--- EXPERIMENT NOTES
--- EXPERIMENT PROPERTIES
#Tue Feb 13 07:50:12 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_3/input.fasta
input.names=
mrbayes.params=
codeml.params=
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/HIV1_N2/REV_1_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_N2/REV_1_3/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_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -5677.96 -5730.81
2 -5677.71 -5735.53
--------------------------------------
TOTAL -5677.83 -5734.85
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/HIV1_N2/REV_1_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_N2/REV_1_3/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_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 4.785083 0.086137 4.227752 5.344511 4.774007 817.92 1037.80 1.000
r(A<->C){all} 0.167278 0.000244 0.138068 0.197838 0.166786 622.80 658.11 1.001
r(A<->G){all} 0.287028 0.000644 0.237411 0.336622 0.286041 434.66 484.99 1.004
r(A<->T){all} 0.054813 0.000098 0.036712 0.074765 0.054390 938.01 949.15 1.000
r(C<->G){all} 0.056772 0.000081 0.040980 0.076456 0.056317 673.84 763.80 1.001
r(C<->T){all} 0.341775 0.000854 0.283048 0.397784 0.341218 432.05 481.88 1.005
r(G<->T){all} 0.092334 0.000181 0.066923 0.118997 0.091648 542.15 644.69 1.001
pi(A){all} 0.323079 0.000294 0.290275 0.356095 0.322561 652.20 667.70 1.002
pi(C){all} 0.237162 0.000224 0.207974 0.266187 0.237086 538.60 717.52 1.000
pi(G){all} 0.281693 0.000289 0.247924 0.314489 0.281746 509.99 633.55 1.000
pi(T){all} 0.158066 0.000181 0.132420 0.184296 0.157476 544.43 695.59 1.004
alpha{1,2} 0.840494 0.023051 0.570683 1.135143 0.820387 706.14 768.08 1.001
alpha{3} 0.834524 0.029803 0.529187 1.172437 0.808630 1094.64 1170.11 1.000
pinvar{all} 0.102441 0.002097 0.007645 0.182163 0.104701 690.77 859.12 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 -3211.940639
Model 2: PositiveSelection -3188.275268
Model 0: one-ratio -3318.302118
Model 3: discrete -3183.128141
Model 7: beta -3209.994275
Model 8: beta&w>1 -3182.793848
Model 0 vs 1 212.7229580000003
Model 2 vs 1 47.3307420000001
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.KR.91.91OSG10.KF561442_)
Pr(w>1) post mean +- SE for w
13 K 0.966* 2.450
14 T 0.944 2.416
17 I 0.796 2.195
20 F 0.999** 2.499
27 L 0.924 2.386
29 K 1.000** 2.501
30 P 0.999** 2.499
49 T 0.999** 2.500
53 S 0.995** 2.493
66 S 0.789 2.184
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.KR.91.91OSG10.KF561442_)
Pr(w>1) post mean +- SE for w
13 K 0.965* 2.449 +- 0.279
14 T 0.942 2.414 +- 0.354
17 I 0.795 2.193 +- 0.606
20 F 0.999** 2.501 +- 0.065
27 L 0.922 2.384 +- 0.406
29 K 1.000** 2.502 +- 0.046
30 P 0.998** 2.500 +- 0.074
49 T 0.999** 2.501 +- 0.059
53 S 0.995** 2.494 +- 0.118
66 S 0.788 2.182 +- 0.614
Model 8 vs 7 54.400854000000436
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.KR.91.91OSG10.KF561442_)
Pr(w>1) post mean +- SE for w
10 E 0.637 1.711
13 K 0.987* 2.166
14 T 0.980* 2.157
17 I 0.921 2.080
20 F 1.000** 2.182
27 L 0.971* 2.144
29 K 1.000** 2.182
30 P 0.999** 2.181
45 L 0.693 1.778
49 T 1.000** 2.182
53 S 0.998** 2.180
66 S 0.925 2.086
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.KR.91.91OSG10.KF561442_)
Pr(w>1) post mean +- SE for w
13 K 0.978* 2.462 +- 0.238
14 T 0.966* 2.444 +- 0.291
17 I 0.849 2.257 +- 0.574
20 F 1.000** 2.497 +- 0.060
27 L 0.953* 2.423 +- 0.340
29 K 1.000** 2.497 +- 0.051
30 P 0.999** 2.496 +- 0.064
45 L 0.528 1.728 +- 0.817
49 T 1.000** 2.497 +- 0.057
53 S 0.997** 2.493 +- 0.101
66 S 0.831 2.228 +- 0.598
>C1
MAGRSGDSDEELLKTIRIIKFLYQSNPLPKPEGTRQARRNRRRRWRRRQR
WIRSISEWILNTHLGRPAEPVPLQLPPLERLTLDCSEECGTSGTQGVGSP
QILLESPAVLESGTKEKooooooo
>C2
MAGRSGDSDAELLTAVRIIKILYQSNPPPKPRGTRQARKNRRRRWRARQR
QIDSISERILSTCLGRSTEPVPLQLPPLERLHLDCSEDCGTSGTQQSQGV
ETGVGRPQVPVESPAVLGSGTKNo
>C3
MAGRSGDSDEELLKAVRIIKLLYQSNPPPKPEGTRQARRNRRRRWERETE
THQRPFSEWILSTHLERPSEPVPLQLPPLERLTLDCNKDCGTSGTKGVGD
PQVLVESPAVLESGIKEooooooo
>C4
MAGRREDSDEELLKTVKLIKLLYQSNPLPNPEGTRQARRNRRRRWRARQR
QIREISERIIDTYLGGSTEPVPLQLPPLERLTLDCSKDCGTSGTQGVGSP
QILVESPAVLDSGTKEoooooooo
>C5
MAGRSGSTDEELLRAVRTIRILYQSNPFPSSEGTRQARRNRRRRWRARQR
QIRAISERILASYLGRSTEPVPLQLPPLERLHLDCNEDSGTSGTLQSQGT
ETGVGRPQISGESSVILGTGTKNo
>C6
MAGRSGSTDEELLRAVRIIKILYQSNPFPSSEGTTRQTRRNRRRRWRARQ
RQIREISERILSTCLGRSTEPVPLLLPPIERLHIDCSEDCGTSGTQQSQG
TETGVGRPQISGESSVILGPGAKN
>C7
MAGRSGDADEELLRAVRIIKILYQSNPYPPREGTRQARKNRRRRWRARQR
EISALSERILSSCLGGSAEPVPLQLPPIERLSLDCREDCGTSGTQQSQGT
ETGVGSPooooooooooooooooo
>C8
MAGRSGDNDEELLRAVRVIKILYQSNPPPSAEGTRQARRNRRRRWRARQR
QIRALSERVLCSCLGRSTEPVPLQLPPLERLSLDSGEDCGTSGTQQSQGT
ETRVGGPQISGESSGVLGTGAKNo
>C9
MAGRSGDGDEDLLTTVRVIKFLYQSNPPPSSQGTRQARRNRRRRWRERQR
QIQSISGWILSTHLGRSAEPVPLQLPSLERLTLDCNEDCGTSGTQGVGNP
QMLVESPTILESGTKEoooooooo
>C10
MAGRSGDSDEELLKTVRFIKLLYQSNPPPSPEGTRQARRNRRRRWRERQR
HIRSISNWLLSNYLGRPTEPVPFQLPPLERLTLDCDEDCGTSGTQGVGNP
QILVEHHPVLEPGTKEoooooooo
>C11
MAGRSGDSDEDLLQTVRIIKFLYQSNPPPRPEGTRQARRNRRRRWRQRQR
QIQKISGWILSTCLGRPAEPVPLQLPPLEGLTLDCNEDCGNSGTQGVGTS
QVLVESPAILDSGTKEoooooooo
>C12
MAGRSGDSDEELLKAIRIIKILYKSNPYPKPRGTRQARKNRRRRWRARQN
QIDSISERILSTCLGRPAEPVPLQLPPIERLCLDCNENGGNSGTQQSQGP
ETGVGSPQISGESSIILGSGTKEo
>C13
MAGRSGDSDEELLRAVRLIKSLYQSNPPPNPEGTRQARRNRRRRWRERQR
QIRTISDRILSTFLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQGVGSP
QILVESPTVLESGTKEoooooooo
>C14
MAGRSGNTDEDLLRAVRIIKILYQSNPSPPPEGTRQARRNRRRRWRARQR
QIRAISERILGTYLGGSTEPVPLQLPPLERLNLGSSEDCGTSGTQQSQGT
ETGVERPQISGESSVILGPGTKNo
>C15
MAGRSGDSDEELLRTIRLIKILYQSNPLPSPEGTRQARRNRRRRWRARQR
QIHSIGERILNTYLGRSEEPVPLQLPPLERLNLNCNEDCGTSGTQGVGSH
QISVESPAVLESGTEDoooooooo
>C16
MAGRSGDSDEDLLKAVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRARQR
QIHSISERILSTYLGRPEEPVPLQLPPLERLNLNCNENCGTSGTQGVGSH
QISVESPKILDSGTKEoooooooo
>C17
MAGRSGDSDEELLKTVRLIKFLYRSNPPPSPEGTRQARRNRRRRWRARQR
QIHEISGWLLSTHLGRSEEPVPLQLPPLDRLTLDCSEDCGNSGTQGVGSS
QVLLESPAILESGTKEoooooooo
>C18
MAGRSGDSDGELLQTVRIIKLLYQSNPPPKPEGTRQARRNRRRRWRARQR
QIRTISERILSDFLGRSEEPVPFQLPPLERLTLDCNEDCGTSGTQGVGSP
QVLVESPTILESGTKEoooooooo
>C19
MAGREDNDEELIRAVRIIKILYQSNPYPEQHRGTRQARKNRRRRWRARQK
QIHSISERVLSACLGRPTGPVDLQLPPLERLHITDSESGGTSGTEGVGSP
oooooooooooooooooooooooo
>C20
MAGRSGDSDEELLRAVRIIKILYQSNPYPRPKGSRQAQKNRRRRWRARQR
QIDSISERILSTCLGRSEEPVPLQLPSLETLHLDCHDDCGTSGTQQSQGV
ETGVGRPQVPGEPSTVLGSGTKTo
>C21
MAGRSGDNDVELLKTVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRERQR
QIRAISGWILSNYLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQGVGNP
QILVESPTVLESGAKEoooooooo
>C22
MAGRSGDSDEALLQAVKIIKILYQSNPYPKPEGTRQARKNRRRRWRARQR
QINSISERILSTCLGRPAEPVPFLLPPIERLHIDCSESGGSSGTQQSQGT
TEGVGSPooooooooooooooooo
>C23
MAGRSGDSDAALLQAVQIIKILYQSNPYPNPEGTRQARRNRRRRWRARQK
QIHSISERILSTCLGRSTEPVPFQLPPIERLHIGDSESAGTSGTQQSQGT
TEGVGSPooooooooooooooooo
>C24
MAGRREDNDEELIKAVRLIKFLYQSNPLPSPEGTRQARRNRRRRWRARQR
QIREISERILDTYLGGSTEPVPLQLPPLERLTLDCDTDCGTSGAQGVGSP
QILVEPPAVLDSGTKEoooooooo
>C25
MAGRSGDNDEELIKTVRLIRLLYQSNPPPSNTEGTRRARRNRRRRWRERQ
RQIRSISERILSDFLGRPTEPVPLPLPPLERLTLDCSEDCGTCGTQGVGS
PQVLVESPTVLESGTKEEoooooo
>C26
MAGRSGTTDEDLLKTVRIIKILYQSNPYPDPTGTRQARRNRRRRWRARQR
QIHSISERLLAACLGRPAEPVPLQLPPIEKLSLNCSEDCGTSGDKGVGSP
QIPVEPPAVLGTGAKEoooooooo
>C27
MAGRSGDSDEELLKTVRIIKFLYQSNPPPSPEGTRQARRNRRRRWRERQR
QIRTISGWLLSNHLGRPTEPVPLQLPPLERLTLDCNEDCGTSGTQGVGSP
QILVESPTILEAGTKEoooooooo
>C28
MAGRREDSDEELIKTVKLIKLLYQSNPPPNPEGTRQARRNRRRRWRARQR
QIRDISNRILDTFLGGSTEPVPLQLPPLERLTLDCNEDCGTSGTQGVGSS
QILVEHPAVLDSGTKEoooooooo
>C29
MAGRSGESDKELLKVIQIIKILYQSNPLPSPEGTRSARRNRRRRWRARQN
QIHSIAERVLSTHLGRLEEPVPFQLPPIERLHLDCSEDCGTSGTQQSQGT
ETGVGRPQVSGESSVILGSGTKDo
>C30
MAGRSGDSDEELLRTVRLIKLIYQSNPPPKLEGTRQARRNRRRRWRERQR
QIQTISGWILSNYLGRPAEPVPLQLPPLERLTLDCSEDCGTSGTQGVGSP
QILVESPAVLGSGTKEoooooooo
>C31
MAGRSGDSDEQLLLTVRLIKDLYQSNPPPSSEGTRRARRNRRRRWRERQR
QIRAISDRILGTYLGRSSEPVPLQLPPLERLTLDCSEDLGTSGSQGVGSP
QILVESPTVLESGTKEoooooooo
>C32
MAGRSGDSDEELLKTVRLIKVLYQSNPPPSSEGTRQARRNRRRRWRERQR
QIHTISRWILSTHLGRSAEPVPLQLPPLERLTLACEEGCGTSGTQGVGNP
QVLVESPAVLESGTKEoooooooo
>C33
MAGRSGDSDEDLLQAVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRQRQR
HIKAVSAWILSTHLGRSAEPVPLQLPPLERLTLDCSEDCGTAGTQGVGSP
EILVESPAVLESGTKEoooooooo
>C34
MAGRSGSTDEELLRVVRAVRILYQSNPYPSSEGTRQARKNRRRRWRARQR
QISEISERILSACLGRSTEPVPLQLPPLERLQLDCSEGCGTSGTQQSQGT
ETGVGRPQISGESSGILGTGTKNo
>C35
MAGRSGDSDEKLLQTVRIIKILYQSNPYPKPEGTRQARKNRRRRWRARQR
QIHSIGERILSTCLGRSAEPVPLQLPPIERLTLDCSEDCGTSGTQQSQGT
ETGVGRPQVSVESSAILGSGTKDo
>C36
MAGRSGSTDEELLRAVRIIKILHESNPYPSAEGTRQARRNRRRRWRARER
QIRAISERVLSSCVGRPTEPVPLQLPPLERLTLDCNEDCGTSGTQQSQGT
ESGVGRPQISVESSVILGTGAKNo
>C37
MAGRSGSTDEDLLRAVRIIKILYQSNPYPSTEGTSRQTRKNRRRRWRARQ
RQIRALSERILSTCVGRPEEPVPFLLPPIERLHLDCSEDCGTSGIQQSQG
TETGVGRSQISGEPSGILDPGTKN
>C38
MAGRSGDSDEDLLRAVRLIKFLYQSNPPPSPEGTRQARRNRRRRWRERRR
QIQAISDWILSTHLGRSTEPVPLQLPPIERLNLDCSEDCGTSGTQGVGSP
QVLGESPAILDSGTKEoooooooo
>C39
MAGRSGDSDEELLKTVRLIKFLYQSNPLPSPEGTRQARRNRRRRWRERQR
QVRKISEWILTTHLGRSEEPVPFQLPPLERLTLDCNEDCGTSGTQGVGNP
QNSVESPAVLEPGTKEoooooooo
>C40
MAGRSGNSDEKLLKVARIIKFLHQSNPPPSTEGTRRARRNRRRRWRERQK
QIQSISNWILSNHLGRPTEPAPLQLPPLDRLTLDCSEDCGDSGTQRVGSS
QVLLESPAILESGTKEoooooooo
>C41
MAGRSGDSDEALLQAVRIIKILYQSNPYPSSEDRQAEHVPLQLPPLERRT
LDCSENPEPSGTEEVGNHQVPGKHCPILEHRAKKEooooooooooooooo
oooooooooooooooooooooooo
>C42
MAGRSGSTDEDLLRAVRIIKILYQSNPYPPAEGNRQTRRNRRRRWRARQR
QIREISDRILSTCLGRSTEPVPLQLPPLERLTLDCSEDCGTSGTQQSQGT
ETGVGRPQISGESSVILGPGTKNo
>C43
MAGRSGDSDEELLKVIRTIKILYQSNPYPKPTGTRQARRNRRRRWRARQR
QIRGISERILGDYLGRPAEPVPLQLPPLERLHINCSEDCGQGTEEGVGSP
QTSGESRALLESGTKEoooooooo
>C44
MAGRSEDRDEDLLKTVRLIKTLYQSNPLPSPEGTRQARRNRRRRWRERQR
QIREISAWILDTYLGGPKEPVPLQLPPLERLTLDCSKDCGTSGTQGVGSP
QILVESPTVLDSGTKEoooooooo
>C45
MAGRSGDSDEELLKIVRLIKQLYQSNPLPSPEGTRQARRNRRRRWRERQR
QINWISERILNTCLGRSEEPVPLQLPPIERLTLDCNKDCGTSETQGVGTP
QVFVESSTVLASGAKEoooooooo
>C46
MAGRSGDSDEALLQAVRIIKILYQSNPYPEPKGTRQARRNRRRRWRARQR
QIHSLSERILSTCLGRSTEPVPLQLPPIERLHIGGSESGGTSGTQQLGSP
QISGKPCAVLGSGAKKoooooooo
>C47
MAGRSGDSDDELIKTVQLIKQIYQSNPPPSSEGTRQARRNRRRRWRERQR
HIREISGWILSTYLGRPTEPVPLPLPPLERLTLDCSEGCGTCGTQGVGTP
QVLVESPTVLESGTKEoooooooo
>C48
MAGRSGSTDEELLRAVRIIKILYQSNPYPSGEGSRQTRKNRRRRWRARQR
QIRAICERILSSCVGRSTEPVPLQLPPLERLQLGCSEDCGTSGTQNSPGT
ETGVGRPQISGESSVILGSGTKNo
>C49
MAGRSGSTDEELLKAVRIIKILYQSNPYPPAEGSRQTRKNRRRRWRARQR
QISALSERILSTCVGRSAEPVPLQLPPLERLHLTCSEDCGTSGTQQSQGT
ETGVGRPQISGESSVLLGTGTKNo
>C50
