--- EXPERIMENT NOTES
Not all of the following information may be relevant for the case being handled, since this project may be part of a much larger auto-PSS-genome project where several methods of detection of positively selected sites have been used. As such the aligned.score_ascii file may have more sequences than the file effectively used to detect positively selected codons, since the content of this file reflects the content of the file used for the master alignment, from which a subsample may have been taken.
#
### General parameters ###
#
# The maximum number of sequences to use for the master file
sequence_limit=90
# The random seed
random_seed=3976763
#
### Alignment ###
#
# The alignment method: clustalw, muscle, kalign, t_coffee, or amap
align_method=muscle
# Minimum support value for amino acid positions in the alignment
tcoffee_min_score=3
#
### MrBayes ###
#
# Number of iterations in MrBayes
mrbayes_generations=1000000
# MrBayes burnin
mrbayes_burnin=2500
#
### FUBAR ###
#
# The maximum number of sequences to be used by FUBAR.
fubar_sequence_limit=90
# The number of FUBAR runs
fubar_runs=1
#
### codeML ###
#
# The maximum number of sequences to be used by CodeML
codeml_sequence_limit=30
# The number of CodeML runs
codeml_runs=1
# The CodeML models to be run, one or more of: '1', '2', '7', and/or '8'.
codeml_models=1 2 7 8
#
### OmegaMap ###
#
# The maximum number of sequences to use in OmegaMap
omegamap_sequence_limit=90
# The number of OmegaMap runs
omegamap_runs=1
# The number of OmegaMap iterations
omegamap_iterations=2500
--- EXPERIMENT PROPERTIES
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /data/mrbayes_input.nex.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -3918.35 -3943.99
2 -3918.96 -3941.02
--------------------------------------
TOTAL -3918.61 -3943.35
--------------------------------------
Model parameter summaries over the runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.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 "/data/mrbayes_input.nex.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 0.058114 0.000048 0.044799 0.071408 0.057572 1349.32 1362.12 1.000
r(A<->C){all} 0.039036 0.000529 0.001192 0.082531 0.034860 791.49 804.33 1.000
r(A<->G){all} 0.323197 0.002478 0.232205 0.423494 0.321677 700.09 725.63 1.000
r(A<->T){all} 0.022281 0.000107 0.004701 0.042958 0.020631 796.07 990.21 1.001
r(C<->G){all} 0.015273 0.000221 0.000010 0.044542 0.010945 832.12 876.97 1.000
r(C<->T){all} 0.571426 0.002878 0.464826 0.674377 0.570484 741.65 803.81 1.001
r(G<->T){all} 0.028787 0.000145 0.007903 0.052450 0.027354 868.98 931.08 1.000
pi(A){all} 0.239662 0.000073 0.223502 0.256582 0.239487 1005.42 1154.54 1.000
pi(C){all} 0.137158 0.000047 0.124601 0.150779 0.136985 1267.87 1279.21 1.000
pi(G){all} 0.215578 0.000068 0.200142 0.232500 0.215586 1221.62 1256.30 1.000
pi(T){all} 0.407602 0.000101 0.387760 0.427354 0.407476 1115.77 1239.62 1.000
alpha{1,2} 0.131381 0.021475 0.000192 0.364621 0.093895 918.42 953.01 1.000
alpha{3} 2.164240 1.559742 0.363221 4.771774 1.877735 1294.78 1323.20 1.000
pinvar{all} 0.672782 0.006715 0.509420 0.815747 0.682229 1077.53 1091.10 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.
--- CODEML SUMMARY
Model 1: NearlyNeutral -3695.369181
Model 2: PositiveSelection -3695.306761
Model 7: beta -3695.565145
Model 8: beta&w>1 -3695.306671
Model 2 vs 1 .124840
Model 8 vs 7 .516948
-- Starting log on Sat Nov 05 01:40:07 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.12 sec, SCORE=1000, Nseq=26, Len=790
C1 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C2 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C3 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C4 GSVVFVDKYMCGFDGKPMLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C5 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C6 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C7 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C8 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C9 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C10 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C11 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C12 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C13 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C14 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C15 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C16 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C17 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C18 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C19 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C20 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C21 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIIIDGVTYQLAWDV
C22 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C23 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C24 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C25 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C26 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
****************:*************:*****:*.**********
C1 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C2 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C3 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C4 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C5 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C6 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C7 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C8 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C9 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C10 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C11 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C12 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C13 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C14 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C15 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C16 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C17 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C18 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C19 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C20 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C21 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C22 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C23 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C24 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C25 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C26 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
********************************** ***************
C1 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C2 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C3 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C4 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C5 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C6 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C7 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C8 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C9 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C10 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C11 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C12 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C13 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C14 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C15 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C16 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C17 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C18 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C19 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C20 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C21 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C22 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C23 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C24 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C25 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C26 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
******:**********:***********************.********
C1 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C2 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C3 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C4 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C5 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C6 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C7 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C8 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C9 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C10 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C11 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C12 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C13 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C14 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C15 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C16 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C17 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C18 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C19 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHIINI
C20 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C21 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C22 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C23 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C24 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C25 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C26 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
******************************.**************** **
C1 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C2 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C3 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C4 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C5 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C6 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C7 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C8 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C9 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C10 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C11 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C12 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C13 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C14 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C15 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C16 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C17 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C18 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C19 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C20 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C21 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C22 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C23 TGVSLWRVTAVHSDGIFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C24 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C25 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C26 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
**********:****:***:******************************
C1 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C2 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C3 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C4 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C5 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C6 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C7 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C8 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C9 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C10 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C11 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C12 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C13 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C14 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C15 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C16 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C17 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C18 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C19 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C20 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C21 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C22 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C23 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C24 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C25 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C26 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
**************************************************
C1 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C2 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C3 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C4 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C5 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C6 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C7 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C8 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C9 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C10 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C11 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C12 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C13 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C14 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C15 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C16 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C17 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C18 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C19 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C20 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C21 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C22 IWDAFVAAIKLVPTTTGALVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C23 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C24 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C25 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C26 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
***************** *******************************.
C1 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C2 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C3 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C4 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C5 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C6 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C7 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C8 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C9 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C10 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C11 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C12 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C13 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C14 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C15 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C16 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C17 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C18 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C19 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C20 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C21 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C22 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C23 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C24 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C25 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C26 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
**************************************************
C1 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C2 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C3 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C4 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C5 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C6 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C7 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C8 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C9 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C10 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCVPVVCPKGKIV
C11 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C12 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C13 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C14 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C15 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C16 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C17 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C18 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C19 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C20 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C21 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C22 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C23 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C24 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C25 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C26 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
***************************************.**********
C1 VIAGQAFFYSGGFYRFMVDPTTVLNGPVFTGDLFYTIKFSGFKLDGFNHQ
C2 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C3 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C4 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C5 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C6 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C7 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C8 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C9 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C10 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C11 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C12 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C13 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C14 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C15 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C16 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C17 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C18 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C19 VIAGQAFFYSGGFYRFMVDSTTVLNDPVFTGELFYTIKFSGFKLDGFNHQ
C20 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C21 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C22 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C23 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C24 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C25 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C26 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
**********.********.*****.*****:******************
C1 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDAAFATHVC
C2 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C3 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C4 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C5 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C6 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C7 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C8 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C9 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C10 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C11 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C12 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C13 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C14 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C15 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C16 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C17 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C18 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C19 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVKRDATFATHVC
C20 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C21 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C22 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C23 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C24 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C25 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C26 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
**.*************** ********************:***:******
C1 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQATESKVLLER
C2 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C3 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C4 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C5 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C6 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C7 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C8 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C9 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C10 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C11 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C12 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C13 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C14 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C15 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C16 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C17 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C18 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C19 FKDCYSIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C20 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C21 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C22 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C23 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C24 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C25 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C26 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
*****.***********************************:********
C1 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C2 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C3 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C4 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C5 FLPKCPEILLSIDDGHLWNLFVEKFTFVTDWLKTLKLTLTSNGLLGNCAK
C6 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C7 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C8 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C9 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C10 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C11 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C12 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C13 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C14 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C15 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C16 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C17 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C18 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C19 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C20 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C21 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C22 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C23 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C24 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C25 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C26 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
*************************.************************
C1 RFRRFLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C2 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C3 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C4 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C5 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C6 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C7 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C8 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C9 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C10 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C11 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C12 RFRRVLVKLLDVYNGFLETVCSVVRTAGVCIKYYAVNVPYVVISGFVSRV
C13 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C14 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C15 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C16 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C17 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C18 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C19 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C20 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C21 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C22 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C23 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C24 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C25 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C26 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
