFGEELNEEELELEPLPQG-DDEELLDETTKKAAPTTTKEPPPSSTTKQT
ETELLDDLFGPDEEDVYADELELEMDDRVAAAAERIDTYYLPPDNRKIPH
ASLPSGALYTFDGKSVVDSSLVLPPKLDAVD-NLGIQQRHSQYGLTPLEQ
LVRTTPQFGIFRGELPQEFRGTEPQPVSEYSHTHSNPAPFSRTT---PGF
TTSSSSGS---TIYP-YSSSPG-TSTSISSSSSSP---------LSSSSL
RPISTKLQLLKPEGRRA
>D_rhopaloa_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKINALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLEPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSSPAAQSSTGGAGYPPAGRPNVEPDEEFYENRA
EALHRQPPQRRQETAILTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRN
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGLKGAPSERHEIRLP--A
EP---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQNPI--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-HKLNTSPSAFP-------
-SPSPSASPSPGNLKLPIFAAG----PHLIH-HPPHLHRLQHHHLQQHAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPILPQQHPHLHPH---P-HPGLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGLG-LGNKGERLKAKGK
PKIPVPYVDLEPQGSLQNTAFFNQPG-KGDQKPIATP--ASSTTPSSTTT
TPLVKRPPVKEPSLEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPTASALRLPSAALEHALPSASELRKPTLDE
LFEDEINEEELELEAVPEG-DDEEVLEETTKKAAPTTPKEIP-SSTTKKP
ESELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAAE-SVGVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFIRTS---TTA
GFSTSSGN---TVYP-YSPSPG-ASTSTLSSSSSSP--------LSSSSL
RPISTKLQLLKPVGRRA
>D_elegans_Skeletor-PE
MLAMKDKPWLLLFGLLAALSCLASFGDAAYPYYGTKIGALTRLHHGVSGD
VYAVDSRTIFIKKFNYDGEAPAAYFYVGNTARPSNEGAARLRDERGGTAS
LTRRYRNKDVTLSLPEGKTLRDIKWFSVWCDEFAVNFGDVAIPANLDFPR
PQKISALRGVHGVSSDNIVIVDAQTLLVPNFSYDGEAPDAKFWVGRGQRP
TSEGLRIPDENGKENPLRRYERKTIVLTLPEDLTIFDIGHFGVWCEAFTV
DFGHVRLPEGLNVPPSLKMLGISPQSKLNCEVLYDDLAFEVRWAVAGESI
VVQLVAKLDPNHYMSFGISPSKNISQMIGADAVVAWVDPQTGNGFATDYF
LEGKAQCSGGRGACPDTKISEKTNSIRLLNAAMVNGYSIVTYQRSLAATD
RLDLPISITDAESVVWAIGPLNDFREVSFHTFYNKHLHQIEFGRQPKWNC
PLPEGARPGSNSSEQEDSAPAAQSSTGGAGYPPAGRPHVEPDEEFYENRA
EALHRQPPQRRQETAIVTQRRPVPTPKPVNSNGAWDIPAIQCHEPEDGVF
YAQMGPTGGKHGYPAITGHVGWGISWYINGLLIPEIHVVRGRTYTFVVEG
GNNPDIPAKYHPFYISDDPVGGYEHKREEEKKAVRIYAGVHRSRSGQVTP
TGVGRLCNWTPDVEGPPADDYQSFGAYQRTLTLKCDAGEPGVISWKPDRS
TPDTVYYHCFTHRYLGWKIHVHDACDSEA--GGPKGAASERHEIRLP--A
ES---EPAPVHEDYAGEASVRHETKVSANDNFLLKHQTDLIKNHNMNGTP
PKLSFEITKSSEITKLISDGIRAAEALEESLLRN-PNLNP-HPNQYPN--
--PHPHPHQKPNVTPTEISSRPEILLGETHA-QKLNTSPSAFP-------
-SPSASASPSPATLKLPILAAGPGPGPHLIH-HPPHLHRLHHHPQHALAP
HP--HLHLHHHNLTANLPALAQKTIGLSEFLRPPQNAPLFHPVKLPGRRP
FPAPIKKVPASRPVLPQQHPHLHPL---P---GLLQQ-PSLIVSHYRKPV
PGLLKPFVKEKPFPLQPLAASVLLLGQPTELGGGFG-LGHKGERLKVKGK
TKIPVPYVDLEPQGSLQNTAFFNHPG-KVDQKSLAS----SIPIPSSTTT
TPLMKRPPVKEPSQEEIASMRPAVNQGFKPDTVIVESGFRPIMRTDGSGV
QLPKEIIEQVAHRREDPGTEIDEVMETDTLFLTAQQGGSETQSFEPMFIP
SPLDSTNASKILKVKIKEVSPSASALRLPSAALEHALPAASELRKPTLDE
LFGEEINEEELELETAPEG-DDEDVPEETTKKSAPTTPKEIP-SSATKKP
EPELLEDLFGPEEEDIYADEMELEMDDRVAAAAERIDTYYLPPDNRKVPH
SSLPSGALYTFDGKSVVDSSLVLPPKLDAGD-SGAVHQRHAQYGLTPLEQ
LVRTTPQFGAYRGELPQEFRGTEPQPVSEYSH----PAPFSRTS---TTP
GFSTSSGN---TIYPSYSSSPG-ASTSTATATSSTSSSSSSSPFLSSSSL
RPISTKLQLLKPVGRRA
Download 
#NEXUS

[ID: 1384951952]
begin taxa;
	dimensions ntax=10;
	taxlabels
		D_melanogaster_Skeletor-PE
		D_simulans_Skeletor-PE
		D_yakuba_Skeletor-PE
		D_erecta_Skeletor-PE
		D_takahashii_Skeletor-PE
		D_biarmipes_Skeletor-PE
		D_eugracilis_Skeletor-PE
		D_ficusphila_Skeletor-PE
		D_rhopaloa_Skeletor-PE
		D_elegans_Skeletor-PE
		;
end;
begin trees;
	translate
		1	D_melanogaster_Skeletor-PE,
		2	D_simulans_Skeletor-PE,
		3	D_yakuba_Skeletor-PE,
		4	D_erecta_Skeletor-PE,
		5	D_takahashii_Skeletor-PE,
		6	D_biarmipes_Skeletor-PE,
		7	D_eugracilis_Skeletor-PE,
		8	D_ficusphila_Skeletor-PE,
		9	D_rhopaloa_Skeletor-PE,
		10	D_elegans_Skeletor-PE
		;
   [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 = (1:0.03054407,2:0.02839473,((3:0.04577076,4:0.05440028)1.000:0.01333228,((5:0.1138367,6:0.1250854)1.000:0.05406638,7:0.1938431,(8:0.2616153,(9:0.07275411,10:0.09858297)1.000:0.07059936)0.978:0.02452181)1.000:0.1500701)1.000:0.03594097);