MAGRSGDSDEELLKTVRLIKFLYQSNPPPSQEGTRQARRNRRRRWRERQR
QIRTISGWILSNYLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQGVGNP
QIFVESSTVLESGTKEoooooooo
PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
-full_log S [0]
-genepred_score S [0] nsd
-run_name S [0]
-mem_mode S [0] mem
-extend D [1] 1
-extend_mode S [0] very_fast_triplet
-max_n_pair D [0] 10
-seq_name_for_quadruplet S [0] all
-compact S [0] default
-clean S [0] no
-do_self FL [0] 0
-do_normalise D [0] 1000
-template_file S [0]
-setenv S [0] 0
-template_mode S [0]
-flip D [0] 0
-remove_template_file D [0] 0
-profile_template_file S [0]
-in S [0]
-seq S [0]
-aln S [0]
-method_limits S [0]
-method S [0]
-lib S [0]
-profile S [0]
-profile1 S [0]
-profile2 S [0]
-pdb S [0]
-relax_lib D [0] 1
-filter_lib D [0] 0
-shrink_lib D [0] 0
-out_lib W_F [0] no
-out_lib_mode S [0] primary
-lib_only D [0] 0
-outseqweight W_F [0] no
-dpa FL [0] 0
-seq_source S [0] ANY
-cosmetic_penalty D [0] 0
-gapopen D [0] 0
-gapext D [0] 0
-fgapopen D [0] 0
-fgapext D [0] 0
-nomatch D [0] 0
-newtree W_F [0] default
-tree W_F [0] NO
-usetree R_F [0]
-tree_mode S [0] nj
-distance_matrix_mode S [0] ktup
-distance_matrix_sim_mode S [0] idmat_sim1
-quicktree FL [0] 0
-outfile W_F [0] default
-maximise FL [1] 1
-output S [1] score_ascii html score_ascii
-len D [0] 0
-infile R_F [1] input.prot.fasta.muscle_rs_0_0.fasta.aln
-matrix S [0] default
-tg_mode D [0] 1
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-dp_mode S [0] linked_pair_wise
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-ndiag D [0] 0
-diag_threshold D [0] 0
-diag_mode D [0] 0
-sim_matrix S [0] vasiliky
-transform S [0]
-extend_seq FL [0] 0
-outorder S [0] input
-inorder S [0] aligned
-seqnos S [0] off
-case S [0] keep
-cpu D [0] 0
-maxnseq D [0] 1000
-maxlen D [0] -1
-sample_dp D [0] 0
-weight S [0] default
-seq_weight S [0] no
-align FL [1] 1
-mocca FL [0] 0
-domain FL [0] 0
-start D [0] 0
-len D [0] 0
-scale D [0] 0
-mocca_interactive FL [0] 0
-method_evaluate_mode S [0] default
-evaluate_mode S [1] t_coffee_fast
-get_type FL [0] 0
-clean_aln D [0] 0
-clean_threshold D [1] 1
-clean_iteration D [1] 1
-clean_evaluate_mode S [0] t_coffee_fast
-extend_matrix FL [0] 0
-prot_min_sim D [40] 40
-prot_max_sim D [90] 90
-prot_min_cov D [40] 40
-pdb_type S [0] d
-pdb_min_sim D [35] 35
-pdb_max_sim D [100] 100
-pdb_min_cov D [50] 50
-pdb_blast_server W_F [0] EBI
-blast W_F [0]
-blast_server W_F [0] EBI
-pdb_db W_F [0] pdb
-protein_db W_F [0] uniprot
-method_log W_F [0] no
-struc_to_use S [0]
-cache W_F [0] use
-align_pdb_param_file W_F [0] no
-align_pdb_hasch_mode W_F [0] hasch_ca_trace_bubble
-external_aligner S [0] NO
-msa_mode S [0] tree
-master S [0] no
-blast_nseq D [0] 0
-lalign_n_top D [0] 10
-iterate D [1] 0
-trim D [0] 0
-split D [0] 0
-trimfile S [0] default
-split D [0] 0
-split_nseq_thres D [0] 0
-split_score_thres D [0] 0
-check_pdb_status D [0] 0
-clean_seq_name D [0] 0
-seq_to_keep S [0]
-dpa_master_aln S [0]
-dpa_maxnseq D [0] 0
-dpa_min_score1 D [0]
-dpa_min_score2 D [0]
-dpa_keep_tmpfile FL [0] 0
-dpa_debug D [0] 0
-multi_core S [0] templates_jobs_relax_msa_evaluate
-n_core D [0] 0
-max_n_proc D [0] 0
-lib_list S [0]
-prune_lib_mode S [0] 5
-tip S [0] none
-rna_lib S [0]
-no_warning D [0] 0
-run_local_script D [0] 0
-plugins S [0] default
-proxy S [0] unset
-email S [0]
-clean_overaln D [0] 0
-overaln_param S [0]
-overaln_mode S [0]
-overaln_model S [0]
-overaln_threshold D [0] 0
-overaln_target D [0] 0
-overaln_P1 D [0] 0
-overaln_P2 D [0] 0
-overaln_P3 D [0] 0
-overaln_P4 D [0] 0
-exon_boundaries S [0]
-dump S [0] no
-display D [0] 100
INPUT FILES
Input File (S) input.prot.fasta.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: [461012]
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: [461012]
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: [461012]
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: [461012]
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: [461012]
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: [461012]
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: [461012]
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: [461012]
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: [461012]
Library Relaxation: Multi_proc [8]
Relaxation Summary: [461012]--->[391566]
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= 31.860 Mb, Max= 41.747 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 MAGRSDSDEELLKTIRIIKFLYQSNPLPKPEGRQAEPVPLQLPPLERLTL
C2 MAGRSDSDAELLTAVRIIKILYQSNPPPKPRGRQAEPVPLQLPPLERLHL
C3 MAGRSDSDEELLKAVRIIKLLYQSNPPPKPEGRQAEPVPLQLPPLERLTL
C4 MAGRRDSDEELLKTVKLIKLLYQSNPLPNPEGRQAEPVPLQLPPLERLTL
C5 MAGRSSTDEELLRAVRTIRILYQSNPFPSSEGRQAEPVPLQLPPLERLHL
C6 MAGRSSTDEELLRAVRIIKILYQSNPFPSSEGRQTEPVPLLLPPIERLHI
C7 MAGRSDADEELLRAVRIIKILYQSNPYPPREGRQAEPVPLQLPPIERLSL
C8 MAGRSDNDEELLRAVRVIKILYQSNPPPSAEGRQAEPVPLQLPPLERLSL
C9 MAGRSDGDEDLLTTVRVIKFLYQSNPPPSSQGRQAEPVPLQLPSLERLTL
C10 MAGRSDSDEELLKTVRFIKLLYQSNPPPSPEGRQAEPVPFQLPPLERLTL
C11 MAGRSDSDEDLLQTVRIIKFLYQSNPPPRPEGRQAEPVPLQLPPLEGLTL
C12 MAGRSDSDEELLKAIRIIKILYKSNPYPKPRGRQAEPVPLQLPPIERLCL
C13 MAGRSDSDEELLRAVRLIKSLYQSNPPPNPEGRQAEPVPLQLPPLERLTL
C14 MAGRSNTDEDLLRAVRIIKILYQSNPSPPPEGRQAEPVPLQLPPLERLNL
C15 MAGRSDSDEELLRTIRLIKILYQSNPLPSPEGRQAEPVPLQLPPLERLNL
C16 MAGRSDSDEDLLKAVRLIKFLYQSNPPPSPEGRQAEPVPLQLPPLERLNL
C17 MAGRSDSDEELLKTVRLIKFLYRSNPPPSPEGRQAEPVPLQLPPLDRLTL
C18 MAGRSDSDGELLQTVRIIKLLYQSNPPPKPEGRQAEPVPFQLPPLERLTL
C19 MAGREDNDEELIRAVRIIKILYQSNPYPEHRGRQAGPVDLQLPPLERLHI
C20 MAGRSDSDEELLRAVRIIKILYQSNPYPRPKGRQAEPVPLQLPSLETLHL
C21 MAGRSDNDVELLKTVRLIKFLYQSNPPPSPEGRQAEPVPLQLPPLERLTL
C22 MAGRSDSDEALLQAVKIIKILYQSNPYPKPEGRQAEPVPFLLPPIERLHI
C23 MAGRSDSDAALLQAVQIIKILYQSNPYPNPEGRQAEPVPFQLPPIERLHI
C24 MAGRRDNDEELIKAVRLIKFLYQSNPLPSPEGRQAEPVPLQLPPLERLTL
C25 MAGRSDNDEELIKTVRLIRLLYQSNPPPSTEGRRAEPVPLPLPPLERLTL
C26 MAGRSTTDEDLLKTVRIIKILYQSNPYPDPTGRQAEPVPLQLPPIEKLSL
C27 MAGRSDSDEELLKTVRIIKFLYQSNPPPSPEGRQAEPVPLQLPPLERLTL
C28 MAGRRDSDEELIKTVKLIKLLYQSNPPPNPEGRQAEPVPLQLPPLERLTL
C29 MAGRSESDKELLKVIQIIKILYQSNPLPSPEGRSAEPVPFQLPPIERLHL
C30 MAGRSDSDEELLRTVRLIKLIYQSNPPPKLEGRQAEPVPLQLPPLERLTL
C31 MAGRSDSDEQLLLTVRLIKDLYQSNPPPSSEGRRAEPVPLQLPPLERLTL
C32 MAGRSDSDEELLKTVRLIKVLYQSNPPPSSEGRQAEPVPLQLPPLERLTL
C33 MAGRSDSDEDLLQAVRLIKFLYQSNPPPSPEGRQAEPVPLQLPPLERLTL
C34 MAGRSSTDEELLRVVRAVRILYQSNPYPSSEGRQAEPVPLQLPPLERLQL
C35 MAGRSDSDEKLLQTVRIIKILYQSNPYPKPEGRQAEPVPLQLPPIERLTL
C36 MAGRSSTDEELLRAVRIIKILHESNPYPSAEGRQAEPVPLQLPPLERLTL
C37 MAGRSSTDEDLLRAVRIIKILYQSNPYPSTEGRQTEPVPFLLPPIERLHL
C38 MAGRSDSDEDLLRAVRLIKFLYQSNPPPSPEGRQAEPVPLQLPPIERLNL
C39 MAGRSDSDEELLKTVRLIKFLYQSNPLPSPEGRQAEPVPFQLPPLERLTL
C40 MAGRSNSDEKLLKVARIIKFLHQSNPPPSTEGRRAEPAPLQLPPLDRLTL
C41 MAGRSDSDEALLQAVRIIKILYQSNPYPSSEDRQAEHVPLQLPPLERRTL
C42 MAGRSSTDEDLLRAVRIIKILYQSNPYPPAEGRQTEPVPLQLPPLERLTL
C43 MAGRSDSDEELLKVIRTIKILYQSNPYPKPTGRQAEPVPLQLPPLERLHI
C44 MAGRSDRDEDLLKTVRLIKTLYQSNPLPSPEGRQAEPVPLQLPPLERLTL
C45 MAGRSDSDEELLKIVRLIKQLYQSNPLPSPEGRQAEPVPLQLPPIERLTL
C46 MAGRSDSDEALLQAVRIIKILYQSNPYPEPKGRQAEPVPLQLPPIERLHI
C47 MAGRSDSDDELIKTVQLIKQIYQSNPPPSSEGRQAEPVPLPLPPLERLTL
C48 MAGRSSTDEELLRAVRIIKILYQSNPYPSGEGRQTEPVPLQLPPLERLQL
C49 MAGRSSTDEELLKAVRIIKILYQSNPYPPAEGRQTEPVPLQLPPLERLHL
C50 MAGRSDSDEELLKTVRLIKFLYQSNPPPSQEGRQAEPVPLQLPPLERLTL
**** * *: : :: ::.*** * .* : . : **.:: :
C1 DCSEECGTSGTQGVGSPQILLESPAVLESGTKE
C2 DCSEDCGTSGTQGVGRPQVPVESPAVLGSGTKN
C3 DCNKDCGTSGTKGVGDPQVLVESPAVLESGIKE
C4 DCSKDCGTSGTQGVGSPQILVESPAVLDSGTKE
C5 DCNEDSGTSGTLGVGRPQISGESSVILGTGTKN
C6 DCSEDCGTSGTQGVGRPQISGESSVILGPGAKN
C7 DCREDCGTSGTQGVGSPoooooooooooooooo
C8 DSGEDCGTSGTQRVGGPQISGESSGVLGTGAKN
C9 DCNEDCGTSGTQGVGNPQMLVESPTILESGTKE
C10 DCDEDCGTSGTQGVGNPQILVEHHPVLEPGTKE
C11 DCNEDCGNSGTQGVGTSQVLVESPAILDSGTKE
C12 DCNENGGNSGTQGVGSPQISGESSIILGSGTKE
C13 DCNEDCGTSGTQGVGSPQILVESPTVLESGTKE
C14 GSSEDCGTSGTQGVERPQISGESSVILGPGTKN
C15 NCNEDCGTSGTQGVGSHQISVESPAVLESGTED
C16 NCNENCGTSGTQGVGSHQISVESPKILDSGTKE
C17 DCSEDCGNSGTQGVGSSQVLLESPAILESGTKE
C18 DCNEDCGTSGTQGVGSPQVLVESPTILESGTKE
C19 TDSESGGTSGTEGVGSPoooooooooooooooo
C20 DCHDDCGTSGTQGVGRPQVPGEPSTVLGSGTKT
C21 DCNEDCGTSGTQGVGNPQILVESPTVLESGAKE
C22 DCSESGGSSGTQGVGSPoooooooooooooooo
C23 GDSESAGTSGTQGVGSPoooooooooooooooo
C24 DCDTDCGTSGAQGVGSPQILVEPPAVLDSGTKE
C25 DCSEDCGTCGTQGVGSPQVLVESPTVLESGTKE
C26 NCSEDCGTSGDKGVGSPQIPVEPPAVLGTGAKE
C27 DCNEDCGTSGTQGVGSPQILVESPTILEAGTKE
C28 DCNEDCGTSGTQGVGSSQILVEHPAVLDSGTKE
C29 DCSEDCGTSGTQGVGRPQVSGESSVILGSGTKD
C30 DCSEDCGTSGTQGVGSPQILVESPAVLGSGTKE
C31 DCSEDLGTSGSQGVGSPQILVESPTVLESGTKE
C32 ACEEGCGTSGTQGVGNPQVLVESPAVLESGTKE
C33 DCSEDCGTAGTQGVGSPEILVESPAVLESGTKE
C34 DCSEGCGTSGTQGVGRPQISGESSGILGTGTKN
C35 DCSEDCGTSGTQGVGRPQVSVESSAILGSGTKD
C36 DCNEDCGTSGTQGVGRPQISVESSVILGTGAKN
C37 DCSEDCGTSGIQGVGRSQISGEPSGILDPGTKN
C38 DCSEDCGTSGTQGVGSPQVLGESPAILDSGTKE
C39 DCNEDCGTSGTQGVGNPQNSVESPAVLEPGTKE
C40 DCSEDCGDSGTQRVGSSQVLLESPAILESGTKE
C41 DCSENPEPSGTEEVGNHQVPGKHCPILEHRAKK
C42 DCSEDCGTSGTQGVGRPQISGESSVILGPGTKN
C43 NCSEDCGQGTEEGVGSPQTSGESRALLESGTKE
C44 DCSKDCGTSGTQGVGSPQILVESPTVLDSGTKE
C45 DCNKDCGTSETQGVGTPQVFVESSTVLASGAKE
C46 GGSESGGTSGTQQLGSPQISGKPCAVLGSGAKK
C47 DCSEGCGTCGTQGVGTPQVLVESPTVLESGTKE
C48 GCSEDCGTSGTQGVGRPQISGESSVILGSGTKN
C49 TCSEDCGTSGTQGVGRPQISGESSVLLGTGTKN
C50 DCNEDCGTSGTQGVGNPQIFVESSTVLESGTKE
:
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:91 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 78.63 C1 C2 78.63
TOP 1 0 78.63 C2 C1 78.63
BOT 0 2 80.49 C1 C3 80.49
TOP 2 0 80.49 C3 C1 80.49
BOT 0 3 82.26 C1 C4 82.26
TOP 3 0 82.26 C4 C1 82.26
BOT 0 4 70.09 C1 C5 70.09
TOP 4 0 70.09 C5 C1 70.09
BOT 0 5 71.55 C1 C6 71.55
TOP 5 0 71.55 C6 C1 71.55
BOT 0 6 64.96 C1 C7 64.96
TOP 6 0 64.96 C7 C1 64.96
BOT 0 7 70.09 C1 C8 70.09
TOP 7 0 70.09 C8 C1 70.09
BOT 0 8 80.65 C1 C9 80.65
TOP 8 0 80.65 C9 C1 80.65
BOT 0 9 81.45 C1 C10 81.45
TOP 9 0 81.45 C10 C1 81.45
BOT 0 10 81.45 C1 C11 81.45
TOP 10 0 81.45 C11 C1 81.45
BOT 0 11 77.78 C1 C12 77.78
TOP 11 0 77.78 C12 C1 77.78
BOT 0 12 83.87 C1 C13 83.87
TOP 12 0 83.87 C13 C1 83.87
BOT 0 13 71.79 C1 C14 71.79
TOP 13 0 71.79 C14 C1 71.79
BOT 0 14 82.26 C1 C15 82.26
TOP 14 0 82.26 C15 C1 82.26
BOT 0 15 80.65 C1 C16 80.65
TOP 15 0 80.65 C16 C1 80.65
BOT 0 16 83.06 C1 C17 83.06
TOP 16 0 83.06 C17 C1 83.06
BOT 0 17 82.26 C1 C18 82.26
TOP 17 0 82.26 C18 C1 82.26