****.******************. *************************
C1 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C2 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C3 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C4 IRRERCDMTFPCVSCVTFFYEFLDTCFGVGKPNAIDVEHLELKETVFVEP
C5 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C6 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C7 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C8 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C9 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C10 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C11 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C12 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C13 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C14 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C15 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C16 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C17 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C18 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C19 IRRERCDMTFPCVSCVTFFYEFLDTCFDVSKPNAIDVEHLELKETVFVEP
C20 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C21 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C22 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C23 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C24 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C25 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C26 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
*******:*******************.*.********************
C1 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C2 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C3 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C4 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C5 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C6 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C7 KDGGHFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C8 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C9 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C10 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C11 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C12 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C13 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C14 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C15 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C16 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C17 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C18 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C19 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C20 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C21 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C22 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C23 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C24 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C25 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C26 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
****:****.*****************************
-- Starting log on Sat Nov 05 01:40:52 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.60 sec, SCORE=999, Nseq=26, Len=790
C1 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C2 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C3 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C4 GSVVFVDKYMCGFDGKPMLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C5 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C6 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C7 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C8 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C9 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C10 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C11 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C12 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C13 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C14 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C15 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C16 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C17 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C18 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C19 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C20 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C21 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIIIDGVTYQLAWDV
C22 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C23 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C24 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C25 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C26 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
****************:*************:*****:*.**********
C1 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C2 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C3 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C4 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C5 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C6 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C7 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C8 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C9 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C10 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C11 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C12 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C13 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C14 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C15 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C16 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C17 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C18 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C19 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C20 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C21 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C22 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C23 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C24 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C25 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C26 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
********************************** ***************
C1 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C2 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C3 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C4 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C5 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C6 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C7 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C8 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C9 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C10 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C11 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C12 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C13 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C14 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C15 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C16 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C17 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C18 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C19 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C20 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C21 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C22 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C23 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C24 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C25 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C26 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
******:**********:***********************.********
C1 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C2 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C3 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C4 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C5 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C6 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C7 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C8 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C9 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C10 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C11 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C12 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C13 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C14 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C15 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C16 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C17 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C18 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C19 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHIINI
C20 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C21 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C22 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C23 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C24 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C25 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C26 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
******************************.**************** **
C1 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C2 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C3 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C4 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C5 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C6 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C7 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C8 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C9 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C10 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C11 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C12 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C13 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C14 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C15 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C16 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C17 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C18 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C19 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C20 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C21 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C22 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C23 TGVSLWRVTAVHSDGIFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C24 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C25 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C26 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
**********:****:***:******************************
C1 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C2 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C3 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C4 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C5 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C6 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C7 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C8 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C9 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C10 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C11 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C12 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C13 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C14 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C15 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C16 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C17 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C18 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C19 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C20 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C21 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C22 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C23 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C24 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C25 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C26 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
**************************************************
C1 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C2 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C3 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C4 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C5 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C6 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C7 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C8 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C9 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C10 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C11 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C12 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C13 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C14 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C15 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C16 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C17 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C18 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C19 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C20 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C21 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C22 IWDAFVAAIKLVPTTTGALVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C23 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C24 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C25 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C26 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
***************** *******************************.
C1 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C2 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C3 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C4 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C5 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C6 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C7 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C8 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C9 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C10 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C11 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C12 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C13 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C14 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C15 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C16 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C17 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C18 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C19 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C20 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C21 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C22 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C23 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C24 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C25 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C26 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
**************************************************
C1 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C2 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C3 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C4 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C5 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C6 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C7 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C8 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C9 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C10 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCVPVVCPKGKIV
C11 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C12 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C13 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C14 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C15 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C16 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C17 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C18 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C19 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C20 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C21 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C22 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C23 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C24 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C25 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C26 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
***************************************.**********
C1 VIAGQAFFYSGGFYRFMVDPTTVLNGPVFTGDLFYTIKFSGFKLDGFNHQ
C2 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C3 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C4 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C5 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C6 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C7 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C8 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C9 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C10 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C11 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C12 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C13 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C14 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C15 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C16 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C17 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C18 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C19 VIAGQAFFYSGGFYRFMVDSTTVLNDPVFTGELFYTIKFSGFKLDGFNHQ
C20 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C21 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C22 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C23 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C24 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C25 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C26 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
**********.********.*****.*****:******************
C1 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDAAFATHVC
C2 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C3 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C4 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C5 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C6 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C7 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C8 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C9 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C10 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C11 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C12 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C13 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C14 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C15 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C16 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C17 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C18 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C19 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVKRDATFATHVC
C20 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C21 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C22 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C23 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C24 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C25 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C26 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
**.*************** ********************:***:******
C1 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQATESKVLLER
C2 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C3 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C4 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C5 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C6 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C7 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C8 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C9 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C10 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C11 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C12 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C13 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C14 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C15 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C16 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C17 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C18 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C19 FKDCYSIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C20 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C21 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C22 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C23 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C24 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C25 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C26 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
*****.***********************************:********
C1 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C2 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C3 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C4 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C5 FLPKCPEILLSIDDGHLWNLFVEKFTFVTDWLKTLKLTLTSNGLLGNCAK
C6 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C7 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C8 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C9 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C10 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C11 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C12 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C13 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C14 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C15 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C16 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C17 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C18 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C19 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C20 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C21 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C22 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C23 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C24 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C25 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C26 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
*************************.************************
C1 RFRRFLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C2 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C3 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C4 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C5 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C6 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C7 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C8 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C9 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C10 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C11 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C12 RFRRVLVKLLDVYNGFLETVCSVVRTAGVCIKYYAVNVPYVVISGFVSRV
C13 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C14 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C15 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C16 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C17 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C18 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C19 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C20 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C21 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C22 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C23 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C24 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C25 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C26 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