   [Note: This tree contains information only on the topology
          and branch lengths (median of the posterior probability density).]
   tree con_50_majrule = (1:0.03054407,2:0.02839473,((3:0.04577076,4:0.05440028):0.01333228,((5:0.1138367,6:0.1250854):0.05406638,7:0.1938431,(8:0.2616153,(9:0.07275411,10:0.09858297):0.07059936):0.02452181):0.1500701):0.03594097);
end;
Download 
      Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)

(Values are saved to the file /opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1     -18740.41        -18757.48
2     -18740.90        -18756.96
--------------------------------------
TOTAL   -18740.63        -18757.25
--------------------------------------


Model parameter summaries over the runs sampled in files
"/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS/393/Skeletor-PE/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         1.383297    0.002277    1.291807    1.476400    1.381619   1272.88   1386.94    1.000
r(A<->C){all}   0.099684    0.000056    0.085038    0.113805    0.099584   1004.75   1060.81    1.000
r(A<->G){all}   0.250728    0.000149    0.226346    0.273566    0.250559    911.86    915.63    1.001
r(A<->T){all}   0.143850    0.000120    0.123215    0.165404    0.143800    842.82    878.50    1.002
r(C<->G){all}   0.064250    0.000026    0.054836    0.074408    0.064087    826.29   1017.93    1.000
r(C<->T){all}   0.368557    0.000204    0.341391    0.396482    0.368358    681.61    787.11    1.002
r(G<->T){all}   0.072931    0.000054    0.058334    0.086670    0.072887   1000.75   1096.42    1.003
pi(A){all}      0.225722    0.000030    0.214834    0.236181    0.225879    822.08    896.96    1.002
pi(C){all}      0.325935    0.000039    0.314792    0.338906    0.325817    878.31    994.87    1.000
pi(G){all}      0.267179    0.000035    0.255376    0.278501    0.267018   1115.21   1126.46    1.000
pi(T){all}      0.181164    0.000023    0.172089    0.190476    0.181245    845.60    868.36    1.005
alpha{1,2}      0.167470    0.000068    0.151483    0.183911    0.166947   1222.92   1355.64    1.000
alpha{3}        6.429207    1.349668    4.369078    8.768751    6.312852   1336.63   1349.90    1.000
pinvar{all}     0.308207    0.000316    0.274348    0.342687    0.308336   1404.53   1429.63    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
Download 
CODONML (in paml version 4.8, March 2014)  /opt/ADOPS/393/Skeletor-PE/batch/allfiles/codeml/input.fasta.fasta.pnxs
Model: One dN/dS ratio for branches, 
Codon frequency model: F3x4
Site-class models: 
ns =  10  ls = 1460

Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT  20  21  20  17  20  17 | Ser TCT  12  12   8   8  11  10 | Tyr TAT  14  14  14   8  13  11 | Cys TGT   4   4   2   2   2   3
    TTC  28  29  29  31  32  33 |     TCC  30  29  34  36  29  36 |     TAC  30  29  31  36  31  33 |     TGC   8   8  10  10  10   9
Leu TTA   7   6   5   6   6   5 |     TCA  14  15  10  12   9   8 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG  20  20  23  19  23  21 |     TCG  17  18  24  21  25  26 |     TAG   0   0   0   0   0   0 | Trp TGG  15  15  15  15  15  15
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   7   6   4   8   5   5 | Pro CCT  14  15  10  13   6  14 | His CAT  24  24  21  22  23  21 | Arg CGT  14  12  10   8  15  10
    CTC  18  19  18  17  17  18 |     CCC  48  47  53  54  57  53 |     CAC  29  30  33  32  28  30 |     CGC  20  21  25  26  24  25
    CTA  17  17  11  14  10  10 |     CCA  32  31  25  20  23  31 | Gln CAA  13  17  12   8  16  13 |     CGA  12  11   9   9  11   9
    CTG  61  61  69  68  70  68 |     CCG  49  50  51  54  60  50 |     CAG  41  38  42  46  37  37 |     CGG   9  10  14  14   6  10
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT  28  27  24  22  21  22 | Thr ACT  10  10   7  13  11  10 | Asn AAT  25  26  20  21  25  18 | Ser AGT  13  14  11  10  12  10
    ATC  34  34  34  37  36  40 |     ACC  41  44  49  45  47  44 |     AAC  35  33  36  39  33  37 |     AGC  17  15  22  20  23  25
    ATA  11  12   9   9   7   5 |     ACA  22  21  16  16   8  13 | Lys AAA  28  25  25  21  19  16 | Arg AGA   6   8   8  10   4   9
Met ATG  14  14  17  15  13  18 |     ACG  14  11  14  16  21  19 |     AAG  46  49  53  55  52  56 |     AGG  14  13   8   9  17  14
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT  15  15  12  11  12  12 | Ala GCT  23  23  20  21  22  28 | Asp GAT  39  39  30  33  33  27 | Gly GGT  19  17  13   9  12  17
    GTC  16  16  21  20  23  22 |     GCC  50  48  51  49  55  49 |     GAC  38  39  46  45  34  42 |     GGC  38  43  47  56  56  48
    GTA  10   9   4   5   2   2 |     GCA  17  17  16  11  17  13 | Glu GAA  32  31  32  29  31  27 |     GGA  37  38  37  32  34  34
    GTG  48  48  51  52  48  50 |     GCG  21  21  22  23  21  20 |     GAG  64  64  67  64  73  78 |     GGG   8   7   6   8   4   4
--------------------------------------------------------------------------------------------------------------------------------------

