--- EXPERIMENT NOTES
--- EXPERIMENT PROPERTIES
#Tue Feb 13 02:49:35 WET 2018
codeml.models=0 1 2 3 7 8
mrbayes.mpich=
mrbayes.ngen=1000000
tcoffee.alignMethod=MUSCLE
tcoffee.params=
tcoffee.maxSeqs=0
codeml.bin=codeml
mrbayes.tburnin=2500
codeml.dir=/usr/bin/
input.sequences=
mrbayes.pburnin=2500
mrbayes.bin=mb
tcoffee.bin=t_coffee
mrbayes.dir=/usr/bin/
tcoffee.dir=
tcoffee.minScore=3
input.fasta=/opt/ADOPS/HIV1_N2/REV_1_1/input.fasta
input.names=
mrbayes.params=
codeml.params=
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/HIV1_N2/REV_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_N2/REV_1_1/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/HIV1_N2/REV_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -6116.13 -6170.93
2 -6114.01 -6161.78
--------------------------------------
TOTAL -6114.59 -6170.24
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/HIV1_N2/REV_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_N2/REV_1_1/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/HIV1_N2/REV_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 5.968225 0.137876 5.298071 6.727100 5.950154 866.33 915.74 1.000
r(A<->C){all} 0.154221 0.000199 0.127778 0.182980 0.153915 632.43 693.31 1.000
r(A<->G){all} 0.290793 0.000603 0.243525 0.338014 0.290580 447.87 455.90 1.000
r(A<->T){all} 0.065678 0.000114 0.045693 0.086362 0.064943 686.89 741.37 1.000
r(C<->G){all} 0.045358 0.000057 0.031288 0.060526 0.045061 702.89 783.45 1.000
r(C<->T){all} 0.340896 0.000776 0.285927 0.393635 0.341136 422.20 424.76 1.000
r(G<->T){all} 0.103054 0.000181 0.077031 0.128507 0.102643 834.44 839.94 1.000
pi(A){all} 0.307607 0.000242 0.277181 0.337252 0.307851 612.68 706.23 1.000
pi(C){all} 0.257338 0.000227 0.229842 0.289235 0.257316 650.94 671.96 1.000
pi(G){all} 0.282360 0.000271 0.251934 0.315208 0.282124 670.30 713.44 1.000
pi(T){all} 0.152695 0.000157 0.128477 0.177230 0.152319 511.97 558.93 1.000
alpha{1,2} 0.962867 0.035971 0.610500 1.320015 0.944765 867.37 992.65 1.000
alpha{3} 1.169768 0.054589 0.757451 1.659986 1.149482 1050.75 1093.61 1.002
pinvar{all} 0.153948 0.001455 0.075495 0.224351 0.156556 874.51 969.46 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 -4638.12574
Model 2: PositiveSelection -4597.436358
Model 0: one-ratio -4850.112421
Model 3: discrete -4595.962465
Model 7: beta -4633.044371
Model 8: beta&w>1 -4591.884748
Model 0 vs 1 423.9733619999988
Model 2 vs 1 81.37876400000096
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: B.US.97.395718.KT124770_)
Pr(w>1) post mean +- SE for w
11 K 1.000** 2.788
15 L 0.930 2.662
25 P 0.999** 2.787
27 R 0.991** 2.772
28 P 0.531 1.950
50 R 0.905 2.618
51 A 1.000** 2.788
59 T 0.970* 2.735
64 P 0.998** 2.784
65 A 0.815 2.457
79 T 0.997** 2.784
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: B.US.97.395718.KT124770_)
Pr(w>1) post mean +- SE for w
11 K 1.000** 2.558 +- 0.234
15 L 0.945 2.463 +- 0.411
25 P 0.999** 2.557 +- 0.237
27 R 0.992** 2.544 +- 0.268
28 P 0.661 2.005 +- 0.728
50 R 0.927 2.434 +- 0.450
51 A 1.000** 2.558 +- 0.234
59 T 0.975* 2.516 +- 0.329
64 P 0.998** 2.555 +- 0.245
65 A 0.872 2.332 +- 0.532
79 T 0.998** 2.554 +- 0.245
Model 8 vs 7 82.31924599999911
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: B.US.97.395718.KT124770_)
Pr(w>1) post mean +- SE for w
11 K 1.000** 2.446
15 L 0.968* 2.398
25 P 1.000** 2.445
27 R 0.995** 2.439
28 P 0.739 2.048
50 R 0.954* 2.377
51 A 1.000** 2.446
59 T 0.986* 2.425
64 P 0.999** 2.444
65 A 0.923 2.329
79 T 0.999** 2.443
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: B.US.97.395718.KT124770_)
Pr(w>1) post mean +- SE for w
11 K 1.000** 2.501 +- 0.028
15 L 0.974* 2.459 +- 0.253
25 P 1.000** 2.500 +- 0.037
27 R 0.996** 2.495 +- 0.097
28 P 0.766 2.127 +- 0.677
50 R 0.962* 2.440 +- 0.304
51 A 1.000** 2.501 +- 0.028
59 T 0.989* 2.483 +- 0.165
64 P 0.999** 2.499 +- 0.055
65 A 0.933 2.394 +- 0.395
79 T 0.999** 2.499 +- 0.058
>C1
MAGRSGDSDEELLKAVRLIKLLYQSNPPPRPQGTRQARRNRRRRWRERDR
TIRAISERILATCLGRPAEPVPLQLPPLERLTLDCNEDCGTSGTPGVGTP
QVLLESPTVLESGTKEoooooooooo
>C2
MAGRSGDSDDELIKTVQLIKQIYQSNPPPSSEGTRQARRNRRRRWRERQR
HIREISGWILSTYLGRPTEPVPLPLPPLERLTLDCSEGCGTCGTQGVGTP
QVLVESPTVLESGTKEoooooooooo
>C3
MAGRSGDSDEALLQAVKAIKILYQSNPYPEPKGTRQARKNRRRRWRARQR
QIHSLSERILSACLGRPAEPVPFQLPPIERLHIDCSKSVGTSGTEGVGSP
oooooooooooooooooooooooooo
>C4
MAGRSGDSDEELLRAVRIIKILYQSNPYPKSKGSRQARKNRRRRWRARQR
QIDSISERILSTCLGRSTEPVSLQLPPLERLQLGCCEDCGTSGTQQSQGV
ETGVGSPQVSVESPVVLGSGTKKooo
>C5
MAGRSGDSDEQLLWAVRVIKILYQSNPYPKLSGSRQARRNRRRRWRARQN
QIDSISERILSSCLGRSEEPVPLQLPPIERLRLDCTEDCGNSGTQGVGDP
QIPGEPGVLLGTGTKEoooooooooo
>C6
MAGRSGDSDEELLKAVRYIKILYQSNPYPKPEGTRQARRNRRRRWRARQR
QIHEISERILTTYLGRPTEPVLFQLPPLERLTINCSEDCGQGSERGVGSP
QISVESHAALGSGIKEoooooooooo
>C7
MAGRSGSTDEELLKAVRIIKILYQSNPYPSSEGTRQARRNRRRRWRARQR
QIRDISQRILNSCLGRSTEPVHLPLPPLERLHLDCNEDCGTSGTQQSQGT
ETGVGRPQIFGESSGILEPGTKNooo
>C8
MAGRSGDSEEELLKAVRLIKFLYQSNPPPSPAGTRQARRNRGRRWRQRQR
QIRSLSGWILSNYLGRPAEPVPLQLPPLERLTLDCSEDCGESGTPGEGNP
QILVESPAILESGAKEoooooooooo
>C9
MAGRSGDSDEELLKTVRIVKFLYQSNPPPSPAGTRQARRNRRRRWRERQR
HIQALSDWILRTHLGRPAEPVPLQLPPLERLTLDCSEDCGTSGTQGVGSP
EILVESPAVLESGTKEEooooooooo
>C10
MAGRSGNTDEELLRIIQTIKILYQSNPYPPSEGTRQARKNRRRRWRARQR
QIHSISERLLSTCVGRSTEPVPLQLPPLERLHIDCNEDSGTLGTQQSQGT
ETGVGGPQIPVESSVVLGSGTKEooo
>C11
MAGRSGDSDEELLKAARLIKLLYQSNPYPKPEGTRQARRNRRRRWRARQS
QIRAISERIIDTYLGRPEEPVPFQLPPLERLTLGCNEDCGTSGTQGVGSP
QILVESPTVLESGTKEoooooooooo
>C12
MAGRSGDSDEELLQVVRIIKILYRSNPYPKPRGTRQARKNRRRRWRARQR
QIDSISERILSTFLGRSAEPVPLQLPPLERLHLDCQEDCGTSGTQQSQGV
ETGVGRPQVSVESPGILGSGTKNooo
>C13
MAGRSGSTDEELLAAVRIIKILYQSNPYPSSEGTRQTRKNRRRRWRARQR
QIRAISERILSTCVGRSTEPVPLQLPPLERLHLGCSEDCGNSGTQQSQGT
ETGVGRPQISGESSGILGSGTKNooo
>C14
MAGRSGDSDEALLQAVRIIKILYQSNPYPKPRGTRQARKNRRRRWRARQR
QIDSISERILSTCLGRSAEPVPLQLPPLERLHLDSGTQQSQGTETGVGRP
QVSVESSAILGPGTKNoooooooooo
>C15
MAGRSGSTDDEELLRVVRIIKILYQSNPYPSSEGNRQTRRNRRRRWRARQ
RQIRALSERFLSSCLGRSTEPVPLQLPPLERLNLDNNEDCGTSGTQQSQG
TEAGVGRPEISGECSVILGPGTKNoo
>C16
MAGRSGDPDEDLIQAVRIIKILYQSNPPPPPEGTRQARRNRRRRWRARQR
QIHSISERILSSCLGRRAEPVPLQLPPLERLHIDCSEDSRATGTQQPPGT
ETGVGGPQTSVESPAVLGSGTKEEoo
>C17
MAGRSGDSDEALLQAVRIIKILYQSNPHPSPEGTRQARRNRRRRWRARQR
QIRAISERILSTYLGRSEEPVPLQLPPLERLNLNCNEDCGNSGTQGVGSP
QIPVESSTVLGSGTKEoooooooooo
>C18
MAGRSGDSDEDLLRTVRIIKILYQSNPYPKPEGSRQARRNRRRRWRARQR
QIDSIGERILSACLGRPAEPVPLQLPPLERLRLDCCEDCGTSGTQQSQGT
ETGVGRPQVSGESPGILGSGTKEooo
>C19
MAGRSDDVPLLHTIRIIKILYQSNPQPSPIGSRSARRNRRRRWRRRQAQI
DTLAARFLASVVHGPQDNNLVELPPLEQLSIRDPDGDQPSGTGTVDPRTE
DNoooooooooooooooooooooooo
>C20
MAGRSGSTDEELLRAVRIVKILYQSNPYPSSEGTRQARKNRRRRWRARQR
QIREISDRVLSSCLGRSPEPVPLQLPPLERLHLDCSEDCGISGTQQSQGT
ETGLGRPQISGESSDILEPGTKNooo
>C21
MAGRSGGTDEELLQAVRIIKILYQSNPFPSPEGTRQTRKNRRRRWRARQR
QIRAISERILSTCLGRSTEPVPLPLPPIERLNLDCSEDCGTSGTEQSQGT
ETGVGRPQISGESSVILGSGTENooo
>C22
MAGRSGSDEELLLAIRTIKILYQSNPSPPPEGTRQARRNRRRRWRARQRQ
IREISERILSTCLGRPAEPVPLQLPPIERLNLHCSEDSGTPGTQQPPGTE
IGVGGPQISVEHPVVLGSGTKEoooo
>C23
MAGRSGNSDEELLKAVSIIKILYNSNPYPKPKGSRQARRNRRRRWRARQN
QIDSLSERILSTCLGRPAEPVPLQLPPLERLCLDCQEDCGTSGTQQSQGV
ETRVGRPQVSVESSGVLGSGAKEECH
>C24
MAGRSGDSDAELLQAVRIIKILYQSNPYPNPEGATRQARKNRRRRWRARQ
KQIHSISERILSSCLGRPAEPVPLQLPPIERLHIDCSESGGTSGTQQSQG
TTEGVGSPoooooooooooooooooo
>C25
MAGRSGNADAGLLSAVRIIRILYQSNPYPSAEGTRQARKNRRRRWRARQR
QISQISQRILSSCLGRSEEPVPLQLPPIERLRLDCSEDCGTSGTQQSQGT
ETGVGSPQISGESSIILGSGTKEooo
>C26
MAGRSGSTDEELLTTVRIIKILYQSNPIPPPEGTRQTRKNRRRRWRARQR
QIHSISERILSTCLGRSTEPVPLQLPPLERLNLDCSEDCGTSGTQQSEGT
ETGVGRPQISGESSVLLGPGTKNooo
>C27
MAGRSGGTDEELIKAVKIIKILYRSNPFPSSEGTRQARKNRRRRWRARQK
QISALSERILSACLGRPPEPVPLQLPPLERLQLNCSEDCGTSGTQQSQGT
ETGVGRSQISGEPSVILGSGTKNooo
>C28
MAGRSGDSDEALLQAVRIIKILYQSNPYPEPKGTRQARKNRRRRWRARQR
QIHSISERILRTCLGRSAEPVPLQLPPIERLHIGGSESGGTSGTQQLGSP
QISGKSCAVLGSGAKKoooooooooo
>C29
MAGRRGDSEEDLIQTVKLIKLLYQSNPIPSPEGTRQARRNRRRRWRERQR
KINSLSAWILSTHLGRPEEPVPLQLPPLDRLTLDCSEDSADSGTQGVGSP
QILVEPSAVLESGTKEoooooooooo
>C30
MAGRSGDSDDELLKTVRLIKLLYQSNPPPCPEGTRQARRNRRRRWRERQR
QIRSISGWIIDTYLGRPEEPVPLQLPPLERLTLDCNEDCGTSGTQGVGNP
QILVESPTVLEAGTKEoooooooooo
>C31
MAGRSGDSDEELLRTIRLIKILYQSNPLPSPEGTRQARRNRRRRWRARQR
QIHSIGERILNTYLGRSEEPVPLQLPPLERLNLNCNEDCGTSGTQGVGSH
QISVESPAVLESGTEDoooooooooo
>C32
MAGRSGDNDEQLLAAIRAIRILYQSNPYPQQQGSRQARRNRRRRWRARQN
QIDSISQRILSSCLGRSEEPVPLELPPIERLHLDCSEDCGNSGTQGVGES
QIPGESCTILGPRTEToooooooooo
>C33
MAGRSGDSDEALLKAVRIIKILYQSNPYPEPRGTRQARKNRRRRWRARQR
QIHSISERILSACLGRPAEPVPLQLPPIERLHISGSESGGTSGTQQSQGT
TERVGSPooooooooooooooooooo
>C34
MAGRSGDNDEALLQAVRTIKILYQSNPDPKPEGTRQARKNRRRRWRARQR
QIRAISERILSACLGRPAEPVPFQLPPIERLTIGDSESSGTSGTQQSQGT
SEGVGNPooooooooooooooooooo
>C35
MAGRSGDSDEELLKTVRLIKVLYQSNPLPSPEGTRQARRNRRRRWRKKQR
WIRSISDWILRNHLGRSTEPVPLQLPPIERLTLDCNEDCGTSGTQGVGSP
QISVESPAVLESGTEEoooooooooo
>C36
MAGRSGDRDEDLLQTVRFIKFLYQSNPPPSLEGTRQARRNRRRRWRARQR
QIGRISDWLLRNHLGRPAEPAPLQLPPLERLTLDCSEDCGTSGTQGVGSP
QILVESPAVLESGTKEoooooooooo
>C37
MAGRSEDRDEELLRTVRIIKFLYQSNPIPSPEGTTRQARRNRRRRWRERQ
RQIRDISQRILDTYLGRSQEPVPLQLPSLERLTLDCNEDCGTSGTQGGGS
PPVLVEPPAVLDSGTKNooooooooo
>C38
MAGRSGDSDEELLRTVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRERQR
QIRSISDWILSNHLGRPAEPVPLQLPPIERLTLDCNEDCGTSGTQGVGNP
QILVESPAILESGTKEoooooooooo
>C39
MAGRSGDSDEELLRAVRIIKILYQSNPFPSPEGTRQARRNRRRRWRARQR
QIHSIGERILSTHLGRLEEPVPLQLPPIEKLNINCSEDCGTSGTQGVGSH
QVLVESPTVLDSGAKEoooooooooo
>C40
MAGRSGSTDEELLRAVRIIRILYQSNPYPSAEGTRQTRKNRRRRWRARQR
QIREISERILRSCLGRSAEPVPLQLPPLERLHLGCSEDSGTSGTQGVGRP
QISGESSDILEPGTKKoooooooooo
>C41
MAGRSGDSDEELIKTIRLIKRLYQSNPLPSPEGTRQARRNRRRRWRERQR
QIHKIGGWILSTYLGRPEEPVPLQLPPLDRLTLDCNEDCGTSGTQGVGNS
QVLVESPAVLESGTKEoooooooooo
>C42
MAGRSGDSDKKLLTAIRIIKILYQSNPYPKPRGTRQARKNRRRRWRARQE
QINAISGRILSSFLGRPAEPVPLQLPPIERLRLDCSEDCGTSGTQQPQGA
ETGVGRSQVPEESSGILDTGTKNooo
>C43
MAGRSGDSDEDLLKAVRLIKLLYQSNPPPSPEGTRQARRNRRRRWREKQR
QIRSISERILTTYLGRPAEPVPLQLPPLERLTLNCSENCGTSGTQGVGSP
QILVESPPVLETGTKEoooooooooo
>C44
MAGRSGSTDEELLRAVRIINILYQSNPFPPAEGTRQTRRNRRRRWRARQS
QIRAISERILSTILGRPTEPVPLQLPPLERLHLDCSEDCGNSGTQQSQGT
ETGVGRPQISGESSGILGPGTKNooo
>C45
MAGRSGDADQELLRAVRIIKILYQSNPYPSSEGTRQARKNRRRRWRARQR
QISALSERILSTCLGRPTEPVPLLLPPIERLSLDCTEGRGTSGTQQSQGT
ETRVGSPQTSGESSVILGSGTKEooo
>C46
MAGRSGDSDEALLQAVRIIKILYQSNPYPRPEGTRQAQRNRRRRWRARQR
QINSISERILSTCLGRPAEPLPFLLPPIERLYIGDSEGSGTSGTQQSQGT
TEREGSPooooooooooooooooooo
>C47
MAGRSGDSDEDLLKTVRLIKLLYQSNPPPNPEGTRQARRNRRRRWRERQR
HIRKISERILDTYLGRSEEPVPLPLPPLERLTLDCNEDCGTSGTQGVGSP
QILVESPTILESGTKEoooooooooo
>C48
MAGRSGDNSDEELLRAVRTIKILYQSNPLPPSEGSRQARKNRRRRWRARQ
RQIGAISERILRACLGRSAEPVPLQLPPLERLSLNCNEDSGTSGTQQSQG
TKTGVGSPQISVESSVILGSGTKEoo
>C49
MAGRSGDSDEELLKTVRLIKTIYQSNPPPNPEGTRQARRNRRRRWRERQR
QIRTISNWILSTYLGRSTEPVPLQLPPIDRLTLDCNEDCGTSGTQGVGSS
QVLVESSTVLESGTKEoooooooooo
>C50
MAGRSGDSDEDLLKTVRLIKLLYQSNPPPNPEGTRQARRNRRRRWRARQR
QIRWLSTKLLSTYLDRPAEPVPLQLPPLERLTLDCSEDCGTTGTQGVGDP
QILVESPAVLESGTKKoooooooooo
PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
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-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
[Relax Library][TOT= 6][ 0 %][ELAPSED TIME: 0 sec.]
[Relax Library][TOT= 6][ 33 %][ELAPSED TIME: 0 sec.]