****.******************. *************************
C1 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C2 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C3 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C4 IRRERCDMTFPCVSCVTFFYEFLDTCFGVGKPNAIDVEHLELKETVFVEP
C5 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C6 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C7 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C8 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C9 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C10 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C11 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C12 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C13 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C14 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C15 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C16 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C17 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C18 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C19 IRRERCDMTFPCVSCVTFFYEFLDTCFDVSKPNAIDVEHLELKETVFVEP
C20 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C21 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C22 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C23 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C24 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C25 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C26 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
*******:*******************.*.********************
C1 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C2 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C3 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C4 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C5 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C6 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C7 KDGGHFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C8 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C9 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C10 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C11 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C12 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C13 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C14 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C15 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C16 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C17 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C18 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C19 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C20 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C21 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C22 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C23 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C24 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C25 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C26 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
****:****.*****************************
-- Starting log on Sat Nov 05 03:04:07 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/gapped_alignment/codeml,NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1--
MrBayes v3.2.6 x64
(Bayesian Analysis of Phylogeny)
Distributed under the GNU General Public License
Type "help" or "help <command>" for information
on the commands that are available.
Type "about" for authorship and general
information about the program.
Executing file "/data/mrbayes_input.nex"
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 26 taxa and 2370 characters
Missing data coded as ?
Data matrix is interleaved
Data is Dna
Gaps coded as -
Matching characters coded as .
Taxon 1 -> C1
Taxon 2 -> C10
Taxon 3 -> C11
Taxon 4 -> C12
Taxon 5 -> C13
Taxon 6 -> C14
Taxon 7 -> C15
Taxon 8 -> C16
Taxon 9 -> C17
Taxon 10 -> C18
Taxon 11 -> C19
Taxon 12 -> C2
Taxon 13 -> C20
Taxon 14 -> C21
Taxon 15 -> C22
Taxon 16 -> C23
Taxon 17 -> C24
Taxon 18 -> C25
Taxon 19 -> C26
Taxon 20 -> C3
Taxon 21 -> C4
Taxon 22 -> C5
Taxon 23 -> C6
Taxon 24 -> C7
Taxon 25 -> C8
Taxon 26 -> C9
Successfully read matrix
Setting default partition (does not divide up characters)
Setting model defaults
Seed (for generating default start values) = 1667617449
Setting output file names to "/data/mrbayes_input.nex.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) = 1606375569
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 = 3789378347
Seed = 1091583471
Swapseed = 1667617449
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
The distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Shape parameter is exponentially
distributed with parameter (1.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
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
The distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Shape parameter is exponentially
distributed with parameter (1.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
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
The distribution is approximated using 4 categories.
Likelihood summarized over all rate categories in each generation.
Shape parameter is exponentially
distributed with parameter (1.00).
Proportion of invariable sites is uniformly dist-
ributed on the interval (0.00,1.00).
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(1.00)
Partitions = 1 and 2
4 -- Parameter = Alpha{3}
Type = Shape of scaled gamma distribution of site rates
Prior = Exponential(1.00)
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:GammaDir(1.0,0.1000,1.0,1.0)
Partitions = All
The MCMC sampler will use the following moves:
With prob. Chain will use move
0.91 % Dirichlet(Revmat{all})
0.91 % Slider(Revmat{all})
0.91 % Dirichlet(Pi{all})
0.91 % Slider(Pi{all})
1.82 % Multiplier(Alpha{1,2})
1.82 % Multiplier(Alpha{3})
1.82 % Slider(Pinvar{all})
9.09 % ExtSPR(Tau{all},V{all})
9.09 % ExtTBR(Tau{all},V{all})
9.09 % NNI(Tau{all},V{all})
9.09 % ParsSPR(Tau{all},V{all})
36.36 % Multiplier(V{all})
12.73 % Nodeslider(V{all})
5.45 % TLMultiplier(V{all})
Division 1 has 21 unique site patterns
Division 2 has 20 unique site patterns
Division 3 has 50 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 -- -6830.507944 -- 74.568658
Chain 2 -- -6600.003131 -- 74.568658
Chain 3 -- -6767.115453 -- 74.568658
Chain 4 -- -6798.696481 -- 74.568658
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -6777.760607 -- 74.568658
Chain 2 -- -6929.765439 -- 74.568658
Chain 3 -- -6731.183210 -- 74.568658
Chain 4 -- -6609.093952 -- 74.568658
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-6830.508] (-6600.003) (-6767.115) (-6798.696) * [-6777.761] (-6929.765) (-6731.183) (-6609.094)
1000 -- (-4089.195) (-4072.095) (-4111.912) [-4039.902] * (-4083.383) [-4036.908] (-4105.456) (-4070.911) -- 0:16:39
2000 -- (-4016.532) (-3983.804) [-3989.788] (-3995.890) * [-3977.764] (-4007.865) (-3997.711) (-4006.854) -- 0:08:19
3000 -- (-3963.753) (-3971.679) [-3957.722] (-3981.333) * [-3950.936] (-3988.852) (-3951.625) (-3970.856) -- 0:11:04
4000 -- (-3946.114) (-3963.518) [-3939.307] (-3967.452) * [-3943.002] (-3971.230) (-3953.915) (-3963.206) -- 0:12:27
5000 -- (-3957.875) (-3938.669) [-3927.027] (-3952.746) * (-3948.716) [-3943.295] (-3955.636) (-3946.274) -- 0:09:57
Average standard deviation of split frequencies: 0.077156
6000 -- (-3954.769) (-3936.876) [-3929.301] (-3932.317) * (-3962.308) (-3934.767) [-3938.135] (-3956.468) -- 0:11:02
7000 -- (-3953.792) (-3944.268) [-3931.873] (-3939.333) * (-3947.772) [-3925.142] (-3932.981) (-3946.869) -- 0:11:49
8000 -- (-3946.571) (-3945.224) (-3934.313) [-3930.673] * (-3940.248) [-3918.243] (-3938.778) (-3949.483) -- 0:10:20
9000 -- [-3935.211] (-3932.962) (-3946.770) (-3958.051) * (-3934.123) (-3930.625) [-3933.977] (-3946.268) -- 0:11:00
10000 -- (-3926.683) (-3929.097) (-3930.986) [-3935.265] * (-3939.562) [-3933.826] (-3934.277) (-3929.875) -- 0:09:54
Average standard deviation of split frequencies: 0.068577
11000 -- (-3936.054) [-3934.035] (-3934.235) (-3931.290) * (-3949.063) (-3945.500) [-3931.871] (-3927.903) -- 0:10:29
12000 -- (-3928.905) (-3935.007) (-3945.337) [-3925.792] * (-3932.321) (-3930.059) [-3936.838] (-3945.496) -- 0:10:58
13000 -- (-3935.369) [-3936.243] (-3940.909) (-3944.871) * (-3935.208) [-3930.028] (-3937.486) (-3934.216) -- 0:10:07
14000 -- (-3929.047) (-3935.879) (-3932.491) [-3926.538] * (-3935.627) [-3930.518] (-3936.313) (-3934.036) -- 0:10:33
15000 -- (-3935.268) (-3934.102) [-3935.171] (-3943.170) * (-3940.756) (-3925.258) [-3912.126] (-3931.948) -- 0:10:56
Average standard deviation of split frequencies: 0.064365
16000 -- (-3932.839) (-3941.221) (-3925.546) [-3939.013] * (-3932.586) (-3935.382) (-3926.548) [-3930.835] -- 0:10:15
17000 -- (-3930.322) (-3936.150) (-3930.913) [-3927.351] * (-3935.725) (-3938.661) (-3929.532) [-3920.110] -- 0:10:36
18000 -- (-3932.891) (-3963.472) [-3924.877] (-3940.972) * (-3922.635) (-3941.337) [-3919.859] (-3931.822) -- 0:10:54
19000 -- [-3933.823] (-3946.111) (-3933.618) (-3942.097) * (-3920.705) [-3937.292] (-3935.091) (-3934.510) -- 0:10:19
20000 -- [-3927.792] (-3936.488) (-3928.128) (-3927.915) * (-3927.199) [-3934.583] (-3935.882) (-3940.770) -- 0:10:37
Average standard deviation of split frequencies: 0.058961
21000 -- [-3931.246] (-3926.722) (-3929.188) (-3941.791) * (-3927.856) (-3937.342) [-3930.550] (-3923.633) -- 0:10:52
22000 -- (-3940.163) (-3933.854) [-3930.272] (-3935.488) * [-3924.085] (-3938.718) (-3937.066) (-3935.578) -- 0:10:22
23000 -- (-3953.196) (-3941.026) [-3934.293] (-3948.287) * (-3941.689) (-3929.661) [-3933.371] (-3935.571) -- 0:10:37
24000 -- (-3938.281) (-3926.628) (-3944.016) [-3932.312] * (-3938.351) (-3933.106) [-3930.719] (-3938.555) -- 0:10:50
25000 -- (-3929.259) (-3932.232) [-3924.605] (-3939.605) * (-3946.415) [-3935.953] (-3935.383) (-3949.972) -- 0:10:24
Average standard deviation of split frequencies: 0.045035
26000 -- (-3925.361) (-3927.337) [-3920.845] (-3932.979) * [-3926.538] (-3931.562) (-3936.272) (-3935.039) -- 0:10:36
27000 -- (-3942.358) (-3935.549) [-3927.396] (-3927.747) * (-3939.782) (-3926.989) [-3924.388] (-3943.358) -- 0:10:12
28000 -- (-3934.799) (-3937.488) [-3920.398] (-3946.073) * (-3926.656) (-3923.898) (-3930.777) [-3927.715] -- 0:10:24
29000 -- [-3932.679] (-3939.927) (-3932.342) (-3931.745) * (-3938.770) (-3941.045) (-3938.521) [-3928.689] -- 0:10:36
30000 -- [-3928.062] (-3942.378) (-3934.070) (-3928.067) * (-3936.058) [-3922.404] (-3930.237) (-3935.533) -- 0:10:14
Average standard deviation of split frequencies: 0.045155
31000 -- (-3929.260) (-3949.407) [-3929.369] (-3924.967) * [-3927.047] (-3926.728) (-3931.458) (-3951.972) -- 0:10:25
32000 -- (-3943.222) [-3928.929] (-3933.854) (-3930.031) * (-3933.571) (-3928.531) (-3943.811) [-3930.675] -- 0:10:35
33000 -- (-3929.533) [-3922.441] (-3926.380) (-3932.934) * (-3922.900) (-3926.654) [-3925.667] (-3929.759) -- 0:10:15
34000 -- [-3930.662] (-3930.243) (-3946.805) (-3935.048) * (-3935.246) [-3943.496] (-3967.094) (-3927.722) -- 0:10:25
35000 -- [-3943.722] (-3933.494) (-3934.461) (-3921.053) * (-3927.063) (-3936.839) [-3928.160] (-3932.932) -- 0:10:34
Average standard deviation of split frequencies: 0.039938
36000 -- (-3938.329) (-3944.519) [-3935.473] (-3918.582) * [-3940.156] (-3939.991) (-3933.394) (-3925.054) -- 0:10:15
37000 -- (-3938.643) (-3940.113) [-3931.385] (-3925.442) * (-3944.238) [-3934.487] (-3934.711) (-3930.611) -- 0:10:24
38000 -- (-3922.780) (-3934.201) (-3922.742) [-3937.820] * (-3930.792) (-3944.303) (-3931.831) [-3939.162] -- 0:10:07
39000 -- (-3937.208) (-3938.294) (-3923.947) [-3934.987] * (-3939.264) [-3931.154] (-3935.758) (-3936.243) -- 0:10:16
40000 -- [-3933.513] (-3942.623) (-3924.947) (-3938.339) * (-3940.667) [-3939.311] (-3947.137) (-3936.100) -- 0:10:24
Average standard deviation of split frequencies: 0.041018
41000 -- (-3928.346) [-3925.010] (-3930.431) (-3937.125) * (-3951.020) [-3933.153] (-3932.603) (-3929.907) -- 0:10:08
42000 -- (-3938.688) (-3931.225) [-3922.521] (-3936.999) * (-3939.353) (-3931.041) (-3934.327) [-3928.679] -- 0:10:15
43000 -- (-3933.092) (-3935.662) [-3926.660] (-3938.726) * (-3936.283) [-3916.750] (-3932.984) (-3925.623) -- 0:10:23
44000 -- (-3935.238) (-3935.469) [-3929.281] (-3929.263) * (-3949.475) [-3929.037] (-3926.155) (-3944.660) -- 0:10:08
45000 -- (-3933.250) [-3929.943] (-3933.690) (-3936.218) * [-3928.889] (-3940.588) (-3942.117) (-3931.352) -- 0:10:15
Average standard deviation of split frequencies: 0.031130
46000 -- (-3925.833) [-3931.775] (-3937.718) (-3933.035) * (-3939.371) [-3925.264] (-3931.558) (-3934.833) -- 0:10:22
47000 -- (-3931.195) (-3931.716) [-3918.442] (-3920.134) * (-3944.426) (-3941.957) (-3941.593) [-3926.780] -- 0:10:08
48000 -- (-3943.391) [-3925.536] (-3932.390) (-3931.981) * (-3931.244) [-3929.484] (-3943.214) (-3925.548) -- 0:10:14
49000 -- [-3931.531] (-3944.280) (-3928.096) (-3920.586) * (-3923.910) (-3918.846) (-3935.153) [-3917.981] -- 0:10:01
50000 -- [-3926.402] (-3930.646) (-3925.038) (-3922.554) * [-3927.175] (-3940.536) (-3921.344) (-3925.201) -- 0:10:08
Average standard deviation of split frequencies: 0.025189
51000 -- (-3928.297) (-3943.294) (-3940.626) [-3922.096] * (-3934.507) (-3928.357) (-3930.817) [-3941.277] -- 0:10:14
52000 -- (-3927.443) (-3946.562) [-3924.291] (-3938.163) * (-3934.461) (-3928.240) [-3929.232] (-3942.455) -- 0:10:01
53000 -- (-3938.437) (-3927.037) [-3928.279] (-3927.715) * (-3931.517) (-3927.925) [-3927.540] (-3947.304) -- 0:10:07
54000 -- (-3936.286) (-3940.454) (-3935.916) [-3930.368] * (-3932.909) [-3934.112] (-3930.959) (-3933.774) -- 0:10:13
55000 -- (-3930.398) (-3927.039) [-3938.787] (-3935.017) * (-3942.919) [-3922.217] (-3926.193) (-3927.246) -- 0:10:01
Average standard deviation of split frequencies: 0.025936
56000 -- (-3922.062) [-3928.121] (-3929.916) (-3927.272) * (-3947.722) [-3921.715] (-3944.771) (-3936.849) -- 0:10:06
57000 -- (-3928.909) (-3923.879) [-3928.650] (-3945.212) * (-3928.742) (-3937.457) [-3933.454] (-3934.228) -- 0:10:12
58000 -- (-3931.333) (-3932.913) [-3924.424] (-3950.870) * [-3948.501] (-3929.262) (-3946.219) (-3932.202) -- 0:10:00
59000 -- [-3938.430] (-3931.627) (-3935.199) (-3928.603) * [-3937.301] (-3928.701) (-3939.110) (-3927.855) -- 0:10:06
60000 -- [-3932.759] (-3923.875) (-3937.669) (-3934.879) * (-3940.599) (-3931.208) (-3951.462) [-3919.316] -- 0:10:11
Average standard deviation of split frequencies: 0.027425
61000 -- (-3932.887) (-3921.676) [-3920.630] (-3929.920) * (-3930.494) (-3935.959) (-3936.996) [-3924.184] -- 0:10:00
62000 -- [-3933.030] (-3929.996) (-3946.621) (-3942.958) * (-3937.759) (-3929.104) [-3931.874] (-3944.672) -- 0:10:05
63000 -- [-3937.249] (-3927.786) (-3938.844) (-3930.829) * (-3930.050) [-3923.762] (-3939.944) (-3936.802) -- 0:09:54
64000 -- (-3948.890) (-3936.094) (-3923.406) [-3936.919] * [-3918.774] (-3930.309) (-3932.089) (-3939.001) -- 0:09:59
65000 -- (-3939.999) (-3936.420) (-3925.343) [-3928.186] * [-3925.378] (-3942.244) (-3944.944) (-3928.972) -- 0:10:04
Average standard deviation of split frequencies: 0.026828
66000 -- (-3940.443) [-3925.016] (-3927.705) (-3935.934) * [-3928.320] (-3942.338) (-3937.521) (-3936.274) -- 0:09:54
67000 -- (-3937.624) [-3927.179] (-3941.121) (-3939.496) * [-3934.660] (-3926.219) (-3938.647) (-3918.779) -- 0:09:58
68000 -- [-3924.548] (-3935.287) (-3935.460) (-3928.776) * [-3922.836] (-3939.469) (-3939.832) (-3921.781) -- 0:10:03
69000 -- (-3944.895) (-3945.638) [-3927.976] (-3927.482) * [-3923.406] (-3935.856) (-3927.169) (-3943.121) -- 0:09:53
70000 -- (-3925.316) (-3927.291) [-3924.525] (-3940.767) * (-3931.944) [-3929.513] (-3929.460) (-3938.732) -- 0:09:57
Average standard deviation of split frequencies: 0.021768
71000 -- [-3926.390] (-3934.400) (-3923.101) (-3945.024) * (-3936.263) [-3943.938] (-3935.556) (-3945.034) -- 0:10:01
72000 -- (-3937.569) (-3929.362) [-3926.074] (-3937.867) * [-3925.170] (-3941.793) (-3935.789) (-3933.294) -- 0:09:52
73000 -- (-3944.007) (-3934.324) (-3929.092) [-3930.818] * [-3935.641] (-3933.303) (-3929.704) (-3935.886) -- 0:09:56
74000 -- (-3924.924) [-3932.992] (-3921.467) (-3930.175) * [-3929.579] (-3933.703) (-3942.579) (-3935.496) -- 0:10:00
75000 -- (-3933.898) (-3930.948) [-3932.239] (-3932.706) * (-3927.410) (-3944.077) [-3932.035] (-3936.071) -- 0:09:52
Average standard deviation of split frequencies: 0.019520
76000 -- (-3924.462) [-3931.547] (-3940.522) (-3936.131) * [-3924.906] (-3944.075) (-3923.505) (-3940.023) -- 0:09:55
77000 -- [-3924.567] (-3925.703) (-3929.561) (-3929.113) * (-3942.993) (-3941.380) (-3937.310) [-3919.667] -- 0:09:59
78000 -- (-3947.083) (-3943.630) (-3930.459) [-3931.435] * (-3956.781) [-3922.979] (-3935.779) (-3928.384) -- 0:09:51
79000 -- (-3936.689) (-3935.617) [-3932.636] (-3921.386) * [-3926.572] (-3928.107) (-3935.454) (-3933.749) -- 0:09:54
80000 -- (-3945.477) [-3929.814] (-3940.269) (-3943.539) * [-3926.091] (-3936.105) (-3926.887) (-3927.960) -- 0:09:46
Average standard deviation of split frequencies: 0.016947
81000 -- (-3947.719) (-3926.205) (-3928.017) [-3923.996] * (-3918.853) [-3923.615] (-3932.203) (-3930.451) -- 0:09:49
82000 -- [-3927.671] (-3941.430) (-3920.601) (-3922.191) * (-3933.179) (-3940.085) (-3932.875) [-3925.747] -- 0:09:53
83000 -- (-3942.344) (-3944.570) (-3929.984) [-3930.224] * (-3956.612) [-3930.062] (-3922.694) (-3949.102) -- 0:09:45
84000 -- (-3928.747) (-3939.185) [-3925.207] (-3932.438) * [-3933.851] (-3934.054) (-3929.183) (-3938.024) -- 0:09:48
85000 -- (-3937.866) (-3939.399) (-3934.621) [-3934.326] * [-3918.529] (-3940.997) (-3930.018) (-3933.869) -- 0:09:52
Average standard deviation of split frequencies: 0.017227
86000 -- (-3935.146) (-3943.116) [-3932.584] (-3936.638) * [-3923.235] (-3929.896) (-3944.866) (-3948.564) -- 0:09:44
87000 -- (-3929.470) (-3943.034) [-3924.922] (-3932.888) * (-3926.569) (-3936.609) [-3920.155] (-3942.362) -- 0:09:47
88000 -- [-3924.017] (-3932.337) (-3931.051) (-3925.757) * [-3927.640] (-3933.025) (-3930.034) (-3933.333) -- 0:09:50
89000 -- (-3928.765) (-3934.459) (-3942.816) [-3930.362] * (-3936.100) (-3930.962) (-3937.418) [-3927.311] -- 0:09:43
90000 -- (-3930.429) [-3926.398] (-3933.508) (-3932.172) * [-3938.927] (-3943.248) (-3943.050) (-3927.372) -- 0:09:46
Average standard deviation of split frequencies: 0.017331
91000 -- [-3934.361] (-3930.287) (-3934.844) (-3929.749) * (-3943.433) (-3922.248) (-3929.799) [-3931.360] -- 0:09:39
92000 -- (-3935.932) (-3922.538) [-3932.028] (-3933.820) * (-3938.790) (-3932.615) (-3946.269) [-3927.816] -- 0:09:42
93000 -- [-3937.085] (-3934.833) (-3928.924) (-3932.682) * (-3934.035) [-3922.294] (-3941.091) (-3927.914) -- 0:09:45
94000 -- (-3933.502) (-3940.398) (-3918.063) [-3926.620] * (-3938.193) [-3917.215] (-3934.430) (-3929.991) -- 0:09:38
95000 -- [-3921.904] (-3929.786) (-3918.908) (-3953.556) * [-3924.790] (-3936.767) (-3931.194) (-3920.084) -- 0:09:41
Average standard deviation of split frequencies: 0.018568
96000 -- (-3937.256) (-3925.761) (-3952.607) [-3929.710] * (-3927.809) (-3941.273) (-3934.479) [-3914.783] -- 0:09:43
97000 -- [-3927.988] (-3926.879) (-3924.818) (-3944.403) * (-3922.098) (-3949.769) [-3933.464] (-3935.917) -- 0:09:37
98000 -- [-3924.792] (-3924.262) (-3925.661) (-3935.623) * (-3946.525) [-3930.513] (-3931.513) (-3942.424) -- 0:09:39
99000 -- (-3936.572) (-3944.556) (-3935.046) [-3930.770] * [-3926.129] (-3931.014) (-3944.187) (-3938.687) -- 0:09:42
100000 -- [-3931.712] (-3945.843) (-3921.453) (-3932.041) * (-3943.763) (-3931.524) (-3935.872) [-3920.150] -- 0:09:36
Average standard deviation of split frequencies: 0.020008
101000 -- [-3930.073] (-3939.726) (-3932.009) (-3944.254) * (-3926.237) (-3933.673) (-3932.443) [-3933.687] -- 0:09:38
102000 -- (-3928.698) (-3936.179) [-3928.827] (-3935.119) * (-3928.570) [-3924.441] (-3938.800) (-3938.552) -- 0:09:41
103000 -- [-3922.416] (-3937.528) (-3935.806) (-3942.755) * (-3924.907) [-3926.520] (-3941.690) (-3951.954) -- 0:09:34
104000 -- [-3925.424] (-3943.908) (-3937.070) (-3937.320) * [-3927.694] (-3936.428) (-3936.342) (-3940.710) -- 0:09:37
105000 -- (-3933.380) (-3942.602) [-3931.694] (-3928.745) * [-3926.739] (-3950.422) (-3959.816) (-3929.201) -- 0:09:31
Average standard deviation of split frequencies: 0.020313
106000 -- (-3918.535) [-3931.937] (-3925.415) (-3923.578) * (-3926.588) [-3930.783] (-3933.247) (-3937.056) -- 0:09:33
107000 -- [-3925.124] (-3939.362) (-3925.751) (-3938.172) * (-3929.285) (-3924.458) [-3927.542] (-3924.215) -- 0:09:35
108000 -- (-3937.355) [-3929.498] (-3935.620) (-3934.690) * (-3932.086) (-3934.188) (-3937.868) [-3928.161] -- 0:09:29
109000 -- (-3931.825) (-3938.973) [-3933.617] (-3940.977) * [-3921.194] (-3923.742) (-3946.227) (-3924.073) -- 0:09:32
110000 -- (-3933.830) [-3932.428] (-3927.427) (-3956.128) * (-3930.288) (-3946.231) (-3940.287) [-3927.342] -- 0:09:34
Average standard deviation of split frequencies: 0.019287
111000 -- (-3941.346) (-3935.510) (-3942.220) [-3928.314] * [-3936.704] (-3938.263) (-3925.155) (-3938.128) -- 0:09:28
112000 -- (-3936.747) (-3930.787) (-3956.165) [-3922.448] * (-3946.657) (-3955.305) (-3932.423) [-3925.498] -- 0:09:30
113000 -- (-3925.928) (-3929.662) (-3935.807) [-3925.138] * (-3930.056) (-3942.890) (-3923.307) [-3925.064] -- 0:09:33
114000 -- (-3938.640) [-3926.423] (-3927.572) (-3931.994) * (-3923.227) (-3941.001) [-3927.625] (-3934.121) -- 0:09:27
115000 -- (-3931.616) (-3929.527) [-3927.337] (-3928.863) * (-3940.804) (-3930.183) (-3926.530) [-3936.608] -- 0:09:29
Average standard deviation of split frequencies: 0.020319
116000 -- (-3929.973) (-3933.503) [-3930.670] (-3937.280) * (-3933.900) (-3940.914) [-3928.610] (-3930.069) -- 0:09:31
117000 -- (-3933.607) (-3930.973) (-3938.615) [-3920.787] * (-3928.597) (-3934.720) (-3944.352) [-3921.524] -- 0:09:26
118000 -- (-3930.860) (-3925.353) (-3941.578) [-3925.478] * [-3921.715] (-3945.895) (-3946.346) (-3923.496) -- 0:09:28
119000 -- (-3931.771) (-3936.636) (-3953.158) [-3923.708] * (-3935.675) (-3930.638) [-3923.066] (-3929.756) -- 0:09:22
120000 -- (-3935.156) (-3927.907) (-3948.097) [-3921.063] * [-3941.709] (-3934.406) (-3922.658) (-3939.316) -- 0:09:24
Average standard deviation of split frequencies: 0.019178
121000 -- (-3941.768) (-3934.829) (-3945.761) [-3921.700] * (-3942.599) (-3925.771) (-3936.485) [-3935.121] -- 0:09:26
122000 -- [-3922.118] (-3927.722) (-3931.514) (-3931.400) * [-3933.057] (-3944.858) (-3923.340) (-3939.518) -- 0:09:21
123000 -- (-3925.900) [-3928.646] (-3942.921) (-3939.233) * [-3923.800] (-3938.541) (-3941.335) (-3930.133) -- 0:09:23
124000 -- (-3950.106) (-3931.016) [-3935.175] (-3926.354) * [-3928.983] (-3935.772) (-3940.033) (-3931.673) -- 0:09:25
125000 -- (-3937.478) [-3923.143] (-3937.944) (-3932.132) * (-3937.857) [-3919.360] (-3936.319) (-3928.868) -- 0:09:20
Average standard deviation of split frequencies: 0.018083
126000 -- (-3953.153) (-3927.673) (-3942.434) [-3939.265] * (-3934.024) (-3924.968) [-3928.233] (-3931.865) -- 0:09:21
127000 -- (-3944.696) (-3941.804) [-3928.322] (-3940.605) * (-3943.680) [-3933.018] (-3923.104) (-3930.732) -- 0:09:23
128000 -- (-3936.974) (-3930.538) [-3924.905] (-3940.355) * [-3929.371] (-3936.190) (-3923.422) (-3943.949) -- 0:09:18
129000 -- [-3926.449] (-3922.467) (-3937.358) (-3933.281) * (-3936.920) [-3928.029] (-3938.265) (-3946.794) -- 0:09:20
130000 -- (-3928.676) (-3930.978) [-3927.645] (-3940.808) * (-3939.414) (-3933.408) [-3928.807] (-3934.351) -- 0:09:22
Average standard deviation of split frequencies: 0.017523
131000 -- (-3939.106) (-3929.015) [-3922.314] (-3942.207) * (-3933.051) (-3933.777) [-3925.746] (-3929.748) -- 0:09:17
132000 -- (-3934.365) (-3932.242) (-3931.806) [-3920.681] * (-3945.844) [-3937.918] (-3922.694) (-3940.472) -- 0:09:18
133000 -- [-3923.320] (-3936.537) (-3927.062) (-3937.184) * (-3943.477) (-3932.876) [-3919.346] (-3941.475) -- 0:09:14
134000 -- (-3928.649) (-3943.623) (-3920.935) [-3921.718] * (-3927.402) [-3927.719] (-3926.056) (-3937.147) -- 0:09:15
135000 -- [-3929.693] (-3941.718) (-3936.872) (-3931.107) * [-3930.014] (-3935.870) (-3926.495) (-3948.525) -- 0:09:17
Average standard deviation of split frequencies: 0.016701
136000 -- (-3941.814) (-3947.938) [-3927.327] (-3933.896) * [-3927.572] (-3942.500) (-3930.777) (-3948.415) -- 0:09:12
137000 -- (-3937.946) (-3933.021) (-3936.324) [-3929.641] * (-3933.821) [-3932.453] (-3927.460) (-3932.757) -- 0:09:14
138000 -- (-3929.938) (-3934.457) [-3926.842] (-3925.845) * [-3939.842] (-3953.060) (-3934.488) (-3934.999) -- 0:09:15