BOT 0 18 60.98 C1 C19 60.98
TOP 18 0 60.98 C19 C1 60.98
BOT 0 19 70.94 C1 C20 70.94
TOP 19 0 70.94 C20 C1 70.94
BOT 0 20 83.06 C1 C21 83.06
TOP 20 0 83.06 C21 C1 83.06
BOT 0 21 66.67 C1 C22 66.67
TOP 21 0 66.67 C22 C1 66.67
BOT 0 22 63.25 C1 C23 63.25
TOP 22 0 63.25 C23 C1 63.25
BOT 0 23 79.84 C1 C24 79.84
TOP 23 0 79.84 C24 C1 79.84
BOT 0 24 80.49 C1 C25 80.49
TOP 24 0 80.49 C25 C1 80.49
BOT 0 25 75.81 C1 C26 75.81
TOP 25 0 75.81 C26 C1 75.81
BOT 0 26 85.48 C1 C27 85.48
TOP 26 0 85.48 C27 C1 85.48
BOT 0 27 79.03 C1 C28 79.03
TOP 27 0 79.03 C28 C1 79.03
BOT 0 28 73.50 C1 C29 73.50
TOP 28 0 73.50 C29 C1 73.50
BOT 0 29 84.68 C1 C30 84.68
TOP 29 0 84.68 C30 C1 84.68
BOT 0 30 80.65 C1 C31 80.65
TOP 30 0 80.65 C31 C1 80.65
BOT 0 31 83.87 C1 C32 83.87
TOP 31 0 83.87 C32 C1 83.87
BOT 0 32 83.87 C1 C33 83.87
TOP 32 0 83.87 C33 C1 83.87
BOT 0 33 70.09 C1 C34 70.09
TOP 33 0 70.09 C34 C1 70.09
BOT 0 34 78.63 C1 C35 78.63
TOP 34 0 78.63 C35 C1 78.63
BOT 0 35 70.09 C1 C36 70.09
TOP 35 0 70.09 C36 C1 70.09
BOT 0 36 66.38 C1 C37 66.38
TOP 36 0 66.38 C37 C1 66.38
BOT 0 37 80.65 C1 C38 80.65
TOP 37 0 80.65 C38 C1 80.65
BOT 0 38 84.68 C1 C39 84.68
TOP 38 0 84.68 C39 C1 84.68
BOT 0 39 79.03 C1 C40 79.03
TOP 39 0 79.03 C40 C1 79.03
BOT 0 40 65.22 C1 C41 65.22
TOP 40 0 65.22 C41 C1 65.22
BOT 0 41 72.65 C1 C42 72.65
TOP 41 0 72.65 C42 C1 72.65
BOT 0 42 78.23 C1 C43 78.23
TOP 42 0 78.23 C43 C1 78.23
BOT 0 43 83.06 C1 C44 83.06
TOP 43 0 83.06 C44 C1 83.06
BOT 0 44 78.23 C1 C45 78.23
TOP 44 0 78.23 C45 C1 78.23
BOT 0 45 71.77 C1 C46 71.77
TOP 45 0 71.77 C46 C1 71.77
BOT 0 46 79.84 C1 C47 79.84
TOP 46 0 79.84 C47 C1 79.84
BOT 0 47 70.09 C1 C48 70.09
TOP 47 0 70.09 C48 C1 70.09
BOT 0 48 70.94 C1 C49 70.94
TOP 48 0 70.94 C49 C1 70.94
BOT 0 49 83.06 C1 C50 83.06
TOP 49 0 83.06 C50 C1 83.06
BOT 1 2 76.07 C2 C3 76.07
TOP 2 1 76.07 C3 C2 76.07
BOT 1 3 78.63 C2 C4 78.63
TOP 3 1 78.63 C4 C2 78.63
BOT 1 4 78.23 C2 C5 78.23
TOP 4 1 78.23 C5 C2 78.23
BOT 1 5 80.49 C2 C6 80.49
TOP 5 1 80.49 C6 C2 80.49
BOT 1 6 71.77 C2 C7 71.77
TOP 6 1 71.77 C7 C2 71.77
BOT 1 7 78.23 C2 C8 78.23
TOP 7 1 78.23 C8 C2 78.23
BOT 1 8 77.78 C2 C9 77.78
TOP 8 1 77.78 C9 C2 77.78
BOT 1 9 75.21 C2 C10 75.21
TOP 9 1 75.21 C10 C2 75.21
BOT 1 10 78.63 C2 C11 78.63
TOP 10 1 78.63 C11 C2 78.63
BOT 1 11 81.45 C2 C12 81.45
TOP 11 1 81.45 C12 C2 81.45
BOT 1 12 82.05 C2 C13 82.05
TOP 12 1 82.05 C13 C2 82.05
BOT 1 13 79.03 C2 C14 79.03
TOP 13 1 79.03 C14 C2 79.03
BOT 1 14 79.49 C2 C15 79.49
TOP 14 1 79.49 C15 C2 79.49
BOT 1 15 79.49 C2 C16 79.49
TOP 15 1 79.49 C16 C2 79.49
BOT 1 16 77.78 C2 C17 77.78
TOP 16 1 77.78 C17 C2 77.78
BOT 1 17 82.91 C2 C18 82.91
TOP 17 1 82.91 C18 C2 82.91
BOT 1 18 67.24 C2 C19 67.24
TOP 18 1 67.24 C19 C2 67.24
BOT 1 19 86.29 C2 C20 86.29
TOP 19 1 86.29 C20 C2 86.29
BOT 1 20 77.78 C2 C21 77.78
TOP 20 1 77.78 C21 C2 77.78
BOT 1 21 70.97 C2 C22 70.97
TOP 21 1 70.97 C22 C2 70.97
BOT 1 22 70.97 C2 C23 70.97
TOP 22 1 70.97 C23 C2 70.97
BOT 1 23 76.92 C2 C24 76.92
TOP 23 1 76.92 C24 C2 76.92
BOT 1 24 76.92 C2 C25 76.92
TOP 24 1 76.92 C25 C2 76.92
BOT 1 25 76.07 C2 C26 76.07
TOP 25 1 76.07 C26 C2 76.07
BOT 1 26 77.78 C2 C27 77.78
TOP 26 1 77.78 C27 C2 77.78
BOT 1 27 76.92 C2 C28 76.92
TOP 27 1 76.92 C28 C2 76.92
BOT 1 28 78.23 C2 C29 78.23
TOP 28 1 78.23 C29 C2 78.23
BOT 1 29 80.34 C2 C30 80.34
TOP 29 1 80.34 C30 C2 80.34
BOT 1 30 76.92 C2 C31 76.92
TOP 30 1 76.92 C31 C2 76.92
BOT 1 31 79.49 C2 C32 79.49
TOP 31 1 79.49 C32 C2 79.49
BOT 1 32 78.63 C2 C33 78.63
TOP 32 1 78.63 C33 C2 78.63
BOT 1 33 79.84 C2 C34 79.84
TOP 33 1 79.84 C34 C2 79.84
BOT 1 34 87.10 C2 C35 87.10
TOP 34 1 87.10 C35 C2 87.10
BOT 1 35 76.61 C2 C36 76.61
TOP 35 1 76.61 C36 C2 76.61
BOT 1 36 73.98 C2 C37 73.98
TOP 36 1 73.98 C37 C2 73.98
BOT 1 37 80.34 C2 C38 80.34
TOP 37 1 80.34 C38 C2 80.34
BOT 1 38 77.78 C2 C39 77.78
TOP 38 1 77.78 C39 C2 77.78
BOT 1 39 71.79 C2 C40 71.79
TOP 39 1 71.79 C40 C2 71.79
BOT 1 40 63.53 C2 C41 63.53
TOP 40 1 63.53 C41 C2 63.53
BOT 1 41 80.65 C2 C42 80.65
TOP 41 1 80.65 C42 C2 80.65
BOT 1 42 74.36 C2 C43 74.36
TOP 42 1 74.36 C43 C2 74.36
BOT 1 43 74.36 C2 C44 74.36
TOP 43 1 74.36 C44 C2 74.36
BOT 1 44 77.78 C2 C45 77.78
TOP 44 1 77.78 C45 C2 77.78
BOT 1 45 77.78 C2 C46 77.78
TOP 45 1 77.78 C46 C2 77.78
BOT 1 46 75.21 C2 C47 75.21
TOP 46 1 75.21 C47 C2 75.21
BOT 1 47 79.03 C2 C48 79.03
TOP 47 1 79.03 C48 C2 79.03
BOT 1 48 80.65 C2 C49 80.65
TOP 48 1 80.65 C49 C2 80.65
BOT 1 49 77.78 C2 C50 77.78
TOP 49 1 77.78 C50 C2 77.78
BOT 2 3 76.42 C3 C4 76.42
TOP 3 2 76.42 C4 C3 76.42
BOT 2 4 66.67 C3 C5 66.67
TOP 4 2 66.67 C5 C3 66.67
BOT 2 5 66.38 C3 C6 66.38
TOP 5 2 66.38 C6 C3 66.38
BOT 2 6 61.54 C3 C7 61.54
TOP 6 2 61.54 C7 C3 61.54
BOT 2 7 67.52 C3 C8 67.52
TOP 7 2 67.52 C8 C3 67.52
BOT 2 8 76.42 C3 C9 76.42
TOP 8 2 76.42 C9 C3 76.42
BOT 2 9 78.86 C3 C10 78.86
TOP 9 2 78.86 C10 C3 78.86
BOT 2 10 78.05 C3 C11 78.05
TOP 10 2 78.05 C11 C3 78.05
BOT 2 11 70.09 C3 C12 70.09
TOP 11 2 70.09 C12 C3 70.09
BOT 2 12 81.30 C3 C13 81.30
TOP 12 2 81.30 C13 C3 81.30
BOT 2 13 65.81 C3 C14 65.81
TOP 13 2 65.81 C14 C3 65.81
BOT 2 14 72.36 C3 C15 72.36
TOP 14 2 72.36 C15 C3 72.36
BOT 2 15 75.61 C3 C16 75.61
TOP 15 2 75.61 C16 C3 75.61
BOT 2 16 76.42 C3 C17 76.42
TOP 16 2 76.42 C17 C3 76.42
BOT 2 17 80.49 C3 C18 80.49
TOP 17 2 80.49 C18 C3 80.49
BOT 2 18 56.56 C3 C19 56.56
TOP 18 2 56.56 C19 C3 56.56
BOT 2 19 68.38 C3 C20 68.38
TOP 19 2 68.38 C20 C3 68.38
BOT 2 20 79.67 C3 C21 79.67
TOP 20 2 79.67 C21 C3 79.67
BOT 2 21 59.83 C3 C22 59.83
TOP 21 2 59.83 C22 C3 59.83
BOT 2 22 58.12 C3 C23 58.12
TOP 22 2 58.12 C23 C3 58.12
BOT 2 23 73.98 C3 C24 73.98
TOP 23 2 73.98 C24 C3 73.98
BOT 2 24 76.42 C3 C25 76.42
TOP 24 2 76.42 C25 C3 76.42
BOT 2 25 69.11 C3 C26 69.11
TOP 25 2 69.11 C26 C3 69.11
BOT 2 26 81.30 C3 C27 81.30
TOP 26 2 81.30 C27 C3 81.30
BOT 2 27 74.80 C3 C28 74.80
TOP 27 2 74.80 C28 C3 74.80
BOT 2 28 66.67 C3 C29 66.67
TOP 28 2 66.67 C29 C3 66.67
BOT 2 29 79.67 C3 C30 79.67
TOP 29 2 79.67 C30 C3 79.67
BOT 2 30 75.61 C3 C31 75.61
TOP 30 2 75.61 C31 C3 75.61
BOT 2 31 80.49 C3 C32 80.49
TOP 31 2 80.49 C32 C3 80.49
BOT 2 32 79.67 C3 C33 79.67
TOP 32 2 79.67 C33 C3 79.67
BOT 2 33 63.25 C3 C34 63.25
TOP 33 2 63.25 C34 C3 63.25
BOT 2 34 72.65 C3 C35 72.65
TOP 34 2 72.65 C35 C3 72.65
BOT 2 35 70.09 C3 C36 70.09
TOP 35 2 70.09 C36 C3 70.09
BOT 2 36 61.21 C3 C37 61.21
TOP 36 2 61.21 C37 C3 61.21
BOT 2 37 78.05 C3 C38 78.05
TOP 37 2 78.05 C38 C3 78.05
BOT 2 38 80.49 C3 C39 80.49
TOP 38 2 80.49 C39 C3 80.49
BOT 2 39 73.17 C3 C40 73.17
TOP 39 2 73.17 C40 C3 73.17
BOT 2 40 65.93 C3 C41 65.93
TOP 40 2 65.93 C41 C3 65.93
BOT 2 41 67.52 C3 C42 67.52
TOP 41 2 67.52 C42 C3 67.52
BOT 2 42 69.92 C3 C43 69.92
TOP 42 2 69.92 C43 C3 69.92
BOT 2 43 77.24 C3 C44 77.24
TOP 43 2 77.24 C44 C3 77.24
BOT 2 44 77.24 C3 C45 77.24
TOP 44 2 77.24 C45 C3 77.24
BOT 2 45 65.85 C3 C46 65.85
TOP 45 2 65.85 C46 C3 65.85
BOT 2 46 77.24 C3 C47 77.24
TOP 46 2 77.24 C47 C3 77.24
BOT 2 47 64.96 C3 C48 64.96
TOP 47 2 64.96 C48 C3 64.96
BOT 2 48 65.81 C3 C49 65.81
TOP 48 2 65.81 C49 C3 65.81
BOT 2 49 78.86 C3 C50 78.86
TOP 49 2 78.86 C50 C3 78.86
BOT 3 4 72.65 C4 C5 72.65
TOP 4 3 72.65 C5 C4 72.65
BOT 3 5 72.41 C4 C6 72.41
TOP 5 3 72.41 C6 C4 72.41
BOT 3 6 64.96 C4 C7 64.96
TOP 6 3 64.96 C7 C4 64.96
BOT 3 7 71.79 C4 C8 71.79
TOP 7 3 71.79 C8 C4 71.79
BOT 3 8 75.81 C4 C9 75.81
TOP 8 3 75.81 C9 C4 75.81
BOT 3 9 79.03 C4 C10 79.03
TOP 9 3 79.03 C10 C4 79.03
BOT 3 10 77.42 C4 C11 77.42
TOP 10 3 77.42 C11 C4 77.42
BOT 3 11 70.94 C4 C12 70.94
TOP 11 3 70.94 C12 C4 70.94
BOT 3 12 84.68 C4 C13 84.68
TOP 12 3 84.68 C13 C4 84.68
BOT 3 13 75.21 C4 C14 75.21
TOP 13 3 75.21 C14 C4 75.21
BOT 3 14 81.45 C4 C15 81.45
TOP 14 3 81.45 C15 C4 81.45
BOT 3 15 80.65 C4 C16 80.65
TOP 15 3 80.65 C16 C4 80.65
BOT 3 16 80.65 C4 C17 80.65
TOP 16 3 80.65 C17 C4 80.65
BOT 3 17 82.26 C4 C18 82.26
TOP 17 3 82.26 C18 C4 82.26
BOT 3 18 60.16 C4 C19 60.16
TOP 18 3 60.16 C19 C4 60.16
BOT 3 19 70.94 C4 C20 70.94
TOP 19 3 70.94 C20 C4 70.94
BOT 3 20 81.45 C4 C21 81.45
TOP 20 3 81.45 C21 C4 81.45
BOT 3 21 63.25 C4 C22 63.25
TOP 21 3 63.25 C22 C4 63.25
BOT 3 22 64.10 C4 C23 64.10
TOP 22 3 64.10 C23 C4 64.10
BOT 3 23 91.13 C4 C24 91.13
TOP 23 3 91.13 C24 C4 91.13
BOT 3 24 79.67 C4 C25 79.67
TOP 24 3 79.67 C25 C4 79.67
BOT 3 25 73.39 C4 C26 73.39
TOP 25 3 73.39 C26 C4 73.39
BOT 3 26 80.65 C4 C27 80.65
TOP 26 3 80.65 C27 C4 80.65
BOT 3 27 91.94 C4 C28 91.94
TOP 27 3 91.94 C28 C4 91.94
BOT 3 28 70.09 C4 C29 70.09
TOP 28 3 70.09 C29 C4 70.09
BOT 3 29 83.06 C4 C30 83.06
TOP 29 3 83.06 C30 C4 83.06
BOT 3 30 82.26 C4 C31 82.26
TOP 30 3 82.26 C31 C4 82.26
BOT 3 31 80.65 C4 C32 80.65
TOP 31 3 80.65 C32 C4 80.65
BOT 3 32 79.84 C4 C33 79.84
TOP 32 3 79.84 C33 C4 79.84
BOT 3 33 71.79 C4 C34 71.79
TOP 33 3 71.79 C34 C4 71.79
BOT 3 34 76.92 C4 C35 76.92
TOP 34 3 76.92 C35 C4 76.92
BOT 3 35 70.09 C4 C36 70.09
TOP 35 3 70.09 C36 C4 70.09
BOT 3 36 64.66 C4 C37 64.66
TOP 36 3 64.66 C37 C4 64.66
BOT 3 37 79.84 C4 C38 79.84
TOP 37 3 79.84 C38 C4 79.84
BOT 3 38 82.26 C4 C39 82.26
TOP 38 3 82.26 C39 C4 82.26
BOT 3 39 70.97 C4 C40 70.97
TOP 39 3 70.97 C40 C4 70.97
BOT 3 40 59.78 C4 C41 59.78
TOP 40 3 59.78 C41 C4 59.78
BOT 3 41 74.36 C4 C42 74.36
TOP 41 3 74.36 C42 C4 74.36
BOT 3 42 74.19 C4 C43 74.19
TOP 42 3 74.19 C43 C4 74.19
BOT 3 43 89.52 C4 C44 89.52
TOP 43 3 89.52 C44 C4 89.52
BOT 3 44 80.65 C4 C45 80.65
TOP 44 3 80.65 C45 C4 80.65
BOT 3 45 70.97 C4 C46 70.97
TOP 45 3 70.97 C46 C4 70.97
BOT 3 46 79.03 C4 C47 79.03
TOP 46 3 79.03 C47 C4 79.03
BOT 3 47 70.94 C4 C48 70.94
TOP 47 3 70.94 C48 C4 70.94
BOT 3 48 70.09 C4 C49 70.09
TOP 48 3 70.09 C49 C4 70.09
BOT 3 49 81.45 C4 C50 81.45
TOP 49 3 81.45 C50 C4 81.45
BOT 4 5 87.80 C5 C6 87.80
TOP 5 4 87.80 C6 C5 87.80
BOT 4 6 70.16 C5 C7 70.16
TOP 6 4 70.16 C7 C5 70.16
BOT 4 7 83.87 C5 C8 83.87
TOP 7 4 83.87 C8 C5 83.87
BOT 4 8 72.65 C5 C9 72.65
TOP 8 4 72.65 C9 C5 72.65
BOT 4 9 71.79 C5 C10 71.79
TOP 9 4 71.79 C10 C5 71.79
BOT 4 10 69.23 C5 C11 69.23
TOP 10 4 69.23 C11 C5 69.23
BOT 4 11 75.00 C5 C12 75.00
TOP 11 4 75.00 C12 C5 75.00
BOT 4 12 76.92 C5 C13 76.92
TOP 12 4 76.92 C13 C5 76.92
BOT 4 13 85.48 C5 C14 85.48
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TOP 42 27 70.97 C43 C28 70.97