[Relax Library][TOT= 6][ 50 %][ELAPSED TIME: 0 sec.]
[Relax Library][TOT= 6][ 66 %][ELAPSED TIME: 0 sec.]
[Relax Library][TOT= 6][ 83 %][ELAPSED TIME: 0 sec.]
[Relax Library][TOT= 6][100 %][ELAPSED TIME: 0 sec.]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln
Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
--- Process Method/Library/Aln Mproba_pair
xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
All Methods Retrieved
MANUAL PENALTIES: gapopen=0 gapext=0
Library Total Size: [576950]
Library Relaxation: Multi_proc [8]
Relaxation Summary: [576950]--->[435911]
UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1
OUTPUT RESULTS
#### File Type= MSA Format= score_ascii Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii
#### File Type= MSA Format= html Name= input.prot.fasta.muscle_rs_0_0.fasta.html
#### File Type= MSA Format= score_ascii Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii
# Command Line: t_coffee -infile input.prot.fasta.muscle_rs_0_0.fasta.aln -output score_ascii -special_mode evaluate -evaluate_mode t_coffee_fast [PROGRAM:T-COFFEE]
# T-COFFEE Memory Usage: Current= 31.813 Mb, Max= 43.316 Mb
# Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
# T-COFFEE is available from http://www.tcoffee.org
# Register on: https://groups.google.com/group/tcoffee/
FORMAT of file input.prot.fasta.muscle_rs_0_0.fasta.ipi_i.fasta Not Supported[FATAL:T-COFFEE]
CLUSTAL W (1.83) multiple sequence alignment
C1 MAGRSGDELLKAVRLIKLLYQSNPPPRPQGTRQARRNRRRRWRERDRTIR
C2 MAGRSGDELIKTVQLIKQIYQSNPPPSSEGTRQARRNRRRRWRERQRHIR
C3 MAGRSGDALLQAVKAIKILYQSNPYPEPKGTRQARKNRRRRWRARQRQIH
C4 MAGRSGDELLRAVRIIKILYQSNPYPKSKGSRQARKNRRRRWRARQRQID
C5 MAGRSGDQLLWAVRVIKILYQSNPYPKLSGSRQARRNRRRRWRARQNQID
C6 MAGRSGDELLKAVRYIKILYQSNPYPKPEGTRQARRNRRRRWRARQRQIH
C7 MAGRSGSELLKAVRIIKILYQSNPYPSSEGTRQARRNRRRRWRARQRQIR
C8 MAGRSGDELLKAVRLIKFLYQSNPPPSPAGTRQARRNRGRRWRQRQRQIR
C9 MAGRSGDELLKTVRIVKFLYQSNPPPSPAGTRQARRNRRRRWRERQRHIQ
C10 MAGRSGNELLRIIQTIKILYQSNPYPPSEGTRQARKNRRRRWRARQRQIH
C11 MAGRSGDELLKAARLIKLLYQSNPYPKPEGTRQARRNRRRRWRARQSQIR
C12 MAGRSGDELLQVVRIIKILYRSNPYPKPRGTRQARKNRRRRWRARQRQID
C13 MAGRSGSELLAAVRIIKILYQSNPYPSSEGTRQTRKNRRRRWRARQRQIR
C14 MAGRSGDALLQAVRIIKILYQSNPYPKPRGTRQARKNRRRRWRARQRQID
C15 MAGRSGSELLRVVRIIKILYQSNPYPSSEGNRQTRRNRRRRWRARQRQIR
C16 MAGRSGDDLIQAVRIIKILYQSNPPPPPEGTRQARRNRRRRWRARQRQIH
C17 MAGRSGDALLQAVRIIKILYQSNPHPSPEGTRQARRNRRRRWRARQRQIR
C18 MAGRSGDDLLRTVRIIKILYQSNPYPKPEGSRQARRNRRRRWRARQRQID
C19 MAGRSDDPLLHTIRIIKILYQSNPQPSPIGSRSARRNRRRRWRRRQAQID
C20 MAGRSGSELLRAVRIVKILYQSNPYPSSEGTRQARKNRRRRWRARQRQIR
C21 MAGRSGGELLQAVRIIKILYQSNPFPSPEGTRQTRKNRRRRWRARQRQIR
C22 MAGRSGSELLLAIRTIKILYQSNPSPPPEGTRQARRNRRRRWRARQRQIR
C23 MAGRSGNELLKAVSIIKILYNSNPYPKPKGSRQARRNRRRRWRARQNQID
C24 MAGRSGDELLQAVRIIKILYQSNPYPNPEGTRQARKNRRRRWRARQKQIH
C25 MAGRSGNGLLSAVRIIRILYQSNPYPSAEGTRQARKNRRRRWRARQRQIS
C26 MAGRSGSELLTTVRIIKILYQSNPIPPPEGTRQTRKNRRRRWRARQRQIH
C27 MAGRSGGELIKAVKIIKILYRSNPFPSSEGTRQARKNRRRRWRARQKQIS
C28 MAGRSGDALLQAVRIIKILYQSNPYPEPKGTRQARKNRRRRWRARQRQIH
C29 MAGRRGDDLIQTVKLIKLLYQSNPIPSPEGTRQARRNRRRRWRERQRKIN
C30 MAGRSGDELLKTVRLIKLLYQSNPPPCPEGTRQARRNRRRRWRERQRQIR
C31 MAGRSGDELLRTIRLIKILYQSNPLPSPEGTRQARRNRRRRWRARQRQIH
C32 MAGRSGDQLLAAIRAIRILYQSNPYPQQQGSRQARRNRRRRWRARQNQID
C33 MAGRSGDALLKAVRIIKILYQSNPYPEPRGTRQARKNRRRRWRARQRQIH
C34 MAGRSGDALLQAVRTIKILYQSNPDPKPEGTRQARKNRRRRWRARQRQIR
C35 MAGRSGDELLKTVRLIKVLYQSNPLPSPEGTRQARRNRRRRWRKKQRWIR
C36 MAGRSGDDLLQTVRFIKFLYQSNPPPSLEGTRQARRNRRRRWRARQRQIG
C37 MAGRSEDELLRTVRIIKFLYQSNPIPSPEGTRQARRNRRRRWRERQRQIR
C38 MAGRSGDELLRTVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRERQRQIR
C39 MAGRSGDELLRAVRIIKILYQSNPFPSPEGTRQARRNRRRRWRARQRQIH
C40 MAGRSGSELLRAVRIIRILYQSNPYPSAEGTRQTRKNRRRRWRARQRQIR
C41 MAGRSGDELIKTIRLIKRLYQSNPLPSPEGTRQARRNRRRRWRERQRQIH
C42 MAGRSGDKLLTAIRIIKILYQSNPYPKPRGTRQARKNRRRRWRARQEQIN
C43 MAGRSGDDLLKAVRLIKLLYQSNPPPSPEGTRQARRNRRRRWREKQRQIR
C44 MAGRSGSELLRAVRIINILYQSNPFPPAEGTRQTRRNRRRRWRARQSQIR
C45 MAGRSGDELLRAVRIIKILYQSNPYPSSEGTRQARKNRRRRWRARQRQIS
C46 MAGRSGDALLQAVRIIKILYQSNPYPRPEGTRQAQRNRRRRWRARQRQIN
C47 MAGRSGDDLLKTVRLIKLLYQSNPPPNPEGTRQARRNRRRRWRERQRHIR
C48 MAGRSGDELLRAVRTIKILYQSNPLPPSEGSRQARKNRRRRWRARQRQIG
C49 MAGRSGDELLKTVRLIKTIYQSNPPPNPEGTRQARRNRRRRWRERQRQIR
C50 MAGRSGDDLLKTVRLIKLLYQSNPPPNPEGTRQARRNRRRRWRARQRQIR
**** . *: :. :*.*** * *.*.:::** **** :: *
C1 AISERILATCLGRPAEPVPLQLPPLERLTLDSGTGVGTPQVLLESPTVLE
C2 EISGWILSTYLGRPTEPVPLPLPPLERLTLDCGTGVGTPQVLVESPTVLE
C3 SLSERILSACLGRPAEPVPFQLPPIERLHIDSGTGVGSPooooooooooo
C4 SISERILSTCLGRSTEPVSLQLPPLERLQLGSGTGVGSPQVSVESPVVLG
C5 SISERILSSCLGRSEEPVPLQLPPIERLRLDSGTGVGDPQIPGEPGVLLG
C6 EISERILTTYLGRPTEPVLFQLPPLERLTINGSEGVGSPQISVESHAALG
C7 DISQRILNSCLGRSTEPVHLPLPPLERLHLDSGTGVGRPQIFGESSGILE
C8 SLSGWILSNYLGRPAEPVPLQLPPLERLTLDSGTGEGNPQILVESPAILE
C9 ALSDWILRTHLGRPAEPVPLQLPPLERLTLDSGTGVGSPEILVESPAVLE
C10 SISERLLSTCVGRSTEPVPLQLPPLERLHIDLGTGVGGPQIPVESSVVLG
C11 AISERIIDTYLGRPEEPVPFQLPPLERLTLGSGTGVGSPQILVESPTVLE
C12 SISERILSTFLGRSAEPVPLQLPPLERLHLDSGTGVGRPQVSVESPGILG
C13 AISERILSTCVGRSTEPVPLQLPPLERLHLGSGTGVGRPQISGESSGILG
C14 SISERILSTCLGRSAEPVPLQLPPLERLHLDSGTGVGRPQVSVESSAILG
C15 ALSERFLSSCLGRSTEPVPLQLPPLERLNLDSGTGVGRPEISGECSVILG
C16 SISERILSSCLGRRAEPVPLQLPPLERLHIDTGTGVGGPQTSVESPAVLG
C17 AISERILSTYLGRSEEPVPLQLPPLERLNLNSGTGVGSPQIPVESSTVLG
C18 SIGERILSACLGRPAEPVPLQLPPLERLRLDSGTGVGRPQVSGESPGILG
C19 TLAARFLASVVHGPQDNNLVELPPLEQLSIRSGTGTVDPRTEDNoooooo
C20 EISDRVLSSCLGRSPEPVPLQLPPLERLHLDSGTGLGRPQISGESSDILE
C21 AISERILSTCLGRSTEPVPLPLPPIERLNLDSGTGVGRPQISGESSVILG
C22 EISERILSTCLGRPAEPVPLQLPPIERLNLHPGTGVGGPQISVEHPVVLG
C23 SLSERILSTCLGRPAEPVPLQLPPLERLCLDSGTRVGRPQVSVESSGVLG
C24 SISERILSSCLGRPAEPVPLQLPPIERLHIDSGTGVGSPooooooooooo
C25 QISQRILSSCLGRSEEPVPLQLPPIERLRLDSGTGVGSPQISGESSIILG
C26 SISERILSTCLGRSTEPVPLQLPPLERLNLDSGTGVGRPQISGESSVLLG
C27 ALSERILSACLGRPPEPVPLQLPPLERLQLNSGTGVGRSQISGEPSVILG
C28 SISERILRTCLGRSAEPVPLQLPPIERLHIGSGTQLGSPQISGKSCAVLG
C29 SLSAWILSTHLGRPEEPVPLQLPPLDRLTLDSGTGVGSPQILVEPSAVLE
C30 SISGWIIDTYLGRPEEPVPLQLPPLERLTLDSGTGVGNPQILVESPTVLE
C31 SIGERILNTYLGRSEEPVPLQLPPLERLNLNSGTGVGSHQISVESPAVLE
C32 SISQRILSSCLGRSEEPVPLELPPIERLHLDSGTGVGESQIPGESCTILG
C33 SISERILSACLGRPAEPVPLQLPPIERLHISSGTRVGSPooooooooooo
C34 AISERILSACLGRPAEPVPFQLPPIERLTIGSGTGVGNPooooooooooo
C35 SISDWILRNHLGRSTEPVPLQLPPIERLTLDSGTGVGSPQISVESPAVLE
C36 RISDWLLRNHLGRPAEPAPLQLPPLERLTLDSGTGVGSPQILVESPAVLE
C37 DISQRILDTYLGRSQEPVPLQLPSLERLTLDSGTGGGSPPVLVEPPAVLD
C38 SISDWILSNHLGRPAEPVPLQLPPIERLTLDSGTGVGNPQILVESPAILE
C39 SIGERILSTHLGRLEEPVPLQLPPIEKLNINSGTGVGSHQVLVESPTVLD
C40 EISERILRSCLGRSAEPVPLQLPPLERLHLGSGTGVGRPQISGESSDILE
C41 KIGGWILSTYLGRPEEPVPLQLPPLDRLTLDSGTGVGNSQVLVESPAVLE
C42 AISGRILSSFLGRPAEPVPLQLPPIERLRLDSGTGVGRSQVPEESSGILD
C43 SISERILTTYLGRPAEPVPLQLPPLERLTLNSGTGVGSPQILVESPPVLE
C44 AISERILSTILGRPTEPVPLQLPPLERLHLDSGTGVGRPQISGESSGILG
C45 ALSERILSTCLGRPTEPVPLLLPPIERLSLDSGTRVGSPQTSGESSVILG
C46 SISERILSTCLGRPAEPLPFLLPPIERLYIGSGTREGSPooooooooooo
C47 KISERILDTYLGRSEEPVPLPLPPLERLTLDSGTGVGSPQILVESPTILE
C48 AISERILRACLGRSAEPVPLQLPPLERLSLNSGTGVGSPQISVESSVILG
C49 TISNWILSTYLGRSTEPVPLQLPPIDRLTLDSGTGVGSSQVLVESSTVLE
C50 WLSTKLLSTYLDRPAEPVPLQLPPLERLTLDTGTGVGDPQILVESPAVLE
:. .: : : . **.:::* : .
C1 SGTKEoo
C2 SGTKEoo
C3 ooooooo
C4 SGTKKoo
C5 TGTKEoo
C6 SGIKEoo
C7 PGTKNoo
C8 SGAKEoo
C9 SGTKEEo
C10 SGTKEoo
C11 SGTKEoo
C12 SGTKNoo
C13 SGTKNoo
C14 PGTKNoo
C15 PGTKNoo
C16 SGTKEEo
C17 SGTKEoo
C18 SGTKEoo
C19 ooooooo
C20 PGTKNoo
C21 SGTENoo
C22 SGTKEoo
C23 SGAKEEC
C24 ooooooo
C25 SGTKEoo
C26 PGTKNoo
C27 SGTKNoo
C28 SGAKKoo
C29 SGTKEoo
C30 AGTKEoo
C31 SGTEDoo
C32 PRTEToo
C33 ooooooo
C34 ooooooo
C35 SGTEEoo
C36 SGTKEoo
C37 SGTKNoo
C38 SGTKEoo
C39 SGAKEoo
C40 PGTKKoo
C41 SGTKEoo
C42 TGTKNoo
C43 TGTKEoo
C44 PGTKNoo
C45 SGTKEoo
C46 ooooooo
C47 SGTKEoo
C48 SGTKEoo
C49 SGTKEoo
C50 SGTKKoo
FORMAT of file input.prot.fasta.muscle_rs_0_0.fasta.ipi_bs.fasta Not Supported[FATAL:T-COFFEE]
input.prot.fasta.muscle_rs_0_0.fasta.aln I:93 S:88 BS:94
# 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
# SEQ_INDEX C11 10
# SEQ_INDEX C12 11
# SEQ_INDEX C13 12
# SEQ_INDEX C14 13
# SEQ_INDEX C15 14
# SEQ_INDEX C16 15
# SEQ_INDEX C17 16
# SEQ_INDEX C18 17
# SEQ_INDEX C19 18
# SEQ_INDEX C20 19
# SEQ_INDEX C21 20
# SEQ_INDEX C22 21
# SEQ_INDEX C23 22
# SEQ_INDEX C24 23
# SEQ_INDEX C25 24
# SEQ_INDEX C26 25
# SEQ_INDEX C27 26
# SEQ_INDEX C28 27
# SEQ_INDEX C29 28
# SEQ_INDEX C30 29
# SEQ_INDEX C31 30
# SEQ_INDEX C32 31
# SEQ_INDEX C33 32
# SEQ_INDEX C34 33
# SEQ_INDEX C35 34
# SEQ_INDEX C36 35
# SEQ_INDEX C37 36
# SEQ_INDEX C38 37
# SEQ_INDEX C39 38
# SEQ_INDEX C40 39
# SEQ_INDEX C41 40
# SEQ_INDEX C42 41
# SEQ_INDEX C43 42
# SEQ_INDEX C44 43
# SEQ_INDEX C45 44
# SEQ_INDEX C46 45
# SEQ_INDEX C47 46
# SEQ_INDEX C48 47
# SEQ_INDEX C49 48
# SEQ_INDEX C50 49
# PW_SEQ_DISTANCES
BOT 0 1 81.75 C1 C2 81.75
TOP 1 0 81.75 C2 C1 81.75
BOT 0 2 65.87 C1 C3 65.87
TOP 2 0 65.87 C3 C1 65.87
BOT 0 3 76.47 C1 C4 76.47
TOP 3 0 76.47 C4 C1 76.47
BOT 0 4 73.02 C1 C5 73.02
TOP 4 0 73.02 C5 C1 73.02
BOT 0 5 74.60 C1 C6 74.60
TOP 5 0 74.60 C6 C1 74.60
BOT 0 6 74.79 C1 C7 74.79
TOP 6 0 74.79 C7 C1 74.79
BOT 0 7 80.95 C1 C8 80.95
TOP 7 0 80.95 C8 C1 80.95
BOT 0 8 82.54 C1 C9 82.54
TOP 8 0 82.54 C9 C1 82.54
BOT 0 9 70.59 C1 C10 70.59