139000 -- (-3931.551) (-3944.415) [-3932.140] (-3923.005) * (-3945.315) (-3929.573) [-3928.016] (-3933.030) -- 0:09:11
140000 -- (-3931.208) (-3941.806) (-3934.583) [-3937.483] * (-3930.316) [-3929.129] (-3938.659) (-3927.647) -- 0:09:12
Average standard deviation of split frequencies: 0.016023
141000 -- (-3935.032) (-3942.643) [-3921.904] (-3946.317) * (-3940.226) [-3916.732] (-3927.670) (-3928.349) -- 0:09:14
142000 -- (-3952.053) (-3929.865) [-3923.024] (-3939.299) * (-3932.821) (-3933.483) (-3950.074) [-3926.310] -- 0:09:09
143000 -- (-3935.370) (-3936.499) [-3926.856] (-3934.407) * (-3936.617) [-3922.803] (-3940.648) (-3924.790) -- 0:09:11
144000 -- (-3934.748) [-3925.290] (-3927.670) (-3925.790) * (-3934.292) [-3927.190] (-3940.847) (-3930.269) -- 0:09:12
145000 -- (-3924.608) (-3915.491) (-3951.186) [-3921.164] * (-3924.399) (-3935.049) [-3923.790] (-3933.450) -- 0:09:08
Average standard deviation of split frequencies: 0.017343
146000 -- (-3929.605) [-3931.952] (-3936.743) (-3930.328) * (-3930.524) [-3934.028] (-3936.477) (-3927.830) -- 0:09:09
147000 -- [-3926.346] (-3930.820) (-3944.314) (-3934.609) * (-3923.668) [-3933.519] (-3935.169) (-3936.355) -- 0:09:05
148000 -- (-3932.187) [-3925.129] (-3941.501) (-3927.350) * (-3927.559) [-3926.877] (-3937.181) (-3943.219) -- 0:09:06
149000 -- (-3931.848) (-3930.549) (-3947.470) [-3925.530] * (-3928.137) (-3929.404) (-3938.733) [-3926.982] -- 0:09:08
150000 -- (-3926.554) (-3938.971) (-3935.976) [-3925.723] * (-3927.035) [-3931.919] (-3940.223) (-3927.640) -- 0:09:04
Average standard deviation of split frequencies: 0.016231
151000 -- (-3938.794) (-3937.895) (-3936.643) [-3927.649] * [-3923.708] (-3935.905) (-3926.390) (-3934.841) -- 0:09:05
152000 -- (-3937.782) (-3938.088) [-3920.942] (-3933.317) * (-3932.961) (-3938.687) (-3923.319) [-3923.721] -- 0:09:06
153000 -- (-3924.396) (-3930.051) (-3925.857) [-3938.010] * (-3923.871) (-3938.087) [-3920.011] (-3924.948) -- 0:09:02
154000 -- (-3935.249) (-3920.473) (-3938.965) [-3923.723] * (-3924.800) (-3928.944) (-3933.570) [-3922.729] -- 0:09:03
155000 -- [-3930.376] (-3927.531) (-3944.187) (-3938.931) * (-3939.732) (-3928.555) (-3927.356) [-3934.031] -- 0:09:05
Average standard deviation of split frequencies: 0.014138
156000 -- (-3937.759) (-3923.314) (-3940.660) [-3925.040] * (-3925.777) [-3929.496] (-3929.883) (-3944.420) -- 0:09:01
157000 -- (-3928.054) (-3925.748) (-3932.248) [-3923.232] * (-3926.213) (-3924.856) [-3922.027] (-3935.384) -- 0:09:02
158000 -- (-3934.502) [-3923.495] (-3934.627) (-3938.033) * (-3936.809) (-3932.029) [-3921.279] (-3936.378) -- 0:09:03
159000 -- (-3938.101) [-3929.075] (-3937.870) (-3946.437) * (-3936.380) (-3942.874) [-3918.151] (-3939.698) -- 0:08:59
160000 -- (-3932.516) [-3929.060] (-3923.349) (-3923.129) * (-3928.965) (-3935.686) [-3930.230] (-3936.006) -- 0:09:00
Average standard deviation of split frequencies: 0.014367
161000 -- (-3938.870) [-3929.680] (-3928.773) (-3925.716) * (-3942.737) (-3940.316) (-3940.433) [-3919.297] -- 0:09:01
162000 -- [-3925.390] (-3935.178) (-3930.655) (-3942.889) * (-3930.152) [-3922.152] (-3925.386) (-3937.812) -- 0:08:57
163000 -- (-3944.250) (-3939.031) (-3930.759) [-3921.464] * (-3922.623) [-3928.986] (-3932.113) (-3938.536) -- 0:08:59
164000 -- (-3924.853) (-3933.374) [-3930.763] (-3919.973) * (-3929.085) [-3924.022] (-3927.497) (-3945.017) -- 0:08:55
165000 -- [-3928.210] (-3930.743) (-3940.752) (-3934.235) * (-3924.208) (-3923.805) (-3934.272) [-3931.949] -- 0:08:56
Average standard deviation of split frequencies: 0.014956
166000 -- [-3929.691] (-3936.759) (-3930.248) (-3939.071) * (-3917.771) (-3936.132) [-3936.828] (-3927.653) -- 0:08:57
167000 -- [-3932.760] (-3929.708) (-3938.585) (-3946.011) * [-3927.827] (-3920.335) (-3947.049) (-3941.159) -- 0:08:53
168000 -- (-3929.577) (-3930.078) [-3929.116] (-3939.031) * [-3931.007] (-3932.556) (-3926.435) (-3940.740) -- 0:08:54
169000 -- [-3928.275] (-3934.592) (-3922.572) (-3929.940) * (-3946.388) (-3929.712) [-3922.825] (-3943.378) -- 0:08:55
170000 -- (-3921.120) (-3945.840) [-3920.183] (-3948.380) * (-3928.082) (-3941.440) [-3927.501] (-3934.651) -- 0:08:52
Average standard deviation of split frequencies: 0.013811
171000 -- (-3940.938) [-3933.529] (-3931.543) (-3933.489) * (-3943.165) [-3938.827] (-3929.798) (-3929.467) -- 0:08:53
172000 -- [-3930.977] (-3935.618) (-3935.780) (-3930.305) * [-3937.827] (-3935.867) (-3935.419) (-3948.119) -- 0:08:54
173000 -- [-3923.226] (-3933.759) (-3936.315) (-3929.130) * (-3943.057) (-3948.000) [-3937.085] (-3931.623) -- 0:08:50
174000 -- (-3925.843) (-3920.278) (-3931.130) [-3931.604] * (-3946.505) [-3931.702] (-3935.939) (-3939.989) -- 0:08:51
175000 -- [-3931.673] (-3926.788) (-3935.133) (-3932.389) * (-3949.508) (-3932.995) [-3919.415] (-3931.892) -- 0:08:48
Average standard deviation of split frequencies: 0.012232
176000 -- (-3926.055) [-3919.794] (-3930.191) (-3945.547) * (-3939.891) [-3923.809] (-3921.521) (-3937.962) -- 0:08:49
177000 -- (-3929.363) (-3937.411) [-3927.142] (-3945.804) * (-3930.269) [-3928.210] (-3938.411) (-3941.365) -- 0:08:50
178000 -- [-3927.161] (-3929.987) (-3940.664) (-3945.901) * (-3945.927) (-3919.327) (-3925.694) [-3937.714] -- 0:08:46
179000 -- (-3928.208) (-3933.664) [-3927.360] (-3935.849) * (-3930.580) (-3953.824) [-3924.043] (-3941.974) -- 0:08:47
180000 -- (-3928.141) (-3935.191) [-3931.897] (-3933.361) * [-3924.910] (-3940.460) (-3940.564) (-3938.034) -- 0:08:48
Average standard deviation of split frequencies: 0.011697
181000 -- [-3918.541] (-3923.201) (-3939.540) (-3927.812) * (-3933.938) [-3930.125] (-3943.030) (-3938.347) -- 0:08:44
182000 -- (-3930.499) (-3944.273) (-3930.896) [-3926.842] * (-3946.342) [-3920.619] (-3939.069) (-3941.280) -- 0:08:45
183000 -- [-3926.011] (-3943.047) (-3925.886) (-3933.409) * (-3922.100) [-3915.505] (-3929.694) (-3936.164) -- 0:08:46
184000 -- (-3939.263) [-3931.209] (-3925.741) (-3924.299) * (-3920.843) [-3919.914] (-3925.777) (-3934.620) -- 0:08:43
185000 -- (-3953.971) (-3924.540) (-3925.958) [-3937.793] * (-3937.185) [-3932.899] (-3934.985) (-3932.906) -- 0:08:44
Average standard deviation of split frequencies: 0.012826
186000 -- (-3925.936) (-3937.552) [-3930.904] (-3932.395) * [-3926.115] (-3923.788) (-3939.036) (-3925.710) -- 0:08:40
187000 -- (-3931.142) (-3933.641) [-3932.015] (-3931.330) * (-3934.326) (-3921.339) [-3925.303] (-3930.082) -- 0:08:41
188000 -- [-3921.135] (-3943.345) (-3940.326) (-3930.853) * (-3946.623) [-3926.417] (-3932.362) (-3931.923) -- 0:08:42
189000 -- (-3923.914) [-3924.278] (-3942.369) (-3933.747) * (-3931.882) [-3929.043] (-3929.775) (-3940.447) -- 0:08:39
190000 -- (-3936.820) (-3928.463) [-3931.601] (-3938.610) * [-3924.649] (-3930.602) (-3931.721) (-3932.361) -- 0:08:40
Average standard deviation of split frequencies: 0.012362
191000 -- (-3949.312) [-3927.933] (-3932.510) (-3938.837) * (-3949.001) (-3928.004) [-3923.651] (-3925.417) -- 0:08:40
192000 -- (-3942.483) (-3933.911) [-3917.144] (-3936.531) * (-3933.033) (-3933.868) [-3927.830] (-3933.440) -- 0:08:37
193000 -- (-3933.876) (-3928.901) [-3926.537] (-3940.274) * (-3948.181) (-3930.298) (-3933.198) [-3926.944] -- 0:08:38
194000 -- (-3935.958) (-3937.593) [-3929.232] (-3934.874) * (-3934.734) (-3945.568) (-3942.897) [-3924.931] -- 0:08:35
195000 -- (-3930.575) (-3933.322) (-3948.121) [-3946.191] * (-3935.882) (-3941.364) [-3946.592] (-3933.026) -- 0:08:36
Average standard deviation of split frequencies: 0.011064
196000 -- (-3946.500) [-3931.788] (-3930.052) (-3934.713) * [-3922.394] (-3944.579) (-3931.725) (-3931.538) -- 0:08:36
197000 -- (-3934.586) (-3930.972) (-3924.105) [-3920.513] * (-3940.511) (-3935.912) [-3917.106] (-3932.417) -- 0:08:33
198000 -- (-3939.566) (-3931.170) [-3921.307] (-3928.278) * (-3938.304) (-3932.631) [-3927.648] (-3925.413) -- 0:08:34
199000 -- (-3930.811) (-3942.743) [-3920.295] (-3949.027) * (-3938.272) (-3933.922) (-3927.834) [-3924.347] -- 0:08:35
200000 -- (-3932.453) (-3935.836) [-3922.911] (-3939.307) * (-3931.976) (-3937.052) [-3922.154] (-3935.255) -- 0:08:32
Average standard deviation of split frequencies: 0.010336
201000 -- (-3932.223) (-3944.792) (-3928.919) [-3936.699] * (-3938.587) (-3932.049) (-3948.496) [-3928.270] -- 0:08:32
202000 -- [-3927.590] (-3928.729) (-3942.465) (-3926.653) * (-3929.571) [-3932.360] (-3933.078) (-3924.795) -- 0:08:33
203000 -- [-3920.009] (-3924.061) (-3936.952) (-3931.550) * (-3952.800) (-3930.155) [-3929.548] (-3940.034) -- 0:08:30
204000 -- (-3938.585) (-3941.287) [-3934.381] (-3937.638) * (-3945.374) (-3948.613) [-3928.879] (-3929.620) -- 0:08:31
205000 -- (-3943.961) [-3921.775] (-3930.630) (-3941.928) * (-3933.288) (-3928.060) (-3940.024) [-3924.166] -- 0:08:28
Average standard deviation of split frequencies: 0.010100
206000 -- (-3935.807) [-3922.961] (-3928.504) (-3927.979) * (-3946.858) [-3926.944] (-3924.828) (-3935.227) -- 0:08:28
207000 -- (-3924.534) (-3929.301) (-3943.088) [-3928.377] * (-3935.701) (-3937.614) (-3929.002) [-3925.511] -- 0:08:29
208000 -- [-3924.549] (-3929.497) (-3922.516) (-3922.924) * (-3941.105) (-3934.681) (-3928.301) [-3928.448] -- 0:08:26
209000 -- (-3934.392) (-3935.481) (-3931.641) [-3923.582] * (-3945.547) (-3922.046) [-3923.824] (-3946.238) -- 0:08:27
210000 -- (-3936.183) (-3932.026) [-3935.533] (-3929.142) * [-3928.999] (-3933.572) (-3933.368) (-3931.065) -- 0:08:27
Average standard deviation of split frequencies: 0.008951
211000 -- (-3935.350) (-3925.871) [-3927.392] (-3944.435) * (-3932.790) [-3928.551] (-3933.204) (-3923.515) -- 0:08:24
212000 -- (-3933.035) (-3939.721) [-3927.120] (-3955.545) * (-3933.227) (-3936.714) [-3925.093] (-3937.286) -- 0:08:25
213000 -- (-3928.042) [-3921.188] (-3947.021) (-3938.913) * (-3932.777) (-3935.270) (-3924.518) [-3931.331] -- 0:08:22
214000 -- [-3925.335] (-3924.684) (-3926.406) (-3931.897) * (-3949.883) (-3943.913) [-3926.604] (-3933.753) -- 0:08:23
215000 -- (-3940.562) (-3937.271) [-3920.410] (-3945.838) * (-3936.574) (-3947.507) [-3930.401] (-3924.468) -- 0:08:23
Average standard deviation of split frequencies: 0.007483
216000 -- (-3934.519) [-3930.432] (-3933.695) (-3931.893) * (-3936.740) (-3953.556) (-3923.357) [-3926.960] -- 0:08:20
217000 -- [-3919.245] (-3944.758) (-3927.926) (-3937.556) * (-3929.366) (-3934.714) [-3923.473] (-3944.609) -- 0:08:21
218000 -- (-3928.856) (-3948.277) (-3926.008) [-3928.118] * (-3939.424) (-3935.407) [-3926.066] (-3932.715) -- 0:08:22
219000 -- (-3931.609) [-3937.181] (-3927.724) (-3923.303) * (-3941.243) [-3924.079] (-3930.385) (-3925.827) -- 0:08:19
220000 -- (-3936.513) [-3923.899] (-3940.537) (-3943.635) * (-3937.192) (-3935.220) (-3930.910) [-3921.650] -- 0:08:19
Average standard deviation of split frequencies: 0.008972
221000 -- (-3956.833) (-3922.458) [-3928.035] (-3932.095) * (-3929.467) (-3940.568) [-3927.353] (-3934.343) -- 0:08:20
222000 -- (-3939.608) (-3928.781) [-3926.803] (-3937.970) * [-3924.016] (-3935.160) (-3943.344) (-3921.318) -- 0:08:17
223000 -- (-3936.610) (-3929.265) [-3934.882] (-3931.379) * [-3919.176] (-3934.724) (-3942.680) (-3933.622) -- 0:08:18
224000 -- (-3928.610) (-3930.922) [-3935.600] (-3939.757) * [-3924.706] (-3944.049) (-3921.088) (-3921.667) -- 0:08:15
225000 -- [-3921.758] (-3930.461) (-3928.006) (-3933.816) * [-3922.100] (-3942.649) (-3926.351) (-3939.311) -- 0:08:16
Average standard deviation of split frequencies: 0.009452
226000 -- [-3933.315] (-3934.888) (-3924.258) (-3926.754) * [-3929.552] (-3943.232) (-3934.184) (-3950.005) -- 0:08:16
227000 -- [-3927.232] (-3937.918) (-3926.535) (-3950.198) * (-3934.474) [-3924.719] (-3924.972) (-3934.815) -- 0:08:13
228000 -- (-3928.788) [-3923.980] (-3932.806) (-3933.167) * (-3936.756) [-3926.962] (-3923.311) (-3933.145) -- 0:08:14
229000 -- [-3921.515] (-3939.688) (-3931.032) (-3942.416) * (-3956.130) [-3922.264] (-3934.152) (-3927.489) -- 0:08:14
230000 -- [-3926.348] (-3933.606) (-3935.609) (-3941.824) * (-3932.613) [-3927.791] (-3939.707) (-3937.985) -- 0:08:12
Average standard deviation of split frequencies: 0.009707
231000 -- (-3934.932) [-3928.366] (-3928.044) (-3939.997) * [-3929.849] (-3929.082) (-3943.517) (-3935.944) -- 0:08:12
232000 -- (-3943.238) [-3918.037] (-3957.687) (-3929.265) * (-3932.028) (-3927.635) (-3934.325) [-3926.223] -- 0:08:13
233000 -- (-3921.191) [-3932.429] (-3925.629) (-3934.604) * (-3958.435) [-3932.597] (-3936.597) (-3927.142) -- 0:08:10
234000 -- (-3935.150) [-3930.882] (-3941.810) (-3934.468) * [-3939.394] (-3928.609) (-3933.762) (-3942.334) -- 0:08:11
235000 -- (-3930.203) (-3933.320) [-3926.344] (-3941.007) * (-3962.520) (-3929.799) (-3950.512) [-3936.160] -- 0:08:08
Average standard deviation of split frequencies: 0.008722
236000 -- (-3936.473) (-3925.006) [-3923.970] (-3927.668) * (-3933.345) (-3933.901) (-3926.823) [-3923.252] -- 0:08:08
237000 -- [-3926.415] (-3934.614) (-3923.713) (-3933.808) * (-3940.330) (-3940.262) (-3936.319) [-3931.655] -- 0:08:09
238000 -- (-3924.125) [-3926.793] (-3937.777) (-3933.668) * [-3928.815] (-3932.239) (-3931.937) (-3942.586) -- 0:08:06
239000 -- [-3922.454] (-3936.241) (-3938.294) (-3925.737) * (-3934.285) (-3930.901) (-3933.104) [-3926.093] -- 0:08:07
240000 -- [-3928.388] (-3928.579) (-3940.321) (-3934.659) * [-3934.358] (-3931.197) (-3954.127) (-3928.078) -- 0:08:07
Average standard deviation of split frequencies: 0.008325
241000 -- (-3923.301) (-3946.717) [-3927.369] (-3939.384) * (-3937.359) (-3933.093) (-3935.527) [-3931.701] -- 0:08:05
242000 -- [-3923.316] (-3939.483) (-3929.811) (-3936.784) * (-3935.611) (-3940.324) (-3924.855) [-3934.601] -- 0:08:05
243000 -- (-3934.459) (-3931.449) (-3931.288) [-3926.396] * (-3924.909) (-3926.102) [-3929.143] (-3933.833) -- 0:08:05
244000 -- (-3939.490) [-3934.421] (-3941.904) (-3936.210) * (-3926.452) (-3941.801) [-3924.255] (-3931.811) -- 0:08:03
245000 -- (-3941.097) [-3931.490] (-3934.992) (-3930.181) * (-3926.282) (-3941.377) [-3933.726] (-3939.070) -- 0:08:03
Average standard deviation of split frequencies: 0.008524
246000 -- (-3942.896) [-3935.131] (-3932.528) (-3938.209) * (-3940.171) (-3942.662) [-3927.418] (-3931.608) -- 0:08:01
247000 -- (-3946.028) [-3918.359] (-3925.085) (-3930.392) * (-3950.372) [-3923.016] (-3927.897) (-3940.588) -- 0:08:01
248000 -- (-3932.792) (-3927.436) [-3932.847] (-3932.598) * (-3932.652) (-3935.018) (-3933.401) [-3932.097] -- 0:08:02
249000 -- (-3953.952) [-3931.973] (-3928.992) (-3926.012) * (-3935.512) [-3919.904] (-3928.590) (-3932.783) -- 0:07:59
250000 -- (-3933.390) [-3925.513] (-3929.301) (-3935.225) * (-3943.511) (-3928.415) [-3925.830] (-3921.275) -- 0:08:00
Average standard deviation of split frequencies: 0.008049
251000 -- (-3928.979) [-3931.661] (-3931.527) (-3925.990) * (-3945.964) [-3928.348] (-3943.137) (-3928.404) -- 0:08:00
252000 -- (-3932.387) [-3924.837] (-3942.349) (-3945.059) * (-3946.695) (-3939.629) [-3923.216] (-3930.202) -- 0:07:57
253000 -- (-3934.461) [-3931.705] (-3940.770) (-3952.875) * [-3924.988] (-3931.698) (-3934.570) (-3919.644) -- 0:07:58
254000 -- [-3929.271] (-3937.348) (-3929.546) (-3936.698) * (-3935.763) (-3932.076) (-3928.334) [-3936.317] -- 0:07:58
255000 -- (-3938.321) (-3930.146) (-3924.446) [-3934.906] * (-3945.484) (-3928.264) [-3930.460] (-3923.448) -- 0:07:56
Average standard deviation of split frequencies: 0.008782
256000 -- (-3923.923) [-3928.475] (-3921.202) (-3943.753) * (-3933.592) [-3927.486] (-3935.397) (-3931.361) -- 0:07:56
257000 -- (-3932.887) (-3925.596) (-3929.842) [-3930.010] * (-3937.205) (-3932.080) (-3939.740) [-3923.111] -- 0:07:57
258000 -- [-3927.081] (-3934.326) (-3923.498) (-3931.954) * [-3925.825] (-3930.449) (-3935.847) (-3926.171) -- 0:07:54
259000 -- [-3925.185] (-3924.711) (-3930.825) (-3930.128) * (-3937.160) [-3933.494] (-3931.333) (-3932.697) -- 0:07:54
260000 -- [-3922.120] (-3944.414) (-3922.499) (-3935.817) * [-3925.823] (-3937.908) (-3930.515) (-3940.520) -- 0:07:55
Average standard deviation of split frequencies: 0.009738
261000 -- (-3930.806) (-3924.686) (-3938.424) [-3925.953] * (-3933.969) (-3927.870) (-3943.262) [-3924.329] -- 0:07:52
262000 -- (-3931.375) (-3925.879) (-3927.838) [-3924.878] * [-3929.561] (-3930.841) (-3929.110) (-3927.743) -- 0:07:53
263000 -- (-3932.176) (-3925.148) (-3944.403) [-3926.994] * (-3932.441) (-3934.034) [-3924.333] (-3941.589) -- 0:07:50
264000 -- (-3927.010) (-3930.807) (-3928.724) [-3921.034] * (-3935.603) [-3928.571] (-3933.415) (-3932.967) -- 0:07:51
265000 -- (-3928.952) [-3926.311] (-3937.574) (-3931.550) * (-3937.141) (-3928.358) (-3928.623) [-3925.235] -- 0:07:51
Average standard deviation of split frequencies: 0.009977
266000 -- [-3925.694] (-3935.857) (-3926.834) (-3930.971) * (-3930.143) [-3931.517] (-3936.409) (-3946.474) -- 0:07:49
267000 -- (-3933.573) (-3932.344) [-3921.400] (-3942.938) * (-3938.343) (-3939.008) [-3926.983] (-3929.776) -- 0:07:49
268000 -- (-3927.196) (-3936.741) [-3926.132] (-3933.622) * (-3941.392) [-3928.690] (-3931.930) (-3930.661) -- 0:07:49
269000 -- (-3931.776) (-3928.915) [-3930.483] (-3939.389) * (-3932.637) [-3925.630] (-3928.333) (-3936.848) -- 0:07:47
270000 -- (-3924.333) (-3932.702) [-3933.071] (-3932.185) * (-3948.667) (-3927.372) (-3925.510) [-3919.414] -- 0:07:47
Average standard deviation of split frequencies: 0.010718
271000 -- (-3931.211) (-3936.132) (-3932.625) [-3932.235] * (-3938.718) [-3922.702] (-3930.158) (-3925.188) -- 0:07:48
272000 -- [-3928.643] (-3938.696) (-3948.767) (-3928.985) * (-3942.275) [-3920.748] (-3922.317) (-3935.361) -- 0:07:45
273000 -- [-3924.664] (-3941.310) (-3952.576) (-3929.286) * (-3932.885) (-3938.018) [-3931.722] (-3933.907) -- 0:07:46
274000 -- (-3929.268) [-3931.562] (-3935.107) (-3936.576) * (-3951.302) [-3927.546] (-3934.975) (-3942.546) -- 0:07:43
275000 -- (-3938.615) (-3941.291) (-3936.073) [-3941.646] * (-3947.212) (-3931.645) (-3938.098) [-3923.556] -- 0:07:44
Average standard deviation of split frequencies: 0.011285
276000 -- (-3939.331) (-3926.321) (-3935.686) [-3927.822] * [-3937.208] (-3923.114) (-3931.678) (-3928.264) -- 0:07:44
277000 -- (-3931.227) (-3941.315) (-3936.230) [-3922.343] * (-3934.191) (-3936.543) (-3937.150) [-3920.966] -- 0:07:41
278000 -- [-3927.779] (-3930.642) (-3934.314) (-3924.293) * (-3949.211) (-3926.477) [-3935.550] (-3930.886) -- 0:07:42
279000 -- (-3923.646) (-3934.915) [-3926.448] (-3941.611) * [-3938.146] (-3923.809) (-3936.223) (-3935.825) -- 0:07:42
280000 -- (-3936.237) [-3929.275] (-3929.202) (-3938.467) * (-3940.639) [-3930.816] (-3932.367) (-3934.354) -- 0:07:40
Average standard deviation of split frequencies: 0.012336
281000 -- (-3940.117) [-3925.601] (-3929.453) (-3942.531) * (-3926.492) (-3928.346) [-3924.048] (-3928.019) -- 0:07:40
282000 -- [-3931.851] (-3930.130) (-3920.676) (-3943.927) * (-3924.506) (-3935.529) (-3940.110) [-3918.696] -- 0:07:40
283000 -- (-3931.594) (-3931.935) (-3936.654) [-3922.975] * [-3922.941] (-3934.915) (-3923.394) (-3944.129) -- 0:07:38
284000 -- (-3937.619) (-3930.763) [-3927.717] (-3935.080) * (-3927.365) (-3924.146) (-3927.862) [-3921.988] -- 0:07:38
285000 -- (-3936.678) (-3934.733) [-3930.926] (-3936.882) * [-3932.152] (-3939.268) (-3932.315) (-3929.239) -- 0:07:39
Average standard deviation of split frequencies: 0.011708
286000 -- (-3926.049) [-3924.256] (-3936.016) (-3936.791) * (-3935.699) (-3919.500) [-3929.475] (-3931.515) -- 0:07:36
287000 -- (-3930.196) [-3923.987] (-3932.703) (-3936.451) * (-3924.486) (-3932.718) (-3945.186) [-3923.318] -- 0:07:37
288000 -- (-3930.054) (-3941.431) [-3929.752] (-3928.013) * (-3932.547) [-3927.656] (-3933.999) (-3922.042) -- 0:07:37
289000 -- (-3925.626) (-3945.310) [-3925.739] (-3933.824) * [-3925.527] (-3949.973) (-3939.347) (-3936.374) -- 0:07:35
290000 -- [-3932.549] (-3943.236) (-3946.281) (-3935.279) * (-3932.205) [-3936.777] (-3931.655) (-3925.837) -- 0:07:35
Average standard deviation of split frequencies: 0.011744
291000 -- (-3923.303) [-3934.213] (-3946.330) (-3924.048) * (-3921.087) (-3936.021) (-3925.968) [-3933.158] -- 0:07:35
292000 -- (-3941.046) (-3930.820) (-3932.373) [-3924.348] * (-3925.827) (-3951.382) [-3931.129] (-3924.768) -- 0:07:33
293000 -- (-3929.936) (-3926.586) (-3940.177) [-3934.510] * (-3942.257) [-3932.604] (-3930.345) (-3928.761) -- 0:07:33
294000 -- [-3924.208] (-3934.873) (-3933.196) (-3944.893) * (-3940.508) (-3936.169) [-3932.690] (-3920.357) -- 0:07:33
295000 -- (-3932.556) (-3935.772) [-3936.422] (-3941.134) * [-3924.617] (-3941.437) (-3928.376) (-3922.686) -- 0:07:31
Average standard deviation of split frequencies: 0.011642
296000 -- (-3928.494) (-3939.264) (-3936.391) [-3927.838] * (-3932.367) (-3927.766) (-3948.368) [-3924.934] -- 0:07:31
297000 -- (-3942.308) [-3931.983] (-3939.621) (-3940.079) * (-3939.137) (-3938.655) [-3921.702] (-3925.789) -- 0:07:32
298000 -- (-3930.806) (-3928.154) (-3939.524) [-3927.039] * (-3936.405) (-3919.709) (-3933.223) [-3926.713] -- 0:07:29
299000 -- [-3921.271] (-3934.805) (-3925.851) (-3930.143) * (-3930.522) (-3942.414) (-3932.764) [-3942.398] -- 0:07:30
300000 -- (-3939.918) [-3929.963] (-3935.951) (-3932.390) * [-3929.089] (-3932.950) (-3928.378) (-3934.066) -- 0:07:28
Average standard deviation of split frequencies: 0.011087
301000 -- [-3919.315] (-3924.078) (-3939.773) (-3932.161) * (-3944.349) (-3938.011) [-3929.919] (-3928.749) -- 0:07:28
302000 -- (-3937.044) (-3936.102) (-3940.877) [-3924.989] * (-3943.538) (-3934.239) [-3936.581] (-3939.695) -- 0:07:28
303000 -- (-3944.084) [-3931.219] (-3936.598) (-3933.586) * (-3931.993) [-3922.098] (-3942.004) (-3941.518) -- 0:07:26
304000 -- (-3934.689) (-3930.982) (-3935.353) [-3925.616] * (-3933.495) (-3924.576) [-3930.312] (-3945.361) -- 0:07:26
305000 -- (-3927.930) [-3929.969] (-3934.171) (-3921.848) * (-3935.382) (-3933.718) [-3927.478] (-3949.306) -- 0:07:26
Average standard deviation of split frequencies: 0.010179
306000 -- (-3938.103) (-3928.541) (-3944.553) [-3929.310] * (-3933.288) [-3920.738] (-3940.341) (-3930.717) -- 0:07:24
307000 -- (-3930.304) (-3930.561) (-3932.929) [-3922.175] * [-3927.445] (-3932.102) (-3934.645) (-3951.707) -- 0:07:24
308000 -- (-3930.771) (-3936.243) [-3932.075] (-3929.377) * (-3933.058) (-3923.596) [-3924.143] (-3933.964) -- 0:07:24
309000 -- (-3945.197) [-3929.638] (-3937.483) (-3929.278) * [-3929.555] (-3953.366) (-3933.095) (-3928.221) -- 0:07:22
310000 -- (-3932.091) [-3917.928] (-3944.399) (-3930.929) * [-3927.027] (-3964.623) (-3930.260) (-3949.221) -- 0:07:22
Average standard deviation of split frequencies: 0.010228
311000 -- (-3949.049) (-3932.943) [-3928.675] (-3933.787) * [-3924.982] (-3930.665) (-3933.844) (-3927.457) -- 0:07:23
312000 -- (-3939.140) (-3936.280) (-3936.705) [-3930.699] * (-3925.102) (-3951.223) [-3928.451] (-3946.889) -- 0:07:21
313000 -- (-3942.038) (-3929.644) [-3923.989] (-3946.932) * (-3936.344) [-3930.646] (-3951.770) (-3920.833) -- 0:07:21
314000 -- (-3929.044) (-3935.958) [-3929.193] (-3927.183) * [-3924.826] (-3931.981) (-3947.191) (-3931.789) -- 0:07:21
315000 -- (-3932.279) [-3933.251] (-3938.590) (-3924.556) * (-3930.822) (-3937.493) (-3938.531) [-3928.868] -- 0:07:19
Average standard deviation of split frequencies: 0.010385
316000 -- [-3928.723] (-3936.423) (-3931.483) (-3923.929) * (-3925.504) (-3944.109) [-3923.097] (-3933.378) -- 0:07:19
317000 -- [-3941.520] (-3945.331) (-3936.204) (-3925.729) * (-3929.722) (-3945.992) (-3927.928) [-3922.349] -- 0:07:17
318000 -- (-3944.561) [-3924.040] (-3933.495) (-3927.992) * (-3940.438) (-3938.090) (-3940.036) [-3925.573] -- 0:07:17
319000 -- (-3932.669) [-3938.952] (-3939.862) (-3942.507) * (-3931.673) (-3928.734) [-3937.987] (-3930.026) -- 0:07:17
320000 -- (-3945.801) (-3928.693) [-3932.191] (-3939.519) * [-3920.091] (-3937.871) (-3934.623) (-3942.672) -- 0:07:15
Average standard deviation of split frequencies: 0.011114
321000 -- (-3928.319) [-3930.139] (-3923.828) (-3946.448) * [-3928.641] (-3938.330) (-3941.399) (-3931.947) -- 0:07:15
322000 -- [-3927.825] (-3929.234) (-3921.605) (-3948.979) * (-3933.417) (-3933.115) (-3943.066) [-3929.739] -- 0:07:15
323000 -- [-3921.696] (-3936.429) (-3933.989) (-3930.615) * (-3933.157) (-3935.371) (-3937.501) [-3928.491] -- 0:07:13
324000 -- (-3925.150) (-3946.580) [-3936.427] (-3938.537) * (-3936.936) [-3923.757] (-3946.927) (-3930.465) -- 0:07:13
325000 -- (-3944.420) (-3942.951) (-3928.204) [-3938.250] * (-3926.898) (-3929.349) (-3930.686) [-3912.644] -- 0:07:14
Average standard deviation of split frequencies: 0.011086
326000 -- (-3930.621) (-3935.934) [-3927.245] (-3941.060) * [-3926.697] (-3949.199) (-3931.740) (-3928.272) -- 0:07:12
327000 -- (-3926.315) (-3956.087) [-3929.902] (-3932.228) * (-3926.617) (-3933.028) (-3931.715) [-3930.963] -- 0:07:12
