--- EXPERIMENT NOTES --- EXPERIMENT PROPERTIES #Fri Feb 16 22:33:06 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_RE/TAT_1_4/input.fasta input.names= mrbayes.params= codeml.params= --- PSRF SUMMARY Estimated marginal likelihoods for runs sampled in files "/opt/ADOPS/HIV1_RE/TAT_1_4/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/TAT_1_4/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_RE/TAT_1_4/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -4738.68 -4787.50 2 -4736.25 -4786.86 -------------------------------------- TOTAL -4736.86 -4787.23 -------------------------------------- Model parameter summaries over the runs sampled in files "/opt/ADOPS/HIV1_RE/TAT_1_4/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/TAT_1_4/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_RE/TAT_1_4/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 5.124730 0.140675 4.393588 5.851374 5.116412 840.11 1081.31 1.001 r(A<->C){all} 0.156338 0.000276 0.123766 0.187341 0.155553 416.74 558.93 1.002 r(A<->G){all} 0.274934 0.000833 0.220173 0.332572 0.274221 357.67 366.40 1.000 r(A<->T){all} 0.058767 0.000131 0.036944 0.081292 0.058535 580.33 615.80 1.000 r(C<->G){all} 0.051495 0.000119 0.030474 0.072698 0.050634 549.72 688.28 1.001 r(C<->T){all} 0.379676 0.001201 0.311991 0.447444 0.379774 340.52 347.03 1.000 r(G<->T){all} 0.078790 0.000219 0.052311 0.109328 0.077760 691.49 718.31 1.002 pi(A){all} 0.338014 0.000392 0.300992 0.378038 0.337848 480.26 650.28 1.000 pi(C){all} 0.256503 0.000330 0.223852 0.293376 0.256254 545.70 590.21 1.000 pi(G){all} 0.241991 0.000328 0.208873 0.277844 0.241622 528.44 605.31 1.000 pi(T){all} 0.163492 0.000257 0.130975 0.192845 0.162854 434.48 438.81 1.000 alpha{1,2} 1.182046 0.075430 0.675130 1.725750 1.151544 1202.34 1290.39 1.001 alpha{3} 1.170278 0.070091 0.690063 1.694520 1.145576 1163.29 1281.86 1.000 pinvar{all} 0.285581 0.001356 0.214959 0.354096 0.287344 1088.22 1161.36 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 -4718.453537 Model 2: PositiveSelection -4644.074739 Model 0: one-ratio -4914.398762 Model 3: discrete -4640.837846 Model 7: beta -4702.995569 Model 8: beta&w>1 -4638.130109 Model 0 vs 1 391.89044999999896 Model 2 vs 1 148.75759600000129 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.DE.12.328893.KT124765_) Pr(w>1) post mean +- SE for w 7 N 1.000** 3.078 19 R 0.988* 3.053 21 A 0.664 2.379 24 K 1.000** 3.078 29 K 1.000** 3.078 35 Q 0.871 2.810 36 A 1.000** 3.078 39 I 1.000** 3.078 40 K 0.998** 3.075 58 A 1.000** 3.078 61 N 0.997** 3.071 64 D 1.000** 3.078 67 D 0.997** 3.073 68 S 0.968* 3.013 69 L 0.859 2.785 74 S 1.000** 3.078 75 T 0.999** 3.076 77 L 1.000** 3.078 78 R 0.791 2.644 80 D 0.980* 3.037 81 P 0.735 2.528 99 P 0.509 2.059 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.DE.12.328893.KT124765_) Pr(w>1) post mean +- SE for w 7 N 1.000** 3.455 +- 0.208 19 R 0.976* 3.396 +- 0.427 24 K 1.000** 3.456 +- 0.206 29 K 1.000** 3.456 +- 0.206 35 Q 0.773 2.891 +- 1.044 36 A 1.000** 3.456 +- 0.206 39 I 1.000** 3.455 +- 0.211 40 K 0.998** 3.450 +- 0.238 58 A 1.000** 3.455 +- 0.212 61 N 0.994** 3.441 +- 0.280 64 D 1.000** 3.455 +- 0.208 67 D 0.995** 3.443 +- 0.269 68 S 0.949 3.328 +- 0.579 69 L 0.732 2.788 +- 1.101 74 S 1.000** 3.456 +- 0.206 75 T 0.999** 3.453 +- 0.221 77 L 1.000** 3.456 +- 0.206 78 R 0.644 2.569 +- 1.184 80 D 0.955* 3.343 +- 0.550 81 P 0.558 2.355 +- 1.222 Model 8 vs 7 129.73091999999997 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.DE.12.328893.KT124765_) Pr(w>1) post mean +- SE for w 7 N 1.000** 2.829 19 R 0.986* 2.803 21 A 0.689 2.251 24 K 1.000** 2.829 29 K 1.000** 2.829 35 Q 0.869 2.586 36 A 1.000** 2.829 39 I 1.000** 2.829 40 K 0.998** 2.825 58 A 0.999** 2.828 61 N 0.996** 2.821 64 D 1.000** 2.829 67 D 0.996** 2.823 68 S 0.967* 2.769 69 L 0.866 2.580 74 S 1.000** 2.829 75 T 0.999** 2.827 77 L 1.000** 2.829 78 R 0.798 2.455 80 D 0.977* 2.787 81 P 0.748 2.362 87 S 0.527 1.949 99 P 0.537 1.969 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.DE.12.328893.KT124765_) Pr(w>1) post mean +- SE for w 7 N 1.000** 2.536 +- 0.188 19 R 0.992** 2.522 +- 0.234 21 A 0.805 2.207 +- 0.636 23 N 0.649 1.954 +- 0.751 24 K 1.000** 2.537 +- 0.188 29 K 1.000** 2.537 +- 0.188 35 Q 0.917 2.395 +- 0.463 36 A 1.000** 2.536 +- 0.188 39 I 1.000** 2.536 +- 0.190 40 K 0.999** 2.534 +- 0.196 58 A 1.000** 2.536 +- 0.191 60 P 0.541 1.782 +- 0.786 61 N 0.997** 2.532 +- 0.204 63 Q 0.686 2.014 +- 0.730 64 D 1.000** 2.536 +- 0.189 67 D 0.998** 2.533 +- 0.201 68 S 0.978* 2.499 +- 0.297 69 L 0.919 2.395 +- 0.458 74 S 1.000** 2.537 +- 0.188 75 T 0.999** 2.535 +- 0.195 77 L 1.000** 2.537 +- 0.188 78 R 0.876 2.325 +- 0.539 80 D 0.987* 2.513 +- 0.255 81 P 0.847 2.275 +- 0.582 84 P 0.507 1.728 +- 0.791 87 S 0.692 2.024 +- 0.734 99 P 0.709 2.051 +- 0.721
>C1 MDPVDPNLEPWKHPGSQPRTACNKCYCKKCCFHCQACFIKKALGISYGRK KRRQRRRAPPNNQDHQDSLSKQSSTQLRGDPTGPKESKKKVETETETDPF Ao >C2 MELVDPNLEPWKHPGSQPTTACSNCYCKKCCWHCQLCFLNKGLGISYGRK KRRRRRGTPQSRQDHQNPVPKQPLPTTRGNPTDPKESKKEVASETETDPC Ao >C3 MEPVDPDLEPWNHPGSQPTTDCNKCFCKKCCWHCQVCFLKKGLGISYGRK KRKHRRGSLQGSKGHQNLIPKQPLSQQPNGDSTGPEEQKKKVASKTEADP FA >C4 MEPVDPRLEPWEHPGSQPRTACNNCYCKKCCFHCQVCFTKKGLGISYGRK KRRQRRGPPQGSQTHQVSLPKQPLSQSRGDHPTGPTESKKKVEREAETDP EY >C5 MEPIDPKLEPWNHPGSQPKTPCNKCYCKKCSYHCLVCFQTKDSGISYGRK KRRQRRSTTPSSEDHQDPVSKQPLPQTRGDPTGSEEPKKKVERKTETDPF Do >C6 MEPIDPNIEPWNQPGSRPKTACTTCYCKQCSYHCMVCFLNKGLGISYGRK KRRQRRTAPPGSKTHQDPVSKQPLSQTQRDPTGTKESKEEVESKTETDPF Ao >C7 MEPVDPNLEPWKHPGSQPKTACTKCYCKRCCFHCQACFITKGLGISYGRK KRRQRRGPPQGSQTHQVSLSKQPTSQPRGDPTGQKEQKKKVEKETETAPP Do >C8 MEPVDPNLEPWNHPGSQPETACNNCFCKRCSYHCLVCFQKKGLGISYGRK KRRQRRSAPPSSEDHQDLISKQPLSRTQGDPTGSEESKKKVESKTETDPF Do >C9 MEPVDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK KRRQRRSAPPSSEDHQNPISKQSLPQTQGDSTGSEESKKKVESKTETDPC Ao >C10 MDPVDPNLEPWNHPGSQPATPCSKCYCKKCCYHCPACFLNKGLGISYGRK KRRQRRGTSQSNKDHQNPVPKQPIPQTQGIPTGPEESKKKMESKAKTDRF Do >C11 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCFHCQVCFMKKGLGISYGRK KRRQRRRAPQSSQTHQASLSKQPASQPRGDPAGPKESKKKVESKTETDPR Ao >C12 MELVDPNLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRGTPQSSKDHQNPIPKQPSPIIRGNQTDPKESKKKVASKAETDPC Ao >C13 MEPVDPRLEPWKHPGSQPRTACNTCFCKKCCFHCQVCFMTKGLGISYGRK KRGQRRRAPQDSKTHQTPLPKQPASQQRGDPTGPKESKKKVERETEKDQG Ho >C14 MEPVDPRLEPWKHPGSQPRTACTTCYCKRCCYHCQTCFITKGLGISYGRK KRRQRRGAHQDSETHQASLSEQPASQLRGDPTGPKESKKKVESETETDPN Po >C15 MEPVDPRLEPWKHPGSQPKTACTGCYCKKCCFHCQVCFISKGLGISYGRK KRRQRRRTHQDNQDHQVPLSKQPASQPRGDPTGPKESKKEVERETATDPV Po >C16 MELVDPDLEPWNHPGSQPKTPCNNCFCKHCSYHCQVCFLTKGLGISYGRK KRRQRRSSPSSSKDHQNPISKQPLPQTRGNPTGSEESKKKVESKTKADPF Do >C17 MDPVDPSLEPWKHPGSQPATPCNNCFCKRCCYHCPCCFLTKGLGISYGRK KRRQRRRPPPSNQINQVSLSKQPTSQFRGDPTGPKESEKKVERQTETHQL Do >C18 MELVDPSLEPWNHPGSKPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK KRRRRRPGTPQSCQDHQNPVPKQPFPTTRGNPTGPKESKKEMASKTKTDQ CA >C19 MEPVDPNLEPWNHPGSQPKTACNTCYCKICSWHCQLCFLKKGLGISYGRK KRKHRRGTPQSSKDHQNPIPKQSLPISRGNPTDPKESKKTVASKAETDPC Do >C20 MEPVDPNLEPWKHPGSQPQTPCNNCYCKHCSYHCLVCFQKKGLGISYGRK KRRQRRSTPPSSEDHQNLISKQPLPQARGDPTGSKEPKKKVESKTKTDPC Do >C21 MEPVDPRLEPWKHPGSQPRTACNSCYCKRCCFHCQVCFTKKALGISYGRK KRRQRRRPPQSSKIHQDPVPKQPASQAPGNPTGPKESKKEVESKTKTDQW Do >C22 MEPVDPSLEPWNHPGSQPKTPCNHCYCKHCSYHCLVCFQRKGLGISYGRK KRRRRRSAPPSSEDHQNPISKQPLSQTRGDPTGSEESKKKVESKTETDPF Do >C23 MEPVDPKLEPWKHPGSQPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRRTPQSSKDHQNPIPEQSLSISRGNPTDQKKSKKKVASKAETDPC Do >C24 MEPVDPNLEPWNHPGSQPKTPCNKCYCKHCSYHCLVCFQTKGLGISYGRK KRRQRRSTPPSSEDHQNLISKQPLSQTRGNPTGSEESKKKVESKTKTDPF Ao >C25 MEPVDPRLEPWNHPGSQPKTACNNCYCKRCCYHCLYCFTKKGLGISYGRK KRSQRRRTPQSSKSHQDLIPEQPLSQQQGDQTGQKKQKEALESKTEADPC Do >C26 MDPVDPSLDPWNHPGSQPATACNKCYCKKCCYHCAVCFLHKGLGISYGRK KRRQRRGSPQCSKDHQNPLPKQPSTQTQGISTGSEESTKKVESKAETDRF Ao >C27 MEPVDPNLEPWNHPGSQPKTPCTNCYCKHCSYHCLVCFQTKGLGISYGRK KRRQRRSTPPSSEDHQALISKQPLSQTRGDSTGPEEQKKKVESKTKTDPC Do >C28 MEPVDPNLEPWNHPGSQPKTACNNCYCKSCSYHCLVCFQKKGLGISYGRK KRRQRRSAPQSSEDHQNPISKQPLPREHQRDSTGSEESKKKVESKTETDP FD >C29 MEPVDPRLEPWKHPGSQPKTACTNCYCKVCCFHCQVCFTTKGLGISYGRK KRRQRRKPPQDSPNHQAPLSKQPASQPRGDPTGPKESKKKVERETETDPF Do >C30 MELVDPNLDPWNHPGSQPSTPCTRCYCKRCCFHCYWCFATKGLGISHGRK KRRQRHRTPKSSPLHQDPIPKQPISQARGDPTGPKESKKEVESKTETDPC Do >C31 MEPVDPSLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLNKGLGISYGRK KRRRRRGTPQSRQDHQNPVPKQPSPITRGNPTGPKESKKEVASKTERDLC Ao >C32 MEPIDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK KRRQRRRAPPSSEDHQNPISKQPLSQPRGDPTGSEESKKKVESKTETDPC Do >C33 MEPVDPRLEPWKHPGSQPKTACTPCHCKKCCYHCQVCFLTKGLGIFYGRK KRRQRRRAHQDCKTHQVDLSKQPASQPRGNPTGPKESKKKVEGETETHPQ Ho >C34 MELVDPSLEPWNHPGSQPTTACSKCYCKMCCWHCQLCFLNKGLGISYGRK KRRRRRGTPQSRQDHQNPVPKQPLPTTRGNPTNPKESKKEVASKTETDPC Do >C35 MELVDPRLEPWNHPGSQPTTACSKCYCKICCWHCQLCFLNKGLGISYGRK KRRRRRETSQNHPDHQNPVPEQPLPIIRGNPTDPEESKKEVASKTEADRY Ao >C36 MDPIDPNIEPWNQPGSQPKTACNNCYCKKCCYHCQLCFLKKGLGISHGRK KRRQRRAAPLSSKDHQNPVPKQSTPQTRRVSTGSKESQEKVESQTEPDRF Do >C37 MEPVDPSLEPWKHPGSQPKTACNNCYCKKCCLHCQVCFTKKGLGISYGRK KRRQRRRAPPDGQSNQDSLPKQPASQFRGDPTGPKESQKKVESKTEANPL To >C38 MDPVDPNLEPWNHPGSQPKTPCNNCYCKKCSYHCVVCFQTKGLGIYYGRK KRRQRRSAPPSNKDHQNPISKQPLPRTQGNSTGSEESKKKVESKTKTDQF Do >C39 MEPVDPNLEPWNHPGSHPTTPCSKCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRGTPQSRQNHQNPVPEQPLSRIQGDPTGSKESKKEVASKAETDPC Ao >C40 MDPVDPNLEPWNHPGSQPTTPCSKCYCKKCCYHCPVCFLNKGLGISYGRK KRKQRRGTPHRSKDHQNPVPKQPIPQPQGVSTGPEKSKKKMESKAEADRF Do >C41 MELVDPNLEPWNHPGSKPKTACNNCYCKICCWHCQICFLKKGLGISYGRK KRKHRRGTPQSSKDHQHLIPKQSLSISRGNPTDPKESKKKVASKAETDPC Ao >C42 MDPVDPNLEPWNHPGSQPSTACNSCYCKRCCYHCQCCFITKGLGISYGRK KRGQRRRPPQGNKTHQGPVPEQPSSQHPGPPPGPNPSKKEVASKTEADPF DW >C43 MELVDPKLEPWNHPGSQPTTACSKCYCKLCCWHCQLCFLNKGLGISYGRK KRRRRRGTPQSRQDHQNPVPKQPLPTTRGEQTGPKESKKEVASKTETGPC Do >C44 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCLHCQVCFMKKGLGISYGRK KRRQRRRAHQDSQTHQASLSKQPASQPRGDPTGPQESKKKVESKTETDPR Do >C45 MEPVDPRLEPWKHPGSQPKTPCNNCYCKKCCFHCQVCFIKKGLGISYGRK KRRQRRRAPQDSSPNQASLSKQPASQLRGNPTGPEESKKKVERETETHPH Ao >C46 MEPVDPRLEPWKHPGSQPKTACNNCYCKKCCFHCQVCFTKKGLGISYGRK KRRQRRRTPQGSQTDQASPSKQPTAQPRGDPTGPKESKKKVERETETHPo oo >C47 MELVDPKLDPWNHPGSQPTTPCTKCYCKQCCFHCYWCFVTKGLGISYGRK KRRQRQRAPQDSQNNQVSLPKQPKSQARGNPTGPKESKKEVESKAKTDPC Do >C48 MEPIDPNLEPWKHPGSQPRTACNNCYCKKCSYHCLVCFQKKGLGISYGRK KRRQRRSAPPSSENHQDLVSKQPLPRPHGNQTVSEESKKKVESKTETDPF Do >C49 MEPVDPSLEPWKHPGSQPKTPCTSCYCKKCCFHCPACFTRKGLGIFYGRK KRKQRRRAPQDSQTHQVSLSKQPASQPRGDPTGPEESKKKVERETETDPF Do >C50 MEPVDPRLEPWKHPGSQPKTACNSCYCKKCCFHCQVCFTRKALGISYGRK KRRQRRRAPQDSKTHQASLSEQPASQPRGDPTGPKESKKKVERETETHQD Ho 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 -profile_mode S [0] cw_profile_profile -profile_comparison S [0] profile -dp_mode S [0] linked_pair_wise -ktuple D [0] 1 -ndiag D [0] 0 -diag_threshold D [0] 0 -diag_mode D [0] 0 -sim_matrix S [0] vasiliky -transform S [0] -extend_seq FL [0] 0 -outorder S [0] input -inorder S [0] aligned -seqnos S [0] off -case S [0] keep -cpu D [0] 0 -maxnseq D [0] 1000 -maxlen D [0] -1 -sample_dp D [0] 0 -weight S [0] default -seq_weight S [0] no -align FL [1] 1 -mocca FL [0] 0 -domain FL [0] 0 -start D [0] 0 -len D [0] 0 -scale D [0] 0 -mocca_interactive FL [0] 0 -method_evaluate_mode S [0] default -evaluate_mode S [1] t_coffee_fast -get_type FL [0] 0 -clean_aln D [0] 0 -clean_threshold D [1] 1 -clean_iteration D [1] 1 -clean_evaluate_mode S [0] t_coffee_fast -extend_matrix FL [0] 0 -prot_min_sim D [40] 40 -prot_max_sim D [90] 90 -prot_min_cov D [40] 40 -pdb_type S [0] d -pdb_min_sim D [35] 35 -pdb_max_sim D [100] 100 -pdb_min_cov D [50] 50 -pdb_blast_server W_F [0] EBI -blast W_F [0] -blast_server W_F [0] EBI -pdb_db W_F [0] pdb -protein_db W_F [0] uniprot -method_log W_F [0] no -struc_to_use S [0] -cache W_F [0] use -align_pdb_param_file W_F [0] no -align_pdb_hasch_mode W_F [0] hasch_ca_trace_bubble -external_aligner S [0] NO -msa_mode S [0] tree -master S [0] no -blast_nseq D [0] 0 -lalign_n_top D [0] 10 -iterate D [1] 0 -trim D [0] 0 -split D [0] 0 -trimfile S [0] default -split D [0] 0 -split_nseq_thres D [0] 0 -split_score_thres D [0] 0 -check_pdb_status D [0] 0 -clean_seq_name D [0] 0 -seq_to_keep S [0] -dpa_master_aln S [0] -dpa_maxnseq D [0] 0 -dpa_min_score1 D [0] -dpa_min_score2 D [0] -dpa_keep_tmpfile FL [0] 0 -dpa_debug D [0] 0 -multi_core S [0] templates_jobs_relax_msa_evaluate -n_core D [0] 0 -max_n_proc D [0] 0 -lib_list S [0] -prune_lib_mode S [0] 5 -tip S [0] none -rna_lib S [0] -no_warning D [0] 0 -run_local_script D [0] 0 -plugins S [0] default -proxy S [0] unset -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.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: [256258] 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: [256258] 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: [256258] 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: [256258] 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: [256258] 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: [256258] 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: [256258] 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: [256258] 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: [256258] Library Relaxation: Multi_proc [8] Relaxation Summary: [256258]--->[254749] 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= 31.746 Mb, Max= 38.863 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 MDPVDPNLEPWKHPGSQPRTACNKCYCKKCCFHCQACFIKKALGISYGRK C2 MELVDPNLEPWKHPGSQPTTACSNCYCKKCCWHCQLCFLNKGLGISYGRK C3 MEPVDPDLEPWNHPGSQPTTDCNKCFCKKCCWHCQVCFLKKGLGISYGRK C4 MEPVDPRLEPWEHPGSQPRTACNNCYCKKCCFHCQVCFTKKGLGISYGRK C5 MEPIDPKLEPWNHPGSQPKTPCNKCYCKKCSYHCLVCFQTKDSGISYGRK C6 MEPIDPNIEPWNQPGSRPKTACTTCYCKQCSYHCMVCFLNKGLGISYGRK C7 MEPVDPNLEPWKHPGSQPKTACTKCYCKRCCFHCQACFITKGLGISYGRK C8 MEPVDPNLEPWNHPGSQPETACNNCFCKRCSYHCLVCFQKKGLGISYGRK C9 MEPVDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK C10 MDPVDPNLEPWNHPGSQPATPCSKCYCKKCCYHCPACFLNKGLGISYGRK C11 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCFHCQVCFMKKGLGISYGRK C12 MELVDPNLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLKKGLGISYGRK C13 MEPVDPRLEPWKHPGSQPRTACNTCFCKKCCFHCQVCFMTKGLGISYGRK C14 MEPVDPRLEPWKHPGSQPRTACTTCYCKRCCYHCQTCFITKGLGISYGRK C15 MEPVDPRLEPWKHPGSQPKTACTGCYCKKCCFHCQVCFISKGLGISYGRK C16 MELVDPDLEPWNHPGSQPKTPCNNCFCKHCSYHCQVCFLTKGLGISYGRK C17 MDPVDPSLEPWKHPGSQPATPCNNCFCKRCCYHCPCCFLTKGLGISYGRK C18 MELVDPSLEPWNHPGSKPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK C19 MEPVDPNLEPWNHPGSQPKTACNTCYCKICSWHCQLCFLKKGLGISYGRK C20 MEPVDPNLEPWKHPGSQPQTPCNNCYCKHCSYHCLVCFQKKGLGISYGRK C21 MEPVDPRLEPWKHPGSQPRTACNSCYCKRCCFHCQVCFTKKALGISYGRK C22 MEPVDPSLEPWNHPGSQPKTPCNHCYCKHCSYHCLVCFQRKGLGISYGRK C23 MEPVDPKLEPWKHPGSQPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK C24 MEPVDPNLEPWNHPGSQPKTPCNKCYCKHCSYHCLVCFQTKGLGISYGRK C25 MEPVDPRLEPWNHPGSQPKTACNNCYCKRCCYHCLYCFTKKGLGISYGRK C26 MDPVDPSLDPWNHPGSQPATACNKCYCKKCCYHCAVCFLHKGLGISYGRK C27 MEPVDPNLEPWNHPGSQPKTPCTNCYCKHCSYHCLVCFQTKGLGISYGRK C28 MEPVDPNLEPWNHPGSQPKTACNNCYCKSCSYHCLVCFQKKGLGISYGRK C29 MEPVDPRLEPWKHPGSQPKTACTNCYCKVCCFHCQVCFTTKGLGISYGRK C30 MELVDPNLDPWNHPGSQPSTPCTRCYCKRCCFHCYWCFATKGLGISHGRK C31 MEPVDPSLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLNKGLGISYGRK C32 MEPIDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK C33 MEPVDPRLEPWKHPGSQPKTACTPCHCKKCCYHCQVCFLTKGLGIFYGRK C34 MELVDPSLEPWNHPGSQPTTACSKCYCKMCCWHCQLCFLNKGLGISYGRK C35 MELVDPRLEPWNHPGSQPTTACSKCYCKICCWHCQLCFLNKGLGISYGRK C36 MDPIDPNIEPWNQPGSQPKTACNNCYCKKCCYHCQLCFLKKGLGISHGRK C37 MEPVDPSLEPWKHPGSQPKTACNNCYCKKCCLHCQVCFTKKGLGISYGRK C38 MDPVDPNLEPWNHPGSQPKTPCNNCYCKKCSYHCVVCFQTKGLGIYYGRK C39 MEPVDPNLEPWNHPGSHPTTPCSKCYCKKCCWHCQLCFLKKGLGISYGRK C40 MDPVDPNLEPWNHPGSQPTTPCSKCYCKKCCYHCPVCFLNKGLGISYGRK C41 MELVDPNLEPWNHPGSKPKTACNNCYCKICCWHCQICFLKKGLGISYGRK C42 MDPVDPNLEPWNHPGSQPSTACNSCYCKRCCYHCQCCFITKGLGISYGRK C43 MELVDPKLEPWNHPGSQPTTACSKCYCKLCCWHCQLCFLNKGLGISYGRK C44 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCLHCQVCFMKKGLGISYGRK C45 MEPVDPRLEPWKHPGSQPKTPCNNCYCKKCCFHCQVCFIKKGLGISYGRK C46 MEPVDPRLEPWKHPGSQPKTACNNCYCKKCCFHCQVCFTKKGLGISYGRK C47 MELVDPKLDPWNHPGSQPTTPCTKCYCKQCCFHCYWCFVTKGLGISYGRK C48 MEPIDPNLEPWKHPGSQPRTACNNCYCKKCSYHCLVCFQKKGLGISYGRK C49 MEPVDPSLEPWKHPGSQPKTPCTSCYCKKCCFHCPACFTRKGLGIFYGRK C50 MEPVDPRLEPWKHPGSQPKTACNSCYCKKCCFHCQVCFTRKALGISYGRK *: :** ::**::***:* * *. *.