------------------------------------------------------------------------------------------------------
Phe TTT  21  14  14  13 | Ser TCT  14   6   7   6 | Tyr TAT  18   9  10   8 | Cys TGT   6   3   4   2
    TTC  30  35  37  37 |     TCC  30  39  31  27 |     TAC  27  35  33  36 |     TGC   6   9   8  10
Leu TTA   5   3   6   4 |     TCA  12  13  14  16 | *** TAA   0   0   0   0 | *** TGA   0   0   0   0
    TTG  27  38  25  21 |     TCG  19  19  25  26 |     TAG   0   0   0   0 | Trp TGG  15  15  15  15
------------------------------------------------------------------------------------------------------
Leu CTT   8   8   5  10 | Pro CCT  24  18  10   7 | His CAT  28  21  22  25 | Arg CGT   8  11   9   9
    CTC  17  17  20  15 |     CCC  37  50  58  54 |     CAC  25  32  34  33 |     CGC  26  22  25  25
    CTA  14  11  12  10 |     CCA  35  28  20  24 | Gln CAA  17  20   9  11 |     CGA  13  12  13  10
    CTG  54  51  64  70 |     CCG  46  48  56  57 |     CAG  35  33  44  41 |     CGG   8   6  10  16
------------------------------------------------------------------------------------------------------
Ile ATT  24  22  19  18 | Thr ACT  16  13   6   3 | Asn AAT  24  24  18  14 | Ser AGT  17  17  18  18
    ATC  36  47  41  43 |     ACC  36  48  44  45 |     AAC  30  33  37  35 |     AGC  19  19  18  21
    ATA  10   4   7   5 |     ACA  18  10  11  13 | Lys AAA  27  22  19  17 | Arg AGA  10  12   6   4
Met ATG  15  14  14  15 |     ACG  17  15  22  25 |     AAG  48  52  54  56 |     AGG  11  11  13  12
------------------------------------------------------------------------------------------------------
Val GTT  19  18   9   5 | Ala GCT  30  23  17  20 | Asp GAT  40  47  33  22 | Gly GGT  20  15  19  15
    GTC  22  15  17  23 |     GCC  44  46  51  57 |     GAC  34  26  36  49 |     GGC  34  40  49  54
    GTA  13   3   6   4 |     GCA  13  23  16  12 | Glu GAA  37  33  33  31 |     GGA  45  39  32  34
    GTG  41  48  51  51 |     GCG  17  19  27  27 |     GAG  64  69  72  71 |     GGG   4   7   5   3
------------------------------------------------------------------------------------------------------

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

#1: D_melanogaster_Skeletor-PE             
position  1:    T:0.15000    C:0.27945    A:0.24521    G:0.32534
position  2:    T:0.24247    C:0.28356    A:0.31370    G:0.16027
position  3:    T:0.19247    C:0.32877    A:0.17671    G:0.30205
Average         T:0.19498    C:0.29726    A:0.24521    G:0.26256

#2: D_simulans_Skeletor-PE             
position  1:    T:0.15068    C:0.28014    A:0.24384    G:0.32534
position  2:    T:0.24247    C:0.28219    A:0.31370    G:0.16164
position  3:    T:0.19110    C:0.33151    A:0.17671    G:0.30068
Average         T:0.19475    C:0.29795    A:0.24475    G:0.26256

#3: D_yakuba_Skeletor-PE             
position  1:    T:0.15411    C:0.27877    A:0.24178    G:0.32534
position  2:    T:0.24041    C:0.28082    A:0.31644    G:0.16233
position  3:    T:0.15479    C:0.36918    A:0.15000    G:0.32603
Average         T:0.18311    C:0.30959    A:0.23607    G:0.27123

#4: D_erecta_Skeletor-PE             
position  1:    T:0.15137    C:0.28288    A:0.24521    G:0.32055
position  2:    T:0.24041    C:0.28219    A:0.31438    G:0.16301
position  3:    T:0.15479    C:0.37877    A:0.13836    G:0.32808
Average         T:0.18219    C:0.31461    A:0.23265    G:0.27055

#5: D_takahashii_Skeletor-PE             
position  1:    T:0.15479    C:0.27945    A:0.23904    G:0.32671
position  2:    T:0.23630    C:0.28904    A:0.30685    G:0.16781
position  3:    T:0.16644    C:0.36644    A:0.13493    G:0.33219
Average         T:0.18584    C:0.31164    A:0.22694    G:0.27557

#6: D_biarmipes_Skeletor-PE             
position  1:    T:0.15548    C:0.27671    A:0.24384    G:0.32397
position  2:    T:0.23836    C:0.29041    A:0.30548    G:0.16575
position  3:    T:0.16096    C:0.37260    A:0.13356    G:0.33288
Average         T:0.18493    C:0.31324    A:0.22763    G:0.27420

#7: D_eugracilis_Skeletor-PE             
position  1:    T:0.15753    C:0.27055    A:0.24521    G:0.32671
position  2:    T:0.24384    C:0.27945    A:0.31096    G:0.16575
position  3:    T:0.21712    C:0.31027    A:0.18425    G:0.28836
Average         T:0.20616    C:0.28676    A:0.24680    G:0.26027

#8: D_ficusphila_Skeletor-PE             
position  1:    T:0.16301    C:0.26575    A:0.24863    G:0.32260
position  2:    T:0.23836    C:0.28630    A:0.31233    G:0.16301
position  3:    T:0.18425    C:0.35137    A:0.15959    G:0.30479
Average         T:0.19521    C:0.30114    A:0.24018    G:0.26347

#9: D_rhopaloa_Skeletor-PE             
position  1:    T:0.15685    C:0.28151    A:0.23767    G:0.32397
position  2:    T:0.23767    C:0.28425    A:0.31096    G:0.16712
position  3:    T:0.15068    C:0.36918    A:0.13973    G:0.34041
Average         T:0.18174    C:0.31164    A:0.22945    G:0.27717

#10: D_elegans_Skeletor-PE            
position  1:    T:0.15137    C:0.28562    A:0.23562    G:0.32740
position  2:    T:0.23562    C:0.28699    A:0.30753    G:0.16986
position  3:    T:0.13356    C:0.38630    A:0.13356    G:0.34658
Average         T:0.17352    C:0.31963    A:0.22557    G:0.28128

Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT     177 | Ser S TCT      94 | Tyr Y TAT     119 | Cys C TGT      32
      TTC     321 |       TCC     321 |       TAC     321 |       TGC      88
Leu L TTA      53 |       TCA     123 | *** * TAA       0 | *** * TGA       0
      TTG     237 |       TCG     220 |       TAG       0 | Trp W TGG     150
------------------------------------------------------------------------------
Leu L CTT      66 | Pro P CCT     131 | His H CAT     231 | Arg R CGT     106
      CTC     176 |       CCC     511 |       CAC     306 |       CGC     239
      CTA     126 |       CCA     269 | Gln Q CAA     136 |       CGA     109
      CTG     636 |       CCG     521 |       CAG     394 |       CGG     103
------------------------------------------------------------------------------
Ile I ATT     227 | Thr T ACT      99 | Asn N AAT     215 | Ser S AGT     140
      ATC     382 |       ACC     443 |       AAC     348 |       AGC     199
      ATA      79 |       ACA     148 | Lys K AAA     219 | Arg R AGA      77
Met M ATG     149 |       ACG     174 |       AAG     521 |       AGG     122
------------------------------------------------------------------------------
Val V GTT     128 | Ala A GCT     227 | Asp D GAT     343 | Gly G GGT     156
      GTC     195 |       GCC     500 |       GAC     389 |       GGC     465
      GTA      58 |       GCA     155 | Glu E GAA     316 |       GGA     362
      GTG     488 |       GCG     218 |       GAG     686 |       GGG      56
------------------------------------------------------------------------------


Codon position x base (3x4) table, overall

position  1:    T:0.15452    C:0.27808    A:0.24260    G:0.32479
position  2:    T:0.23959    C:0.28452    A:0.31123    G:0.16466
position  3:    T:0.17062    C:0.35644    A:0.15274    G:0.32021
Average         T:0.18824    C:0.30635    A:0.23553    G:0.26989


Nei & Gojobori 1986. dN/dS (dN, dS)
(Note: This matrix is not used in later ML. analysis.
Use runmode = -2 for ML pairwise comparison.)