328000 -- (-3935.312) (-3929.977) [-3919.901] (-3933.088) * (-3926.637) (-3929.310) (-3938.661) [-3934.966] -- 0:07:10
329000 -- [-3926.765] (-3930.845) (-3936.602) (-3922.208) * (-3932.258) (-3930.370) (-3937.150) [-3930.471] -- 0:07:10
330000 -- (-3930.572) [-3923.920] (-3933.424) (-3934.854) * (-3932.502) (-3934.550) [-3922.152] (-3938.143) -- 0:07:10
Average standard deviation of split frequencies: 0.012408
331000 -- (-3930.559) [-3921.576] (-3943.668) (-3931.949) * [-3936.875] (-3929.703) (-3940.745) (-3931.701) -- 0:07:08
332000 -- (-3935.961) (-3925.012) [-3932.490] (-3930.174) * (-3935.788) [-3924.270] (-3930.739) (-3932.960) -- 0:07:08
333000 -- (-3921.286) [-3928.254] (-3930.830) (-3940.677) * (-3929.811) [-3926.807] (-3928.877) (-3928.326) -- 0:07:08
334000 -- (-3947.111) (-3946.349) (-3936.213) [-3927.275] * (-3945.473) [-3933.692] (-3929.578) (-3930.528) -- 0:07:06
335000 -- (-3937.413) (-3937.767) [-3920.761] (-3942.021) * (-3930.934) (-3936.638) [-3928.904] (-3947.892) -- 0:07:06
Average standard deviation of split frequencies: 0.011016
336000 -- (-3927.234) [-3926.156] (-3925.964) (-3937.212) * (-3938.714) (-3933.026) (-3930.771) [-3936.874] -- 0:07:06
337000 -- (-3929.695) (-3923.190) (-3944.656) [-3925.700] * (-3936.417) (-3934.762) [-3930.571] (-3938.562) -- 0:07:04
338000 -- [-3926.047] (-3927.996) (-3940.497) (-3929.695) * (-3935.884) [-3929.772] (-3922.853) (-3934.348) -- 0:07:05
339000 -- (-3930.490) (-3928.757) [-3925.234] (-3941.089) * (-3948.974) (-3932.038) [-3932.546] (-3943.561) -- 0:07:03
340000 -- (-3933.207) [-3920.220] (-3943.653) (-3931.464) * (-3932.808) [-3929.294] (-3930.977) (-3933.199) -- 0:07:03
Average standard deviation of split frequencies: 0.010711
341000 -- (-3938.024) [-3919.797] (-3942.257) (-3927.262) * (-3932.330) (-3934.567) [-3927.556] (-3926.860) -- 0:07:03
342000 -- (-3937.299) (-3928.265) [-3936.655] (-3929.510) * (-3946.514) [-3923.851] (-3925.450) (-3940.589) -- 0:07:01
343000 -- (-3925.230) [-3925.849] (-3933.846) (-3932.978) * (-3937.121) (-3931.795) (-3928.465) [-3926.083] -- 0:07:01
344000 -- (-3926.967) (-3924.640) [-3927.630] (-3941.631) * (-3933.538) [-3920.776] (-3934.344) (-3932.463) -- 0:07:01
345000 -- [-3943.694] (-3936.136) (-3922.722) (-3944.876) * (-3947.366) (-3922.659) (-3936.360) [-3916.754] -- 0:06:59
Average standard deviation of split frequencies: 0.012074
346000 -- (-3941.774) [-3928.768] (-3931.307) (-3935.121) * (-3960.303) (-3924.145) (-3934.676) [-3917.844] -- 0:06:59
347000 -- (-3935.496) (-3924.020) [-3918.583] (-3933.927) * (-3932.647) [-3933.701] (-3934.697) (-3943.493) -- 0:06:59
348000 -- [-3924.490] (-3925.341) (-3932.382) (-3928.557) * (-3933.823) (-3934.492) [-3918.868] (-3956.575) -- 0:06:57
349000 -- [-3925.794] (-3923.494) (-3931.445) (-3949.494) * (-3931.983) (-3931.322) (-3929.731) [-3930.319] -- 0:06:57
350000 -- (-3936.205) [-3922.403] (-3925.108) (-3944.399) * (-3931.381) (-3919.417) (-3930.395) [-3923.118] -- 0:06:56
Average standard deviation of split frequencies: 0.011013
351000 -- (-3936.475) (-3934.327) [-3925.110] (-3943.479) * (-3942.583) [-3924.759] (-3930.660) (-3922.491) -- 0:06:56
352000 -- (-3929.414) (-3931.060) [-3925.744] (-3935.254) * (-3935.183) (-3933.458) [-3927.551] (-3937.084) -- 0:06:56
353000 -- [-3932.716] (-3926.050) (-3929.499) (-3939.551) * (-3931.691) (-3944.538) [-3934.115] (-3926.344) -- 0:06:54
354000 -- (-3925.580) (-3922.733) [-3927.658] (-3928.110) * (-3936.783) (-3936.177) (-3936.189) [-3926.817] -- 0:06:54
355000 -- [-3929.965] (-3916.971) (-3939.483) (-3926.943) * [-3933.779] (-3923.674) (-3935.750) (-3937.346) -- 0:06:54
Average standard deviation of split frequencies: 0.010390
356000 -- (-3933.121) [-3928.636] (-3927.718) (-3947.895) * (-3935.322) (-3942.872) [-3927.571] (-3942.695) -- 0:06:52
357000 -- (-3934.342) (-3932.866) (-3924.123) [-3930.139] * (-3940.844) (-3933.999) [-3929.330] (-3930.185) -- 0:06:52
358000 -- [-3929.615] (-3941.245) (-3930.737) (-3951.213) * (-3931.573) [-3933.158] (-3952.224) (-3927.306) -- 0:06:50
359000 -- [-3933.546] (-3943.814) (-3918.229) (-3941.492) * (-3933.336) (-3937.938) [-3929.151] (-3927.073) -- 0:06:50
360000 -- (-3922.555) (-3940.401) [-3922.879] (-3939.303) * (-3938.638) (-3932.948) (-3934.509) [-3925.000] -- 0:06:50
Average standard deviation of split frequencies: 0.010875
361000 -- (-3931.084) (-3937.070) [-3919.267] (-3927.954) * (-3933.567) (-3943.662) [-3923.724] (-3930.924) -- 0:06:48
362000 -- (-3941.410) (-3933.661) (-3929.501) [-3932.374] * (-3932.356) (-3922.601) (-3930.114) [-3926.152] -- 0:06:48
363000 -- (-3934.746) [-3924.299] (-3936.186) (-3929.378) * (-3939.745) (-3941.594) [-3928.086] (-3943.398) -- 0:06:48
364000 -- (-3930.878) [-3924.115] (-3941.903) (-3936.209) * (-3940.904) (-3947.254) [-3927.501] (-3929.284) -- 0:06:47
365000 -- (-3930.627) [-3935.605] (-3931.305) (-3936.598) * (-3933.632) (-3937.213) (-3930.008) [-3930.536] -- 0:06:47
Average standard deviation of split frequencies: 0.011344
366000 -- [-3932.230] (-3940.383) (-3933.202) (-3929.451) * (-3942.307) (-3941.248) (-3929.751) [-3931.970] -- 0:06:47
367000 -- [-3936.976] (-3940.006) (-3924.330) (-3949.008) * (-3928.246) [-3928.126] (-3928.375) (-3929.898) -- 0:06:45
368000 -- (-3935.999) (-3930.936) [-3917.217] (-3948.660) * (-3926.069) (-3923.046) [-3925.136] (-3940.109) -- 0:06:45
369000 -- (-3935.925) [-3925.162] (-3946.622) (-3939.781) * (-3942.459) [-3927.408] (-3923.202) (-3930.125) -- 0:06:43
370000 -- (-3941.870) (-3915.999) (-3938.643) [-3928.422] * (-3930.826) (-3934.006) [-3929.630] (-3926.419) -- 0:06:43
Average standard deviation of split frequencies: 0.010566
371000 -- (-3930.157) [-3921.313] (-3933.147) (-3942.797) * (-3926.072) [-3926.163] (-3952.017) (-3932.493) -- 0:06:43
372000 -- (-3940.135) [-3923.857] (-3933.096) (-3943.724) * [-3921.295] (-3939.863) (-3948.201) (-3931.746) -- 0:06:41
373000 -- (-3946.704) (-3933.009) (-3945.369) [-3938.020] * (-3926.617) (-3934.471) [-3926.663] (-3930.767) -- 0:06:41
374000 -- (-3936.046) (-3930.555) (-3940.455) [-3920.206] * (-3934.786) (-3937.757) [-3928.238] (-3929.172) -- 0:06:41
375000 -- [-3921.830] (-3938.182) (-3928.318) (-3928.762) * (-3936.143) (-3929.712) [-3923.984] (-3925.506) -- 0:06:40
Average standard deviation of split frequencies: 0.010082
376000 -- [-3918.961] (-3918.030) (-3932.607) (-3942.593) * (-3928.792) (-3933.303) (-3930.267) [-3923.563] -- 0:06:39
377000 -- (-3929.867) [-3928.974] (-3937.402) (-3932.337) * (-3933.289) (-3922.984) [-3937.774] (-3927.831) -- 0:06:39
378000 -- (-3948.047) [-3929.297] (-3930.700) (-3933.193) * (-3926.413) [-3915.537] (-3933.738) (-3943.243) -- 0:06:38
379000 -- (-3939.447) (-3935.670) [-3928.967] (-3924.544) * (-3935.696) [-3924.541] (-3942.542) (-3934.563) -- 0:06:38
380000 -- (-3929.584) [-3927.459] (-3924.639) (-3930.772) * (-3934.421) (-3924.078) [-3929.772] (-3957.487) -- 0:06:38
Average standard deviation of split frequencies: 0.010320
381000 -- (-3932.044) (-3935.160) (-3931.870) [-3929.523] * (-3950.397) [-3926.543] (-3951.335) (-3938.534) -- 0:06:36
382000 -- (-3933.375) [-3929.002] (-3930.806) (-3933.709) * (-3937.639) (-3926.370) (-3935.659) [-3928.970] -- 0:06:36
383000 -- [-3925.095] (-3932.929) (-3944.134) (-3928.744) * (-3928.766) (-3931.978) [-3921.228] (-3937.710) -- 0:06:36
384000 -- (-3928.345) (-3923.788) (-3932.902) [-3922.782] * (-3934.429) [-3939.831] (-3930.454) (-3939.741) -- 0:06:34
385000 -- (-3930.195) (-3930.118) (-3929.957) [-3924.498] * (-3938.241) (-3932.030) (-3934.082) [-3923.588] -- 0:06:34
Average standard deviation of split frequencies: 0.010005
386000 -- (-3934.024) [-3920.287] (-3930.221) (-3934.795) * [-3935.987] (-3934.692) (-3926.778) (-3930.406) -- 0:06:34
387000 -- (-3937.223) [-3929.480] (-3936.304) (-3933.035) * (-3938.054) (-3934.590) (-3937.495) [-3936.703] -- 0:06:32
388000 -- (-3939.575) [-3917.455] (-3919.784) (-3932.116) * [-3921.885] (-3938.020) (-3936.181) (-3940.866) -- 0:06:32
389000 -- (-3961.041) (-3926.683) [-3930.247] (-3936.579) * (-3935.621) [-3932.066] (-3942.329) (-3941.933) -- 0:06:31
390000 -- (-3951.181) [-3927.899] (-3942.565) (-3926.322) * (-3938.604) [-3927.812] (-3930.500) (-3936.093) -- 0:06:31
Average standard deviation of split frequencies: 0.009895
391000 -- (-3928.238) [-3941.044] (-3947.479) (-3928.154) * (-3935.768) (-3943.783) (-3924.586) [-3927.529] -- 0:06:30
392000 -- (-3924.897) (-3927.520) (-3937.166) [-3936.291] * [-3929.253] (-3937.017) (-3934.104) (-3960.679) -- 0:06:29
393000 -- [-3930.012] (-3949.394) (-3946.323) (-3936.881) * (-3935.370) [-3938.875] (-3935.609) (-3939.749) -- 0:06:29
394000 -- (-3926.219) (-3926.822) [-3923.802] (-3941.777) * [-3923.805] (-3952.199) (-3930.555) (-3936.447) -- 0:06:29
395000 -- (-3935.808) [-3930.143] (-3921.188) (-3931.609) * [-3936.855] (-3951.173) (-3937.451) (-3938.963) -- 0:06:27
Average standard deviation of split frequencies: 0.010485
396000 -- (-3928.229) (-3922.197) [-3923.637] (-3934.128) * (-3946.162) (-3926.871) (-3939.734) [-3937.346] -- 0:06:27
397000 -- [-3929.555] (-3926.894) (-3925.607) (-3917.931) * (-3931.641) (-3933.039) [-3920.586] (-3941.471) -- 0:06:27
398000 -- (-3941.105) [-3924.819] (-3934.480) (-3938.170) * (-3930.164) (-3945.485) (-3936.756) [-3927.801] -- 0:06:25
399000 -- [-3936.376] (-3934.394) (-3923.269) (-3939.876) * [-3914.591] (-3933.698) (-3949.313) (-3933.967) -- 0:06:25
400000 -- (-3940.154) (-3927.962) (-3927.918) [-3941.875] * (-3929.485) [-3926.771] (-3941.877) (-3932.936) -- 0:06:25
Average standard deviation of split frequencies: 0.010770
401000 -- (-3948.718) (-3933.495) [-3920.088] (-3924.187) * (-3933.191) (-3917.923) [-3930.268] (-3935.158) -- 0:06:23
402000 -- (-3937.462) (-3937.421) [-3926.073] (-3935.477) * (-3938.249) [-3920.814] (-3926.442) (-3929.868) -- 0:06:23
403000 -- (-3925.980) (-3927.762) [-3932.205] (-3928.821) * (-3943.264) (-3937.656) (-3945.413) [-3933.197] -- 0:06:23
404000 -- (-3936.115) (-3933.814) [-3927.501] (-3928.251) * (-3932.325) (-3937.708) [-3929.044] (-3938.413) -- 0:06:22
405000 -- (-3939.069) (-3929.457) [-3929.906] (-3925.418) * (-3928.519) (-3916.581) [-3925.701] (-3927.823) -- 0:06:21
Average standard deviation of split frequencies: 0.010579
406000 -- (-3936.382) (-3938.338) [-3924.758] (-3943.730) * (-3936.711) [-3932.993] (-3919.032) (-3930.819) -- 0:06:21
407000 -- (-3930.151) (-3936.279) [-3934.152] (-3928.356) * (-3933.661) (-3932.058) (-3939.428) [-3933.408] -- 0:06:20
408000 -- (-3925.967) (-3938.728) (-3944.940) [-3921.390] * (-3932.171) [-3937.857] (-3933.212) (-3948.315) -- 0:06:20
409000 -- [-3926.511] (-3938.214) (-3934.208) (-3926.506) * (-3942.547) (-3950.104) [-3933.518] (-3932.605) -- 0:06:18
410000 -- (-3938.849) [-3931.747] (-3931.252) (-3928.896) * [-3932.337] (-3930.931) (-3934.439) (-3934.669) -- 0:06:18
Average standard deviation of split frequencies: 0.010459
411000 -- (-3937.931) (-3933.083) (-3933.859) [-3925.670] * [-3932.444] (-3932.001) (-3927.862) (-3941.892) -- 0:06:18
412000 -- (-3939.917) [-3927.486] (-3934.229) (-3929.627) * (-3925.213) (-3934.341) [-3923.848] (-3935.797) -- 0:06:16
413000 -- [-3932.619] (-3944.565) (-3932.826) (-3931.395) * (-3926.454) (-3936.395) [-3925.005] (-3943.769) -- 0:06:16
414000 -- (-3932.471) (-3941.466) [-3925.877] (-3937.448) * (-3929.093) (-3942.132) [-3939.177] (-3930.094) -- 0:06:16
415000 -- (-3943.282) [-3928.548] (-3933.781) (-3935.911) * [-3922.305] (-3928.552) (-3943.274) (-3936.604) -- 0:06:14
Average standard deviation of split frequencies: 0.010380
416000 -- (-3936.169) [-3929.429] (-3932.480) (-3930.217) * (-3936.748) (-3934.119) [-3937.652] (-3954.381) -- 0:06:14
417000 -- (-3929.245) (-3924.733) [-3930.685] (-3932.927) * (-3931.034) (-3933.130) (-3953.707) [-3932.247] -- 0:06:14
418000 -- [-3923.167] (-3933.118) (-3933.377) (-3944.220) * (-3925.188) [-3939.232] (-3938.437) (-3930.228) -- 0:06:13
419000 -- [-3923.875] (-3942.490) (-3947.906) (-3954.354) * (-3942.387) (-3938.515) (-3927.669) [-3933.946] -- 0:06:13
420000 -- (-3941.652) (-3921.873) [-3924.265] (-3945.495) * [-3933.316] (-3938.160) (-3932.095) (-3919.896) -- 0:06:12
Average standard deviation of split frequencies: 0.009572
421000 -- (-3932.972) (-3927.779) [-3939.537] (-3931.137) * [-3928.177] (-3938.453) (-3937.086) (-3925.805) -- 0:06:11
422000 -- [-3920.733] (-3923.438) (-3930.364) (-3928.094) * (-3921.448) (-3924.796) [-3933.076] (-3939.383) -- 0:06:11
423000 -- (-3952.116) (-3939.461) [-3929.045] (-3931.152) * [-3932.092] (-3933.280) (-3924.493) (-3931.186) -- 0:06:11
424000 -- [-3926.512] (-3929.488) (-3943.546) (-3918.972) * (-3935.942) (-3951.061) [-3926.181] (-3934.958) -- 0:06:09
425000 -- (-3935.975) (-3939.081) (-3939.876) [-3930.743] * (-3927.669) (-3938.069) (-3933.869) [-3931.584] -- 0:06:09
Average standard deviation of split frequencies: 0.010427
426000 -- (-3938.519) [-3931.424] (-3934.944) (-3929.703) * (-3925.805) [-3937.844] (-3929.163) (-3934.207) -- 0:06:09
427000 -- (-3933.622) [-3917.013] (-3929.712) (-3920.221) * (-3931.409) (-3925.220) (-3937.213) [-3937.867] -- 0:06:07
428000 -- (-3937.306) (-3928.635) (-3932.368) [-3923.561] * (-3954.774) (-3935.392) [-3940.970] (-3927.072) -- 0:06:07
429000 -- [-3943.772] (-3933.002) (-3937.419) (-3934.795) * (-3932.518) (-3941.323) (-3950.174) [-3931.762] -- 0:06:07
430000 -- (-3923.773) [-3928.459] (-3933.231) (-3929.544) * (-3945.090) [-3928.250] (-3950.304) (-3933.550) -- 0:06:05
Average standard deviation of split frequencies: 0.010693
431000 -- (-3940.162) (-3940.453) (-3933.939) [-3925.443] * (-3938.332) (-3929.324) (-3929.957) [-3925.363] -- 0:06:05
432000 -- (-3938.090) (-3935.356) [-3931.567] (-3920.010) * (-3933.982) [-3920.412] (-3937.669) (-3933.284) -- 0:06:04
433000 -- [-3926.388] (-3955.983) (-3940.283) (-3923.657) * (-3937.485) (-3932.030) [-3928.022] (-3933.935) -- 0:06:04
434000 -- (-3921.659) (-3964.764) (-3918.998) [-3921.956] * [-3928.200] (-3940.123) (-3928.946) (-3930.513) -- 0:06:03
435000 -- (-3926.902) (-3927.573) [-3922.058] (-3923.820) * (-3940.679) (-3935.510) [-3929.451] (-3930.668) -- 0:06:02
Average standard deviation of split frequencies: 0.010423
436000 -- (-3941.101) (-3937.668) [-3933.982] (-3934.404) * (-3929.695) (-3933.545) [-3923.668] (-3936.891) -- 0:06:02
437000 -- (-3930.563) (-3937.151) (-3933.270) [-3933.335] * (-3923.280) (-3949.345) [-3924.801] (-3937.952) -- 0:06:02
438000 -- [-3937.215] (-3948.581) (-3938.765) (-3940.339) * (-3938.475) (-3934.432) [-3924.399] (-3924.714) -- 0:06:00
439000 -- (-3938.768) (-3936.042) (-3936.614) [-3922.789] * (-3944.187) [-3920.097] (-3924.551) (-3939.386) -- 0:06:00
440000 -- (-3936.631) (-3925.696) (-3944.604) [-3926.849] * (-3932.586) (-3926.166) (-3925.362) [-3929.712] -- 0:06:00
Average standard deviation of split frequencies: 0.010526
441000 -- (-3946.066) [-3927.927] (-3929.455) (-3920.758) * [-3929.553] (-3928.981) (-3927.518) (-3921.419) -- 0:05:58
442000 -- (-3922.049) (-3934.135) [-3917.673] (-3939.404) * (-3935.714) [-3924.955] (-3926.858) (-3931.305) -- 0:05:58
443000 -- (-3927.904) [-3926.469] (-3938.454) (-3943.036) * (-3936.494) (-3925.762) (-3944.273) [-3925.622] -- 0:05:58
444000 -- (-3935.633) (-3933.282) [-3936.804] (-3956.748) * (-3936.339) (-3948.226) (-3929.237) [-3922.360] -- 0:05:56
445000 -- [-3924.200] (-3932.108) (-3929.941) (-3940.061) * (-3947.912) (-3942.151) (-3929.864) [-3926.501] -- 0:05:56
Average standard deviation of split frequencies: 0.010570
446000 -- [-3933.809] (-3938.206) (-3941.559) (-3937.500) * (-3937.493) [-3919.899] (-3938.200) (-3923.395) -- 0:05:56
447000 -- (-3932.107) (-3918.162) [-3932.851] (-3928.522) * (-3939.226) [-3923.967] (-3933.958) (-3926.622) -- 0:05:55
448000 -- (-3937.992) (-3929.780) (-3937.783) [-3929.384] * (-3934.231) [-3924.046] (-3923.108) (-3941.129) -- 0:05:54
449000 -- [-3933.087] (-3928.419) (-3936.639) (-3937.084) * (-3945.374) (-3934.529) (-3936.370) [-3917.711] -- 0:05:53
450000 -- (-3933.747) [-3932.674] (-3945.622) (-3926.097) * (-3945.059) [-3921.925] (-3924.374) (-3932.189) -- 0:05:53
Average standard deviation of split frequencies: 0.010125
451000 -- (-3948.280) (-3928.891) (-3936.572) [-3923.655] * (-3936.885) [-3917.316] (-3932.655) (-3925.570) -- 0:05:53
452000 -- (-3940.898) (-3936.900) [-3932.601] (-3926.065) * (-3929.704) (-3938.731) (-3925.212) [-3927.267] -- 0:05:51
453000 -- [-3933.054] (-3923.997) (-3933.914) (-3941.517) * (-3935.808) (-3939.523) [-3933.258] (-3926.497) -- 0:05:51
454000 -- [-3935.291] (-3937.998) (-3936.741) (-3932.962) * [-3926.193] (-3927.175) (-3922.331) (-3932.209) -- 0:05:51
455000 -- (-3929.773) [-3928.611] (-3937.472) (-3943.413) * (-3938.594) [-3933.149] (-3948.146) (-3938.740) -- 0:05:49
Average standard deviation of split frequencies: 0.010656
456000 -- (-3931.174) (-3944.848) [-3924.688] (-3934.172) * (-3937.894) (-3921.835) (-3934.367) [-3940.868] -- 0:05:49
457000 -- (-3930.127) (-3927.018) (-3926.207) [-3927.037] * (-3938.989) (-3928.839) [-3927.314] (-3924.226) -- 0:05:49
458000 -- (-3933.710) (-3943.089) (-3937.849) [-3922.333] * (-3920.317) (-3935.107) [-3927.622] (-3924.069) -- 0:05:47
459000 -- (-3942.941) (-3939.249) [-3928.623] (-3926.165) * [-3932.001] (-3929.846) (-3939.845) (-3941.907) -- 0:05:47
460000 -- (-3928.507) (-3935.817) [-3926.719] (-3940.298) * [-3935.554] (-3941.002) (-3938.999) (-3924.491) -- 0:05:46
Average standard deviation of split frequencies: 0.010601
461000 -- (-3925.709) [-3927.719] (-3931.559) (-3932.024) * (-3943.207) (-3941.000) (-3922.309) [-3924.242] -- 0:05:46
462000 -- [-3923.421] (-3942.020) (-3933.949) (-3925.654) * [-3931.947] (-3935.133) (-3939.052) (-3926.065) -- 0:05:45
463000 -- [-3915.791] (-3932.480) (-3938.573) (-3932.635) * (-3934.878) (-3935.632) [-3919.190] (-3934.810) -- 0:05:44
464000 -- (-3926.023) [-3917.749] (-3928.981) (-3937.812) * (-3933.152) (-3931.495) [-3926.834] (-3944.400) -- 0:05:44
465000 -- (-3925.664) (-3942.205) (-3927.084) [-3921.722] * (-3934.806) [-3923.207] (-3921.192) (-3943.370) -- 0:05:44
Average standard deviation of split frequencies: 0.010544
466000 -- (-3936.315) (-3936.417) [-3937.475] (-3929.759) * (-3935.933) (-3935.889) (-3926.116) [-3928.789] -- 0:05:42
467000 -- (-3931.831) (-3927.881) (-3924.828) [-3921.530] * (-3929.048) [-3934.108] (-3936.000) (-3935.302) -- 0:05:42
468000 -- (-3923.282) (-3934.975) (-3938.234) [-3918.192] * [-3930.067] (-3922.538) (-3931.887) (-3929.265) -- 0:05:42
469000 -- [-3919.613] (-3922.595) (-3935.199) (-3925.333) * (-3930.854) (-3925.338) (-3938.243) [-3933.796] -- 0:05:40
470000 -- [-3926.885] (-3938.309) (-3937.798) (-3936.644) * (-3924.100) [-3931.663] (-3938.747) (-3926.790) -- 0:05:40
Average standard deviation of split frequencies: 0.010312
471000 -- (-3931.926) (-3928.479) (-3934.031) [-3922.135] * (-3933.699) [-3930.082] (-3937.433) (-3933.262) -- 0:05:39
472000 -- [-3939.987] (-3931.458) (-3951.214) (-3937.605) * [-3926.209] (-3921.211) (-3931.377) (-3940.596) -- 0:05:38
473000 -- (-3930.594) (-3938.601) (-3932.843) [-3925.378] * (-3927.813) (-3930.821) (-3927.814) [-3929.429] -- 0:05:38
474000 -- [-3925.231] (-3936.074) (-3925.630) (-3926.943) * (-3930.186) (-3937.953) [-3923.416] (-3943.473) -- 0:05:37
475000 -- (-3930.847) (-3936.383) (-3946.298) [-3923.596] * (-3930.324) (-3926.159) [-3930.618] (-3930.115) -- 0:05:37
Average standard deviation of split frequencies: 0.010454
476000 -- (-3927.837) [-3926.476] (-3930.240) (-3936.010) * (-3921.046) (-3936.690) (-3942.509) [-3922.795] -- 0:05:36
477000 -- [-3928.906] (-3922.931) (-3934.151) (-3931.839) * (-3934.704) [-3921.746] (-3932.169) (-3936.735) -- 0:05:35
478000 -- (-3942.218) (-3935.273) [-3929.334] (-3945.682) * (-3932.106) (-3938.019) [-3925.262] (-3931.675) -- 0:05:35
479000 -- (-3942.335) [-3929.346] (-3924.560) (-3948.612) * (-3941.383) [-3919.604] (-3938.182) (-3926.007) -- 0:05:33
480000 -- (-3938.442) (-3928.704) [-3930.186] (-3939.646) * (-3933.295) (-3934.019) (-3936.204) [-3928.469] -- 0:05:33
Average standard deviation of split frequencies: 0.010449
481000 -- [-3921.976] (-3932.793) (-3938.213) (-3929.001) * (-3947.708) [-3927.897] (-3945.748) (-3938.682) -- 0:05:33
482000 -- (-3928.984) (-3937.463) [-3928.833] (-3932.001) * (-3928.157) [-3926.021] (-3955.216) (-3929.039) -- 0:05:32
483000 -- (-3939.583) (-3930.469) (-3942.301) [-3923.791] * (-3937.250) [-3927.404] (-3931.012) (-3930.097) -- 0:05:31
484000 -- [-3928.491] (-3938.539) (-3934.051) (-3929.442) * (-3938.816) (-3925.706) [-3923.422] (-3926.017) -- 0:05:31
485000 -- [-3919.489] (-3932.161) (-3932.153) (-3934.678) * [-3934.137] (-3925.249) (-3931.207) (-3940.444) -- 0:05:30
Average standard deviation of split frequencies: 0.010346
486000 -- (-3954.162) [-3927.196] (-3931.286) (-3933.375) * (-3933.873) [-3937.924] (-3922.318) (-3939.839) -- 0:05:29
487000 -- [-3925.551] (-3926.248) (-3935.442) (-3928.639) * [-3931.143] (-3940.475) (-3936.885) (-3933.182) -- 0:05:29
488000 -- [-3925.090] (-3915.817) (-3930.370) (-3945.616) * [-3930.044] (-3939.905) (-3931.212) (-3928.244) -- 0:05:28
489000 -- (-3937.000) (-3929.638) (-3936.270) [-3927.623] * (-3930.194) (-3935.070) (-3934.372) [-3932.093] -- 0:05:28
490000 -- (-3937.561) (-3926.373) (-3936.437) [-3920.271] * [-3917.924] (-3935.518) (-3934.309) (-3927.736) -- 0:05:26
Average standard deviation of split frequencies: 0.010753
491000 -- (-3947.197) [-3927.993] (-3926.228) (-3925.610) * (-3928.565) [-3921.098] (-3931.096) (-3931.686) -- 0:05:26
492000 -- (-3934.410) (-3929.190) (-3948.619) [-3927.065] * (-3946.288) (-3935.382) [-3925.916] (-3940.123) -- 0:05:26
493000 -- [-3929.102] (-3937.295) (-3932.556) (-3929.951) * (-3928.882) (-3934.648) [-3926.369] (-3937.396) -- 0:05:24
494000 -- [-3933.532] (-3931.921) (-3941.481) (-3932.003) * (-3920.953) (-3941.068) [-3924.128] (-3935.435) -- 0:05:24
495000 -- (-3935.701) (-3920.853) [-3933.560] (-3922.388) * (-3933.433) (-3938.575) [-3923.052] (-3926.758) -- 0:05:24
Average standard deviation of split frequencies: 0.010637
496000 -- (-3937.493) (-3935.135) (-3928.015) [-3924.972] * (-3934.294) (-3935.349) [-3929.372] (-3952.084) -- 0:05:23
497000 -- (-3936.814) [-3920.323] (-3937.459) (-3936.544) * [-3938.504] (-3929.893) (-3937.076) (-3931.507) -- 0:05:22
498000 -- [-3936.472] (-3923.655) (-3927.290) (-3924.206) * (-3932.337) [-3924.269] (-3935.630) (-3927.237) -- 0:05:22
499000 -- [-3924.018] (-3929.621) (-3944.675) (-3926.365) * [-3920.311] (-3933.761) (-3939.427) (-3929.639) -- 0:05:21
500000 -- (-3945.430) [-3931.061] (-3926.752) (-3933.130) * [-3924.698] (-3939.512) (-3947.591) (-3934.648) -- 0:05:21
Average standard deviation of split frequencies: 0.010466
501000 -- (-3921.921) (-3927.282) [-3928.013] (-3935.070) * [-3923.207] (-3932.898) (-3943.872) (-3932.905) -- 0:05:20
502000 -- (-3939.555) (-3931.025) [-3930.835] (-3936.917) * [-3925.920] (-3928.487) (-3928.420) (-3924.262) -- 0:05:19
503000 -- (-3942.393) [-3924.415] (-3931.600) (-3943.155) * (-3943.425) (-3931.694) [-3921.514] (-3933.468) -- 0:05:19
504000 -- (-3932.430) [-3924.551] (-3930.730) (-3946.528) * (-3936.008) (-3925.782) (-3937.656) [-3927.438] -- 0:05:18
505000 -- (-3935.990) (-3933.974) [-3935.855] (-3929.980) * (-3933.629) (-3935.525) [-3924.524] (-3929.061) -- 0:05:17
Average standard deviation of split frequencies: 0.010747
506000 -- (-3945.446) (-3930.799) (-3947.110) [-3926.748] * [-3921.852] (-3927.960) (-3928.129) (-3939.985) -- 0:05:17
507000 -- (-3954.801) (-3935.846) [-3925.558] (-3934.515) * [-3922.923] (-3932.994) (-3941.535) (-3941.635) -- 0:05:16
508000 -- (-3934.456) (-3945.237) [-3930.895] (-3942.792) * (-3922.890) [-3931.439] (-3941.066) (-3958.527) -- 0:05:15
509000 -- (-3927.954) (-3937.776) [-3924.584] (-3937.197) * (-3932.740) (-3935.193) (-3933.488) [-3935.028] -- 0:05:15
510000 -- [-3941.288] (-3928.844) (-3927.898) (-3940.279) * (-3934.517) [-3932.414] (-3927.325) (-3926.919) -- 0:05:14
Average standard deviation of split frequencies: 0.010701
511000 -- (-3930.752) [-3930.210] (-3923.713) (-3952.904) * (-3930.509) [-3925.520] (-3937.329) (-3932.994) -- 0:05:13
512000 -- (-3928.241) (-3935.993) [-3920.928] (-3932.021) * [-3928.840] (-3924.337) (-3936.450) (-3942.164) -- 0:05:13
513000 -- [-3926.305] (-3937.473) (-3932.088) (-3929.961) * [-3924.750] (-3921.314) (-3923.913) (-3946.977) -- 0:05:12
514000 -- [-3926.203] (-3942.189) (-3935.904) (-3927.423) * [-3922.652] (-3937.673) (-3943.085) (-3941.394) -- 0:05:12
515000 -- (-3935.104) (-3946.637) (-3948.377) [-3925.567] * (-3941.983) [-3920.110] (-3930.164) (-3934.564) -- 0:05:11
Average standard deviation of split frequencies: 0.011132
516000 -- (-3926.217) (-3945.091) [-3931.306] (-3928.409) * [-3927.801] (-3929.344) (-3921.864) (-3931.310) -- 0:05:10