** *. ** ** * ** :*** C1 KRRQRRRAPPNNQDHQDSLSKQSSTQLRGDPTGPKESKKKVETETETDPF C2 KRRRRRGTPQSRQDHQNPVPKQPLPTTRGNPTDPKESKKEVASETETDPC C3 KRKHRRGSLQGSKGHQNLIPKQPLSQPNGDSTGPEEQKKKVASKTEADPF C4 KRRQRRGPPQGSQTHQVSLPKQPLSQSRGDPTGPTESKKKVEREAETDPE C5 KRRQRRSTTPSSEDHQDPVSKQPLPQTRGDPTGSEEPKKKVERKTETDPF C6 KRRQRRTAPPGSKTHQDPVSKQPLSQTQRDPTGTKESKEEVESKTETDPF C7 KRRQRRGPPQGSQTHQVSLSKQPTSQPRGDPTGQKEQKKKVEKETETAPP C8 KRRQRRSAPPSSEDHQDLISKQPLSRTQGDPTGSEESKKKVESKTETDPF C9 KRRQRRSAPPSSEDHQNPISKQSLPQTQGDSTGSEESKKKVESKTETDPC C10 KRRQRRGTSQSNKDHQNPVPKQPIPQTQGIPTGPEESKKKMESKAKTDRF C11 KRRQRRRAPQSSQTHQASLSKQPASQPRGDPAGPKESKKKVESKTETDPR C12 KRKHRRGTPQSSKDHQNPIPKQPSPIIRGNQTDPKESKKKVASKAETDPC C13 KRGQRRRAPQDSKTHQTPLPKQPASQQRGDPTGPKESKKKVERETEKDQG C14 KRRQRRGAHQDSETHQASLSEQPASQLRGDPTGPKESKKKVESETETDPN C15 KRRQRRRTHQDNQDHQVPLSKQPASQPRGDPTGPKESKKEVERETATDPV C16 KRRQRRSSPSSSKDHQNPISKQPLPQTRGNPTGSEESKKKVESKTKADPF C17 KRRQRRRPPPSNQINQVSLSKQPTSQFRGDPTGPKESEKKVERQTETHQL C18 KRRRRRGTPQSCQDHQNPVPKQPFPTTRGNPTGPKESKKEMASKTKTDQC C19 KRKHRRGTPQSSKDHQNPIPKQSLPISRGNPTDPKESKKTVASKAETDPC C20 KRRQRRSTPPSSEDHQNLISKQPLPQARGDPTGSKEPKKKVESKTKTDPC C21 KRRQRRRPPQSSKIHQDPVPKQPASQAPGNPTGPKESKKEVESKTKTDQW C22 KRRRRRSAPPSSEDHQNPISKQPLSQTRGDPTGSEESKKKVESKTETDPF C23 KRKHRRRTPQSSKDHQNPIPEQSLSISRGNPTDQKKSKKKVASKAETDPC C24 KRRQRRSTPPSSEDHQNLISKQPLSQTRGNPTGSEESKKKVESKTKTDPF C25 KRSQRRRTPQSSKSHQDLIPEQPLSQQQGDQTGQKKQKEALESKTEADPC C26 KRRQRRGSPQCSKDHQNPLPKQPSTQTQGISTGSEESTKKVESKAETDRF C27 KRRQRRSTPPSSEDHQALISKQPLSQTRGDSTGPEEQKKKVESKTKTDPC C28 KRRQRRSAPQSSEDHQNPISKQPLPEHQRDSTGSEESKKKVESKTETDPF C29 KRRQRRKPPQDSPNHQAPLSKQPASQPRGDPTGPKESKKKVERETETDPF C30 KRRQRHRTPKSSPLHQDPIPKQPISQARGDPTGPKESKKEVESKTETDPC C31 KRRRRRGTPQSRQDHQNPVPKQPSPITRGNPTGPKESKKEVASKTERDLC C32 KRRQRRRAPPSSEDHQNPISKQPLSQPRGDPTGSEESKKKVESKTETDPC C33 KRRQRRRAHQDCKTHQVDLSKQPASQPRGNPTGPKESKKKVEGETETHPQ C34 KRRRRRGTPQSRQDHQNPVPKQPLPTTRGNPTNPKESKKEVASKTETDPC C35 KRRRRRETSQNHPDHQNPVPEQPLPIIRGNPTDPEESKKEVASKTEADRY C36 KRRQRRAAPLSSKDHQNPVPKQSTPQTRRVSTGSKESQEKVESQTEPDRF C37 KRRQRRRAPPDGQSNQDSLPKQPASQFRGDPTGPKESQKKVESKTEANPL C38 KRRQRRSAPPSNKDHQNPISKQPLPRTQGNSTGSEESKKKVESKTKTDQF C39 KRKHRRGTPQSRQNHQNPVPEQPLSRIQGDPTGSKESKKEVASKAETDPC C40 KRKQRRGTPHRSKDHQNPVPKQPIPQPQGVSTGPEKSKKKMESKAEADRF C41 KRKHRRGTPQSSKDHQHLIPKQSLSISRGNPTDPKESKKKVASKAETDPC C42 KRGQRRRPPQGNKTHQGPVPEQPSSQHPGPPPGPNPSKKEVASKTEADPF C43 KRRRRRGTPQSRQDHQNPVPKQPLPTTRGEQTGPKESKKEVASKTETGPC C44 KRRQRRRAHQDSQTHQASLSKQPASQPRGDPTGPQESKKKVESKTETDPR C45 KRRQRRRAPQDSSPNQASLSKQPASQLRGNPTGPEESKKKVERETETHPH C46 KRRQRRRTPQGSQTDQASPSKQPTAQPRGDPTGPKESKKKVERETETHPo C47 KRRQRQRAPQDSQNNQVSLPKQPKSQARGNPTGPKESKKEVESKAKTDPC C48 KRRQRRSAPPSSENHQDLVSKQPLPRPHGNQTVSEESKKKVESKTETDPF C49 KRKQRRRAPQDSQTHQVSLSKQPASQPRGDPTGPEESKKKVERETETDPF C50 KRRQRRRAPQDSKTHQASLSEQPASQPRGDPTGPKESKKKVERETETHQD ** :*: . .* .:*. . . : : :: C1 A C2 A C3 A C4 Y C5 D C6 A C7 D C8 D C9 A C10 D C11 A C12 A C13 H C14 P C15 P C16 D C17 D C18 A C19 D C20 D C21 D C22 D C23 D C24 A C25 D C26 A C27 D C28 D C29 D C30 D C31 A C32 D C33 H C34 D C35 A C36 D C37 T C38 D C39 A C40 D C41 A C42 D C43 D C44 D C45 A C46 o C47 D C48 D C49 D C50 H 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:99 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 69.61 C1 C2 69.61 TOP 1 0 69.61 C2 C1 69.61 BOT 0 2 64.36 C1 C3 64.36 TOP 2 0 64.36 C3 C1 64.36 BOT 0 3 76.24 C1 C4 76.24 TOP 3 0 76.24 C4 C1 76.24 BOT 0 4 68.63 C1 C5 68.63 TOP 4 0 68.63 C5 C1 68.63 BOT 0 5 65.69 C1 C6 65.69 TOP 5 0 65.69 C6 C1 65.69 BOT 0 6 77.45 C1 C7 77.45 TOP 6 0 77.45 C7 C1 77.45 BOT 0 7 71.57 C1 C8 71.57 TOP 7 0 71.57 C8 C1 71.57 BOT 0 8 71.57 C1 C9 71.57 TOP 8 0 71.57 C9 C1 71.57 BOT 0 9 67.65 C1 C10 67.65 TOP 9 0 67.65 C10 C1 67.65 BOT 0 10 79.41 C1 C11 79.41 TOP 10 0 79.41 C11 C1 79.41 BOT 0 11 66.67 C1 C12 66.67 TOP 11 0 66.67 C12 C1 66.67 BOT 0 12 74.51 C1 C13 74.51 TOP 12 0 74.51 C13 C1 74.51 BOT 0 13 76.47 C1 C14 76.47 TOP 13 0 76.47 C14 C1 76.47 BOT 0 14 77.45 C1 C15 77.45 TOP 14 0 77.45 C15 C1 77.45 BOT 0 15 64.71 C1 C16 64.71 TOP 15 0 64.71 C16 C1 64.71 BOT 0 16 72.55 C1 C17 72.55 TOP 16 0 72.55 C17 C1 72.55 BOT 0 17 65.35 C1 C18 65.35 TOP 17 0 65.35 C18 C1 65.35 BOT 0 18 65.69 C1 C19 65.69 TOP 18 0 65.69 C19 C1 65.69 BOT 0 19 70.59 C1 C20 70.59 TOP 19 0 70.59 C20 C1 70.59 BOT 0 20 72.55 C1 C21 72.55 TOP 20 0 72.55 C21 C1 72.55 BOT 0 21 69.61 C1 C22 69.61 TOP 21 0 69.61 C22 C1 69.61 BOT 0 22 66.67 C1 C23 66.67 TOP 22 0 66.67 C23 C1 66.67 BOT 0 23 70.59 C1 C24 70.59 TOP 23 0 70.59 C24 C1 70.59 BOT 0 24 61.76 C1 C25 61.76 TOP 24 0 61.76 C25 C1 61.76 BOT 0 25 69.61 C1 C26 69.61 TOP 25 0 69.61 C26 C1 69.61 BOT 0 26 66.67 C1 C27 66.67 TOP 26 0 66.67 C27 C1 66.67 BOT 0 27 68.32 C1 C28 68.32 TOP 27 0 68.32 C28 C1 68.32 BOT 0 28 75.49 C1 C29 75.49 TOP 28 0 75.49 C29 C1 75.49 BOT 0 29 66.67 C1 C30 66.67 TOP 29 0 66.67 C30 C1 66.67 BOT 0 30 67.65 C1 C31 67.65 TOP 30 0 67.65 C31 C1 67.65 BOT 0 31 71.57 C1 C32 71.57 TOP 31 0 71.57 C32 C1 71.57 BOT 0 32 71.57 C1 C33 71.57 TOP 32 0 71.57 C33 C1 71.57 BOT 0 33 65.69 C1 C34 65.69 TOP 33 0 65.69 C34 C1 65.69 BOT 0 34 61.76 C1 C35 61.76 TOP 34 0 61.76 C35 C1 61.76 BOT 0 35 66.67 C1 C36 66.67 TOP 35 0 66.67 C36 C1 66.67 BOT 0 36 76.47 C1 C37 76.47 TOP 36 0 76.47 C37 C1 76.47 BOT 0 37 67.65 C1 C38 67.65 TOP 37 0 67.65 C38 C1 67.65 BOT 0 38 64.71 C1 C39 64.71 TOP 38 0 64.71 C39 C1 64.71 BOT 0 39 63.73 C1 C40 63.73 TOP 39 0 63.73 C40 C1 63.73 BOT 0 40 66.67 C1 C41 66.67 TOP 40 0 66.67 C41 C1 66.67 BOT 0 41 66.67 C1 C42 66.67 TOP 41 0 66.67 C42 C1 66.67 BOT 0 42 64.71 C1 C43 64.71 TOP 42 0 64.71 C43 C1 64.71 BOT 0 43 76.47 C1 C44 76.47 TOP 43 0 76.47 C44 C1 76.47 BOT 0 44 78.43 C1 C45 78.43 TOP 44 0 78.43 C45 C1 78.43 BOT 0 45 77.45 C1 C46 77.45 TOP 45 0 77.45 C46 C1 77.45 BOT 0 46 66.67 C1 C47 66.67 TOP 46 0 66.67 C47 C1 66.67 BOT 0 47 70.59 C1 C48 70.59 TOP 47 0 70.59 C48 C1 70.59 BOT 0 48 76.47 C1 C49 76.47 TOP 48 0 76.47 C49 C1 76.47 BOT 0 49 77.45 C1 C50 77.45 TOP 49 0 77.45 C50 C1 77.45 BOT 1 2 68.32 C2 C3 68.32 TOP 2 1 68.32 C3 C2 68.32 BOT 1 3 71.29 C2 C4 71.29 TOP 3 1 71.29 C4 C2 71.29 BOT 1 4 64.71 C2 C5 64.71 TOP 4 1 64.71 C5 C2 64.71 BOT 1 5 65.69 C2 C6 65.69 TOP 5 1 65.69 C6 C2 65.69 BOT 1 6 68.63 C2 C7 68.63 TOP 6 1 68.63 C7 C2 68.63 BOT 1 7 66.67 C2 C8 66.67 TOP 7 1 66.67 C8 C2 66.67 BOT 1 8 70.59 C2 C9 70.59 TOP 8 1 70.59 C9 C2 70.59 BOT 1 9 72.55 C2 C10 72.55 TOP 9 1 72.55 C10 C2 72.55 BOT 1 10 72.55 C2 C11 72.55 TOP 10 1 72.55 C11 C2 72.55 BOT 1 11 86.27 C2 C12 86.27 TOP 11 1 86.27 C12 C2 86.27 BOT 1 12 67.65 C2 C13 67.65 TOP 12 1 67.65 C13 C2 67.65 BOT 1 13 68.63 C2 C14 68.63 TOP 13 1 68.63 C14 C2 68.63 BOT 1 14 72.55 C2 C15 72.55 TOP 14 1 72.55 C15 C2 72.55 BOT 1 15 70.59 C2 C16 70.59 TOP 15 1 70.59 C16 C2 70.59 BOT 1 16 62.75 C2 C17 62.75 TOP 16 1 62.75 C17 C2 62.75 BOT 1 17 88.12 C2 C18 88.12 TOP 17 1 88.12 C18 C2 88.12 BOT 1 18 80.39 C2 C19 80.39 TOP 18 1 80.39 C19 C2 80.39 BOT 1 19 70.59 C2 C20 70.59 TOP 19 1 70.59 C20 C2 70.59 BOT 1 20 70.59 C2 C21 70.59 TOP 20 1 70.59 C21 C2 70.59 BOT 1 21 68.63 C2 C22 68.63 TOP 21 1 68.63 C22 C2 68.63 BOT 1 22 79.41 C2 C23 79.41 TOP 22 1 79.41 C23 C2 79.41 BOT 1 23 69.61 C2 C24 69.61 TOP 23 1 69.61 C24 C2 69.61 BOT 1 24 62.75 C2 C25 62.75 TOP 24 1 62.75 C25 C2 62.75 BOT 1 25 66.67 C2 C26 66.67 TOP 25 1 66.67 C26 C2 66.67 BOT 1 26 67.65 C2 C27 67.65 TOP 26 1 67.65 C27 C2 67.65 BOT 1 27 68.32 C2 C28 68.32 TOP 27 1 68.32 C28 C2 68.32 BOT 1 28 70.59 C2 C29 70.59 TOP 28 1 70.59 C29 C2 70.59 BOT 1 29 69.61 C2 C30 69.61 TOP 29 1 69.61 C30 C2 69.61 BOT 1 30 91.18 C2 C31 91.18 TOP 30 1 91.18 C31 C2 91.18 BOT 1 31 69.61 C2 C32 69.61 TOP 31 1 69.61 C32 C2 69.61 BOT 1 32 67.65 C2 C33 67.65 TOP 32 1 67.65 C33 C2 67.65 BOT 1 33 93.14 C2 C34 93.14 TOP 33 1 93.14 C34 C2 93.14 BOT 1 34 83.33 C2 C35 83.33 TOP 34 1 83.33 C35 C2 83.33 BOT 1 35 66.67 C2 C36 66.67 TOP 35 1 66.67 C36 C2 66.67 BOT 1 36 67.65 C2 C37 67.65 TOP 36 1 67.65 C37 C2 67.65 BOT 1 37 66.67 C2 C38 66.67 TOP 37 1 66.67 C38 C2 66.67 BOT 1 38 81.37 C2 C39 81.37 TOP 38 1 81.37 C39 C2 81.37 BOT 1 39 68.63 C2 C40 68.63 TOP 39 1 68.63 C40 C2 68.63 BOT 1 40 79.41 C2 C41 79.41 TOP 40 1 79.41 C41 C2 79.41 BOT 1 41 64.71 C2 C42 64.71 TOP 41 1 64.71 C42 C2 64.71 BOT 1 42 90.20 C2 C43 90.20 TOP 42 1 90.20 C43 C2 90.20 BOT 1 43 69.61 C2 C44 69.61 TOP 43 1 69.61 C44 C2 69.61 BOT 1 44 68.63 C2 C45 68.63 TOP 44 1 68.63 C45 C2 68.63 BOT 1 45 70.59 C2 C46 70.59 TOP 45 1 70.59 C46 C2 70.59 BOT 1 46 67.65 C2 C47 67.65 TOP 46 1 67.65 C47 C2 67.65 BOT 1 47 68.63 C2 C48 68.63 TOP 47 1 68.63 C48 C2 68.63 BOT 1 48 65.69 C2 C49 65.69 TOP 48 1 65.69 C49 C2 65.69 BOT 1 49 65.69 C2 C50 65.69 TOP 49 1 65.69 C50 C2 65.69 BOT 2 3 71.29 C3 C4 71.29 TOP 3 2 71.29 C4 C3 71.29 BOT 2 4 65.35 C3 C5 65.35 TOP 4 2 65.35 C5 C3 65.35 BOT 2 5 63.37 C3 C6 63.37 TOP 5 2 63.37 C6 C3 63.37 BOT 2 6 67.33 C3 C7 67.33 TOP 6 2 67.33 C7 C3 67.33 BOT 2 7 71.29 C3 C8 71.29 TOP 7 2 71.29 C8 C3 71.29 BOT 2 8 69.31 C3 C9 69.31 TOP 8 2 69.31 C9 C3 69.31 BOT 2 9 67.33 C3 C10 67.33 TOP 9 2 67.33 C10 C3 67.33 BOT 2 10 70.30 C3 C11 70.30 TOP 10 2 70.30 C11 C3 70.30 BOT 2 11 74.26 C3 C12 74.26 TOP 11 2 74.26 C12 C3 74.26 BOT 2 12 69.31 C3 C13 69.31 TOP 12 2 69.31 C13 C3 69.31 BOT 2 13 65.35 C3 C14 65.35 TOP 13 2 65.35 C14 C3 65.35 BOT 2 14 64.36 C3 C15 64.36 TOP 14 2 64.36 C15 C3 64.36 BOT 2 15 73.27 C3 C16 73.27 TOP 15 2 73.27 C16 C3 73.27 BOT 2 16 59.41 C3 C17 59.41 TOP 16 2 59.41 C17 C3 59.41 BOT 2 17 68.32 C3 C18 68.32 TOP 17 2 68.32 C18 C3 68.32 BOT 2 18 72.28 C3 C19 72.28 TOP 18 2 72.28 C19 C3 72.28 BOT 2 19 67.33 C3 C20 67.33 TOP 19 2 67.33 C20 C3 67.33 BOT 2 20 66.34 C3 C21 66.34 TOP 20 2 66.34 C21 C3 66.34 BOT 2 21 70.30 C3 C22 70.30 TOP 21 2 70.30 C22 C3 70.30 BOT 2 22 72.28 C3 C23 72.28 TOP 22 2 72.28 C23 C3 72.28 BOT 2 23 71.29 C3 C24 71.29 TOP 23 2 71.29 C24 C3 71.29 BOT 2 24 69.31 C3 C25 69.31 TOP 24 2 69.31 C25 C3 69.31 BOT 2 25 72.28 C3 C26 72.28 TOP 25 2 72.28 C26 C3 72.28 BOT 2 26 70.30 C3 C27 70.30 TOP 26 2 70.30 C27 C3 70.30 BOT 2 27 69.61 C3 C28 69.61 TOP 27 2 69.61 C28 C3 69.61 BOT 2 28 67.33 C3 C29 67.33 TOP 28 2 67.33 C29 C3 67.33 BOT 2 29 62.38 C3 C30 62.38 TOP 29 2 62.38 C30 C3 62.38 BOT 2 30 69.31 C3 C31 69.31 TOP 30 2 69.31 C31 C3 69.31 BOT 2 31 69.31 C3 C32 69.31 TOP 31 2 69.31 C32 C3 69.31 BOT 2 32 65.35 C3 C33 65.35 TOP 32 2 65.35 C33 C3 65.35 BOT 2 33 69.31 C3 C34 69.31 TOP 33 2 69.31 C34 C3 69.31 BOT 2 34 69.31 C3 C35 69.31 TOP 34 2 69.31 C35 C3 69.31 BOT 2 35 61.39 C3 C36 61.39 TOP 35 2 61.39 C36 C3 61.39 BOT 2 36 67.33 C3 C37 67.33 TOP 36 2 67.33 C37 C3 67.33 BOT 2 37 65.35 C3 C38 65.35 TOP 37 2 65.35 C38 C3 65.35 BOT 2 38 74.26 C3 C39 74.26 TOP 38 2 74.26 C39 C3 74.26 BOT 2 39 73.27 C3 C40 73.27 TOP 39 2 73.27 C40 C3 73.27 BOT 2 40 74.26 C3 C41 74.26 TOP 40 2 74.26 C41 C3 74.26 BOT 2 41 67.33 C3 C42 67.33 TOP 41 2 67.33 C42 C3 67.33 BOT 2 42 69.31 C3 C43 69.31 TOP 42 2 69.31 C43 C3 69.31 BOT 2 43 70.30 C3 C44 70.30 TOP 43 2 70.30 C44 C3 70.30 BOT 2 44 67.33 C3 C45 67.33 TOP 44 2 67.33 C45 C3 67.33 BOT 2 45 67.33 C3 C46 67.33 TOP 45 2 67.33 C46 C3 67.33 BOT 2 46 61.39 C3 C47 61.39 TOP 46 2 61.39 C47 C3 61.39 BOT 2 47 66.34 C3 C48 66.34 TOP 47 2 66.34 C48 C3 66.34 BOT 2 48 67.33 C3 C49 67.33 TOP 48 2 67.33 C49 C3 67.33 BOT 2 49 65.35 C3 C50 65.35 TOP 49 2 65.35 C50 C3 65.35 BOT 3 4 67.33 C4 C5 67.33 TOP 4 3 67.33 C5 C4 67.33 BOT 3 5 65.35 C4 C6 65.35 TOP 5 3 65.35 C6 C4 65.35 BOT 3 6 80.20 C4 C7 80.20 TOP 6 3 80.20 C7 C4 80.20 BOT 3 7 71.29 C4 C8 71.29 TOP 7 3 71.29 C8 C4 71.29 BOT 3 8 69.31 C4 C9 69.31 TOP 8 3 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C39 65.69 BOT 38 48 64.71 C39 C49 64.71 TOP 48 38 64.71 C49 C39 64.71 BOT 38 49 62.75 C39 C50 62.75 TOP 49 38 62.75 C50 C39 62.75 BOT 39 40 65.69 C40 C41 65.69 TOP 40 39 65.69 C41 C40 65.69 BOT 39 41 67.65 C40 C42 67.65 TOP 41 39 67.65 C42 C40 67.65 BOT 39 42 70.59 C40 C43 70.59 TOP 42 39 70.59 C43 C40 70.59 BOT 39 43 65.69 C40 C44 65.69 TOP 43 39 65.69 C44 C40 65.69 BOT 39 44 62.75 C40 C45 62.75 TOP 44 39 62.75 C45 C40 62.75 BOT 39 45 62.75 C40 C46 62.75 TOP 45 39 62.75 C46 C40 62.75 BOT 39 46 63.73 C40 C47 63.73 TOP 46 39 63.73 C47 C40 63.73 BOT 39 47 67.65 C40 C48 67.65 TOP 47 39 67.65 C48 C40 67.65 BOT 39 48 67.65 C40 C49 67.65 TOP 48 39 67.65 C49 C40 67.65 BOT 39 49 61.76 C40 C50 61.76 TOP 49 39 61.76 C50 C40 61.76 BOT 40 41 63.73 C41 C42 63.73 TOP 41 40 63.73 C42 C41 63.73 BOT 40 42 74.51 C41 C43 74.51 TOP 42 40 74.51 C43 C41 74.51 BOT 40 43 68.63 C41 C44 68.63 TOP 43 40 68.63 C44 C41 68.63 BOT 40 44 67.65 C41 C45 67.65 TOP 44 40 67.65 C45 C41 67.65 BOT 40 45 67.65 C41 C46 67.65 TOP 45 40 67.65 C46 C41 67.65 BOT 40 46 66.67 C41 C47 66.67 TOP 46 40 66.67 C47 C41 66.67 BOT 40 47 66.67 C41 C48 66.67 TOP 47 40 66.67 C48 C41 66.67 BOT 40 48 63.73 C41 C49 63.73 TOP 48 40 63.73 C49 C41 63.73 BOT 40 49 64.71 C41 C50 64.71 TOP 49 40 64.71 C50 C41 64.71 BOT 41 42 65.69 C42 C43 65.69 TOP 42 41 65.69 C43 C42 65.69 BOT 41 43 66.67 C42 C44 66.67 TOP 43 41 66.67 C44 C42 66.67 BOT 41 44 62.75 C42 C45 62.75 TOP 44 41 62.75 C45 C42 62.75 BOT 41 45 63.73 C42 C46 63.73 TOP 45 41 63.73 C46 C42 63.73 BOT 41 46 62.75 C42 C47 62.75 TOP 46 41 62.75 C47 C42 62.75 BOT 41 47 61.76 C42 C48 61.76 TOP 47 41 61.76 C48 C42 61.76 BOT 41 48 64.71 C42 C49 64.71 TOP 48 41 64.71 C49 C42 64.71 BOT 41 49 65.69 C42 C50 65.69 TOP 49 41 65.69 C50 C42 65.69 BOT 42 43 67.65 C43 C44 67.65 TOP 43 42 67.65 C44 C43 67.65 BOT 42 44 62.75 C43 C45 62.75 TOP 44 42 62.75 C45 C43 62.75 BOT 42 45 66.67 C43 C46 66.67 TOP 45 42 66.67 C46 C43 66.67 BOT 42 46 70.59 C43 C47 70.59 TOP 46 42 70.59 C47 C43 70.59 BOT 42 47 65.69 C43 C48 65.69 TOP 47 42 65.69 C48 C43 65.69 BOT 42 48 62.75 C43 C49 62.75 TOP 48 42 62.75 C49 C43 62.75 BOT 42 49 62.75 C43 C50 62.75 TOP 49 42 62.75 C50 C43 62.75 BOT 43 44 84.31 C44 C45 84.31 TOP 44 43 84.31 C45 C44 84.31 BOT 43 45 84.31 C44 C46 84.31 TOP 45 43 84.31 C46 C44 84.31 BOT 43 46 73.53 C44 C47 73.53 TOP 46 43 73.53 C47 C44 73.53 BOT 43 47 73.53 C44 C48 73.53 TOP 47 43 73.53 C48 C44 73.53 BOT 43 48 84.31 C44 C49 84.31 TOP 48 43 84.31 C49 C44 84.31 BOT 43 49 84.31 C44 C50 84.31 TOP 49 43 84.31 C50 C44 84.31 BOT 44 45 85.29 C45 C46 85.29 TOP 45 44 85.29 C46 C45 85.29 BOT 44 46 72.55 C45 C47 72.55 TOP 46 44 72.55 C47 C45 72.55 BOT 44 47 70.59 C45 C48 70.59 TOP 47 44 70.59 C48 C45 70.59 BOT 44 48 82.35 C45 C49 82.35 TOP 48 44 82.35 C49 C45 82.35 BOT 44 49 85.29 C45 C50 85.29 TOP 49 