D_melanogaster_Skeletor-PE                  
D_simulans_Skeletor-PE                   0.0441 (0.0052 0.1180)
D_yakuba_Skeletor-PE                   0.0808 (0.0173 0.2136) 0.0750 (0.0168 0.2240)
D_erecta_Skeletor-PE                   0.0768 (0.0174 0.2269) 0.0754 (0.0171 0.2270) 0.1111 (0.0180 0.1624)
D_takahashii_Skeletor-PE                   0.0903 (0.0512 0.5667) 0.0860 (0.0498 0.5789) 0.1116 (0.0529 0.4743) 0.1036 (0.0525 0.5064)
D_biarmipes_Skeletor-PE                   0.0930 (0.0510 0.5479) 0.0864 (0.0487 0.5634) 0.1122 (0.0529 0.4717) 0.1075 (0.0521 0.4848) 0.0842 (0.0297 0.3525)
D_eugracilis_Skeletor-PE                   0.0662 (0.0435 0.6564) 0.0634 (0.0413 0.6516) 0.0763 (0.0454 0.5947) 0.0703 (0.0463 0.6583) 0.0658 (0.0385 0.5852) 0.0636 (0.0369 0.5805)
D_ficusphila_Skeletor-PE                   0.0674 (0.0493 0.7309) 0.0619 (0.0476 0.7689) 0.0798 (0.0531 0.6658) 0.0738 (0.0502 0.6807) 0.0614 (0.0404 0.6571) 0.0659 (0.0435 0.6611) 0.0512 (0.0381 0.7440)
D_rhopaloa_Skeletor-PE                   0.0777 (0.0442 0.5690) 0.0739 (0.0420 0.5685) 0.0900 (0.0447 0.4968) 0.0886 (0.0456 0.5150) 0.0781 (0.0380 0.4874) 0.0756 (0.0377 0.4988) 0.0549 (0.0317 0.5774) 0.0628 (0.0375 0.5974)
D_elegans_Skeletor-PE                  0.0741 (0.0449 0.6061) 0.0699 (0.0430 0.6145) 0.0955 (0.0484 0.5067) 0.0950 (0.0483 0.5089) 0.0717 (0.0369 0.5149) 0.0779 (0.0391 0.5019) 0.0517 (0.0327 0.6319) 0.0586 (0.0379 0.6467) 0.0643 (0.0182 0.2824)


Model 0: one-ratio


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
check convergence..
lnL(ntime: 16  np: 18): -16709.812565      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.050350 0.049262 0.056861 0.024993 0.078881 0.091638 0.216888 0.083678 0.167623 0.177004 0.280172 0.044547 0.343793 0.105792 0.110654 0.151725 1.984278 0.065391

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

tree length =   2.03386

(1: 0.050350, 2: 0.049262, ((3: 0.078881, 4: 0.091638): 0.024993, ((5: 0.167623, 6: 0.177004): 0.083678, 7: 0.280172, (8: 0.343793, (9: 0.110654, 10: 0.151725): 0.105792): 0.044547): 0.216888): 0.056861);

(D_melanogaster_Skeletor-PE: 0.050350, D_simulans_Skeletor-PE: 0.049262, ((D_yakuba_Skeletor-PE: 0.078881, D_erecta_Skeletor-PE: 0.091638): 0.024993, ((D_takahashii_Skeletor-PE: 0.167623, D_biarmipes_Skeletor-PE: 0.177004): 0.083678, D_eugracilis_Skeletor-PE: 0.280172, (D_ficusphila_Skeletor-PE: 0.343793, (D_rhopaloa_Skeletor-PE: 0.110654, D_elegans_Skeletor-PE: 0.151725): 0.105792): 0.044547): 0.216888): 0.056861);

Detailed output identifying parameters

kappa (ts/tv) =  1.98428

omega (dN/dS) =  0.06539

dN & dS for each branch

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

  11..1      0.050  3301.2  1078.8  0.0654  0.0037  0.0568  12.3  61.3
  11..2      0.049  3301.2  1078.8  0.0654  0.0036  0.0556  12.0  59.9
  11..12     0.057  3301.2  1078.8  0.0654  0.0042  0.0641  13.8  69.2
  12..13     0.025  3301.2  1078.8  0.0654  0.0018  0.0282   6.1  30.4
  13..3      0.079  3301.2  1078.8  0.0654  0.0058  0.0890  19.2  96.0
  13..4      0.092  3301.2  1078.8  0.0654  0.0068  0.1033  22.3 111.5
  12..14     0.217  3301.2  1078.8  0.0654  0.0160  0.2446  52.8 263.9
  14..15     0.084  3301.2  1078.8  0.0654  0.0062  0.0944  20.4 101.8
  15..5      0.168  3301.2  1078.8  0.0654  0.0124  0.1890  40.8 203.9
  15..6      0.177  3301.2  1078.8  0.0654  0.0131  0.1996  43.1 215.3
  14..7      0.280  3301.2  1078.8  0.0654  0.0207  0.3159  68.2 340.8
  14..16     0.045  3301.2  1078.8  0.0654  0.0033  0.0502  10.8  54.2
  16..8      0.344  3301.2  1078.8  0.0654  0.0254  0.3877  83.7 418.2
  16..17     0.106  3301.2  1078.8  0.0654  0.0078  0.1193  25.8 128.7
  17..9      0.111  3301.2  1078.8  0.0654  0.0082  0.1248  26.9 134.6
  17..10     0.152  3301.2  1078.8  0.0654  0.0112  0.1711  36.9 184.6

tree length for dN:       0.1500
tree length for dS:       2.2936


Time used:  0:37


Model 1: NearlyNeutral (2 categories)


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
lnL(ntime: 16  np: 19): -16461.942579      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.050814 0.050438 0.058155 0.024688 0.079708 0.093856 0.226695 0.084299 0.173571 0.184254 0.293026 0.043752 0.361169 0.105700 0.114194 0.156326 2.054422 0.919608 0.025244