517000 -- (-3949.398) (-3940.745) (-3925.225) [-3925.560] * [-3936.569] (-3929.319) (-3929.104) (-3943.160) -- 0:05:10
518000 -- [-3931.548] (-3944.638) (-3926.049) (-3949.940) * [-3926.947] (-3937.665) (-3925.856) (-3937.080) -- 0:05:09
519000 -- (-3919.436) [-3930.453] (-3930.396) (-3928.225) * (-3932.036) [-3933.952] (-3930.009) (-3925.849) -- 0:05:08
520000 -- (-3928.948) [-3928.881] (-3920.388) (-3932.891) * (-3925.761) (-3939.256) [-3931.526] (-3927.444) -- 0:05:08
Average standard deviation of split frequencies: 0.010973
521000 -- (-3926.698) [-3929.153] (-3937.491) (-3929.603) * (-3928.249) (-3933.798) (-3939.195) [-3937.087] -- 0:05:07
522000 -- [-3928.293] (-3941.173) (-3947.617) (-3928.853) * (-3940.211) (-3932.247) (-3923.880) [-3930.343] -- 0:05:06
523000 -- (-3925.820) (-3952.847) (-3941.496) [-3932.602] * (-3933.171) [-3932.386] (-3942.847) (-3943.695) -- 0:05:06
524000 -- (-3934.700) (-3937.478) [-3932.309] (-3930.456) * [-3924.404] (-3936.336) (-3937.348) (-3932.150) -- 0:05:05
525000 -- (-3928.385) (-3930.397) (-3928.624) [-3923.757] * (-3923.446) (-3937.200) [-3921.303] (-3938.555) -- 0:05:04
Average standard deviation of split frequencies: 0.010655
526000 -- (-3939.266) (-3936.109) [-3927.789] (-3926.574) * [-3921.543] (-3932.061) (-3932.285) (-3945.431) -- 0:05:04
527000 -- [-3927.706] (-3935.136) (-3940.966) (-3937.583) * (-3928.942) (-3936.899) [-3921.477] (-3936.798) -- 0:05:03
528000 -- [-3925.935] (-3936.729) (-3928.951) (-3930.384) * [-3936.180] (-3930.316) (-3922.853) (-3947.566) -- 0:05:03
529000 -- (-3939.509) (-3936.203) [-3936.228] (-3931.750) * [-3930.485] (-3932.687) (-3922.719) (-3940.247) -- 0:05:02
530000 -- (-3926.661) (-3935.253) [-3921.959] (-3936.059) * (-3953.536) (-3941.942) [-3929.561] (-3946.242) -- 0:05:01
Average standard deviation of split frequencies: 0.010340
531000 -- [-3924.499] (-3936.104) (-3936.588) (-3937.880) * [-3925.669] (-3930.255) (-3934.529) (-3932.215) -- 0:05:01
532000 -- (-3924.697) (-3937.493) [-3924.699] (-3956.041) * (-3931.930) [-3934.098] (-3941.167) (-3924.557) -- 0:05:00
533000 -- [-3932.078] (-3934.466) (-3931.018) (-3940.173) * (-3936.791) (-3930.542) [-3921.639] (-3935.636) -- 0:04:59
534000 -- [-3919.401] (-3943.409) (-3933.372) (-3929.200) * (-3939.633) (-3925.434) [-3921.524] (-3924.818) -- 0:04:59
535000 -- (-3912.818) (-3931.336) [-3929.183] (-3936.298) * (-3928.973) (-3929.607) (-3933.705) [-3926.711] -- 0:04:58
Average standard deviation of split frequencies: 0.010272
536000 -- (-3930.870) [-3933.957] (-3934.083) (-3933.749) * (-3925.412) [-3923.223] (-3933.955) (-3923.128) -- 0:04:57
537000 -- (-3937.381) (-3932.173) [-3930.250] (-3927.192) * [-3923.106] (-3940.408) (-3934.642) (-3940.428) -- 0:04:57
538000 -- [-3921.832] (-3934.499) (-3938.373) (-3918.958) * (-3931.368) [-3923.208] (-3940.866) (-3934.908) -- 0:04:56
539000 -- [-3924.160] (-3926.469) (-3944.577) (-3933.636) * (-3929.419) (-3930.133) [-3915.272] (-3932.333) -- 0:04:55
540000 -- [-3924.265] (-3955.442) (-3927.432) (-3942.270) * [-3920.391] (-3927.507) (-3947.758) (-3934.603) -- 0:04:55
Average standard deviation of split frequencies: 0.010786
541000 -- [-3925.901] (-3945.767) (-3935.510) (-3935.064) * (-3934.078) (-3947.487) (-3938.578) [-3929.990] -- 0:04:54
542000 -- (-3922.660) [-3924.855] (-3940.897) (-3937.418) * (-3929.917) [-3935.544] (-3928.087) (-3930.228) -- 0:04:54
543000 -- (-3932.144) [-3928.748] (-3939.784) (-3935.767) * (-3916.226) (-3926.708) (-3933.003) [-3940.138] -- 0:04:53
544000 -- (-3936.385) (-3934.679) (-3932.816) [-3934.081] * [-3933.638] (-3930.184) (-3937.703) (-3931.947) -- 0:04:52
545000 -- (-3928.171) (-3929.658) [-3931.590] (-3942.021) * [-3927.544] (-3926.640) (-3936.539) (-3936.684) -- 0:04:52
Average standard deviation of split frequencies: 0.010488
546000 -- (-3932.082) (-3923.440) [-3946.005] (-3939.267) * (-3929.292) (-3932.646) (-3935.686) [-3921.910] -- 0:04:51
547000 -- [-3928.288] (-3927.813) (-3929.525) (-3949.594) * (-3922.483) (-3950.365) (-3932.458) [-3933.571] -- 0:04:50
548000 -- (-3930.843) (-3925.819) [-3922.403] (-3943.917) * (-3925.698) (-3925.139) (-3936.595) [-3917.307] -- 0:04:50
549000 -- [-3920.741] (-3934.200) (-3946.006) (-3933.576) * (-3943.455) (-3933.088) (-3939.370) [-3927.494] -- 0:04:49
550000 -- [-3923.437] (-3936.789) (-3944.585) (-3943.267) * (-3938.014) (-3938.409) [-3928.648] (-3929.829) -- 0:04:48
Average standard deviation of split frequencies: 0.010701
551000 -- (-3922.603) (-3940.535) [-3925.912] (-3936.798) * (-3934.203) (-3934.035) [-3928.514] (-3920.874) -- 0:04:48
552000 -- [-3939.106] (-3938.376) (-3933.820) (-3935.614) * (-3945.328) [-3926.767] (-3940.579) (-3924.046) -- 0:04:47
553000 -- (-3924.155) (-3930.650) (-3935.517) [-3933.562] * (-3938.395) (-3943.919) (-3952.793) [-3926.937] -- 0:04:46
554000 -- (-3934.672) [-3926.675] (-3934.068) (-3933.741) * (-3928.045) [-3930.792] (-3946.438) (-3924.362) -- 0:04:46
555000 -- (-3936.865) [-3928.492] (-3938.483) (-3935.886) * (-3925.310) (-3930.012) (-3934.672) [-3921.984] -- 0:04:45
Average standard deviation of split frequencies: 0.010276
556000 -- (-3934.212) (-3928.431) [-3932.635] (-3938.011) * [-3929.912] (-3933.136) (-3932.193) (-3940.479) -- 0:04:45
557000 -- [-3924.171] (-3932.129) (-3926.529) (-3937.420) * (-3927.144) [-3934.563] (-3948.756) (-3938.252) -- 0:04:44
558000 -- (-3943.304) (-3939.365) [-3917.548] (-3923.472) * (-3929.453) [-3917.354] (-3932.967) (-3924.665) -- 0:04:43
559000 -- (-3924.695) (-3935.847) [-3923.331] (-3940.595) * (-3936.819) [-3939.746] (-3925.624) (-3924.474) -- 0:04:43
560000 -- [-3920.169] (-3940.525) (-3945.710) (-3936.771) * [-3931.987] (-3938.031) (-3950.790) (-3927.406) -- 0:04:42
Average standard deviation of split frequencies: 0.010054
561000 -- (-3940.566) (-3928.209) (-3942.857) [-3944.291] * (-3932.261) [-3934.516] (-3940.085) (-3929.593) -- 0:04:41
562000 -- (-3939.234) [-3919.537] (-3949.306) (-3938.605) * [-3938.607] (-3927.703) (-3936.013) (-3930.136) -- 0:04:41
563000 -- [-3924.955] (-3934.793) (-3932.444) (-3943.962) * (-3929.191) (-3931.942) [-3940.310] (-3931.191) -- 0:04:40
564000 -- (-3929.467) (-3938.179) [-3925.776] (-3949.054) * [-3931.983] (-3933.110) (-3945.783) (-3936.574) -- 0:04:39
565000 -- [-3921.372] (-3943.095) (-3928.186) (-3926.213) * (-3924.002) (-3939.412) [-3930.053] (-3940.504) -- 0:04:39
Average standard deviation of split frequencies: 0.009965
566000 -- (-3942.525) (-3932.617) [-3919.387] (-3941.124) * (-3935.145) (-3944.969) [-3931.512] (-3940.024) -- 0:04:38
567000 -- (-3930.135) (-3939.185) [-3919.086] (-3940.682) * (-3926.076) [-3927.410] (-3926.379) (-3926.886) -- 0:04:37
568000 -- (-3943.390) (-3938.275) [-3935.863] (-3927.151) * [-3942.719] (-3955.653) (-3928.330) (-3935.714) -- 0:04:37
569000 -- (-3918.824) (-3932.232) [-3919.480] (-3925.147) * [-3926.405] (-3951.266) (-3943.950) (-3925.532) -- 0:04:36
570000 -- (-3938.542) (-3937.734) (-3926.741) [-3924.824] * [-3927.340] (-3934.907) (-3944.214) (-3940.765) -- 0:04:36
Average standard deviation of split frequencies: 0.010157
571000 -- (-3929.074) (-3932.860) [-3926.565] (-3930.795) * (-3937.990) [-3926.187] (-3926.653) (-3930.328) -- 0:04:35
572000 -- (-3923.373) (-3946.940) [-3926.144] (-3929.548) * (-3920.667) (-3922.134) (-3943.621) [-3919.195] -- 0:04:34
573000 -- [-3929.627] (-3942.158) (-3931.525) (-3928.571) * (-3930.245) (-3937.260) (-3933.605) [-3931.925] -- 0:04:34
574000 -- (-3953.251) (-3947.488) [-3933.762] (-3929.319) * (-3926.563) [-3930.963] (-3942.598) (-3938.738) -- 0:04:33
575000 -- [-3921.567] (-3938.874) (-3929.648) (-3923.787) * (-3942.342) [-3934.345] (-3939.692) (-3936.299) -- 0:04:32
Average standard deviation of split frequencies: 0.009851
576000 -- (-3945.419) [-3926.014] (-3938.447) (-3935.967) * [-3929.220] (-3938.891) (-3947.992) (-3927.932) -- 0:04:32
577000 -- (-3936.098) [-3923.703] (-3946.247) (-3935.898) * (-3933.021) (-3938.924) (-3942.362) [-3924.814] -- 0:04:31
578000 -- (-3931.743) [-3919.562] (-3940.687) (-3942.221) * (-3947.865) [-3923.724] (-3932.268) (-3929.372) -- 0:04:30
579000 -- (-3938.086) (-3932.404) (-3944.803) [-3930.095] * (-3955.416) [-3929.626] (-3941.049) (-3939.208) -- 0:04:30
580000 -- (-3942.766) (-3941.914) [-3915.918] (-3944.138) * (-3924.643) [-3922.587] (-3928.528) (-3940.777) -- 0:04:29
Average standard deviation of split frequencies: 0.009515
581000 -- (-3932.623) [-3921.991] (-3920.031) (-3931.351) * (-3953.143) [-3924.532] (-3938.855) (-3933.982) -- 0:04:28
582000 -- (-3932.323) (-3938.475) [-3923.344] (-3939.177) * [-3934.012] (-3934.540) (-3941.053) (-3931.207) -- 0:04:28
583000 -- (-3931.869) (-3939.246) [-3923.572] (-3939.996) * (-3933.870) (-3938.725) (-3948.318) [-3933.321] -- 0:04:27
584000 -- (-3934.607) (-3949.907) (-3932.767) [-3934.140] * (-3937.769) (-3938.573) [-3929.227] (-3932.714) -- 0:04:27
585000 -- (-3938.631) [-3924.725] (-3933.858) (-3932.919) * (-3933.905) (-3934.990) (-3952.401) [-3924.003] -- 0:04:26
Average standard deviation of split frequencies: 0.009127
586000 -- (-3926.064) (-3932.428) (-3930.312) [-3921.139] * (-3932.282) (-3936.821) (-3930.031) [-3930.498] -- 0:04:25
587000 -- (-3950.030) (-3939.817) (-3942.018) [-3924.345] * (-3944.008) (-3927.138) [-3924.984] (-3937.115) -- 0:04:25
588000 -- (-3923.775) (-3941.362) [-3925.144] (-3938.448) * (-3927.021) (-3929.581) [-3925.263] (-3921.652) -- 0:04:24
589000 -- (-3932.061) (-3932.986) [-3931.589] (-3942.274) * (-3939.929) (-3938.962) [-3926.227] (-3926.804) -- 0:04:23
590000 -- (-3935.317) (-3934.090) (-3925.179) [-3926.321] * (-3929.748) (-3925.404) [-3923.967] (-3934.247) -- 0:04:23
Average standard deviation of split frequencies: 0.009695
591000 -- (-3930.885) (-3932.070) [-3929.134] (-3933.616) * (-3934.862) (-3930.634) [-3924.368] (-3927.878) -- 0:04:22
592000 -- (-3931.166) (-3929.760) (-3928.778) [-3921.269] * [-3937.371] (-3932.735) (-3931.098) (-3921.940) -- 0:04:21
593000 -- (-3937.521) [-3928.407] (-3924.195) (-3932.659) * (-3938.386) [-3929.858] (-3925.463) (-3940.442) -- 0:04:21
594000 -- (-3928.066) (-3942.839) [-3927.966] (-3932.420) * (-3935.650) (-3928.527) [-3927.822] (-3935.730) -- 0:04:20
595000 -- (-3932.794) (-3941.588) [-3921.079] (-3921.017) * [-3931.819] (-3933.668) (-3925.246) (-3930.970) -- 0:04:20
Average standard deviation of split frequencies: 0.009667
596000 -- [-3932.354] (-3934.567) (-3939.578) (-3935.666) * (-3930.094) (-3925.346) (-3930.448) [-3927.711] -- 0:04:18
597000 -- (-3939.850) [-3925.311] (-3938.587) (-3925.932) * (-3935.648) [-3918.397] (-3932.850) (-3936.349) -- 0:04:18
598000 -- (-3941.268) [-3931.195] (-3927.852) (-3928.437) * (-3932.106) [-3939.554] (-3931.830) (-3940.642) -- 0:04:18
599000 -- (-3941.010) (-3928.825) (-3929.038) [-3921.020] * (-3935.580) [-3927.591] (-3934.476) (-3927.983) -- 0:04:17
600000 -- (-3918.385) [-3921.045] (-3926.898) (-3936.671) * (-3925.910) (-3936.557) (-3934.009) [-3932.621] -- 0:04:16
Average standard deviation of split frequencies: 0.009349
601000 -- (-3935.468) (-3926.299) (-3934.858) [-3928.162] * (-3927.576) (-3936.766) (-3931.785) [-3924.615] -- 0:04:16
602000 -- (-3922.309) (-3932.467) (-3931.540) [-3926.978] * (-3931.754) (-3937.499) (-3942.417) [-3928.665] -- 0:04:15
603000 -- (-3936.551) (-3934.235) (-3926.250) [-3934.711] * (-3926.645) (-3931.200) [-3932.666] (-3931.228) -- 0:04:14
604000 -- [-3930.761] (-3929.728) (-3933.663) (-3943.389) * (-3923.995) [-3927.247] (-3929.800) (-3951.040) -- 0:04:14
605000 -- (-3930.372) [-3919.738] (-3939.495) (-3937.647) * (-3926.884) (-3922.513) [-3930.084] (-3933.301) -- 0:04:13
Average standard deviation of split frequencies: 0.009036
606000 -- (-3927.700) [-3924.848] (-3927.585) (-3928.610) * (-3924.320) [-3929.114] (-3932.367) (-3933.675) -- 0:04:12
607000 -- (-3939.463) (-3945.936) [-3931.523] (-3939.990) * [-3920.335] (-3931.391) (-3930.312) (-3933.995) -- 0:04:11
608000 -- (-3939.434) (-3941.712) (-3934.772) [-3926.964] * [-3932.451] (-3936.285) (-3939.880) (-3938.048) -- 0:04:11
609000 -- (-3937.012) (-3929.366) [-3932.731] (-3937.810) * (-3924.252) (-3931.037) (-3937.327) [-3929.184] -- 0:04:11
610000 -- (-3937.395) [-3924.684] (-3923.685) (-3932.710) * [-3928.663] (-3931.295) (-3932.811) (-3932.576) -- 0:04:09
Average standard deviation of split frequencies: 0.009578
611000 -- (-3935.519) (-3930.343) (-3936.208) [-3936.351] * (-3925.150) (-3933.150) [-3924.903] (-3936.401) -- 0:04:09
612000 -- [-3921.930] (-3933.039) (-3937.518) (-3936.680) * [-3926.775] (-3939.653) (-3927.391) (-3933.358) -- 0:04:09
613000 -- (-3964.198) [-3931.026] (-3943.470) (-3927.867) * [-3925.697] (-3932.983) (-3930.870) (-3935.386) -- 0:04:08
614000 -- (-3922.155) (-3938.692) (-3927.267) [-3932.015] * (-3920.272) (-3944.663) (-3931.898) [-3935.607] -- 0:04:07
615000 -- (-3928.582) [-3920.784] (-3924.492) (-3945.116) * [-3930.596] (-3945.016) (-3933.645) (-3930.475) -- 0:04:07
Average standard deviation of split frequencies: 0.009389
616000 -- [-3917.870] (-3936.096) (-3932.177) (-3932.253) * (-3938.797) (-3932.314) [-3928.899] (-3931.003) -- 0:04:06
617000 -- (-3928.804) [-3930.823] (-3938.405) (-3944.536) * (-3933.444) [-3935.601] (-3925.702) (-3933.766) -- 0:04:05
618000 -- [-3936.881] (-3925.607) (-3935.930) (-3930.080) * (-3929.311) (-3948.140) [-3927.317] (-3942.817) -- 0:04:05
619000 -- (-3932.148) [-3929.985] (-3928.369) (-3937.927) * (-3929.576) (-3932.682) [-3924.382] (-3938.261) -- 0:04:04
620000 -- [-3929.727] (-3941.409) (-3944.459) (-3935.351) * (-3940.681) [-3924.150] (-3931.439) (-3937.499) -- 0:04:03
Average standard deviation of split frequencies: 0.009570
621000 -- [-3932.510] (-3923.862) (-3935.229) (-3939.495) * (-3940.112) [-3920.450] (-3933.713) (-3942.511) -- 0:04:03
622000 -- (-3933.637) (-3922.287) (-3927.357) [-3936.773] * [-3928.199] (-3926.101) (-3932.800) (-3948.461) -- 0:04:02
623000 -- (-3930.772) [-3931.272] (-3929.557) (-3936.523) * [-3931.453] (-3926.743) (-3934.626) (-3918.080) -- 0:04:02
624000 -- (-3938.442) (-3945.522) [-3920.457] (-3932.717) * [-3921.577] (-3934.716) (-3943.098) (-3928.058) -- 0:04:01
625000 -- (-3929.280) [-3925.803] (-3935.345) (-3938.906) * (-3927.985) [-3927.674] (-3940.255) (-3937.704) -- 0:04:00
Average standard deviation of split frequencies: 0.009579
626000 -- [-3938.207] (-3935.454) (-3930.700) (-3930.925) * [-3921.885] (-3927.720) (-3936.146) (-3940.926) -- 0:04:00
627000 -- [-3932.655] (-3945.684) (-3934.082) (-3945.335) * (-3931.672) [-3922.669] (-3932.437) (-3935.446) -- 0:03:59
628000 -- (-3938.783) (-3929.844) (-3948.284) [-3920.237] * (-3928.689) (-3927.220) (-3924.342) [-3929.268] -- 0:03:58
629000 -- (-3929.838) (-3935.759) (-3930.135) [-3930.532] * (-3945.841) (-3934.338) [-3917.388] (-3928.855) -- 0:03:58
630000 -- [-3928.969] (-3946.806) (-3934.327) (-3938.547) * [-3927.129] (-3940.889) (-3928.658) (-3921.770) -- 0:03:57
Average standard deviation of split frequencies: 0.009530
631000 -- (-3928.017) (-3926.681) [-3924.562] (-3947.524) * (-3929.172) (-3941.233) (-3927.878) [-3920.527] -- 0:03:56
632000 -- (-3938.008) (-3927.369) (-3926.979) [-3931.935] * (-3932.165) (-3943.096) (-3928.128) [-3929.403] -- 0:03:56
633000 -- (-3918.573) (-3944.240) (-3939.484) [-3924.332] * [-3934.347] (-3942.967) (-3928.394) (-3934.092) -- 0:03:55
634000 -- (-3933.279) (-3925.224) (-3932.566) [-3920.331] * (-3928.279) [-3919.401] (-3935.094) (-3929.935) -- 0:03:54
635000 -- (-3926.718) (-3924.999) [-3925.253] (-3938.233) * (-3923.152) (-3931.281) (-3933.608) [-3921.928] -- 0:03:54
Average standard deviation of split frequencies: 0.009080
636000 -- [-3919.927] (-3935.339) (-3930.386) (-3924.177) * [-3921.044] (-3943.954) (-3932.747) (-3930.252) -- 0:03:53
637000 -- [-3921.122] (-3944.097) (-3936.573) (-3937.896) * (-3940.005) (-3923.848) [-3932.557] (-3937.599) -- 0:03:53
638000 -- [-3928.186] (-3934.302) (-3933.784) (-3943.460) * (-3930.619) (-3935.130) [-3932.574] (-3935.771) -- 0:03:52
639000 -- (-3927.642) (-3941.514) [-3923.814] (-3931.275) * (-3933.124) [-3929.328] (-3945.256) (-3928.422) -- 0:03:51
640000 -- (-3937.278) (-3942.527) [-3920.237] (-3943.181) * (-3927.248) [-3933.107] (-3956.868) (-3932.022) -- 0:03:51
Average standard deviation of split frequencies: 0.009198
641000 -- [-3940.785] (-3933.745) (-3937.103) (-3940.662) * (-3925.698) [-3925.252] (-3943.437) (-3922.263) -- 0:03:50
642000 -- [-3924.534] (-3940.682) (-3938.394) (-3934.854) * (-3929.684) (-3942.810) (-3935.031) [-3923.940] -- 0:03:49
643000 -- (-3932.728) (-3948.344) [-3928.352] (-3939.201) * (-3920.337) (-3940.042) (-3941.169) [-3929.623] -- 0:03:49
644000 -- [-3935.260] (-3938.964) (-3934.541) (-3935.205) * (-3928.796) [-3929.883] (-3937.304) (-3926.127) -- 0:03:48
645000 -- [-3928.220] (-3941.589) (-3923.517) (-3934.861) * (-3944.214) (-3926.130) (-3927.141) [-3930.094] -- 0:03:47
Average standard deviation of split frequencies: 0.008630
646000 -- (-3925.876) (-3945.288) [-3927.219] (-3932.271) * (-3941.794) (-3927.728) [-3931.093] (-3932.458) -- 0:03:47
647000 -- (-3942.070) (-3943.625) [-3925.865] (-3924.629) * (-3940.888) (-3929.985) (-3924.276) [-3935.101] -- 0:03:46
648000 -- (-3939.316) (-3931.861) [-3935.259] (-3948.079) * (-3927.275) [-3935.687] (-3932.298) (-3927.303) -- 0:03:45
649000 -- (-3937.206) (-3949.697) (-3935.166) [-3922.739] * (-3940.780) (-3929.520) [-3925.271] (-3925.713) -- 0:03:45
650000 -- (-3945.934) [-3930.231] (-3931.780) (-3920.622) * (-3940.708) (-3932.549) [-3924.940] (-3938.613) -- 0:03:44
Average standard deviation of split frequencies: 0.008568
651000 -- (-3938.711) (-3928.439) [-3933.913] (-3947.461) * (-3936.571) (-3930.681) [-3930.023] (-3925.937) -- 0:03:44
652000 -- [-3924.457] (-3917.347) (-3933.749) (-3937.567) * (-3938.639) [-3923.167] (-3942.566) (-3930.191) -- 0:03:43
653000 -- (-3933.418) (-3929.803) (-3931.361) [-3940.188] * [-3933.127] (-3933.010) (-3929.648) (-3944.746) -- 0:03:42
654000 -- (-3930.018) (-3934.135) (-3943.742) [-3935.838] * (-3928.939) [-3930.426] (-3929.105) (-3930.464) -- 0:03:42
655000 -- [-3927.537] (-3939.745) (-3926.287) (-3942.805) * (-3951.148) [-3926.199] (-3931.447) (-3930.224) -- 0:03:41
Average standard deviation of split frequencies: 0.008623
656000 -- (-3932.373) (-3935.415) (-3923.067) [-3938.775] * (-3939.587) (-3931.358) (-3949.196) [-3924.260] -- 0:03:40
657000 -- (-3930.957) (-3939.573) (-3927.646) [-3932.263] * (-3930.445) (-3930.194) (-3948.974) [-3928.017] -- 0:03:40
658000 -- [-3924.632] (-3937.237) (-3938.017) (-3933.684) * (-3926.378) (-3945.253) (-3932.718) [-3917.598] -- 0:03:39
659000 -- (-3932.210) [-3929.560] (-3937.490) (-3929.145) * (-3927.450) (-3936.956) [-3926.000] (-3930.039) -- 0:03:38
660000 -- (-3923.285) (-3941.336) (-3948.331) [-3921.883] * (-3925.344) (-3922.461) [-3935.317] (-3933.106) -- 0:03:38
Average standard deviation of split frequencies: 0.008593
661000 -- (-3932.132) (-3926.435) [-3925.121] (-3935.136) * [-3928.512] (-3947.694) (-3929.019) (-3936.171) -- 0:03:37
662000 -- [-3923.209] (-3925.866) (-3933.540) (-3940.705) * (-3932.428) [-3936.761] (-3936.831) (-3942.190) -- 0:03:36
663000 -- (-3938.798) (-3940.038) [-3921.197] (-3932.843) * (-3951.889) (-3925.488) [-3922.982] (-3936.604) -- 0:03:36
664000 -- (-3929.905) (-3946.854) (-3927.343) [-3933.701] * (-3940.135) [-3921.690] (-3937.145) (-3954.335) -- 0:03:35
665000 -- (-3947.931) (-3947.128) [-3929.561] (-3942.354) * [-3923.151] (-3930.186) (-3938.865) (-3935.763) -- 0:03:35
Average standard deviation of split frequencies: 0.009025
666000 -- [-3929.299] (-3945.451) (-3926.060) (-3934.477) * (-3925.191) [-3915.536] (-3922.545) (-3931.647) -- 0:03:34
667000 -- (-3935.853) [-3939.006] (-3929.861) (-3930.000) * (-3918.980) [-3931.151] (-3926.550) (-3940.583) -- 0:03:33
668000 -- (-3921.362) (-3930.687) [-3920.155] (-3931.460) * [-3925.712] (-3936.578) (-3924.935) (-3933.647) -- 0:03:33
669000 -- (-3924.073) (-3926.217) [-3916.929] (-3924.955) * (-3923.890) (-3934.080) [-3928.401] (-3934.987) -- 0:03:32
670000 -- (-3937.856) [-3926.184] (-3937.312) (-3928.315) * (-3916.775) [-3921.713] (-3944.484) (-3934.831) -- 0:03:31
Average standard deviation of split frequencies: 0.008581
671000 -- [-3930.328] (-3928.923) (-3941.517) (-3921.418) * (-3936.623) (-3925.859) [-3929.489] (-3932.303) -- 0:03:31
672000 -- [-3927.466] (-3926.863) (-3921.777) (-3941.547) * (-3951.748) (-3927.401) (-3935.489) [-3929.928] -- 0:03:30
673000 -- (-3922.517) (-3942.249) [-3922.658] (-3946.282) * (-3932.082) [-3932.927] (-3933.006) (-3933.616) -- 0:03:29
674000 -- (-3924.802) (-3932.852) [-3921.621] (-3932.057) * (-3947.689) (-3946.057) [-3930.919] (-3928.456) -- 0:03:29
675000 -- [-3925.448] (-3927.298) (-3941.363) (-3929.974) * (-3933.723) (-3931.318) (-3933.477) [-3924.660] -- 0:03:28
Average standard deviation of split frequencies: 0.008459
676000 -- (-3930.686) (-3938.570) [-3934.086] (-3940.974) * (-3928.557) (-3938.991) [-3933.051] (-3931.953) -- 0:03:28
677000 -- (-3933.526) (-3938.246) [-3915.785] (-3943.176) * [-3930.277] (-3952.317) (-3924.224) (-3936.368) -- 0:03:27
678000 -- (-3931.205) [-3922.713] (-3937.868) (-3929.721) * (-3935.592) (-3935.158) (-3933.935) [-3919.311] -- 0:03:26
679000 -- (-3930.999) [-3928.830] (-3931.325) (-3919.149) * (-3944.012) [-3927.090] (-3937.450) (-3925.979) -- 0:03:26
680000 -- (-3923.928) (-3943.476) [-3941.953] (-3941.552) * (-3943.360) [-3931.225] (-3930.214) (-3919.350) -- 0:03:25
Average standard deviation of split frequencies: 0.008823
681000 -- [-3927.074] (-3926.323) (-3942.222) (-3927.278) * [-3944.171] (-3929.228) (-3940.610) (-3924.908) -- 0:03:24
682000 -- (-3929.455) (-3926.757) (-3935.350) [-3921.153] * (-3923.846) [-3924.314] (-3949.592) (-3925.317) -- 0:03:24
683000 -- (-3930.176) [-3930.096] (-3928.786) (-3927.381) * (-3946.324) [-3928.656] (-3935.825) (-3933.865) -- 0:03:23
684000 -- (-3922.384) [-3933.844] (-3942.864) (-3931.576) * [-3927.414] (-3927.130) (-3928.753) (-3927.591) -- 0:03:22
685000 -- [-3918.211] (-3949.877) (-3922.604) (-3932.357) * [-3932.318] (-3919.423) (-3942.391) (-3936.593) -- 0:03:22
Average standard deviation of split frequencies: 0.008819
686000 -- (-3932.366) (-3929.602) [-3918.120] (-3931.521) * (-3933.687) [-3925.786] (-3932.421) (-3934.872) -- 0:03:21
687000 -- [-3928.984] (-3920.932) (-3941.584) (-3934.871) * (-3935.496) (-3924.825) [-3926.335] (-3935.523) -- 0:03:20
688000 -- (-3936.830) (-3930.191) (-3939.258) [-3925.259] * (-3934.158) [-3925.474] (-3937.591) (-3936.263) -- 0:03:20
689000 -- [-3933.343] (-3931.481) (-3924.176) (-3933.464) * (-3936.474) (-3925.680) (-3933.011) [-3921.903] -- 0:03:19
690000 -- (-3942.049) (-3928.452) [-3927.657] (-3943.213) * (-3930.451) (-3930.217) [-3930.422] (-3938.308) -- 0:03:19
Average standard deviation of split frequencies: 0.009413
691000 -- (-3928.120) [-3931.732] (-3938.040) (-3936.184) * [-3931.979] (-3933.787) (-3930.148) (-3929.883) -- 0:03:18
692000 -- (-3942.221) [-3919.595] (-3939.337) (-3934.207) * (-3940.881) (-3931.745) [-3931.722] (-3946.623) -- 0:03:17
693000 -- (-3949.133) [-3926.939] (-3937.047) (-3941.345) * (-3940.381) (-3924.923) (-3944.786) [-3935.253] -- 0:03:17
694000 -- (-3932.223) (-3924.172) (-3930.111) [-3925.777] * (-3946.101) [-3925.613] (-3936.542) (-3927.946) -- 0:03:16
695000 -- (-3936.140) [-3928.789] (-3928.091) (-3936.655) * (-3939.343) [-3921.687] (-3938.159) (-3926.036) -- 0:03:15
Average standard deviation of split frequencies: 0.009157
696000 -- (-3943.984) (-3928.560) [-3934.840] (-3940.230) * (-3938.879) (-3937.185) (-3929.708) [-3945.665] -- 0:03:15
697000 -- (-3943.258) [-3924.887] (-3937.980) (-3938.360) * [-3928.128] (-3929.317) (-3926.568) (-3945.552) -- 0:03:14
698000 -- (-3934.612) (-3928.251) [-3924.589] (-3934.553) * (-3937.908) [-3919.499] (-3935.053) (-3949.053) -- 0:03:13
699000 -- (-3932.772) (-3920.046) (-3931.599) [-3935.996] * (-3940.081) [-3927.289] (-3927.985) (-3938.112) -- 0:03:13
700000 -- (-3932.025) (-3920.373) [-3932.990] (-3940.554) * (-3934.865) (-3930.276) [-3937.406] (-3927.085) -- 0:03:12
Average standard deviation of split frequencies: 0.009447
701000 -- (-3930.967) (-3929.616) (-3935.517) [-3930.301] * (-3934.848) (-3935.116) (-3927.141) [-3928.726] -- 0:03:11
702000 -- [-3928.159] (-3927.914) (-3929.649) (-3946.726) * [-3924.939] (-3947.680) (-3927.528) (-3929.112) -- 0:03:11
703000 -- [-3933.767] (-3927.874) (-3929.753) (-3927.356) * (-3926.662) (-3940.495) [-3921.288] (-3920.575) -- 0:03:10
704000 -- (-3932.601) (-3927.072) [-3926.494] (-3947.421) * [-3916.090] (-3951.453) (-3933.554) (-3926.508) -- 0:03:10
705000 -- (-3933.822) [-3937.419] (-3928.116) (-3943.922) * (-3921.003) [-3932.002] (-3933.197) (-3931.062) -- 0:03:09
Average standard deviation of split frequencies: 0.009802
706000 -- (-3934.346) (-3930.808) [-3920.580] (-3942.546) * (-3938.285) [-3924.506] (-3939.045) (-3934.267) -- 0:03:08