44 85.29 C50 C45 85.29 BOT 45 46 67.65 C46 C47 67.65 TOP 46 45 67.65 C47 C46 67.65 BOT 45 47 69.61 C46 C48 69.61 TOP 47 45 69.61 C48 C46 69.61 BOT 45 48 80.39 C46 C49 80.39 TOP 48 45 80.39 C49 C46 80.39 BOT 45 49 86.27 C46 C50 86.27 TOP 49 45 86.27 C50 C46 86.27 BOT 46 47 61.76 C47 C48 61.76 TOP 47 46 61.76 C48 C47 61.76 BOT 46 48 73.53 C47 C49 73.53 TOP 48 46 73.53 C49 C47 73.53 BOT 46 49 67.65 C47 C50 67.65 TOP 49 46 67.65 C50 C47 67.65 BOT 47 48 68.63 C48 C49 68.63 TOP 48 47 68.63 C49 C48 68.63 BOT 47 49 66.67 C48 C50 66.67 TOP 49 47 66.67 C50 C48 66.67 BOT 48 49 84.31 C49 C50 84.31 TOP 49 48 84.31 C50 C49 84.31 AVG 0 C1 * 70.06 AVG 1 C2 * 71.81 AVG 2 C3 * 68.24 AVG 3 C4 * 71.87 AVG 4 C5 * 70.06 AVG 5 C6 * 67.24 AVG 6 C7 * 70.78 AVG 7 C8 * 72.97 AVG 8 C9 * 73.59 AVG 9 C10 * 69.32 AVG 10 C11 * 74.81 AVG 11 C12 * 70.77 AVG 12 C13 * 70.56 AVG 13 C14 * 71.30 AVG 14 C15 * 71.38 AVG 15 C16 * 72.17 AVG 16 C17 * 66.88 AVG 17 C18 * 69.10 AVG 18 C19 * 70.95 AVG 19 C20 * 72.95 AVG 20 C21 * 71.45 AVG 21 C22 * 73.97 AVG 22 C23 * 69.82 AVG 23 C24 * 73.95 AVG 24 C25 * 67.40 AVG 25 C26 * 68.66 AVG 26 C27 * 72.89 AVG 27 C28 * 72.79 AVG 28 C29 * 73.69 AVG 29 C30 * 68.84 AVG 30 C31 * 71.13 AVG 31 C32 * 75.21 AVG 32 C33 * 69.56 AVG 33 C34 * 71.55 AVG 34 C35 * 66.74 AVG 35 C36 * 65.38 AVG 36 C37 * 70.48 AVG 37 C38 * 70.30 AVG 38 C39 * 69.41 AVG 39 C40 * 67.98 AVG 40 C41 * 69.91 AVG 41 C42 * 65.52 AVG 42 C43 * 70.47 AVG 43 C44 * 74.07 AVG 44 C45 * 71.72 AVG 45 C46 * 71.77 AVG 46 C47 * 67.68 AVG 47 C48 * 70.58 AVG 48 C49 * 71.14 AVG 49 C50 * 70.86 TOT TOT * 70.64 CLUSTAL W (1.83) multiple sequence alignment C1 ATGGATCCAGTAGATCCTAATCTAGAGCCCTGGAAGCATCCAGGAAGTCA C2 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAAACACCCGGGAAGTCA C3 ATGGAGCCAGTAGATCCTGACCTAGAGCCCTGGAACCATCCGGGAAGTCA C4 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGGAGCATCCAGGAAGCCA C5 ATGGAGCCAATAGATCCTAAACTAGAGCCCTGGAACCATCCAGGAAGTCA C6 ATGGAGCCAATAGATCCTAACATAGAGCCCTGGAATCAGCCAGGAAGTCG C7 ATGGAGCCCGTAGATCCTAACTTAGAGCCCTGGAAGCATCCAGGAAGTCA C8 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGAAGTCA C9 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGGAGTCA C10 ATGGATCCGGTAGATCCTAACCTAGAGCCCTGGAACCACCCGGGAAGTCA C11 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAGCATCCGGGAAGTCA C12 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAAGCATCCGGGAAGTCA C13 ATGGAACCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA C14 ATGGAGCCAGTAGATCCTAGACTGGAGCCCTGGAAGCATCCGGGGAGCCA C15 ATGGAACCAGTAGACCCTAGGCTAGAGCCCTGGAAACACCCAGGAAGTCA C16 ATGGAGCTAGTAGATCCTGACCTAGAGCCCTGGAACCATCCAGGAAGTCA C17 ATGGATCCAGTAGATCCTAGCCTAGAGCCCTGGAAGCATCCAGGAAGTCA C18 ATGGAGCTGGTAGATCCTAGCCTAGAGCCATGGAACCACCCGGGAAGTAA C19 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAATCATCCGGGAAGTCA C20 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAAGCATCCAGGAAGTCA C21 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA C22 ATGGAACCAGTGGATCCTAGCCTAGAGCCCTGGAATCATCCAGGAAGTCA C23 ATGGAGCCAGTAGATCCTAAACTAGAGCCCTGGAAACATCCAGGAAGTCA C24 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGAAGTCA C25 ATGGAACCAGTAGATCCTAGATTAGAGCCCTGGAATCATCCAGGAAGCCA C26 ATGGATCCAGTAGATCCTAGCCTAGATCCCTGGAACCATCCGGGAAGCCA C27 ATGGAGCCAGTAGATCCTAACTTAGAGCCCTGGAACCATCCAGGAAGTCA C28 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCACCCAGGAAGTCA C29 ATGGAGCCGGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA C30 ATGGAGCTAGTAGATCCTAACTTAGATCCCTGGAACCATCCAGGAAGTCA C31 ATGGAGCCGGTAGATCCTAGCCTAGAGCCATGGAAACACCCGGGAAGTCA C32 ATGGAGCCAATAGATCCTAATCTAGAGCCCTGGAACCATCCAGGAAGCCA C33 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA C34 ATGGAGCTGGTAGATCCTAGCCTAGAGCCCTGGAACCACCCGGGAAGTCA C35 ATGGAGCTGGTAGATCCTAGATTAGAGCCCTGGAACCACCCGGGAAGTCA C36 ATGGATCCAATAGATCCTAACATAGAGCCCTGGAATCAGCCAGGAAGTCA C37 ATGGAGCCAGTAGATCCTAGCCTAGAGCCCTGGAAGCATCCAGGAAGTCA C38 ATGGATCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCGGGAAGTCA C39 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAATCATCCAGGAAGTCA C40 ATGGATCCGGTAGATCCTAACCTAGAGCCCTGGAACCACCCGGGAAGTCA C41 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAATCATCCAGGAAGTAA C42 ATGGATCCAGTAGATCCTAATCTAGAGCCCTGGAACCATCCAGGAAGTCA C43 ATGGAGCTGGTAGATCCTAAACTAGAGCCCTGGAACCACCCAGGAAGTCA C44 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAGCATCCAGGAAGTCA C45 ATGGAGCCAGTAGATCCTAGGCTAGAGCCCTGGAAGCACCCAGGAAGTCA C46 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA C47 ATGGAGCTAGTAGATCCTAAACTAGATCCCTGGAACCATCCAGGAAGCCA C48 ATGGAGCCAATAGATCCTAACCTAGAGCCCTGGAAGCATCCAGGAAGTCA C49 ATGGAGCCAGTAGATCCTAGTCTAGAGCCATGGAAGCATCCAGGAAGTCA C50 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAACATCCAGGAAGTCA ***** * .*.** ***.. *.** **.***.* ** **.**.** .. C1 GCCTAGGACTGCTTGTAACAAATGCTATTGTAAAAAGTGTTGCTTTCATT C2 GCCTACAACTGCTTGTAGCAATTGCTATTGTAAAAAGTGCTGCTGGCATT C3 GCCTACAACTGATTGTAACAAGTGTTTCTGTAAAAAGTGTTGCTGGCATT C4 GCCTAGGACTGCTTGTAATAATTGCTATTGTAAAAAGTGCTGCTTTCATT C5 GCCTAAAACTCCTTGCAATAAGTGCTATTGTAAAAAATGCAGCTATCATT C6 GCCTAAGACTGCTTGTACCACATGCTATTGTAAACAGTGTTCCTATCATT C7 GCCTAAGACTGCTTGTACCAAGTGCTATTGTAAAAGGTGTTGCTTTCATT C8 GCCTGAAACTGCTTGCAACAACTGTTTTTGTAAACGCTGTAGCTACCATT C9 GCCTAAAACTGCTTGCAATAACTGTTATTGTAAACGCTGTAGCTACCACT C10 GCCTGCAACACCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTATCATT C11 GCCTAAGACTGCTTGTACCAATTGCTATTGTAAAAAGTGCTGCTTTCATT C12 GCCTACAACTCCTTGTAGCAATTGTTATTGTAAAAAATGTTGCTGGCATT C13 ACCTAGGACTGCTTGTAACACTTGCTTTTGTAAAAAATGTTGCTTTCATT C14 GCCTAGGACTGCCTGTACCACTTGCTATTGTAAAAGGTGTTGCTATCATT C15 GCCTAAGACTGCTTGTACCGGTTGCTATTGTAAAAAGTGTTGCTTTCATT C16 GCCTAAAACTCCTTGTAACAATTGCTTTTGTAAACACTGTAGTTATCATT C17 GCCTGCGACTCCTTGTAACAATTGCTTTTGTAAAAGGTGTTGCTATCATT C18 GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAAAAGTGCTGCTGGCATT C19 GCCTAAAACTGCTTGTAACACATGTTACTGTAAAATATGTAGCTGGCATT C20 GCCTCAAACTCCTTGTAATAATTGCTATTGTAAACACTGTAGCTACCATT C21 ACCTAGAACTGCTTGTAATAGTTGCTATTGTAAGAGGTGTTGCTTTCATT C22 GCCTAAAACTCCTTGTAATCATTGCTATTGCAAGCACTGTAGCTATCATT C23 GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTGGCATT C24 GCCTAAAACTCCTTGTAATAAGTGCTATTGTAAACACTGTAGCTATCATT C25 ACCTAAAACAGCTTGCAATAATTGCTATTGTAAAAGATGTTGCTATCACT C26 GCCTGCAACTGCTTGTAACAAGTGCTACTGTAAAAAATGTTGCTATCACT C27 GCCTAAAACTCCTTGTACTAATTGCTATTGTAAACACTGTAGCTACCATT C28 GCCTAAAACTGCTTGCAATAATTGCTATTGTAAAAGCTGTAGCTACCATT C29 GCCTAAAACTGCTTGCACAAATTGCTATTGTAAAGTGTGTTGCTTTCATT C30 GCCTTCAACTCCTTGTACCAGATGTTATTGTAAAAGATGTTGCTTTCATT C31 GCCTACAACTCCTTGTAGCAATTGTTACTGTAAAAAATGCTGCTGGCATT C32 ACCTAAAACTGCTTGTAATAATTGTTATTGTAAACGCTGTAGCTATCATT C33 GCCCAAAACTGCTTGTACCCCTTGCCATTGTAAAAAATGTTGCTATCATT C34 GCCTACAACTGCTTGTAGCAAATGTTACTGTAAAATGTGCTGCTGGCATT C35 GCCTACAACTGCTTGTAGCAAATGTTACTGTAAAATATGTTGCTGGCATT C36 GCCTAAAACTGCTTGTAACAATTGTTATTGCAAAAAGTGTTGCTATCATT C37 GCCTAAGACTGCTTGTAACAATTGCTATTGTAAAAAGTGTTGCTTACATT C38 GCCTAAAACTCCTTGTAATAATTGCTATTGTAAAAAATGCAGCTATCATT C39 CCCTACAACTCCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTGGCATT C40 GCCTACAACACCTTGTAGCAAGTGTTATTGTAAAAAGTGTTGCTATCATT C41 GCCTAAAACTGCTTGTAACAACTGTTACTGTAAAATATGTTGCTGGCATT C42 GCCAAGTACTGCTTGTAACTCATGTTATTGTAAAAGGTGTTGCTATCATT C43 GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAATTGTGCTGCTGGCATT C44 GCCTAAGACTGCTTGTACCAATTGCTATTGTAAAAAGTGCTGCCTTCATT C45 GCCTAAGACGCCTTGTAACAATTGCTATTGTAAAAAGTGTTGCTTTCATT C46 GCCTAAGACTGCATGTAACAATTGCTATTGTAAAAAATGTTGCTTTCATT C47 GCCTACAACTCCTTGTACCAAATGTTATTGTAAACAGTGTTGCTTTCATT C48 GCCTAGAACTGCTTGCAATAACTGTTATTGTAAAAAATGTAGCTACCATT C49 GCCTAAGACTCCCTGTACCTCTTGCTATTGTAAAAAGTGCTGCTTTCATT C50 GCCTAAGACTGCTTGCAATAGTTGCTATTGTAAAAAGTGTTGCTTTCATT ** ** . ** * ** : ** **. ** : ** * C1 GCCAAGCTTGTTTCATAAAAAAAGCCTTAGGCATTTCCTATGGCAGGAAG C2 GCCAATTATGCTTTCTGAACAAGGGCTTAGGTATCTCCTATGGCAGGAAG C3 GCCAAGTTTGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C4 GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C5 GTCTAGTTTGCTTTCAGACAAAAGACTCAGGCATTTCCTATGGCAGGAAG C6 GCATGGTGTGCTTTTTAAACAAGGGCTTAGGCATTTCCTATGGCAGGAAG C7 GTCAAGCTTGCTTCATAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C8 GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGAATTTCCTATGGCAGGAAG C9 GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C10 GTCCAGCTTGCTTTTTGAACAAAGGCTTAGGCATCTCCTATGGCAGGAAG C11 GCCAAGTTTGTTTCATGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C12 GTCAACTATGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C13 GCCAAGTTTGCTTCATGACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C14 GCCAAACTTGCTTCATAACGAAAGGCTTAGGCATCTCCTATGGCAGGAAG C15 GCCAAGTTTGCTTCATATCAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C16 GTCAAGTTTGCTTTCTGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C17 GCCCATGTTGCTTCTTAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C18 GCCAATTATGCTTTCTGAAAAAGGGCTTAGGCATCTCCTATGGCAGGAAG C19 GTCAATTATGCTTTCTGAAAAAAGGCTTAGGCATCTCATATGGCAGGAAG C20 GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C21 GCCAAGTTTGTTTCACAAAAAAAGCCTTAGGCATCTCCTATGGCAGGAAG C22 GTCTAGTTTGCTTTCAGAGAAAAGGCTTAGGCATTTCATATGGCAGGAAG C23 GTCAACTATGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C24 GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C25 GCTTATATTGCTTCACAAAGAAAGGCTTAGGCATCTCATATGGCAGGAAG C26 GCGCAGTTTGCTTTCTACACAAAGGCTTAGGCATCTCCTATGGCAGGAAG C27 GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C28 GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C29 GCCAAGTTTGCTTCACAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C30 GTTACTGGTGCTTTGCAACGAAGGGCTTAGGCATCTCCCATGGCAGGAAG C31 GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG C32 GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C33 GCCAAGTTTGCTTCCTAACAAAAGGCTTAGGCATCTTCTATGGCAGGAAG C34 GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG C35 GCCAATTGTGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG C36 GCCAGTTGTGCTTTTTAAAGAAAGGCTTAGGCATCTCCCATGGCAGGAAG C37 GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C38 GTGTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTACTATGGCAGGAAG C39 GTCAACTATGCTTTCTGAAAAAGGGCTTAGGCATCTCCTATGGCAGGAAG C40 GCCCAGTTTGCTTTTTGAACAAAGGCTTAGGCATCTCCTATGGCAGGAAG C41 GTCAAATATGCTTTCTGAAAAAAGGCTTAGGCATCTCATATGGCAGGAAG C42 GCCAATGCTGCTTCATAACGAAAGGCTTAGGCATCTCCTATGGCAGGAAG C43 GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG C44 GCCAAGTGTGTTTCATGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C45 GCCAAGTTTGTTTCATAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C46 GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C47 GTTACTGGTGCTTCGTAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG C48 GTCTAGTTTGTTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG C49 GCCCAGCTTGTTTTACGAGAAAAGGCTTAGGCATCTTCTATGGCAGGAAG C50 GCCAAGTGTGTTTCACAAGAAAAGCCTTAGGCATCTCCTATGGCAGGAAG * ** ** . **.* ** *** ** * . *********** C1 AAGCGGAGACAGCGACGA---AGAGCTCCTCCGAATAATCAGGATCATCA C2 AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGCCGTCAGGATCATCA C3 AAGCGGAAACATCGACGA---GGATCTCTTCAAGGCAGCAAGGGCCATCA C4 AAGCGGAGACAGCGACGA---GGACCTCCTCAAGGCAGTCAGACTCATCA C5 AAGCGGAGACAGCGACGA---AGCACTACTCCAAGTAGTGAAGATCATCA C6 AAGCGGAGACAACGACGA---ACAGCTCCTCCTGGCAGTAAGACTCATCA C7 AAGCGGAGACAGCGACGA---GGACCTCCTCAAGGCAGTCAGACTCATCA C8 AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAGTGAGGACCATCA C9 AAGCGGAGACAGCGACGC---AGCGCTCCTCCAAGCAGTGAGGATCATCA C10 AAGCGGAGACAGCGACGA---GGAACTTCTCAGAGCAATAAGGATCATCA C11 AAGAGAAGACAGCGACGA---AGAGCTCCTCAAAGCAGTCAAACTCATCA C12 AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCAGTAAGGATCATCA C13 AAGCGGGGACAGCGACGA---AGAGCTCCTCAAGACAGTAAGACTCATCA C14 AAGCGGAGACAGCGACGA---GGAGCTCATCAGGACAGTGAGACTCATCA C15 AAGCGGAGACAGCGACGA---AGAACTCATCAGGACAATCAGGATCATCA C16 AAGCGGAGACAGCGACGA---AGCTCTCCTTCAAGCAGTAAGGATCATCA C17 AAGAGGAGACAGCGACGA---AGACCTCCTCCAAGCAATCAGATTAATCA C18 AAGCGGAGACGCCGACGACCAGGAACTCCTCAGAGCTGTCAGGATCATCA C19 AAGCGGAAGCACCGACGA---GGAACTCCTCAAAGCAGTAAGGATCATCA C20 AAGCGGAGACAGCGACGA---AGCACTCCTCCAAGCAGTGAGGATCATCA C21 AAGCGGAGACAGCGACGA---AGACCTCCTCAAAGCAGTAAGATACATCA C22 AAGCGGAGACGGCGACGC---AGCGCTCCTCCAAGCAGTGAGGATCATCA C23 AAGCGGAAGCACCGACGA---AGAACTCCTCAGAGCAGTAAGGATCATCA C24 AAGCGGAGACAGCGACGA---AGCACTCCTCCAAGCAGTGAGGACCATCA C25 AAGCGGAGTCAACGACGA---AGAACTCCTCAGAGCAGTAAGAGTCATCA C26 AAGCGGAGGCAGCGACGA---GGATCTCCTCAGTGCAGTAAGGATCATCA C27 AAGCGGAGACAGCGACGA---AGCACTCCTCCTAGCAGTGAGGACCATCA C28 AAGCGGAGACAGCGACGA---AGCGCTCCTCAAAGCAGTGAGGATCATCA C29 AAGCGGAGACAGCGACGA---AAACCTCCTCAGGACAGTCCAAATCATCA C30 AAGCGGAGACAGCGACAC---AGAACTCCTAAAAGCAGTCCGCTACATCA C31 AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGTCGTCAGGACCATCA C32 AAGCGGAGACAGCGACGA---AGAGCTCCTCCGAGCAGTGAGGATCATCA C33 AAGCGGAGACAGCGACGA---AGAGCTCATCAAGACTGTAAGACTCATCA C34 AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGCCGTCAGGATCATCA C35 AAGCGGAGACGCCGACGA---GAAACTTCTCAGAACCATCCAGATCATCA C36 AAGCGGAGACAACGACGA---GCGGCTCCTCTCAGCAGTAAGGATCATCA C37 AAGCGGAGACAGCGAAGA---AGAGCTCCTCCAGACGGTCAAAGTAATCA C38 AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAATAAGGACCATCA C39 AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCCGTCAGAATCATCA C40 AAGCGGAAACAGCGACGA---GGAACTCCTCACCGCAGTAAGGATCATCA C41 AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCAGTAAGGATCATCA C42 AAGAGAGGACAGCGACGA---AGACCTCCTCAAGGCAATAAGACTCATCA C43 AAGCGGAGACGCCGACGA---GGGACTCCTCAGAGCCGTCAGGATCATCA C44 AAGAGAAGACAACGACGA---AGAGCTCATCAAGACAGTCAGACTCATCA C45 AAGCGGAGACAGCGACGA---AGAGCTCCTCAGGACAGTTCGCCTAATCA C46 AAGCGGAGACAGCGACGA---AGAACTCCTCAGGGCAGTCAGACTGATCA C47 AAGCGGAGACAGCGACAA---AGAGCTCCTCAAGACAGTCAGAATAATCA C48 AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAGTGAGAATCATCA C49 AAGCGGAAACAGCGACGA---AGAGCTCCTCAAGACAGTCAGACTCATCA C50 AAGCGGAGACAGCGACGA---AGAGCTCCTCAAGACAGTAAGACTCATCA ***.*... *. ***... . ** * . . .. **** C1 AGACTCTCTATCAAAGCAATCCTCCACC---CAGCTCCGAGGGGAC---C C2 AAATCCTGTACCAAAGCAACCCTTACCC---ACCACCAGAGGGAAC---C C3 AAATCTTATACCAAAGCAACCCTTATCCCAACAACCCAACGGGGAC---T C4 AGTTTCTCTACCAAAGCAACCCTTATCC---CAGTCTCGAGGGGACCACC C5 AGATCCTGTATCAAAGCAACCCCTACCC---CAAACCCGAGGGGAC---C C6 AGACCCTGTATCAAAGCAACCCTTATCC---CAAACCCAACGGGAC---C C7 AGTTTCTCTATCAAAGCAACCCACCTCC---CAGCCCCGAGGGGAC---C C8 AGATCTTATATCAAAGCAACCCTTATCC---CGAACCCAAGGGGAC---C C9 AAATCCTATATCAAAGCAATCCTTACCC---CAAACCCAGGGGGAC---T C10 AAATCCTGTACCAAAGCAACCCATACCC---CAAACCCAGGGGATC---C C11 AGCTTCTCTATCAAAGCAACCCGCCTCC---CAACCCAGAGGGGAC---C C12 AAATCCTATACCAAAGCAACCCTCCCCC---ATCATCAGAGGGAAC---C C13 AACGCCTCTACCAAAGCAACCCGCCTCC---CAGCAACGAGGGGAC---C C14 AGCGTCTCTATCAGAGCAACCCGCCTCC---CAGCTCAGAGGGGAC---C C15 AGTTCCTCTATCAAAGCAACCCGCCTCC---CAACCCCGGGGGGAC---C C16 AAATCCTATATCAAAGCAACCCTTACCC---CAAACCCGAGGGAAC---C C17 AGTTTCTCTATCAAAGCAACCCACCTCC---CAGTTCCGAGGGGAC---C C18 AAATCCTGTACCAAAGCAACCCTTCCCC---ACCACCAGAGGGAAC---C C19 GAATCCTATACCAAAGCAATCCCTACCC---ATCAGCAGAGGGAAC---C C20 AAATCTTATATCAAAGCAACCCTTACCC---CAAGCCCGAGGGGAC---C C21 AGATCCTGTACCAAAGCAACCCGCCTCC---CAAGCCCCAGGGAAC---C C22 AAATCCTATATCAAAGCAACCCTTATCC---CAAACCCGAGGGGAC---C C23 AAATCCTATACCAGAGCAATCCCTATCC---ATCAGCAGAGGGAAC---C C24 AAATCTTATATCAAAGCAACCCTTATCC---CAAACCAGAGGGAAC---C C25 AGATCTTATACCAGAGCAACCCTTATCC---CAACAGCAAGGGGAC---C C26 AAATCCTCTACCAAAGCAACCCTCAACC---CAAACCCAAGGGATC---T C27 AGCTCTTATATCAAAGCAACCCTTATCC---CAAACCCGAGGGGAC---T C28 AAATCCTATATCAAAGCAACCCTTACCCCGAGAACACCAGAGGGAC---T C29 AGCGCCTCTATCAAAGCAACCCGCCTCC---CAGCCCCGAGGGGAC---C C30 AGATCCTATACCAAAGCAACCCATATCC---CAAGCCCGAGGGGAC---C C31 AAATCCTGTACCAAAGCAACCCTCCCCC---ATCACCAGAGGGAAC---C C32 AAATCCTATATCAAAGCAACCCTTATCC---CAGCCCCGAGGGGAC---C C33 AGTGGATCTATCAAAGCAACCCGCCTCC---CAACCCAGAGGGAAC---C C34 AAATCCTGTACCAAAGCAACCCTTGCCC---ACCACCAGAGGGAAC---C C35 AAATCCTGTACCAGAGCAACCCTTACCC---ATCATCAGAGGGAAC---C C36 AAATCCTGTACCAAAGCAATCCACCCCC---CAAACCCGGAGGGTC---T C37 AGATTCTCTACCAAAGCAACCCGCCTCC---CAGTTCCGAGGGGAC---C C38 AAATCCTATATCAAAGCAACCCTTACCC---CGAACCCAAGGGAAC---T C39 AAATCCTGTACCAGAGCAACCCTTATCC---CGAATCCAAGGGGAC---C C40 AAATCCTGTACCAAAGCAACCCATACCC---CAACCCCAAGGGGTC---T C41 ACATCTTATACCAAAGCAATCCCTATCC---ATCAGCAGAGGGAAC---C C42 AGGTCCTGTACCAGAGCAACCCTCCTCC---CAGCATCCAGGCCCC---C C43 GAATCCTGTACCAAAGCAACCCTTACCC---ACCACCAGAGGGGAG---C C44 AGCTTCTCTATCAAAGCAACCCGCTTCC---CAACCCAGAGGGGAC---C C45 AGCGTCTCTATCAAAGCAACCCGCCTCC---CAGCTCAGAGGGAAC---C C46 AGCTTCTCCATCAAAGCAACCCACCGCC---CAGCCCCGCGGGGAC---C C47 AGTTTCTCTACCAAAGCAACCCAAGTCC---CAAGCCCGAGGGAAC---C C48 AGATCTTGTATCAAAGCAACCCTTACCC---CGACCCCACGGGAAC---C C49 AGTTTCTCTATCAAAGCAACCCGCCTCC---CAACCCCGAGGGGAC---C C50 AGCGTCTCTATCAGAGCAACCCGCTTCC---CAGCCCCGAGGGGAC---C . * * **.