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

tree length =   2.10065

(1: 0.050814, 2: 0.050438, ((3: 0.079708, 4: 0.093856): 0.024688, ((5: 0.173571, 6: 0.184254): 0.084299, 7: 0.293026, (8: 0.361169, (9: 0.114194, 10: 0.156326): 0.105700): 0.043752): 0.226695): 0.058155);

(D_melanogaster_Skeletor-PE: 0.050814, D_simulans_Skeletor-PE: 0.050438, ((D_yakuba_Skeletor-PE: 0.079708, D_erecta_Skeletor-PE: 0.093856): 0.024688, ((D_takahashii_Skeletor-PE: 0.173571, D_biarmipes_Skeletor-PE: 0.184254): 0.084299, D_eugracilis_Skeletor-PE: 0.293026, (D_ficusphila_Skeletor-PE: 0.361169, (D_rhopaloa_Skeletor-PE: 0.114194, D_elegans_Skeletor-PE: 0.156326): 0.105700): 0.043752): 0.226695): 0.058155);

Detailed output identifying parameters

kappa (ts/tv) =  2.05442


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

p:   0.91961  0.08039
w:   0.02524  1.00000

dN & dS for each branch

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

  11..1       0.051   3296.6   1083.4   0.1036   0.0054   0.0521   17.8   56.4
  11..2       0.050   3296.6   1083.4   0.1036   0.0054   0.0517   17.7   56.0
  11..12      0.058   3296.6   1083.4   0.1036   0.0062   0.0596   20.4   64.6
  12..13      0.025   3296.6   1083.4   0.1036   0.0026   0.0253    8.6   27.4
  13..3       0.080   3296.6   1083.4   0.1036   0.0085   0.0817   27.9   88.5
  13..4       0.094   3296.6   1083.4   0.1036   0.0100   0.0962   32.8  104.2
  12..14      0.227   3296.6   1083.4   0.1036   0.0241   0.2323   79.3  251.6
  14..15      0.084   3296.6   1083.4   0.1036   0.0089   0.0864   29.5   93.6
  15..5       0.174   3296.6   1083.4   0.1036   0.0184   0.1778   60.7  192.7
  15..6       0.184   3296.6   1083.4   0.1036   0.0196   0.1888   64.5  204.5
  14..7       0.293   3296.6   1083.4   0.1036   0.0311   0.3002  102.5  325.3
  14..16      0.044   3296.6   1083.4   0.1036   0.0046   0.0448   15.3   48.6
  16..8       0.361   3296.6   1083.4   0.1036   0.0383   0.3700  126.4  400.9
  16..17      0.106   3296.6   1083.4   0.1036   0.0112   0.1083   37.0  117.3
  17..9       0.114   3296.6   1083.4   0.1036   0.0121   0.1170   40.0  126.8
  17..10      0.156   3296.6   1083.4   0.1036   0.0166   0.1602   54.7  173.5


Time used:  1:34


Model 2: PositiveSelection (3 categories)


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
check convergence..
lnL(ntime: 16  np: 21): -16461.942579      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.050814 0.050438 0.058155 0.024688 0.079708 0.093855 0.226695 0.084299 0.173571 0.184253 0.293026 0.043752 0.361169 0.105700 0.114194 0.156326 2.054435 0.919608 0.080392 0.025244 80.643260

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

tree length =   2.10064

(1: 0.050814, 2: 0.050438, ((3: 0.079708, 4: 0.093855): 0.024688, ((5: 0.173571, 6: 0.184253): 0.084299, 7: 0.293026, (8: 0.361169, (9: 0.114194, 10: 0.156326): 0.105700): 0.043752): 0.226695): 0.058155);

(D_melanogaster_Skeletor-PE: 0.050814, D_simulans_Skeletor-PE: 0.050438, ((D_yakuba_Skeletor-PE: 0.079708, D_erecta_Skeletor-PE: 0.093855): 0.024688, ((D_takahashii_Skeletor-PE: 0.173571, D_biarmipes_Skeletor-PE: 0.184253): 0.084299, D_eugracilis_Skeletor-PE: 0.293026, (D_ficusphila_Skeletor-PE: 0.361169, (D_rhopaloa_Skeletor-PE: 0.114194, D_elegans_Skeletor-PE: 0.156326): 0.105700): 0.043752): 0.226695): 0.058155);

Detailed output identifying parameters

kappa (ts/tv) =  2.05443


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

p:   0.91961  0.08039  0.00000
w:   0.02524  1.00000 80.64326
(note that p[2] is zero)


dN & dS for each branch

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

  11..1       0.051   3296.6   1083.4   0.1036   0.0054   0.0521   17.8   56.4
  11..2       0.050   3296.6   1083.4   0.1036   0.0054   0.0517   17.7   56.0
  11..12      0.058   3296.6   1083.4   0.1036   0.0062   0.0596   20.4   64.6
  12..13      0.025   3296.6   1083.4   0.1036   0.0026   0.0253    8.6   27.4
  13..3       0.080   3296.6   1083.4   0.1036   0.0085   0.0817   27.9   88.5
  13..4       0.094   3296.6   1083.4   0.1036   0.0100   0.0962   32.8  104.2
  12..14      0.227   3296.6   1083.4   0.1036   0.0241   0.2323   79.3  251.6
  14..15      0.084   3296.6   1083.4   0.1036   0.0089   0.0864   29.5   93.6
  15..5       0.174   3296.6   1083.4   0.1036   0.0184   0.1778   60.7  192.7
  15..6       0.184   3296.6   1083.4   0.1036   0.0196   0.1888   64.5  204.5
  14..7       0.293   3296.6   1083.4   0.1036   0.0311   0.3002  102.5  325.3
  14..16      0.044   3296.6   1083.4   0.1036   0.0046   0.0448   15.3   48.6
  16..8       0.361   3296.6   1083.4   0.1036   0.0383   0.3700  126.4  400.9
  16..17      0.106   3296.6   1083.4   0.1036   0.0112   0.1083   37.0  117.3
  17..9       0.114   3296.6   1083.4   0.1036   0.0121   0.1170   40.0  126.8
  17..10      0.156   3296.6   1083.4   0.1036   0.0166   0.1602   54.7  173.5


Naive Empirical Bayes (NEB) analysis
Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.550         1.273 +- 0.253
   861 L      0.589         1.294 +- 0.249
   905 P      0.541         1.270 +- 0.250
   967 I      0.522         1.253 +- 0.272
  1028 N      0.608         1.304 +- 0.244
  1029 N      0.665         1.332 +- 0.236
  1070 K      0.599         1.299 +- 0.247
  1073 V      0.691         1.345 +- 0.231
  1074 S      0.643         1.321 +- 0.240
  1087 T      0.675         1.338 +- 0.234
  1233 L      0.687         1.344 +- 0.232
  1242 P      0.630         1.314 +- 0.243
  1253 D      0.530         1.254 +- 0.279
  1255 V      0.711         1.356 +- 0.227
  1263 R      0.564         1.281 +- 0.249
  1270 P      0.643         1.321 +- 0.240
  1351 A      0.551         1.274 +- 0.252
  1408 V      0.664         1.332 +- 0.236
  1430 T      0.612         1.306 +- 0.244
  1431 V      0.711         1.356 +- 0.227
  1432 S      0.606         1.297 +- 0.262
  1433 S      0.579         1.285 +- 0.261