TOP 9 0 70.59 C10 C1 70.59
BOT 0 10 85.71 C1 C11 85.71
TOP 10 0 85.71 C11 C1 85.71
BOT 0 11 77.31 C1 C12 77.31
TOP 11 0 77.31 C12 C1 77.31
BOT 0 12 73.11 C1 C13 73.11
TOP 12 0 73.11 C13 C1 73.11
BOT 0 13 78.15 C1 C14 78.15
TOP 13 0 78.15 C14 C1 78.15
BOT 0 14 69.49 C1 C15 69.49
TOP 14 0 69.49 C15 C1 69.49
BOT 0 15 73.95 C1 C16 73.95
TOP 15 0 73.95 C16 C1 73.95
BOT 0 16 80.95 C1 C17 80.95
TOP 16 0 80.95 C17 C1 80.95
BOT 0 17 78.15 C1 C18 78.15
TOP 17 0 78.15 C18 C1 78.15
BOT 0 18 47.15 C1 C19 47.15
TOP 18 0 47.15 C19 C1 47.15
BOT 0 19 70.59 C1 C20 70.59
TOP 19 0 70.59 C20 C1 70.59
BOT 0 20 73.95 C1 C21 73.95
TOP 20 0 73.95 C21 C1 73.95
BOT 0 21 77.31 C1 C22 77.31
TOP 21 0 77.31 C22 C1 77.31
BOT 0 22 73.95 C1 C23 73.95
TOP 22 0 73.95 C23 C1 73.95
BOT 0 23 66.10 C1 C24 66.10
TOP 23 0 66.10 C24 C1 66.10
BOT 0 24 70.59 C1 C25 70.59
TOP 24 0 70.59 C25 C1 70.59
BOT 0 25 73.11 C1 C26 73.11
TOP 25 0 73.11 C26 C1 73.11
BOT 0 26 69.75 C1 C27 69.75
TOP 26 0 69.75 C27 C1 69.75
BOT 0 27 71.43 C1 C28 71.43
TOP 27 0 71.43 C28 C1 71.43
BOT 0 28 74.60 C1 C29 74.60
TOP 28 0 74.60 C29 C1 74.60
BOT 0 29 85.71 C1 C30 85.71
TOP 29 0 85.71 C30 C1 85.71
BOT 0 30 77.78 C1 C31 77.78
TOP 30 0 77.78 C31 C1 77.78
BOT 0 31 68.25 C1 C32 68.25
TOP 31 0 68.25 C32 C1 68.25
BOT 0 32 65.55 C1 C33 65.55
TOP 32 0 65.55 C33 C1 65.55
BOT 0 33 66.39 C1 C34 66.39
TOP 33 0 66.39 C34 C1 66.39
BOT 0 34 80.16 C1 C35 80.16
TOP 34 0 80.16 C35 C1 80.16
BOT 0 35 78.57 C1 C36 78.57
TOP 35 0 78.57 C36 C1 78.57
BOT 0 36 78.40 C1 C37 78.40
TOP 36 0 78.40 C37 C1 78.40
BOT 0 37 84.13 C1 C38 84.13
TOP 37 0 84.13 C38 C1 84.13
BOT 0 38 77.78 C1 C39 77.78
TOP 38 0 77.78 C39 C1 77.78
BOT 0 39 73.81 C1 C40 73.81
TOP 39 0 73.81 C40 C1 73.81
BOT 0 40 81.75 C1 C41 81.75
TOP 40 0 81.75 C41 C1 81.75
BOT 0 41 72.27 C1 C42 72.27
TOP 41 0 72.27 C42 C1 72.27
BOT 0 42 85.71 C1 C43 85.71
TOP 42 0 85.71 C43 C1 85.71
BOT 0 43 73.11 C1 C44 73.11
TOP 43 0 73.11 C44 C1 73.11
BOT 0 44 72.27 C1 C45 72.27
TOP 44 0 72.27 C45 C1 72.27
BOT 0 45 63.03 C1 C46 63.03
TOP 45 0 63.03 C46 C1 63.03
BOT 0 46 86.51 C1 C47 86.51
TOP 46 0 86.51 C47 C1 86.51
BOT 0 47 75.42 C1 C48 75.42
TOP 47 0 75.42 C48 C1 75.42
BOT 0 48 83.33 C1 C49 83.33
TOP 48 0 83.33 C49 C1 83.33
BOT 0 49 81.75 C1 C50 81.75
TOP 49 0 81.75 C50 C1 81.75
BOT 1 2 59.52 C2 C3 59.52
TOP 2 1 59.52 C3 C2 59.52
BOT 1 3 72.27 C2 C4 72.27
TOP 3 1 72.27 C4 C2 72.27
BOT 1 4 66.67 C2 C5 66.67
TOP 4 1 66.67 C5 C2 66.67
BOT 1 5 72.22 C2 C6 72.22
TOP 5 1 72.22 C6 C2 72.22
BOT 1 6 72.27 C2 C7 72.27
TOP 6 1 72.27 C7 C2 72.27
BOT 1 7 78.57 C2 C8 78.57
TOP 7 1 78.57 C8 C2 78.57
BOT 1 8 80.95 C2 C9 80.95
TOP 8 1 80.95 C9 C2 80.95
BOT 1 9 69.75 C2 C10 69.75
TOP 9 1 69.75 C10 C2 69.75
BOT 1 10 78.57 C2 C11 78.57
TOP 10 1 78.57 C11 C2 78.57
BOT 1 11 71.43 C2 C12 71.43
TOP 11 1 71.43 C12 C2 71.43
BOT 1 12 69.75 C2 C13 69.75
TOP 12 1 69.75 C13 C2 69.75
BOT 1 13 71.43 C2 C14 71.43
TOP 13 1 71.43 C14 C2 71.43
BOT 1 14 65.25 C2 C15 65.25
TOP 14 1 65.25 C15 C2 65.25
BOT 1 15 70.59 C2 C16 70.59
TOP 15 1 70.59 C16 C2 70.59
BOT 1 16 76.19 C2 C17 76.19
TOP 16 1 76.19 C17 C2 76.19
BOT 1 17 72.27 C2 C18 72.27
TOP 17 1 72.27 C18 C2 72.27
BOT 1 18 44.72 C2 C19 44.72
TOP 18 1 44.72 C19 C2 44.72
BOT 1 19 68.91 C2 C20 68.91
TOP 19 1 68.91 C20 C2 68.91
BOT 1 20 69.75 C2 C21 69.75
TOP 20 1 69.75 C21 C2 69.75
BOT 1 21 73.11 C2 C22 73.11
TOP 21 1 73.11 C22 C2 73.11
BOT 1 22 67.23 C2 C23 67.23
TOP 22 1 67.23 C23 C2 67.23
BOT 1 23 61.02 C2 C24 61.02
TOP 23 1 61.02 C24 C2 61.02
BOT 1 24 68.07 C2 C25 68.07
TOP 24 1 68.07 C25 C2 68.07
BOT 1 25 69.75 C2 C26 69.75
TOP 25 1 69.75 C26 C2 69.75
BOT 1 26 68.07 C2 C27 68.07
TOP 26 1 68.07 C27 C2 68.07
BOT 1 27 64.29 C2 C28 64.29
TOP 27 1 64.29 C28 C2 64.29
BOT 1 28 76.98 C2 C29 76.98
TOP 28 1 76.98 C29 C2 76.98
BOT 1 29 85.71 C2 C30 85.71
TOP 29 1 85.71 C30 C2 85.71
BOT 1 30 74.60 C2 C31 74.60
TOP 30 1 74.60 C31 C2 74.60
BOT 1 31 63.49 C2 C32 63.49
TOP 31 1 63.49 C32 C2 63.49
BOT 1 32 58.82 C2 C33 58.82
TOP 32 1 58.82 C33 C2 58.82
BOT 1 33 59.66 C2 C34 59.66
TOP 33 1 59.66 C34 C2 59.66
BOT 1 34 79.37 C2 C35 79.37
TOP 34 1 79.37 C35 C2 79.37
BOT 1 35 78.57 C2 C36 78.57
TOP 35 1 78.57 C36 C2 78.57
BOT 1 36 76.00 C2 C37 76.00
TOP 36 1 76.00 C37 C2 76.00
BOT 1 37 82.54 C2 C38 82.54
TOP 37 1 82.54 C38 C2 82.54
BOT 1 38 74.60 C2 C39 74.60
TOP 38 1 74.60 C39 C2 74.60
BOT 1 39 69.05 C2 C40 69.05
TOP 39 1 69.05 C40 C2 69.05
BOT 1 40 84.13 C2 C41 84.13
TOP 40 1 84.13 C41 C2 84.13
BOT 1 41 67.23 C2 C42 67.23
TOP 41 1 67.23 C42 C2 67.23
BOT 1 42 81.75 C2 C43 81.75
TOP 42 1 81.75 C43 C2 81.75
BOT 1 43 68.91 C2 C44 68.91
TOP 43 1 68.91 C44 C2 68.91
BOT 1 44 71.43 C2 C45 71.43
TOP 44 1 71.43 C45 C2 71.43
BOT 1 45 57.98 C2 C46 57.98
TOP 45 1 57.98 C46 C2 57.98
BOT 1 46 84.13 C2 C47 84.13
TOP 46 1 84.13 C47 C2 84.13
BOT 1 47 67.80 C2 C48 67.80
TOP 47 1 67.80 C48 C2 67.80
BOT 1 48 84.92 C2 C49 84.92
TOP 48 1 84.92 C49 C2 84.92
BOT 1 49 80.95 C2 C50 80.95
TOP 49 1 80.95 C50 C2 80.95
BOT 2 3 67.23 C3 C4 67.23
TOP 3 2 67.23 C4 C3 67.23
BOT 2 4 67.46 C3 C5 67.46
TOP 4 2 67.46 C5 C3 67.46
BOT 2 5 67.46 C3 C6 67.46
TOP 5 2 67.46 C6 C3 67.46
BOT 2 6 62.18 C3 C7 62.18
TOP 6 2 62.18 C7 C3 62.18
BOT 2 7 65.08 C3 C8 65.08
TOP 7 2 65.08 C8 C3 65.08
BOT 2 8 64.29 C3 C9 64.29
TOP 8 2 64.29 C9 C3 64.29
BOT 2 9 64.71 C3 C10 64.71
TOP 9 2 64.71 C10 C3 64.71
BOT 2 10 65.87 C3 C11 65.87
TOP 10 2 65.87 C11 C3 65.87
BOT 2 11 68.91 C3 C12 68.91
TOP 11 2 68.91 C12 C3 68.91
BOT 2 12 63.87 C3 C13 63.87
TOP 12 2 63.87 C13 C3 63.87
BOT 2 13 75.63 C3 C14 75.63
TOP 13 2 75.63 C14 C3 75.63
BOT 2 14 61.02 C3 C15 61.02
TOP 14 2 61.02 C15 C3 61.02
BOT 2 15 67.23 C3 C16 67.23
TOP 15 2 67.23 C16 C3 67.23
BOT 2 16 68.25 C3 C17 68.25
TOP 16 2 68.25 C17 C3 68.25
BOT 2 17 68.07 C3 C18 68.07
TOP 17 2 68.07 C18 C3 68.07
BOT 2 18 56.91 C3 C19 56.91
TOP 18 2 56.91 C19 C3 56.91
BOT 2 19 63.03 C3 C20 63.03
TOP 19 2 63.03 C20 C3 63.03
BOT 2 20 67.23 C3 C21 67.23
TOP 20 2 67.23 C21 C3 67.23
BOT 2 21 66.39 C3 C22 66.39
TOP 21 2 66.39 C22 C3 66.39
BOT 2 22 64.71 C3 C23 64.71
TOP 22 2 64.71 C23 C3 64.71
BOT 2 23 88.98 C3 C24 88.98
TOP 23 2 88.98 C24 C3 88.98
BOT 2 24 65.55 C3 C25 65.55
TOP 24 2 65.55 C25 C3 65.55
BOT 2 25 66.39 C3 C26 66.39
TOP 25 2 66.39 C26 C3 66.39
BOT 2 26 64.71 C3 C27 64.71
TOP 26 2 64.71 C27 C3 64.71
BOT 2 27 76.19 C3 C28 76.19
TOP 27 2 76.19 C28 C3 76.19
BOT 2 28 63.49 C3 C29 63.49
TOP 28 2 63.49 C29 C3 63.49
BOT 2 29 62.70 C3 C30 62.70
TOP 29 2 62.70 C30 C3 62.70
BOT 2 30 65.08 C3 C31 65.08
TOP 30 2 65.08 C31 C3 65.08
BOT 2 31 65.08 C3 C32 65.08
TOP 31 2 65.08 C32 C3 65.08
BOT 2 32 89.92 C3 C33 89.92
TOP 32 2 89.92 C33 C3 89.92
BOT 2 33 86.55 C3 C34 86.55
TOP 33 2 86.55 C34 C3 86.55
BOT 2 34 63.49 C3 C35 63.49
TOP 34 2 63.49 C35 C3 63.49
BOT 2 35 64.29 C3 C36 64.29
TOP 35 2 64.29 C36 C3 64.29
BOT 2 36 60.80 C3 C37 60.80
TOP 36 2 60.80 C37 C3 60.80
BOT 2 37 66.67 C3 C38 66.67
TOP 37 2 66.67 C38 C3 66.67
BOT 2 38 69.05 C3 C39 69.05
TOP 38 2 69.05 C39 C3 69.05
BOT 2 39 66.67 C3 C40 66.67
TOP 39 2 66.67 C40 C3 66.67
BOT 2 40 61.11 C3 C41 61.11
TOP 40 2 61.11 C41 C3 61.11
BOT 2 41 66.39 C3 C42 66.39
TOP 41 2 66.39 C42 C3 66.39
BOT 2 42 67.46 C3 C43 67.46
TOP 42 2 67.46 C43 C3 67.46
BOT 2 43 62.18 C3 C44 62.18
TOP 43 2 62.18 C44 C3 62.18
BOT 2 44 67.23 C3 C45 67.23
TOP 44 2 67.23 C45 C3 67.23
BOT 2 45 83.19 C3 C46 83.19
TOP 45 2 83.19 C46 C3 83.19
BOT 2 46 63.49 C3 C47 63.49
TOP 46 2 63.49 C47 C3 63.49
BOT 2 47 65.25 C3 C48 65.25
TOP 47 2 65.25 C48 C3 65.25
BOT 2 48 62.70 C3 C49 62.70
TOP 48 2 62.70 C49 C3 62.70
BOT 2 49 65.08 C3 C50 65.08
TOP 49 2 65.08 C50 C3 65.08
BOT 3 4 79.83 C4 C5 79.83
TOP 4 3 79.83 C5 C4 79.83
BOT 3 5 76.47 C4 C6 76.47
TOP 5 3 76.47 C6 C4 76.47
BOT 3 6 77.78 C4 C7 77.78
TOP 6 3 77.78 C7 C4 77.78
BOT 3 7 70.59 C4 C8 70.59
TOP 7 3 70.59 C8 C4 70.59
BOT 3 8 73.11 C4 C9 73.11
TOP 8 3 73.11 C9 C4 73.11
BOT 3 9 80.16 C4 C10 80.16
TOP 9 3 80.16 C10 C4 80.16
BOT 3 10 78.99 C4 C11 78.99
TOP 10 3 78.99 C11 C4 78.99
BOT 3 11 87.30 C4 C12 87.30
TOP 11 3 87.30 C12 C4 87.30
BOT 3 12 82.54 C4 C13 82.54
TOP 12 3 82.54 C13 C4 82.54
BOT 3 13 86.55 C4 C14 86.55
TOP 13 3 86.55 C14 C4 86.55
BOT 3 14 76.80 C4 C15 76.80
TOP 14 3 76.80 C15 C4 76.80
BOT 3 15 75.40 C4 C16 75.40
TOP 15 3 75.40 C16 C4 75.40
BOT 3 16 81.51 C4 C17 81.51
TOP 16 3 81.51 C17 C4 81.51
BOT 3 17 85.71 C4 C18 85.71
TOP 17 3 85.71 C18 C4 85.71
BOT 3 18 45.69 C4 C19 45.69
TOP 18 3 45.69 C19 C4 45.69
BOT 3 19 77.78 C4 C20 77.78
TOP 19 3 77.78 C20 C4 77.78
BOT 3 20 79.37 C4 C21 79.37
TOP 20 3 79.37 C21 C4 79.37
BOT 3 21 76.80 C4 C22 76.80
TOP 21 3 76.80 C22 C4 76.80
BOT 3 22 81.75 C4 C23 81.75
TOP 22 3 81.75 C23 C4 81.75
BOT 3 23 69.60 C4 C24 69.60
TOP 23 3 69.60 C24 C4 69.60
BOT 3 24 78.57 C4 C25 78.57
TOP 24 3 78.57 C25 C4 78.57
BOT 3 25 80.95 C4 C26 80.95
TOP 25 3 80.95 C26 C4 80.95
BOT 3 26 76.98 C4 C27 76.98
TOP 26 3 76.98 C27 C4 76.98
BOT 3 27 79.83 C4 C28 79.83
TOP 27 3 79.83 C28 C4 79.83
BOT 3 28 67.23 C4 C29 67.23
TOP 28 3 67.23 C29 C4 67.23
BOT 3 29 73.95 C4 C30 73.95
TOP 29 3 73.95 C30 C4 73.95
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BOT 46 49 85.71 C47 C50 85.71