BOT 27 43 83.87 C28 C44 83.87
TOP 43 27 83.87 C44 C28 83.87
BOT 27 44 77.42 C28 C45 77.42
TOP 44 27 77.42 C45 C28 77.42
BOT 27 45 69.35 C28 C46 69.35
TOP 45 27 69.35 C46 C28 69.35
BOT 27 46 78.23 C28 C47 78.23
TOP 46 27 78.23 C47 C28 78.23
BOT 27 47 68.38 C28 C48 68.38
TOP 47 27 68.38 C48 C28 68.38
BOT 27 48 67.52 C28 C49 67.52
TOP 48 27 67.52 C49 C28 67.52
BOT 27 49 81.45 C28 C50 81.45
TOP 49 27 81.45 C50 C28 81.45
BOT 28 29 69.23 C29 C30 69.23
TOP 29 28 69.23 C30 C29 69.23
BOT 28 30 68.38 C29 C31 68.38
TOP 30 28 68.38 C31 C29 68.38
BOT 28 31 71.79 C29 C32 71.79
TOP 31 28 71.79 C32 C29 71.79
BOT 28 32 68.38 C29 C33 68.38
TOP 32 28 68.38 C33 C29 68.38
BOT 28 33 75.81 C29 C34 75.81
TOP 33 28 75.81 C34 C29 75.81
BOT 28 34 83.06 C29 C35 83.06
TOP 34 28 83.06 C35 C29 83.06
BOT 28 35 74.19 C29 C36 74.19
TOP 35 28 74.19 C36 C29 74.19
BOT 28 36 73.98 C29 C37 73.98
TOP 36 28 73.98 C37 C29 73.98
BOT 28 37 74.36 C29 C38 74.36
TOP 37 28 74.36 C38 C29 74.36
BOT 28 38 74.36 C29 C39 74.36
TOP 38 28 74.36 C39 C29 74.36
BOT 28 39 70.09 C29 C40 70.09
TOP 39 28 70.09 C40 C29 70.09
BOT 28 40 58.82 C29 C41 58.82
TOP 40 28 58.82 C41 C29 58.82
BOT 28 41 76.61 C29 C42 76.61
TOP 41 28 76.61 C42 C29 76.61
BOT 28 42 70.94 C29 C43 70.94
TOP 42 28 70.94 C43 C29 70.94
BOT 28 43 68.38 C29 C44 68.38
TOP 43 28 68.38 C44 C29 68.38
BOT 28 44 74.36 C29 C45 74.36
TOP 44 28 74.36 C45 C29 74.36
BOT 28 45 70.09 C29 C46 70.09
TOP 45 28 70.09 C46 C29 70.09
BOT 28 46 68.38 C29 C47 68.38
TOP 46 28 68.38 C47 C29 68.38
BOT 28 47 75.00 C29 C48 75.00
TOP 47 28 75.00 C48 C29 75.00
BOT 28 48 75.81 C29 C49 75.81
TOP 48 28 75.81 C49 C29 75.81
BOT 28 49 70.94 C29 C50 70.94
TOP 49 28 70.94 C50 C29 70.94
BOT 29 30 84.68 C30 C31 84.68
TOP 30 29 84.68 C31 C30 84.68
BOT 29 31 87.10 C30 C32 87.10
TOP 31 29 87.10 C32 C30 87.10
BOT 29 32 84.68 C30 C33 84.68
TOP 32 29 84.68 C33 C30 84.68
BOT 29 33 73.50 C30 C34 73.50
TOP 33 29 73.50 C34 C30 73.50
BOT 29 34 79.49 C30 C35 79.49
TOP 34 29 79.49 C35 C30 79.49
BOT 29 35 73.50 C30 C36 73.50
TOP 35 29 73.50 C36 C30 73.50
BOT 29 36 66.38 C30 C37 66.38
TOP 36 29 66.38 C37 C30 66.38
BOT 29 37 84.68 C30 C38 84.68
TOP 37 29 84.68 C38 C30 84.68
BOT 29 38 82.26 C30 C39 82.26
TOP 38 29 82.26 C39 C30 82.26
BOT 29 39 79.03 C30 C40 79.03
TOP 39 29 79.03 C40 C30 79.03
BOT 29 40 63.04 C30 C41 63.04
TOP 40 29 63.04 C41 C30 63.04
BOT 29 41 75.21 C30 C42 75.21
TOP 41 29 75.21 C42 C30 75.21
BOT 29 42 75.81 C30 C43 75.81
TOP 42 29 75.81 C43 C30 75.81
BOT 29 43 84.68 C30 C44 84.68
TOP 43 29 84.68 C44 C30 84.68
BOT 29 44 78.23 C30 C45 78.23
TOP 44 29 78.23 C45 C30 78.23
BOT 29 45 70.97 C30 C46 70.97
TOP 45 29 70.97 C46 C30 70.97
BOT 29 46 84.68 C30 C47 84.68
TOP 46 29 84.68 C47 C30 84.68
BOT 29 47 72.65 C30 C48 72.65
TOP 47 29 72.65 C48 C30 72.65
BOT 29 48 71.79 C30 C49 71.79
TOP 48 29 71.79 C49 C30 71.79
BOT 29 49 89.52 C30 C50 89.52
TOP 49 29 89.52 C50 C30 89.52
BOT 30 31 84.68 C31 C32 84.68
TOP 31 30 84.68 C32 C31 84.68
BOT 30 32 83.87 C31 C33 83.87
TOP 32 30 83.87 C33 C31 83.87
BOT 30 33 71.79 C31 C34 71.79
TOP 33 30 71.79 C34 C31 71.79
BOT 30 34 76.07 C31 C35 76.07
TOP 34 30 76.07 C35 C31 76.07
BOT 30 35 70.94 C31 C36 70.94
TOP 35 30 70.94 C36 C31 70.94
BOT 30 36 67.24 C31 C37 67.24
TOP 36 30 67.24 C37 C31 67.24
BOT 30 37 83.06 C31 C38 83.06
TOP 37 30 83.06 C38 C31 83.06
BOT 30 38 82.26 C31 C39 82.26
TOP 38 30 82.26 C39 C31 82.26
BOT 30 39 75.81 C31 C40 75.81
TOP 39 30 75.81 C40 C31 75.81
BOT 30 40 65.22 C31 C41 65.22
TOP 40 30 65.22 C41 C31 65.22
BOT 30 41 75.21 C31 C42 75.21
TOP 41 30 75.21 C42 C31 75.21
BOT 30 42 74.19 C31 C43 74.19
TOP 42 30 74.19 C43 C31 74.19
BOT 30 43 84.68 C31 C44 84.68
TOP 43 30 84.68 C44 C31 84.68
BOT 30 44 79.84 C31 C45 79.84
TOP 44 30 79.84 C45 C31 79.84
BOT 30 45 70.16 C31 C46 70.16
TOP 45 30 70.16 C46 C31 70.16
BOT 30 46 82.26 C31 C47 82.26
TOP 46 30 82.26 C47 C31 82.26
BOT 30 47 71.79 C31 C48 71.79
TOP 47 30 71.79 C48 C31 71.79
BOT 30 48 70.09 C31 C49 70.09
TOP 48 30 70.09 C49 C31 70.09
BOT 30 49 86.29 C31 C50 86.29
TOP 49 30 86.29 C50 C31 86.29
BOT 31 32 85.48 C32 C33 85.48
TOP 32 31 85.48 C33 C32 85.48
BOT 31 33 73.50 C32 C34 73.50
TOP 33 31 73.50 C34 C32 73.50
BOT 31 34 79.49 C32 C35 79.49
TOP 34 31 79.49 C35 C32 79.49
BOT 31 35 70.09 C32 C36 70.09
TOP 35 31 70.09 C36 C32 70.09
BOT 31 36 63.79 C32 C37 63.79
TOP 36 31 63.79 C37 C32 63.79
BOT 31 37 84.68 C32 C38 84.68
TOP 37 31 84.68 C38 C32 84.68
BOT 31 38 87.10 C32 C39 87.10
TOP 38 31 87.10 C39 C32 87.10
BOT 31 39 78.23 C32 C40 78.23
TOP 39 31 78.23 C40 C32 78.23
BOT 31 40 67.39 C32 C41 67.39
TOP 40 31 67.39 C41 C32 67.39
BOT 31 41 72.65 C32 C42 72.65
TOP 41 31 72.65 C42 C32 72.65
BOT 31 42 73.39 C32 C43 73.39
TOP 42 31 73.39 C43 C32 73.39
BOT 31 43 82.26 C32 C44 82.26
TOP 43 31 82.26 C44 C32 82.26
BOT 31 44 81.45 C32 C45 81.45
TOP 44 31 81.45 C45 C32 81.45
BOT 31 45 70.97 C32 C46 70.97
TOP 45 31 70.97 C46 C32 70.97
BOT 31 46 85.48 C32 C47 85.48
TOP 46 31 85.48 C47 C32 85.48
BOT 31 47 70.94 C32 C48 70.94
TOP 47 31 70.94 C48 C32 70.94
BOT 31 48 71.79 C32 C49 71.79
TOP 48 31 71.79 C49 C32 71.79
BOT 31 49 89.52 C32 C50 89.52
TOP 49 31 89.52 C50 C32 89.52
BOT 32 33 70.09 C33 C34 70.09
TOP 33 32 70.09 C34 C33 70.09
BOT 32 34 77.78 C33 C35 77.78
TOP 34 32 77.78 C35 C33 77.78
BOT 32 35 70.09 C33 C36 70.09
TOP 35 32 70.09 C36 C33 70.09
BOT 32 36 67.24 C33 C37 67.24
TOP 36 32 67.24 C37 C33 67.24
BOT 32 37 87.10 C33 C38 87.10
TOP 37 32 87.10 C38 C33 87.10
BOT 32 38 83.06 C33 C39 83.06
TOP 38 32 83.06 C39 C33 83.06
BOT 32 39 76.61 C33 C40 76.61
TOP 39 32 76.61 C40 C33 76.61
BOT 32 40 66.30 C33 C41 66.30
TOP 40 32 66.30 C41 C33 66.30
BOT 32 41 74.36 C33 C42 74.36
TOP 41 32 74.36 C42 C33 74.36
BOT 32 42 72.58 C33 C43 72.58
TOP 42 32 72.58 C43 C33 72.58
BOT 32 43 83.06 C33 C44 83.06
TOP 43 32 83.06 C44 C33 83.06
BOT 32 44 77.42 C33 C45 77.42
TOP 44 32 77.42 C45 C33 77.42
BOT 32 45 72.58 C33 C46 72.58
TOP 45 32 72.58 C46 C33 72.58
BOT 32 46 80.65 C33 C47 80.65
TOP 46 32 80.65 C47 C33 80.65
BOT 32 47 70.94 C33 C48 70.94
TOP 47 32 70.94 C48 C33 70.94
BOT 32 48 71.79 C33 C49 71.79
TOP 48 32 71.79 C49 C33 71.79
BOT 32 49 84.68 C33 C50 84.68
TOP 49 32 84.68 C50 C33 84.68
BOT 33 34 81.45 C34 C35 81.45
TOP 34 33 81.45 C35 C34 81.45
BOT 33 35 82.26 C34 C36 82.26
TOP 35 33 82.26 C36 C34 82.26
BOT 33 36 79.67 C34 C37 79.67
TOP 36 33 79.67 C37 C34 79.67
BOT 33 37 74.36 C34 C38 74.36
TOP 37 33 74.36 C38 C34 74.36
BOT 33 38 71.79 C34 C39 71.79
TOP 38 33 71.79 C39 C34 71.79
BOT 33 39 66.67 C34 C40 66.67
TOP 39 33 66.67 C40 C34 66.67
BOT 33 40 62.35 C34 C41 62.35
TOP 40 33 62.35 C41 C34 62.35
BOT 33 41 86.29 C34 C42 86.29
TOP 41 33 86.29 C42 C34 86.29
BOT 33 42 70.09 C34 C43 70.09
TOP 42 33 70.09 C43 C34 70.09
BOT 33 43 70.09 C34 C44 70.09
TOP 43 33 70.09 C44 C34 70.09
BOT 33 44 71.79 C34 C45 71.79
TOP 44 33 71.79 C45 C34 71.79
BOT 33 45 70.94 C34 C46 70.94
TOP 45 33 70.94 C46 C34 70.94
BOT 33 46 70.09 C34 C47 70.09
TOP 46 33 70.09 C47 C34 70.09
BOT 33 47 85.48 C34 C48 85.48
TOP 47 33 85.48 C48 C34 85.48
BOT 33 48 84.68 C34 C49 84.68
TOP 48 33 84.68 C49 C34 84.68
BOT 33 49 74.36 C34 C50 74.36
TOP 49 33 74.36 C50 C34 74.36
BOT 34 35 78.23 C35 C36 78.23
TOP 35 34 78.23 C36 C35 78.23
BOT 34 36 77.24 C35 C37 77.24
TOP 36 34 77.24 C37 C35 77.24
BOT 34 37 79.49 C35 C38 79.49
TOP 37 34 79.49 C38 C35 79.49
BOT 34 38 77.78 C35 C39 77.78
TOP 38 34 77.78 C39 C35 77.78
BOT 34 39 71.79 C35 C40 71.79
TOP 39 34 71.79 C40 C35 71.79
BOT 34 40 67.06 C35 C41 67.06
TOP 40 34 67.06 C41 C35 67.06
BOT 34 41 83.06 C35 C42 83.06
TOP 41 34 83.06 C42 C35 83.06
BOT 34 42 74.36 C35 C43 74.36
TOP 42 34 74.36 C43 C35 74.36
BOT 34 43 74.36 C35 C44 74.36
TOP 43 34 74.36 C44 C35 74.36
BOT 34 44 79.49 C35 C45 79.49
TOP 44 34 79.49 C45 C35 79.49
BOT 34 45 78.63 C35 C46 78.63
TOP 45 34 78.63 C46 C35 78.63
BOT 34 46 71.79 C35 C47 71.79
TOP 46 34 71.79 C47 C35 71.79
BOT 34 47 80.65 C35 C48 80.65
TOP 47 34 80.65 C48 C35 80.65
BOT 34 48 81.45 C35 C49 81.45
TOP 48 34 81.45 C49 C35 81.45
BOT 34 49 78.63 C35 C50 78.63
TOP 49 34 78.63 C50 C35 78.63
BOT 35 36 78.86 C36 C37 78.86
TOP 36 35 78.86 C37 C36 78.86
BOT 35 37 72.65 C36 C38 72.65
TOP 37 35 72.65 C38 C36 72.65
BOT 35 38 72.65 C36 C39 72.65
TOP 38 35 72.65 C39 C36 72.65
BOT 35 39 67.52 C36 C40 67.52
TOP 39 35 67.52 C40 C36 67.52
BOT 35 40 63.53 C36 C41 63.53
TOP 40 35 63.53 C41 C36 63.53
BOT 35 41 85.48 C36 C42 85.48
TOP 41 35 85.48 C42 C36 85.48
BOT 35 42 67.52 C36 C43 67.52
TOP 42 35 67.52 C43 C36 67.52
BOT 35 43 70.09 C36 C44 70.09
TOP 43 35 70.09 C44 C36 70.09
BOT 35 44 73.50 C36 C45 73.50
TOP 44 35 73.50 C45 C36 73.50
BOT 35 45 69.23 C36 C46 69.23
TOP 45 35 69.23 C46 C36 69.23
BOT 35 46 67.52 C36 C47 67.52
TOP 46 35 67.52 C47 C36 67.52
BOT 35 47 84.68 C36 C48 84.68
TOP 47 35 84.68 C48 C36 84.68
BOT 35 48 83.06 C36 C49 83.06
TOP 48 35 83.06 C49 C36 83.06
BOT 35 49 75.21 C36 C50 75.21
TOP 49 35 75.21 C50 C36 75.21
BOT 36 37 72.41 C37 C38 72.41
TOP 37 36 72.41 C38 C37 72.41
BOT 36 38 68.97 C37 C39 68.97
TOP 38 36 68.97 C39 C37 68.97
BOT 36 39 62.93 C37 C40 62.93
TOP 39 36 62.93 C40 C37 62.93
BOT 36 40 60.71 C37 C41 60.71
TOP 40 36 60.71 C41 C37 60.71
BOT 36 41 84.55 C37 C42 84.55
TOP 41 36 84.55 C42 C37 84.55
BOT 36 42 65.52 C37 C43 65.52
TOP 42 36 65.52 C43 C37 65.52
BOT 36 43 67.24 C37 C44 67.24
TOP 43 36 67.24 C44 C37 67.24
BOT 36 44 67.24 C37 C45 67.24
TOP 44 36 67.24 C45 C37 67.24
BOT 36 45 69.83 C37 C46 69.83
TOP 45 36 69.83 C46 C37 69.83
BOT 36 46 62.07 C37 C47 62.07
TOP 46 36 62.07 C47 C37 62.07
BOT 36 47 83.74 C37 C48 83.74
TOP 47 36 83.74 C48 C37 83.74
BOT 36 48 85.37 C37 C49 85.37
TOP 48 36 85.37 C49 C37 85.37
BOT 36 49 67.24 C37 C50 67.24
TOP 49 36 67.24 C50 C37 67.24
BOT 37 38 82.26 C38 C39 82.26
TOP 38 37 82.26 C39 C38 82.26
BOT 37 39 80.65 C38 C40 80.65
TOP 39 37 80.65 C40 C38 80.65
BOT 37 40 67.39 C38 C41 67.39
TOP 40 37 67.39 C41 C38 67.39
BOT 37 41 78.63 C38 C42 78.63
TOP 41 37 78.63 C42 C38 78.63
BOT 37 42 72.58 C38 C43 72.58
TOP 42 37 72.58 C43 C38 72.58
BOT 37 43 82.26 C38 C44 82.26
TOP 43 37 82.26 C44 C38 82.26
BOT 37 44 79.84 C38 C45 79.84
TOP 44 37 79.84 C45 C38 79.84
BOT 37 45 74.19 C38 C46 74.19
TOP 45 37 74.19 C46 C38 74.19
BOT 37 46 79.03 C38 C47 79.03
TOP 46 37 79.03 C47 C38 79.03
BOT 37 47 75.21 C38 C48 75.21
TOP 47 37 75.21 C48 C38 75.21
BOT 37 48 71.79 C38 C49 71.79
TOP 48 37 71.79 C49 C38 71.79
BOT 37 49 82.26 C38 C50 82.26
TOP 49 37 82.26 C50 C38 82.26
BOT 38 39 75.00 C39 C40 75.00
TOP 39 38 75.00 C40 C39 75.00
BOT 38 40 65.22 C39 C41 65.22
TOP 40 38 65.22 C41 C39 65.22
BOT 38 41 74.36 C39 C42 74.36
TOP 41 38 74.36 C42 C39 74.36
BOT 38 42 74.19 C39 C43 74.19
TOP 42 38 74.19 C43 C39 74.19
BOT 38 43 83.06 C39 C44 83.06
TOP 43 38 83.06 C44 C39 83.06
BOT 38 44 83.87 C39 C45 83.87
TOP 44 38 83.87 C45 C39 83.87
BOT 38 45 69.35 C39 C46 69.35
TOP 45 38 69.35 C46 C39 69.35
BOT 38 46 79.84 C39 C47 79.84
TOP 46 38 79.84 C47 C39 79.84
BOT 38 47 70.94 C39 C48 70.94
TOP 47 38 70.94 C48 C39 70.94
BOT 38 48 70.94 C39 C49 70.94
TOP 48 38 70.94 C49 C39 70.94
BOT 38 49 87.90 C39 C50 87.90
TOP 49 38 87.90 C50 C39 87.90
BOT 39 40 63.04 C40 C41 63.04
TOP 40 39 63.04 C41 C40 63.04
BOT 39 41 68.38 C40 C42 68.38
TOP 41 39 68.38 C42 C40 68.38
BOT 39 42 69.35 C40 C43 69.35
TOP 42 39 69.35 C43 C40 69.35
BOT 39 43 74.19 C40 C44 74.19
TOP 43 39 74.19 C44 C40 74.19
BOT 39 44 70.16 C40 C45 70.16
TOP 44 39 70.16 C45 C40 70.16
BOT 39 45 64.52 C40 C46 64.52
TOP 45 39 64.52 C46 C40 64.52
BOT 39 46 74.19 C40 C47 74.19
TOP 46 39 74.19 C47 C40 74.19
BOT 39 47 65.81 C40 C48 65.81
TOP 47 39 65.81 C48 C40 65.81
BOT 39 48 63.25 C40 C49 63.25
TOP 48 39 63.25 C49 C40 63.25
BOT 39 49 77.42 C40 C50 77.42
TOP 49 39 77.42 C50 C40 77.42
BOT 40 41 64.71 C41 C42 64.71
TOP 41 40 64.71 C42 C41 64.71
BOT 40 42 60.87 C41 C43 60.87
TOP 42 40 60.87 C43 C41 60.87
BOT 40 43 61.96 C41 C44 61.96
TOP 43 40 61.96 C44 C41 61.96
BOT 40 44 63.04 C41 C45 63.04
TOP 44 40 63.04 C45 C41 63.04
BOT 40 45 68.48 C41 C46 68.48
TOP 45 40 68.48 C46 C41 68.48
BOT 40 46 61.96 C41 C47 61.96
TOP 46 40 61.96 C47 C41 61.96
BOT 40 47 63.53 C41 C48 63.53
TOP 47 40 63.53 C48 C41 63.53
BOT 40 48 61.18 C41 C49 61.18
TOP 48 40 61.18 C49 C41 61.18
BOT 40 49 66.30 C41 C50 66.30
TOP 49 40 66.30 C50 C41 66.30
BOT 41 42 70.09 C42 C43 70.09
TOP 42 41 70.09 C43 C42 70.09
BOT 41 43 74.36 C42 C44 74.36
TOP 43 41 74.36 C44 C42 74.36
BOT 41 44 72.65 C42 C45 72.65
TOP 44 41 72.65 C45 C42 72.65
BOT 41 45 73.50 C42 C46 73.50
TOP 45 41 73.50 C46 C42 73.50
BOT 41 46 70.09 C42 C47 70.09
TOP 46 41 70.09 C47 C42 70.09
BOT 41 47 87.90 C42 C48 87.90
TOP 47 41 87.90 C48 C42 87.90
BOT 41 48 88.71 C42 C49 88.71
TOP 48 41 88.71 C49 C42 88.71
BOT 41 49 76.07 C42 C50 76.07
TOP 49 41 76.07 C50 C42 76.07
BOT 42 43 72.58 C43 C44 72.58
TOP 43 42 72.58 C44 C43 72.58
BOT 42 44 71.77 C43 C45 71.77
TOP 44 42 71.77 C45 C43 71.77
BOT 42 45 71.77 C43 C46 71.77
TOP 45 42 71.77 C46 C43 71.77
BOT 42 46 70.16 C43 C47 70.16
TOP 46 42 70.16 C47 C43 70.16
BOT 42 47 70.09 C43 C48 70.09
TOP 47 42 70.09 C48 C43 70.09
BOT 42 48 71.79 C43 C49 71.79
TOP 48 42 71.79 C49 C43 71.79
BOT 42 49 75.00 C43 C50 75.00
TOP 49 42 75.00 C50 C43 75.00
BOT 43 44 81.45 C44 C45 81.45
TOP 44 43 81.45 C45 C44 81.45
BOT 43 45 67.74 C44 C46 67.74
TOP 45 43 67.74 C46 C44 67.74
BOT 43 46 82.26 C44 C47 82.26
TOP 46 43 82.26 C47 C44 82.26
BOT 43 47 69.23 C44 C48 69.23
TOP 47 43 69.23 C48 C44 69.23
BOT 43 48 68.38 C44 C49 68.38
TOP 48 43 68.38 C49 C44 68.38
BOT 43 49 84.68 C44 C50 84.68
TOP 49 43 84.68 C50 C44 84.68
BOT 44 45 71.77 C45 C46 71.77
TOP 45 44 71.77 C46 C45 71.77
BOT 44 46 78.23 C45 C47 78.23
TOP 46 44 78.23 C47 C45 78.23
BOT 44 47 70.94 C45 C48 70.94
TOP 47 44 70.94 C48 C45 70.94
BOT 44 48 70.94 C45 C49 70.94
TOP 48 44 70.94 C49 C45 70.94
BOT 44 49 84.68 C45 C50 84.68
TOP 49 44 84.68 C50 C45 84.68
BOT 45 46 64.52 C46 C47 64.52
TOP 46 45 64.52 C47 C46 64.52
BOT 45 47 72.65 C46 C48 72.65
TOP 47 45 72.65 C48 C46 72.65
BOT 45 48 73.50 C46 C49 73.50
TOP 48 45 73.50 C49 C46 73.50
BOT 45 49 69.35 C46 C50 69.35
TOP 49 45 69.35 C50 C46 69.35
BOT 46 47 66.67 C47 C48 66.67
TOP 47 46 66.67 C48 C47 66.67
BOT 46 48 64.96 C47 C49 64.96
TOP 48 46 64.96 C49 C47 64.96
BOT 46 49 84.68 C47 C50 84.68
TOP 49 46 84.68 C50 C47 84.68
BOT 47 48 88.71 C48 C49 88.71
TOP 48 47 88.71 C49 C48 88.71
BOT 47 49 74.36 C48 C50 74.36
TOP 49 47 74.36 C50 C48 74.36
BOT 48 49 73.50 C49 C50 73.50
TOP 49 48 73.50 C50 C49 73.50
AVG 0 C1 * 76.69
AVG 1 C2 * 77.47
AVG 2 C3 * 72.25
AVG 3 C4 * 76.07
AVG 4 C5 * 74.19
AVG 5 C6 * 74.87
AVG 6 C7 * 67.52
AVG 7 C8 * 73.31
AVG 8 C9 * 76.05
AVG 9 C10 * 75.57
AVG 10 C11 * 75.93
AVG 11 C12 * 73.42
AVG 12 C13 * 79.82
AVG 13 C14 * 73.98
AVG 14 C15 * 76.30
AVG 15 C16 * 77.86
AVG 16 C17 * 76.44
AVG 17 C18 * 78.38
AVG 18 C19 * 62.28
AVG 19 C20 * 72.48
AVG 20 C21 * 78.13
AVG 21 C22 * 65.84
AVG 22 C23 * 65.28
AVG 23 C24 * 75.20
AVG 24 C25 * 75.02
AVG 25 C26 * 72.07
AVG 26 C27 * 78.74
AVG 27 C28 * 74.91
AVG 28 C29 * 71.68
AVG 29 C30 * 77.94
AVG 30 C31 * 76.54
AVG 31 C32 * 77.56
AVG 32 C33 * 76.64
AVG 33 C34 * 73.75
AVG 34 C35 * 77.50
AVG 35 C36 * 73.50
AVG 36 C37 * 70.10
AVG 37 C38 * 77.84
AVG 38 C39 * 77.28
AVG 39 C40 * 70.93
AVG 40 C41 * 63.15
AVG 41 C42 * 75.82
AVG 42 C43 * 71.57
AVG 43 C44 * 76.05
AVG 44 C45 * 75.55
AVG 45 C46 * 71.33
AVG 46 C47 * 73.81
AVG 47 C48 * 73.61
AVG 48 C49 * 73.39
AVG 49 C50 * 78.73
TOT TOT * 74.21
CLUSTAL W (1.83) multiple sequence alignment