The grid (see ternary graph for p0-p1)

w0:   0.050  0.150  0.250  0.350  0.450  0.550  0.650  0.750  0.850  0.950
w2:   1.500  2.500  3.500  4.500  5.500  6.500  7.500  8.500  9.500 10.500


Posterior on the grid

w0:   1.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000
w2:   1.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000

Posterior for p0-p1 (see the ternary graph)

 0.000
 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000

sum of density on p0-p1 =   1.000000

Time used:  6:01


Model 3: discrete (3 categories)


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
lnL(ntime: 16  np: 22): -16417.683229      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.050764 0.050209 0.057843 0.025139 0.079657 0.093624 0.226132 0.084244 0.173215 0.183921 0.291766 0.042524 0.360624 0.107544 0.113863 0.156245 1.994921 0.746865 0.217180 0.000001 0.202582 1.005850

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

tree length =   2.09731

(1: 0.050764, 2: 0.050209, ((3: 0.079657, 4: 0.093624): 0.025139, ((5: 0.173215, 6: 0.183921): 0.084244, 7: 0.291766, (8: 0.360624, (9: 0.113863, 10: 0.156245): 0.107544): 0.042524): 0.226132): 0.057843);

(D_melanogaster_Skeletor-PE: 0.050764, D_simulans_Skeletor-PE: 0.050209, ((D_yakuba_Skeletor-PE: 0.079657, D_erecta_Skeletor-PE: 0.093624): 0.025139, ((D_takahashii_Skeletor-PE: 0.173215, D_biarmipes_Skeletor-PE: 0.183921): 0.084244, D_eugracilis_Skeletor-PE: 0.291766, (D_ficusphila_Skeletor-PE: 0.360624, (D_rhopaloa_Skeletor-PE: 0.113863, D_elegans_Skeletor-PE: 0.156245): 0.107544): 0.042524): 0.226132): 0.057843);

Detailed output identifying parameters

kappa (ts/tv) =  1.99492


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

p:   0.74687  0.21718  0.03596
w:   0.00000  0.20258  1.00585

dN & dS for each branch

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

  11..1       0.051   3300.5   1079.5   0.0802   0.0044   0.0551   14.6   59.5
  11..2       0.050   3300.5   1079.5   0.0802   0.0044   0.0545   14.4   58.9
  11..12      0.058   3300.5   1079.5   0.0802   0.0050   0.0628   16.6   67.8
  12..13      0.025   3300.5   1079.5   0.0802   0.0022   0.0273    7.2   29.5
  13..3       0.080   3300.5   1079.5   0.0802   0.0069   0.0865   22.9   93.4
  13..4       0.094   3300.5   1079.5   0.0802   0.0082   0.1017   26.9  109.8
  12..14      0.226   3300.5   1079.5   0.0802   0.0197   0.2456   65.0  265.2
  14..15      0.084   3300.5   1079.5   0.0802   0.0073   0.0915   24.2   98.8
  15..5       0.173   3300.5   1079.5   0.0802   0.0151   0.1882   49.8  203.1
  15..6       0.184   3300.5   1079.5   0.0802   0.0160   0.1998   52.9  215.7
  14..7       0.292   3300.5   1079.5   0.0802   0.0254   0.3169   83.9  342.1
  14..16      0.043   3300.5   1079.5   0.0802   0.0037   0.0462   12.2   49.9
  16..8       0.361   3300.5   1079.5   0.0802   0.0314   0.3917  103.6  422.9
  16..17      0.108   3300.5   1079.5   0.0802   0.0094   0.1168   30.9  126.1
  17..9       0.114   3300.5   1079.5   0.0802   0.0099   0.1237   32.7  133.5
  17..10      0.156   3300.5   1079.5   0.0802   0.0136   0.1697   44.9  183.2


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

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

   155 S      0.549         0.644
   312 H      0.523         0.623
   832 I      0.877         0.907
   861 L      0.915         0.938
   881 L      0.689         0.756
   905 P      0.935         0.954
   967 I      0.819         0.860
  1028 N      0.983*        0.992
  1029 N      0.995**       1.002
  1067 G      0.765         0.817
  1070 K      0.931         0.950
  1071 P      0.766         0.818
  1072 K      0.653         0.727
  1073 V      0.996**       1.003
  1074 S      0.989*        0.997
  1080 I      0.584         0.671
  1087 T      0.980*        0.990
  1230 A      0.677         0.746
  1233 L      0.975*        0.985
  1242 P      0.936         0.955
  1243 M      0.914         0.936
  1253 D      0.770         0.821
  1255 V      0.976*        0.986
  1261 I      0.578         0.667
  1263 R      0.934         0.953
  1268 K      0.712         0.774
  1270 P      0.989*        0.997
  1284 L      0.663         0.735
  1289 L      0.577         0.666
  1348 P      0.685         0.753
  1350 N      0.733         0.791
  1351 A      0.892         0.919
  1352 N      0.587         0.674
  1408 V      0.978*        0.988
  1424 T      0.656         0.730
  1430 T      0.969*        0.981
  1431 V      0.984*        0.993
  1432 S      0.841         0.878
  1433 S      0.850         0.886


Time used:  8:36


Model 7: beta (10 categories)


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
lnL(ntime: 16  np: 19): -16424.142646      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.051057 0.050351 0.058298 0.024861 0.080022 0.094044 0.226377 0.084820 0.173349 0.183840 0.291859 0.042949 0.360722 0.107756 0.114300 0.156505 1.995901 0.092222 0.993551

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

tree length =   2.10111

(1: 0.051057, 2: 0.050351, ((3: 0.080022, 4: 0.094044): 0.024861, ((5: 0.173349, 6: 0.183840): 0.084820, 7: 0.291859, (8: 0.360722, (9: 0.114300, 10: 0.156505): 0.107756): 0.042949): 0.226377): 0.058298);

(D_melanogaster_Skeletor-PE: 0.051057, D_simulans_Skeletor-PE: 0.050351, ((D_yakuba_Skeletor-PE: 0.080022, D_erecta_Skeletor-PE: 0.094044): 0.024861, ((D_takahashii_Skeletor-PE: 0.173349, D_biarmipes_Skeletor-PE: 0.183840): 0.084820, D_eugracilis_Skeletor-PE: 0.291859, (D_ficusphila_Skeletor-PE: 0.360722, (D_rhopaloa_Skeletor-PE: 0.114300, D_elegans_Skeletor-PE: 0.156505): 0.107756): 0.042949): 0.226377): 0.058298);