707000 -- [-3941.059] (-3935.934) (-3929.811) (-3927.608) * [-3932.071] (-3921.278) (-3931.587) (-3933.552) -- 0:03:08
708000 -- (-3929.427) [-3927.413] (-3935.367) (-3936.863) * [-3930.398] (-3924.680) (-3933.193) (-3933.379) -- 0:03:07
709000 -- (-3942.835) (-3929.280) (-3929.990) [-3930.027] * (-3936.111) (-3928.625) [-3928.238] (-3941.307) -- 0:03:06
710000 -- (-3926.101) (-3936.088) (-3928.216) [-3927.468] * (-3930.578) (-3925.269) (-3934.266) [-3934.722] -- 0:03:06
Average standard deviation of split frequencies: 0.009552
711000 -- (-3937.058) (-3925.044) [-3933.325] (-3940.209) * [-3926.386] (-3931.611) (-3931.571) (-3947.060) -- 0:03:05
712000 -- [-3924.860] (-3935.380) (-3934.787) (-3946.754) * (-3931.171) (-3934.692) [-3929.345] (-3936.692) -- 0:03:04
713000 -- (-3925.767) (-3937.281) [-3932.264] (-3929.164) * [-3928.046] (-3943.115) (-3931.231) (-3934.049) -- 0:03:04
714000 -- [-3926.768] (-3933.735) (-3925.269) (-3940.031) * [-3921.690] (-3930.009) (-3929.818) (-3930.922) -- 0:03:03
715000 -- [-3925.377] (-3929.035) (-3945.089) (-3944.867) * (-3939.839) [-3915.101] (-3939.632) (-3931.486) -- 0:03:02
Average standard deviation of split frequencies: 0.009270
716000 -- (-3929.776) (-3936.304) [-3926.364] (-3946.752) * (-3941.395) [-3920.746] (-3946.409) (-3934.051) -- 0:03:02
717000 -- (-3925.563) (-3935.286) [-3933.696] (-3949.724) * (-3927.345) (-3929.770) (-3935.154) [-3929.411] -- 0:03:01
718000 -- [-3928.243] (-3929.732) (-3945.361) (-3938.185) * (-3926.839) (-3945.346) (-3936.162) [-3931.952] -- 0:03:01
719000 -- (-3931.901) [-3928.807] (-3936.873) (-3931.687) * (-3951.024) (-3938.571) [-3931.833] (-3934.666) -- 0:03:00
720000 -- [-3926.477] (-3926.661) (-3941.176) (-3949.820) * (-3942.075) (-3920.127) (-3929.647) [-3930.128] -- 0:02:59
Average standard deviation of split frequencies: 0.008948
721000 -- [-3925.090] (-3944.886) (-3933.851) (-3928.452) * (-3940.232) [-3917.902] (-3936.041) (-3939.676) -- 0:02:59
722000 -- (-3938.081) (-3934.342) (-3932.542) [-3920.634] * (-3947.280) (-3931.812) [-3939.274] (-3925.527) -- 0:02:58
723000 -- (-3927.796) (-3925.046) (-3930.267) [-3932.563] * [-3933.899] (-3930.479) (-3949.740) (-3927.003) -- 0:02:57
724000 -- [-3919.294] (-3940.327) (-3932.531) (-3925.772) * [-3924.313] (-3944.199) (-3941.347) (-3930.253) -- 0:02:57
725000 -- (-3929.202) (-3943.531) (-3937.908) [-3921.716] * [-3924.097] (-3926.066) (-3930.715) (-3928.987) -- 0:02:56
Average standard deviation of split frequencies: 0.009142
726000 -- (-3930.052) (-3936.802) (-3929.456) [-3930.215] * [-3932.404] (-3921.935) (-3926.140) (-3937.657) -- 0:02:55
727000 -- (-3925.907) (-3946.461) (-3936.583) [-3936.423] * [-3928.191] (-3949.142) (-3923.606) (-3930.116) -- 0:02:54
728000 -- (-3942.677) (-3932.332) [-3933.546] (-3945.003) * (-3935.952) (-3938.410) (-3938.274) [-3921.553] -- 0:02:54
729000 -- (-3944.980) (-3931.852) (-3931.549) [-3935.040] * (-3920.439) (-3947.859) [-3931.443] (-3938.462) -- 0:02:53
730000 -- (-3937.897) [-3920.818] (-3934.082) (-3940.347) * (-3938.352) [-3928.758] (-3931.916) (-3931.779) -- 0:02:53
Average standard deviation of split frequencies: 0.009301
731000 -- (-3955.541) (-3942.054) [-3927.725] (-3930.721) * (-3926.601) (-3946.730) (-3932.761) [-3923.917] -- 0:02:52
732000 -- [-3923.318] (-3927.724) (-3928.599) (-3942.221) * (-3928.606) [-3923.963] (-3942.748) (-3938.775) -- 0:02:52
733000 -- (-3925.430) (-3945.125) [-3932.477] (-3938.730) * [-3925.104] (-3933.702) (-3933.717) (-3933.614) -- 0:02:51
734000 -- (-3928.110) (-3936.136) [-3927.085] (-3931.661) * (-3939.992) (-3936.449) (-3938.683) [-3935.927] -- 0:02:50
735000 -- (-3934.868) (-3918.349) (-3935.115) [-3918.127] * (-3928.565) (-3932.810) (-3954.677) [-3928.648] -- 0:02:50
Average standard deviation of split frequencies: 0.009234
736000 -- [-3924.253] (-3935.786) (-3946.269) (-3929.956) * [-3926.604] (-3946.695) (-3935.536) (-3932.558) -- 0:02:49
737000 -- [-3935.000] (-3945.216) (-3925.555) (-3941.255) * (-3923.923) (-3944.873) [-3926.596] (-3928.917) -- 0:02:48
738000 -- (-3931.779) [-3930.163] (-3933.843) (-3928.857) * (-3922.364) (-3945.435) (-3921.736) [-3930.444] -- 0:02:48
739000 -- (-3950.796) (-3928.479) (-3939.091) [-3924.590] * [-3925.553] (-3942.825) (-3927.350) (-3938.158) -- 0:02:47
740000 -- (-3930.185) [-3929.969] (-3932.939) (-3921.881) * (-3925.583) (-3930.730) [-3926.037] (-3929.504) -- 0:02:46
Average standard deviation of split frequencies: 0.008963
741000 -- (-3935.736) (-3933.248) [-3933.351] (-3928.974) * (-3942.719) (-3937.010) [-3935.821] (-3926.327) -- 0:02:46
742000 -- (-3937.960) [-3923.126] (-3927.616) (-3944.867) * [-3925.616] (-3922.473) (-3935.731) (-3934.905) -- 0:02:45
743000 -- [-3927.673] (-3925.414) (-3935.519) (-3932.518) * (-3931.458) [-3923.658] (-3945.771) (-3939.880) -- 0:02:44
744000 -- [-3942.680] (-3927.217) (-3930.170) (-3929.028) * [-3922.203] (-3940.797) (-3923.818) (-3938.323) -- 0:02:44
745000 -- (-3934.252) (-3950.387) [-3939.532] (-3930.357) * (-3945.611) (-3939.236) [-3924.052] (-3948.453) -- 0:02:43
Average standard deviation of split frequencies: 0.008741
746000 -- (-3942.726) [-3928.029] (-3929.245) (-3935.487) * (-3931.285) (-3939.407) (-3927.676) [-3926.052] -- 0:02:43
747000 -- (-3937.768) (-3930.633) (-3927.670) [-3941.324] * (-3947.020) (-3920.831) (-3938.461) [-3924.852] -- 0:02:42
748000 -- (-3934.125) (-3931.115) (-3951.598) [-3930.527] * [-3939.798] (-3928.344) (-3920.782) (-3929.844) -- 0:02:41
749000 -- (-3925.533) (-3940.712) (-3926.338) [-3926.028] * (-3944.461) (-3919.444) (-3936.880) [-3935.073] -- 0:02:41
750000 -- (-3931.230) (-3937.250) (-3934.309) [-3930.075] * (-3941.418) [-3926.602] (-3931.239) (-3934.867) -- 0:02:40
Average standard deviation of split frequencies: 0.008373
751000 -- (-3928.159) (-3932.419) (-3927.585) [-3915.874] * (-3925.593) (-3947.481) (-3929.386) [-3928.939] -- 0:02:39
752000 -- (-3945.447) (-3949.769) [-3922.041] (-3931.558) * [-3921.055] (-3949.507) (-3928.356) (-3929.308) -- 0:02:39
753000 -- [-3937.383] (-3942.179) (-3929.567) (-3920.166) * (-3940.311) [-3934.563] (-3921.627) (-3928.358) -- 0:02:38
754000 -- (-3936.896) [-3925.861] (-3938.205) (-3921.327) * [-3922.963] (-3938.564) (-3943.002) (-3930.572) -- 0:02:37
755000 -- (-3935.641) (-3924.437) (-3933.845) [-3926.730] * [-3933.789] (-3940.078) (-3925.485) (-3937.438) -- 0:02:37
Average standard deviation of split frequencies: 0.008288
756000 -- (-3935.073) [-3923.322] (-3941.690) (-3942.583) * [-3923.625] (-3936.279) (-3935.527) (-3933.897) -- 0:02:36
757000 -- [-3929.401] (-3922.031) (-3931.589) (-3936.388) * [-3928.412] (-3931.535) (-3933.758) (-3942.121) -- 0:02:36
758000 -- (-3939.460) (-3925.351) (-3929.089) [-3934.082] * [-3929.723] (-3925.295) (-3932.355) (-3938.115) -- 0:02:35
759000 -- (-3937.795) (-3930.014) [-3935.114] (-3936.953) * (-3928.283) (-3935.538) [-3917.221] (-3926.507) -- 0:02:34
760000 -- (-3935.112) (-3930.303) [-3936.793] (-3936.393) * (-3930.479) (-3937.133) [-3925.714] (-3930.793) -- 0:02:34
Average standard deviation of split frequencies: 0.008245
761000 -- (-3932.974) (-3930.241) (-3941.010) [-3933.617] * [-3931.599] (-3939.646) (-3945.150) (-3938.354) -- 0:02:33
762000 -- [-3940.820] (-3931.800) (-3929.707) (-3944.442) * [-3934.113] (-3932.246) (-3936.457) (-3930.621) -- 0:02:32
763000 -- (-3928.612) [-3934.863] (-3931.091) (-3944.269) * (-3949.302) (-3929.716) [-3918.433] (-3938.735) -- 0:02:32
764000 -- (-3935.163) (-3935.426) [-3920.458] (-3935.892) * (-3930.854) (-3929.230) [-3930.382] (-3932.593) -- 0:02:31
765000 -- (-3929.199) (-3954.516) (-3936.867) [-3931.429] * (-3936.998) [-3928.352] (-3936.024) (-3932.080) -- 0:02:30
Average standard deviation of split frequencies: 0.008960
766000 -- (-3938.129) (-3926.382) (-3937.866) [-3928.326] * (-3928.901) [-3915.457] (-3927.015) (-3937.440) -- 0:02:30
767000 -- [-3927.689] (-3941.352) (-3949.498) (-3929.358) * (-3938.493) [-3930.623] (-3950.540) (-3948.930) -- 0:02:29
768000 -- (-3926.102) [-3924.153] (-3951.094) (-3929.965) * [-3928.936] (-3948.605) (-3930.297) (-3936.149) -- 0:02:28
769000 -- (-3926.525) (-3944.019) (-3929.590) [-3930.002] * (-3928.862) [-3937.251] (-3934.892) (-3923.635) -- 0:02:28
770000 -- (-3929.497) [-3930.357] (-3919.092) (-3939.131) * (-3947.192) (-3941.097) (-3946.168) [-3929.664] -- 0:02:27
Average standard deviation of split frequencies: 0.008487
771000 -- (-3934.617) (-3944.662) (-3917.254) [-3923.263] * [-3931.039] (-3939.584) (-3923.970) (-3929.095) -- 0:02:27
772000 -- (-3936.388) (-3928.296) [-3926.683] (-3932.447) * (-3935.135) (-3934.035) [-3923.531] (-3923.369) -- 0:02:26
773000 -- (-3934.315) (-3941.473) [-3931.792] (-3930.574) * [-3929.093] (-3929.366) (-3934.611) (-3934.791) -- 0:02:25
774000 -- (-3933.621) (-3936.736) [-3917.221] (-3928.403) * [-3932.414] (-3939.430) (-3941.589) (-3936.210) -- 0:02:25
775000 -- (-3927.213) (-3934.412) [-3922.830] (-3932.667) * (-3939.251) [-3927.512] (-3934.551) (-3945.745) -- 0:02:24
Average standard deviation of split frequencies: 0.008505
776000 -- (-3935.244) (-3931.909) [-3923.249] (-3950.800) * [-3933.059] (-3946.061) (-3930.820) (-3948.906) -- 0:02:23
777000 -- (-3937.425) [-3927.444] (-3939.073) (-3924.781) * [-3932.127] (-3943.966) (-3943.062) (-3930.714) -- 0:02:23
778000 -- [-3929.228] (-3929.293) (-3922.057) (-3936.386) * [-3922.720] (-3938.336) (-3935.229) (-3924.960) -- 0:02:22
779000 -- (-3928.947) [-3934.235] (-3945.114) (-3934.381) * (-3932.078) (-3941.543) (-3930.951) [-3931.738] -- 0:02:21
780000 -- [-3933.967] (-3935.595) (-3946.379) (-3927.656) * [-3925.290] (-3932.075) (-3932.564) (-3936.535) -- 0:02:21
Average standard deviation of split frequencies: 0.008882
781000 -- (-3940.748) [-3925.553] (-3953.457) (-3926.752) * (-3924.118) [-3921.468] (-3938.950) (-3923.514) -- 0:02:20
782000 -- (-3934.884) [-3925.509] (-3941.168) (-3931.420) * (-3936.901) [-3929.530] (-3924.372) (-3935.016) -- 0:02:19
783000 -- (-3936.058) [-3931.305] (-3936.873) (-3921.394) * (-3928.868) [-3925.002] (-3929.272) (-3934.221) -- 0:02:19
784000 -- [-3927.355] (-3930.441) (-3939.629) (-3934.675) * (-3935.620) (-3926.213) (-3955.152) [-3922.955] -- 0:02:18
785000 -- [-3922.748] (-3945.536) (-3935.338) (-3927.654) * (-3928.372) [-3923.463] (-3939.307) (-3940.456) -- 0:02:18
Average standard deviation of split frequencies: 0.008972
786000 -- [-3928.054] (-3941.050) (-3932.527) (-3937.189) * (-3937.729) [-3917.409] (-3939.917) (-3936.646) -- 0:02:17
787000 -- (-3929.858) (-3921.636) (-3933.324) [-3930.678] * [-3927.233] (-3939.515) (-3941.464) (-3929.661) -- 0:02:16
788000 -- (-3943.512) [-3921.756] (-3943.518) (-3926.827) * (-3926.479) (-3947.897) (-3944.556) [-3923.541] -- 0:02:16
789000 -- [-3925.960] (-3927.186) (-3928.411) (-3926.122) * (-3940.456) (-3943.729) (-3924.363) [-3926.539] -- 0:02:15
790000 -- (-3922.035) (-3930.726) (-3932.976) [-3934.466] * [-3929.525] (-3941.776) (-3933.603) (-3927.909) -- 0:02:14
Average standard deviation of split frequencies: 0.008670
791000 -- (-3935.043) (-3946.861) [-3921.934] (-3927.514) * (-3934.368) (-3933.931) (-3922.336) [-3925.384] -- 0:02:14
792000 -- (-3917.760) (-3943.655) [-3926.787] (-3942.223) * (-3931.504) (-3928.121) [-3928.516] (-3940.064) -- 0:02:13
793000 -- (-3941.062) (-3937.280) [-3930.235] (-3945.208) * (-3941.705) [-3915.462] (-3940.842) (-3929.363) -- 0:02:12
794000 -- (-3935.937) (-3939.013) [-3938.361] (-3954.489) * (-3941.173) (-3929.008) [-3931.658] (-3932.675) -- 0:02:12
795000 -- [-3933.449] (-3950.097) (-3932.618) (-3926.124) * [-3929.240] (-3928.614) (-3937.744) (-3933.859) -- 0:02:11
Average standard deviation of split frequencies: 0.008111
796000 -- [-3924.583] (-3942.864) (-3933.191) (-3936.173) * (-3928.575) (-3946.432) (-3922.537) [-3927.312] -- 0:02:10
797000 -- (-3942.510) (-3925.525) [-3932.994] (-3925.424) * (-3927.931) (-3944.669) [-3928.918] (-3932.934) -- 0:02:10
798000 -- (-3938.062) (-3938.874) (-3925.820) [-3923.222] * (-3924.638) (-3939.496) [-3925.643] (-3937.340) -- 0:02:09
799000 -- (-3930.351) (-3940.623) (-3924.166) [-3931.099] * [-3913.861] (-3947.376) (-3928.716) (-3932.972) -- 0:02:09
800000 -- (-3929.276) (-3929.300) (-3947.343) [-3926.593] * (-3928.383) (-3938.294) (-3924.290) [-3926.412] -- 0:02:08
Average standard deviation of split frequencies: 0.008549
801000 -- (-3932.279) (-3929.614) (-3925.232) [-3924.619] * (-3947.835) (-3944.799) [-3930.693] (-3925.681) -- 0:02:07
802000 -- [-3939.136] (-3930.426) (-3929.899) (-3941.504) * [-3928.270] (-3941.114) (-3935.181) (-3932.458) -- 0:02:07
803000 -- (-3937.874) [-3927.790] (-3933.860) (-3934.963) * (-3933.076) [-3931.073] (-3946.929) (-3936.443) -- 0:02:06
804000 -- (-3926.682) [-3919.347] (-3922.539) (-3934.681) * (-3947.432) (-3930.926) [-3920.172] (-3924.605) -- 0:02:05
805000 -- (-3929.889) [-3925.537] (-3934.351) (-3935.739) * (-3919.806) (-3934.559) (-3941.610) [-3933.290] -- 0:02:05
Average standard deviation of split frequencies: 0.008562
806000 -- (-3928.607) (-3930.574) [-3931.925] (-3930.979) * (-3938.802) (-3931.269) (-3930.686) [-3923.972] -- 0:02:04
807000 -- (-3938.194) (-3937.472) (-3928.104) [-3929.447] * (-3927.534) [-3921.041] (-3949.339) (-3936.722) -- 0:02:03
808000 -- [-3929.514] (-3945.747) (-3938.169) (-3935.502) * (-3943.040) (-3920.703) (-3947.104) [-3930.771] -- 0:02:03
809000 -- (-3938.647) (-3953.429) (-3946.263) [-3945.230] * (-3940.368) (-3923.313) [-3933.259] (-3937.534) -- 0:02:02
810000 -- [-3934.985] (-3937.707) (-3938.418) (-3938.548) * (-3933.814) (-3936.352) [-3944.230] (-3934.850) -- 0:02:01
Average standard deviation of split frequencies: 0.008792
811000 -- (-3931.725) (-3945.429) [-3925.266] (-3943.130) * [-3928.460] (-3935.688) (-3927.180) (-3932.691) -- 0:02:01
812000 -- (-3925.173) (-3924.187) [-3931.416] (-3940.812) * (-3921.158) [-3928.722] (-3933.405) (-3945.265) -- 0:02:00
813000 -- [-3921.365] (-3932.745) (-3930.997) (-3945.381) * [-3926.987] (-3931.806) (-3929.665) (-3935.282) -- 0:02:00
814000 -- (-3927.529) [-3921.998] (-3932.137) (-3941.490) * (-3927.077) (-3926.983) (-3934.387) [-3925.878] -- 0:01:59
815000 -- (-3944.586) (-3927.367) (-3932.922) [-3934.489] * (-3940.077) (-3927.288) (-3930.805) [-3918.776] -- 0:01:58
Average standard deviation of split frequencies: 0.007895
816000 -- (-3947.314) [-3932.934] (-3930.631) (-3936.628) * (-3941.175) (-3937.037) [-3928.066] (-3930.327) -- 0:01:58
817000 -- (-3953.811) (-3930.663) [-3932.469] (-3937.584) * (-3927.783) (-3942.921) (-3933.502) [-3924.935] -- 0:01:57
818000 -- [-3926.386] (-3934.080) (-3925.986) (-3937.360) * (-3931.710) (-3941.745) [-3926.502] (-3945.068) -- 0:01:57
819000 -- (-3927.125) (-3936.888) [-3931.305] (-3946.419) * (-3936.858) (-3937.188) [-3917.332] (-3945.512) -- 0:01:56
820000 -- (-3924.597) (-3920.933) [-3930.732] (-3941.086) * (-3932.316) [-3924.003] (-3935.496) (-3935.829) -- 0:01:55
Average standard deviation of split frequencies: 0.007520
821000 -- (-3943.983) [-3931.727] (-3939.522) (-3933.292) * (-3920.285) (-3926.790) (-3937.224) [-3922.559] -- 0:01:54
822000 -- [-3930.896] (-3929.455) (-3942.103) (-3933.491) * (-3926.723) (-3933.672) [-3929.645] (-3943.505) -- 0:01:54
823000 -- (-3935.966) (-3937.987) (-3914.205) [-3932.113] * [-3921.055] (-3938.666) (-3948.011) (-3945.590) -- 0:01:53
824000 -- (-3945.869) (-3939.624) [-3937.219] (-3944.268) * (-3933.446) [-3928.895] (-3933.601) (-3930.514) -- 0:01:52
825000 -- (-3940.266) [-3926.667] (-3930.630) (-3938.566) * (-3936.176) [-3932.019] (-3935.103) (-3949.733) -- 0:01:52
Average standard deviation of split frequencies: 0.007752
826000 -- (-3946.989) (-3931.805) [-3922.369] (-3929.742) * (-3935.840) [-3928.130] (-3936.193) (-3937.887) -- 0:01:51
827000 -- [-3921.090] (-3932.566) (-3931.740) (-3938.321) * (-3931.091) (-3926.806) [-3930.931] (-3946.954) -- 0:01:51
828000 -- [-3931.171] (-3934.813) (-3927.915) (-3938.700) * [-3923.219] (-3936.195) (-3931.902) (-3932.807) -- 0:01:50
829000 -- (-3937.220) (-3932.175) [-3918.189] (-3939.656) * (-3930.047) [-3922.131] (-3920.480) (-3934.846) -- 0:01:49
830000 -- [-3931.313] (-3928.025) (-3938.069) (-3920.888) * (-3933.516) (-3943.533) (-3931.621) [-3934.014] -- 0:01:49
Average standard deviation of split frequencies: 0.007922
831000 -- (-3932.749) (-3928.255) [-3926.683] (-3931.070) * (-3936.739) [-3931.500] (-3922.035) (-3934.940) -- 0:01:48
832000 -- (-3947.108) (-3928.711) [-3929.843] (-3929.185) * (-3928.204) [-3925.363] (-3937.209) (-3939.243) -- 0:01:47
833000 -- (-3938.255) (-3937.213) (-3934.382) [-3919.224] * (-3939.607) [-3926.942] (-3933.072) (-3939.277) -- 0:01:47
834000 -- [-3927.233] (-3937.318) (-3935.125) (-3943.275) * (-3945.807) [-3922.804] (-3922.269) (-3924.394) -- 0:01:46
835000 -- [-3927.289] (-3929.833) (-3938.368) (-3923.443) * [-3917.656] (-3926.066) (-3941.146) (-3939.027) -- 0:01:45
Average standard deviation of split frequencies: 0.008341
836000 -- [-3930.912] (-3929.519) (-3925.793) (-3925.975) * (-3937.418) [-3927.315] (-3940.597) (-3928.412) -- 0:01:45
837000 -- (-3928.108) [-3925.033] (-3930.771) (-3936.183) * [-3941.225] (-3928.935) (-3929.550) (-3919.669) -- 0:01:44
838000 -- (-3932.016) (-3938.303) (-3939.423) [-3923.382] * (-3930.930) [-3931.983] (-3930.200) (-3937.822) -- 0:01:44
839000 -- (-3918.349) (-3941.437) (-3941.780) [-3930.564] * (-3943.993) (-3934.844) (-3926.521) [-3932.804] -- 0:01:43
840000 -- (-3932.190) (-3924.963) [-3932.546] (-3927.952) * (-3946.763) (-3942.193) (-3931.351) [-3916.035] -- 0:01:42
Average standard deviation of split frequencies: 0.008277
841000 -- (-3932.449) [-3924.227] (-3940.995) (-3941.776) * (-3947.137) (-3939.900) (-3936.233) [-3930.919] -- 0:01:42
842000 -- (-3935.388) (-3934.220) [-3939.108] (-3929.494) * [-3934.528] (-3934.361) (-3931.709) (-3926.022) -- 0:01:41
843000 -- (-3938.784) (-3927.115) [-3921.829] (-3938.353) * [-3931.696] (-3951.879) (-3932.548) (-3929.388) -- 0:01:40
844000 -- (-3938.489) (-3914.448) [-3924.126] (-3944.659) * (-3948.792) (-3924.860) (-3935.634) [-3929.439] -- 0:01:40
845000 -- (-3929.316) (-3934.753) [-3927.797] (-3948.777) * (-3939.971) [-3928.813] (-3934.600) (-3943.595) -- 0:01:39
Average standard deviation of split frequencies: 0.008247
846000 -- (-3948.017) [-3929.726] (-3925.056) (-3928.793) * (-3928.343) (-3943.935) [-3930.284] (-3951.354) -- 0:01:38
847000 -- (-3936.006) [-3926.076] (-3931.404) (-3939.648) * (-3933.813) (-3934.612) [-3935.877] (-3930.985) -- 0:01:38
848000 -- [-3926.619] (-3926.638) (-3929.225) (-3938.688) * (-3941.027) (-3930.183) [-3931.536] (-3933.170) -- 0:01:37
849000 -- (-3931.866) (-3934.896) [-3925.586] (-3925.274) * (-3936.646) (-3932.588) (-3936.949) [-3922.020] -- 0:01:36
850000 -- (-3925.298) (-3924.063) [-3929.423] (-3932.699) * [-3927.434] (-3942.203) (-3931.350) (-3934.291) -- 0:01:36
Average standard deviation of split frequencies: 0.008601
851000 -- (-3937.089) (-3928.924) (-3934.319) [-3925.883] * (-3925.457) [-3926.693] (-3938.556) (-3934.423) -- 0:01:35
852000 -- [-3934.313] (-3931.502) (-3943.997) (-3947.880) * [-3921.939] (-3941.655) (-3920.529) (-3928.135) -- 0:01:35
853000 -- [-3928.570] (-3921.183) (-3925.606) (-3946.917) * (-3929.453) (-3943.814) (-3934.968) [-3922.691] -- 0:01:34
854000 -- (-3929.903) (-3933.239) [-3924.553] (-3918.519) * (-3931.480) (-3929.313) [-3930.889] (-3933.831) -- 0:01:33
855000 -- [-3927.235] (-3929.748) (-3942.278) (-3930.381) * (-3924.723) (-3936.511) (-3923.747) [-3925.619] -- 0:01:33
Average standard deviation of split frequencies: 0.008308
856000 -- (-3947.698) [-3927.176] (-3933.762) (-3928.253) * (-3942.194) [-3921.515] (-3937.777) (-3951.450) -- 0:01:32
857000 -- (-3959.756) [-3926.370] (-3925.752) (-3927.187) * [-3926.693] (-3932.333) (-3923.095) (-3954.335) -- 0:01:31
858000 -- (-3933.814) [-3921.748] (-3937.527) (-3938.896) * (-3923.093) [-3918.626] (-3930.138) (-3931.572) -- 0:01:31
859000 -- (-3932.174) (-3928.922) [-3921.790] (-3931.946) * [-3924.355] (-3929.415) (-3938.398) (-3931.403) -- 0:01:30
860000 -- (-3941.019) [-3930.053] (-3932.120) (-3934.287) * (-3937.211) (-3929.614) (-3953.578) [-3935.367] -- 0:01:29
Average standard deviation of split frequencies: 0.007693
861000 -- (-3933.191) (-3930.407) (-3934.430) [-3933.428] * [-3924.501] (-3931.417) (-3936.004) (-3931.764) -- 0:01:29
862000 -- [-3934.772] (-3928.211) (-3930.827) (-3932.861) * (-3923.783) [-3926.465] (-3927.248) (-3934.369) -- 0:01:28
863000 -- (-3921.576) (-3931.768) (-3935.233) [-3931.233] * [-3923.794] (-3939.385) (-3929.034) (-3928.853) -- 0:01:27
864000 -- (-3929.142) [-3920.225] (-3924.121) (-3933.282) * (-3934.379) (-3938.166) [-3936.691] (-3928.435) -- 0:01:27
865000 -- (-3940.887) [-3924.262] (-3925.246) (-3942.251) * (-3942.733) (-3938.733) [-3923.991] (-3943.258) -- 0:01:26
Average standard deviation of split frequencies: 0.008233
866000 -- (-3921.171) (-3923.419) [-3921.497] (-3934.867) * (-3935.198) [-3919.049] (-3929.230) (-3927.822) -- 0:01:26
867000 -- [-3925.128] (-3928.720) (-3931.544) (-3929.838) * (-3935.135) (-3935.536) [-3919.435] (-3929.613) -- 0:01:25
868000 -- (-3920.738) (-3931.012) [-3934.435] (-3948.150) * (-3946.403) (-3934.499) (-3928.180) [-3925.561] -- 0:01:24
869000 -- (-3929.379) (-3929.701) (-3936.728) [-3918.179] * [-3934.943] (-3924.550) (-3934.051) (-3943.615) -- 0:01:24
870000 -- (-3944.419) [-3929.348] (-3934.212) (-3923.683) * (-3940.329) [-3936.200] (-3928.071) (-3943.753) -- 0:01:23
Average standard deviation of split frequencies: 0.007535
871000 -- [-3930.941] (-3933.691) (-3937.783) (-3930.591) * (-3948.203) [-3935.888] (-3927.575) (-3935.739) -- 0:01:22
872000 -- (-3925.082) (-3947.864) (-3941.735) [-3936.463] * [-3922.565] (-3932.257) (-3936.583) (-3931.206) -- 0:01:22
873000 -- [-3923.083] (-3928.736) (-3930.571) (-3951.450) * (-3917.093) (-3933.015) [-3931.460] (-3921.276) -- 0:01:21
874000 -- (-3932.818) (-3923.717) (-3934.099) [-3927.478] * (-3925.943) (-3935.825) [-3930.678] (-3936.767) -- 0:01:20
875000 -- (-3930.050) [-3918.036] (-3937.984) (-3929.356) * [-3920.081] (-3928.123) (-3938.386) (-3937.569) -- 0:01:20
Average standard deviation of split frequencies: 0.007885
876000 -- (-3944.262) [-3921.300] (-3940.563) (-3919.563) * (-3936.785) (-3934.970) [-3934.999] (-3942.479) -- 0:01:19
877000 -- (-3929.944) (-3927.900) [-3925.801] (-3932.032) * [-3925.820] (-3927.757) (-3931.488) (-3925.113) -- 0:01:18
878000 -- (-3947.463) [-3931.035] (-3930.622) (-3949.489) * (-3925.137) (-3938.201) (-3934.785) [-3924.148] -- 0:01:18
879000 -- [-3936.079] (-3928.272) (-3931.223) (-3923.338) * (-3933.284) (-3927.537) [-3934.498] (-3930.570) -- 0:01:17
880000 -- [-3934.281] (-3931.715) (-3936.946) (-3936.672) * [-3918.556] (-3940.181) (-3925.442) (-3931.482) -- 0:01:17
Average standard deviation of split frequencies: 0.007392
881000 -- [-3926.568] (-3934.973) (-3929.309) (-3943.000) * (-3934.835) (-3945.708) [-3915.029] (-3940.535) -- 0:01:16
882000 -- (-3927.661) (-3926.871) [-3932.933] (-3937.511) * (-3944.493) [-3924.663] (-3924.975) (-3937.404) -- 0:01:15
883000 -- [-3943.107] (-3934.266) (-3919.435) (-3941.034) * (-3933.514) (-3935.181) [-3920.704] (-3933.691) -- 0:01:15
884000 -- (-3934.688) (-3929.032) [-3930.974] (-3930.684) * (-3931.907) [-3924.684] (-3933.651) (-3937.572) -- 0:01:14
885000 -- [-3926.827] (-3942.767) (-3934.776) (-3951.623) * (-3926.793) (-3945.703) [-3933.540] (-3928.181) -- 0:01:13
Average standard deviation of split frequencies: 0.007680
886000 -- (-3928.328) (-3938.108) [-3927.639] (-3936.314) * (-3927.553) (-3933.517) [-3943.681] (-3926.011) -- 0:01:13
887000 -- (-3943.782) (-3919.044) [-3922.410] (-3936.057) * (-3947.591) [-3920.234] (-3931.518) (-3923.669) -- 0:01:12
888000 -- (-3928.269) (-3935.861) [-3924.838] (-3946.535) * (-3941.329) (-3930.164) (-3940.252) [-3924.591] -- 0:01:11
889000 -- [-3924.238] (-3931.286) (-3940.271) (-3949.015) * (-3938.359) (-3930.805) (-3925.159) [-3922.601] -- 0:01:11
890000 -- (-3939.764) [-3926.778] (-3919.995) (-3935.623) * (-3934.507) (-3928.878) (-3939.026) [-3929.999] -- 0:01:10
Average standard deviation of split frequencies: 0.007594
891000 -- (-3938.637) (-3946.997) [-3929.437] (-3940.194) * (-3930.188) [-3925.930] (-3939.241) (-3933.230) -- 0:01:09
892000 -- (-3931.657) [-3932.763] (-3925.770) (-3954.888) * (-3920.591) [-3935.864] (-3939.144) (-3937.090) -- 0:01:09
893000 -- [-3925.999] (-3942.167) (-3934.155) (-3923.188) * (-3923.059) [-3939.317] (-3939.959) (-3930.605) -- 0:01:08
894000 -- (-3928.524) (-3936.199) [-3932.050] (-3932.317) * (-3940.980) (-3936.258) (-3930.283) [-3926.246] -- 0:01:08
895000 -- (-3932.519) (-3924.283) [-3925.662] (-3936.582) * (-3918.572) (-3930.813) (-3939.437) [-3931.600] -- 0:01:07
Average standard deviation of split frequencies: 0.006672