***** ** ** . * C1 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGACAGAGACAGAGACA C2 CGACAGACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCGAGACAGAGACA C3 CGACAGGCCCGGAGGAACAGAAGAAGAAGGTGGCGAGCAAGACAGAAGCA C4 CGACAGGCCCGACGGAATCGAAGAAGAAGGTGGAGAGAGAGGCAGAGACA C5 CGACAGGCTCGGAGGAACCGAAGAAGAAGGTGGAGAGAAAGACAGAGACA C6 CGACAGGCACGAAGGAATCGAAGGAAGAGGTGGAGAGCAAGACAGAGACA C7 CGACAGGCCAGAAGGAACAGAAGAAGAAGGTGGAGAAGGAAACAGAAACA C8 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C9 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C10 CGACAGGCCCGGAAGAATCGAAGAAGAAGATGGAGAGCAAGGCAAAAACA C11 CGGCAGGCCCGAAGGAATCGAAGAAGAAGGTGGAAAGCAAAACAGAGACA C12 AGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA C13 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGAAG C14 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGCGAGACAGAGACA C15 CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGAGAGACAGCGACA C16 CGACAGGCTCGGAGGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGGCA C17 CGACAGGCCCGAAGGAATCGGAGAAGAAGGTGGAGAGACAGACAGAGACA C18 CGACAGGCCCGAAAGAATCGAAGAAGGAGATGGCGAGCAAGACAAAGACA C19 CGACAGACCCGAAAGAATCGAAGAAGACGGTGGCGAGCAAGGCAGAAACA C20 CGACAGGCTCGAAAGAACCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA C21 CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGACAAAGACA C22 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C23 CGACAGACCAGAAAAAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA C24 CGACAGGCTCAGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA C25 AGACAGGCCAGAAGAAACAGAAGGAGGCGTTGGAGAGCAAGACAGAGGCA C26 CGACAGGCTCGGAAGAATCGACGAAGAAGGTGGAGAGCAAGGCAGAGACA C27 CGACAGGCCCGGAGGAACAGAAGAAGAAGGTGGAGAGCAAGACAAAGACA C28 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C29 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA C30 CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGACAGAGACA C31 CGACAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGAGA C32 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C33 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGGGAGAGACAGAGACA C34 CGACAAACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGACA C35 CGACAGACCCGGAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGGCA C36 CGACAGGCTCGAAAGAATCGCAGGAGAAGGTGGAGAGCCAGACAGAACCA C37 CGACAGGCCCGAAGGAATCGCAGAAGAAGGTGGAGAGCAAGACAGAGGCA C38 CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA C39 CGACAGGCTCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGGCAGAGACA C40 CGACAGGCCCGGAAAAATCGAAGAAGAAGATGGAGAGCAAGGCAGAGGCA C41 CGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA C42 CGCCAGGCCCGAACCCATCGAAGAAGGAGGTGGCGAGCAAGACAGAGGCA C43 AGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGACA C44 CGACAGGCCCGCAGGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C45 CGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA C46 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA C47 CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGGCAAAGACA C48 AGACAGTCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA C49 CGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA C50 CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA .* **. * .. . .* .* .*.*...* ***... *..**... . C1 GATCCATTCGCT--- C2 GATCCGTGCGCT--- C3 GATCCATTCGCT--- C4 GATCCGGAGTAT--- C5 GATCCATTCGAT--- C6 GATCCATTCGCT--- C7 GCTCCACCAGAT--- C8 GATCCGTTCGAT--- C9 GATCCGTGCGCT--- C10 GATCGATTCGAT--- C11 GATCCGAGAGCT--- C12 GATCCGTGCGCT--- C13 GATCAAGGACAT--- C14 GATCCGAATCCT--- C15 GATCCAGTCCCT--- C16 GATCCATTCGAT--- C17 CATCAACTCGAT--- C18 GATCAGTGCGCT--- C19 GATCCGTGCGAT--- C20 GATCCGTGCGAT--- C21 GATCAGTGGGAT--- C22 GATCCATTCGAT--- C23 GATCCGTGCGAT--- C24 GATCCATTCGCT--- C25 GATCCGTGCGAT--- C26 GATCGATTCGCT--- C27 GATCCGTGCGAT--- C28 GATCCATTCGAT--- C29 GATCCATTCGAT--- C30 GATCCGTGCGAT--- C31 GATCTGTGCGCT--- C32 GATCCGTGCGAT--- C33 CATCCACAACAT--- C34 GATCCGTGCGAT--- C35 GATCGATACGCT--- C36 GATCGATTCGAT--- C37 AATCCACTCACT--- C38 GATCAATTCGAT--- C39 GATCCGTGCGCT--- C40 GATCGATTCGAT--- C41 GATCCGTGCGCT--- C42 GATCCATTCGATTGG C43 GGTCCGTGCGAT--- C44 GATCCGAGAGAT--- C45 CATCCACACGCT--- C46 CATCCG--------- C47 GATCCGTGCGAT--- C48 GATCCATTCGAT--- C49 GATCCATTCGAT--- C50 CATCAAGACCAT--- ** . >C1 ATGGATCCAGTAGATCCTAATCTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAGGACTGCTTGTAACAAATGCTATTGTAAAAAGTGTTGCTTTCATT GCCAAGCTTGTTTCATAAAAAAAGCCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAGCTCCTCCGAATAATCAGGATCATCA AGACTCTCTATCAAAGCAATCCTCCACC---CAGCTCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGACAGAGACAGAGACA GATCCATTCGCT--- >C2 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAAACACCCGGGAAGTCA GCCTACAACTGCTTGTAGCAATTGCTATTGTAAAAAGTGCTGCTGGCATT GCCAATTATGCTTTCTGAACAAGGGCTTAGGTATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGCCGTCAGGATCATCA AAATCCTGTACCAAAGCAACCCTTACCC---ACCACCAGAGGGAAC---C CGACAGACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCGAGACAGAGACA GATCCGTGCGCT--- >C3 ATGGAGCCAGTAGATCCTGACCTAGAGCCCTGGAACCATCCGGGAAGTCA GCCTACAACTGATTGTAACAAGTGTTTCTGTAAAAAGTGTTGCTGGCATT GCCAAGTTTGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAAACATCGACGA---GGATCTCTTCAAGGCAGCAAGGGCCATCA AAATCTTATACCAAAGCAACCCTTATCCCAACAACCCAACGGGGAC---T CGACAGGCCCGGAGGAACAGAAGAAGAAGGTGGCGAGCAAGACAGAAGCA GATCCATTCGCT--- >C4 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGGAGCATCCAGGAAGCCA GCCTAGGACTGCTTGTAATAATTGCTATTGTAAAAAGTGCTGCTTTCATT GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---GGACCTCCTCAAGGCAGTCAGACTCATCA AGTTTCTCTACCAAAGCAACCCTTATCC---CAGTCTCGAGGGGACCACC CGACAGGCCCGACGGAATCGAAGAAGAAGGTGGAGAGAGAGGCAGAGACA GATCCGGAGTAT--- >C5 ATGGAGCCAATAGATCCTAAACTAGAGCCCTGGAACCATCCAGGAAGTCA GCCTAAAACTCCTTGCAATAAGTGCTATTGTAAAAAATGCAGCTATCATT GTCTAGTTTGCTTTCAGACAAAAGACTCAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCACTACTCCAAGTAGTGAAGATCATCA AGATCCTGTATCAAAGCAACCCCTACCC---CAAACCCGAGGGGAC---C CGACAGGCTCGGAGGAACCGAAGAAGAAGGTGGAGAGAAAGACAGAGACA GATCCATTCGAT--- >C6 ATGGAGCCAATAGATCCTAACATAGAGCCCTGGAATCAGCCAGGAAGTCG GCCTAAGACTGCTTGTACCACATGCTATTGTAAACAGTGTTCCTATCATT GCATGGTGTGCTTTTTAAACAAGGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAACGACGA---ACAGCTCCTCCTGGCAGTAAGACTCATCA AGACCCTGTATCAAAGCAACCCTTATCC---CAAACCCAACGGGAC---C CGACAGGCACGAAGGAATCGAAGGAAGAGGTGGAGAGCAAGACAGAGACA GATCCATTCGCT--- >C7 ATGGAGCCCGTAGATCCTAACTTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAAGACTGCTTGTACCAAGTGCTATTGTAAAAGGTGTTGCTTTCATT GTCAAGCTTGCTTCATAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---GGACCTCCTCAAGGCAGTCAGACTCATCA AGTTTCTCTATCAAAGCAACCCACCTCC---CAGCCCCGAGGGGAC---C CGACAGGCCAGAAGGAACAGAAGAAGAAGGTGGAGAAGGAAACAGAAACA GCTCCACCAGAT--- >C8 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGAAGTCA GCCTGAAACTGCTTGCAACAACTGTTTTTGTAAACGCTGTAGCTACCATT GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGAATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAGTGAGGACCATCA AGATCTTATATCAAAGCAACCCTTATCC---CGAACCCAAGGGGAC---C CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCGTTCGAT--- >C9 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGGAGTCA GCCTAAAACTGCTTGCAATAACTGTTATTGTAAACGCTGTAGCTACCACT GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGC---AGCGCTCCTCCAAGCAGTGAGGATCATCA AAATCCTATATCAAAGCAATCCTTACCC---CAAACCCAGGGGGAC---T CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCGTGCGCT--- >C10 ATGGATCCGGTAGATCCTAACCTAGAGCCCTGGAACCACCCGGGAAGTCA GCCTGCAACACCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTATCATT GTCCAGCTTGCTTTTTGAACAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---GGAACTTCTCAGAGCAATAAGGATCATCA AAATCCTGTACCAAAGCAACCCATACCC---CAAACCCAGGGGATC---C CGACAGGCCCGGAAGAATCGAAGAAGAAGATGGAGAGCAAGGCAAAAACA GATCGATTCGAT--- >C11 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAGCATCCGGGAAGTCA GCCTAAGACTGCTTGTACCAATTGCTATTGTAAAAAGTGCTGCTTTCATT GCCAAGTTTGTTTCATGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGAGAAGACAGCGACGA---AGAGCTCCTCAAAGCAGTCAAACTCATCA AGCTTCTCTATCAAAGCAACCCGCCTCC---CAACCCAGAGGGGAC---C CGGCAGGCCCGAAGGAATCGAAGAAGAAGGTGGAAAGCAAAACAGAGACA GATCCGAGAGCT--- >C12 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAAGCATCCGGGAAGTCA GCCTACAACTCCTTGTAGCAATTGTTATTGTAAAAAATGTTGCTGGCATT GTCAACTATGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCAGTAAGGATCATCA AAATCCTATACCAAAGCAACCCTCCCCC---ATCATCAGAGGGAAC---C AGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA GATCCGTGCGCT--- >C13 ATGGAACCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA ACCTAGGACTGCTTGTAACACTTGCTTTTGTAAAAAATGTTGCTTTCATT GCCAAGTTTGCTTCATGACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGGGACAGCGACGA---AGAGCTCCTCAAGACAGTAAGACTCATCA AACGCCTCTACCAAAGCAACCCGCCTCC---CAGCAACGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGAAG GATCAAGGACAT--- >C14 ATGGAGCCAGTAGATCCTAGACTGGAGCCCTGGAAGCATCCGGGGAGCCA GCCTAGGACTGCCTGTACCACTTGCTATTGTAAAAGGTGTTGCTATCATT GCCAAACTTGCTTCATAACGAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---GGAGCTCATCAGGACAGTGAGACTCATCA AGCGTCTCTATCAGAGCAACCCGCCTCC---CAGCTCAGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGCGAGACAGAGACA GATCCGAATCCT--- >C15 ATGGAACCAGTAGACCCTAGGCTAGAGCCCTGGAAACACCCAGGAAGTCA GCCTAAGACTGCTTGTACCGGTTGCTATTGTAAAAAGTGTTGCTTTCATT GCCAAGTTTGCTTCATATCAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAACTCATCAGGACAATCAGGATCATCA AGTTCCTCTATCAAAGCAACCCGCCTCC---CAACCCCGGGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGAGAGACAGCGACA GATCCAGTCCCT--- >C16 ATGGAGCTAGTAGATCCTGACCTAGAGCCCTGGAACCATCCAGGAAGTCA GCCTAAAACTCCTTGTAACAATTGCTTTTGTAAACACTGTAGTTATCATT GTCAAGTTTGCTTTCTGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCTCTCCTTCAAGCAGTAAGGATCATCA AAATCCTATATCAAAGCAACCCTTACCC---CAAACCCGAGGGAAC---C CGACAGGCTCGGAGGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGGCA GATCCATTCGAT--- >C17 ATGGATCCAGTAGATCCTAGCCTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTGCGACTCCTTGTAACAATTGCTTTTGTAAAAGGTGTTGCTATCATT GCCCATGTTGCTTCTTAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGAGGAGACAGCGACGA---AGACCTCCTCCAAGCAATCAGATTAATCA AGTTTCTCTATCAAAGCAACCCACCTCC---CAGTTCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGGAGAAGAAGGTGGAGAGACAGACAGAGACA CATCAACTCGAT--- >C18 ATGGAGCTGGTAGATCCTAGCCTAGAGCCATGGAACCACCCGGGAAGTAA GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAAAAGTGCTGCTGGCATT GCCAATTATGCTTTCTGAAAAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGACCAGGAACTCCTCAGAGCTGTCAGGATCATCA AAATCCTGTACCAAAGCAACCCTTCCCC---ACCACCAGAGGGAAC---C CGACAGGCCCGAAAGAATCGAAGAAGGAGATGGCGAGCAAGACAAAGACA GATCAGTGCGCT--- >C19 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAATCATCCGGGAAGTCA GCCTAAAACTGCTTGTAACACATGTTACTGTAAAATATGTAGCTGGCATT GTCAATTATGCTTTCTGAAAAAAGGCTTAGGCATCTCATATGGCAGGAAG AAGCGGAAGCACCGACGA---GGAACTCCTCAAAGCAGTAAGGATCATCA GAATCCTATACCAAAGCAATCCCTACCC---ATCAGCAGAGGGAAC---C CGACAGACCCGAAAGAATCGAAGAAGACGGTGGCGAGCAAGGCAGAAACA GATCCGTGCGAT--- >C20 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTCAAACTCCTTGTAATAATTGCTATTGTAAACACTGTAGCTACCATT GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCACTCCTCCAAGCAGTGAGGATCATCA AAATCTTATATCAAAGCAACCCTTACCC---CAAGCCCGAGGGGAC---C CGACAGGCTCGAAAGAACCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA GATCCGTGCGAT--- >C21 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA ACCTAGAACTGCTTGTAATAGTTGCTATTGTAAGAGGTGTTGCTTTCATT GCCAAGTTTGTTTCACAAAAAAAGCCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGACCTCCTCAAAGCAGTAAGATACATCA AGATCCTGTACCAAAGCAACCCGCCTCC---CAAGCCCCAGGGAAC---C CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGACAAAGACA GATCAGTGGGAT--- >C22 ATGGAACCAGTGGATCCTAGCCTAGAGCCCTGGAATCATCCAGGAAGTCA GCCTAAAACTCCTTGTAATCATTGCTATTGCAAGCACTGTAGCTATCATT GTCTAGTTTGCTTTCAGAGAAAAGGCTTAGGCATTTCATATGGCAGGAAG AAGCGGAGACGGCGACGC---AGCGCTCCTCCAAGCAGTGAGGATCATCA AAATCCTATATCAAAGCAACCCTTATCC---CAAACCCGAGGGGAC---C CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCATTCGAT--- >C23 ATGGAGCCAGTAGATCCTAAACTAGAGCCCTGGAAACATCCAGGAAGTCA GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTGGCATT GTCAACTATGCTTTCTGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAAGCACCGACGA---AGAACTCCTCAGAGCAGTAAGGATCATCA AAATCCTATACCAGAGCAATCCCTATCC---ATCAGCAGAGGGAAC---C CGACAGACCAGAAAAAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA GATCCGTGCGAT--- >C24 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAACCATCCAGGAAGTCA GCCTAAAACTCCTTGTAATAAGTGCTATTGTAAACACTGTAGCTATCATT GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCACTCCTCCAAGCAGTGAGGACCATCA AAATCTTATATCAAAGCAACCCTTATCC---CAAACCAGAGGGAAC---C CGACAGGCTCAGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA GATCCATTCGCT--- >C25 ATGGAACCAGTAGATCCTAGATTAGAGCCCTGGAATCATCCAGGAAGCCA ACCTAAAACAGCTTGCAATAATTGCTATTGTAAAAGATGTTGCTATCACT GCTTATATTGCTTCACAAAGAAAGGCTTAGGCATCTCATATGGCAGGAAG AAGCGGAGTCAACGACGA---AGAACTCCTCAGAGCAGTAAGAGTCATCA AGATCTTATACCAGAGCAACCCTTATCC---CAACAGCAAGGGGAC---C AGACAGGCCAGAAGAAACAGAAGGAGGCGTTGGAGAGCAAGACAGAGGCA GATCCGTGCGAT--- >C26 ATGGATCCAGTAGATCCTAGCCTAGATCCCTGGAACCATCCGGGAAGCCA GCCTGCAACTGCTTGTAACAAGTGCTACTGTAAAAAATGTTGCTATCACT GCGCAGTTTGCTTTCTACACAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGGCAGCGACGA---GGATCTCCTCAGTGCAGTAAGGATCATCA AAATCCTCTACCAAAGCAACCCTCAACC---CAAACCCAAGGGATC---T CGACAGGCTCGGAAGAATCGACGAAGAAGGTGGAGAGCAAGGCAGAGACA GATCGATTCGCT--- >C27 ATGGAGCCAGTAGATCCTAACTTAGAGCCCTGGAACCATCCAGGAAGTCA GCCTAAAACTCCTTGTACTAATTGCTATTGTAAACACTGTAGCTACCATT GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCACTCCTCCTAGCAGTGAGGACCATCA AGCTCTTATATCAAAGCAACCCTTATCC---CAAACCCGAGGGGAC---T CGACAGGCCCGGAGGAACAGAAGAAGAAGGTGGAGAGCAAGACAAAGACA GATCCGTGCGAT--- >C28 ATGGAGCCAGTAGATCCTAACCTAGAGCCCTGGAACCACCCAGGAAGTCA GCCTAAAACTGCTTGCAATAATTGCTATTGTAAAAGCTGTAGCTACCATT GTCTAGTTTGCTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCGCTCCTCAAAGCAGTGAGGATCATCA AAATCCTATATCAAAGCAACCCTTACCCCGAGAACACCAGAGGGAC---T CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCATTCGAT--- >C29 ATGGAGCCGGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAAAACTGCTTGCACAAATTGCTATTGTAAAGTGTGTTGCTTTCATT GCCAAGTTTGCTTCACAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AAACCTCCTCAGGACAGTCCAAATCATCA