Detailed output identifying parameters

kappa (ts/tv) =  1.99590

Parameters in M7 (beta):
 p =   0.09222  q =   0.99355


dN/dS (w) for site classes (K=10)

p:   0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000
w:   0.00000  0.00000  0.00000  0.00001  0.00018  0.00155  0.00945  0.04461  0.17319  0.57676

dN & dS for each branch

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

  11..1       0.051   3300.4   1079.6   0.0806   0.0045   0.0554   14.7   59.8
  11..2       0.050   3300.4   1079.6   0.0806   0.0044   0.0546   14.5   59.0
  11..12      0.058   3300.4   1079.6   0.0806   0.0051   0.0633   16.8   68.3
  12..13      0.025   3300.4   1079.6   0.0806   0.0022   0.0270    7.2   29.1
  13..3       0.080   3300.4   1079.6   0.0806   0.0070   0.0868   23.1   93.7
  13..4       0.094   3300.4   1079.6   0.0806   0.0082   0.1020   27.1  110.2
  12..14      0.226   3300.4   1079.6   0.0806   0.0198   0.2456   65.3  265.2
  14..15      0.085   3300.4   1079.6   0.0806   0.0074   0.0920   24.5   99.4
  15..5       0.173   3300.4   1079.6   0.0806   0.0152   0.1881   50.0  203.1
  15..6       0.184   3300.4   1079.6   0.0806   0.0161   0.1995   53.0  215.4
  14..7       0.292   3300.4   1079.6   0.0806   0.0255   0.3167   84.2  341.9
  14..16      0.043   3300.4   1079.6   0.0806   0.0038   0.0466   12.4   50.3
  16..8       0.361   3300.4   1079.6   0.0806   0.0315   0.3914  104.1  422.6
  16..17      0.108   3300.4   1079.6   0.0806   0.0094   0.1169   31.1  126.2
  17..9       0.114   3300.4   1079.6   0.0806   0.0100   0.1240   33.0  133.9
  17..10      0.157   3300.4   1079.6   0.0806   0.0137   0.1698   45.2  183.3


Time used: 15:04


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


TREE #  1:  (1, 2, ((3, 4), ((5, 6), 7, (8, (9, 10)))));   MP score: 2293
check convergence..
lnL(ntime: 16  np: 21): -16419.668912      +0.000000
  11..1    11..2    11..12   12..13   13..3    13..4    12..14   14..15   15..5    15..6    14..7    14..16   16..8    16..17   17..9    17..10 
 0.050733 0.050105 0.057849 0.024979 0.079570 0.093524 0.225973 0.084114 0.173037 0.183614 0.291433 0.042510 0.360266 0.107290 0.113736 0.156074 1.993897 0.970787 0.119680 2.005198 1.045186

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

tree length =   2.09481

(1: 0.050733, 2: 0.050105, ((3: 0.079570, 4: 0.093524): 0.024979, ((5: 0.173037, 6: 0.183614): 0.084114, 7: 0.291433, (8: 0.360266, (9: 0.113736, 10: 0.156074): 0.107290): 0.042510): 0.225973): 0.057849);

(D_melanogaster_Skeletor-PE: 0.050733, D_simulans_Skeletor-PE: 0.050105, ((D_yakuba_Skeletor-PE: 0.079570, D_erecta_Skeletor-PE: 0.093524): 0.024979, ((D_takahashii_Skeletor-PE: 0.173037, D_biarmipes_Skeletor-PE: 0.183614): 0.084114, D_eugracilis_Skeletor-PE: 0.291433, (D_ficusphila_Skeletor-PE: 0.360266, (D_rhopaloa_Skeletor-PE: 0.113736, D_elegans_Skeletor-PE: 0.156074): 0.107290): 0.042510): 0.225973): 0.057849);

Detailed output identifying parameters

kappa (ts/tv) =  1.99390

Parameters in M8 (beta&w>1):
  p0 =   0.97079  p =   0.11968 q =   2.00520
 (p1 =   0.02921) w =   1.04519


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

p:   0.09708  0.09708  0.09708  0.09708  0.09708  0.09708  0.09708  0.09708  0.09708  0.09708  0.02921
w:   0.00000  0.00000  0.00000  0.00006  0.00049  0.00263  0.01070  0.03619  0.11011  0.34668  1.04519

dN & dS for each branch

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

  11..1       0.051   3300.5   1079.5   0.0797   0.0044   0.0552   14.5   59.6
  11..2       0.050   3300.5   1079.5   0.0797   0.0043   0.0545   14.3   58.8
  11..12      0.058   3300.5   1079.5   0.0797   0.0050   0.0629   16.6   67.9
  12..13      0.025   3300.5   1079.5   0.0797   0.0022   0.0272    7.1   29.3
  13..3       0.080   3300.5   1079.5   0.0797   0.0069   0.0865   22.8   93.4
  13..4       0.094   3300.5   1079.5   0.0797   0.0081   0.1017   26.8  109.8
  12..14      0.226   3300.5   1079.5   0.0797   0.0196   0.2457   64.7  265.3
  14..15      0.084   3300.5   1079.5   0.0797   0.0073   0.0915   24.1   98.7
  15..5       0.173   3300.5   1079.5   0.0797   0.0150   0.1882   49.5  203.1
  15..6       0.184   3300.5   1079.5   0.0797   0.0159   0.1997   52.5  215.5
  14..7       0.291   3300.5   1079.5   0.0797   0.0253   0.3169   83.4  342.1
  14..16      0.043   3300.5   1079.5   0.0797   0.0037   0.0462   12.2   49.9
  16..8       0.360   3300.5   1079.5   0.0797   0.0312   0.3918  103.1  422.9
  16..17      0.107   3300.5   1079.5   0.0797   0.0093   0.1167   30.7  125.9
  17..9       0.114   3300.5   1079.5   0.0797   0.0099   0.1237   32.5  133.5
  17..10      0.156   3300.5   1079.5   0.0797   0.0135   0.1697   44.7  183.2