C1 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAATAAG
C2 ATGGCAGGAAGAAGCGGAGACAGCGACGCAGAACTCCTCACAGCAGTAAG
C3 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGGCAGTCAG
C4 ATGGCAGGAAGAAGAGAAGACAGCGACGAAGAGCTCCTCAAGACAGTCAA
C5 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
C6 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
C7 ATGGCAGGAAGAAGCGGAGACGCCGACGAGGAACTACTCAGAGCCGTCAG
C8 ATGGCAGGAAGAAGCGGAGACAACGACGAGGAACTCCTCAGAGCAGTAAG
C9 ATGGCAGGAAGAAGCGGAGACGGCGACGAAGACCTTCTCACGACAGTCAG
C10 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAGTAAG
C11 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGACCTCCTCCAAACAGTCAG
C12 ATGGCAGGAAGAAGCGGAGACAGCGACGAGGAACTCCTCAAAGCAATAAG
C13 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAGAGCAGTCAG
C14 ATGGCAGGAAGAAGCGGAAACACCGACGAGGACCTCCTCAGAGCAGTAAG
C15 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCCGGACGATCAG
C16 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGATCTCCTAAAGGCGGTCAG
C17 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAGACAGTGAG
C18 ATGGCAGGAAGAAGCGGGGACAGCGACGGAGAGCTCCTCCAGACAGTCAG
C19 ATGGCAGGAAGAGAA---GACAACGACGAAGAGCTCATCAGAGCAGTGAG
C20 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAGAGCAGTAAG
C21 ATGGCAGGAAGAAGCGGAGACAACGACGTAGAGCTCCTCAAGACCGTCAG
C22 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTTCAAGCAGTGAA
C23 ATGGCAGGAAGAAGCGGAGACAGCGACGCAGCGCTCCTCCAAGCAGTGCA
C24 ATGGCAGGAAGAAGAGAAGACAACGACGAAGAGCTCATCAAGGCAGTCAG
C25 ATGGCAGGAAGAAGCGGAGACAACGACGAGGAGCTGATCAAGACAGTCAG
C26 ATGGCAGGAAGAAGCGGAACCACCGACGAAGATCTCCTCAAGACAGTAAG
C27 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAAACAGTCAG
C28 ATGGCAGGAAGAAGAGAAGACAGCGACGAAGAGCTCATCAAGACAGTCAA
C29 ATGGCAGGAAGAAGCGGAGAAAGCGACAAAGAACTCCTCAAGGTGATCCA
C30 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAGAACAGTCAG
C31 ATGGCAGGAAGAAGCGGAGACAGCGACGAACAGCTCCTCCTCACAGTGAG
C32 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAGACAGTCAG
C33 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGACCTCCTCCAGGCAGTCAG
C34 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGTCGTGAG
C35 ATGGCAGGAAGAAGCGGAGACAGCGACGAAAAGCTCCTCCAAACAGTGAG
C36 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
C37 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGACCTCCTCAGAGCAGTAAG
C38 ATGGCAGGAAGAAGTGGAGACAGCGACGAAGATCTCCTCAGAGCAGTGAG
C39 ATGGCAGGAAGAAGTGGAGACAGCGACGAAGAGCTCCTCAAGACAGTGAG
C40 ATGGCAGGAAGAAGCGGAAACAGCGACGAAAAGCTCCTCAAGGTAGCCAG
C41 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTCCAAGCAGTGAG
C42 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGACCTCCTCAGAGCAGTAAG
C43 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAAGTAATCAG
C44 ATGGCAGGAAGAAGCGAAGACAGAGACGAAGATCTCCTCAAGACAGTCAG
C45 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGATAGTGAG
C46 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTCCAAGCAGTGAG
C47 ATGGCAGGAAGAAGCGGAGACAGCGACGACGAGCTGATCAAGACAGTGCA
C48 ATGGCAGGAAGAAGCGGAAGCACCGACGAAGAACTCCTCAGAGCAGTGAG
C49 ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAAAGCCGTAAG
C50 ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAGTCAG
************.. . .. .***. . ** .* . . . ..
C1 AATCATCAAGTTTCTCTATCAAAGCAACCCACTTCCCAAG---CCCGAGG
C2 GATCATCAAAATCCTGTACCAAAGCAACCCACCTCCCAAA---CCCAGGG
C3 AATCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCAAG---CCCGAGG
C4 ACTCATCAAGCTTCTCTATCAGAGCAACCCACTTCCCAAC---CCAGAGG
C5 GACCATCAGGATCCTATACCAAAGCAACCCCTTCCCATCA---TCAGAGG
C6 GATCATCAAAATCCTATACCAAAGCAACCCCTTTCCATCA---TCAGAGG
C7 GATCATCAAAATCCTATACCAAAGCAACCCTTACCCCCCA---AGAGAGG
C8 AGTCATCAAAATCCTGTACCAGAGCAACCCCCCTCCATCA---GCAGAGG
C9 AGTAATCAAGTTTCTCTATCAAAGCAACCCGCCTCCCAGT---TCCCAGG
C10 ATTCATCAAGCTTCTCTACCAAAGCAACCCGCCCCCCAGT---CCCGAGG
C11 AATCATCAAGTTTCTCTATCAAAGCAACCCGCCTCCACGC---CCCGAGG
C12 GATCATCAAAATCCTGTACAAAAGCAACCCCTACCCCAAA---CCCAGGG
C13 ACTCATCAAGTCTCTCTATCAAAGCAACCCGCCTCCCAAC---CCAGAGG
C14 GATCATCAAAATCCTGTACCAGAGCAACCCCTCCCCACCA---CCAGAGG
C15 GCTCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGC---CCCGAGG
C16 GCTCATCAAGTTCCTATACCAAAGCAACCCTCCTCCCAGC---CCCGAGG
C17 ACTCATCAAGTTTCTCTATCGAAGCAACCCACCTCCCAGC---CCCGAGG
C18 AATCATCAAGCTTCTCTATCAAAGCAACCCGCCCCCCAAG---CCCGAGG
C19 GATCATCAAGATCTTATATCAAAGCAACCCTTATCCCGAACAACACAGGG
C20 GATCATCAAAATCCTATACCAAAGCAACCCATACCCCAGA---CCCAAGG
C21 ACTCATCAAGTTTCTCTATCAAAGCAACCCACCCCCCAGC---CCAGAGG
C22 GATTATCAAAATTTTGTATCAAAGCAACCCTTACCCCAAA---CCCGAGG
C23 GATCATCAAGATCCTCTATCAAAGCAACCCTTACCCCAAC---CCCGAGG
C24 ACTCATCAAGTTTCTCTATCAAAGCAACCCGCTTCCCAGC---CCAGAGG
C25 ACTCATCAGGCTTCTCTATCAAAGCAACCCCCCGCCCAGCAACACAGAGG
C26 GATCATCAAAATCCTATACCAGAGCAACCCTTATCCCGAC---CCAACGG
C27 AATCATCAAGTTCCTCTACCAGAGCAACCCGCCTCCCAGC---CCAGAGG
C28 GCTCATCAAACTTCTCTATCAAAGCAACCCGCCTCCCAAC---CCCGAGG
C29 GATCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGC---CCCGAGG
C30 ACTGATCAAGCTTATCTACCAGAGCAACCCACCTCCCAAA---CTCGAGG
C31 ACTCATCAAGGATCTTTACCAGAGCAACCCGCCTCCCAGC---TCGGAGG
C32 ACTGATCAAAGTTCTCTATCAAAGCAACCCGCCTCCCAGC---TCAGAGG
C33 ACTCATCAAGTTTCTCTATCAAAGCAACCCTCCTCCCAGC---CCCGAGG
C34 GGCTGTCAGAATCCTATACCAAAGCAATCCCTACCCATCA---TCAGAGG
C35 GATCATCAAAATCTTGTATCAAAGCAACCCTTACCCCAAG---CCCGAGG
C36 AATCATCAAAATCCTCCACGAGAGCAACCCCTACCCATCA---GCAGAGG
C37 GATCATCAAAATCCTCTACCAAAGCAACCCTTACCCATCC---ACAGAGG
C38 ACTCATCAAGTTTCTCTATCAAAGCAACCCGCCACCCAGC---CCCGAGG
C39 ACTCATCAAGTTCCTCTACCAAAGCAACCCACTTCCCAGT---CCCGAGG
C40 GATCATCAAGTTTCTTCATCAAAGCAACCCACCTCCCAGC---ACAGAGG
C41 GATCATCAAAATCTTATATCAAAGCAACCCTTATCCCAGT---TCCGAGG
C42 GATCATCAAAATCCTATACCAGAGCAACCCTTACCCACCA---GCAGAGG
C43 AACCATCAAGATTTTGTACCAAAGCAACCCATATCCCAAG---CCCACGG
C44 ACTCATCAAGACTCTCTATCAAAGCAACCCGCTTCCCAGC---CCAGAGG
C45 ACTCATCAAGCAGCTCTATCAAAGCAACCCGCTTCCCAGC---CCCGAGG
C46 GATCATCAAAATCTTATATCAAAGCAACCCTTACCCCGAA---CCCAAGG
C47 GCTCATCAAGCAAATCTATCAAAGCAACCCACCACCCAGC---TCCGAGG
C48 GATCATCAAAATCCTATACCAAAGCAACCCCTACCCATCA---GGAGAGG
C49 GATCATCAAAATCCTGTACCAGAGCAACCCCTATCCACCA---GCAGAGG
C50 ACTGATCAAGTTTCTCTATCAAAGCAACCCGCCTCCCAGC---CAGGAGG
. .***.. * * ..***** ** **. **
C1 GG---ACCCGACAGGCCAGGAGGAATCGAAGGAGAAGGTGG---AGAAGG
C2 GG---ACTCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
C3 GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGGAGAGAGAG
C4 GG---ACCCGGCAGGCCAGAAGGAACCGAAGAAGAAGGTGG---AGAGCG
C5 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---CGAGCA
C6 GAACAACTCGACAGACCCGAAGAAATCGAAGAAGGAGGTGG---CGAGCA
C7 GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGGAGGTGG---CGAGCA
C8 GA---ACCCGACAGGCCAGAAGGAATCGAAGAAGAAGGTGG---AGAGCA
C9 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C10 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGATGG---AGAGAG
C11 GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGACAG
C12 GG---ACTCGACAGGCCCGAAAGAATCGAAGAAGAAGGTGG---AGAGCA
C13 GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C14 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---CGAGCA
C15 GG---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGG---AGAGCA
C16 GG---ACCCGACAGGCCCGAAGGAATAGAAGAAGAAGGTGG---AGAGCA
C17 GG---ACCCGACAGGCCCGACGGAATCGAAGAAGAAGATGG---AGAGCG
C18 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
C19 GG---ACCAGGCAGGCTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
C20 GG---TCTCGACAGGCCCAGAAGAATCGAAGAAGAAGGTGG---AGAGCA
C21 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C22 GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
C23 GG---ACCCGACAGGCTCGGAGGAATCGAAGAAGAAGGTGG---AGAGCA
C24 GG---ACCCGGCAGGCCCGAAGGAACCGAAGAAGAAGGTGG---AGAGCG
C25 GG---ACCCGACGGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C26 GA---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGG---CGAGCA
C27 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C28 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGCG
C29 GG---ACCCGATCGGCCAGAAGAAATAGAAGAAGGAGATGG---AGAGCA
C30 GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGG---AGAGAG
C31 GA---ACCCGACGGGCCCGAAGGAACAGAAGAAGAAGGTGG---AGAGAG
C32 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C33 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGGCAG
C34 GA---ACCCGACAGGCCCGAAAGAATCGAAGAAGGAGGTGG---CGAGCA
C35 GG---ACCCGACAGGCTCGAAAGAATCGAAGAAGAAGGTGG---AGAGCA
C36 GA---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGG---CGAGCA
C37 GAACATCTCGACAGACTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
C38 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C39 GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGATGG---AGAGAG
C40 GG---ACCCGACGGGCCCGGAGGAACAGAAGAAGAAGGTGG---AGAGAG
C41 AC------CGACAGGCT---------------------------------
C42 GA---AATCGACAGACCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
C43 GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
C44 GG---ACACGGCAGGCCCGAAGAAACCGAAGAAGGAGGTGG---AGAGAG
C45 GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
C46 GA---ACTCGACAGGCTCGGAGGAATCGAAGAAGAAGGTGG---AGAGCA
C47 GG---ACCCGACAGGCCCGACGAAACCGACGAAGAAGGTGG---AGAGAG
C48 GA---TCCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGG---CGAGCT
C49 GA---TCCCGACAGACCCGAAAGAATCGAAGAAGGAGGTGG---CGAGCA
C50 GG---ACCCGACAGGCCCGAAGGAATAGAAGAAGAAGGTGG---AGAGAG
. .*. *.*
C1 AGACAGAGATGGATCCGGTCGATTAGTGAATGGATTCTTAACACTCATCT
C2 AGGCAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
C3 ACAGAGACACATCAAAGGCCATTTAGTGAATGGATTCTTAGCACTCATCT
C4 AGACAGAGACAGATCCGAGAGATTAGTGAACGGATTATTGACACTTATCT
C5 AGGCAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTGCCTCTTATCT
C6 AGGCAGAGACAGATCCGTGAGATTAGTGAGCGGATTCTTAGCACTTGCCT
C7 AGACAGAGAGAGATCAGTGCGCTTAGTGAACGGATTCTTAGCTCTTGCCT
C8 AGGCAGAGACAGATCCGTGCGCTTAGTGAACGGGTTCTTTGCTCTTGTCT
C9 AGACAGAGACAGATTCAGTCCATTAGCGGATGGATTCTTAGCACTCATCT
C10 AGACAGAGACACATCCGGTCGATTAGTAACTGGCTTCTTAGCAATTATCT
C11 AGACAGAGACAAATCCAGAAGATTAGTGGATGGATTCTTAGCACTTGTCT
C12 AGACAGAACCAAATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
C13 AGACAGAGACAGATCCGGACGATTAGTGACCGGATTCTTAGCACTTTTCT
C14 AGGCAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTGGCACTTATCT
C15 AGGCAGAGGCAGATCCACTCGATTGGTGAACGGATTCTCAACACTTATCT
C16 AGGCAGAGGCAGATCCATTCGATTAGTGAGCGGATTCTCAGCACTTATCT
C17 AGACAGAGGCAGATCCACGAGATTAGTGGATGGCTTCTTAGCACTCATCT
C18 AGGCAGAGACAGATCCGTACGATTAGTGAACGGATTCTTAGCGATTTTCT
C19 AGACAGAAGCAGATCCATTCGATTAGTGAACGGGTTCTTAGCGCTTGCCT
C20 AGGCAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
C21 AGACAGAGACAGATCCGGGCAATTAGTGGATGGATTCTTAGCAATTATCT
C22 AGACAAAGACAGATCAATTCGATTAGTGAACGGATTCTTAGCACTTGCCT
C23 AGACAGAAGCAGATCCATTCGATTAGTGAACGGATTCTTAGCACTTGCCT
C24 AGACAGAGACAAATCCGAGAGATTAGTGAACGGATTCTTGACACTTATCT
C25 AGACAGAGACAGATTCGATCGATCAGTGAACGGATTCTTAGCGATTTTCT
C26 AGACAGAGACAGATCCATTCGATTAGTGAACGGCTTCTTGCCGCTTGTCT
C27 AGACAGAGACAGATCCGGACCATTAGTGGATGGCTTCTTAGCAATCATCT
C28 AGACAGAGACAGATCCGGGACATTAGTAACCGGATTCTTGACACTTTTCT
C29 AGGCAGAACCAGATCCATTCGATTGCTGAACGGGTTCTCAGCACTCATCT
C30 AGACAACGGCAGATCCAGACCATTAGTGGATGGATTCTTAGCAATTATCT
C31 AGACAGAGACAGATCCGGGCTATTAGTGACCGGATTCTTGGAACTTATCT
C32 AGACAACGACAGATCCATACGATTAGTAGATGGATTCTTAGCACTCATCT
C33 AGACAGAGACACATCAAGGCCGTTAGTGCATGGATTCTTAGCACTCATCT
C34 AGGCAGAGACAGATCAGTGAGATTAGTGAGCGGATTCTTAGCGCTTGCCT
C35 AGACAGAGACAGATCCATTCGATTGGTGAACGGATTCTTAGCACTTGCCT
C36 AGGGAGAGACAGATCCGTGCGATTAGTGAGCGGGTTCTTAGCTCTTGCGT
C37 AGGCAGAGACAGATCCGTGCGCTTAGTGAGCGGATTCTTAGCACTTGCGT
C38 AGACGGAGACAGATCCAGGCGATTAGTGACTGGATTCTTAGCACTCATCT
C39 AGACAGAGACAGGTCCGCAAGATTAGTGAATGGATTCTTACCACTCATCT
C40 AGACAGAAACAGATCCAGTCCATTAGCAACTGGATTCTTAGCAATCATCT
C41 --------------------------------------------------
C42 AGGCAGAGACAGATCCGTGAGATTAGTGACCGGATTCTTAGCACTTGCCT
C43 AGGCAGAGACAGATCCGTGGGATTAGTGAACGGATTCTTGGCGATTATCT
C44 AGACAGAGACAGATCCGAGAGATTAGTGCATGGATTCTTGACACTTATCT
C45 AGACAGAGACAGATCAACTGGATCAGTGAACGGATTCTTAACACTTGTCT
C46 AGGCAGAGACAGATCCATTCGCTTAGTGAACGGATTCTTAGCACTTGCTT
C47 AGACAGAGACACATCCGGGAGATTAGTGGATGGATTCTTAGCACTTATCT
C48 AGGCAGAGGCAGATCCGTGCGATTTGTGAGCGGATTCTTAGCTCTTGCGT
C49 AGGCAGAGACAGATCAGTGCGCTTAGTGAGCGGATTCTTAGCACTTGCGT
C50 AGACAGAGACAGATCCGGACAATTAGTGGATGGATTCTTAGCAATTATCT
C1 GGGTCGACCTGCAGAGCCTGTGCCTCTTCAGCTACCGCCGCTTGAGAGAC
C2 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C3 GGAGCGACCTTCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGAC
C4 GGGAGGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCACTTGAGAGAC
C5 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C6 GGGACGATCTACGGAGCCTGTGCCTCTTCTGCTACCGCCGATTGAGAGAC
C7 GGGAGGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
C8 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C9 GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCATCGCTTGAGAGAC
C10 GGGTCGACCTACGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
C11 GGGACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGGGAC
C12 GGGACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
C13 GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGAC
C14 GGGAGGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C15 GGGACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C16 GGGACGACCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C17 GGGACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGACAGAC
C18 GGGACGATCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
C19 GGGACGACCTACGGGACCTGTGGATCTTCAGTTACCACCGCTTGAGAGAC
C20 GGGACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCATCGCTTGAGACAC
C21 GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C22 GGGAAGACCTGCGGAGCCTGTGCCTTTTCTGCTACCACCGATTGAGAGAC
C23 GGGACGATCTACGGAGCCTGTGCCTTTTCAGCTACCACCGATTGAGAGAC
C24 GGGTGGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C25 GGGTCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGAC
C26 GGGACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAAAC
C27 GGGTCGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C28 GGGAGGATCTACGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C29 GGGACGACTTGAGGAACCTGTGCCTTTTCAGCTACCACCGATTGAGAGAC
C30 GGGTCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGGC
C31 GGGTCGATCTTCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGCGAC
C32 GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C33 GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C34 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C35 GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCAATTGAGAGAC
C36 GGGACGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C37 GGGACGACCTGAGGAGCCTGTGCCTTTTCTGCTACCACCGATTGAGAGAC
C38 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCAATTGAGAGAC
C39 GGGACGATCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
C40 GGGTCGACCTACGGAGCCTGCTCCTCTTCAGCTACCACCGCTTGACAGAC
C41 -------------GAGCATGTGCCTCTTCAGCTACCGCCACTTGAGAGAC
C42 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C43 GGGACGACCTGCGGAACCTGTGCCTCTTCAGCTACCGCCTCTTGAGAGAC
C44 GGGTGGACCTAAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C45 GGGTCGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
C46 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
C47 GGGTCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGAC
C48 GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCTCTTGAGAGAC
C49 GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
C50 GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
*..*.** .* *** ****. * .**** .*
C1 TTACTCTTGATTGTAGCGAGGAGTGTGGAACTTCTGGGACTCAG------
C2 TTCACCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C3 TTACTCTTGATTGTAACAAGGATTGTGGAACTTCTGGGACGAAG------
C4 TTACTCTTGATTGTAGCAAGGATTGTGGAACTTCTGGGACGCAG------