AGCGCCTCTATCAAAGCAACCCGCCTCC---CAGCCCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA GATCCATTCGAT--- >C30 ATGGAGCTAGTAGATCCTAACTTAGATCCCTGGAACCATCCAGGAAGTCA GCCTTCAACTCCTTGTACCAGATGTTATTGTAAAAGATGTTGCTTTCATT GTTACTGGTGCTTTGCAACGAAGGGCTTAGGCATCTCCCATGGCAGGAAG AAGCGGAGACAGCGACAC---AGAACTCCTAAAAGCAGTCCGCTACATCA AGATCCTATACCAAAGCAACCCATATCC---CAAGCCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGACAGAGACA GATCCGTGCGAT--- >C31 ATGGAGCCGGTAGATCCTAGCCTAGAGCCATGGAAACACCCGGGAAGTCA GCCTACAACTCCTTGTAGCAATTGTTACTGTAAAAAATGCTGCTGGCATT GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGTCGTCAGGACCATCA AAATCCTGTACCAAAGCAACCCTCCCCC---ATCACCAGAGGGAAC---C CGACAGGCCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGAGA GATCTGTGCGCT--- >C32 ATGGAGCCAATAGATCCTAATCTAGAGCCCTGGAACCATCCAGGAAGCCA ACCTAAAACTGCTTGTAATAATTGTTATTGTAAACGCTGTAGCTATCATT GTCTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAGCTCCTCCGAGCAGTGAGGATCATCA AAATCCTATATCAAAGCAACCCTTATCC---CAGCCCCGAGGGGAC---C CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCGTGCGAT--- >C33 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCCAAAACTGCTTGTACCCCTTGCCATTGTAAAAAATGTTGCTATCATT GCCAAGTTTGCTTCCTAACAAAAGGCTTAGGCATCTTCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAGCTCATCAAGACTGTAAGACTCATCA AGTGGATCTATCAAAGCAACCCGCCTCC---CAACCCAGAGGGAAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGGGAGAGACAGAGACA CATCCACAACAT--- >C34 ATGGAGCTGGTAGATCCTAGCCTAGAGCCCTGGAACCACCCGGGAAGTCA GCCTACAACTGCTTGTAGCAAATGTTACTGTAAAATGTGCTGCTGGCATT GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGA---GGAACTCCTCAGAGCCGTCAGGATCATCA AAATCCTGTACCAAAGCAACCCTTGCCC---ACCACCAGAGGGAAC---C CGACAAACCCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGACA GATCCGTGCGAT--- >C35 ATGGAGCTGGTAGATCCTAGATTAGAGCCCTGGAACCACCCGGGAAGTCA GCCTACAACTGCTTGTAGCAAATGTTACTGTAAAATATGTTGCTGGCATT GCCAATTGTGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGA---GAAACTTCTCAGAACCATCCAGATCATCA AAATCCTGTACCAGAGCAACCCTTACCC---ATCATCAGAGGGAAC---C CGACAGACCCGGAAGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGGCA GATCGATACGCT--- >C36 ATGGATCCAATAGATCCTAACATAGAGCCCTGGAATCAGCCAGGAAGTCA GCCTAAAACTGCTTGTAACAATTGTTATTGCAAAAAGTGTTGCTATCATT GCCAGTTGTGCTTTTTAAAGAAAGGCTTAGGCATCTCCCATGGCAGGAAG AAGCGGAGACAACGACGA---GCGGCTCCTCTCAGCAGTAAGGATCATCA AAATCCTGTACCAAAGCAATCCACCCCC---CAAACCCGGAGGGTC---T CGACAGGCTCGAAAGAATCGCAGGAGAAGGTGGAGAGCCAGACAGAACCA GATCGATTCGAT--- >C37 ATGGAGCCAGTAGATCCTAGCCTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAAGACTGCTTGTAACAATTGCTATTGTAAAAAGTGTTGCTTACATT GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGAAGA---AGAGCTCCTCCAGACGGTCAAAGTAATCA AGATTCTCTACCAAAGCAACCCGCCTCC---CAGTTCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGCAGAAGAAGGTGGAGAGCAAGACAGAGGCA AATCCACTCACT--- >C38 ATGGATCCAGTAGATCCTAACCTAGAGCCCTGGAACCATCCGGGAAGTCA GCCTAAAACTCCTTGTAATAATTGCTATTGTAAAAAATGCAGCTATCATT GTGTAGTTTGCTTTCAGACAAAAGGCTTAGGCATTTACTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAATAAGGACCATCA AAATCCTATATCAAAGCAACCCTTACCC---CGAACCCAAGGGAAC---T CGACAGGCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAAAGACA GATCAATTCGAT--- >C39 ATGGAGCCGGTAGATCCTAACCTAGAGCCCTGGAATCATCCAGGAAGTCA CCCTACAACTCCTTGTAGCAAGTGTTACTGTAAAAAATGTTGCTGGCATT GTCAACTATGCTTTCTGAAAAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCCGTCAGAATCATCA AAATCCTGTACCAGAGCAACCCTTATCC---CGAATCCAAGGGGAC---C CGACAGGCTCGAAAGAATCGAAGAAGGAGGTGGCGAGCAAGGCAGAGACA GATCCGTGCGCT--- >C40 ATGGATCCGGTAGATCCTAACCTAGAGCCCTGGAACCACCCGGGAAGTCA GCCTACAACACCTTGTAGCAAGTGTTATTGTAAAAAGTGTTGCTATCATT GCCCAGTTTGCTTTTTGAACAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAAACAGCGACGA---GGAACTCCTCACCGCAGTAAGGATCATCA AAATCCTGTACCAAAGCAACCCATACCC---CAACCCCAAGGGGTC---T CGACAGGCCCGGAAAAATCGAAGAAGAAGATGGAGAGCAAGGCAGAGGCA GATCGATTCGAT--- >C41 ATGGAGCTGGTAGATCCTAACCTAGAGCCCTGGAATCATCCAGGAAGTAA GCCTAAAACTGCTTGTAACAACTGTTACTGTAAAATATGTTGCTGGCATT GTCAAATATGCTTTCTGAAAAAAGGCTTAGGCATCTCATATGGCAGGAAG AAGCGGAAGCACCGACGA---GGAACTCCTCAGAGCAGTAAGGATCATCA ACATCTTATACCAAAGCAATCCCTATCC---ATCAGCAGAGGGAAC---C CGACAGACCCGAAAGAATCGAAGAAGAAGGTGGCGAGCAAGGCAGAGACA GATCCGTGCGCT--- >C42 ATGGATCCAGTAGATCCTAATCTAGAGCCCTGGAACCATCCAGGAAGTCA GCCAAGTACTGCTTGTAACTCATGTTATTGTAAAAGGTGTTGCTATCATT GCCAATGCTGCTTCATAACGAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGAGAGGACAGCGACGA---AGACCTCCTCAAGGCAATAAGACTCATCA AGGTCCTGTACCAGAGCAACCCTCCTCC---CAGCATCCAGGCCCC---C CGCCAGGCCCGAACCCATCGAAGAAGGAGGTGGCGAGCAAGACAGAGGCA GATCCATTCGATTGG >C43 ATGGAGCTGGTAGATCCTAAACTAGAGCCCTGGAACCACCCAGGAAGTCA GCCTACAACTGCTTGTAGCAAGTGTTACTGTAAATTGTGCTGCTGGCATT GCCAATTATGCTTTCTGAACAAGGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACGCCGACGA---GGGACTCCTCAGAGCCGTCAGGATCATCA GAATCCTGTACCAAAGCAACCCTTACCC---ACCACCAGAGGGGAG---C AGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGCGAGCAAGACAGAGACA GGTCCGTGCGAT--- >C44 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAAGACTGCTTGTACCAATTGCTATTGTAAAAAGTGCTGCCTTCATT GCCAAGTGTGTTTCATGAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGAGAAGACAACGACGA---AGAGCTCATCAAGACAGTCAGACTCATCA AGCTTCTCTATCAAAGCAACCCGCTTCC---CAACCCAGAGGGGAC---C CGACAGGCCCGCAGGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCGAGAGAT--- >C45 ATGGAGCCAGTAGATCCTAGGCTAGAGCCCTGGAAGCACCCAGGAAGTCA GCCTAAGACGCCTTGTAACAATTGCTATTGTAAAAAGTGTTGCTTTCATT GCCAAGTTTGTTTCATAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAGCTCCTCAGGACAGTTCGCCTAATCA AGCGTCTCTATCAAAGCAACCCGCCTCC---CAGCTCAGAGGGAAC---C CGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA CATCCACACGCT--- >C46 ATGGAGCCAGTAGATCCTAGACTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAAGACTGCATGTAACAATTGCTATTGTAAAAAATGTTGCTTTCATT GCCAAGTTTGTTTCACAAAAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAACTCCTCAGGGCAGTCAGACTGATCA AGCTTCTCCATCAAAGCAACCCACCGCC---CAGCCCCGCGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA CATCCG--------- >C47 ATGGAGCTAGTAGATCCTAAACTAGATCCCTGGAACCATCCAGGAAGCCA GCCTACAACTCCTTGTACCAAATGTTATTGTAAACAGTGTTGCTTTCATT GTTACTGGTGCTTCGTAACAAAAGGCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACAA---AGAGCTCCTCAAGACAGTCAGAATAATCA AGTTTCTCTACCAAAGCAACCCAAGTCC---CAAGCCCGAGGGAAC---C CGACAGGCCCGAAGGAATCGAAGAAGGAGGTGGAGAGCAAGGCAAAGACA GATCCGTGCGAT--- >C48 ATGGAGCCAATAGATCCTAACCTAGAGCCCTGGAAGCATCCAGGAAGTCA GCCTAGAACTGCTTGCAATAACTGTTATTGTAAAAAATGTAGCTACCATT GTCTAGTTTGTTTTCAGAAAAAAGGCTTAGGCATTTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGCGCTCCTCCAAGCAGTGAGAATCATCA AGATCTTGTATCAAAGCAACCCTTACCC---CGACCCCACGGGAAC---C AGACAGTCTCGGAAGAATCGAAGAAGAAGGTGGAGAGCAAGACAGAGACA GATCCATTCGAT--- >C49 ATGGAGCCAGTAGATCCTAGTCTAGAGCCATGGAAGCATCCAGGAAGTCA GCCTAAGACTCCCTGTACCTCTTGCTATTGTAAAAAGTGCTGCTTTCATT GCCCAGCTTGTTTTACGAGAAAAGGCTTAGGCATCTTCTATGGCAGGAAG AAGCGGAAACAGCGACGA---AGAGCTCCTCAAGACAGTCAGACTCATCA AGTTTCTCTATCAAAGCAACCCGCCTCC---CAACCCCGAGGGGAC---C CGACAGGCCCGGAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA GATCCATTCGAT--- >C50 ATGGAGCCAGTAGATCCTAGATTAGAGCCCTGGAAACATCCAGGAAGTCA GCCTAAGACTGCTTGCAATAGTTGCTATTGTAAAAAGTGTTGCTTTCATT GCCAAGTGTGTTTCACAAGAAAAGCCTTAGGCATCTCCTATGGCAGGAAG AAGCGGAGACAGCGACGA---AGAGCTCCTCAAGACAGTAAGACTCATCA AGCGTCTCTATCAGAGCAACCCGCTTCC---CAGCCCCGAGGGGAC---C CGACAGGCCCGAAGGAATCGAAGAAGAAGGTGGAGAGAGAGACAGAGACA CATCAAGACCAT--- >C1 MDPVDPNLEPWKHPGSQPRTACNKCYCKKCCFHCQACFIKKALGISYGRK KRRQRRoRAPPNNQDHQDSLSKQSSToQLRGDoPTGPKESKKKVETETET DPFAo >C2 MELVDPNLEPWKHPGSQPTTACSNCYCKKCCWHCQLCFLNKGLGISYGRK KRRRRRoGTPQSRQDHQNPVPKQPLPoTTRGNoPTDPKESKKEVASETET DPCAo >C3 MEPVDPDLEPWNHPGSQPTTDCNKCFCKKCCWHCQVCFLKKGLGISYGRK KRKHRRoGSLQGSKGHQNLIPKQPLSQQPNGDoSTGPEEQKKKVASKTEA DPFAo >C4 MEPVDPRLEPWEHPGSQPRTACNNCYCKKCCFHCQVCFTKKGLGISYGRK KRRQRRoGPPQGSQTHQVSLPKQPLSoQSRGDHPTGPTESKKKVEREAET DPEYo >C5 MEPIDPKLEPWNHPGSQPKTPCNKCYCKKCSYHCLVCFQTKDSGISYGRK KRRQRRoSTTPSSEDHQDPVSKQPLPoQTRGDoPTGSEEPKKKVERKTET DPFDo >C6 MEPIDPNIEPWNQPGSRPKTACTTCYCKQCSYHCMVCFLNKGLGISYGRK KRRQRRoTAPPGSKTHQDPVSKQPLSoQTQRDoPTGTKESKEEVESKTET DPFAo >C7 MEPVDPNLEPWKHPGSQPKTACTKCYCKRCCFHCQACFITKGLGISYGRK KRRQRRoGPPQGSQTHQVSLSKQPTSoQPRGDoPTGQKEQKKKVEKETET APPDo >C8 MEPVDPNLEPWNHPGSQPETACNNCFCKRCSYHCLVCFQKKGLGISYGRK KRRQRRoSAPPSSEDHQDLISKQPLSoRTQGDoPTGSEESKKKVESKTET DPFDo >C9 MEPVDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK KRRQRRoSAPPSSEDHQNPISKQSLPoQTQGDoSTGSEESKKKVESKTET DPCAo >C10 MDPVDPNLEPWNHPGSQPATPCSKCYCKKCCYHCPACFLNKGLGISYGRK KRRQRRoGTSQSNKDHQNPVPKQPIPoQTQGIoPTGPEESKKKMESKAKT DRFDo >C11 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCFHCQVCFMKKGLGISYGRK KRRQRRoRAPQSSQTHQASLSKQPASoQPRGDoPAGPKESKKKVESKTET DPRAo >C12 MELVDPNLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRoGTPQSSKDHQNPIPKQPSPoIIRGNoQTDPKESKKKVASKAET DPCAo >C13 MEPVDPRLEPWKHPGSQPRTACNTCFCKKCCFHCQVCFMTKGLGISYGRK KRGQRRoRAPQDSKTHQTPLPKQPASoQQRGDoPTGPKESKKKVERETEK DQGHo >C14 MEPVDPRLEPWKHPGSQPRTACTTCYCKRCCYHCQTCFITKGLGISYGRK KRRQRRoGAHQDSETHQASLSEQPASoQLRGDoPTGPKESKKKVESETET DPNPo >C15 MEPVDPRLEPWKHPGSQPKTACTGCYCKKCCFHCQVCFISKGLGISYGRK KRRQRRoRTHQDNQDHQVPLSKQPASoQPRGDoPTGPKESKKEVERETAT DPVPo >C16 MELVDPDLEPWNHPGSQPKTPCNNCFCKHCSYHCQVCFLTKGLGISYGRK KRRQRRoSSPSSSKDHQNPISKQPLPoQTRGNoPTGSEESKKKVESKTKA DPFDo >C17 MDPVDPSLEPWKHPGSQPATPCNNCFCKRCCYHCPCCFLTKGLGISYGRK KRRQRRoRPPPSNQINQVSLSKQPTSoQFRGDoPTGPKESEKKVERQTET HQLDo >C18 MELVDPSLEPWNHPGSKPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK KRRRRRPGTPQSCQDHQNPVPKQPFPoTTRGNoPTGPKESKKEMASKTKT DQCAo >C19 MEPVDPNLEPWNHPGSQPKTACNTCYCKICSWHCQLCFLKKGLGISYGRK KRKHRRoGTPQSSKDHQNPIPKQSLPoISRGNoPTDPKESKKTVASKAET DPCDo >C20 MEPVDPNLEPWKHPGSQPQTPCNNCYCKHCSYHCLVCFQKKGLGISYGRK KRRQRRoSTPPSSEDHQNLISKQPLPoQARGDoPTGSKEPKKKVESKTKT DPCDo >C21 MEPVDPRLEPWKHPGSQPRTACNSCYCKRCCFHCQVCFTKKALGISYGRK KRRQRRoRPPQSSKIHQDPVPKQPASoQAPGNoPTGPKESKKEVESKTKT DQWDo >C22 MEPVDPSLEPWNHPGSQPKTPCNHCYCKHCSYHCLVCFQRKGLGISYGRK KRRRRRoSAPPSSEDHQNPISKQPLSoQTRGDoPTGSEESKKKVESKTET DPFDo >C23 MEPVDPKLEPWKHPGSQPTTACSKCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRoRTPQSSKDHQNPIPEQSLSoISRGNoPTDQKKSKKKVASKAET DPCDo >C24 MEPVDPNLEPWNHPGSQPKTPCNKCYCKHCSYHCLVCFQTKGLGISYGRK KRRQRRoSTPPSSEDHQNLISKQPLSoQTRGNoPTGSEESKKKVESKTKT DPFAo >C25 MEPVDPRLEPWNHPGSQPKTACNNCYCKRCCYHCLYCFTKKGLGISYGRK KRSQRRoRTPQSSKSHQDLIPEQPLSoQQQGDoQTGQKKQKEALESKTEA DPCDo >C26 MDPVDPSLDPWNHPGSQPATACNKCYCKKCCYHCAVCFLHKGLGISYGRK KRRQRRoGSPQCSKDHQNPLPKQPSToQTQGIoSTGSEESTKKVESKAET DRFAo >C27 MEPVDPNLEPWNHPGSQPKTPCTNCYCKHCSYHCLVCFQTKGLGISYGRK KRRQRRoSTPPSSEDHQALISKQPLSoQTRGDoSTGPEEQKKKVESKTKT DPCDo >C28 MEPVDPNLEPWNHPGSQPKTACNNCYCKSCSYHCLVCFQKKGLGISYGRK KRRQRRoSAPQSSEDHQNPISKQPLPREHQRDoSTGSEESKKKVESKTET DPFDo >C29 MEPVDPRLEPWKHPGSQPKTACTNCYCKVCCFHCQVCFTTKGLGISYGRK KRRQRRoKPPQDSPNHQAPLSKQPASoQPRGDoPTGPKESKKKVERETET DPFDo >C30 MELVDPNLDPWNHPGSQPSTPCTRCYCKRCCFHCYWCFATKGLGISHGRK KRRQRHoRTPKSSPLHQDPIPKQPISoQARGDoPTGPKESKKEVESKTET DPCDo >C31 MEPVDPSLEPWKHPGSQPTTPCSNCYCKKCCWHCQLCFLNKGLGISYGRK KRRRRRoGTPQSRQDHQNPVPKQPSPoITRGNoPTGPKESKKEVASKTER DLCAo >C32 MEPIDPNLEPWNHPGSQPKTACNNCYCKRCSYHCLVCFQTKGLGISYGRK KRRQRRoRAPPSSEDHQNPISKQPLSoQPRGDoPTGSEESKKKVESKTET DPCDo >C33 MEPVDPRLEPWKHPGSQPKTACTPCHCKKCCYHCQVCFLTKGLGIFYGRK KRRQRRoRAHQDCKTHQVDLSKQPASoQPRGNoPTGPKESKKKVEGETET HPQHo >C34 MELVDPSLEPWNHPGSQPTTACSKCYCKMCCWHCQLCFLNKGLGISYGRK KRRRRRoGTPQSRQDHQNPVPKQPLPoTTRGNoPTNPKESKKEVASKTET DPCDo >C35 MELVDPRLEPWNHPGSQPTTACSKCYCKICCWHCQLCFLNKGLGISYGRK KRRRRRoETSQNHPDHQNPVPEQPLPoIIRGNoPTDPEESKKEVASKTEA DRYAo >C36 MDPIDPNIEPWNQPGSQPKTACNNCYCKKCCYHCQLCFLKKGLGISHGRK KRRQRRoAAPLSSKDHQNPVPKQSTPoQTRRVoSTGSKESQEKVESQTEP DRFDo >C37 MEPVDPSLEPWKHPGSQPKTACNNCYCKKCCLHCQVCFTKKGLGISYGRK KRRQRRoRAPPDGQSNQDSLPKQPASoQFRGDoPTGPKESQKKVESKTEA NPLTo >C38 MDPVDPNLEPWNHPGSQPKTPCNNCYCKKCSYHCVVCFQTKGLGIYYGRK KRRQRRoSAPPSNKDHQNPISKQPLPoRTQGNoSTGSEESKKKVESKTKT DQFDo >C39 MEPVDPNLEPWNHPGSHPTTPCSKCYCKKCCWHCQLCFLKKGLGISYGRK KRKHRRoGTPQSRQNHQNPVPEQPLSoRIQGDoPTGSKESKKEVASKAET DPCAo >C40 MDPVDPNLEPWNHPGSQPTTPCSKCYCKKCCYHCPVCFLNKGLGISYGRK KRKQRRoGTPHRSKDHQNPVPKQPIPoQPQGVoSTGPEKSKKKMESKAEA DRFDo >C41 MELVDPNLEPWNHPGSKPKTACNNCYCKICCWHCQICFLKKGLGISYGRK KRKHRRoGTPQSSKDHQHLIPKQSLSoISRGNoPTDPKESKKKVASKAET DPCAo >C42 MDPVDPNLEPWNHPGSQPSTACNSCYCKRCCYHCQCCFITKGLGISYGRK KRGQRRoRPPQGNKTHQGPVPEQPSSoQHPGPoPPGPNPSKKEVASKTEA DPFDW >C43 MELVDPKLEPWNHPGSQPTTACSKCYCKLCCWHCQLCFLNKGLGISYGRK KRRRRRoGTPQSRQDHQNPVPKQPLPoTTRGEoQTGPKESKKEVASKTET GPCDo >C44 MEPVDPRLEPWKHPGSQPKTACTNCYCKKCCLHCQVCFMKKGLGISYGRK KRRQRRoRAHQDSQTHQASLSKQPASoQPRGDoPTGPQESKKKVESKTET DPRDo >C45 MEPVDPRLEPWKHPGSQPKTPCNNCYCKKCCFHCQVCFIKKGLGISYGRK KRRQRRoRAPQDSSPNQASLSKQPASoQLRGNoPTGPEESKKKVERETET HPHAo >C46 MEPVDPRLEPWKHPGSQPKTACNNCYCKKCCFHCQVCFTKKGLGISYGRK KRRQRRoRTPQGSQTDQASPSKQPTAoQPRGDoPTGPKESKKKVERETET HPooo >C47 MELVDPKLDPWNHPGSQPTTPCTKCYCKQCCFHCYWCFVTKGLGISYGRK KRRQRQoRAPQDSQNNQVSLPKQPKSoQARGNoPTGPKESKKEVESKAKT DPCDo >C48 MEPIDPNLEPWKHPGSQPRTACNNCYCKKCSYHCLVCFQKKGLGISYGRK KRRQRRoSAPPSSENHQDLVSKQPLPoRPHGNoQTVSEESKKKVESKTET DPFDo >C49 MEPVDPSLEPWKHPGSQPKTPCTSCYCKKCCFHCPACFTRKGLGIFYGRK KRKQRRoRAPQDSQTHQVSLSKQPASoQPRGDoPTGPEESKKKVERETET DPFDo >C50 MEPVDPRLEPWKHPGSQPKTACNSCYCKKCCFHCQVCFTRKALGISYGRK KRRQRRoRAPQDSKTHQASLSEQPASoQPRGDoPTGPKESKKKVERETET HQDHo 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_RE/TAT_1_4/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 315 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) = 1518809176 Setting output file names to "/opt/ADOPS/HIV1_RE/TAT_1_4/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) = 1154143200 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 = 7679837240 Seed = 2063465286 Swapseed = 1518809176 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 69 unique site patterns Division 2 has 60 unique site patterns Division 3 has 78 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 -- -7860.318462 -- -77.118119 Chain 2 -- -8082.638780 -- -77.118119 Chain 3 -- -8086.328822 -- -77.118119 Chain 4 -- -7876.482963 -- -77.118119 Initial log likelihoods and log prior probs for run 2: Chain 1 -- -7836.522174 -- -77.118119 Chain 2 -- -8091.551060 -- -77.118119 Chain 3 -- -7831.629546 -- -77.118119 Chain 4 -- -7958.822289 -- -77.118119 Using a relative burnin of 25.0 % for diagnostics Chain results (1000000 generations requested): 0 -- [-7860.318] (-8082.639) (-8086.329) (-7876.483) * [-7836.522] (-8091.551) (-7831.630) (-7958.822) 500 -- (-5684.984) (-5660.361) [-5628.401] (-5731.218) * (-5662.975) (-5955.573) [-5422.898] (-5613.608) -- 0:33:19 1000 -- (-5096.352) (-5147.776) (-5102.951) [-5046.286] * (-5060.088) (-5258.375) [-5017.734] (-5194.486) -- 0:16:39 1500 -- (-4952.799) (-4957.776) [-4911.485] (-4911.071) * (-4917.139) (-5019.067) (-4933.111) [-4889.775] -- 0:22:11 2000 -- (-4908.796) (-4897.540) [-4863.016] (-4880.964) * (-4845.972) (-4875.341) [-4864.151] (-4848.101) -- 0:24:57 2500 -- (-4841.303) (-4848.162) [-4795.914] (-4817.333) * (-4824.887) (-4836.575) [-4814.741] (-4822.893) -- 0:26:36 3000 -- (-4814.920) (-4841.027) (-4782.305) [-4788.080] * [-4793.618] (-4840.032) (-4800.905) (-4822.529) -- 0:27:41 3500 -- [-4789.600] (-4841.636) (-4755.361) (-4783.294) * (-4798.581) (-4824.858) [-4787.577] (-4805.715) -- 0:23:43 4000 -- (-4779.365) (-4843.203) [-4758.928] (-4775.133) * (-4784.085) (-4792.894) [-4758.417] (-4803.024) -- 0:24:54 4500 -- [-4774.688] (-4812.486) (-4768.442) (-4766.912) * (-4767.300) (-4791.360) [-4754.211] (-4785.533) -- 0:25:48 5000 -- (-4784.692) (-4801.881) [-4755.728] (-4778.119) * (-4759.335) (-4809.631) [-4766.841] (-4777.093) -- 0:26:32 Average standard deviation of split frequencies: 0.107111 5500 -- (-4782.528) (-4810.550) [-4759.513] (-4769.528) * [-4757.806] (-4782.745) (-4800.166) (-4807.402) -- 0:27:07 6000 -- [-4766.990] (-4810.473) (-4755.998) (-4767.652) * (-4773.296) (-4789.183) [-4787.535] (-4803.447) -- 0:24:51 6500 -- (-4784.295) (-4804.501) [-4746.242] (-4769.363) * [-4775.412] (-4785.050) (-4801.182) (-4802.013) -- 0:25:28 7000 -- (-4782.025) (-4783.654) [-4746.101] (-4802.100) * [-4775.347] (-4792.689) (-4777.665) (-4791.401) -- 0:26:00 7500 -- (-4789.646) (-4785.205) [-4753.314] (-4794.336) * [-4771.443] (-4791.377) (-4782.891) (-4777.551) -- 0:26:28 8000 -- (-4781.370) (-4790.122) [-4765.861] (-4822.127) * [-4775.740] (-4775.524) (-4785.886) (-4791.657) -- 0:26:52 8500 -- (-4774.634) (-4792.157) [-4760.527] (-4808.681) * (-4788.226) [-4759.168] (-4794.000) (-4815.465) -- 0:25:16 9000 -- (-4793.646) (-4787.680) [-4748.891] (-4818.158) * (-4781.783) [-4757.605] (-4801.416) (-4803.505) -- 0:25:41 9500 -- [-4778.332] (-4791.669) (-4763.514) (-4803.997) * [-4754.096] (-4772.345) (-4786.148) (-4812.657) -- 0:26:03 10000 -- [-4770.902] (-4790.326) (-4772.860) (-4804.992) * (-4762.631) [-4787.629] (-4778.487) (-4813.028) -- 0:26:24 Average standard deviation of split frequencies: 0.107508 10500 -- (-4779.547) (-4776.151) [-4758.237] (-4789.657) * [-4759.707] (-4784.508) (-4761.513) (-4809.265) -- 0:26:42 11000 -- (-4769.162) (-4777.866) (-4762.716) [-4768.533] * (-4780.801) (-4783.036) [-4757.308] (-4810.860) -- 0:26:58 11500 -- [-4756.919] (-4810.175) (-4763.168) (-4770.613) * (-4781.628) (-4777.131) [-4752.855] (-4809.542) -- 0:25:47 12000 -- (-4768.050) (-4797.042) [-4753.986] (-4777.905) * (-4789.683) (-4766.316) [-4746.285] (-4820.852) -- 0:26:04 12500 -- [-4767.277] (-4809.841) (-4771.723) (-4786.934) * (-4800.704) (-4776.302) [-4755.927] (-4800.972) -- 0:26:20 13000 -- [-4747.017] (-4795.387) (-4775.935) (-4755.565) * (-4797.161) (-4773.435) [-4758.929] (-4799.781) -- 0:26:34 13500 -- (-4755.411) (-4800.860) [-4767.871] (-4779.731) * (-4782.174) [-4757.698] (-4764.806) (-4776.023) -- 0:26:47 14000 -- [-4764.500] (-4794.750) (-4768.559) (-4775.409) * (-4772.107) [-4754.853] (-4776.658) (-4789.560) -- 0:25:49 14500 -- (-4761.183) (-4785.040) [-4758.737] (-4777.677) * (-4788.037) (-4764.449) [-4754.028] (-4767.012) -- 0:26:03 15000 -- [-4763.711] (-4791.460) (-4760.898) (-4790.895) * (-4802.723) (-4777.882) [-4756.766] (-4771.226) -- 0:26:16 Average standard deviation of split frequencies: 0.091574 15500 -- [-4768.978] (-4789.814) (-4760.006) (-4783.182) * (-4806.842) (-4775.247) [-4764.769] (-4776.141) -- 0:26:27 16000 -- [-4772.014] (-4763.730) (-4760.923) (-4780.210) * (-4787.135) (-4777.792) [-4752.149] (-4771.872) -- 0:26:39 16500 -- [-4760.835] (-4759.874) (-4795.388) (-4799.668) * (-4774.712) (-4790.057) [-4761.232] (-4770.223) -- 0:25:49 17000 -- [-4745.269] (-4771.206) (-4783.993) (-4801.629) * (-4795.091) (-4792.179) (-4761.994) [-4766.011] -- 0:26:01 17500 -- [-4754.040] (-4765.526) (-4795.592) (-4768.829) * (-4805.529) (-4768.462) [-4762.664] (-4767.168) -- 0:26:12 18000 -- (-4759.357) [-4763.511] (-4825.717) (-4777.298) * (-4785.527) [-4759.898] (-4766.490) (-4782.755) -- 0:26:22 18500 -- [-4755.677] (-4786.182) (-4802.364) (-4763.453) * (-4770.736) (-4765.764) [-4752.977] (-4780.391) -- 0:26:31 19000 -- [-4733.571] (-4792.559) (-4774.439) (-4798.343) * (-4794.556) [-4764.202] (-4788.013) (-4758.432) -- 0:25:48 19500 -- [-4741.675] (-4775.864) (-4791.756) (-4790.483) * (-4775.197) [-4771.107] (-4787.082) (-4767.225) -- 0:25:58 20000 -- [-4755.954] (-4752.197) (-4800.490) (-4783.233) * [-4762.727] (-4774.303) (-4774.062) (-4794.228) -- 0:26:08 Average standard deviation of split frequencies: 0.088361 20500 -- [-4759.035] (-4758.432) (-4777.004) (-4799.244) * (-4757.791) (-4780.196) [-4757.474] (-4775.700) -- 0:26:16 21000 -- (-4766.467) [-4753.571] (-4794.566) (-4762.986) * [-4757.180] (-4772.665) (-4767.969) (-4787.256) -- 0:26:25 21500 -- [-4762.651] (-4776.357) (-4770.910) (-4773.328) * (-4784.040) [-4758.887] (-4745.872) (-4801.216) -- 0:25:47 22000 -- (-4782.809) (-4793.565) (-4793.983) [-4759.662] * (-4796.808) (-4764.241) [-4750.099] (-4779.005) -- 0:25:55 22500 -- [-4760.412] (-4796.518) (-4786.131) (-4769.865) * (-4792.824) (-4763.134) [-4753.798] (-4793.920) -- 0:26:04 23000 -- (-4775.187) (-4806.932) [-4758.396] (-4772.719) * (-4770.665) (-4784.921) [-4762.782] (-4787.895) -- 0:26:11 23500 -- (-4782.869) (-4804.627) (-4776.858) [-4756.197] * (-4761.483) (-4792.190) [-4755.679] (-4770.019) -- 0:26:19 24000 -- [-4766.970] (-4782.003) (-4784.072) (-4750.497) * (-4764.064) [-4778.163] (-4766.250) (-4785.790) -- 0:25:45 24500 -- (-4783.266) (-4805.027) (-4786.145) [-4757.243] * (-4785.672) (-4786.673) (-4762.412) [-4774.866] -- 0:25:52 25000 -- (-4796.964) (-4802.525) (-4769.250) [-4757.562] * (-4774.041) (-4794.585) (-4767.703) [-4765.293] -- 0:26:00 Average standard deviation of split frequencies: 0.067100 25500 -- (-4806.036) (-4815.940) (-4781.021) [-4765.185] * [-4770.567] (-4793.067) (-4776.482) (-4783.672) -- 0:26:06 26000 -- [-4778.652] (-4818.871) (-4767.236) (-4767.951) * (-4771.571) (-4784.419) [-4783.005] (-4785.249) -- 0:26:13 26500 -- (-4787.440) (-4805.549) [-4763.474] (-4766.188) * [-4759.424] (-4773.481) (-4787.097) (-4782.767) -- 0:26:19 27000 -- (-4769.897) (-4778.451) [-4761.738] (-4757.471) * (-4763.344) [-4753.206] (-4788.263) (-4799.811) -- 0:25:49 27500 -- (-4771.356) (-4773.606) [-4759.737] (-4784.906) * (-4768.193) [-4755.233] (-4787.790) (-4783.474) -- 0:25:56 28000 -- (-4776.642) (-4769.676) [-4766.589] (-4778.970) * (-4780.049) [-4757.977] (-4782.518) (-4781.353) -- 0:26:02 28500 -- (-4777.271) (-4775.215) (-4781.907) [-4754.898] * (-4793.722) [-4750.832] (-4789.983) (-4788.282) -- 0:26:08 29000 -- (-4784.594) (-4786.539) [-4762.842] (-4756.328) * (-4774.681) [-4761.878] (-4782.222) (-4794.335) -- 0:26:13 29500 -- (-4796.438) (-4777.930) [-4772.844] (-4757.440) * (-4789.754) (-4768.054) [-4766.832] (-4793.950) -- 0:25:46 30000 -- (-4793.818) (-4767.023) [-4766.005] (-4758.341) * (-4801.132) [-4759.122] (-4777.356) (-4775.748) -- 0:25:52 Average standard deviation of split frequencies: 0.059045 30500 -- [-4768.169] (-4762.035) (-4761.065) (-4770.948) * (-4789.141) (-4779.601) [-4757.474] (-4760.711) -- 0:25:57 31000 -- (-4771.548) (-4774.286) (-4796.879) [-4758.377] * (-4806.583) (-4768.093) [-4747.837] (-4769.687) -- 0:26:02 31500 -- (-4774.140) (-4793.261) (-4783.674) [-4749.848] * (-4808.373) (-4779.958) (-4763.685) [-4774.409] -- 0:26:08 32000 -- (-4773.407) (-4796.937) (-4765.051) [-4769.948] * (-4805.363) (-4772.364) (-4787.678) [-4758.546] -- 0:25:42 32500 -- (-4796.345) (-4796.773) (-4768.148) [-4758.489] * (-4802.706) (-4762.555) [-4779.540] (-4777.790) -- 0:25:48 33000 -- (-4793.652) (-4776.468) (-4755.856) [-4758.529] * (-4792.421) (-4762.020) [-4767.324] (-4786.255) -- 0:25:53 33500 -- (-4779.176) [-4774.906] (-4770.185) (-4764.692) * (-4808.115) (-4787.380) [-4760.598] (-4777.339) -- 0:25:57 34000 -- (-4788.919) (-4779.873) (-4769.330) [-4754.527] * (-4797.136) (-4774.012) [-4762.608] (-4790.210) -- 0:26:02 34500 -- (-4777.025) (-4766.709) (-4790.051) [-4758.125] * (-4797.443) [-4773.606] (-4773.262) (-4786.244) -- 0:26:07 35000 -- (-4781.923) (-4770.541) (-4782.672) [-4758.689] * (-4798.006) (-4789.189) [-4747.598] (-4790.266) -- 0:25:44 Average standard deviation of split frequencies: 0.057289 35500 -- (-4798.133) (-4761.762) (-4769.422) [-4764.319] * (-4804.833) [-4763.575] (-4760.572) (-4780.619) -- 0:25:48 36000 -- (-4791.439) (-4761.759) [-4773.631] (-4778.613) * (-4776.416) (-4777.079) [-4752.108] (-4798.787) -- 0:25:53 36500 -- (-4772.041) [-4755.954] (-4774.070) (-4804.991) * (-4767.651) [-4754.414] (-4751.001) (-4795.989) -- 0:25:57 37000 -- (-4779.839) [-4753.631] (-4799.820) (-4812.230) * (-4773.969) [-4751.552] (-4754.173) (-4818.344) -- 0:26:01 37500 -- (-4782.487) [-4753.203] (-4765.557) (-4795.863) * (-4794.550) (-4779.162) [-4747.895] (-4807.169) -- 0:25:40 38000 -- (-4798.040) (-4779.591) (-4777.849) [-4775.849] * (-4787.277) (-4767.717) [-4745.070] (-4793.402) -- 0:25:44 38500 -- (-4763.923) (-4763.771) [-4759.682] (-4792.132) * (-4794.444) (-4759.017) [-4752.925] (-4774.460) -- 0:25:48 39000 -- [-4774.910] (-4773.399) (-4758.138) (-4792.210) * (-4793.460) (-4764.082) [-4760.901] (-4790.203) -- 0:25:52 39500 -- [-4751.347] (-4780.095) (-4767.874) (-4793.325) * (-4782.138) (-4758.115) [-4764.295] (-4795.143) -- 0:25:56 40000 -- (-4766.252) (-4791.319) [-4760.427] (-4814.083) * (-4799.028) (-4765.808) [-4745.715] (-4813.327) -- 0:26:00 Average standard deviation of split frequencies: 0.053755 40500 -- [-4758.113] (-4782.494) (-4762.311) (-4798.314) * (-4807.334) [-4761.916] (-4752.337) (-4784.706) -- 0:25:39 41000 -- [-4764.316] (-4770.199) (-4780.886) (-4785.094) * (-4801.286) (-4754.455) [-4758.941] (-4805.759) -- 0:25:43 41500 -- [-4751.319] (-4765.563) (-4771.159) (-4792.303) * (-4781.595) [-4758.252] (-4759.836) (-4795.247) -- 0:25:47 42000 -- [-4754.126] (-4754.626) (-4784.592) (-4806.353) * (-4769.412) [-4752.185] (-4789.117) (-4786.620) -- 0:25:51 42500 -- (-4777.457) [-4774.479] (-4791.166) (-4775.908) * (-4793.342) [-4756.008] (-4784.475) (-4785.910) -- 0:25:54 43000 -- (-4788.467) (-4773.532) [-4766.819] (-4786.134) * (-4776.882) (-4774.866) (-4807.925) [-4769.970] -- 0:25:35 43500 -- (-4774.645) (-4772.440) [-4765.449] (-4780.285) * (-4777.922) (-4778.250) (-4796.538) [-4771.112] -- 0:25:39 44000 -- (-4769.467) (-4793.461) [-4763.345] (-4775.123) * (-4774.298) [-4769.094] (-4803.743) (-4803.887) -- 0:25:42 44500 -- [-4757.783] (-4789.613) (-4781.905) (-4778.154) * (-4765.400) [-4769.571] (-4813.095) (-4795.518) -- 0:25:45 45000 -- [-4755.996] (-4784.543) (-4786.217) (-4782.375) * [-4758.428] (-4767.488) (-4806.148) (-4781.918) -- 0:25:49 Average standard deviation of split frequencies: 0.048049 45500 -- [-4754.213] (-4774.606) (-4795.676) (-4776.252) * [-4761.390] (-4769.606) (-4785.054) (-4778.981) -- 0:25:52 46000 -- [-4769.335] (-4785.477) (-4795.471) (-4770.020) * (-4782.138) (-4773.947) [-4780.166] (-4785.461) -- 0:25:34 46500 -- (-4761.103) (-4780.139) (-4790.726) [-4756.308] * (-4770.345) (-4774.166) [-4764.517] (-4790.555) -- 0:25:37 47000 -- (-4767.305) (-4774.474) (-4775.692) [-4761.529] * (-4766.655) (-4790.429) [-4756.189] (-4773.016) -- 0:25:41 47500 -- (-4790.374) (-4777.255) (-4787.951) [-4768.291] * (-4778.932) (-4772.461) [-4766.101] (-4788.435) -- 0:25:44 48000 -- (-4777.527) [-4760.874] (-4774.620) (-4798.930) * (-4769.783) (-4780.635) [-4763.355] (-4782.975) -- 0:25:47 48500 -- (-4762.938) [-4753.656] (-4799.845) (-4790.485) * (-4795.460) [-4771.093] (-4764.606) (-4782.905) -- 0:25:30 49000 -- (-4761.428) [-4761.200] (-4798.933) (-4772.941) * (-4788.755) (-4772.089) [-4754.318] (-4793.666) -- 0:25:33 49500 -- [-4758.671] (-4781.027) (-4803.293) (-4778.978) * (-4796.059) (-4775.067) (-4768.189) [-4782.241] -- 0:25:36 50000 -- [-4765.420] (-4776.211) (-4822.244) (-4769.028) * (-4804.076) [-4766.679] (-4773.497) (-4809.462) -- 0:25:39 Average standard deviation of split frequencies: 0.049340 50500 -- (-4791.288) [-4764.659] (-4804.058) (-4782.659) * (-4801.143) [-4757.700] (-4763.053) (-4783.530) -- 0:25:41 51000 -- (-4781.601) [-4753.011] (-4810.033) (-4773.802) * [-4792.069] (-4756.429) (-4768.171) (-4790.208) -- 0:25:25 51500 -- (-4780.184) [-4754.423] (-4808.964) (-4758.965) * (-4814.952) [-4760.294] (-4769.686) (-4770.019) -- 0:25:28 52000 -- (-4760.914) (-4765.015) (-4796.076) [-4748.172] * (-4765.540) [-4745.663] (-4787.864) (-4764.874) -- 0:25:31 52500 -- (-4791.132) (-4753.131) (-4793.951) [-4766.941] * (-4779.899) (-4756.824) [-4766.696] (-4781.760) -- 0:25:34 53000 -- [-4788.126] (-4758.188) (-4784.174) (-4765.300) * (-4785.428) [-4767.805] (-4768.903) (-4787.704) -- 0:25:36 53500 -- (-4802.141) (-4772.488) (-4777.759) [-4755.824] * (-4771.690) [-4757.612] (-4779.740) (-4766.302) -- 0:25:21 54000 -- (-4799.414) (-4770.763) (-4771.334) [-4765.334] * (-4771.753) (-4781.513) (-4793.619) [-4762.456] -- 0:25:24 54500 -- (-4790.993) [-4763.390] (-4778.271) (-4766.310) * (-4783.307) (-4783.153) [-4781.782] (-4774.950) -- 0:25:26 55000 -- (-4792.362) [-4779.626] (-4794.650) (-4766.584) * (-4778.815) (-4781.550) [-4767.224] (-4778.549) -- 0:25:29 Average standard deviation of split frequencies: 0.048824 55500 -- (-4769.982) (-4784.924) (-4790.561) [-4766.046] * (-4778.260) [-4770.278] (-4780.772) (-4790.684) -- 0:25:31 56000 -- (-4769.793) (-4802.655) [-4772.646] (-4758.421) * [-4764.929] (-4771.067) (-4760.913) (-4784.561) -- 0:25:34 56500 -- [-4767.027] (-4801.302) (-4780.449) (-4770.812) * (-4763.146) (-4772.865) [-4768.633] (-4792.936) -- 0:25:19 57000 -- (-4758.475) (-4792.466) [-4764.150] (-4781.523) * (-4767.089) [-4756.681] (-4776.020) (-4771.996) -- 0:25:22 57500 -- (-4772.583) (-4772.486) [-4761.337] (-4800.190) * (-4764.876) (-4771.271) [-4760.899] (-4778.680) -- 0:25:24 58000 -- (-4782.802) (-4789.080) [-4766.837] (-4831.085) * [-4769.742] (-4782.615) (-4782.578) (-4780.645) -- 0:25:26 58500 -- (-4789.585) (-4782.128) (-4759.637) [-4786.194] * [-4778.290] (-4771.018) (-4788.332) (-4803.710) -- 0:25:28 59000 -- (-4778.815) (-4783.840) [-4770.932] (-4822.079) * (-4765.253) (-4785.979) [-4766.136] (-4804.118) -- 0:25:15 59500 -- (-4779.531) [-4757.505] (-4761.077) (-4817.125) * (-4761.607) (-4777.548) [-4768.294] (-4793.467) -- 0:25:17 60000 -- (-4772.212) (-4786.413) [-4751.763] (-4801.497) * (-4770.349) (-4801.384) (-4776.826) [-4759.706] -- 0:25:19 Average standard deviation of split frequencies: 0.040022 60500 -- (-4781.902) [-4744.148] (-4771.872) (-4811.394) * (-4777.492) (-4799.735) (-4792.450) [-4760.969] -- 0:25:21 61000 -- (-4780.713) [-4758.727] (-4782.245) (-4802.912) * (-4777.721) (-4789.236) (-4809.233) [-4757.165] -- 0:25:23 61500 -- (-4795.591) [-4742.732] (-4798.037) (-4798.155) * (-4768.883) [-4764.986] (-4798.126) (-4762.413) -- 0:25:10 62000 -- (-4789.926) [-4753.238] (-4773.885) (-4793.897) * (-4779.456) [-4766.677] (-4819.493) (-4785.027) -- 0:25:12 62500 -- (-4783.661) [-4759.595] (-4755.271) (-4794.591) * (-4794.814) [-4764.217] (-4780.431) (-4758.272) -- 0:25:15 63000 -- (-4788.996) (-4749.478) [-4753.904] (-4811.348) * (-4796.805) (-4774.789) (-4762.046) [-4762.666] -- 0:25:17 63500 -- (-4787.595) (-4778.269) [-4751.108] (-4819.088) * (-4767.037) (-4782.647) (-4772.981) [-4760.435] -- 0:25:19 64000 -- (-4769.122) (-4792.721) [-4749.495] (-4799.677) * [-4768.437] (-4780.611) (-4787.668) (-4769.461) -- 0:25:21 64500 -- (-4763.586) (-4790.885) [-4740.437] (-4799.094) * (-4772.832) (-4781.438) (-4792.128) [-4754.575] -- 0:25:08 65000 -- (-4759.205) (-4776.798) [-4731.148] (-4776.741) * (-4790.816) (-4766.832) (-4791.245) [-4755.189] -- 0:25:10 Average standard deviation of split frequencies: 0.037733 65500 -- [-4759.197] (-4785.207) (-4749.687) (-4762.312) * (-4793.639) [-4751.450] (-4787.288) (-4761.361) -- 0:25:12 66000 -- (-4770.833) (-4783.752) [-4747.818] (-4757.599) * (-4782.300) (-4749.306) (-4777.629) [-4754.530] -- 0:25:14 