TOP 49 46 85.71 C50 C47 85.71
BOT 47 48 73.73 C48 C49 73.73
TOP 48 47 73.73 C49 C48 73.73
BOT 47 49 71.19 C48 C50 71.19
TOP 49 47 71.19 C50 C48 71.19
BOT 48 49 82.54 C49 C50 82.54
TOP 49 48 82.54 C50 C49 82.54
AVG 0 C1 * 75.05
AVG 1 C2 * 71.69
AVG 2 C3 * 67.15
AVG 3 C4 * 75.92
AVG 4 C5 * 73.20
AVG 5 C6 * 72.41
AVG 6 C7 * 74.93
AVG 7 C8 * 72.88
AVG 8 C9 * 73.98
AVG 9 C10 * 72.79
AVG 10 C11 * 76.07
AVG 11 C12 * 76.67
AVG 12 C13 * 75.96
AVG 13 C14 * 78.95
AVG 14 C15 * 72.27
AVG 15 C16 * 73.12
AVG 16 C17 * 78.45
AVG 17 C18 * 77.00
AVG 18 C19 * 47.38
AVG 19 C20 * 74.11
AVG 20 C21 * 75.57
AVG 21 C22 * 74.80
AVG 22 C23 * 71.37
AVG 23 C24 * 69.29
AVG 24 C25 * 74.61
AVG 25 C26 * 76.14
AVG 26 C27 * 72.29
AVG 27 C28 * 72.90
AVG 28 C29 * 70.23
AVG 29 C30 * 75.19
AVG 30 C31 * 75.79
AVG 31 C32 * 69.34
AVG 32 C33 * 68.00
AVG 33 C34 * 67.37
AVG 34 C35 * 74.73
AVG 35 C36 * 74.34
AVG 36 C37 * 72.90
AVG 37 C38 * 77.37
AVG 38 C39 * 75.30
AVG 39 C40 * 75.36
AVG 40 C41 * 73.75
AVG 41 C42 * 71.81
AVG 42 C43 * 76.52
AVG 43 C44 * 74.64
AVG 44 C45 * 74.01
AVG 45 C46 * 65.27
AVG 46 C47 * 76.26
AVG 47 C48 * 75.17
AVG 48 C49 * 74.73
AVG 49 C50 * 74.57
TOT TOT * 73.19
CLUSTAL W (1.83) multiple sequence alignment
C1 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGGCAGT
C2 ATGGCAGGAAGAAGCGGAGACAGC---GACGACGAGCTGATCAAGACAGT
C3 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCACTCCTCCAAGCAGT
C4 ATGGCAGGAAGAAGCGGAGACAGC---GACGAGGAACTCCTCAGAGCAGT
C5 ATGGCAGGAAGAAGCGGAGACAGC---GACGAACAGCTCCTCTGGGCAGT
C6 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAACTCCTCAAGGCAGT
C7 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAAAGCAGT
C8 ATGGCAGGAAGAAGCGGAGACAGC---GAAGAAGAGCTCCTCAAGGCCGT
C9 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTTCTCAAGACAGT
C10 ATGGCAGGAAGAAGCGGAAACACC---GACGAAGAACTCCTCAGAATAAT
C11 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGGCAGC
C12 ATGGCAGGAAGAAGTGGAGACAGC---GACGAAGAGCTCCTCCAAGTAGT
C13 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCGCAGCAGT
C14 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
C15 ATGGCAGGAAGAAGCGGAAGCACCGACGACGAAGAACTCCTCAGAGTAGT
C16 ATGGCAGGAAGAAGCGGAGATCCC---GACGAGGACCTTATCCAGGCAGT
C17 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
C18 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGATCTCCTCAGGACAGT
C19 ATGGCAGGAAGAAGCGACGACGTC---------CCGCTGCTGCACACCAT
C20 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCAGT
C21 ATGGCAGGAAGAAGCGGAGGCACC---GACGAGGAACTCCTCCAAGCAGT
C22 ATGGCAGGAAGAAGCGGCAGC------GACGAAGAACTCCTTCTGGCAAT
C23 ATGGCAGGAAGAAGCGGAAACAGC---GACGAGGAACTCCTCAAGGCAGT
C24 ATGGCAGGAAGAAGCGGAGACAGC---GACGCAGAGCTCCTCCAAGCAGT
C25 ATGGCAGGAAGAAGCGGAAACGCC---GATGCGGGACTCCTCAGTGCAGT
C26 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCACGACAGT
C27 ATGGCAGGAAGAAGCGGAGGCACC---GACGAGGAGCTCATCAAAGCAGT
C28 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
C29 ATGGCAGGAAGAAGAGGAGACAGC---GAAGAAGACCTCATCCAGACAGT
C30 ATGGCAGGAAGAAGCGGAGACAGC---GACGACGAGCTCCTCAAGACAGT
C31 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCCGGACGAT
C32 ATGGCAGGAAGAAGCGGAGACAAC---GACGAACAGCTTCTCGCAGCAAT
C33 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCAAAGCAGT
C34 ATGGCAGGAAGAAGCGGAGACAAC---GACGAAGCGCTTCTCCAAGCAGT
C35 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGACAGT
C36 ATGGCAGGAAGAAGCGGAGACCGC---GACGAAGACCTCCTTCAGACCGT
C37 ATGGCAGGAAGAAGCGAAGACCGC---GACGAAGAGCTCCTCAGAACAGT
C38 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAGGACAGT
C39 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAACTCCTCAGAGCGGT
C40 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCCGT
C41 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCATCAAGACAAT
C42 ATGGCAGGAAGAAGCGGAGACAGC---GACAAAAAACTCCTTACAGCAAT
C43 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGGCAGT
C44 ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCAGT
C45 ATGGCAGGAAGAAGCGGAGACGCC---GACCAGGAACTCCTCAGAGCCGT
C46 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCACTCCTCCAAGCAGT
C47 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGACAGT
C48 ATGGCAGGAAGAAGCGGAGACAACAGCGACGAGGAACTCCTCCGAGCAGT
C49 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGACAGT
C50 ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGACAGT
************** *.... ** .* . .
C1 GAGACTCATCAAGCTTCTCTATCAGAGCAACCCACCTCCCAGGCCCCAGG
C2 GCAGCTCATCAAGCAAATCTATCAAAGCAACCCACCACCCAGCTCCGAGG
C3 GAAAGCCATCAAAATCTTATATCAGAGCAACCCTTACCCCGAACCCAAGG
C4 AAGGATCATCAAAATCCTATACCAAAGCAACCCTTACCCCAAATCCAAGG
C5 AAGAGTCATCAAGATCCTGTACCAAAGCAACCCTTATCCCAAACTCAGCG
C6 AAGATACATCAAGATCCTGTACCAAAGCAACCCTTATCCCAAACCCGAGG
C7 AAGGATCATCAAAATCCTGTACCAAAGCAACCCTTACCCATCATCAGAGG
C8 CAGACTCATCAAGTTTCTCTATCAAAGCAACCCACCGCCCAGCCCCGCGG
C9 CAGAATCGTCAAGTTTCTCTACCAAAGCAACCCGCCTCCCAGCCCCGCGG
C10 ACAGACCATCAAAATCCTGTACCAGAGCAACCCTTACCCACCATCAGAGG
C11 CAGACTAATCAAGCTTCTCTATCAAAGCAACCCATATCCCAAGCCCGAGG
C12 GAGGATCATCAAAATCTTATATCGAAGCAACCCATACCCCAAACCCAGGG
C13 AAGGATCATCAAAATCCTGTACCAAAGCAACCCCTACCCATCATCAGAGG
C14 AAGGATCATCAAAATCCTATATCAAAGCAATCCATACCCCAAACCCAGGG
C15 AAGGATCATCAAAATCCTGTACCAAAGCAACCCCTACCCATCATCAGAGG
C16 AAGGATCATCAAAATCCTGTACCAAAGCAACCCTCCCCCACCACCAGAGG
C17 GAGGATCATCAAAATCCTATATCAAAGCAACCCTCATCCCAGCCCCGAGG
C18 AAGGATCATCAAAATCCTGTACCAAAGCAACCCTTATCCCAAGCCCGAAG
C19 CCGGATAATAAAGATCTTGTACCAGAGCAATCCCCAACCATCACCAATCG
C20 AAGAATCGTCAAAATCCTGTACCAAAGCAACCCCTACCCATCCTCAGAGG
C21 AAGGATCATCAAAATCTTATACCAAAGCAACCCCTTCCCATCACCAGAGG
C22 AAGGACCATCAAAATCCTGTACCAAAGCAACCCGTCCCCACCACCAGAGG
C23 GAGCATCATCAAAATACTGTACAACAGCAACCCATACCCCAAACCCAAGG
C24 GAGGATCATCAAAATCTTATATCAAAGCAACCCTTACCCCAACCCCGAGG
C25 AAGGATCATCAGAATCCTGTATCAAAGCAACCCTTACCCATCAGCAGAGG
C26 AAGGATCATCAAAATCCTGTACCAGAGCAACCCAATTCCACCACCAGAGG
C27 AAAGATCATCAAAATCCTATACCGGAGCAACCCCTTCCCATCATCAGAGG
C28 GAGGATCATCAAAATCTTATATCAAAGCAACCCTTACCCCGAACCCAAGG
C29 CAAACTAATCAAGCTTCTCTATCAAAGCAATCCGATACCCAGCCCCGAGG
C30 AAGACTCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCTGCCCCGAGG
C31 CAGGCTCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGCCCCGAGG
C32 AAGAGCCATCAGGATCCTATACCAGAGCAACCCTTACCCCCAACAACAAG
C33 GAGGATCATCAAGATCTTATATCAAAGCAACCCCTACCCCGAACCCAGGG
C34 GAGGACCATCAAAATCCTATATCAAAGCAACCCTGACCCCAAACCCGAGG
C35 CCGTCTGATCAAGGTTCTATACCAAAGCAACCCGCTTCCCAGCCCCGAGG
C36 CAGGTTCATCAAGTTTCTCTATCAAAGCAACCCACCTCCCAGCCTCGAGG
C37 CAGAATCATCAAGTTTCTCTACCAAAGCAACCCGATTCCCAGCCCAGAGG
C38 CAGACTCATCAAGTTTCTCTACCAAAGCAACCCACCTCCCAGCCCAGAGG
C39 CAGGATCATCAAGATCCTATACCAAAGCAACCCTTTTCCCAGCCCCGAGG
C40 AAGGATCATCAGAATCCTATACCAAAGCAACCCATACCCATCAGCAGAGG
C41 CAGACTCATCAAGCGCCTCTATCAGAGCAACCCGCTTCCCAGCCCCGAGG
C42 AAGGATCATCAAAATCCTATACCAAAGCAACCCATACCCCAAACCCAGGG
C43 CAGACTCATCAAGCTTCTCTATCAAAGCAACCCTCCTCCCAGCCCCGAGG
C44 AAGGATCATCAATATCCTATACCAAAGCAACCCCTTTCCACCAGCAGAGG
C45 CAGGATCATCAAAATCCTGTACCAAAGCAACCCTTACCCATCATCAGAGG
C46 GAGGATCATCAAAATCTTGTATCAAAGCAACCCTTATCCCAGGCCCGAGG
C47 CAGACTCATCAAGCTTCTCTACCAGAGCAACCCTCCTCCCAACCCAGAGG
C48 CAGGACCATCAAAATCCTGTACCAAAGCAACCCTTTACCACCATCAGAGG
C49 CAGACTCATCAAGACAATCTACCAAAGCAACCCACCACCCAACCCCGAGG
C50 CAGACTCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCAACCCAGAGG
.. .*.*. * ** .. ***** ** **. . *
C1 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
C2 GG---ACCCGACAGGCCCGACGAAACCGACGAAGAAGGTGGAGAGAGAGA
C3 GA---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
C4 GA---TCTCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGG
C5 GG---AGTCGACAGGCCCGGAGAAATCGAAGGAGGAGGTGGAGAGCAAGA
C6 GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGCCAGA
C7 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGCGAGCAAGA
C8 GA---ACCCGACAGGCCCGAAGGAATCGAGGAAGAAGGTGGAGACAGAGA
C9 GG---ACCCGACAGGCCAGAAGGAATCGAAGGAGAAGGTGGAGAGAACGA
C10 GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
C11 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGG
C12 GG---ACTCGACAGGCCCGGAAGAATCGAAGAAGAAGATGGAGAGCAAGG
C13 GA---ACCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGG
C14 GG---ACCCGACAGGCCCGGAAGAACCGAAGAAGAAGGTGGAGAGCAAGA
C15 GA---AACCGACAGACCCGAAGAAATCGAAGAAGAAGGTGGCGAGCAAGG
C16 GA---ACCAGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGG
C17 GG---ACCCGACAGGCCCGAAGAAACAGAAGAAGGAGGTGGAGAGCAAGA
C18 GG---TCCCGACAGGCAAGAAGAAACAGAAGGAGAAGGTGGAGAGCCAGG
C19 GA---AGCAGGAGCGCCAGGAGGAACAGGAGAAGAAGGTGGAGAAGGAGA
C20 GA---ACCAGACAGGCTCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGG
C21 GA---ACCCGACAGACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGG
C22 GG---ACCCGACAGGCCCGAAGAAACAGAAGAAGGAGGTGGAGAGCCAGA
C23 GG---TCTCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGCAAGA
C24 GGGCCACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
C25 GA---ACCCGACAGGCCCGGAAAAATCGAAGAAGGCGGTGGCGAGCAAGA
C26 GA---ACCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGG
C27 GA---ACCCGACAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
C28 GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
C29 GG---ACCCGACAGGCCCGAAGGAATCGAAGGAGAAGGTGGAGAGAGAGA
C30 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
C31 GG---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGGAGAGCAAGG
C32 GA---AGCCGACAGGCCCGGAGAAATCGAAGAAGGAGATGGAGAGCAAGG
C33 GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGGGCAAGA
C34 GG---ACCCGACAGGCTCGAAAGAATCGAAGAAGAAGGTGGAGAGCAAGG
C35 GG---ACCCGACAGGCCCGAAGGAATCGACGAAGAAGGTGGAGAAAGAAA
C36 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGCGAGA
C37 GGACGACCCGGCAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
C38 GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
C39 GG---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGGAGAGCAAGG
C40 GA---ACCCGACAGACCAGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
C41 GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
C42 GG---ACTCGACAAGCCCGGAAAAATCGAAGAAGAAGGTGGAGAGCAAGA
C43 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAAA
C44 GA---ACCCGACAGACCCGAAGGAATCGAAGAAGGAGGTGGCGAGCAAGA
C45 GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
C46 GA---ACCCGACAGGCTCAGAGGAATCGAAGAAGAAGGTGGAGAGCAAGA
C47 GG---ACCCGACAGGCCCGAAGGAATCGAAGGAGAAGGTGGAGAGAGAGA
C48 GA---TCCCGGCAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
C49 GG---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGGAGAGAGAGA
C50 GG---ACCCGACAGGCCAGAAGGAACCGAAGAAGAAGGTGGAGAGCAAGA
*. : .*... .* ......** .*. *.**..*.***.*. ...
C1 GACAGAACGATCAGGGCGATTAGTGAGCGGATTCTTGCCACTTGTCTGGG
C2 CAGAGACACATCCGGGAGATTAGTGGATGGATTCTTAGCACTTATCTGGG
C3 CAGAGGCAGATCCATTCGCTTAGTGAGCGGATTCTTAGCGCTTGCCTGGG
C4 CAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
C5 CAGAACCAGATCGATTCGATTAGTGAACGGATTCTTAGCTCTTGCCTGGG
C6 CAGAGACAGATCCATGAGATTAGTGAGCGGATTCTTACCACTTACCTGGG
C7 CAGAGGCAGATCCGTGACATTAGCCAGCGGATTCTTAACAGTTGTCTGGG
C8 CAGAGACAGATCCGGTCGCTTAGTGGATGGATTCTTAGCAATTATCTGGG
C9 CAGAGACACATCCAGGCCCTTAGTGACTGGATTCTTAGAACTCATCTGGG
C10 CAGAGACAAATCCATTCGATTAGTGAGCGGCTTCTTAGCACTTGTGTGGG
C11 CAAAGTCAGATCCGTGCGATTAGTGAACGGATTATTGACACTTATCTGGG
C12 CAAAGACAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTTTCTGGG
C13 CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTTGCGTGGG
C14 CAGAGACAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
C15 CAGAGACAGATCCGTGCGCTTAGTGAGCGGTTTCTTAGCTCTTGCCTGGG
C16 CAGAGACAGATCCACTCGATTAGTGAGCGGATTCTTAGCTCTTGCCTGGG
C17 CAGAGGCAGATCCGTGCGATTAGTGAACGGATTCTCAGCACTTATCTGGG
C18 CAGAGACAGATCGATTCGATTGGTGAGCGGATTCTTAGCGCTTGCCTGGG
C19 CAGGCCCAGATTGATACCCTTGCCGCCAGGTTTCTTGCATCTGTTGTACA
C20 CAGAGACAGATCCGTGAGATTAGTGACCGGGTTCTTAGCTCTTGTCTGGG
C21 CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTTGTCTGGG
C22 CAAAGACAGATCCGTGAGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
C23 CAGAACCAGATCGATTCGCTTAGTGAGCGGATTCTTAGCACTTGCTTGGG
C24 CAAAAACAGATCCATTCGATTAGTGAGCGGATTCTTAGCTCTTGCCTGGG
C25 CAGAGACAGATCAGTCAGATTAGTCAACGGATTCTTAGCTCTTGCCTGGG
C26 CAGAGACAGATCCACTCGATTAGTGAGCGGATTCTTAGCACTTGTCTGGG
C27 CAGAAACAGATCAGTGCGCTTAGTGAGCGGATTCTTAGCGCTTGTCTGGG
C28 CAGAGGCAAATCCATTCGATTAGTGAACGGATTCTTCGCACTTGCCTGGG
C29 CAGAGAAAGATCAACTCGCTTAGTGCATGGATTCTTAGCACTCATCTGGG
C30 CAGAGACAGATCCGGTCGATTAGCGGATGGATTATTGACACTTATCTGGG
C31 CAGAGGCAGATCCACTCGATTGGTGAACGGATTCTCAACACTTATCTGGG
C32 CAGAACCAGATCGATTCGATTAGTCAGCGGATTCTTAGCTCTTGCCTGGG
C33 CAACGTCAGATCCATTCGATTAGTGAACGGATTCTTAGCGCTTGCCTGGG
C34 CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCGCTTGCCTGGG
C35 CAGAGATGGATCAGGTCGATTAGTGACTGGATTCTTAGAAATCATCTGGG
C36 CAGAGACAGATCGGGAGGATTAGCGACTGGCTTCTTAGAAATCATCTGGG
C37 CAGAGACAGATCCGAGATATTAGCCAACGGATTCTTGACACTTATCTGGG
C38 CAGAGACAGATCCGATCGATTAGTGACTGGATTCTTAGCAATCATCTGGG
C39 CAGAGGCAGATCCATTCGATTGGTGAACGGATTCTCAGCACTCATCTGGG
C40 CAGAGGCAGATCCGTGAGATTAGTGAGCGGATTCTTCGCTCTTGCCTGGG
C41 CAGAGACAGATCCACAAGATTGGTGGATGGATTCTTAGCACTTATCTGGG
C42 CAGGAGCAGATCAACGCGATTAGTGGACGGATTCTTAGCTCTTTTCTGGG
C43 CAGAGACAGATCCGGTCGATTAGTGAGCGGATTCTTACCACTTATCTGGG
C44 CAGAGTCAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTATTCTGGG
C45 CAGAGACAGATCAGTGCGCTTAGTGAACGGATTCTTAGCACTTGCCTGGG
C46 CAGAGACAGATCAATTCGATTAGTGAACGGATTCTTAGTACTTGCCTGGG
C47 CAGAGACACATCCGAAAGATCAGTGAACGGATTCTTGACACTTATCTGGG
C48 CAGAGACAGATCGGTGCGATTAGTGAGCGGATTCTTCGCGCTTGCCTGGG
C49 CAGAGGCAGATCCGAACGATTAGTAACTGGATTCTTAGCACTTATCTGGG
C50 CAGAGACAGATCCGGTGGCTTAGCACAAAGCTTCTTAGCACTTATCTGGA
* ** . .* . .* **.* * *. .
C1 ACGACCTGCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C2 TCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGACTTA
C3 ACGACCTGCGGAGCCTGTGCCTTTTCAGCTACCACCGATTGAGAGACTTC
C4 ACGATCTACGGAGCCTGTGTCTCTTCAGCTACCACCGCTTGAGAGACTTC
C5 AAGATCTGAGGAGCCTGTGCCGCTTCAGCTACCACCTATTGAGAGACTTC
C6 ACGACCTACGGAGCCTGTGCTCTTTCAGCTACCGCCACTTGAGAGACTTA
C7 TCGATCTACGGAACCTGTGCATCTTCCTCTACCGCCGCTTGAGCGACTTC
C8 TCGACCTGCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C9 TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTA
C10 ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTC
C11 ACGACCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGACTTA
C12 ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C13 ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C14 ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C15 ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C16 ACGACGTGCGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C17 ACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C18 ACGACCTGCGGAGCCTGTGCCTCTTCAGTTACCACCGCTTGAGAGACTTC
C19 CGGACCTCAGGACAATAATCTTGTGGAGTTACCACCTCTTGAGCAACTTA
C20 ACGATCTCCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C21 ACGATCTACGGAGCCTGTGCCTCTTCCTCTACCACCGATTGAGAGACTTA
C22 ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
C23 ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTT
C24 ACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAGACTTC
C25 ACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
C26 ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C27 ACGACCTCCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C28 AAGATCTGCGGAACCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
C29 ACGACCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGACAGACTTA
C30 TCGACCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C31 ACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C32 ACGATCTGAGGAGCCTGTGCCTTTGGAGCTACCACCGATTGAGAGACTGC
C33 ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
C34 ACGACCTGCGGAACCTGTGCCTTTTCAGCTACCACCGATTGAGAGACTTA
C35 TCGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
C36 TCGACCTGCGGAGCCTGCTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
C37 AAGATCTCAGGAGCCTGTGCCTCTTCAGCTACCATCTCTTGAGAGACTCA
C38 TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
C39 ACGACTTGAGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAAACTTA
C40 ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCTCTTGAGAGACTTC
C41 ACGACCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGACAGACTTA
C42 ACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAGACTTC
C43 ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTA
C44 ACGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
C45 ACGACCTACGGAGCCTGTGCCTCTTCTGCTACCACCGATTGAGAGACTTT
C46 ACGACCTGCGGAACCTTTGCCTTTTCTGCTACCACCAATTGAGAGACTTT
C47 TCGATCTGAGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGACTTA
C48 ACGATCTGCGGAGCCTGTGCCTCTTCAGTTACCACCGCTTGAGAGACTTT
C49 ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCGATTGATCGACTTA
C50 TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
** * .*** ..* * ****. * .**** ..***
C1 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACACCG---------
C2 CTCTTGATTGCAGCGAGGGGTGTGGAACTTGTGGGACGCAG---------
C3 ATATTGATTGCAGCAAGAGTGTTGGAACTTCTGGGACAGAG---------
C4 AGCTTGGGTGTTGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C5 GTCTTGATTGTACTGAGGACTGTGGAAACTCTGGGACACAG---------
C6 CTATTAATTGCAGCGAGGACTGTGGACAGGGGAGTGAAAGG---------
C7 ATCTTGATTGCAACGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C8 CTCTTGATTGTAGTGAGGATTGTGGAGAATCTGGGACGCCG---------
C9 CTCTTGATTGTAGCGAGGACTGTGGAACTTCTGGGACGCAG---------
C10 ATATTGATTGCAACGAGGACAGTGGAACTCTTGGGACGCAACAGTCTCAA
C11 CTCTTGGTTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C12 ATCTTGATTGCCAAGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C13 ATCTTGGTTGCAGCGAGGATTGTGGAAATTCTGGGACACAGCAGTCTCAA
C14 ATCTTGAT---------------------TCTGGGACACAGCAGTCTCAA
C15 ATCTTGATAACAACGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C16 ATATTGATTGCAGCGAGGACAGCAGAGCTACTGGGACGCAGCAGCCTCCA
C17 ATCTTAATTGTAACGAGGATTGTGGAAATTCTGGGACGCAG---------
C18 GTCTTGATTGTTGCGAGGACTGTGGGACTTCTGGGACACAGCAGTCTCAA
C19 GCATCAGGGATCCAGACGGTGATCAGCCATCTGGGACT------------
C20 ATCTGGATTGCAGCGAGGACTGTGGAATTTCTGGGACACAGCAGTCTCAA
C21 ACCTTGATTGCAGCGAGGACTGTGGAACGTCTGGGACAGAGCAGTCTCAA
C22 ATCTCCATTGCAGCGAGGACAGCGGAACTCCTGGGACGCAGCAGCCTCCA
C23 GTCTGGATTGCCAAGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C24 ATATTGATTGCAGCGAGAGTGGTGGAACTTCTGGGACGCAACAGTCTCAG
C25 GCCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
C26 ACCTTGATTGTAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTGAA
C27 AGCTTAATTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCTCAA
C28 ATATCGGTGGCAGCGAGAGTGGTGGAACTTCTGGGACGCAG---------
C29 CTCTTGATTGTAGTGAGGATTCTGCAGATTCTGGGACGCAG---------
C30 CTCTTGATTGTAACGAGGACTGTGGAACTTCTGGGACGCAG---------
C31 ATCTTAATTGCAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C32 ACCTTGATTGTAGCGAGGATTGTGGAAACTCTGGGACGCAG---------
C33 ATATTAGTGGCAGCGAGAGTGGTGGAACTTCTGGGACACAACAGTCTCAG
C34 CTATTGGTGACAGCGAGAGCAGTGGAACTTCTGGGACGCAGCAGTCTCAA
C35 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C36 CTCTTGATTGTAGCGAGGATTGTGGAACTTCTGGGACGCAG---------
C37 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C38 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C39 ATATCAATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG---------
C40 ACCTTGGTTGCAGCGAGGACAGTGGAACTTCTGGGACACAG---------
C41 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C42 GTCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGCCTCAA
C43 CTCTTAATTGCAGCGAGAATTGTGGGACTTCTGGGACACAG---------
C44 ATCTTGATTGCAGCGAGGACTGTGGAAATTCTGGGACACAGCAGTCTCAA
C45 CTCTTGATTGCACTGAGGGCCGTGGAACTTCTGGGACACAGCAGTCTCAA
C46 ATATTGGTGACAGCGAGGGCAGTGGAACTTCTGGGACACAGCAGTCTCAG
C47 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C48 CTCTTAATTGCAACGAGGACAGTGGAACTTCTGGGACACAGCAGTCTCAA
C49 CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
C50 CTCTTGATTGCAGCGAGGATTGTGGAACTACTGGGACGCAG---------
.* . .* ..