C5 TTCATCTTGATTGCAACGAGGACAGTGGAACTTCTGGGACACTGCAGTCT
C6 TTCACATTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C7 TTTCTCTTGATTGCCGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C8 TTAGTCTCGATAGCGGCGAGGACTGCGGAACTTCTGGGACACAGCAGTCT
C9 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C10 TTACTCTTGATTGTGACGAGGATTGTGGAACTTCTGGGACGCAG------
C11 TTACTCTTGATTGTAACGAGGATTGTGGAAATTCTGGGACGCAG------
C12 TTTGTCTTGATTGCAACGAGAACGGTGGAAATTCTGGGACACAGCAGTCT
C13 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C14 TTAACCTCGGTAGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C15 TTAATCTTAATTGCAACGAGGATTGTGGAACTTCTGGGACGCAG------
C16 TTAATCTTAATTGCAACGAGAATTGTGGAACTTCTGGGACGCAG------
C17 TTACTCTTGATTGCAGCGAGGATTGTGGAAATTCTGGGACGCAG------
C18 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C19 TTCATATTACTGACAGCGAGAGTGGTGGAACTTCTGGGACAGAG------
C20 TTCATCTTGATTGCCACGACGACTGTGGAACTTCTGGGACACAGCAGTCT
C21 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C22 TTCATATTGATTGCAGCGAGAGTGGTGGAAGTTCTGGGACGCAGCAGTCT
C23 TTCATATTGGTGACAGCGAGAGTGCTGGAACTTCTGGGACGCAGCAGTCT
C24 TTACTCTTGATTGTGATACGGATTGTGGAACTTCTGGGGCGCAG------
C25 TTACTCTTGATTGTAGCGAGGATTGTGGAACTTGTGGGACGCAG------
C26 TTTCTCTTAATTGTAGCGAGGACTGTGGAACTTCTGGGGATAAG------
C27 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C28 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C29 TTCATCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C30 TTACTCTTGATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG------
C31 TTACTCTTGATTGCAGCGAGGATCTTGGGACATCTGGGTCGCAG------
C32 TTACTCTTGCTTGTGAAGAGGGTTGTGGAACTTCTGGGACACAG------
C33 TTACTCTTGATTGTAGCGAGGATTGTGGAACTGCTGGGACGCAG------
C34 TTCAGCTTGATTGTAGCGAGGGCTGTGGAACTTCTGGGACACAGCAGTCT
C35 TTACTCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
C36 TTACTCTTGATTGTAACGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
C37 TTCATCTCGATTGCAGCGAGGACTGTGGAACTTCTGGGATACAGCAGTCT
C38 TTAATCTTGATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG------
C39 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
C40 TTACTCTTGATTGCAGCGAGGATTGTGGAGACTCTGGGACGCAG------
C41 GTACTCTTGATTGCAGCGAGAATCCTGAACCTTCTGGGACAGAG------
C42 TTACTCTCGATTGTAGTGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
C43 TTCATATTAATTGCAGCGAGGATTGTGGACAAGGGACTGAGGAG------
C44 TTACTCTCGATTGTAGCAAGGATTGTGGAACTTCTGGGACGCAG------
C45 TTACTCTTGATTGCAACAAGGATTGTGGAACTTCTGAGACGCAG------
C46 TTCATATCGGTGGCAGCGAGAGTGGTGGAACTTCTGGGACGCAG------
C47 TTACTCTTGATTGCAGCGAGGGGTGTGGAACTTGTGGGACGCAG------
C48 TTCAGCTTGGTTGCAGCGAGGACTGTGGAACTTCTGGGACACAGAATTCT
C49 TTCATCTCACTTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
C50 TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
* .* . * . . .. .. *.. . :*
C1 ---------------GGGGTGGGAAGTCCTCAAATATTGTTGGAATCTCC
C2 CAAGGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTACCTGTGGAATCTCC
C3 ---------------GGGGTGGGAGATCCTCAGGTATTGGTGGAATCTCC
C4 ---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
C5 CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C6 CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C7 CAAGGGACTGAGACTGGGGTGGGAAGCCCT--------------------
C8 CAAGGGACTGAGACTAGGGTGGGAGGGCCTCAAATATCTGGGGAATCTTC
C9 ---------------GGGGTGGGAAATCCTCAAATGTTGGTGGAATCTCC
C10 ---------------GGGGTGGGAAATCCTCAAATATTGGTGGAACATCA
C11 ---------------GGGGTGGGAACTTCTCAAGTATTGGTGGAATCTCC
C12 CAAGGGCCTGAGACTGGGGTGGGAAGCCCTCAAATATCTGGGGAATCTTC
C13 ---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAATCTCC
C14 CAAGGGACTGAGACAGGGGTGGAAAGGCCTCAAATATCTGGGGAATCTTC
C15 ---------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCC
C16 ---------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCC
C17 ---------------GGGGTGGGAAGCTCTCAAGTATTGTTGGAATCTCC
C18 ---------------GGGGTGGGAAGCCCTCAAGTATTGGTGGAATCTCC
C19 ---------------GGGGTGGGAAGCCCT--------------------
C20 CAAGGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTACCTGGGGAACCTTC
C21 ---------------GGGGTGGGAAACCCTCAAATACTGGTGGAATCTCC
C22 CAGGGGACTACAGAAGGGGTGGGAAGCCCT--------------------
C23 CAGGGGACTACAGAGGGGGTGGGAAGCCCT--------------------
C24 ---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAACCTCC
C25 ---------------GGTGTGGGAAGTCCTCAAGTATTGGTGGAATCTCC
C26 ---------------GGGGTGGGGAGCCCTCAAATACCTGTGGAACCTCC
C27 ---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
C28 ---------------GGGGTGGGAAGCTCTCAAATATTGGTGGAACATCC
C29 CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGGGGAATCTTC
C30 ---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
C31 ---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAGTCTCC
C32 ---------------GGGGTGGGAAATCCTCAAGTATTGGTGGAATCTCC
C33 ---------------GGGGTGGGAAGCCCTGAAATATTGGTGGAGTCTCC
C34 CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C35 CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTC
C36 CAAGGGACTGAGTCGGGGGTGGGAAGGCCTCAAATATCTGTGGAATCTTC
C37 CAAGGGACTGAGACGGGTGTGGGAAGGTCTCAAATATCTGGGGAACCTTC
C38 ---------------GGGGTGGGAAGCCCTCAAGTATTGGGGGAATCTCC
C39 ---------------GGGGTGGGAAATCCTCAAAATTCTGTGGAATCTCC
C40 ---------------AGGGTGGGAAGCTCTCAAGTATTGTTGGAATCTCC
C41 ---------------GAGGTGGGAAACCATCAAGTACCTGGGAAGCATTG
C42 CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C43 ---------------GGGGTGGGAAGCCCTCAAACTTCTGGGGAATCTCG
C44 ---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAATCTCC
C45 ---------------GGGGTGGGAACTCCTCAAGTATTTGTGGAATCTTC
C46 ---------------CAGTTGGGAAGCCCTCAAATATCTGGGAAGCCTTG
C47 ---------------GGGGTGGGAACTCCTCAAGTACTGGTGGAATCTCC
C48 CCAGGGACTGAGACTGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C49 CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
C50 ---------------GGGGTGGGAAATCCTCAAATATTTGTGGAATCTTC
. ***... .*
C1 TGCAGTACTGGAGTCAGGAACTAAAGAAAAG-------------------
C2 TGCTGTATTGGGGTCGGGAACTAAAAAT----------------------
C3 TGCTGTATTGGAGTCAGGAATTAAAGAA----------------------
C4 TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
C5 TGTTATATTGGGGACAGGAACTAAAAAT----------------------
C6 TGTCATATTGGGGCCAGGAGCTAAAAAT----------------------
C7 --------------------------------------------------
C8 TGGTGTACTGGGGACAGGAGCTAAAAAC----------------------
C9 TACAATATTGGAGTCAGGAACTAAAGAA----------------------
C10 TCCAGTATTGGAGCCAGGAACTAAAGAA----------------------
C11 TGCAATATTGGATTCAGGAACTAAAGAA----------------------
C12 TATCATACTGGGGTCAGGAACTAAAGAA----------------------
C13 TACAGTATTGGAGTCAGGAACTAAAGAG----------------------
C14 TGTTATATTGGGGCCAGGAACTAAAAAT----------------------
C15 TGCAGTATTGGAGTCAGGAACTGAAGAC----------------------
C16 TAAAATATTGGATTCAGGAACTAAAGAA----------------------
C17 TGCAATATTGGAGTCAGGAACTAAAGAA----------------------
C18 TACAATATTGGAGTCAGGAACTAAGGAG----------------------
C19 --------------------------------------------------
C20 TACTGTATTGGGGTCAGGAACTAAAACT----------------------
C21 TACAGTATTGGAGTCAGGAGCTAAAGAA----------------------
C22 --------------------------------------------------
C23 --------------------------------------------------
C24 TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
C25 TACAGTATTGGAGTCAGGAACTAAAGAAGAG-------------------
C26 TGCTGTATTGGGGACAGGAGCTAAAGAA----------------------
C27 TACAATATTGGAGGCAGGAACTAAGGAA----------------------
C28 TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
C29 TGTCATACTGGGGTCAGGAACTAAAGAC----------------------
C30 TGCAGTATTGGGGTCAGGAACTAAGGAA----------------------
C31 TACAGTATTGGAGTCAGGAACTAAAGAA----------------------
C32 TGCAGTATTGGAGTCAGGAACTAAAGAA----------------------
C33 TGCAGTATTGGAGTCAGGAACTAAAGAA----------------------
C34 TGGTATATTGGGTACAGGAACTAAAAAT----------------------
C35 TGCTATACTGGGGTCGGGAACTAAAGAT----------------------
C36 TGTTATATTGGGGACAGGAGCTAAAAAC----------------------
C37 TGGTATATTGGATCCAGGAACTAAAAAC----------------------
C38 TGCAATATTGGATTCAGGAACTAAAGAA----------------------
C39 TGCAGTATTGGAGCCAGGAACTAAAGAA----------------------
C40 TGCAATATTGGAGTCAGGAACTAAAGAA----------------------
C41 TCCAATATTGGAGCATAGAGCTAAAAAAGAG-------------------
C42 TGTTATATTGGGGCCAGGAACTAAAAAC----------------------
C43 CGCACTATTGGAGTCAGGAACTAAAGAA----------------------
C44 TACAGTATTGGATTCAGGAACTAAAGAA----------------------
C45 TACAGTATTGGCTTCAGGAGCTAAAGAA----------------------
C46 TGCAGTATTGGGGTCTGGAGCTAAAAAG----------------------
C47 TACAGTATTGGAGTCGGGAACTAAAGAA----------------------
C48 TGTTATATTGGGGTCAGGAACTAAAAAT----------------------
C49 TGTCCTATTGGGGACAGGAACTAAAAAT----------------------
C50 TACAGTATTGGAGTCAGGAACTAAAGAA----------------------
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 ------------------------------------------------
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
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAATAAG
AATCATCAAGTTTCTCTATCAAAGCAACCCACTTCCCAAG---CCCGAGG
GG---ACCCGACAGGCCAGGAGGAATCGAAGGAGAAGGTGG---AGAAGG
AGACAGAGATGGATCCGGTCGATTAGTGAATGGATTCTTAACACTCATCT
GGGTCGACCTGCAGAGCCTGTGCCTCTTCAGCTACCGCCGCTTGAGAGAC
TTACTCTTGATTGTAGCGAGGAGTGTGGAACTTCTGGGACTCAG------
---------------GGGGTGGGAAGTCCTCAAATATTGTTGGAATCTCC
TGCAGTACTGGAGTCAGGAACTAAAGAAAAG-------------------
--------------------------------------------------
------------------------------------------------
>C2
ATGGCAGGAAGAAGCGGAGACAGCGACGCAGAACTCCTCACAGCAGTAAG
GATCATCAAAATCCTGTACCAAAGCAACCCACCTCCCAAA---CCCAGGG
GG---ACTCGACAGGCCCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTCACCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTACCTGTGGAATCTCC
TGCTGTATTGGGGTCGGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C3
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGGCAGTCAG
AATCATCAAGCTTCTCTATCAAAGCAACCCACCTCCCAAG---CCCGAGG
GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGGAGAGAGAG
ACAGAGACACATCAAAGGCCATTTAGTGAATGGATTCTTAGCACTCATCT
GGAGCGACCTTCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACAAGGATTGTGGAACTTCTGGGACGAAG------
---------------GGGGTGGGAGATCCTCAGGTATTGGTGGAATCTCC
TGCTGTATTGGAGTCAGGAATTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C4
ATGGCAGGAAGAAGAGAAGACAGCGACGAAGAGCTCCTCAAGACAGTCAA
ACTCATCAAGCTTCTCTATCAGAGCAACCCACTTCCCAAC---CCAGAGG
GG---ACCCGGCAGGCCAGAAGGAACCGAAGAAGAAGGTGG---AGAGCG
AGACAGAGACAGATCCGAGAGATTAGTGAACGGATTATTGACACTTATCT
GGGAGGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCACTTGAGAGAC
TTACTCTTGATTGTAGCAAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C5
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
GACCATCAGGATCCTATACCAAAGCAACCCCTTCCCATCA---TCAGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---CGAGCA
AGGCAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTGCCTCTTATCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTCATCTTGATTGCAACGAGGACAGTGGAACTTCTGGGACACTGCAGTCT
CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGTTATATTGGGGACAGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C6
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
GATCATCAAAATCCTATACCAAAGCAACCCCTTTCCATCA---TCAGAGG
GAACAACTCGACAGACCCGAAGAAATCGAAGAAGGAGGTGG---CGAGCA
AGGCAGAGACAGATCCGTGAGATTAGTGAGCGGATTCTTAGCACTTGCCT
GGGACGATCTACGGAGCCTGTGCCTCTTCTGCTACCGCCGATTGAGAGAC
TTCACATTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGTCATATTGGGGCCAGGAGCTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C7
ATGGCAGGAAGAAGCGGAGACGCCGACGAGGAACTACTCAGAGCCGTCAG
GATCATCAAAATCCTATACCAAAGCAACCCTTACCCCCCA---AGAGAGG
GA---ACCCGACAGGCCCGGAAGAATCGAAGAAGGAGGTGG---CGAGCA
AGACAGAGAGAGATCAGTGCGCTTAGTGAACGGATTCTTAGCTCTTGCCT
GGGAGGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
TTTCTCTTGATTGCCGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACTGGGGTGGGAAGCCCT--------------------
--------------------------------------------------
--------------------------------------------------
------------------------------------------------
>C8
ATGGCAGGAAGAAGCGGAGACAACGACGAGGAACTCCTCAGAGCAGTAAG
AGTCATCAAAATCCTGTACCAGAGCAACCCCCCTCCATCA---GCAGAGG
GA---ACCCGACAGGCCAGAAGGAATCGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGACAGATCCGTGCGCTTAGTGAACGGGTTCTTTGCTCTTGTCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTAGTCTCGATAGCGGCGAGGACTGCGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACTAGGGTGGGAGGGCCTCAAATATCTGGGGAATCTTC
TGGTGTACTGGGGACAGGAGCTAAAAAC----------------------
--------------------------------------------------
------------------------------------------------
>C9
ATGGCAGGAAGAAGCGGAGACGGCGACGAAGACCTTCTCACGACAGTCAG
AGTAATCAAGTTTCTCTATCAAAGCAACCCGCCTCCCAGT---TCCCAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATTCAGTCCATTAGCGGATGGATTCTTAGCACTCATCT
GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCATCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAATCCTCAAATGTTGGTGGAATCTCC
TACAATATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C10
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAGTAAG
ATTCATCAAGCTTCTCTACCAAAGCAACCCGCCCCCCAGT---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGATGG---AGAGAG
AGACAGAGACACATCCGGTCGATTAGTAACTGGCTTCTTAGCAATTATCT
GGGTCGACCTACGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTGACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAATCCTCAAATATTGGTGGAACATCA
TCCAGTATTGGAGCCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C11
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGACCTCCTCCAAACAGTCAG
AATCATCAAGTTTCTCTATCAAAGCAACCCGCCTCCACGC---CCCGAGG
GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGACAG
AGACAGAGACAAATCCAGAAGATTAGTGGATGGATTCTTAGCACTTGTCT
GGGACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGGGAC
TTACTCTTGATTGTAACGAGGATTGTGGAAATTCTGGGACGCAG------
---------------GGGGTGGGAACTTCTCAAGTATTGGTGGAATCTCC
TGCAATATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C12
ATGGCAGGAAGAAGCGGAGACAGCGACGAGGAACTCCTCAAAGCAATAAG
GATCATCAAAATCCTGTACAAAAGCAACCCCTACCCCAAA---CCCAGGG
GG---ACTCGACAGGCCCGAAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGACAGAACCAAATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
GGGACGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
TTTGTCTTGATTGCAACGAGAACGGTGGAAATTCTGGGACACAGCAGTCT
CAAGGGCCTGAGACTGGGGTGGGAAGCCCTCAAATATCTGGGGAATCTTC
TATCATACTGGGGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C13
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAGAGCAGTCAG
ACTCATCAAGTCTCTCTATCAAAGCAACCCGCCTCCCAAC---CCAGAGG
GG---ACCAGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCCGGACGATTAGTGACCGGATTCTTAGCACTTTTCT
GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAATCTCC
TACAGTATTGGAGTCAGGAACTAAAGAG----------------------
--------------------------------------------------
------------------------------------------------
>C14
ATGGCAGGAAGAAGCGGAAACACCGACGAGGACCTCCTCAGAGCAGTAAG
GATCATCAAAATCCTGTACCAGAGCAACCCCTCCCCACCA---CCAGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---CGAGCA
AGGCAGAGACAGATCCGTGCGATTAGTGAGCGGATTCTTGGCACTTATCT
GGGAGGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTAACCTCGGTAGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACAGGGGTGGAAAGGCCTCAAATATCTGGGGAATCTTC
TGTTATATTGGGGCCAGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C15
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCCGGACGATCAG
GCTCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGG---AGAGCA
AGGCAGAGGCAGATCCACTCGATTGGTGAACGGATTCTCAACACTTATCT
GGGACGATCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTAATCTTAATTGCAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCC
TGCAGTATTGGAGTCAGGAACTGAAGAC----------------------
--------------------------------------------------