66500 -- (-4778.707) (-4781.882) [-4750.692] (-4761.217) * (-4767.623) [-4761.041] (-4780.989) (-4759.163) -- 0:25:16 67000 -- [-4765.844] (-4790.115) (-4747.332) (-4772.434) * (-4797.829) [-4764.941] (-4781.185) (-4764.096) -- 0:25:03 67500 -- (-4770.640) (-4781.234) [-4742.427] (-4763.789) * (-4769.245) [-4768.245] (-4804.781) (-4782.611) -- 0:25:05 68000 -- (-4779.918) (-4772.590) [-4752.853] (-4755.385) * [-4752.078] (-4769.401) (-4794.934) (-4787.936) -- 0:25:07 68500 -- (-4781.242) (-4789.817) (-4753.762) [-4761.064] * [-4750.641] (-4767.760) (-4803.447) (-4770.021) -- 0:25:09 69000 -- (-4784.830) (-4758.973) (-4769.753) [-4761.758] * (-4764.831) (-4768.729) (-4792.565) [-4765.263] -- 0:25:11 69500 -- (-4803.500) [-4754.230] (-4784.420) (-4765.142) * [-4748.596] (-4769.043) (-4783.773) (-4752.504) -- 0:24:59 70000 -- (-4775.745) (-4793.533) (-4776.102) [-4760.252] * [-4745.052] (-4785.335) (-4771.301) (-4766.584) -- 0:25:01 Average standard deviation of split frequencies: 0.031793 70500 -- [-4752.307] (-4801.876) (-4768.210) (-4776.328) * (-4750.758) (-4791.892) (-4766.737) [-4753.307] -- 0:25:03 71000 -- (-4776.973) (-4781.046) [-4767.822] (-4790.601) * (-4758.080) (-4799.940) (-4773.979) [-4756.416] -- 0:25:04 71500 -- (-4781.041) (-4800.185) (-4793.452) [-4769.733] * [-4757.332] (-4793.189) (-4770.488) (-4768.577) -- 0:24:53 72000 -- (-4792.744) [-4780.198] (-4775.530) (-4769.880) * (-4754.996) (-4792.962) [-4741.235] (-4776.998) -- 0:24:55 72500 -- (-4782.105) (-4769.084) (-4798.535) [-4771.521] * (-4769.123) (-4792.511) [-4753.752] (-4775.481) -- 0:24:56 73000 -- (-4768.017) [-4756.513] (-4790.186) (-4783.779) * (-4765.525) (-4797.353) [-4755.391] (-4771.527) -- 0:24:58 73500 -- [-4749.107] (-4766.219) (-4785.884) (-4765.915) * (-4761.723) (-4775.405) [-4766.233] (-4765.475) -- 0:25:00 74000 -- [-4744.831] (-4791.148) (-4789.635) (-4771.743) * (-4801.338) (-4790.870) [-4760.270] (-4763.155) -- 0:24:49 74500 -- (-4768.677) (-4792.059) [-4772.916] (-4792.532) * (-4785.124) (-4764.751) (-4765.670) [-4756.891] -- 0:24:50 75000 -- (-4775.976) [-4758.365] (-4773.713) (-4781.458) * (-4786.557) (-4778.702) (-4761.008) [-4752.721] -- 0:24:52 Average standard deviation of split frequencies: 0.032069 75500 -- (-4777.098) [-4746.980] (-4752.357) (-4781.925) * (-4795.212) (-4790.091) (-4771.735) [-4745.286] -- 0:24:53 76000 -- (-4770.573) (-4766.075) (-4780.101) [-4762.444] * (-4785.540) (-4788.762) (-4778.563) [-4748.167] -- 0:24:55 76500 -- (-4776.992) (-4755.069) (-4790.573) [-4751.022] * (-4772.352) (-4780.265) (-4785.456) [-4747.965] -- 0:24:44 77000 -- (-4776.782) [-4761.669] (-4815.432) (-4795.309) * [-4757.126] (-4774.961) (-4789.396) (-4770.563) -- 0:24:46 77500 -- (-4771.501) [-4751.915] (-4801.758) (-4794.106) * (-4764.636) [-4759.705] (-4780.519) (-4761.464) -- 0:24:47 78000 -- (-4773.562) [-4756.646] (-4776.610) (-4791.731) * (-4763.305) [-4747.331] (-4787.574) (-4765.522) -- 0:24:49 78500 -- [-4757.169] (-4772.675) (-4801.138) (-4785.898) * (-4752.818) (-4777.649) (-4791.119) [-4763.380] -- 0:24:50 79000 -- [-4752.813] (-4793.805) (-4775.402) (-4786.818) * (-4761.833) (-4773.508) [-4777.796] (-4774.757) -- 0:24:52 79500 -- [-4766.375] (-4786.523) (-4779.808) (-4801.993) * (-4765.721) [-4756.782] (-4792.099) (-4785.352) -- 0:24:42 80000 -- [-4762.900] (-4803.002) (-4781.442) (-4799.517) * [-4775.006] (-4772.517) (-4799.709) (-4789.000) -- 0:24:43 Average standard deviation of split frequencies: 0.029544 80500 -- [-4759.280] (-4810.426) (-4766.828) (-4791.260) * (-4779.287) (-4785.037) (-4778.102) [-4758.171] -- 0:24:44 81000 -- [-4755.091] (-4794.537) (-4765.835) (-4794.343) * (-4764.078) (-4791.578) (-4780.864) [-4753.826] -- 0:24:46 81500 -- (-4774.358) (-4788.343) [-4761.747] (-4772.412) * (-4761.392) (-4799.871) (-4767.784) [-4762.441] -- 0:24:47 82000 -- (-4778.853) (-4820.867) [-4746.059] (-4777.130) * (-4774.520) (-4799.105) [-4761.471] (-4761.192) -- 0:24:37 82500 -- [-4771.351] (-4794.112) (-4769.179) (-4793.117) * (-4759.614) (-4797.065) [-4760.194] (-4775.457) -- 0:24:39 83000 -- (-4757.347) (-4810.586) [-4747.478] (-4792.289) * (-4791.265) (-4797.674) [-4781.106] (-4770.150) -- 0:24:40 83500 -- [-4734.843] (-4785.674) (-4759.862) (-4780.615) * (-4786.683) (-4796.996) (-4776.207) [-4759.744] -- 0:24:41 84000 -- [-4749.338] (-4777.178) (-4788.959) (-4781.600) * (-4775.928) (-4803.635) (-4769.515) [-4753.942] -- 0:24:43 84500 -- [-4751.879] (-4793.099) (-4770.464) (-4772.026) * (-4759.617) (-4800.037) [-4760.659] (-4795.904) -- 0:24:33 85000 -- [-4754.176] (-4791.026) (-4781.422) (-4778.275) * [-4747.322] (-4795.876) (-4773.390) (-4782.916) -- 0:24:34 Average standard deviation of split frequencies: 0.028881 85500 -- [-4762.001] (-4788.945) (-4782.139) (-4782.173) * [-4757.883] (-4786.199) (-4772.178) (-4757.254) -- 0:24:36 86000 -- (-4758.357) (-4788.886) [-4768.772] (-4818.496) * (-4785.510) (-4784.621) (-4767.975) [-4747.548] -- 0:24:37 86500 -- [-4756.705] (-4780.597) (-4794.111) (-4813.412) * (-4782.571) (-4786.322) (-4769.049) [-4751.424] -- 0:24:38 87000 -- [-4754.603] (-4773.170) (-4793.096) (-4791.632) * [-4758.411] (-4797.343) (-4770.718) (-4750.032) -- 0:24:39 87500 -- [-4755.559] (-4767.352) (-4798.010) (-4787.768) * (-4751.922) (-4791.968) (-4766.068) [-4744.516] -- 0:24:30 88000 -- (-4771.475) (-4787.227) [-4783.435] (-4786.928) * (-4764.546) (-4785.383) (-4789.374) [-4760.709] -- 0:24:31 88500 -- (-4765.632) (-4770.311) (-4805.238) [-4762.611] * [-4753.619] (-4784.774) (-4805.563) (-4753.967) -- 0:24:32 89000 -- (-4756.887) (-4766.479) (-4799.019) [-4770.736] * (-4754.486) (-4786.169) (-4775.194) [-4745.118] -- 0:24:33 89500 -- (-4766.961) (-4769.535) (-4780.773) [-4744.891] * [-4754.849] (-4801.642) (-4781.615) (-4777.612) -- 0:24:35 90000 -- (-4771.405) [-4758.186] (-4793.613) (-4784.047) * (-4745.939) (-4789.465) (-4784.876) [-4752.975] -- 0:24:26 Average standard deviation of split frequencies: 0.027240 90500 -- (-4781.203) [-4763.481] (-4803.503) (-4777.610) * (-4768.000) (-4791.222) (-4777.874) [-4754.438] -- 0:24:27 91000 -- (-4771.308) [-4756.071] (-4787.926) (-4778.095) * (-4757.384) (-4820.520) (-4790.466) [-4738.109] -- 0:24:28 91500 -- (-4778.907) (-4786.752) (-4780.402) [-4750.291] * [-4754.059] (-4815.639) (-4791.264) (-4759.515) -- 0:24:29 92000 -- (-4788.598) [-4753.712] (-4818.067) (-4758.222) * (-4767.229) (-4799.073) (-4766.529) [-4742.461] -- 0:24:30 92500 -- (-4778.182) (-4786.743) (-4797.063) [-4758.372] * (-4767.633) (-4800.071) [-4749.589] (-4757.243) -- 0:24:21 93000 -- (-4761.785) (-4765.850) (-4790.885) [-4752.710] * (-4788.437) (-4773.366) (-4757.907) [-4764.632] -- 0:24:22 93500 -- (-4779.436) (-4768.077) (-4778.566) [-4753.143] * (-4767.379) [-4764.587] (-4753.035) (-4776.624) -- 0:24:23 94000 -- (-4779.469) (-4767.692) (-4762.035) [-4757.054] * [-4752.620] (-4769.921) (-4768.843) (-4768.871) -- 0:24:25 94500 -- (-4779.698) (-4774.526) (-4778.586) [-4748.926] * [-4759.990] (-4777.004) (-4785.627) (-4768.813) -- 0:24:16 95000 -- (-4792.931) (-4771.960) (-4772.106) [-4752.800] * [-4748.346] (-4766.774) (-4800.539) (-4768.909) -- 0:24:17 Average standard deviation of split frequencies: 0.026794 95500 -- (-4784.520) (-4773.339) (-4794.685) [-4747.982] * (-4752.919) (-4771.327) [-4774.742] (-4774.442) -- 0:24:18 96000 -- (-4822.004) [-4754.487] (-4786.016) (-4782.603) * [-4747.596] (-4776.217) (-4782.205) (-4763.260) -- 0:24:19 96500 -- (-4797.930) [-4747.942] (-4804.931) (-4778.928) * [-4749.648] (-4798.259) (-4765.749) (-4767.834) -- 0:24:20 97000 -- (-4773.383) [-4747.986] (-4805.423) (-4783.418) * [-4756.469] (-4801.472) (-4780.073) (-4762.435) -- 0:24:21 97500 -- (-4769.479) [-4743.115] (-4800.699) (-4766.795) * [-4747.389] (-4786.862) (-4782.899) (-4784.482) -- 0:24:13 98000 -- (-4777.463) (-4776.616) (-4806.725) [-4755.034] * (-4774.033) (-4794.317) (-4789.263) [-4763.651] -- 0:24:14 98500 -- (-4764.760) (-4772.946) (-4795.893) [-4756.293] * (-4762.860) (-4784.438) (-4796.733) [-4756.346] -- 0:24:15 99000 -- (-4764.718) (-4800.060) (-4816.046) [-4755.099] * (-4785.542) (-4781.202) (-4787.911) [-4750.454] -- 0:24:16 99500 -- (-4769.753) (-4776.867) (-4791.697) [-4763.355] * (-4763.744) (-4789.651) (-4782.424) [-4762.253] -- 0:24:17 100000 -- (-4771.544) (-4778.811) (-4807.712) [-4756.704] * [-4760.160] (-4797.897) (-4780.128) (-4756.742) -- 0:24:09 Average standard deviation of split frequencies: 0.028962 100500 -- (-4777.351) (-4787.233) (-4802.339) [-4746.611] * (-4777.230) (-4779.206) (-4755.192) [-4762.666] -- 0:24:09 101000 -- (-4765.752) (-4790.334) (-4783.105) [-4764.214] * (-4799.339) (-4789.727) [-4762.577] (-4777.556) -- 0:24:10 101500 -- (-4771.117) (-4783.866) (-4793.060) [-4759.908] * [-4765.698] (-4795.131) (-4782.565) (-4771.373) -- 0:24:11 102000 -- (-4768.711) (-4761.230) (-4820.684) [-4756.736] * (-4818.730) (-4770.195) (-4786.402) [-4751.948] -- 0:24:12 102500 -- (-4792.007) [-4772.258] (-4813.075) (-4768.363) * (-4778.657) (-4764.798) (-4769.308) [-4759.015] -- 0:24:04 103000 -- [-4774.164] (-4785.594) (-4800.434) (-4775.642) * (-4781.863) [-4739.222] (-4778.914) (-4766.392) -- 0:24:05 103500 -- [-4763.786] (-4806.043) (-4812.031) (-4776.746) * [-4780.801] (-4746.054) (-4797.596) (-4784.624) -- 0:24:06 104000 -- [-4763.654] (-4807.167) (-4781.572) (-4775.528) * (-4781.347) [-4765.149] (-4786.569) (-4778.182) -- 0:24:07 104500 -- (-4786.077) (-4802.829) [-4769.585] (-4765.218) * (-4768.099) (-4774.531) (-4781.071) [-4758.407] -- 0:24:08 105000 -- [-4785.467] (-4808.308) (-4780.084) (-4769.622) * (-4764.767) [-4761.206] (-4779.290) (-4777.845) -- 0:24:00 Average standard deviation of split frequencies: 0.028027 105500 -- (-4796.962) (-4792.800) (-4796.068) [-4768.731] * [-4766.286] (-4768.164) (-4790.268) (-4762.021) -- 0:24:01 106000 -- (-4775.833) (-4780.164) (-4792.289) [-4756.509] * [-4761.787] (-4778.303) (-4791.233) (-4785.139) -- 0:24:02 106500 -- (-4765.503) (-4780.253) (-4814.643) [-4762.053] * (-4785.068) [-4761.291] (-4814.052) (-4787.342) -- 0:24:03 107000 -- (-4772.428) (-4769.971) (-4801.702) [-4748.037] * (-4775.309) (-4758.254) [-4777.131] (-4778.189) -- 0:24:03 107500 -- (-4765.884) (-4785.105) [-4775.470] (-4769.786) * (-4787.486) (-4763.144) (-4785.385) [-4752.560] -- 0:23:56 108000 -- [-4760.182] (-4772.516) (-4775.664) (-4775.297) * (-4811.646) [-4764.464] (-4822.960) (-4763.265) -- 0:23:57 108500 -- (-4755.766) [-4761.110] (-4782.259) (-4776.616) * (-4804.187) [-4765.139] (-4774.468) (-4759.717) -- 0:23:57 109000 -- [-4767.556] (-4765.968) (-4797.600) (-4785.475) * (-4815.681) (-4775.955) (-4768.980) [-4750.754] -- 0:23:58 109500 -- [-4769.239] (-4765.165) (-4790.325) (-4773.051) * (-4824.557) (-4768.218) (-4781.615) [-4754.656] -- 0:23:59 110000 -- (-4775.653) [-4755.744] (-4824.233) (-4782.842) * (-4812.814) (-4781.096) (-4771.447) [-4745.310] -- 0:23:52 Average standard deviation of split frequencies: 0.028277 110500 -- (-4754.491) [-4745.425] (-4784.968) (-4780.495) * (-4779.150) (-4806.091) (-4764.539) [-4740.832] -- 0:23:52 111000 -- (-4759.973) [-4751.571] (-4781.440) (-4773.826) * (-4813.767) (-4789.121) (-4781.897) [-4744.332] -- 0:23:53 111500 -- (-4777.183) (-4761.378) [-4767.574] (-4799.689) * (-4827.459) (-4789.723) [-4764.832] (-4756.975) -- 0:23:54 112000 -- (-4772.580) [-4748.105] (-4763.509) (-4810.788) * (-4824.246) (-4771.831) (-4776.854) [-4767.519] -- 0:23:55 112500 -- (-4772.340) [-4755.295] (-4781.229) (-4802.310) * (-4805.365) (-4787.319) [-4773.478] (-4781.083) -- 0:23:47 113000 -- (-4766.334) [-4749.427] (-4775.258) (-4775.714) * (-4789.541) (-4784.819) [-4747.541] (-4758.340) -- 0:23:48 113500 -- (-4778.080) (-4749.288) [-4758.067] (-4777.903) * (-4775.221) (-4782.733) (-4757.375) [-4752.670] -- 0:23:49 114000 -- (-4793.367) [-4748.374] (-4781.370) (-4793.192) * (-4792.444) [-4769.776] (-4759.768) (-4755.939) -- 0:23:50 114500 -- (-4778.052) [-4753.611] (-4762.219) (-4794.376) * (-4795.470) (-4771.951) (-4766.958) [-4743.683] -- 0:23:50 115000 -- (-4780.140) [-4765.826] (-4753.405) (-4799.564) * (-4780.816) (-4784.705) (-4771.924) [-4752.106] -- 0:23:43 Average standard deviation of split frequencies: 0.029286 115500 -- (-4779.250) (-4771.526) [-4757.114] (-4777.441) * (-4772.594) (-4791.204) (-4799.324) [-4744.017] -- 0:23:44 116000 -- (-4797.215) (-4791.480) [-4756.416] (-4788.385) * (-4780.868) (-4802.209) (-4797.668) [-4749.144] -- 0:23:45 116500 -- (-4782.530) (-4780.653) [-4744.116] (-4767.251) * (-4791.192) (-4785.327) [-4765.198] (-4761.698) -- 0:23:45 117000 -- (-4785.729) (-4772.897) [-4755.897] (-4767.693) * (-4796.977) (-4779.796) (-4776.377) [-4759.858] -- 0:23:46 117500 -- (-4771.120) [-4758.801] (-4746.128) (-4786.390) * (-4811.532) [-4746.689] (-4778.615) (-4774.382) -- 0:23:47 118000 -- [-4765.989] (-4788.098) (-4757.349) (-4781.119) * (-4797.423) [-4768.022] (-4800.845) (-4769.286) -- 0:23:40 118500 -- (-4772.488) [-4759.047] (-4753.944) (-4777.297) * (-4793.766) (-4756.187) (-4784.588) [-4767.535] -- 0:23:40 119000 -- (-4793.147) [-4758.032] (-4767.028) (-4776.152) * (-4773.301) (-4766.923) (-4801.911) [-4751.989] -- 0:23:41 119500 -- (-4777.541) (-4773.934) [-4759.951] (-4803.114) * (-4774.284) [-4751.468] (-4809.606) (-4760.132) -- 0:23:42 120000 -- (-4792.995) (-4771.201) [-4749.551] (-4778.010) * (-4779.063) [-4754.903] (-4806.570) (-4775.406) -- 0:23:42 Average standard deviation of split frequencies: 0.029088 120500 -- (-4780.644) [-4763.349] (-4772.508) (-4793.948) * [-4757.547] (-4760.405) (-4814.710) (-4770.452) -- 0:23:35 121000 -- (-4787.913) [-4763.704] (-4793.058) (-4769.858) * (-4764.086) [-4755.191] (-4816.181) (-4772.801) -- 0:23:36 121500 -- (-4802.080) [-4768.932] (-4794.488) (-4774.358) * (-4766.975) [-4752.587] (-4771.920) (-4758.946) -- 0:23:37 122000 -- (-4809.216) (-4762.834) (-4789.075) [-4771.229] * (-4781.283) (-4752.389) [-4764.808] (-4769.851) -- 0:23:37 122500 -- (-4789.243) (-4764.387) (-4795.999) [-4766.995] * (-4791.581) [-4761.045] (-4781.802) (-4762.408) -- 0:23:38 123000 -- (-4777.597) (-4796.181) (-4780.406) [-4758.510] * (-4797.964) (-4761.921) [-4789.383] (-4777.211) -- 0:23:31 123500 -- (-4771.939) (-4780.541) (-4787.673) [-4741.915] * (-4806.217) (-4767.781) (-4778.509) [-4755.165] -- 0:23:32 124000 -- [-4755.628] (-4802.086) (-4795.323) (-4751.990) * (-4782.179) (-4773.881) (-4791.279) [-4761.470] -- 0:23:32 124500 -- (-4753.961) (-4799.695) (-4776.204) [-4752.344] * (-4786.256) [-4766.348] (-4768.900) (-4765.906) -- 0:23:33 125000 -- [-4750.899] (-4775.918) (-4773.051) (-4779.873) * (-4766.109) (-4776.007) (-4798.387) [-4756.288] -- 0:23:34 Average standard deviation of split frequencies: 0.028644 125500 -- [-4750.841] (-4782.957) (-4779.654) (-4775.605) * (-4779.177) (-4795.819) (-4779.034) [-4757.711] -- 0:23:27 126000 -- [-4761.425] (-4779.246) (-4771.816) (-4785.554) * (-4803.375) (-4785.885) (-4800.324) [-4744.692] -- 0:23:28 126500 -- (-4753.289) [-4759.868] (-4793.743) (-4768.763) * (-4777.500) (-4782.208) (-4795.319) [-4753.754] -- 0:23:28 127000 -- (-4768.247) (-4759.327) (-4784.867) [-4754.014] * (-4789.700) (-4772.353) (-4798.058) [-4758.863] -- 0:23:29 127500 -- [-4751.367] (-4777.393) (-4799.955) (-4777.937) * (-4793.476) (-4799.385) (-4806.380) [-4751.582] -- 