C1 ------------GGGGTGGGAACTCCTCAAGTATTGTTGGAATCTCCTAC
C2 ------------GGGGTGGGAACTCCTCAAGTACTGGTGGAATCTCCTAC
C3 ------------GGGGTGGGAAGCCCT-----------------------
C4 GGGGTTGAGACTGGGGTGGGAAGCCCTCAAGTATCTGTGGAATCTCCTGT
C5 ------------GGGGTGGGAGATCCTCAAATACCTGGGGAACCTGGTGT
C6 ------------GGGGTGGGAAGCCCTCAAATATCTGTGGAATCTCACGC
C7 GGGACTGAGACGGGTGTGGGAAGGCCTCAAATATTTGGGGAGTCTTCTGG
C8 ------------GGGGAGGGAAACCCTCAGATATTGGTGGAATCTCCTGC
C9 ------------GGGGTGGGAAGCCCTGAAATACTTGTGGAATCTCCTGC
C10 GGGACTGAGACTGGGGTGGGAGGGCCTCAAATACCTGTGGAATCTTCTGT
C11 ------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTAC
C12 GGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTCCTGG
C13 GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGG
C14 GGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTCTGC
C15 GGGACTGAGGCGGGGGTGGGAAGGCCTGAAATATCTGGGGAATGTTCTGT
C16 GGGACTGAGACTGGGGTGGGAGGGCCTCAAACATCTGTGGAATCTCCTGC
C17 ------------GGGGTGGGAAGCCCTCAAATACCTGTGGAATCTTCTAC
C18 GGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGGGGAATCTCCTGG
C19 ------------GGGACTGTGGATCCTAGGACAGAAGATAAT--------
C20 GGGACTGAGACGGGGTTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGA
C21 GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGT
C22 GGGACTGAGATTGGGGTGGGAGGGCCTCAAATATCTGTGGAACATCCTGT
C23 GGGGTTGAGACTAGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTCTGG
C24 GGGACTACAGAGGGGGTGGGAAGCCCT-----------------------
C25 GGGACTGAGACTGGGGTGGGAAGCCCTCAAATATCTGGGGAATCTTCTAT
C26 GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGT
C27 GGGACTGAAACGGGGGTGGGAAGGTCTCAAATATCTGGGGAACCTTCTGT
C28 ------------CAGTTGGGAAGCCCTCAAATATCTGGGAAGTCTTGTGC
C29 ------------GGGGTGGGAAGCCCTCAGATATTGGTGGAACCTTCTGC
C30 ------------GGGGTGGGAAATCCTCAAATATTGGTGGAATCTCCTAC
C31 ------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCCTGC
C32 ------------GGGGTGGGAGAGTCTCAAATACCTGGGGAATCTTGCAC
C33 GGGACTACAGAGAGGGTGGGAAGCCCT-----------------------
C34 GGGACTTCAGAGGGGGTGGGAAATCCT-----------------------
C35 ------------GGGGTGGGAAGCCCTCAAATATCTGTGGAATCTCCTGC
C36 ------------GGTGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTGC
C37 ------------GGGGGGGGAAGCCCTCCGGTATTGGTGGAACCTCCTGC
C38 ------------GGGGTGGGGAATCCTCAAATATTGGTGGAATCTCCTGC
C39 ------------GGGGTGGGAAGCCATCAAGTACTTGTGGAATCTCCTAC
C40 ------------GGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGA
C41 ------------GGGGTGGGAAATTCTCAAGTATTGGTGGAGTCTCCTGC
C42 GGGGCTGAGACTGGGGTGGGAAGGTCTCAAGTACCTGAAGAATCTTCTGG
C43 ------------GGGGTGGGAAGTCCTCAGATATTGGTGGAATCTCCTCC
C44 GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGG
C45 GGGACTGAGACTCGGGTGGGAAGCCCTCAAACATCTGGGGAATCTTCTGT
C46 GGGACTACAGAGAGGGAGGGAAGCCCT-----------------------
C47 ------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTAC
C48 GGGACTAAGACTGGGGTGGGAAGCCCTCAAATATCTGTGGAATCTTCTGT
C49 ------------GGGGTGGGAAGTTCTCAAGTATTGGTGGAATCTTCTAC
C50 ------------GGGGTGGGAGATCCTCAAATACTGGTGGAATCTCCTGC
. * .. .*
C1 AGTATTGGAGTCAGGAACTAAAGAA-------------------------
C2 AGTATTGGAGTCGGGAACTAAAGAA-------------------------
C3 --------------------------------------------------
C4 TGTATTGGGGTCGGGAACTAAAAAG-------------------------
C5 GTTATTGGGGACAGGAACTAAAGAA-------------------------
C6 AGCATTGGGGTCGGGAATTAAAGAA-------------------------
C7 TATATTGGAGCCAGGAACTAAAAAT-------------------------
C8 AATATTGGAGTCAGGAGCTAAAGAA-------------------------
C9 AGTATTGGAGTCAGGAACTAAAGAAGAG----------------------
C10 TGTACTGGGGTCGGGAACTAAAGAG-------------------------
C11 AGTATTGGAGTCGGGAACTAAAGAA-------------------------
C12 TATATTGGGGTCGGGAACTAAAAAT-------------------------
C13 TATATTGGGGTCGGGAACTAAGAAT-------------------------
C14 TATATTGGGGCCGGGAACTAAGAAT-------------------------
C15 TATACTGGGGCCAGGAACTAAAAAT-------------------------
C16 TGTACTGGGGTCAGGAACTAAAGAAGAG----------------------
C17 AGTATTGGGTTCAGGAACTAAAGAA-------------------------
C18 CATATTGGGTTCTGGAACTAAAGAA-------------------------
C19 --------------------------------------------------
C20 TATATTGGAGCCAGGAACTAAAAAC-------------------------
C21 CATATTGGGGTCAGGAACTGAAAAC-------------------------
C22 TGTACTGGGGTCGGGAACTAAAGAA-------------------------
C23 TGTATTGGGGTCTGGAGCTAAAGAAGAGTGCCAT----------------
C24 --------------------------------------------------
C25 CATACTGGGGTCAGGAACTAAAGAA-------------------------
C26 GCTATTGGGGCCAGGAACTAAAAAT-------------------------
C27 TATATTGGGGTCGGGAACTAAAAAT-------------------------
C28 AGTATTGGGGTCTGGAGCTAAAAAA-------------------------
C29 AGTACTGGAGTCAGGAACTAAAGAA-------------------------
C30 AGTATTGGAGGCAGGAACTAAAGAA-------------------------
C31 AGTATTGGAGTCAGGAACTGAAGAC-------------------------
C32 AATATTGGGGCCGAGAACTGAAACT-------------------------
C33 --------------------------------------------------
C34 --------------------------------------------------
C35 TGTATTGGAGTCAGGAACTGAAGAG-------------------------
C36 AGTATTGGAGTCAGGAACTAAAGAA-------------------------
C37 AGTATTGGATTCAGGAACTAAAAAT-------------------------
C38 AATATTGGAGTCAGGAACTAAAGAA-------------------------
C39 TGTATTGGATTCAGGAGCTAAAGAA-------------------------
C40 TATACTGGAGCCAGGAACTAAGAAA-------------------------
C41 AGTATTGGAGTCAGGAACTAAAGAA-------------------------
C42 CATATTGGATACAGGAACTAAAAAC-------------------------
C43 AGTATTGGAGACAGGAACTAAAGAA-------------------------
C44 TATACTGGGTCCAGGAACTAAAAAC-------------------------
C45 TATACTGGGGTCAGGAACTAAAGAA-------------------------
C46 --------------------------------------------------
C47 AATATTGGAGTCAGGAACTAAAGAA-------------------------
C48 TATACTGGGGTCAGGAACTAAAGAA-------------------------
C49 AGTATTGGAGTCAGGAACTAAAGAA-------------------------
C50 AGTTTTGGAGTCAGGAACTAAAAAA-------------------------
C1 --------------
C2 --------------
C3 --------------
C4 --------------
C5 --------------
C6 --------------
C7 --------------
C8 --------------
C9 --------------
C10 --------------
C11 --------------
C12 --------------
C13 --------------
C14 --------------
C15 --------------
C16 --------------
C17 --------------
C18 --------------
C19 --------------
C20 --------------
C21 --------------
C22 --------------
C23 --------------
C24 --------------
C25 --------------
C26 --------------
C27 --------------
C28 --------------
C29 --------------
C30 --------------
C31 --------------
C32 --------------
C33 --------------
C34 --------------
C35 --------------
C36 --------------
C37 --------------
C38 --------------
C39 --------------
C40 --------------
C41 --------------
C42 --------------
C43 --------------
C44 --------------
C45 --------------
C46 --------------
C47 --------------
C48 --------------
C49 --------------
C50 --------------
>C1
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGGCAGT
GAGACTCATCAAGCTTCTCTATCAGAGCAACCCACCTCCCAGGCCCCAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
GACAGAACGATCAGGGCGATTAGTGAGCGGATTCTTGCCACTTGTCTGGG
ACGACCTGCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACACCG---------
------------GGGGTGGGAACTCCTCAAGTATTGTTGGAATCTCCTAC
AGTATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C2
ATGGCAGGAAGAAGCGGAGACAGC---GACGACGAGCTGATCAAGACAGT
GCAGCTCATCAAGCAAATCTATCAAAGCAACCCACCACCCAGCTCCGAGG
GG---ACCCGACAGGCCCGACGAAACCGACGAAGAAGGTGGAGAGAGAGA
CAGAGACACATCCGGGAGATTAGTGGATGGATTCTTAGCACTTATCTGGG
TCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGACTTA
CTCTTGATTGCAGCGAGGGGTGTGGAACTTGTGGGACGCAG---------
------------GGGGTGGGAACTCCTCAAGTACTGGTGGAATCTCCTAC
AGTATTGGAGTCGGGAACTAAAGAA-------------------------
--------------
>C3
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCACTCCTCCAAGCAGT
GAAAGCCATCAAAATCTTATATCAGAGCAACCCTTACCCCGAACCCAAGG
GA---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGGCAGATCCATTCGCTTAGTGAGCGGATTCTTAGCGCTTGCCTGGG
ACGACCTGCGGAGCCTGTGCCTTTTCAGCTACCACCGATTGAGAGACTTC
ATATTGATTGCAGCAAGAGTGTTGGAACTTCTGGGACAGAG---------
------------GGGGTGGGAAGCCCT-----------------------
--------------------------------------------------
--------------
>C4
ATGGCAGGAAGAAGCGGAGACAGC---GACGAGGAACTCCTCAGAGCAGT
AAGGATCATCAAAATCCTATACCAAAGCAACCCTTACCCCAAATCCAAGG
GA---TCTCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGG
CAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
ACGATCTACGGAGCCTGTGTCTCTTCAGCTACCACCGCTTGAGAGACTTC
AGCTTGGGTGTTGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGGTTGAGACTGGGGTGGGAAGCCCTCAAGTATCTGTGGAATCTCCTGT
TGTATTGGGGTCGGGAACTAAAAAG-------------------------
--------------
>C5
ATGGCAGGAAGAAGCGGAGACAGC---GACGAACAGCTCCTCTGGGCAGT
AAGAGTCATCAAGATCCTGTACCAAAGCAACCCTTATCCCAAACTCAGCG
GG---AGTCGACAGGCCCGGAGAAATCGAAGGAGGAGGTGGAGAGCAAGA
CAGAACCAGATCGATTCGATTAGTGAACGGATTCTTAGCTCTTGCCTGGG
AAGATCTGAGGAGCCTGTGCCGCTTCAGCTACCACCTATTGAGAGACTTC
GTCTTGATTGTACTGAGGACTGTGGAAACTCTGGGACACAG---------
------------GGGGTGGGAGATCCTCAAATACCTGGGGAACCTGGTGT
GTTATTGGGGACAGGAACTAAAGAA-------------------------
--------------
>C6
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAACTCCTCAAGGCAGT
AAGATACATCAAGATCCTGTACCAAAGCAACCCTTATCCCAAACCCGAGG
GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGCCAGA
CAGAGACAGATCCATGAGATTAGTGAGCGGATTCTTACCACTTACCTGGG
ACGACCTACGGAGCCTGTGCTCTTTCAGCTACCGCCACTTGAGAGACTTA
CTATTAATTGCAGCGAGGACTGTGGACAGGGGAGTGAAAGG---------
------------GGGGTGGGAAGCCCTCAAATATCTGTGGAATCTCACGC
AGCATTGGGGTCGGGAATTAAAGAA-------------------------
--------------
>C7
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAAAGCAGT
AAGGATCATCAAAATCCTGTACCAAAGCAACCCTTACCCATCATCAGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGCGAGCAAGA
CAGAGGCAGATCCGTGACATTAGCCAGCGGATTCTTAACAGTTGTCTGGG
TCGATCTACGGAACCTGTGCATCTTCCTCTACCGCCGCTTGAGCGACTTC
ATCTTGATTGCAACGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGACTGAGACGGGTGTGGGAAGGCCTCAAATATTTGGGGAGTCTTCTGG
TATATTGGAGCCAGGAACTAAAAAT-------------------------
--------------
>C8
ATGGCAGGAAGAAGCGGAGACAGC---GAAGAAGAGCTCCTCAAGGCCGT
CAGACTCATCAAGTTTCTCTATCAAAGCAACCCACCGCCCAGCCCCGCGG
GA---ACCCGACAGGCCCGAAGGAATCGAGGAAGAAGGTGGAGACAGAGA
CAGAGACAGATCCGGTCGCTTAGTGGATGGATTCTTAGCAATTATCTGGG
TCGACCTGCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGATTGTAGTGAGGATTGTGGAGAATCTGGGACGCCG---------
------------GGGGAGGGAAACCCTCAGATATTGGTGGAATCTCCTGC
AATATTGGAGTCAGGAGCTAAAGAA-------------------------
--------------
>C9
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTTCTCAAGACAGT
CAGAATCGTCAAGTTTCTCTACCAAAGCAACCCGCCTCCCAGCCCCGCGG
GG---ACCCGACAGGCCAGAAGGAATCGAAGGAGAAGGTGGAGAGAACGA
CAGAGACACATCCAGGCCCTTAGTGACTGGATTCTTAGAACTCATCTGGG
TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTA
CTCTTGATTGTAGCGAGGACTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTGAAATACTTGTGGAATCTCCTGC
AGTATTGGAGTCAGGAACTAAAGAAGAG----------------------
--------------
>C10
ATGGCAGGAAGAAGCGGAAACACC---GACGAAGAACTCCTCAGAATAAT
ACAGACCATCAAAATCCTGTACCAGAGCAACCCTTACCCACCATCAGAGG
GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGACAAATCCATTCGATTAGTGAGCGGCTTCTTAGCACTTGTGTGGG
ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTC
ATATTGATTGCAACGAGGACAGTGGAACTCTTGGGACGCAACAGTCTCAA
GGGACTGAGACTGGGGTGGGAGGGCCTCAAATACCTGTGGAATCTTCTGT
TGTACTGGGGTCGGGAACTAAAGAG-------------------------
--------------
>C11
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGGCAGC
CAGACTAATCAAGCTTCTCTATCAAAGCAACCCATATCCCAAGCCCGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGG
CAAAGTCAGATCCGTGCGATTAGTGAACGGATTATTGACACTTATCTGGG
ACGACCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGGTTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTAC
AGTATTGGAGTCGGGAACTAAAGAA-------------------------
--------------
>C12
ATGGCAGGAAGAAGTGGAGACAGC---GACGAAGAGCTCCTCCAAGTAGT
GAGGATCATCAAAATCTTATATCGAAGCAACCCATACCCCAAACCCAGGG
GG---ACTCGACAGGCCCGGAAGAATCGAAGAAGAAGATGGAGAGCAAGG
CAAAGACAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTTTCTGGG
ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATCTTGATTGCCAAGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTCCTGG
TATATTGGGGTCGGGAACTAAAAAT-------------------------
--------------
>C13
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCGCAGCAGT
AAGGATCATCAAAATCCTGTACCAAAGCAACCCCTACCCATCATCAGAGG
GA---ACCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGG
CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTTGCGTGGG
ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATCTTGGTTGCAGCGAGGATTGTGGAAATTCTGGGACACAGCAGTCTCAA
GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGG
TATATTGGGGTCGGGAACTAAGAAT-------------------------
--------------
>C14
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
AAGGATCATCAAAATCCTATATCAAAGCAATCCATACCCCAAACCCAGGG
GG---ACCCGACAGGCCCGGAAGAACCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGACAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATCTTGAT---------------------TCTGGGACACAGCAGTCTCAA
GGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTCTGC
TATATTGGGGCCGGGAACTAAGAAT-------------------------
--------------
>C15
ATGGCAGGAAGAAGCGGAAGCACCGACGACGAAGAACTCCTCAGAGTAGT
AAGGATCATCAAAATCCTGTACCAAAGCAACCCCTACCCATCATCAGAGG
GA---AACCGACAGACCCGAAGAAATCGAAGAAGAAGGTGGCGAGCAAGG
CAGAGACAGATCCGTGCGCTTAGTGAGCGGTTTCTTAGCTCTTGCCTGGG
ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
ATCTTGATAACAACGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGACTGAGGCGGGGGTGGGAAGGCCTGAAATATCTGGGGAATGTTCTGT
TATACTGGGGCCAGGAACTAAAAAT-------------------------
--------------
>C16
ATGGCAGGAAGAAGCGGAGATCCC---GACGAGGACCTTATCCAGGCAGT
AAGGATCATCAAAATCCTGTACCAAAGCAACCCTCCCCCACCACCAGAGG
GA---ACCAGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGG
CAGAGACAGATCCACTCGATTAGTGAGCGGATTCTTAGCTCTTGCCTGGG
ACGACGTGCGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATATTGATTGCAGCGAGGACAGCAGAGCTACTGGGACGCAGCAGCCTCCA
GGGACTGAGACTGGGGTGGGAGGGCCTCAAACATCTGTGGAATCTCCTGC
TGTACTGGGGTCAGGAACTAAAGAAGAG----------------------
--------------
>C17
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
GAGGATCATCAAAATCCTATATCAAAGCAACCCTCATCCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGAAACAGAAGAAGGAGGTGGAGAGCAAGA
CAGAGGCAGATCCGTGCGATTAGTGAACGGATTCTCAGCACTTATCTGGG
ACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
ATCTTAATTGTAACGAGGATTGTGGAAATTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTCAAATACCTGTGGAATCTTCTAC
AGTATTGGGTTCAGGAACTAAAGAA-------------------------
--------------
>C18
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGATCTCCTCAGGACAGT
AAGGATCATCAAAATCCTGTACCAAAGCAACCCTTATCCCAAGCCCGAAG
GG---TCCCGACAGGCAAGAAGAAACAGAAGGAGAAGGTGGAGAGCCAGG
CAGAGACAGATCGATTCGATTGGTGAGCGGATTCTTAGCGCTTGCCTGGG
ACGACCTGCGGAGCCTGTGCCTCTTCAGTTACCACCGCTTGAGAGACTTC
GTCTTGATTGTTGCGAGGACTGTGGGACTTCTGGGACACAGCAGTCTCAA
GGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGGGGAATCTCCTGG
CATATTGGGTTCTGGAACTAAAGAA-------------------------
--------------
>C19
ATGGCAGGAAGAAGCGACGACGTC---------CCGCTGCTGCACACCAT
CCGGATAATAAAGATCTTGTACCAGAGCAATCCCCAACCATCACCAATCG
GA---AGCAGGAGCGCCAGGAGGAACAGGAGAAGAAGGTGGAGAAGGAGA
CAGGCCCAGATTGATACCCTTGCCGCCAGGTTTCTTGCATCTGTTGTACA
CGGACCTCAGGACAATAATCTTGTGGAGTTACCACCTCTTGAGCAACTTA
GCATCAGGGATCCAGACGGTGATCAGCCATCTGGGACT------------
------------GGGACTGTGGATCCTAGGACAGAAGATAAT--------
--------------------------------------------------
--------------
>C20
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCAGT
AAGAATCGTCAAAATCCTGTACCAAAGCAACCCCTACCCATCCTCAGAGG
GA---ACCAGACAGGCTCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGG
CAGAGACAGATCCGTGAGATTAGTGACCGGGTTCTTAGCTCTTGTCTGGG
ACGATCTCCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATCTGGATTGCAGCGAGGACTGTGGAATTTCTGGGACACAGCAGTCTCAA
GGGACTGAGACGGGGTTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGA
TATATTGGAGCCAGGAACTAAAAAC-------------------------
--------------
>C21
ATGGCAGGAAGAAGCGGAGGCACC---GACGAGGAACTCCTCCAAGCAGT
AAGGATCATCAAAATCTTATACCAAAGCAACCCCTTCCCATCACCAGAGG
GA---ACCCGACAGACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGG
CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTTGTCTGGG
ACGATCTACGGAGCCTGTGCCTCTTCCTCTACCACCGATTGAGAGACTTA
ACCTTGATTGCAGCGAGGACTGTGGAACGTCTGGGACAGAGCAGTCTCAA
GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGT
CATATTGGGGTCAGGAACTGAAAAC-------------------------
--------------
>C22
ATGGCAGGAAGAAGCGGCAGC------GACGAAGAACTCCTTCTGGCAAT
AAGGACCATCAAAATCCTGTACCAAAGCAACCCGTCCCCACCACCAGAGG
GG---ACCCGACAGGCCCGAAGAAACAGAAGAAGGAGGTGGAGAGCCAGA
CAAAGACAGATCCGTGAGATTAGTGAGCGGATTCTTAGCACTTGCCTGGG
ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
ATCTCCATTGCAGCGAGGACAGCGGAACTCCTGGGACGCAGCAGCCTCCA
GGGACTGAGATTGGGGTGGGAGGGCCTCAAATATCTGTGGAACATCCTGT
TGTACTGGGGTCGGGAACTAAAGAA-------------------------
--------------
>C23
ATGGCAGGAAGAAGCGGAAACAGC---GACGAGGAACTCCTCAAGGCAGT
GAGCATCATCAAAATACTGTACAACAGCAACCCATACCCCAAACCCAAGG
GG---TCTCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGAACCAGATCGATTCGCTTAGTGAGCGGATTCTTAGCACTTGCTTGGG
ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTT
GTCTGGATTGCCAAGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGGTTGAGACTAGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTCTGG
TGTATTGGGGTCTGGAGCTAAAGAAGAGTGCCAT----------------
--------------
>C24
ATGGCAGGAAGAAGCGGAGACAGC---GACGCAGAGCTCCTCCAAGCAGT
GAGGATCATCAAAATCTTATATCAAAGCAACCCTTACCCCAACCCCGAGG
GGGCCACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAAAAACAGATCCATTCGATTAGTGAGCGGATTCTTAGCTCTTGCCTGGG
ACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAGACTTC
ATATTGATTGCAGCGAGAGTGGTGGAACTTCTGGGACGCAACAGTCTCAG
GGGACTACAGAGGGGGTGGGAAGCCCT-----------------------
--------------------------------------------------
--------------
>C25
ATGGCAGGAAGAAGCGGAAACGCC---GATGCGGGACTCCTCAGTGCAGT
AAGGATCATCAGAATCCTGTATCAAAGCAACCCTTACCCATCAGCAGAGG
GA---ACCCGACAGGCCCGGAAAAATCGAAGAAGGCGGTGGCGAGCAAGA
CAGAGACAGATCAGTCAGATTAGTCAACGGATTCTTAGCTCTTGCCTGGG
ACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
GCCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGACTGAGACTGGGGTGGGAAGCCCTCAAATATCTGGGGAATCTTCTAT
CATACTGGGGTCAGGAACTAAAGAA-------------------------
--------------
>C26
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCACGACAGT
AAGGATCATCAAAATCCTGTACCAGAGCAACCCAATTCCACCACCAGAGG
GA---ACCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGG
CAGAGACAGATCCACTCGATTAGTGAGCGGATTCTTAGCACTTGTCTGGG
ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
ACCTTGATTGTAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCTGAA
GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGT
GCTATTGGGGCCAGGAACTAAAAAT-------------------------
--------------
>C27
ATGGCAGGAAGAAGCGGAGGCACC---GACGAGGAGCTCATCAAAGCAGT
AAAGATCATCAAAATCCTATACCGGAGCAACCCCTTCCCATCATCAGAGG
GA---ACCCGACAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
CAGAAACAGATCAGTGCGCTTAGTGAGCGGATTCTTAGCGCTTGTCTGGG
ACGACCTCCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
AGCTTAATTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCTCAA
GGGACTGAAACGGGGGTGGGAAGGTCTCAAATATCTGGGGAACCTTCTGT
TATATTGGGGTCGGGAACTAAAAAT-------------------------
--------------
>C28
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCCAAGCAGT
GAGGATCATCAAAATCTTATATCAAAGCAACCCTTACCCCGAACCCAAGG
GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGGCAAATCCATTCGATTAGTGAACGGATTCTTCGCACTTGCCTGGG
AAGATCTGCGGAACCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
ATATCGGTGGCAGCGAGAGTGGTGGAACTTCTGGGACGCAG---------
------------CAGTTGGGAAGCCCTCAAATATCTGGGAAGTCTTGTGC
AGTATTGGGGTCTGGAGCTAAAAAA-------------------------
--------------
>C29
ATGGCAGGAAGAAGAGGAGACAGC---GAAGAAGACCTCATCCAGACAGT
CAAACTAATCAAGCTTCTCTATCAAAGCAATCCGATACCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGGAGAAGGTGGAGAGAGAGA
CAGAGAAAGATCAACTCGCTTAGTGCATGGATTCTTAGCACTCATCTGGG
ACGACCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGACAGACTTA
CTCTTGATTGTAGTGAGGATTCTGCAGATTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTCAGATATTGGTGGAACCTTCTGC
AGTACTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C30
ATGGCAGGAAGAAGCGGAGACAGC---GACGACGAGCTCCTCAAGACAGT
AAGACTCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCTGCCCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
CAGAGACAGATCCGGTCGATTAGCGGATGGATTATTGACACTTATCTGGG
TCGACCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGATTGTAACGAGGACTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAATCCTCAAATATTGGTGGAATCTCCTAC
AGTATTGGAGGCAGGAACTAAAGAA-------------------------
--------------
>C31
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCCGGACGAT
CAGGCTCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGGAGAGCAAGG
CAGAGGCAGATCCACTCGATTGGTGAACGGATTCTCAACACTTATCTGGG
ACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
ATCTTAATTGCAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCCTGC
AGTATTGGAGTCAGGAACTGAAGAC-------------------------
--------------
>C32
ATGGCAGGAAGAAGCGGAGACAAC---GACGAACAGCTTCTCGCAGCAAT
AAGAGCCATCAGGATCCTATACCAGAGCAACCCTTACCCCCAACAACAAG
GA---AGCCGACAGGCCCGGAGAAATCGAAGAAGGAGATGGAGAGCAAGG
CAGAACCAGATCGATTCGATTAGTCAGCGGATTCTTAGCTCTTGCCTGGG
ACGATCTGAGGAGCCTGTGCCTTTGGAGCTACCACCGATTGAGAGACTGC
ACCTTGATTGTAGCGAGGATTGTGGAAACTCTGGGACGCAG---------
------------GGGGTGGGAGAGTCTCAAATACCTGGGGAATCTTGCAC
AATATTGGGGCCGAGAACTGAAACT-------------------------
--------------
>C33
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCGCTCCTCAAAGCAGT
GAGGATCATCAAGATCTTATATCAAAGCAACCCCTACCCCGAACCCAGGG
GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGGGCAAGA
CAACGTCAGATCCATTCGATTAGTGAACGGATTCTTAGCGCTTGCCTGGG
ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTC
ATATTAGTGGCAGCGAGAGTGGTGGAACTTCTGGGACACAACAGTCTCAG
GGGACTACAGAGAGGGTGGGAAGCCCT-----------------------
--------------------------------------------------
--------------
>C34
ATGGCAGGAAGAAGCGGAGACAAC---GACGAAGCGCTTCTCCAAGCAGT
GAGGACCATCAAAATCCTATATCAAAGCAACCCTGACCCCAAACCCGAGG
GG---ACCCGACAGGCTCGAAAGAATCGAAGAAGAAGGTGGAGAGCAAGG
CAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTAGCGCTTGCCTGGG
ACGACCTGCGGAACCTGTGCCTTTTCAGCTACCACCGATTGAGAGACTTA
CTATTGGTGACAGCGAGAGCAGTGGAACTTCTGGGACGCAGCAGTCTCAA
GGGACTTCAGAGGGGGTGGGAAATCCT-----------------------
--------------------------------------------------
--------------
>C35
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGACAGT
CCGTCTGATCAAGGTTCTATACCAAAGCAACCCGCTTCCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGACGAAGAAGGTGGAGAAAGAAA
CAGAGATGGATCAGGTCGATTAGTGACTGGATTCTTAGAAATCATCTGGG
TCGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTCAAATATCTGTGGAATCTCCTGC
TGTATTGGAGTCAGGAACTGAAGAG-------------------------
--------------
>C36
ATGGCAGGAAGAAGCGGAGACCGC---GACGAAGACCTCCTTCAGACCGT
CAGGTTCATCAAGTTTCTCTATCAAAGCAACCCACCTCCCAGCCTCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGCGAGA
CAGAGACAGATCGGGAGGATTAGCGACTGGCTTCTTAGAAATCATCTGGG
TCGACCTGCGGAGCCTGCTCCTCTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGATTGTAGCGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGTGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTGC
AGTATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C37
ATGGCAGGAAGAAGCGAAGACCGC---GACGAAGAGCTCCTCAGAACAGT
CAGAATCATCAAGTTTCTCTACCAAAGCAACCCGATTCCCAGCCCAGAGG
GGACGACCCGGCAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
CAGAGACAGATCCGAGATATTAGCCAACGGATTCTTGACACTTATCTGGG
AAGATCTCAGGAGCCTGTGCCTCTTCAGCTACCATCTCTTGAGAGACTCA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGGGGGAAGCCCTCCGGTATTGGTGGAACCTCCTGC
AGTATTGGATTCAGGAACTAAAAAT-------------------------
--------------
>C38
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAGGACAGT
CAGACTCATCAAGTTTCTCTACCAAAGCAACCCACCTCCCAGCCCAGAGG
GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
CAGAGACAGATCCGATCGATTAGTGACTGGATTCTTAGCAATCATCTGGG
TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGGAATCCTCAAATATTGGTGGAATCTCCTGC
AATATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C39
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAACTCCTCAGAGCGGT
CAGGATCATCAAGATCCTATACCAAAGCAACCCTTTTCCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGGAGAGCAAGG
CAGAGGCAGATCCATTCGATTGGTGAACGGATTCTCAGCACTCATCTGGG
ACGACTTGAGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAAACTTA
ATATCAATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCATCAAGTACTTGTGGAATCTCCTAC
TGTATTGGATTCAGGAGCTAAAGAA-------------------------
--------------
>C40
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCCGT
AAGGATCATCAGAATCCTATACCAAAGCAACCCATACCCATCAGCAGAGG
GA---ACCCGACAGACCAGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
CAGAGGCAGATCCGTGAGATTAGTGAGCGGATTCTTCGCTCTTGCCTGGG
ACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCTCTTGAGAGACTTC
ACCTTGGTTGCAGCGAGGACAGTGGAACTTCTGGGACACAG---------
------------GGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGA
TATACTGGAGCCAGGAACTAAGAAA-------------------------
--------------
>C41
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCATCAAGACAAT
CAGACTCATCAAGCGCCTCTATCAGAGCAACCCGCTTCCCAGCCCCGAGG
GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGA
CAGAGACAGATCCACAAGATTGGTGGATGGATTCTTAGCACTTATCTGGG
ACGACCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGACAGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAATTCTCAAGTATTGGTGGAGTCTCCTGC
AGTATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C42
ATGGCAGGAAGAAGCGGAGACAGC---GACAAAAAACTCCTTACAGCAAT
AAGGATCATCAAAATCCTATACCAAAGCAACCCATACCCCAAACCCAGGG
GG---ACTCGACAAGCCCGGAAAAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGGAGCAGATCAACGCGATTAGTGGACGGATTCTTAGCTCTTTTCTGGG
ACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAGACTTC
GTCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGCCTCAA
GGGGCTGAGACTGGGGTGGGAAGGTCTCAAGTACCTGAAGAATCTTCTGG
CATATTGGATACAGGAACTAAAAAC-------------------------
--------------
>C43
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGGCAGT
CAGACTCATCAAGCTTCTCTATCAAAGCAACCCTCCTCCCAGCCCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAAA
CAGAGACAGATCCGGTCGATTAGTGAGCGGATTCTTACCACTTATCTGGG
ACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGACTTA
CTCTTAATTGCAGCGAGAATTGTGGGACTTCTGGGACACAG---------
------------GGGGTGGGAAGTCCTCAGATATTGGTGGAATCTCCTCC
AGTATTGGAGACAGGAACTAAAGAA-------------------------
--------------
>C44
ATGGCAGGAAGAAGCGGAAGCACC---GACGAGGAACTCCTCAGAGCAGT
AAGGATCATCAATATCCTATACCAAAGCAACCCCTTTCCACCAGCAGAGG
GA---ACCCGACAGACCCGAAGGAATCGAAGAAGGAGGTGGCGAGCAAGA
CAGAGTCAGATCCGTGCGATTAGTGAGCGGATTCTTAGCACTATTCTGGG
ACGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTC
ATCTTGATTGCAGCGAGGACTGTGGAAATTCTGGGACACAGCAGTCTCAA
GGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTCTGG
TATACTGGGTCCAGGAACTAAAAAC-------------------------
--------------
>C45
ATGGCAGGAAGAAGCGGAGACGCC---GACCAGGAACTCCTCAGAGCCGT
CAGGATCATCAAAATCCTGTACCAAAGCAACCCTTACCCATCATCAGAGG
GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
CAGAGACAGATCAGTGCGCTTAGTGAACGGATTCTTAGCACTTGCCTGGG
ACGACCTACGGAGCCTGTGCCTCTTCTGCTACCACCGATTGAGAGACTTT
CTCTTGATTGCACTGAGGGCCGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGACTGAGACTCGGGTGGGAAGCCCTCAAACATCTGGGGAATCTTCTGT
TATACTGGGGTCAGGAACTAAAGAA-------------------------
--------------
>C46
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGCACTCCTCCAAGCAGT
GAGGATCATCAAAATCTTGTATCAAAGCAACCCTTATCCCAGGCCCGAGG