------------------------------------------------
>C16
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGATCTCCTAAAGGCGGTCAG
GCTCATCAAGTTCCTATACCAAAGCAACCCTCCTCCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATAGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGGCAGATCCATTCGATTAGTGAGCGGATTCTCAGCACTTATCT
GGGACGACCTGAGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTAATCTTAATTGCAACGAGAATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCATCAAATATCTGTGGAATCTCC
TAAAATATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C17
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAGACAGTGAG
ACTCATCAAGTTTCTCTATCGAAGCAACCCACCTCCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGACGGAATCGAAGAAGAAGATGG---AGAGCG
AGACAGAGGCAGATCCACGAGATTAGTGGATGGCTTCTTAGCACTCATCT
GGGACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGACAGAC
TTACTCTTGATTGCAGCGAGGATTGTGGAAATTCTGGGACGCAG------
---------------GGGGTGGGAAGCTCTCAAGTATTGTTGGAATCTCC
TGCAATATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C18
ATGGCAGGAAGAAGCGGGGACAGCGACGGAGAGCTCCTCCAGACAGTCAG
AATCATCAAGCTTCTCTATCAAAGCAACCCGCCCCCCAAG---CCCGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
AGGCAGAGACAGATCCGTACGATTAGTGAACGGATTCTTAGCGATTTTCT
GGGACGATCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAAGTATTGGTGGAATCTCC
TACAATATTGGAGTCAGGAACTAAGGAG----------------------
--------------------------------------------------
------------------------------------------------
>C19
ATGGCAGGAAGAGAA---GACAACGACGAAGAGCTCATCAGAGCAGTGAG
GATCATCAAGATCTTATATCAAAGCAACCCTTATCCCGAACAACACAGGG
GG---ACCAGGCAGGCTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGACAGAAGCAGATCCATTCGATTAGTGAACGGGTTCTTAGCGCTTGCCT
GGGACGACCTACGGGACCTGTGGATCTTCAGTTACCACCGCTTGAGAGAC
TTCATATTACTGACAGCGAGAGTGGTGGAACTTCTGGGACAGAG------
---------------GGGGTGGGAAGCCCT--------------------
--------------------------------------------------
--------------------------------------------------
------------------------------------------------
>C20
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAGAGCAGTAAG
GATCATCAAAATCCTATACCAAAGCAACCCATACCCCAGA---CCCAAGG
GG---TCTCGACAGGCCCAGAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGGCAGATCGATTCGATTAGTGAGCGGATTCTTAGCACTTGCCT
GGGACGATCTGAGGAGCCTGTGCCTCTTCAGCTACCATCGCTTGAGACAC
TTCATCTTGATTGCCACGACGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGGTTGAGACTGGGGTGGGAAGGCCTCAAGTACCTGGGGAACCTTC
TACTGTATTGGGGTCAGGAACTAAAACT----------------------
--------------------------------------------------
------------------------------------------------
>C21
ATGGCAGGAAGAAGCGGAGACAACGACGTAGAGCTCCTCAAGACCGTCAG
ACTCATCAAGTTTCTCTATCAAAGCAACCCACCCCCCAGC---CCAGAGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCCGGGCAATTAGTGGATGGATTCTTAGCAATTATCT
GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAACCCTCAAATACTGGTGGAATCTCC
TACAGTATTGGAGTCAGGAGCTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C22
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTTCAAGCAGTGAA
GATTATCAAAATTTTGTATCAAAGCAACCCTTACCCCAAA---CCCGAGG
GG---ACCCGACAGGCTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGACAAAGACAGATCAATTCGATTAGTGAACGGATTCTTAGCACTTGCCT
GGGAAGACCTGCGGAGCCTGTGCCTTTTCTGCTACCACCGATTGAGAGAC
TTCATATTGATTGCAGCGAGAGTGGTGGAAGTTCTGGGACGCAGCAGTCT
CAGGGGACTACAGAAGGGGTGGGAAGCCCT--------------------
--------------------------------------------------
--------------------------------------------------
------------------------------------------------
>C23
ATGGCAGGAAGAAGCGGAGACAGCGACGCAGCGCTCCTCCAAGCAGTGCA
GATCATCAAGATCCTCTATCAAAGCAACCCTTACCCCAAC---CCCGAGG
GG---ACCCGACAGGCTCGGAGGAATCGAAGAAGAAGGTGG---AGAGCA
AGACAGAAGCAGATCCATTCGATTAGTGAACGGATTCTTAGCACTTGCCT
GGGACGATCTACGGAGCCTGTGCCTTTTCAGCTACCACCGATTGAGAGAC
TTCATATTGGTGACAGCGAGAGTGCTGGAACTTCTGGGACGCAGCAGTCT
CAGGGGACTACAGAGGGGGTGGGAAGCCCT--------------------
--------------------------------------------------
--------------------------------------------------
------------------------------------------------
>C24
ATGGCAGGAAGAAGAGAAGACAACGACGAAGAGCTCATCAAGGCAGTCAG
ACTCATCAAGTTTCTCTATCAAAGCAACCCGCTTCCCAGC---CCAGAGG
GG---ACCCGGCAGGCCCGAAGGAACCGAAGAAGAAGGTGG---AGAGCG
AGACAGAGACAAATCCGAGAGATTAGTGAACGGATTCTTGACACTTATCT
GGGTGGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTGATACGGATTGTGGAACTTCTGGGGCGCAG------
---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAACCTCC
TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C25
ATGGCAGGAAGAAGCGGAGACAACGACGAGGAGCTGATCAAGACAGTCAG
ACTCATCAGGCTTCTCTATCAAAGCAACCCCCCGCCCAGCAACACAGAGG
GG---ACCCGACGGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATTCGATCGATCAGTGAACGGATTCTTAGCGATTTTCT
GGGTCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAGCGAGGATTGTGGAACTTGTGGGACGCAG------
---------------GGTGTGGGAAGTCCTCAAGTATTGGTGGAATCTCC
TACAGTATTGGAGTCAGGAACTAAAGAAGAG-------------------
--------------------------------------------------
------------------------------------------------
>C26
ATGGCAGGAAGAAGCGGAACCACCGACGAAGATCTCCTCAAGACAGTAAG
GATCATCAAAATCCTATACCAGAGCAACCCTTATCCCGAC---CCAACGG
GA---ACCCGACAGGCCCGAAGGAACAGAAGAAGAAGGTGG---CGAGCA
AGACAGAGACAGATCCATTCGATTAGTGAACGGCTTCTTGCCGCTTGTCT
GGGACGACCTGCGGAACCTGTGCCTCTTCAGCTACCACCAATTGAGAAAC
TTTCTCTTAATTGTAGCGAGGACTGTGGAACTTCTGGGGATAAG------
---------------GGGGTGGGGAGCCCTCAAATACCTGTGGAACCTCC
TGCTGTATTGGGGACAGGAGCTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C27
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAAACAGTCAG
AATCATCAAGTTCCTCTACCAGAGCAACCCGCCTCCCAGC---CCAGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCCGGACCATTAGTGGATGGCTTCTTAGCAATCATCT
GGGTCGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
TACAATATTGGAGGCAGGAACTAAGGAA----------------------
--------------------------------------------------
------------------------------------------------
>C28
ATGGCAGGAAGAAGAGAAGACAGCGACGAAGAGCTCATCAAGACAGTCAA
GCTCATCAAACTTCTCTATCAAAGCAACCCGCCTCCCAAC---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGCG
AGACAGAGACAGATCCGGGACATTAGTAACCGGATTCTTGACACTTTTCT
GGGAGGATCTACGGAACCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCTCTCAAATATTGGTGGAACATCC
TGCAGTATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C29
ATGGCAGGAAGAAGCGGAGAAAGCGACAAAGAACTCCTCAAGGTGATCCA
GATCATCAAGATCCTATACCAAAGCAACCCTCTTCCCAGC---CCCGAGG
GG---ACCCGATCGGCCAGAAGAAATAGAAGAAGGAGATGG---AGAGCA
AGGCAGAACCAGATCCATTCGATTGCTGAACGGGTTCTCAGCACTCATCT
GGGACGACTTGAGGAACCTGTGCCTTTTCAGCTACCACCGATTGAGAGAC
TTCATCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGGGGAATCTTC
TGTCATACTGGGGTCAGGAACTAAAGAC----------------------
--------------------------------------------------
------------------------------------------------
>C30
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAGAACAGTCAG
ACTGATCAAGCTTATCTACCAGAGCAACCCACCTCCCAAA---CTCGAGG
GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAACGGCAGATCCAGACCATTAGTGGATGGATTCTTAGCAATTATCT
GGGTCGACCTGCGGAGCCTGTGCCTCTTCAGCTACCACCACTTGAGAGGC
TTACTCTTGATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAATCTCC
TGCAGTATTGGGGTCAGGAACTAAGGAA----------------------
--------------------------------------------------
------------------------------------------------
>C31
ATGGCAGGAAGAAGCGGAGACAGCGACGAACAGCTCCTCCTCACAGTGAG
ACTCATCAAGGATCTTTACCAGAGCAACCCGCCTCCCAGC---TCGGAGG
GA---ACCCGACGGGCCCGAAGGAACAGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCCGGGCTATTAGTGACCGGATTCTTGGAACTTATCT
GGGTCGATCTTCGGAGCCTGTTCCTCTTCAGCTACCACCGCTTGAGCGAC
TTACTCTTGATTGCAGCGAGGATCTTGGGACATCTGGGTCGCAG------
---------------GGGGTGGGAAGCCCTCAAATATTGGTGGAGTCTCC
TACAGTATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C32
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAGACAGTCAG
ACTGATCAAAGTTCTCTATCAAAGCAACCCGCCTCCCAGC---TCAGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAACGACAGATCCATACGATTAGTAGATGGATTCTTAGCACTCATCT
GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGCTTGTGAAGAGGGTTGTGGAACTTCTGGGACACAG------
---------------GGGGTGGGAAATCCTCAAGTATTGGTGGAATCTCC
TGCAGTATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C33
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGACCTCCTCCAGGCAGTCAG
ACTCATCAAGTTTCTCTATCAAAGCAACCCTCCTCCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGGCAG
AGACAGAGACACATCAAGGCCGTTAGTGCATGGATTCTTAGCACTCATCT
GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAGCGAGGATTGTGGAACTGCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTGAAATATTGGTGGAGTCTCC
TGCAGTATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C34
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGTCGTGAG
GGCTGTCAGAATCCTATACCAAAGCAATCCCTACCCATCA---TCAGAGG
GA---ACCCGACAGGCCCGAAAGAATCGAAGAAGGAGGTGG---CGAGCA
AGGCAGAGACAGATCAGTGAGATTAGTGAGCGGATTCTTAGCGCTTGCCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTCAGCTTGATTGTAGCGAGGGCTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGGTATATTGGGTACAGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C35
ATGGCAGGAAGAAGCGGAGACAGCGACGAAAAGCTCCTCCAAACAGTGAG
GATCATCAAAATCTTGTATCAAAGCAACCCTTACCCCAAG---CCCGAGG
GG---ACCCGACAGGCTCGAAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGACAGAGACAGATCCATTCGATTGGTGAACGGATTCTTAGCACTTGCCT
GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCAATTGAGAGAC
TTACTCTTGATTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
CAAGGGACTGAGACTGGGGTGGGAAGGCCTCAAGTATCTGTGGAATCTTC
TGCTATACTGGGGTCGGGAACTAAAGAT----------------------
--------------------------------------------------
------------------------------------------------
>C36
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAGAGCAGTAAG
AATCATCAAAATCCTCCACGAGAGCAACCCCTACCCATCA---GCAGAGG
GA---ACCCGACAGGCCCGAAGAAATAGAAGAAGGAGGTGG---CGAGCA
AGGGAGAGACAGATCCGTGCGATTAGTGAGCGGGTTCTTAGCTCTTGCGT
GGGACGACCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
CAAGGGACTGAGTCGGGGGTGGGAAGGCCTCAAATATCTGTGGAATCTTC
TGTTATATTGGGGACAGGAGCTAAAAAC----------------------
--------------------------------------------------
------------------------------------------------
>C37
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGACCTCCTCAGAGCAGTAAG
GATCATCAAAATCCTCTACCAAAGCAACCCTTACCCATCC---ACAGAGG
GAACATCTCGACAGACTCGGAAGAATCGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGACAGATCCGTGCGCTTAGTGAGCGGATTCTTAGCACTTGCGT
GGGACGACCTGAGGAGCCTGTGCCTTTTCTGCTACCACCGATTGAGAGAC
TTCATCTCGATTGCAGCGAGGACTGTGGAACTTCTGGGATACAGCAGTCT
CAAGGGACTGAGACGGGTGTGGGAAGGTCTCAAATATCTGGGGAACCTTC
TGGTATATTGGATCCAGGAACTAAAAAC----------------------
--------------------------------------------------
------------------------------------------------
>C38
ATGGCAGGAAGAAGTGGAGACAGCGACGAAGATCTCCTCAGAGCAGTGAG
ACTCATCAAGTTTCTCTATCAAAGCAACCCGCCACCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACGGAGACAGATCCAGGCGATTAGTGACTGGATTCTTAGCACTCATCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCGCCAATTGAGAGAC
TTAATCTTGATTGCAGCGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAAGTATTGGGGGAATCTCC
TGCAATATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C39
ATGGCAGGAAGAAGTGGAGACAGCGACGAAGAGCTCCTCAAGACAGTGAG
ACTCATCAAGTTCCTCTACCAAAGCAACCCACTTCCCAGT---CCCGAGG
GG---ACCCGACAGGCCCGGAGGAATCGAAGAAGAAGATGG---AGAGAG
AGACAGAGACAGGTCCGCAAGATTAGTGAATGGATTCTTACCACTCATCT
GGGACGATCTGAGGAGCCTGTGCCTTTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAATCCTCAAAATTCTGTGGAATCTCC
TGCAGTATTGGAGCCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C40
ATGGCAGGAAGAAGCGGAAACAGCGACGAAAAGCTCCTCAAGGTAGCCAG
GATCATCAAGTTTCTTCATCAAAGCAACCCACCTCCCAGC---ACAGAGG
GG---ACCCGACGGGCCCGGAGGAACAGAAGAAGAAGGTGG---AGAGAG
AGACAGAAACAGATCCAGTCCATTAGCAACTGGATTCTTAGCAATCATCT
GGGTCGACCTACGGAGCCTGCTCCTCTTCAGCTACCACCGCTTGACAGAC
TTACTCTTGATTGCAGCGAGGATTGTGGAGACTCTGGGACGCAG------
---------------AGGGTGGGAAGCTCTCAAGTATTGTTGGAATCTCC
TGCAATATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C41
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTCCAAGCAGTGAG
GATCATCAAAATCTTATATCAAAGCAACCCTTATCCCAGT---TCCGAGG
AC------CGACAGGCT---------------------------------
--------------------------------------------------
-------------GAGCATGTGCCTCTTCAGCTACCGCCACTTGAGAGAC
GTACTCTTGATTGCAGCGAGAATCCTGAACCTTCTGGGACAGAG------
---------------GAGGTGGGAAACCATCAAGTACCTGGGAAGCATTG
TCCAATATTGGAGCATAGAGCTAAAAAAGAG-------------------
--------------------------------------------------
------------------------------------------------
>C42
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGACCTCCTCAGAGCAGTAAG
GATCATCAAAATCCTATACCAGAGCAACCCTTACCCACCA---GCAGAGG
GA---AATCGACAGACCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
AGGCAGAGACAGATCCGTGAGATTAGTGACCGGATTCTTAGCACTTGCCT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTCGATTGTAGTGAGGACTGTGGAACTTCTGGGACACAGCAGTCT
CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGTTATATTGGGGCCAGGAACTAAAAAC----------------------
--------------------------------------------------
------------------------------------------------
>C43
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAACTCCTCAAAGTAATCAG
AACCATCAAGATTTTGTACCAAAGCAACCCATATCCCAAG---CCCACGG
GA---ACCCGACAGGCCCGAAGGAATCGAAGAAGGAGGTGG---AGAGCA
AGGCAGAGACAGATCCGTGGGATTAGTGAACGGATTCTTGGCGATTATCT
GGGACGACCTGCGGAACCTGTGCCTCTTCAGCTACCGCCTCTTGAGAGAC
TTCATATTAATTGCAGCGAGGATTGTGGACAAGGGACTGAGGAG------
---------------GGGGTGGGAAGCCCTCAAACTTCTGGGGAATCTCG
CGCACTATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C44
ATGGCAGGAAGAAGCGAAGACAGAGACGAAGATCTCCTCAAGACAGTCAG
ACTCATCAAGACTCTCTATCAAAGCAACCCGCTTCCCAGC---CCAGAGG
GG---ACACGGCAGGCCCGAAGAAACCGAAGAAGGAGGTGG---AGAGAG
AGACAGAGACAGATCCGAGAGATTAGTGCATGGATTCTTGACACTTATCT
GGGTGGACCTAAGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTCGATTGTAGCAAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAGCCCTCAGATATTGGTGGAATCTCC
TACAGTATTGGATTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C45
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGATAGTGAG
ACTCATCAAGCAGCTCTATCAAAGCAACCCGCTTCCCAGC---CCCGAGG
GG---ACCCGACAGGCCCGAAGGAATCGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCAACTGGATCAGTGAACGGATTCTTAACACTTGTCT
GGGTCGATCTGAGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
TTACTCTTGATTGCAACAAGGATTGTGGAACTTCTGAGACGCAG------
---------------GGGGTGGGAACTCCTCAAGTATTTGTGGAATCTTC
TACAGTATTGGCTTCAGGAGCTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C46
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGCGCTCCTCCAAGCAGTGAG
GATCATCAAAATCTTATATCAAAGCAACCCTTACCCCGAA---CCCAAGG
GA---ACTCGACAGGCTCGGAGGAATCGAAGAAGAAGGTGG---AGAGCA
AGGCAGAGACAGATCCATTCGCTTAGTGAACGGATTCTTAGCACTTGCTT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCGATTGAGAGAC
TTCATATCGGTGGCAGCGAGAGTGGTGGAACTTCTGGGACGCAG------
---------------CAGTTGGGAAGCCCTCAAATATCTGGGAAGCCTTG
TGCAGTATTGGGGTCTGGAGCTAAAAAG----------------------
--------------------------------------------------
------------------------------------------------
>C47
ATGGCAGGAAGAAGCGGAGACAGCGACGACGAGCTGATCAAGACAGTGCA
GCTCATCAAGCAAATCTATCAAAGCAACCCACCACCCAGC---TCCGAGG
GG---ACCCGACAGGCCCGACGAAACCGACGAAGAAGGTGG---AGAGAG
AGACAGAGACACATCCGGGAGATTAGTGGATGGATTCTTAGCACTTATCT
GGGTCGACCTACGGAGCCTGTGCCTCTTCCTCTACCACCGCTTGAGAGAC
TTACTCTTGATTGCAGCGAGGGGTGTGGAACTTGTGGGACGCAG------
---------------GGGGTGGGAACTCCTCAAGTACTGGTGGAATCTCC
TACAGTATTGGAGTCGGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C48
ATGGCAGGAAGAAGCGGAAGCACCGACGAAGAACTCCTCAGAGCAGTGAG
GATCATCAAAATCCTATACCAAAGCAACCCCTACCCATCA---GGAGAGG
GA---TCCCGACAGACCCGAAAGAATCGAAGAAGAAGGTGG---CGAGCT
AGGCAGAGGCAGATCCGTGCGATTTGTGAGCGGATTCTTAGCTCTTGCGT
GGGACGATCTACGGAGCCTGTGCCTCTTCAGCTACCACCTCTTGAGAGAC