0:23:29 128000 -- (-4773.011) (-4787.457) [-4753.906] (-4787.008) * (-4792.919) (-4795.741) (-4784.527) [-4749.104] -- 0:23:23 128500 -- [-4765.281] (-4788.285) (-4748.081) (-4767.927) * (-4818.920) (-4790.747) (-4777.921) [-4753.238] -- 0:23:23 129000 -- (-4776.375) (-4791.523) [-4754.127] (-4786.033) * (-4819.631) (-4776.251) (-4768.040) [-4749.601] -- 0:23:24 129500 -- (-4758.093) (-4786.143) [-4768.848] (-4815.008) * (-4798.359) (-4796.080) [-4754.511] (-4753.478) -- 0:23:24 130000 -- (-4763.790) (-4789.833) [-4762.322] (-4820.617) * (-4790.384) (-4779.503) (-4751.573) [-4751.522] -- 0:23:25 Average standard deviation of split frequencies: 0.030741 130500 -- (-4760.906) (-4810.503) [-4769.483] (-4813.821) * (-4772.116) (-4779.018) (-4764.817) [-4765.686] -- 0:23:19 131000 -- (-4787.051) (-4765.382) [-4749.588] (-4782.838) * (-4752.973) (-4783.982) (-4786.603) [-4751.508] -- 0:23:19 131500 -- (-4773.953) (-4788.841) [-4743.400] (-4791.492) * (-4750.905) (-4802.077) [-4763.074] (-4783.950) -- 0:23:20 132000 -- (-4777.813) (-4788.060) [-4754.092] (-4801.879) * (-4765.830) (-4792.164) (-4793.085) [-4768.382] -- 0:23:20 132500 -- [-4766.748] (-4780.496) (-4773.186) (-4802.923) * [-4768.589] (-4794.986) (-4773.632) (-4776.825) -- 0:23:21 133000 -- (-4762.918) [-4767.985] (-4775.665) (-4789.149) * (-4783.493) (-4789.758) [-4767.741] (-4792.702) -- 0:23:15 133500 -- (-4776.978) [-4764.272] (-4767.986) (-4828.305) * [-4771.207] (-4793.595) (-4760.434) (-4793.534) -- 0:23:15 134000 -- (-4783.587) [-4767.276] (-4760.053) (-4782.433) * [-4763.879] (-4774.863) (-4767.476) (-4793.779) -- 0:23:15 134500 -- (-4783.361) (-4799.161) (-4776.594) [-4761.922] * [-4757.406] (-4774.255) (-4773.242) (-4811.327) -- 0:23:16 135000 -- [-4769.959] (-4793.050) (-4781.009) (-4761.423) * (-4773.104) [-4758.384] (-4770.087) (-4791.140) -- 0:23:16 Average standard deviation of split frequencies: 0.029210 135500 -- (-4773.403) (-4800.959) (-4765.878) [-4766.257] * [-4759.586] (-4751.946) (-4772.765) (-4817.138) -- 0:23:17 136000 -- [-4754.961] (-4799.162) (-4760.961) (-4791.352) * (-4768.088) [-4754.158] (-4765.544) (-4817.100) -- 0:23:11 136500 -- (-4757.301) (-4770.356) (-4783.958) [-4750.767] * (-4801.847) (-4760.807) (-4770.121) [-4783.105] -- 0:23:11 137000 -- [-4744.959] (-4779.451) (-4797.811) (-4766.654) * (-4801.077) [-4770.199] (-4771.821) (-4774.036) -- 0:23:12 137500 -- [-4745.732] (-4770.603) (-4808.570) (-4755.328) * (-4788.791) (-4767.929) (-4798.230) [-4760.768] -- 0:23:12 138000 -- [-4762.054] (-4768.817) (-4794.041) (-4766.691) * (-4780.739) [-4762.735] (-4772.891) (-4763.822) -- 0:23:12 138500 -- (-4775.252) (-4760.666) (-4785.821) [-4753.494] * (-4788.486) (-4769.511) (-4768.688) [-4768.310] -- 0:23:07 139000 -- (-4791.588) [-4752.431] (-4774.204) (-4788.513) * (-4768.034) (-4769.754) (-4776.007) [-4772.717] -- 0:23:07 139500 -- (-4792.070) [-4760.986] (-4768.469) (-4776.780) * (-4790.738) (-4797.903) [-4757.254] (-4765.590) -- 0:23:07 140000 -- (-4788.308) (-4767.709) (-4775.091) [-4761.327] * (-4797.907) (-4779.113) [-4764.669] (-4763.565) -- 0:23:08 Average standard deviation of split frequencies: 0.028538 140500 -- (-4808.945) [-4750.513] (-4766.043) (-4765.347) * (-4788.219) [-4767.794] (-4769.910) (-4768.738) -- 0:23:08 141000 -- (-4800.723) [-4754.956] (-4779.588) (-4767.187) * (-4790.956) [-4747.993] (-4793.784) (-4783.859) -- 0:23:02 141500 -- (-4793.495) [-4756.773] (-4780.335) (-4757.662) * (-4787.776) [-4761.478] (-4804.144) (-4782.231) -- 0:23:03 142000 -- (-4797.419) [-4756.699] (-4783.661) (-4771.966) * (-4799.509) [-4748.117] (-4780.386) (-4762.094) -- 0:23:03 142500 -- (-4807.613) (-4758.961) [-4767.780] (-4767.950) * (-4779.446) [-4751.373] (-4832.625) (-4753.333) -- 0:23:04 143000 -- (-4806.368) (-4756.549) (-4776.414) [-4762.214] * (-4760.638) (-4771.815) (-4814.750) [-4737.063] -- 0:22:58 143500 -- (-4805.985) (-4769.794) (-4758.010) [-4758.307] * (-4776.181) [-4747.468] (-4821.188) (-4758.335) -- 0:22:58 144000 -- (-4804.240) (-4753.537) (-4756.215) [-4754.662] * (-4767.509) [-4753.992] (-4800.442) (-4773.029) -- 0:22:59 144500 -- (-4792.443) (-4761.561) (-4745.752) [-4768.983] * (-4772.125) [-4762.701] (-4801.781) (-4770.330) -- 0:22:59 145000 -- (-4812.708) (-4779.858) [-4760.047] (-4776.366) * [-4770.584] (-4763.838) (-4789.963) (-4777.073) -- 0:22:59 Average standard deviation of split frequencies: 0.028360 145500 -- (-4816.575) [-4757.115] (-4755.963) (-4766.256) * (-4767.913) [-4766.477] (-4787.298) (-4770.497) -- 0:23:00 146000 -- (-4797.637) [-4741.372] (-4781.082) (-4791.289) * [-4754.047] (-4773.232) (-4784.860) (-4803.731) -- 0:22:54 146500 -- (-4786.646) (-4761.636) [-4767.565] (-4810.831) * (-4766.679) [-4749.863] (-4805.882) (-4783.255) -- 0:22:54 147000 -- (-4802.703) [-4756.365] (-4769.534) (-4789.762) * (-4767.830) [-4754.375] (-4792.652) (-4763.633) -- 0:22:55 147500 -- (-4808.602) (-4765.722) [-4750.751] (-4781.490) * (-4773.159) (-4768.576) (-4806.818) [-4758.860] -- 0:22:55 148000 -- (-4798.438) (-4768.860) [-4744.340] (-4797.411) * [-4769.303] (-4781.762) (-4778.041) (-4771.141) -- 0:22:55 148500 -- (-4832.308) (-4785.304) [-4751.496] (-4783.674) * (-4769.800) (-4774.948) [-4760.502] (-4768.134) -- 0:22:50 149000 -- [-4789.510] (-4782.343) (-4759.747) (-4774.760) * (-4771.929) (-4760.065) (-4780.358) [-4760.093] -- 0:22:50 149500 -- (-4769.512) (-4775.720) [-4756.208] (-4797.793) * (-4761.486) (-4764.451) [-4764.004] (-4775.856) -- 0:22:51 150000 -- (-4787.159) (-4783.930) [-4747.960] (-4773.791) * (-4755.988) [-4756.367] (-4776.306) (-4763.272) -- 0:22:51 Average standard deviation of split frequencies: 0.028127 150500 -- (-4787.299) (-4787.663) [-4760.294] (-4771.996) * (-4754.437) (-4788.203) (-4782.544) [-4768.432] -- 0:22:51 151000 -- [-4789.797] (-4795.643) (-4763.937) (-4778.166) * [-4767.559] (-4797.123) (-4795.222) (-4768.306) -- 0:22:46 151500 -- (-4785.170) (-4771.209) (-4786.293) [-4754.778] * [-4756.356] (-4795.076) (-4779.628) (-4774.410) -- 0:22:46 152000 -- (-4779.309) [-4766.511] (-4792.862) (-4760.935) * [-4752.188] (-4784.430) (-4790.966) (-4799.012) -- 0:22:46 152500 -- (-4810.727) (-4761.213) (-4792.550) [-4758.971] * [-4744.493] (-4792.808) (-4775.884) (-4795.267) -- 0:22:47 153000 -- (-4809.830) [-4742.768] (-4771.140) (-4771.937) * [-4743.485] (-4783.600) (-4770.318) (-4776.627) -- 0:22:47 153500 -- (-4799.317) [-4746.109] (-4762.758) (-4769.893) * [-4748.442] (-4794.303) (-4772.811) (-4777.929) -- 0:22:42 154000 -- (-4793.879) [-4747.110] (-4771.304) (-4791.681) * (-4752.407) (-4791.700) [-4766.441] (-4785.973) -- 0:22:42 154500 -- (-4793.489) [-4755.491] (-4775.556) (-4768.563) * (-4762.347) [-4780.627] (-4781.371) (-4794.459) -- 0:22:42 155000 -- (-4802.043) [-4758.855] (-4771.187) (-4781.130) * (-4753.546) (-4791.752) [-4767.320] (-4805.242) -- 0:22:42 Average standard deviation of split frequencies: 0.026497 155500 -- (-4783.895) [-4767.251] (-4764.224) (-4770.021) * [-4743.610] (-4797.793) (-4785.888) (-4792.021) -- 0:22:43 156000 -- (-4795.094) (-4772.348) [-4780.245] (-4783.275) * [-4745.671] (-4779.141) (-4783.376) (-4774.398) -- 0:22:37 156500 -- (-4804.285) (-4774.235) [-4762.060] (-4774.888) * [-4739.866] (-4776.170) (-4806.869) (-4783.622) -- 0:22:38 157000 -- (-4781.877) (-4794.509) [-4756.802] (-4770.035) * [-4745.697] (-4761.360) (-4808.922) (-4768.592) -- 0:22:38 157500 -- [-4766.551] (-4798.237) (-4771.048) (-4792.456) * (-4761.583) (-4779.640) (-4805.614) [-4761.974] -- 0:22:38 158000 -- [-4764.540] (-4827.746) (-4774.636) (-4781.019) * (-4761.830) (-4778.243) (-4794.753) [-4754.475] -- 0:22:38 158500 -- (-4779.075) (-4816.984) [-4740.441] (-4777.738) * [-4753.273] (-4769.698) (-4774.789) (-4770.089) -- 0:22:33 159000 -- [-4759.395] (-4785.018) (-4761.779) (-4788.785) * (-4758.784) (-4769.909) (-4791.032) [-4774.825] -- 0:22:34 159500 -- [-4750.032] (-4783.594) (-4777.494) (-4775.830) * (-4757.071) [-4756.925] (-4799.799) (-4787.250) -- 0:22:34 160000 -- [-4750.314] (-4771.699) (-4797.653) (-4779.380) * (-4764.758) [-4749.100] (-4786.218) (-4771.775) -- 0:22:34 Average standard deviation of split frequencies: 0.024640 160500 -- (-4754.909) (-4766.400) (-4797.232) [-4762.882] * (-4768.009) [-4745.553] (-4781.660) (-4786.683) -- 0:22:34 161000 -- [-4746.955] (-4778.392) (-4775.172) (-4781.410) * (-4766.795) [-4751.798] (-4802.577) (-4777.784) -- 0:22:34 161500 -- (-4750.614) [-4763.491] (-4802.186) (-4819.666) * (-4777.637) (-4755.965) (-4778.855) [-4746.938] -- 0:22:29 162000 -- [-4758.809] (-4775.010) (-4794.939) (-4783.250) * (-4777.487) (-4754.559) (-4789.672) [-4743.171] -- 0:22:30 162500 -- (-4779.405) [-4756.912] (-4799.911) (-4759.803) * (-4777.642) [-4748.477] (-4779.997) (-4757.193) -- 0:22:30 163000 -- (-4770.713) [-4754.373] (-4783.920) (-4775.797) * (-4793.100) (-4760.074) [-4766.184] (-4764.843) -- 0:22:30 163500 -- (-4801.280) (-4742.827) (-4777.357) [-4756.927] * [-4761.366] (-4778.289) (-4782.282) (-4778.454) -- 0:22:30 164000 -- (-4782.667) [-4751.567] (-4784.841) (-4767.296) * (-4760.109) [-4773.181] (-4775.292) (-4770.401) -- 0:22:25 164500 -- (-4782.871) (-4758.833) (-4779.205) [-4763.034] * [-4752.982] (-4771.321) (-4799.770) (-4778.322) -- 0:22:25 165000 -- (-4780.575) [-4762.660] (-4783.025) (-4754.821) * (-4769.053) [-4766.155] (-4770.228) (-4775.400) -- 0:22:26 Average standard deviation of split frequencies: 0.023077 165500 -- (-4798.225) (-4776.400) (-4771.567) [-4755.817] * (-4763.591) [-4762.213] (-4776.735) (-4785.684) -- 0:22:26 166000 -- (-4773.630) (-4791.209) (-4770.533) [-4757.755] * [-4749.991] (-4767.224) (-4772.413) (-4788.588) -- 0:22:26 166500 -- (-4779.915) (-4777.507) [-4766.286] (-4780.837) * [-4756.674] (-4760.901) (-4777.428) (-4770.425) -- 0:22:26 167000 -- (-4778.798) [-4775.712] (-4748.352) (-4774.191) * [-4745.874] (-4767.898) (-4778.541) (-4774.741) -- 0:22:21 167500 -- (-4762.581) (-4798.264) (-4759.970) [-4765.076] * [-4763.163] (-4754.391) (-4801.246) (-4793.899) -- 0:22:21 168000 -- (-4795.851) (-4798.410) [-4764.380] (-4788.637) * [-4750.945] (-4759.512) (-4796.733) (-4792.888) -- 0:22:22 168500 -- (-4781.758) (-4798.493) (-4762.869) [-4767.853] * (-4769.258) (-4769.637) (-4821.964) [-4780.515] -- 0:22:22 169000 -- [-4753.063] (-4809.930) (-4752.868) (-4774.459) * (-4775.407) [-4764.673] (-4814.123) (-4774.762) -- 0:22:22 169500 -- [-4751.209] (-4779.931) (-4759.682) (-4765.564) * (-4773.834) [-4763.030] (-4806.119) (-4779.813) -- 0:22:17 170000 -- [-4744.271] (-4774.417) (-4763.642) (-4776.741) * [-4748.218] (-4773.009) (-4784.503) (-4795.640) -- 0:22:17 Average standard deviation of split frequencies: 0.021800 170500 -- [-4755.536] (-4790.058) (-4808.034) (-4778.875) * [-4765.922] (-4778.404) (-4783.167) (-4787.603) -- 0:22:17 171000 -- [-4774.047] (-4774.205) (-4786.678) (-4765.754) * (-4786.326) (-4778.495) [-4772.389] (-4773.603) -- 0:22:18 171500 -- (-4786.270) [-4770.732] (-4780.227) (-4777.042) * [-4769.334] (-4766.822) (-4774.106) (-4788.801) -- 0:22:18 172000 -- (-4814.641) (-4779.981) (-4770.812) [-4762.387] * (-4778.756) (-4776.127) [-4760.663] (-4791.073) -- 0:22:13 172500 -- (-4775.311) (-4771.046) (-4788.146) [-4758.686] * (-4797.403) [-4749.498] (-4770.074) (-4785.154) -- 0:22:13 173000 -- (-4784.753) [-4767.585] (-4780.000) (-4772.166) * (-4776.199) [-4745.125] (-4786.203) (-4782.074) -- 0:22:13 173500 -- (-4775.870) [-4755.131] (-4763.283) (-4774.193) * (-4783.142) [-4749.772] (-4783.902) (-4790.862) -- 0:22:13 174000 -- (-4788.132) [-4743.861] (-4774.891) (-4783.936) * (-4792.726) [-4757.856] (-4803.156) (-4787.010) -- 0:22:13 174500 -- (-4783.426) [-4752.117] (-4771.638) (-4797.645) * (-4798.537) [-4757.206] (-4776.124) (-4783.025) -- 0:22:14 175000 -- (-4776.560) (-4769.152) [-4755.871] (-4792.732) * (-4795.277) [-4751.172] (-4774.931) (-4787.813) -- 0:22:09 Average standard deviation of split frequencies: 0.019632 175500 -- (-4790.599) (-4767.495) (-4791.905) [-4767.103] * (-4818.250) [-4746.200] (-4786.242) (-4782.944) -- 0:22:09 176000 -- (-4786.435) (-4761.027) (-4776.719) [-4753.776] * (-4795.292) (-4753.423) [-4778.378] (-4760.583) -- 0:22:09 176500 -- (-4792.592) (-4783.388) [-4759.676] (-4770.748) * (-4796.854) [-4748.467] (-4785.350) (-4782.198) -- 0:22:09 177000 -- (-4815.829) (-4774.991) [-4737.116] (-4771.152) * (-4782.505) (-4744.208) [-4775.310] (-4780.463) -- 0:22:09 177500 -- (-4798.648) (-4792.988) [-4742.037] (-4805.473) * (-4802.255) [-4762.779] (-4774.869) (-4792.123) -- 0:22:09 178000 -- (-4784.187) (-4788.746) [-4741.139] (-4800.556) * (-4810.299) (-4759.889) [-4774.341] (-4782.686) -- 0:22:05 178500 -- (-4789.030) (-4786.268) [-4740.419] (-4800.107) * (-4788.704) (-4794.524) [-4754.853] (-4785.820) -- 0:22:05 179000 -- (-4781.647) (-4777.358) [-4754.446] (-4785.509) * (-4806.204) (-4773.348) [-4750.634] (-4756.344) -- 0:22:05 179500 -- (-4791.415) (-4804.021) [-4750.669] (-4778.703) * (-4797.569) (-4777.515) [-4751.077] (-4756.976) -- 0:22:05 180000 -- (-4806.175) (-4790.966) [-4755.661] (-4803.139) * (-4813.069) (-4763.464) (-4774.669) [-4749.836] -- 0:22:05 Average standard deviation of split frequencies: 0.019486 180500 -- (-4788.915) (-4787.798) [-4741.886] (-4807.487) * (-4804.094) (-4770.121) (-4784.561) [-4759.956] -- 0:22:05 181000 -- (-4766.393) (-4793.945) [-4759.392] (-4785.839) * (-4803.370) (-4754.468) (-4782.006) [-4762.417] -- 0:22:01 181500 -- (-4761.091) (-4781.980) [-4759.132] (-4797.373) * (-4781.314) [-4755.472] (-4782.883) (-4767.666) -- 0:22:01 182000 -- [-4750.248] (-4804.659) (-4767.671) (-4777.463) * (-4786.872) [-4757.206] (-4759.402) (-4762.707) -- 0:22:01 182500 -- (-4758.541) (-4788.491) [-4766.851] (-4796.487) * (-4784.926) (-4756.658) (-4787.918) [-4748.504] -- 0:22:01 183000 -- (-4752.961) (-4797.004) [-4776.793] (-4804.984) * (-4776.825) (-4755.420) (-4795.588) [-4761.147] -- 0:22:01 183500 -- (-4763.738) (-4785.020) [-4770.344] (-4782.595) * (-4787.705) (-4754.130) (-4793.039) [-4741.685] -- 0:21:57 184000 -- (-4771.205) [-4772.367] (-4769.899) (-4781.900) * (-4801.761) (-4760.160) (-4778.856) [-4747.413] -- 0:21:57 184500 -- [-4763.476] (-4778.183) (-4769.531) (-4795.937) * (-4779.271) [-4751.064] (-4788.373) (-4757.420) -- 0:21:57 185000 -- [-4758.065] (-4766.929) (-4772.807) (-4778.980) * (-4770.925) [-4763.596] (-4801.556) (-4758.815) -- 0:21:57 Average standard deviation of split frequencies: 0.019494 185500 -- (-4770.142) [-4758.111] (-4780.232) (-4788.793) * (-4790.993) [-4752.944] (-4797.358) (-4765.880) -- 0:21:57 186000 -- [-4757.975] (-4769.633) (-4779.849) (-4792.246) * (-4781.456) [-4769.697] (-4790.091) (-4751.784) -- 0:21:57 186500 -- [-4748.655] (-4763.393) (-4778.603) (-4780.909) * (-4778.938) (-4791.265) (-4780.234) [-4751.226] -- 0:21:52 187000 -- [-4756.610] (-4758.264) (-4795.586) (-4798.140) * (-4802.444) [-4764.763] (-4774.025) (-4754.997) -- 0:21:52 187500 -- [-4748.241] (-4756.881) (-4793.110) (-4789.724) * (-4812.585) (-4775.549) (-4771.430) [-4767.294] -- 0:21:53 188000 -- (-4764.048) [-4748.671] (-4815.451) (-4772.926) * [-4763.953] (-4777.024) (-4797.169) (-4775.104) -- 0:21:53 188500 -- (-4767.950) [-4762.644] (-4792.498) (-4777.794) *