GA---ACCCGACAGGCTCAGAGGAATCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGACAGATCAATTCGATTAGTGAACGGATTCTTAGTACTTGCCTGGG
ACGACCTGCGGAACCTTTGCCTTTTCTGCTACCACCAATTGAGAGACTTT
ATATTGGTGACAGCGAGGGCAGTGGAACTTCTGGGACACAGCAGTCTCAG
GGGACTACAGAGAGGGAGGGAAGCCCT-----------------------
--------------------------------------------------
--------------
>C47
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGACAGT
CAGACTCATCAAGCTTCTCTACCAGAGCAACCCTCCTCCCAACCCAGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGGAGAAGGTGGAGAGAGAGA
CAGAGACACATCCGAAAGATCAGTGAACGGATTCTTGACACTTATCTGGG
TCGATCTGAGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCCTAC
AATATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C48
ATGGCAGGAAGAAGCGGAGACAACAGCGACGAGGAACTCCTCCGAGCAGT
CAGGACCATCAAAATCCTGTACCAAAGCAACCCTTTACCACCATCAGAGG
GA---TCCCGGCAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGA
CAGAGACAGATCGGTGCGATTAGTGAGCGGATTCTTCGCGCTTGCCTGGG
ACGATCTGCGGAGCCTGTGCCTCTTCAGTTACCACCGCTTGAGAGACTTT
CTCTTAATTGCAACGAGGACAGTGGAACTTCTGGGACACAGCAGTCTCAA
GGGACTAAGACTGGGGTGGGAAGCCCTCAAATATCTGTGGAATCTTCTGT
TATACTGGGGTCAGGAACTAAAGAA-------------------------
--------------
>C49
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGAGCTCCTCAAGACAGT
CAGACTCATCAAGACAATCTACCAAAGCAACCCACCACCCAACCCCGAGG
GG---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGGAGAGAGAGA
CAGAGGCAGATCCGAACGATTAGTAACTGGATTCTTAGCACTTATCTGGG
ACGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCGATTGATCGACTTA
CTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG---------
------------GGGGTGGGAAGTTCTCAAGTATTGGTGGAATCTTCTAC
AGTATTGGAGTCAGGAACTAAAGAA-------------------------
--------------
>C50
ATGGCAGGAAGAAGCGGAGACAGC---GACGAAGACCTCCTCAAGACAGT
CAGACTCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCAACCCAGAGG
GG---ACCCGACAGGCCAGAAGGAACCGAAGAAGAAGGTGGAGAGCAAGA
CAGAGACAGATCCGGTGGCTTAGCACAAAGCTTCTTAGCACTTATCTGGA
TCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGACTTA
CTCTTGATTGCAGCGAGGATTGTGGAACTACTGGGACGCAG---------
------------GGGGTGGGAGATCCTCAAATACTGGTGGAATCTCCTGC
AGTTTTGGAGTCAGGAACTAAAAAA-------------------------
--------------
>C1
MAGRSGDSoDEELLKAVRLIKLLYQSNPPPRPQGoTRQARRNRRRRWRER
DRTIRAISERILATCLGRPAEPVPLQLPPLERLTLDCNEDCGTSGTPooo
ooooGVGTPQVLLESPTVLESGTKEooo
>C2
MAGRSGDSoDDELIKTVQLIKQIYQSNPPPSSEGoTRQARRNRRRRWRER
QRHIREISGWILSTYLGRPTEPVPLPLPPLERLTLDCSEGCGTCGTQooo
ooooGVGTPQVLVESPTVLESGTKEooo
>C3
MAGRSGDSoDEALLQAVKAIKILYQSNPYPEPKGoTRQARKNRRRRWRAR
QRQIHSLSERILSACLGRPAEPVPFQLPPIERLHIDCSKSVGTSGTEooo
ooooGVGSPooooooooooooooooooo
>C4
MAGRSGDSoDEELLRAVRIIKILYQSNPYPKSKGoSRQARKNRRRRWRAR
QRQIDSISERILSTCLGRSTEPVSLQLPPLERLQLGCCEDCGTSGTQQSQ
GVETGVGSPQVSVESPVVLGSGTKKooo
>C5
MAGRSGDSoDEQLLWAVRVIKILYQSNPYPKLSGoSRQARRNRRRRWRAR
QNQIDSISERILSSCLGRSEEPVPLQLPPIERLRLDCTEDCGNSGTQooo
ooooGVGDPQIPGEPGVLLGTGTKEooo
>C6
MAGRSGDSoDEELLKAVRYIKILYQSNPYPKPEGoTRQARRNRRRRWRAR
QRQIHEISERILTTYLGRPTEPVLFQLPPLERLTINCSEDCGQGSERooo
ooooGVGSPQISVESHAALGSGIKEooo
>C7
MAGRSGSToDEELLKAVRIIKILYQSNPYPSSEGoTRQARRNRRRRWRAR
QRQIRDISQRILNSCLGRSTEPVHLPLPPLERLHLDCNEDCGTSGTQQSQ
GTETGVGRPQIFGESSGILEPGTKNooo
>C8
MAGRSGDSoEEELLKAVRLIKFLYQSNPPPSPAGoTRQARRNRGRRWRQR
QRQIRSLSGWILSNYLGRPAEPVPLQLPPLERLTLDCSEDCGESGTPooo
ooooGEGNPQILVESPAILESGAKEooo
>C9
MAGRSGDSoDEELLKTVRIVKFLYQSNPPPSPAGoTRQARRNRRRRWRER
QRHIQALSDWILRTHLGRPAEPVPLQLPPLERLTLDCSEDCGTSGTQooo
ooooGVGSPEILVESPAVLESGTKEEoo
>C10
MAGRSGNToDEELLRIIQTIKILYQSNPYPPSEGoTRQARKNRRRRWRAR
QRQIHSISERLLSTCVGRSTEPVPLQLPPLERLHIDCNEDSGTLGTQQSQ
GTETGVGGPQIPVESSVVLGSGTKEooo
>C11
MAGRSGDSoDEELLKAARLIKLLYQSNPYPKPEGoTRQARRNRRRRWRAR
QSQIRAISERIIDTYLGRPEEPVPFQLPPLERLTLGCNEDCGTSGTQooo
ooooGVGSPQILVESPTVLESGTKEooo
>C12
MAGRSGDSoDEELLQVVRIIKILYRSNPYPKPRGoTRQARKNRRRRWRAR
QRQIDSISERILSTFLGRSAEPVPLQLPPLERLHLDCQEDCGTSGTQQSQ
GVETGVGRPQVSVESPGILGSGTKNooo
>C13
MAGRSGSToDEELLAAVRIIKILYQSNPYPSSEGoTRQTRKNRRRRWRAR
QRQIRAISERILSTCVGRSTEPVPLQLPPLERLHLGCSEDCGNSGTQQSQ
GTETGVGRPQISGESSGILGSGTKNooo
>C14
MAGRSGDSoDEALLQAVRIIKILYQSNPYPKPRGoTRQARKNRRRRWRAR
QRQIDSISERILSTCLGRSAEPVPLQLPPLERLHLDoooooooSGTQQSQ
GTETGVGRPQVSVESSAILGPGTKNooo
>C15
MAGRSGSTDDEELLRVVRIIKILYQSNPYPSSEGoNRQTRRNRRRRWRAR
QRQIRALSERFLSSCLGRSTEPVPLQLPPLERLNLDNNEDCGTSGTQQSQ
GTEAGVGRPEISGECSVILGPGTKNooo
>C16
MAGRSGDPoDEDLIQAVRIIKILYQSNPPPPPEGoTRQARRNRRRRWRAR
QRQIHSISERILSSCLGRRAEPVPLQLPPLERLHIDCSEDSRATGTQQPP
GTETGVGGPQTSVESPAVLGSGTKEEoo
>C17
MAGRSGDSoDEALLQAVRIIKILYQSNPHPSPEGoTRQARRNRRRRWRAR
QRQIRAISERILSTYLGRSEEPVPLQLPPLERLNLNCNEDCGNSGTQooo
ooooGVGSPQIPVESSTVLGSGTKEooo
>C18
MAGRSGDSoDEDLLRTVRIIKILYQSNPYPKPEGoSRQARRNRRRRWRAR
QRQIDSIGERILSACLGRPAEPVPLQLPPLERLRLDCCEDCGTSGTQQSQ
GTETGVGRPQVSGESPGILGSGTKEooo
>C19
MAGRSDDVoooPLLHTIRIIKILYQSNPQPSPIGoSRSARRNRRRRWRRR
QAQIDTLAARFLASVVHGPQDNNLVELPPLEQLSIRDPDGDQPSGToooo
ooooGTVDPRTEDNoooooooooooooo
>C20
MAGRSGSToDEELLRAVRIVKILYQSNPYPSSEGoTRQARKNRRRRWRAR
QRQIREISDRVLSSCLGRSPEPVPLQLPPLERLHLDCSEDCGISGTQQSQ
GTETGLGRPQISGESSDILEPGTKNooo
>C21
MAGRSGGToDEELLQAVRIIKILYQSNPFPSPEGoTRQTRKNRRRRWRAR
QRQIRAISERILSTCLGRSTEPVPLPLPPIERLNLDCSEDCGTSGTEQSQ
GTETGVGRPQISGESSVILGSGTENooo
>C22
MAGRSGSooDEELLLAIRTIKILYQSNPSPPPEGoTRQARRNRRRRWRAR
QRQIREISERILSTCLGRPAEPVPLQLPPIERLNLHCSEDSGTPGTQQPP
GTEIGVGGPQISVEHPVVLGSGTKEooo
>C23
MAGRSGNSoDEELLKAVSIIKILYNSNPYPKPKGoSRQARRNRRRRWRAR
QNQIDSLSERILSTCLGRPAEPVPLQLPPLERLCLDCQEDCGTSGTQQSQ
GVETRVGRPQVSVESSGVLGSGAKEECH
>C24
MAGRSGDSoDAELLQAVRIIKILYQSNPYPNPEGATRQARKNRRRRWRAR
QKQIHSISERILSSCLGRPAEPVPLQLPPIERLHIDCSESGGTSGTQQSQ
GTTEGVGSPooooooooooooooooooo
>C25
MAGRSGNAoDAGLLSAVRIIRILYQSNPYPSAEGoTRQARKNRRRRWRAR
QRQISQISQRILSSCLGRSEEPVPLQLPPIERLRLDCSEDCGTSGTQQSQ
GTETGVGSPQISGESSIILGSGTKEooo
>C26
MAGRSGSToDEELLTTVRIIKILYQSNPIPPPEGoTRQTRKNRRRRWRAR
QRQIHSISERILSTCLGRSTEPVPLQLPPLERLNLDCSEDCGTSGTQQSE
GTETGVGRPQISGESSVLLGPGTKNooo
>C27
MAGRSGGToDEELIKAVKIIKILYRSNPFPSSEGoTRQARKNRRRRWRAR
QKQISALSERILSACLGRPPEPVPLQLPPLERLQLNCSEDCGTSGTQQSQ
GTETGVGRSQISGEPSVILGSGTKNooo
>C28
MAGRSGDSoDEALLQAVRIIKILYQSNPYPEPKGoTRQARKNRRRRWRAR
QRQIHSISERILRTCLGRSAEPVPLQLPPIERLHIGGSESGGTSGTQooo
ooooQLGSPQISGKSCAVLGSGAKKooo
>C29
MAGRRGDSoEEDLIQTVKLIKLLYQSNPIPSPEGoTRQARRNRRRRWRER
QRKINSLSAWILSTHLGRPEEPVPLQLPPLDRLTLDCSEDSADSGTQooo
ooooGVGSPQILVEPSAVLESGTKEooo
>C30
MAGRSGDSoDDELLKTVRLIKLLYQSNPPPCPEGoTRQARRNRRRRWRER
QRQIRSISGWIIDTYLGRPEEPVPLQLPPLERLTLDCNEDCGTSGTQooo
ooooGVGNPQILVESPTVLEAGTKEooo
>C31
MAGRSGDSoDEELLRTIRLIKILYQSNPLPSPEGoTRQARRNRRRRWRAR
QRQIHSIGERILNTYLGRSEEPVPLQLPPLERLNLNCNEDCGTSGTQooo
ooooGVGSHQISVESPAVLESGTEDooo
>C32
MAGRSGDNoDEQLLAAIRAIRILYQSNPYPQQQGoSRQARRNRRRRWRAR
QNQIDSISQRILSSCLGRSEEPVPLELPPIERLHLDCSEDCGNSGTQooo
ooooGVGESQIPGESCTILGPRTETooo
>C33
MAGRSGDSoDEALLKAVRIIKILYQSNPYPEPRGoTRQARKNRRRRWRAR
QRQIHSISERILSACLGRPAEPVPLQLPPIERLHISGSESGGTSGTQQSQ
GTTERVGSPooooooooooooooooooo
>C34
MAGRSGDNoDEALLQAVRTIKILYQSNPDPKPEGoTRQARKNRRRRWRAR
QRQIRAISERILSACLGRPAEPVPFQLPPIERLTIGDSESSGTSGTQQSQ
GTSEGVGNPooooooooooooooooooo
>C35
MAGRSGDSoDEELLKTVRLIKVLYQSNPLPSPEGoTRQARRNRRRRWRKK
QRWIRSISDWILRNHLGRSTEPVPLQLPPIERLTLDCNEDCGTSGTQooo
ooooGVGSPQISVESPAVLESGTEEooo
>C36
MAGRSGDRoDEDLLQTVRFIKFLYQSNPPPSLEGoTRQARRNRRRRWRAR
QRQIGRISDWLLRNHLGRPAEPAPLQLPPLERLTLDCSEDCGTSGTQooo
ooooGVGSPQILVESPAVLESGTKEooo
>C37
MAGRSEDRoDEELLRTVRIIKFLYQSNPIPSPEGTTRQARRNRRRRWRER
QRQIRDISQRILDTYLGRSQEPVPLQLPSLERLTLDCNEDCGTSGTQooo
ooooGGGSPPVLVEPPAVLDSGTKNooo
>C38
MAGRSGDSoDEELLRTVRLIKFLYQSNPPPSPEGoTRQARRNRRRRWRER
QRQIRSISDWILSNHLGRPAEPVPLQLPPIERLTLDCNEDCGTSGTQooo
ooooGVGNPQILVESPAILESGTKEooo
>C39
MAGRSGDSoDEELLRAVRIIKILYQSNPFPSPEGoTRQARRNRRRRWRAR
QRQIHSIGERILSTHLGRLEEPVPLQLPPIEKLNINCSEDCGTSGTQooo
ooooGVGSHQVLVESPTVLDSGAKEooo
>C40
MAGRSGSToDEELLRAVRIIRILYQSNPYPSAEGoTRQTRKNRRRRWRAR
QRQIREISERILRSCLGRSAEPVPLQLPPLERLHLGCSEDSGTSGTQooo
ooooGVGRPQISGESSDILEPGTKKooo
>C41
MAGRSGDSoDEELIKTIRLIKRLYQSNPLPSPEGoTRQARRNRRRRWRER
QRQIHKIGGWILSTYLGRPEEPVPLQLPPLDRLTLDCNEDCGTSGTQooo
ooooGVGNSQVLVESPAVLESGTKEooo
>C42
MAGRSGDSoDKKLLTAIRIIKILYQSNPYPKPRGoTRQARKNRRRRWRAR
QEQINAISGRILSSFLGRPAEPVPLQLPPIERLRLDCSEDCGTSGTQQPQ
GAETGVGRSQVPEESSGILDTGTKNooo
>C43
MAGRSGDSoDEDLLKAVRLIKLLYQSNPPPSPEGoTRQARRNRRRRWREK
QRQIRSISERILTTYLGRPAEPVPLQLPPLERLTLNCSENCGTSGTQooo
ooooGVGSPQILVESPPVLETGTKEooo
>C44
MAGRSGSToDEELLRAVRIINILYQSNPFPPAEGoTRQTRRNRRRRWRAR
QSQIRAISERILSTILGRPTEPVPLQLPPLERLHLDCSEDCGNSGTQQSQ
GTETGVGRPQISGESSGILGPGTKNooo
>C45
MAGRSGDAoDQELLRAVRIIKILYQSNPYPSSEGoTRQARKNRRRRWRAR
QRQISALSERILSTCLGRPTEPVPLLLPPIERLSLDCTEGRGTSGTQQSQ
GTETRVGSPQTSGESSVILGSGTKEooo
>C46
MAGRSGDSoDEALLQAVRIIKILYQSNPYPRPEGoTRQAQRNRRRRWRAR
QRQINSISERILSTCLGRPAEPLPFLLPPIERLYIGDSEGSGTSGTQQSQ
GTTEREGSPooooooooooooooooooo
>C47
MAGRSGDSoDEDLLKTVRLIKLLYQSNPPPNPEGoTRQARRNRRRRWRER
QRHIRKISERILDTYLGRSEEPVPLPLPPLERLTLDCNEDCGTSGTQooo
ooooGVGSPQILVESPTILESGTKEooo
>C48
MAGRSGDNSDEELLRAVRTIKILYQSNPLPPSEGoSRQARKNRRRRWRAR
QRQIGAISERILRACLGRSAEPVPLQLPPLERLSLNCNEDSGTSGTQQSQ
GTKTGVGSPQISVESSVILGSGTKEooo
>C49
MAGRSGDSoDEELLKTVRLIKTIYQSNPPPNPEGoTRQARRNRRRRWRER
QRQIRTISNWILSTYLGRSTEPVPLQLPPIDRLTLDCNEDCGTSGTQooo
ooooGVGSSQVLVESSTVLESGTKEooo
>C50
MAGRSGDSoDEDLLKTVRLIKLLYQSNPPPNPEGoTRQARRNRRRRWRAR
QRQIRWLSTKLLSTYLDRPAEPVPLQLPPLERLTLDCSEDCGTTGTQooo
ooooGVGDPQILVESPAVLESGTKKooo
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/HIV1_N2/REV_1_1/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 50 taxa and 414 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
Taxon 11 -> C11
Taxon 12 -> C12
Taxon 13 -> C13
Taxon 14 -> C14
Taxon 15 -> C15
Taxon 16 -> C16
Taxon 17 -> C17
Taxon 18 -> C18
Taxon 19 -> C19
Taxon 20 -> C20
Taxon 21 -> C21
Taxon 22 -> C22
Taxon 23 -> C23
Taxon 24 -> C24
Taxon 25 -> C25
Taxon 26 -> C26
Taxon 27 -> C27
Taxon 28 -> C28
Taxon 29 -> C29
Taxon 30 -> C30
Taxon 31 -> C31
Taxon 32 -> C32
Taxon 33 -> C33
Taxon 34 -> C34
Taxon 35 -> C35
Taxon 36 -> C36
Taxon 37 -> C37
Taxon 38 -> C38
Taxon 39 -> C39
Taxon 40 -> C40
Taxon 41 -> C41
Taxon 42 -> C42
Taxon 43 -> C43
Taxon 44 -> C44
Taxon 45 -> C45
Taxon 46 -> C46
Taxon 47 -> C47
Taxon 48 -> C48
Taxon 49 -> C49
Taxon 50 -> C50
Successfully read matrix
Setting default partition (does not divide up characters)
Setting model defaults
Seed (for generating default start values) = 1518475794
Setting output file names to "/opt/ADOPS/HIV1_N2/REV_1_1/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) = 319714410
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 = 1252839923
Seed = 2009129348
Swapseed = 1518475794
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 109 unique site patterns
Division 2 has 92 unique site patterns
Division 3 has 113 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 -- -9629.360361 -- -77.118119
Chain 2 -- -9584.972223 -- -77.118119
Chain 3 -- -9595.051729 -- -77.118119
Chain 4 -- -9411.135997 -- -77.118119
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -9709.786180 -- -77.118119
Chain 2 -- -9277.588127 -- -77.118119
Chain 3 -- -9664.759774 -- -77.118119
Chain 4 -- -9633.695882 -- -77.118119
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-9629.360] (-9584.972) (-9595.052) (-9411.136) * [-9709.786] (-9277.588) (-9664.760) (-9633.696)
500 -- (-7484.733) (-7388.069) [-7172.674] (-7340.626) * (-7484.599) [-7208.605] (-7271.599) (-7478.111) -- 0:33:19
1000 -- (-6747.490) (-6805.739) [-6719.519] (-6803.890) * (-6806.779) (-6723.786) [-6541.159] (-6854.150) -- 0:33:18
1500 -- (-6567.903) (-6477.880) [-6416.976] (-6528.071) * (-6573.218) (-6568.502) [-6347.275] (-6539.062) -- 0:33:17
2000 -- (-6399.096) (-6390.291) [-6340.182] (-6365.557) * (-6475.966) (-6398.129) [-6242.637] (-6485.503) -- 0:33:16
2500 -- (-6340.675) (-6360.682) [-6299.753] (-6310.595) * (-6442.236) (-6315.978) [-6198.348] (-6376.286) -- 0:39:54
3000 -- (-6273.532) (-6308.107) [-6250.293] (-6281.011) * (-6351.375) (-6191.707) [-6184.711] (-6279.378) -- 0:38:46
3500 -- (-6191.361) (-6233.264) [-6203.444] (-6277.917) * (-6313.336) [-6154.353] (-6171.833) (-6190.828) -- 0:37:57
4000 -- [-6145.179] (-6210.888) (-6197.434) (-6207.885) * (-6273.388) (-6144.779) [-6159.166] (-6165.067) -- 0:37:21
4500 -- [-6134.957] (-6180.969) (-6219.232) (-6183.720) * (-6268.846) (-6157.391) [-6157.123] (-6177.499) -- 0:36:52
5000 -- [-6133.448] (-6180.181) (-6218.303) (-6147.904) * (-6247.153) [-6136.327] (-6175.110) (-6164.228) -- 0:36:29
Average standard deviation of split frequencies: 0.125591
5500 -- [-6144.931] (-6158.905) (-6205.383) (-6150.572) * (-6179.275) (-6151.423) [-6137.392] (-6155.865) -- 0:39:10
6000 -- [-6138.615] (-6155.341) (-6190.678) (-6149.248) * (-6185.098) (-6147.511) (-6158.785) [-6150.446] -- 0:38:39
6500 -- [-6134.455] (-6165.482) (-6198.092) (-6142.831) * (-6173.213) [-6130.913] (-6164.491) (-6177.164) -- 0:38:12
7000 -- [-6129.835] (-6165.035) (-6179.889) (-6158.462) * (-6152.704) [-6129.630] (-6165.045) (-6156.686) -- 0:37:49
7500 -- (-6136.580) (-6178.260) (-6158.674) [-6142.160] * (-6168.303) [-6141.698] (-6165.640) (-6144.500) -- 0:37:29
8000 -- [-6128.686] (-6160.820) (-6144.858) (-6155.919) * (-6169.702) [-6120.599] (-6181.046) (-6131.986) -- 0:37:12
8500 -- (-6142.429) (-6174.793) (-6148.660) [-6146.082] * [-6149.950] (-6134.849) (-6187.501) (-6160.300) -- 0:38:52
9000 -- (-6149.168) (-6183.136) (-6152.401) [-6138.059] * (-6152.176) (-6145.913) (-6167.238) [-6133.746] -- 0:38:32
9500 -- (-6153.915) (-6157.877) (-6153.402) [-6124.951] * (-6136.116) [-6130.380] (-6172.120) (-6129.488) -- 0:38:13
10000 -- (-6153.211) (-6153.793) (-6133.216) [-6135.426] * (-6163.558) (-6137.079) [-6156.320] (-6147.489) -- 0:37:57
Average standard deviation of split frequencies: 0.110183
10500 -- (-6145.147) (-6158.743) [-6133.342] (-6136.829) * (-6165.633) [-6134.060] (-6168.886) (-6142.580) -- 0:37:41