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

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

   832 I      0.716         0.845
   861 L      0.780         0.890
   905 P      0.782         0.892
   967 I      0.677         0.815
  1028 N      0.900         0.975
  1029 N      0.954*        1.013
  1067 G      0.561         0.736
  1070 K      0.805         0.908
  1071 P      0.563         0.737
  1073 V      0.964*        1.020
  1074 S      0.927         0.994
  1087 T      0.908         0.981
  1230 A      0.523         0.705
  1233 L      0.906         0.979
  1242 P      0.822         0.920
  1243 M      0.731         0.857
  1253 D      0.617         0.773
  1255 V      0.910         0.982
  1263 R      0.796         0.902
  1268 K      0.554         0.727
  1270 P      0.928         0.995
  1284 L      0.513         0.697
  1350 N      0.572         0.741
  1351 A      0.737         0.860
  1408 V      0.903         0.977
  1424 T      0.503         0.690
  1430 T      0.870         0.954
  1431 V      0.926         0.994
  1432 S      0.711         0.840
  1433 S      0.711         0.841


Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.750         1.267 +- 0.416
   861 L      0.811         1.327 +- 0.368
   905 P      0.767         1.290 +- 0.391
   967 I      0.702         1.213 +- 0.457
  1028 N      0.867         1.387 +- 0.296
  1029 N      0.920         1.435 +- 0.226
  1067 G      0.563         1.075 +- 0.501
  1070 K      0.827         1.344 +- 0.351
  1071 P      0.565         1.077 +- 0.500
  1072 K      0.542         1.032 +- 0.530
  1073 V      0.935         1.448 +- 0.202
  1074 S      0.899         1.416 +- 0.258
  1087 T      0.910         1.424 +- 0.249
  1230 A      0.583         1.076 +- 0.521
  1233 L      0.916         1.428 +- 0.243
  1242 P      0.856         1.370 +- 0.324
  1243 M      0.702         1.227 +- 0.431
  1253 D      0.683         1.187 +- 0.475
  1255 V      0.928         1.439 +- 0.226
  1263 R      0.794         1.315 +- 0.374
  1268 K      0.608         1.106 +- 0.509
  1270 P      0.899         1.416 +- 0.257
  1284 L      0.580         1.071 +- 0.524
  1350 N      0.614         1.116 +- 0.503
  1351 A      0.760         1.278 +- 0.407
  1408 V      0.903         1.417 +- 0.259
  1424 T      0.558         1.048 +- 0.528
  1430 T      0.862         1.380 +- 0.308
  1431 V      0.932         1.443 +- 0.217
  1432 S      0.798         1.306 +- 0.397
  1433 S      0.776         1.286 +- 0.410



The grid 

p0:   0.050  0.150  0.250  0.350  0.450  0.550  0.650  0.750  0.850  0.950
p :   0.100  0.300  0.500  0.700  0.900  1.100  1.300  1.500  1.700  1.900
q :   0.100  0.300  0.500  0.700  0.900  1.100  1.300  1.500  1.700  1.900
ws:   1.500  2.500  3.500  4.500  5.500  6.500  7.500  8.500  9.500 10.500


Posterior on the grid

p0:   0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  1.000
p :   1.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000
q :   0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.011  0.989
ws:   1.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000

Time used: 24:54
Download 
Model 1: NearlyNeutral	-16461.942579
Model 2: PositiveSelection	-16461.942579
Model 0: one-ratio	-16709.812565
Model 3: discrete	-16417.683229
Model 7: beta	-16424.142646
Model 8: beta&w>1	-16419.668912


Model 0 vs 1	495.73997200000304

Model 2 vs 1	0.0

Model 8 vs 7	8.94746799999848

Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.716         0.845
   861 L      0.780         0.890
   905 P      0.782         0.892
   967 I      0.677         0.815
  1028 N      0.900         0.975
  1029 N      0.954*        1.013
  1067 G      0.561         0.736
  1070 K      0.805         0.908
  1071 P      0.563         0.737
  1073 V      0.964*        1.020
  1074 S      0.927         0.994
  1087 T      0.908         0.981
  1230 A      0.523         0.705
  1233 L      0.906         0.979
  1242 P      0.822         0.920
  1243 M      0.731         0.857
  1253 D      0.617         0.773
  1255 V      0.910         0.982
  1263 R      0.796         0.902
  1268 K      0.554         0.727
  1270 P      0.928         0.995
  1284 L      0.513         0.697
  1350 N      0.572         0.741
  1351 A      0.737         0.860
  1408 V      0.903         0.977
  1424 T      0.503         0.690
  1430 T      0.870         0.954
  1431 V      0.926         0.994
  1432 S      0.711         0.840
  1433 S      0.711         0.841

Bayes Empirical Bayes (BEB) analysis (Yang, Wong & Nielsen 2005. Mol. Biol. Evol. 22:1107-1118)
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: D_melanogaster_Skeletor-PE)

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

   832 I      0.750         1.267 +- 0.416
   861 L      0.811         1.327 +- 0.368
   905 P      0.767         1.290 +- 0.391
   967 I      0.702         1.213 +- 0.457
  1028 N      0.867         1.387 +- 0.296
  1029 N      0.920         1.435 +- 0.226
  1067 G      0.563         1.075 +- 0.501
  1070 K      0.827         1.344 +- 0.351
  1071 P      0.565         1.077 +- 0.500
  1072 K      0.542         1.032 +- 0.530
  1073 V      0.935         1.448 +- 0.202
  1074 S      0.899         1.416 +- 0.258
  1087 T      0.910         1.424 +- 0.249
  1230 A      0.583         1.076 +- 0.521
  1233 L      0.916         1.428 +- 0.243
  1242 P      0.856         1.370 +- 0.324
  1243 M      0.702         1.227 +- 0.431
  1253 D      0.683         1.187 +- 0.475
  1255 V      0.928         1.439 +- 0.226
  1263 R      0.794         1.315 +- 0.374
  1268 K      0.608         1.106 +- 0.509
  1270 P      0.899         1.416 +- 0.257
  1284 L      0.580         1.071 +- 0.524
  1350 N      0.614         1.116 +- 0.503
  1351 A      0.760         1.278 +- 0.407
  1408 V      0.903         1.417 +- 0.259
  1424 T      0.558         1.048 +- 0.528
  1430 T      0.862         1.380 +- 0.308
  1431 V      0.932         1.443 +- 0.217
  1432 S      0.798         1.306 +- 0.397
  1433 S      0.776         1.286 +- 0.410

i3S

Phone: +351 220 408 800
Email: info@i3s.up.pt
Address: Rua Alfredo Allen, 208
4200-135 Porto, Portugal

If you use B+, please cite us:

N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2018) Large Scale Analyses and Visualization of Adaptive Amino Acid Changes Projects. Interdisciplinary Sciences: Computational Life Sciences. https://doi.org/10.1007/s12539-018-0282-7

N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2017) Automated Collection and Sharing of Adaptive Amino Acid Changes Data. 11th International Conference on Practical Applications of Computational Biology & Bioinformatics. Porto, Portugal. https://doi.org/10.1007/978-3-319-60816-7_3

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