TTCAGCTTGGTTGCAGCGAGGACTGTGGAACTTCTGGGACACAGAATTCT
CCAGGGACTGAGACTGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGTTATATTGGGGTCAGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C49
ATGGCAGGAAGAAGCGGAAGCACCGACGAGGAACTCCTCAAAGCCGTAAG
GATCATCAAAATCCTGTACCAGAGCAACCCCTATCCACCA---GCAGAGG
GA---TCCCGACAGACCCGAAAGAATCGAAGAAGGAGGTGG---CGAGCA
AGGCAGAGACAGATCAGTGCGCTTAGTGAGCGGATTCTTAGCACTTGCGT
GGGACGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTCATCTCACTTGCAGCGAGGACTGTGGAACTTCTGGGACGCAGCAGTCT
CAAGGGACTGAGACGGGGGTGGGAAGGCCTCAAATATCTGGGGAATCTTC
TGTCCTATTGGGGACAGGAACTAAAAAT----------------------
--------------------------------------------------
------------------------------------------------
>C50
ATGGCAGGAAGAAGCGGAGACAGCGACGAAGAGCTCCTCAAGACAGTCAG
ACTGATCAAGTTTCTCTATCAAAGCAACCCGCCTCCCAGC---CAGGAGG
GG---ACCCGACAGGCCCGAAGGAATAGAAGAAGAAGGTGG---AGAGAG
AGACAGAGACAGATCCGGACAATTAGTGGATGGATTCTTAGCAATTATCT
GGGTCGATCTGCGGAGCCTGTGCCTCTTCAGCTACCACCGCTTGAGAGAC
TTACTCTTGATTGTAACGAGGATTGTGGAACTTCTGGGACGCAG------
---------------GGGGTGGGAAATCCTCAAATATTTGTGGAATCTTC
TACAGTATTGGAGTCAGGAACTAAAGAA----------------------
--------------------------------------------------
------------------------------------------------
>C1
MAGRSGDSDEELLKTIRIIKFLYQSNPLPKoPEGoTRQARRNRRRRWoRR
RQRWIRSISEWILNTHLGRPAEPVPLQLPPLERLTLDCSEECGTSGTQoo
oooooGVGSPQILLESPAVLESGTKEK
>C2
MAGRSGDSDAELLTAVRIIKILYQSNPPPKoPRGoTRQARKNRRRRWoRA
RQRQIDSISERILSTCLGRSTEPVPLQLPPLERLHLDCSEDCGTSGTQQS
QGVETGVGRPQVPVESPAVLGSGTKNo
>C3
MAGRSGDSDEELLKAVRIIKLLYQSNPPPKoPEGoTRQARRNRRRRWERE
TETHQRPFSEWILSTHLERPSEPVPLQLPPLERLTLDCNKDCGTSGTKoo
oooooGVGDPQVLVESPAVLESGIKEo
>C4
MAGRREDSDEELLKTVKLIKLLYQSNPLPNoPEGoTRQARRNRRRRWoRA
RQRQIREISERIIDTYLGGSTEPVPLQLPPLERLTLDCSKDCGTSGTQoo
oooooGVGSPQILVESPAVLDSGTKEo
>C5
MAGRSGSTDEELLRAVRTIRILYQSNPFPSoSEGoTRQARRNRRRRWoRA
RQRQIRAISERILASYLGRSTEPVPLQLPPLERLHLDCNEDSGTSGTLQS
QGTETGVGRPQISGESSVILGTGTKNo
>C6
MAGRSGSTDEELLRAVRIIKILYQSNPFPSoSEGTTRQTRRNRRRRWoRA
RQRQIREISERILSTCLGRSTEPVPLLLPPIERLHIDCSEDCGTSGTQQS
QGTETGVGRPQISGESSVILGPGAKNo
>C7
MAGRSGDADEELLRAVRIIKILYQSNPYPPoREGoTRQARKNRRRRWoRA
RQREISALSERILSSCLGGSAEPVPLQLPPIERLSLDCREDCGTSGTQQS
QGTETGVGSPooooooooooooooooo
>C8
MAGRSGDNDEELLRAVRVIKILYQSNPPPSoAEGoTRQARRNRRRRWoRA
RQRQIRALSERVLCSCLGRSTEPVPLQLPPLERLSLDSGEDCGTSGTQQS
QGTETRVGGPQISGESSGVLGTGAKNo
>C9
MAGRSGDGDEDLLTTVRVIKFLYQSNPPPSoSQGoTRQARRNRRRRWoRE
RQRQIQSISGWILSTHLGRSAEPVPLQLPSLERLTLDCNEDCGTSGTQoo
oooooGVGNPQMLVESPTILESGTKEo
>C10
MAGRSGDSDEELLKTVRFIKLLYQSNPPPSoPEGoTRQARRNRRRRWoRE
RQRHIRSISNWLLSNYLGRPTEPVPFQLPPLERLTLDCDEDCGTSGTQoo
oooooGVGNPQILVEHHPVLEPGTKEo
>C11
MAGRSGDSDEDLLQTVRIIKFLYQSNPPPRoPEGoTRQARRNRRRRWoRQ
RQRQIQKISGWILSTCLGRPAEPVPLQLPPLEGLTLDCNEDCGNSGTQoo
oooooGVGTSQVLVESPAILDSGTKEo
>C12
MAGRSGDSDEELLKAIRIIKILYKSNPYPKoPRGoTRQARKNRRRRWoRA
RQNQIDSISERILSTCLGRPAEPVPLQLPPIERLCLDCNENGGNSGTQQS
QGPETGVGSPQISGESSIILGSGTKEo
>C13
MAGRSGDSDEELLRAVRLIKSLYQSNPPPNoPEGoTRQARRNRRRRWoRE
RQRQIRTISDRILSTFLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGSPQILVESPTVLESGTKEo
>C14
MAGRSGNTDEDLLRAVRIIKILYQSNPSPPoPEGoTRQARRNRRRRWoRA
RQRQIRAISERILGTYLGGSTEPVPLQLPPLERLNLGSSEDCGTSGTQQS
QGTETGVERPQISGESSVILGPGTKNo
>C15
MAGRSGDSDEELLRTIRLIKILYQSNPLPSoPEGoTRQARRNRRRRWoRA
RQRQIHSIGERILNTYLGRSEEPVPLQLPPLERLNLNCNEDCGTSGTQoo
oooooGVGSHQISVESPAVLESGTEDo
>C16
MAGRSGDSDEDLLKAVRLIKFLYQSNPPPSoPEGoTRQARRNRRRRWoRA
RQRQIHSISERILSTYLGRPEEPVPLQLPPLERLNLNCNENCGTSGTQoo
oooooGVGSHQISVESPKILDSGTKEo
>C17
MAGRSGDSDEELLKTVRLIKFLYRSNPPPSoPEGoTRQARRNRRRRWoRA
RQRQIHEISGWLLSTHLGRSEEPVPLQLPPLDRLTLDCSEDCGNSGTQoo
oooooGVGSSQVLLESPAILESGTKEo
>C18
MAGRSGDSDGELLQTVRIIKLLYQSNPPPKoPEGoTRQARRNRRRRWoRA
RQRQIRTISERILSDFLGRSEEPVPFQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGSPQVLVESPTILESGTKEo
>C19
MAGREoDNDEELIRAVRIIKILYQSNPYPEQHRGoTRQARKNRRRRWoRA
RQKQIHSISERVLSACLGRPTGPVDLQLPPLERLHITDSESGGTSGTEoo
oooooGVGSPooooooooooooooooo
>C20
MAGRSGDSDEELLRAVRIIKILYQSNPYPRoPKGoSRQAQKNRRRRWoRA
RQRQIDSISERILSTCLGRSEEPVPLQLPSLETLHLDCHDDCGTSGTQQS
QGVETGVGRPQVPGEPSTVLGSGTKTo
>C21
MAGRSGDNDVELLKTVRLIKFLYQSNPPPSoPEGoTRQARRNRRRRWoRE
RQRQIRAISGWILSNYLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGNPQILVESPTVLESGAKEo
>C22
MAGRSGDSDEALLQAVKIIKILYQSNPYPKoPEGoTRQARKNRRRRWoRA
RQRQINSISERILSTCLGRPAEPVPFLLPPIERLHIDCSESGGSSGTQQS
QGTTEGVGSPooooooooooooooooo
>C23
MAGRSGDSDAALLQAVQIIKILYQSNPYPNoPEGoTRQARRNRRRRWoRA
RQKQIHSISERILSTCLGRSTEPVPFQLPPIERLHIGDSESAGTSGTQQS
QGTTEGVGSPooooooooooooooooo
>C24
MAGRREDNDEELIKAVRLIKFLYQSNPLPSoPEGoTRQARRNRRRRWoRA
RQRQIREISERILDTYLGGSTEPVPLQLPPLERLTLDCDTDCGTSGAQoo
oooooGVGSPQILVEPPAVLDSGTKEo
>C25
MAGRSGDNDEELIKTVRLIRLLYQSNPPPSNTEGoTRRARRNRRRRWoRE
RQRQIRSISERILSDFLGRPTEPVPLPLPPLERLTLDCSEDCGTCGTQoo
oooooGVGSPQVLVESPTVLESGTKEE
>C26
MAGRSGTTDEDLLKTVRIIKILYQSNPYPDoPTGoTRQARRNRRRRWoRA
RQRQIHSISERLLAACLGRPAEPVPLQLPPIEKLSLNCSEDCGTSGDKoo
oooooGVGSPQIPVEPPAVLGTGAKEo
>C27
MAGRSGDSDEELLKTVRIIKFLYQSNPPPSoPEGoTRQARRNRRRRWoRE
RQRQIRTISGWLLSNHLGRPTEPVPLQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGSPQILVESPTILEAGTKEo
>C28
MAGRREDSDEELIKTVKLIKLLYQSNPPPNoPEGoTRQARRNRRRRWoRA
RQRQIRDISNRILDTFLGGSTEPVPLQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGSSQILVEHPAVLDSGTKEo
>C29
MAGRSGESDKELLKVIQIIKILYQSNPLPSoPEGoTRSARRNRRRRWoRA
RQNQIHSIAERVLSTHLGRLEEPVPFQLPPIERLHLDCSEDCGTSGTQQS
QGTETGVGRPQVSGESSVILGSGTKDo
>C30
MAGRSGDSDEELLRTVRLIKLIYQSNPPPKoLEGoTRQARRNRRRRWoRE
RQRQIQTISGWILSNYLGRPAEPVPLQLPPLERLTLDCSEDCGTSGTQoo
oooooGVGSPQILVESPAVLGSGTKEo
>C31
MAGRSGDSDEQLLLTVRLIKDLYQSNPPPSoSEGoTRRARRNRRRRWoRE
RQRQIRAISDRILGTYLGRSSEPVPLQLPPLERLTLDCSEDLGTSGSQoo
oooooGVGSPQILVESPTVLESGTKEo
>C32
MAGRSGDSDEELLKTVRLIKVLYQSNPPPSoSEGoTRQARRNRRRRWoRE
RQRQIHTISRWILSTHLGRSAEPVPLQLPPLERLTLACEEGCGTSGTQoo
oooooGVGNPQVLVESPAVLESGTKEo
>C33
MAGRSGDSDEDLLQAVRLIKFLYQSNPPPSoPEGoTRQARRNRRRRWoRQ
RQRHIKAVSAWILSTHLGRSAEPVPLQLPPLERLTLDCSEDCGTAGTQoo
oooooGVGSPEILVESPAVLESGTKEo
>C34
MAGRSGSTDEELLRVVRAVRILYQSNPYPSoSEGoTRQARKNRRRRWoRA
RQRQISEISERILSACLGRSTEPVPLQLPPLERLQLDCSEGCGTSGTQQS
QGTETGVGRPQISGESSGILGTGTKNo
>C35
MAGRSGDSDEKLLQTVRIIKILYQSNPYPKoPEGoTRQARKNRRRRWoRA
RQRQIHSIGERILSTCLGRSAEPVPLQLPPIERLTLDCSEDCGTSGTQQS
QGTETGVGRPQVSVESSAILGSGTKDo
>C36
MAGRSGSTDEELLRAVRIIKILHESNPYPSoAEGoTRQARRNRRRRWoRA
RERQIRAISERVLSSCVGRPTEPVPLQLPPLERLTLDCNEDCGTSGTQQS
QGTESGVGRPQISVESSVILGTGAKNo
>C37
MAGRSGSTDEDLLRAVRIIKILYQSNPYPSoTEGTSRQTRKNRRRRWoRA
RQRQIRALSERILSTCVGRPEEPVPFLLPPIERLHLDCSEDCGTSGIQQS
QGTETGVGRSQISGEPSGILDPGTKNo
>C38
MAGRSGDSDEDLLRAVRLIKFLYQSNPPPSoPEGoTRQARRNRRRRWoRE
RRRQIQAISDWILSTHLGRSTEPVPLQLPPIERLNLDCSEDCGTSGTQoo
oooooGVGSPQVLGESPAILDSGTKEo
>C39
MAGRSGDSDEELLKTVRLIKFLYQSNPLPSoPEGoTRQARRNRRRRWoRE
RQRQVRKISEWILTTHLGRSEEPVPFQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGNPQNSVESPAVLEPGTKEo
>C40
MAGRSGNSDEKLLKVARIIKFLHQSNPPPSoTEGoTRRARRNRRRRWoRE
RQKQIQSISNWILSNHLGRPTEPAPLQLPPLDRLTLDCSEDCGDSGTQoo
oooooRVGSSQVLLESPAILESGTKEo
>C41
MAGRSGDSDEALLQAVRIIKILYQSNPYPSoSEDooRQAooooooooooo
oooooooooooooooooooooEHVPLQLPPLERRTLDCSENPEPSGTEoo
oooooEVGNHQVPGKHCPILEHRAKKE
>C42
MAGRSGSTDEDLLRAVRIIKILYQSNPYPPoAEGoNRQTRRNRRRRWoRA
RQRQIREISDRILSTCLGRSTEPVPLQLPPLERLTLDCSEDCGTSGTQQS
QGTETGVGRPQISGESSVILGPGTKNo
>C43
MAGRSGDSDEELLKVIRTIKILYQSNPYPKoPTGoTRQARRNRRRRWoRA
RQRQIRGISERILGDYLGRPAEPVPLQLPPLERLHINCSEDCGQGTEEoo
oooooGVGSPQTSGESRALLESGTKEo
>C44
MAGRSEDRDEDLLKTVRLIKTLYQSNPLPSoPEGoTRQARRNRRRRWoRE
RQRQIREISAWILDTYLGGPKEPVPLQLPPLERLTLDCSKDCGTSGTQoo
oooooGVGSPQILVESPTVLDSGTKEo
>C45
MAGRSGDSDEELLKIVRLIKQLYQSNPLPSoPEGoTRQARRNRRRRWoRE
RQRQINWISERILNTCLGRSEEPVPLQLPPIERLTLDCNKDCGTSETQoo
oooooGVGTPQVFVESSTVLASGAKEo
>C46
MAGRSGDSDEALLQAVRIIKILYQSNPYPEoPKGoTRQARRNRRRRWoRA
RQRQIHSLSERILSTCLGRSTEPVPLQLPPIERLHIGGSESGGTSGTQoo
oooooQLGSPQISGKPCAVLGSGAKKo
>C47
MAGRSGDSDDELIKTVQLIKQIYQSNPPPSoSEGoTRQARRNRRRRWoRE
RQRHIREISGWILSTYLGRPTEPVPLPLPPLERLTLDCSEGCGTCGTQoo
oooooGVGTPQVLVESPTVLESGTKEo
>C48
MAGRSGSTDEELLRAVRIIKILYQSNPYPSoGEGoSRQTRKNRRRRWoRA
RQRQIRAICERILSSCVGRSTEPVPLQLPPLERLQLGCSEDCGTSGTQNS
PGTETGVGRPQISGESSVILGSGTKNo
>C49
MAGRSGSTDEELLKAVRIIKILYQSNPYPPoAEGoSRQTRKNRRRRWoRA
RQRQISALSERILSTCVGRSAEPVPLQLPPLERLHLTCSEDCGTSGTQQS
QGTETGVGRPQISGESSVLLGTGTKNo
>C50
MAGRSGDSDEELLKTVRLIKFLYQSNPPPSoQEGoTRQARRNRRRRWoRE
RQRQIRTISGWILSNYLGRSAEPVPLQLPPLERLTLDCNEDCGTSGTQoo
oooooGVGNPQIFVESSTVLESGTKEo
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_3/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 498 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) = 1518499803
Setting output file names to "/opt/ADOPS/HIV1_N2/REV_1_3/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) = 666261010
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 = 3389034843
Seed = 2054654589
Swapseed = 1518499803
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 107 unique site patterns
Division 2 has 93 unique site patterns
Division 3 has 104 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 -- -8916.917323 -- -77.118119
Chain 2 -- -9020.091966 -- -77.118119
Chain 3 -- -9060.333243 -- -77.118119
Chain 4 -- -9149.514506 -- -77.118119
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -8921.167948 -- -77.118119
Chain 2 -- -9077.365214 -- -77.118119
Chain 3 -- -8958.173058 -- -77.118119
Chain 4 -- -9083.815181 -- -77.118119
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-8916.917] (-9020.092) (-9060.333) (-9149.515) * [-8921.168] (-9077.365) (-8958.173) (-9083.815)
500 -- (-6825.007) [-6650.097] (-6651.528) (-7143.132) * (-6742.241) (-6656.965) [-6544.554] (-6801.839) -- 0:33:19
1000 -- (-6155.838) [-6074.144] (-6085.304) (-6342.183) * (-6139.531) (-6075.967) [-5965.252] (-6313.108) -- 0:33:18
1500 -- (-5918.893) [-5887.738] (-5938.332) (-5930.475) * (-5918.466) (-5919.040) [-5827.062] (-6093.981) -- 0:33:17
2000 -- (-5832.785) (-5838.574) (-5810.628) [-5813.336] * (-5853.809) (-5808.033) [-5758.739] (-5936.477) -- 0:33:16
2500 -- (-5796.947) (-5818.827) [-5752.383] (-5786.068) * (-5818.554) (-5782.158) [-5727.352] (-5867.040) -- 0:39:54
3000 -- (-5769.772) (-5793.169) [-5722.203] (-5799.200) * (-5777.854) (-5736.360) [-5717.526] (-5821.499) -- 0:38:46
3500 -- (-5783.543) (-5757.454) [-5723.086] (-5764.983) * (-5759.273) (-5719.689) [-5710.864] (-5804.789) -- 0:37:57
4000 -- (-5783.467) (-5752.065) (-5728.202) [-5740.261] * (-5751.837) (-5709.547) [-5714.401] (-5782.449) -- 0:37:21
4500 -- (-5756.231) (-5754.016) (-5730.592) [-5731.615] * (-5739.168) (-5718.744) [-5693.171] (-5782.073) -- 0:36:52
5000 -- (-5739.364) (-5752.934) (-5736.419) [-5716.460] * (-5736.113) (-5725.492) [-5696.356] (-5766.593) -- 0:36:29
Average standard deviation of split frequencies: 0.117211
5500 -- (-5745.893) (-5763.849) [-5703.810] (-5712.809) * (-5738.498) (-5716.613) [-5685.222] (-5731.182) -- 0:36:09
6000 -- (-5728.370) (-5740.642) [-5701.039] (-5729.117) * (-5752.119) (-5729.437) [-5696.529] (-5729.775) -- 0:38:39
6500 -- (-5727.242) (-5747.078) [-5701.633] (-5737.633) * (-5748.541) (-5726.079) [-5691.887] (-5733.542) -- 0:38:12
7000 -- (-5729.392) (-5750.326) [-5705.110] (-5717.314) * (-5731.985) (-5704.035) [-5703.169] (-5714.320) -- 0:37:49
7500 -- (-5719.286) (-5738.544) [-5700.742] (-5748.393) * (-5756.635) (-5702.721) [-5691.831] (-5708.256) -- 0:37:29
8000 -- (-5728.934) (-5743.410) [-5697.956] (-5764.174) * (-5718.589) (-5718.717) (-5724.564) [-5690.621] -- 0:37:12
8500 -- (-5715.142) (-5722.736) [-5700.976] (-5756.978) * [-5712.964] (-5720.702) (-5728.224) (-5709.710) -- 0:36:56
9000 -- (-5726.551) (-5708.348) [-5697.682] (-5741.313) * (-5723.468) (-5733.287) (-5723.624) [-5708.652] -- 0:36:42
9500 -- (-5737.735) (-5731.917) [-5693.000] (-5749.815) * (-5722.327) (-5745.465) [-5700.852] (-5730.431) -- 0:38:13
10000 -- (-5724.616) [-5707.417] (-5721.142) (-5752.447) * (-5731.929) (-5747.477) [-5703.161] (-5710.303) -- 0:37:57
Average standard deviation of split frequencies: 0.146374
10500 -- [-5717.077] (-5701.259) (-5703.542) (-5772.126) * (-5736.274) (-5735.317) [-5702.917] (-5715.286) -- 0:37:41
11000 -- (-5713.430) (-5710.661) [-5695.805] (-5781.991) * (-5733.009) (-5742.123) [-5708.695] (-5715.584) -- 0:37:27
11500 -- (-5727.311) [-5702.652] (-5704.568) (-5765.353) * (-5747.426) (-5743.199) [-5703.541] (-5701.933) -- 0:37:14
12000 -- (-5732.053) [-5712.217] (-5708.587) (-5750.210) * (-5746.148) (-5747.302) (-5712.232) [-5703.587] -- 0:37:03
12500 -- (-5741.503) (-5735.367) [-5688.815] (-5716.551) * (-5736.432) (-5729.976) (-5709.387) [-5703.526] -- 0:36:52
13000 -- (-5737.215) (-5729.435) [-5687.680] (-5704.643) * (-5731.841) (-5744.412) [-5723.748] (-5712.387) -- 0:36:41
13500 -- (-5761.370) (-5721.363) [-5695.977] (-5720.644) * (-5728.196) (-5717.788) [-5700.842] (-5730.328) -- 0:37:45
14000 -- (-5738.763) (-5716.111) [-5697.503] (-5726.981) * (-5746.180) (-5707.425) [-5697.619] (-5723.324) -- 0:37:33
14500 -- (-5739.365) [-5705.149] (-5703.451) (-5721.590) * (-5739.992) [-5698.589] (-5717.469) (-5733.411) -- 0:37:22
15000 -- (-5730.127) (-5706.435) (-5715.071) [-5706.912] * (-5744.085) [-5693.354] (-5712.808) (-5730.256) -- 0:37:12
Average standard deviation of split frequencies: 0.145299
15500 -- (-5725.483) [-5698.103] (-5709.161) (-5723.969) * (-5738.805) [-5702.512] (-5721.279) (-5719.526) -- 0:37:03
16000 -- (-5725.153) [-5694.267] (-5725.948) (-5735.119) * (-5750.257) [-5705.537] (-5720.295) (-5721.007) -- 0:36:54
16500 -- [-5711.892] (-5684.141) (-5733.427) (-5720.948) * (-5746.664) (-5711.693) (-5719.294) [-5706.200] -- 0:36:45
17000 -- (-5735.418) [-5694.900] (-5722.671) (-5727.694) * (-5759.910) (-5712.850) [-5693.249] (-5707.307) -- 0:36:37
17500 -- (-5732.930) [-5688.780] (-5716.776) (-5719.409) * (-5734.434) (-5714.837) [-5686.518] (-5718.905) -- 0:37:25
18000 -- (-5750.239) [-5690.017] (-5702.182) (-5730.835) * (-5731.811) [-5689.886] (-5702.199) (-5709.533) -- 0:37:16
18500 -- (-5775.683) (-5680.939) [-5715.391] (-5715.802) * (-5757.625) [-5695.642] (-5713.939) (-5702.053) -- 0:37:08
19000 -- (-5751.104) [-5688.660] (-5716.685) (-5730.042) * (-5746.325) (-5699.197) (-5725.331) [-5711.561] -- 0:37:00
19500 -- (-5744.166) [-5704.825] (-5713.124) (-5726.942) * (-5737.292) [-5701.933] (-5723.399) (-5724.257) -- 0:36:52
20000 -- (-5757.385) [-5695.188] (-5714.191) (-5730.095) * [-5727.301] (-5708.434) (-5709.628) (-5731.178) -- 0:36:45
Average standard deviation of split frequencies: 0.139605
20500 -- (-5726.449) [-5704.073] (-5710.484) (-5752.334) * [-5706.439] (-5707.892) (-5725.239) (-5711.460) -- 0:37:25
21000 -- (-5717.725) [-5694.632] (-5725.473) (-5714.289) * (-5722.835) (-5713.922) (-5702.844) [-5687.658] -- 0:37:17
21500 -- (-5709.510) (-5702.938) (-5731.977) [-5707.475] * (-5707.089) (-5709.195) (-5722.599) [-5686.183] -- 0:37:10
22000 -- [-5700.922] (-5716.441) (-5722.786) (-5722.692) * (-5714.628) (-5722.750) (-5717.742) [-5691.905] -- 0:37:02
22500 -- (-5706.575) (-5741.142) [-5703.442] (-5723.201) * (-5730.889) (-5721.624) (-5704.189) [-5692.026] -- 0:36:55
23000 -- [-5707.443] (-5718.668) (-5704.139) (-5748.982) * (-5732.630) [-5710.231] (-5706.668) (-5715.354) -- 0:36:48
23500 -- (-5713.346) (-5717.270) [-5713.837] (-5743.918) * (-5720.320) [-5697.081] (-5731.753) (-5691.965) -- 0:36:42
24000 -- (-5721.182) [-5711.241] (-5701.945) (-5748.707) * (-5718.562) (-5699.192) (-5748.344) [-5695.184] -- 0:37:16
24500 -- (-5726.986) (-5714.680) [-5695.921] (-5735.193) * (-5715.580) (-5686.271) (-5733.828) [-5710.294] -- 0:37:09
25000 -- (-5727.521) [-5695.647] (-5691.802) (-5737.606) * (-5712.546) (-5692.271) (-5742.335) [-5701.505] 