11000 -- (-6160.802) (-6156.343) [-6134.106] (-6142.224) * (-6154.111) (-6152.988) (-6176.055) [-6123.415] -- 0:37:27
11500 -- (-6150.298) [-6155.004] (-6136.406) (-6140.966) * (-6142.195) (-6153.419) (-6185.109) [-6131.868] -- 0:37:14
12000 -- [-6133.845] (-6141.035) (-6132.304) (-6161.120) * (-6127.978) (-6167.912) (-6183.496) [-6125.330] -- 0:37:03
12500 -- (-6143.566) [-6129.565] (-6151.165) (-6157.732) * (-6124.411) [-6144.896] (-6181.562) (-6148.130) -- 0:38:11
13000 -- (-6160.246) [-6131.350] (-6155.144) (-6159.821) * [-6122.490] (-6146.394) (-6175.898) (-6150.779) -- 0:37:57
13500 -- (-6158.339) [-6125.065] (-6143.173) (-6163.907) * [-6145.496] (-6171.629) (-6187.559) (-6146.417) -- 0:37:45
14000 -- [-6152.324] (-6142.416) (-6137.111) (-6164.760) * (-6148.265) (-6152.436) (-6202.195) [-6130.040] -- 0:37:33
14500 -- [-6142.090] (-6135.358) (-6133.745) (-6158.799) * (-6130.245) (-6160.619) (-6170.549) [-6128.368] -- 0:37:22
15000 -- (-6159.072) (-6141.635) [-6123.416] (-6159.373) * (-6139.341) (-6147.359) [-6146.740] (-6137.073) -- 0:37:12
Average standard deviation of split frequencies: 0.084316
15500 -- (-6144.954) (-6130.409) [-6121.505] (-6149.026) * (-6142.999) [-6148.723] (-6152.240) (-6145.905) -- 0:38:06
16000 -- (-6147.310) [-6133.930] (-6126.524) (-6158.013) * (-6145.225) (-6141.837) (-6165.222) [-6129.086] -- 0:37:55
16500 -- (-6138.576) (-6126.300) [-6130.640] (-6158.816) * (-6164.742) (-6136.973) (-6169.054) [-6129.090] -- 0:37:45
17000 -- (-6138.209) (-6136.168) [-6122.518] (-6145.932) * (-6145.223) (-6166.270) (-6156.349) [-6133.772] -- 0:37:35
17500 -- (-6154.447) [-6131.989] (-6138.921) (-6141.297) * (-6151.107) (-6142.482) (-6157.812) [-6141.956] -- 0:37:25
18000 -- (-6148.330) (-6138.675) [-6130.537] (-6135.509) * (-6155.736) (-6164.579) [-6152.030] (-6150.579) -- 0:37:16
18500 -- (-6141.590) (-6164.697) [-6131.926] (-6175.900) * (-6142.468) (-6154.274) (-6166.741) [-6159.033] -- 0:37:08
19000 -- (-6151.782) (-6168.832) [-6126.081] (-6162.810) * (-6135.524) (-6143.797) (-6162.541) [-6141.307] -- 0:37:00
19500 -- (-6175.341) (-6155.625) [-6121.805] (-6151.698) * [-6132.212] (-6147.965) (-6161.558) (-6134.879) -- 0:37:42
20000 -- (-6167.496) (-6167.252) [-6137.831] (-6157.980) * (-6117.193) (-6132.753) (-6161.584) [-6140.166] -- 0:37:34
Average standard deviation of split frequencies: 0.074571
20500 -- (-6166.287) [-6139.893] (-6149.089) (-6160.137) * (-6124.744) [-6125.532] (-6147.299) (-6154.231) -- 0:37:25
21000 -- (-6152.561) (-6154.827) [-6129.179] (-6167.256) * (-6134.523) (-6134.804) [-6144.188] (-6161.257) -- 0:37:17
21500 -- (-6142.287) (-6169.845) [-6134.272] (-6161.166) * (-6149.515) (-6145.704) [-6137.188] (-6150.127) -- 0:37:10
22000 -- (-6157.009) (-6154.973) (-6147.206) [-6150.988] * (-6146.364) [-6135.660] (-6159.284) (-6163.605) -- 0:37:02
22500 -- (-6165.059) (-6161.254) (-6176.805) [-6153.216] * (-6153.443) [-6125.841] (-6155.540) (-6150.715) -- 0:37:39
23000 -- (-6175.455) (-6147.754) [-6139.595] (-6162.389) * (-6148.319) (-6139.380) [-6142.544] (-6128.098) -- 0:37:31
23500 -- (-6154.721) (-6157.475) (-6142.442) [-6133.515] * (-6146.955) (-6149.362) (-6158.381) [-6124.738] -- 0:37:23
24000 -- (-6164.784) (-6145.120) [-6136.886] (-6153.723) * (-6178.146) [-6149.176] (-6145.805) (-6155.154) -- 0:37:16
24500 -- (-6160.666) (-6161.292) [-6140.156] (-6133.693) * (-6180.417) (-6144.752) (-6159.698) [-6142.459] -- 0:37:09
25000 -- (-6158.730) (-6150.475) [-6139.630] (-6128.051) * (-6175.169) [-6140.755] (-6152.700) (-6144.863) -- 0:37:03
Average standard deviation of split frequencies: 0.059421
25500 -- (-6157.576) (-6174.656) [-6134.638] (-6136.757) * (-6176.870) (-6125.277) (-6156.665) [-6144.485] -- 0:36:56
26000 -- (-6152.821) (-6141.571) [-6139.093] (-6157.865) * (-6178.377) (-6128.654) (-6148.344) [-6142.151] -- 0:36:50
26500 -- [-6138.931] (-6172.333) (-6139.503) (-6151.625) * (-6158.779) (-6135.682) (-6141.055) [-6132.550] -- 0:36:44
27000 -- [-6131.308] (-6165.686) (-6135.673) (-6145.972) * (-6171.303) (-6139.621) (-6158.286) [-6138.119] -- 0:36:38
27500 -- [-6122.890] (-6165.022) (-6163.702) (-6152.639) * (-6166.670) [-6140.678] (-6157.991) (-6149.983) -- 0:37:07
28000 -- [-6127.601] (-6158.577) (-6144.925) (-6159.116) * (-6152.111) [-6142.695] (-6167.901) (-6157.019) -- 0:37:01
28500 -- [-6126.686] (-6155.250) (-6158.222) (-6167.979) * (-6162.073) [-6143.779] (-6143.554) (-6140.687) -- 0:36:55
29000 -- [-6124.214] (-6162.030) (-6157.707) (-6161.095) * (-6163.539) (-6162.105) [-6122.776] (-6154.279) -- 0:36:49
29500 -- [-6134.950] (-6173.593) (-6160.993) (-6145.919) * (-6162.021) (-6166.464) [-6135.793] (-6152.537) -- 0:36:44
30000 -- (-6143.226) (-6159.143) [-6148.214] (-6147.396) * (-6142.842) (-6147.821) [-6131.475] (-6182.923) -- 0:36:38
Average standard deviation of split frequencies: 0.064282
30500 -- [-6137.352] (-6141.950) (-6158.052) (-6162.266) * (-6156.445) (-6175.523) [-6131.493] (-6134.963) -- 0:36:33
31000 -- [-6128.477] (-6143.447) (-6160.767) (-6176.720) * (-6155.377) (-6152.802) [-6126.867] (-6145.133) -- 0:36:59
31500 -- (-6145.640) [-6132.415] (-6161.778) (-6186.934) * (-6152.734) (-6133.462) [-6130.460] (-6151.474) -- 0:36:53
32000 -- (-6163.372) [-6142.150] (-6153.183) (-6185.204) * (-6162.506) [-6132.619] (-6129.463) (-6135.490) -- 0:36:48
32500 -- [-6138.372] (-6141.933) (-6152.058) (-6181.351) * (-6156.967) (-6134.545) (-6143.220) [-6136.200] -- 0:36:42
33000 -- [-6140.489] (-6136.423) (-6144.161) (-6178.624) * (-6164.301) [-6128.941] (-6153.333) (-6145.270) -- 0:36:37
33500 -- [-6136.027] (-6146.078) (-6150.143) (-6158.671) * (-6160.965) [-6123.654] (-6162.677) (-6149.125) -- 0:36:32
34000 -- [-6140.064] (-6149.621) (-6159.834) (-6168.606) * (-6178.885) (-6126.656) [-6137.438] (-6158.914) -- 0:36:27
34500 -- (-6143.266) (-6139.384) [-6136.275] (-6179.114) * (-6163.522) (-6140.621) [-6145.981] (-6144.946) -- 0:36:50
35000 -- (-6153.500) (-6158.931) [-6138.124] (-6168.505) * (-6165.804) (-6140.004) [-6144.781] (-6144.314) -- 0:36:45
Average standard deviation of split frequencies: 0.071194
35500 -- (-6181.267) (-6149.814) [-6132.699] (-6169.210) * (-6171.364) (-6160.089) [-6145.111] (-6155.408) -- 0:36:40
36000 -- (-6179.444) (-6156.842) [-6133.468] (-6157.853) * (-6187.541) (-6157.374) (-6142.618) [-6132.601] -- 0:36:35
36500 -- (-6170.053) (-6164.870) [-6140.883] (-6149.240) * (-6176.802) (-6163.862) [-6127.993] (-6151.863) -- 0:36:30
37000 -- (-6179.248) (-6145.929) [-6130.639] (-6147.454) * (-6166.118) (-6181.453) (-6125.338) [-6127.086] -- 0:36:26
37500 -- (-6170.010) (-6145.979) [-6133.104] (-6135.793) * (-6172.713) (-6177.755) (-6131.000) [-6121.923] -- 0:36:21
38000 -- (-6146.724) (-6133.481) [-6131.257] (-6148.281) * (-6170.658) (-6167.493) (-6127.676) [-6124.315] -- 0:36:42
38500 -- (-6153.905) [-6119.065] (-6133.478) (-6156.768) * (-6178.177) (-6173.523) (-6131.096) [-6134.701] -- 0:36:37
39000 -- (-6169.330) (-6128.693) [-6130.009] (-6165.317) * (-6191.638) (-6162.751) (-6127.636) [-6131.380] -- 0:36:33
39500 -- (-6152.491) [-6125.607] (-6143.014) (-6155.276) * (-6160.145) (-6174.437) (-6141.244) [-6131.847] -- 0:36:28
40000 -- (-6150.747) (-6151.313) (-6135.061) [-6138.598] * (-6138.756) (-6183.697) (-6136.397) [-6127.560] -- 0:36:24
Average standard deviation of split frequencies: 0.067093
40500 -- [-6150.042] (-6147.054) (-6156.063) (-6140.136) * (-6143.739) (-6181.266) (-6137.442) [-6124.702] -- 0:36:19
41000 -- (-6165.378) [-6134.616] (-6154.931) (-6138.840) * (-6154.532) (-6179.383) (-6139.061) [-6129.223] -- 0:36:38
41500 -- (-6150.235) (-6151.587) [-6136.900] (-6149.838) * (-6138.773) (-6170.328) (-6141.864) [-6117.807] -- 0:36:34
42000 -- (-6159.917) [-6143.317] (-6130.884) (-6146.467) * (-6143.752) (-6177.916) (-6155.261) [-6136.219] -- 0:36:29
42500 -- (-6168.153) (-6147.010) (-6138.115) [-6136.369] * [-6129.244] (-6188.583) (-6146.486) (-6130.702) -- 0:36:25
43000 -- (-6171.785) (-6150.082) [-6135.045] (-6141.443) * (-6145.566) (-6173.584) (-6151.584) [-6121.683] -- 0:36:21
43500 -- (-6179.134) (-6163.136) [-6134.161] (-6142.620) * (-6151.213) (-6156.415) (-6148.725) [-6128.325] -- 0:36:16
44000 -- (-6173.725) (-6150.940) [-6143.218] (-6155.921) * (-6140.779) (-6162.758) (-6151.637) [-6124.954] -- 0:36:12
44500 -- (-6160.728) (-6132.216) (-6161.050) [-6140.944] * (-6166.911) (-6136.808) (-6151.524) [-6140.904] -- 0:36:30
45000 -- (-6153.063) [-6153.641] (-6161.263) (-6141.892) * (-6168.980) (-6139.844) [-6150.529] (-6153.867) -- 0:36:25
Average standard deviation of split frequencies: 0.061770
45500 -- (-6149.266) (-6160.143) (-6162.414) [-6132.489] * (-6189.711) [-6134.673] (-6145.766) (-6141.341) -- 0:36:21
46000 -- [-6134.386] (-6171.517) (-6154.251) (-6140.115) * (-6157.566) (-6139.506) (-6136.828) [-6141.904] -- 0:36:17
46500 -- [-6132.704] (-6175.582) (-6154.585) (-6142.197) * (-6172.308) [-6136.020] (-6146.984) (-6131.594) -- 0:36:13
47000 -- [-6129.680] (-6154.595) (-6149.098) (-6134.145) * (-6161.581) (-6152.062) (-6151.826) [-6133.832] -- 0:36:09
47500 -- (-6170.279) (-6169.548) (-6155.920) [-6134.146] * (-6154.785) (-6140.141) (-6146.267) [-6126.505] -- 0:36:05
48000 -- (-6127.801) (-6170.750) [-6140.685] (-6142.543) * (-6145.436) (-6166.315) [-6124.318] (-6128.224) -- 0:36:21
48500 -- [-6122.568] (-6165.487) (-6142.229) (-6164.081) * (-6138.876) (-6157.786) [-6127.872] (-6150.153) -- 0:36:17
49000 -- [-6125.967] (-6146.992) (-6141.082) (-6153.415) * (-6131.541) [-6128.028] (-6147.735) (-6140.569) -- 0:36:13
49500 -- [-6128.620] (-6174.300) (-6140.910) (-6161.120) * (-6152.146) [-6130.795] (-6136.406) (-6151.621) -- 0:36:09
50000 -- (-6137.321) (-6163.279) [-6135.228] (-6156.352) * (-6164.603) [-6135.749] (-6137.654) (-6156.451) -- 0:36:06
Average standard deviation of split frequencies: 0.064870
50500 -- (-6137.113) (-6173.523) [-6127.376] (-6184.484) * (-6152.452) (-6136.834) (-6143.044) [-6126.135] -- 0:36:02
51000 -- (-6137.450) (-6155.326) [-6126.023] (-6165.305) * (-6152.880) (-6146.634) (-6151.866) [-6129.962] -- 0:35:58
51500 -- [-6127.105] (-6152.807) (-6133.670) (-6172.224) * (-6151.236) (-6151.690) (-6141.678) [-6146.640] -- 0:36:13
52000 -- [-6123.400] (-6144.249) (-6132.361) (-6177.608) * (-6168.536) (-6149.193) (-6148.786) [-6146.443] -- 0:36:09
52500 -- (-6163.914) (-6143.669) [-6142.600] (-6181.773) * (-6166.084) (-6154.711) [-6130.844] (-6149.389) -- 0:36:05
53000 -- (-6161.572) (-6163.064) [-6138.941] (-6153.755) * (-6169.786) (-6153.110) (-6139.827) [-6133.879] -- 0:36:02
53500 -- (-6161.800) (-6152.595) (-6142.676) [-6132.280] * (-6150.128) (-6148.482) (-6148.302) [-6122.013] -- 0:35:58
54000 -- (-6166.419) (-6160.193) (-6135.191) [-6138.474] * (-6142.426) (-6152.361) (-6149.249) [-6122.293] -- 0:35:54
54500 -- [-6158.305] (-6165.908) (-6135.686) (-6145.497) * (-6142.293) (-6176.082) [-6146.663] (-6136.240) -- 0:36:08
55000 -- (-6152.344) (-6148.979) (-6155.282) [-6142.255] * (-6149.955) (-6197.448) [-6134.907] (-6130.704) -- 0:36:04
Average standard deviation of split frequencies: 0.065279
55500 -- (-6159.051) (-6156.401) (-6136.574) [-6133.882] * (-6151.486) (-6183.312) [-6133.134] (-6141.700) -- 0:36:01
56000 -- (-6148.847) (-6144.332) (-6145.937) [-6144.852] * (-6152.130) (-6180.391) (-6150.081) [-6144.802] -- 0:35:57
56500 -- (-6156.802) [-6140.060] (-6151.246) (-6151.891) * [-6151.762] (-6188.146) (-6157.750) (-6153.231) -- 0:35:54
57000 -- (-6169.701) (-6140.700) (-6173.211) [-6145.736] * (-6157.478) (-6178.774) [-6155.514] (-6141.657) -- 0:35:50
57500 -- (-6161.783) (-6143.810) (-6164.140) [-6144.235] * (-6176.250) (-6185.656) (-6136.045) [-6139.895] -- 0:36:03
58000 -- (-6152.961) [-6125.031] (-6145.457) (-6132.290) * (-6159.588) (-6175.064) (-6136.152) [-6139.962] -- 0:36:00
58500 -- (-6169.404) (-6146.151) (-6157.681) [-6115.869] * (-6163.865) (-6144.721) (-6138.115) [-6130.098] -- 0:35:56
59000 -- (-6172.368) (-6135.685) (-6186.921) [-6117.080] * [-6154.243] (-6150.229) (-6162.099) (-6139.216) -- 0:35:53
59500 -- (-6167.035) (-6133.063) (-6173.989) [-6125.155] * (-6143.922) (-6139.375) (-6162.186) [-6127.012] -- 0:35:49
60000 -- (-6157.406) (-6146.455) (-6166.585) [-6132.700] * (-6145.415) (-6168.060) [-6150.302] (-6139.170) -- 0:35:46
Average standard deviation of split frequencies: 0.061430
60500 -- (-6174.919) (-6144.254) [-6151.944] (-6144.856) * (-6142.618) (-6153.397) [-6149.000] (-6166.204) -- 0:35:58
61000 -- (-6169.297) [-6154.400] (-6151.196) (-6148.902) * [-6140.166] (-6148.862) (-6166.593) (-6146.650) -- 0:35:55
61500 -- (-6158.124) [-6132.158] (-6169.770) (-6143.019) * [-6135.026] (-6168.767) (-6149.695) (-6162.892) -- 0:35:51
62000 -- (-6151.397) [-6140.460] (-6165.881) (-6151.623) * (-6138.023) (-6149.611) [-6136.927] (-6159.127) -- 0:35:48
62500 -- (-6158.049) (-6140.150) (-6160.386) [-6131.173] * (-6130.994) (-6142.418) [-6140.533] (-6156.525) -- 0:35:45
63000 -- [-6153.491] (-6167.580) (-6156.634) (-6134.546) * [-6156.615] (-6153.935) (-6139.608) (-6154.077) -- 0:35:41
63500 -- (-6152.321) (-6152.566) (-6156.942) [-6141.819] * (-6165.160) [-6130.127] (-6123.403) (-6160.430) -- 0:35:53
64000 -- (-6171.057) (-6157.848) (-6170.860) [-6131.342] * (-6180.758) [-6136.854] (-6124.415) (-6147.175) -- 0:35:49
64500 -- (-6144.070) (-6156.906) (-6159.860) [-6127.863] * (-6162.511) [-6129.040] (-6134.422) (-6154.927) -- 0:35:46
65000 -- (-6146.929) (-6187.061) (-6163.800) [-6140. 