896000 -- [-3927.674] (-3931.429) (-3931.263) (-3941.009) * [-3922.006] (-3936.494) (-3938.991) (-3930.535) -- 0:01:06
897000 -- [-3933.871] (-3915.961) (-3932.142) (-3935.688) * (-3943.550) [-3923.530] (-3932.631) (-3927.823) -- 0:01:06
898000 -- (-3929.342) (-3929.771) [-3932.986] (-3936.653) * [-3941.578] (-3931.941) (-3937.150) (-3941.931) -- 0:01:05
899000 -- [-3926.504] (-3922.837) (-3936.763) (-3933.470) * (-3936.719) (-3932.670) (-3928.203) [-3931.332] -- 0:01:04
900000 -- [-3927.564] (-3930.207) (-3928.932) (-3953.438) * (-3940.518) [-3924.279] (-3931.680) (-3930.516) -- 0:01:04
Average standard deviation of split frequencies: 0.007328
901000 -- (-3924.889) (-3936.661) (-3927.072) [-3928.241] * [-3917.522] (-3926.632) (-3925.174) (-3942.274) -- 0:01:03
902000 -- (-3939.104) (-3939.188) (-3930.519) [-3931.924] * (-3933.065) (-3940.633) (-3933.044) [-3939.836] -- 0:01:02
903000 -- (-3923.197) (-3936.395) (-3927.603) [-3920.491] * (-3929.318) (-3941.882) [-3926.138] (-3936.255) -- 0:01:02
904000 -- (-3943.455) (-3935.424) (-3947.567) [-3921.387] * (-3942.172) (-3937.727) (-3934.307) [-3928.716] -- 0:01:01
905000 -- (-3925.306) (-3932.830) (-3923.638) [-3926.669] * (-3934.541) (-3934.472) [-3922.046] (-3942.114) -- 0:01:00
Average standard deviation of split frequencies: 0.008370
906000 -- (-3938.822) (-3941.369) (-3925.458) [-3922.677] * [-3929.741] (-3932.446) (-3917.738) (-3927.905) -- 0:01:00
907000 -- (-3934.667) (-3957.838) [-3927.020] (-3929.677) * (-3923.135) (-3945.754) [-3923.229] (-3933.429) -- 0:00:59
908000 -- (-3931.916) (-3958.346) (-3932.401) [-3932.940] * (-3922.496) [-3922.312] (-3934.702) (-3936.371) -- 0:00:59
909000 -- (-3924.117) (-3937.656) (-3929.966) [-3935.277] * [-3928.691] (-3928.829) (-3937.309) (-3929.070) -- 0:00:58
910000 -- (-3926.140) (-3923.282) [-3926.210] (-3933.734) * [-3934.693] (-3930.842) (-3926.634) (-3943.628) -- 0:00:57
Average standard deviation of split frequencies: 0.007600
911000 -- (-3923.470) [-3920.948] (-3928.018) (-3957.285) * (-3934.018) (-3932.827) [-3928.550] (-3933.053) -- 0:00:57
912000 -- (-3943.235) (-3936.430) [-3932.790] (-3947.180) * (-3921.587) (-3938.920) [-3925.544] (-3941.892) -- 0:00:56
913000 -- (-3941.391) [-3923.276] (-3938.657) (-3935.945) * (-3922.637) (-3943.507) (-3927.182) [-3927.078] -- 0:00:55
914000 -- (-3937.770) (-3929.804) (-3934.178) [-3923.884] * (-3936.593) (-3935.926) [-3939.643] (-3928.107) -- 0:00:55
915000 -- (-3942.463) (-3944.048) [-3925.064] (-3926.058) * (-3944.501) [-3927.654] (-3943.931) (-3929.381) -- 0:00:54
Average standard deviation of split frequencies: 0.007334
916000 -- [-3926.857] (-3939.586) (-3931.352) (-3932.365) * (-3942.884) (-3937.518) (-3944.972) [-3924.397] -- 0:00:53
917000 -- (-3930.954) (-3944.945) (-3936.375) [-3939.635] * (-3936.468) (-3926.852) [-3931.597] (-3949.388) -- 0:00:53
918000 -- (-3941.538) (-3927.156) (-3937.071) [-3932.004] * (-3923.945) (-3931.080) [-3927.323] (-3932.719) -- 0:00:52
919000 -- (-3942.540) [-3925.698] (-3927.911) (-3940.425) * (-3921.665) (-3936.219) (-3951.950) [-3920.370] -- 0:00:52
920000 -- (-3933.044) [-3926.522] (-3934.882) (-3931.777) * [-3921.330] (-3951.766) (-3949.198) (-3930.221) -- 0:00:51
Average standard deviation of split frequencies: 0.007757
921000 -- (-3922.755) (-3926.769) [-3926.935] (-3927.895) * (-3931.651) (-3927.081) (-3930.891) [-3929.987] -- 0:00:50
922000 -- (-3926.826) [-3938.011] (-3930.413) (-3930.233) * [-3924.892] (-3929.040) (-3933.598) (-3926.449) -- 0:00:50
923000 -- (-3929.946) [-3932.078] (-3922.102) (-3921.308) * [-3924.683] (-3952.349) (-3939.127) (-3937.741) -- 0:00:49
924000 -- (-3932.032) [-3916.215] (-3939.939) (-3938.178) * (-3932.895) (-3944.345) (-3932.129) [-3935.452] -- 0:00:48
925000 -- (-3945.530) (-3928.054) [-3911.825] (-3933.466) * (-3928.506) [-3931.604] (-3932.713) (-3929.028) -- 0:00:48
Average standard deviation of split frequencies: 0.007483
926000 -- (-3933.494) [-3931.690] (-3934.953) (-3930.038) * [-3933.320] (-3925.618) (-3941.430) (-3920.313) -- 0:00:47
927000 -- (-3921.388) [-3922.543] (-3930.427) (-3926.277) * (-3933.987) (-3926.455) (-3944.160) [-3932.996] -- 0:00:46
928000 -- [-3925.832] (-3928.117) (-3933.210) (-3927.733) * (-3944.248) (-3933.334) (-3928.510) [-3924.981] -- 0:00:46
929000 -- (-3933.365) (-3920.230) (-3934.343) [-3929.753] * [-3928.912] (-3935.492) (-3949.650) (-3926.388) -- 0:00:45
930000 -- [-3938.682] (-3940.799) (-3939.796) (-3945.873) * [-3923.362] (-3924.275) (-3928.753) (-3937.453) -- 0:00:44
Average standard deviation of split frequencies: 0.007193
931000 -- (-3929.897) (-3930.481) [-3926.978] (-3940.728) * (-3954.533) (-3923.194) [-3920.864] (-3950.673) -- 0:00:44
932000 -- (-3925.609) (-3936.238) (-3930.380) [-3929.362] * (-3936.077) (-3926.839) [-3928.099] (-3932.430) -- 0:00:43
933000 -- (-3934.848) (-3927.249) (-3931.638) [-3935.697] * (-3938.969) (-3935.267) (-3924.350) [-3923.265] -- 0:00:43
934000 -- (-3929.972) (-3944.871) (-3940.550) [-3921.468] * [-3939.441] (-3925.353) (-3939.688) (-3928.947) -- 0:00:42
935000 -- [-3931.685] (-3939.925) (-3931.497) (-3931.263) * (-3934.313) [-3932.237] (-3930.872) (-3941.853) -- 0:00:41
Average standard deviation of split frequencies: 0.006787
936000 -- (-3937.952) (-3937.923) (-3927.556) [-3929.786] * (-3940.534) (-3932.650) (-3933.114) [-3919.628] -- 0:00:41
937000 -- [-3928.472] (-3942.758) (-3931.052) (-3926.898) * (-3947.753) (-3939.814) [-3932.031] (-3931.695) -- 0:00:40
938000 -- (-3933.354) (-3939.536) (-3932.414) [-3936.779] * [-3924.667] (-3918.637) (-3929.750) (-3926.567) -- 0:00:39
939000 -- (-3929.459) [-3920.971] (-3935.551) (-3931.410) * [-3927.622] (-3926.346) (-3939.407) (-3929.607) -- 0:00:39
940000 -- (-3946.559) [-3930.349] (-3934.762) (-3942.084) * (-3940.661) (-3938.706) (-3932.396) [-3929.034] -- 0:00:38
Average standard deviation of split frequencies: 0.006941
941000 -- (-3947.571) (-3935.485) (-3948.436) [-3935.815] * (-3922.960) (-3946.217) (-3934.368) [-3934.570] -- 0:00:37
942000 -- (-3936.347) (-3942.838) [-3930.394] (-3932.489) * [-3918.871] (-3925.724) (-3925.861) (-3931.240) -- 0:00:37
943000 -- (-3931.895) (-3935.638) [-3920.127] (-3947.809) * (-3947.844) (-3935.948) (-3924.508) [-3933.074] -- 0:00:36
944000 -- (-3929.218) [-3931.481] (-3925.879) (-3927.227) * (-3939.342) (-3929.676) [-3924.076] (-3929.401) -- 0:00:35
945000 -- (-3938.977) (-3934.036) (-3937.694) [-3931.459] * (-3932.324) (-3938.387) (-3925.565) [-3928.696] -- 0:00:35
Average standard deviation of split frequencies: 0.006478
946000 -- [-3951.224] (-3945.174) (-3945.037) (-3931.242) * (-3939.957) (-3941.884) (-3938.557) [-3922.764] -- 0:00:34
947000 -- [-3929.345] (-3929.759) (-3932.560) (-3930.117) * (-3931.986) (-3938.785) (-3936.727) [-3932.511] -- 0:00:34
948000 -- (-3933.604) (-3934.839) [-3919.057] (-3939.469) * (-3923.566) (-3941.126) (-3943.288) [-3929.932] -- 0:00:33
949000 -- [-3927.900] (-3924.045) (-3925.774) (-3950.980) * (-3924.116) (-3947.255) (-3950.780) [-3917.398] -- 0:00:32
950000 -- (-3934.835) (-3938.914) [-3925.614] (-3938.713) * (-3923.574) (-3932.101) (-3936.837) [-3917.744] -- 0:00:32
Average standard deviation of split frequencies: 0.006446
951000 -- (-3939.709) [-3931.495] (-3946.953) (-3928.800) * (-3930.608) (-3930.105) (-3942.608) [-3924.133] -- 0:00:31
952000 -- (-3935.082) (-3935.908) [-3920.007] (-3934.596) * (-3928.847) (-3912.867) (-3931.740) [-3929.066] -- 0:00:30
953000 -- [-3924.014] (-3947.247) (-3924.655) (-3934.413) * (-3957.398) [-3931.110] (-3931.283) (-3923.416) -- 0:00:30
954000 -- (-3928.312) (-3951.740) (-3930.501) [-3939.102] * (-3956.547) (-3928.626) [-3923.153] (-3919.957) -- 0:00:29
955000 -- (-3935.725) (-3927.826) (-3922.847) [-3935.943] * (-3945.290) [-3929.977] (-3931.843) (-3932.237) -- 0:00:28
Average standard deviation of split frequencies: 0.006622
956000 -- (-3933.237) (-3941.245) (-3935.440) [-3932.527] * (-3929.731) (-3938.833) [-3920.535] (-3930.459) -- 0:00:28
957000 -- (-3935.636) [-3921.297] (-3930.576) (-3935.575) * (-3938.719) (-3949.516) [-3920.602] (-3937.803) -- 0:00:27
958000 -- (-3938.473) (-3928.305) [-3927.832] (-3943.619) * (-3928.441) (-3940.124) (-3925.433) [-3935.180] -- 0:00:26
959000 -- (-3924.418) (-3916.492) (-3931.823) [-3927.631] * (-3936.183) [-3932.205] (-3924.646) (-3942.035) -- 0:00:26
960000 -- [-3921.868] (-3928.851) (-3940.175) (-3938.134) * (-3934.538) [-3920.883] (-3931.823) (-3924.941) -- 0:00:25
Average standard deviation of split frequencies: 0.006772
961000 -- [-3934.981] (-3923.919) (-3929.128) (-3947.155) * (-3931.164) (-3922.705) [-3933.692] (-3928.769) -- 0:00:25
962000 -- (-3938.180) (-3935.724) (-3943.462) [-3928.619] * [-3917.532] (-3930.448) (-3930.842) (-3922.785) -- 0:00:24
963000 -- (-3927.215) (-3938.449) [-3933.053] (-3927.583) * (-3922.483) [-3921.353] (-3927.477) (-3925.459) -- 0:00:23
964000 -- (-3931.406) (-3936.825) (-3920.638) [-3927.668] * [-3929.938] (-3932.439) (-3927.821) (-3935.989) -- 0:00:23
965000 -- (-3931.327) [-3928.029] (-3930.189) (-3928.049) * [-3940.269] (-3942.737) (-3932.892) (-3927.496) -- 0:00:22
Average standard deviation of split frequencies: 0.006499
966000 -- (-3937.781) (-3939.659) (-3934.446) [-3918.599] * [-3925.819] (-3929.051) (-3944.154) (-3942.123) -- 0:00:21
967000 -- (-3924.039) (-3931.639) [-3923.519] (-3944.377) * (-3938.690) (-3935.854) [-3920.993] (-3932.452) -- 0:00:21
968000 -- [-3929.748] (-3933.089) (-3940.172) (-3930.702) * (-3940.784) (-3929.673) [-3926.882] (-3920.614) -- 0:00:20
969000 -- (-3933.713) (-3932.839) [-3931.268] (-3936.573) * (-3932.242) [-3937.058] (-3933.204) (-3929.874) -- 0:00:19
970000 -- (-3936.442) [-3928.274] (-3934.328) (-3942.939) * [-3920.430] (-3929.208) (-3922.116) (-3937.002) -- 0:00:19
Average standard deviation of split frequencies: 0.006689
971000 -- [-3924.237] (-3940.618) (-3922.115) (-3948.981) * (-3936.454) (-3931.026) [-3923.654] (-3926.623) -- 0:00:18
972000 -- [-3925.265] (-3940.120) (-3938.965) (-3930.065) * (-3948.935) (-3940.913) (-3937.655) [-3931.539] -- 0:00:17
973000 -- [-3926.545] (-3938.294) (-3924.962) (-3932.626) * [-3923.962] (-3933.185) (-3942.004) (-3931.623) -- 0:00:17
974000 -- (-3932.939) (-3933.670) [-3934.180] (-3923.499) * [-3921.643] (-3940.705) (-3930.878) (-3941.898) -- 0:00:16
975000 -- [-3929.422] (-3948.696) (-3940.089) (-3920.914) * (-3932.606) (-3932.249) (-3928.031) [-3925.052] -- 0:00:16
Average standard deviation of split frequencies: 0.006657
976000 -- (-3924.939) (-3928.830) (-3933.916) [-3926.939] * [-3937.411] (-3936.484) (-3937.843) (-3932.600) -- 0:00:15
977000 -- (-3929.171) (-3935.925) (-3926.435) [-3933.387] * (-3927.690) (-3934.811) [-3922.163] (-3950.516) -- 0:00:14
978000 -- [-3928.724] (-3932.099) (-3935.177) (-3947.990) * (-3936.196) (-3942.861) [-3927.956] (-3933.226) -- 0:00:14
979000 -- (-3936.332) (-3938.919) [-3928.156] (-3940.402) * (-3935.764) (-3943.746) (-3923.791) [-3931.673] -- 0:00:13
980000 -- (-3926.492) (-3941.025) (-3935.160) [-3918.842] * [-3933.265] (-3932.165) (-3921.458) (-3932.274) -- 0:00:12
Average standard deviation of split frequencies: 0.006686
981000 -- (-3927.364) [-3927.065] (-3928.452) (-3933.156) * (-3942.966) [-3927.293] (-3944.630) (-3930.937) -- 0:00:12
982000 -- (-3928.382) [-3926.640] (-3929.286) (-3937.508) * (-3944.609) (-3947.980) [-3929.496] (-3940.799) -- 0:00:11
983000 -- (-3926.525) (-3930.843) (-3942.019) [-3928.588] * (-3949.041) (-3939.488) (-3944.918) [-3926.270] -- 0:00:10
984000 -- [-3923.880] (-3931.283) (-3942.616) (-3931.661) * (-3924.107) (-3934.287) (-3934.561) [-3935.999] -- 0:00:10
985000 -- (-3936.331) [-3928.056] (-3938.830) (-3936.168) * [-3930.412] (-3933.798) (-3928.885) (-3937.775) -- 0:00:09
Average standard deviation of split frequencies: 0.006693
986000 -- (-3930.984) (-3935.627) [-3935.318] (-3926.813) * (-3928.424) (-3943.572) (-3928.045) [-3926.281] -- 0:00:08
987000 -- [-3931.634] (-3944.557) (-3920.736) (-3933.125) * [-3921.508] (-3921.629) (-3937.852) (-3939.224) -- 0:00:08
988000 -- (-3937.211) (-3943.988) [-3927.625] (-3938.541) * (-3931.090) (-3923.772) [-3933.147] (-3940.794) -- 0:00:07
989000 -- (-3933.111) [-3935.428] (-3926.465) (-3945.490) * [-3934.851] (-3926.254) (-3931.424) (-3940.086) -- 0:00:07
990000 -- (-3936.477) (-3944.265) [-3928.691] (-3928.756) * [-3928.300] (-3928.354) (-3925.282) (-3948.225) -- 0:00:06
Average standard deviation of split frequencies: 0.006558
991000 -- (-3950.005) [-3942.403] (-3932.217) (-3931.948) * [-3920.674] (-3931.883) (-3934.683) (-3950.058) -- 0:00:05
992000 -- (-3936.370) [-3929.197] (-3924.355) (-3929.708) * (-3922.055) [-3923.104] (-3924.389) (-3934.644) -- 0:00:05
993000 -- (-3927.309) (-3935.991) [-3924.541] (-3929.328) * [-3925.829] (-3937.963) (-3937.544) (-3944.569) -- 0:00:04
994000 -- (-3935.770) (-3945.269) [-3919.639] (-3922.882) * (-3930.601) (-3931.298) (-3940.061) [-3923.610] -- 0:00:03
995000 -- (-3925.661) (-3950.058) (-3922.415) [-3912.831] * [-3924.118] (-3928.011) (-3944.270) (-3932.981) -- 0:00:03
Average standard deviation of split frequencies: 0.006585
996000 -- (-3930.669) (-3954.173) (-3925.412) [-3922.952] * (-3936.001) (-3937.836) (-3936.844) [-3933.087] -- 0:00:02
997000 -- [-3932.804] (-3940.999) (-3936.118) (-3925.615) * (-3940.895) (-3920.004) [-3930.858] (-3939.152) -- 0:00:01
998000 -- [-3930.634] (-3940.583) (-3930.215) (-3941.060) * [-3925.276] (-3941.904) (-3930.998) (-3934.471) -- 0:00:01
999000 -- (-3927.649) [-3922.240] (-3929.652) (-3933.092) * (-3928.144) (-3930.642) [-3925.342] (-3927.952) -- 0:00:00
1000000 -- [-3929.920] (-3938.171) (-3918.689) (-3947.373) * [-3924.871] (-3923.503) (-3930.331) (-3959.238) -- 0:00:00
Average standard deviation of split frequencies: 0.005877
Analysis completed in 10 mins 42 seconds
Analysis used 641.47 seconds of CPU time
Likelihood of best state for "cold" chain of run 1 was -3909.03
Likelihood of best state for "cold" chain of run 2 was -3909.31
Acceptance rates for the moves in the "cold" chain of run 1:
With prob. (last 100) chain accepted proposals by move
46.3 % ( 42 %) Dirichlet(Revmat{all})
67.2 % ( 52 %) Slider(Revmat{all})
18.2 % ( 23 %) Dirichlet(Pi{all})
24.2 % ( 26 %) Slider(Pi{all})
74.1 % ( 41 %) Multiplier(Alpha{1,2})
62.9 % ( 38 %) Multiplier(Alpha{3})
60.6 % ( 26 %) Slider(Pinvar{all})
53.3 % ( 48 %) ExtSPR(Tau{all},V{all})
42.7 % ( 48 %) ExtTBR(Tau{all},V{all})
57.7 % ( 66 %) NNI(Tau{all},V{all})
53.0 % ( 49 %) ParsSPR(Tau{all},V{all})
27.1 % ( 26 %) Multiplier(V{all})
61.4 % ( 67 %) Nodeslider(V{all})
25.6 % ( 23 %) TLMultiplier(V{all})
Acceptance rates for the moves in the "cold" chain of run 2:
With prob. (last 100) chain accepted proposals by move
46.7 % ( 38 %) Dirichlet(Revmat{all})
67.0 % ( 59 %) Slider(Revmat{all})
18.2 % ( 23 %) Dirichlet(Pi{all})
25.2 % ( 26 %) Slider(Pi{all})
73.7 % ( 47 %) Multiplier(Alpha{1,2})
63.0 % ( 35 %) Multiplier(Alpha{3})
59.5 % ( 27 %) Slider(Pinvar{all})
53.6 % ( 56 %) ExtSPR(Tau{all},V{all})
42.7 % ( 51 %) ExtTBR(Tau{all},V{all})
57.9 % ( 62 %) NNI(Tau{all},V{all})
53.2 % ( 56 %) ParsSPR(Tau{all},V{all})
27.1 % ( 21 %) Multiplier(V{all})
61.1 % ( 54 %) Nodeslider(V{all})
25.7 % ( 27 %) TLMultiplier(V{all})
Chain swap information for run 1:
1 2 3 4
----------------------------------
1 | 0.59 0.30 0.13
2 | 167033 0.62 0.33
3 | 166733 166750 0.63
4 | 166502 166336 166646
Chain swap information for run 2:
1 2 3 4
----------------------------------
1 | 0.59 0.29 0.13
2 | 166982 0.61 0.32
3 | 166708 166618 0.63
4 | 167216 165924 166552
Upper diagonal: Proportion of successful state exchanges between chains
Lower diagonal: Number of attempted state exchanges between chains
Chain information:
ID -- Heat
-----------
1 -- 1.00 (cold chain)
2 -- 0.91
3 -- 0.83
4 -- 0.77
Heat = 1 / (1 + T * (ID - 1))
(where T = 0.10 is the temperature and ID is the chain number)
Setting burn-in to 2500
Summarizing parameters in files /data/mrbayes_input.nex.run1.p and /data/mrbayes_input.nex.run2.p
Writing summary statistics to file /data/mrbayes_input.nex.pstat
Using relative burnin ('relburnin=yes'), discarding the first 25 % of samples
Below are rough plots of the generation (x-axis) versus the log
probability of observing the data (y-axis). You can use these
graphs to determine what the burn in for your analysis should be.
When the log probability starts to plateau you may be at station-
arity. Sample trees and parameters after the log probability
plateaus. Of course, this is not a guarantee that you are at sta-
tionarity. Also examine the convergence diagnostics provided by
the 'sump' and 'sumt' commands for all the parameters in your
model. Remember that the burn in is the number of samples to dis-
card. There are a total of ngen / samplefreq samples taken during
a MCMC analysis.
Overlay plot for both runs:
(1 = Run number 1; 2 = Run number 2; * = Both runs)
+------------------------------------------------------------+ -3924.79
| 2 |
| 1 |
| * 2 |
| 2 1 2 2 1 |
| 1 2 2 2 |
| * 1 1 2 21 22 1 |
| 1 2 1 11 1 1 2 1 2|
| * 12 2 2 * 1 12 11 22 1 12*2 |
|* 1 2 1 2 * 1 21 |
| 1 2 2 11 1 1 2 2 22 1 1 1|
| 1 2 1 22 1 2 * 2 2 |
| 2 22 2 1 1 1 2 1 1 1 1 |
| 2 1 2 2 1 1 |
| 22 2 2 2 |
| 1 1 1 1 1 2 |
+------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -3930.42
^ ^
250000 1000000
Estimated marginal likelihoods for runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /data/mrbayes_input.nex.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -3918.35 -3943.99
2 -3918.96 -3941.02
--------------------------------------
TOTAL -3918.61 -3943.35
--------------------------------------
Model parameter summaries over the runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.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 "/data/mrbayes_input.nex.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 0.058114 0.000048 0.044799 0.071408 0.057572 1349.32 1362.12 1.000
r(A<->C){all} 0.039036 0.000529 0.001192 0.082531 0.034860 791.49 804.33 1.000
r(A<->G){all} 0.323197 0.002478 0.232205 0.423494 0.321677 700.09 725.63 1.000
r(A<->T){all} 0.022281 0.000107 0.004701 0.042958 0.020631 796.07 990.21 1.001
r(C<->G){all} 0.015273 0.000221 0.000010 0.044542 0.010945 832.12 876.97 1.000
r(C<->T){all} 0.571426 0.002878 0.464826 0.674377 0.570484 741.65 803.81 1.001
r(G<->T){all} 0.028787 0.000145 0.007903 0.052450 0.027354 868.98 931.08 1.000
pi(A){all} 0.239662 0.000073 0.223502 0.256582 0.239487 1005.42 1154.54 1.000
pi(C){all} 0.137158 0.000047 0.124601 0.150779 0.136985 1267.87 1279.21 1.000
pi(G){all} 0.215578 0.000068 0.200142 0.232500 0.215586 1221.62 1256.30 1.000
pi(T){all} 0.407602 0.000101 0.387760 0.427354 0.407476 1115.77 1239.62 1.000
alpha{1,2} 0.131381 0.021475 0.000192 0.364621 0.093895 918.42 953.01 1.000
alpha{3} 2.164240 1.559742 0.363221 4.771774 1.877735 1294.78 1323.20 1.000
pinvar{all} 0.672782 0.006715 0.509420 0.815747 0.682229 1077.53 1091.10 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
Setting urn-in to 2500
Summarizing trees in files "/data/mrbayes_input.nex.run1.t" and "/data/mrbayes_input.nex.run2.t"
Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees
Writing statistics to files /data/mrbayes_input.nex.<parts|tstat|vstat|trprobs|con>
Examining first file ...
Found one tree block in file "/data/mrbayes_input.nex.run1.t" with 2001 trees in last block
Expecting the same number of trees in the last tree block of all files
Tree reading status:
0 10 20 30 40 50 60 70 80 90 100
v-------v-------v-------v-------v-------v-------v-------v-------v-------v-------v
*********************************************************************************
Read a total of 4002 trees in 2 files (sampling 3002 of them)
(Each file contained 2001 trees of which 1501 were sampled)
General explanation:
In an unrooted tree, a taxon bipartition (split) is specified by removing a
branch, thereby dividing the species into those to the left and those to the
right of the branch. Here, taxa to one side of the removed branch are denoted
'.' and those to the other side are denoted '*'. Specifically, the '.' symbol
is used for the taxa on the same side as the outgroup.
In a rooted or clock tree, the tree is rooted using the model and not by
reference to an outgroup. Each bipartition therefore corresponds to a clade,
that is, a group that includes all the descendants of a particular branch in
the tree. Taxa that are included in each clade are denoted using '*', and
taxa that are not included are denoted using the '.' symbol.
The output first includes a key to all the bipartitions with frequency larger
or equual to (Minpartfreq) in at least one run. Minpartfreq is a parameter to
sumt command and currently it is set to 0.10. This is followed by a table
with statistics for the informative bipartitions (those including at least
two taxa), sorted from highest to lowest probability. For each bipartition,
the table gives the number of times the partition or split was observed in all
runs (#obs) and the posterior probability of the bipartition (Probab.), which
is the same as the split frequency. If several runs are summarized, this is
followed by the minimum split frequency (Min(s)), the maximum frequency
(Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs.
The latter value should approach 0 for all bipartitions as MCMC runs converge.
This is followed by a table summarizing branch lengths, node heights (if a
clock model was used) and relaxed clock parameters (if a relaxed clock model
was used). The mean, variance, and 95 % credible interval are given for each
of these parameters. If several runs are summarized, the potential scale
reduction factor (PSRF) is also given; it should approach 1 as runs converge.
Node heights will take calibration points into account, if such points were
used in the analysis.
Note that Stddev may be unreliable if the partition is not present in all
runs (the last column indicates the number of runs that sampled the partition
if more than one run is summarized). The PSRF is not calculated at all if
the partition is not present in all runs.The PSRF is also sensitive to small
sample sizes and it should only be considered a rough guide to convergence
since some of the assumptions allowing one to interpret it as a true potential
scale reduction factor are violated in MrBayes.
List of taxa in bipartitions:
1 -- C1
2 -- C10
3 -- C11
4 -- C12
5 -- C13
6 -- C14
7 -- C15
8 -- C16
9 -- C17
10 -- C18
11 -- C19
12 -- C2
13 -- C20
14 -- C21
15 -- C22
16 -- C23
17 -- C24
18 -- C25
19 -- C26
20 -- C3
21 -- C4
22 -- C5
23 -- C6
24 -- C7
25 -- C8
26 -- C9
Key to taxon bipartitions (saved to file "/data/mrbayes_input.nex.parts"):
ID -- Partition
--------------------------------
1 -- .*************************
2 -- .*........................
3 -- ..*.......................
4 -- ...*......................
5 -- ....*.....................
6 -- .....*....................
7 -- ......*...................
8 -- .......*..................
9 -- ........*.................
10 -- .........*................
11 -- ..........*...............
12 -- ...........*..............
13 -- ............*.............
14 -- .............*............
15 -- ..............*...........
16 -- ...............*..........
17 -- ................*.........
18 -- .................*........
19 -- ..................*.......
20 -- ...................*......
21 -- ....................*.....
22 -- .....................*....
23 -- ......................*...
24 -- .......................*..
25 -- ........................*.
26 -- .........................*
27 -- .*.......................*
28 -- ...**.**..**...........**.
29 -- ...................*.**...
30 -- .**..*..*..........****..*
31 -- ..*..*....................
32 -- ...**.**...*...........**.
33 -- .*......*..........*.**..*
34 -- ...**.**.**********....**.
35 -- ..*..*..............*.....
36 -- ...**.**.***...........**.
37 -- ........*..........*.**...
38 -- .....................**...
39 -- .*.................*.**..*
40 -- ...................*.*....
41 -- ...................*..*...
42 -- .*......*................*
43 -- ....*..*..................
44 -- ...**.**...............**.
45 -- ......*................*..
46 -- ....*.**...*...........**.
47 -- ...*..*...................
--------------------------------
Summary statistics for informative taxon bipartitions
(saved to file "/data/mrbayes_input.nex.tstat"):
ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns
----------------------------------------------------------------
27 3002 1.000000 0.000000 1.000000 1.000000 2
28 3002 1.000000 0.000000 1.000000 1.000000 2
29 3000 0.999334 0.000000 0.999334 0.999334 2
30 2996 0.998001 0.000000 0.998001 0.998001 2
31 2996 0.998001 0.000000 0.998001 0.998001 2
32 2991 0.996336 0.000471 0.996003 0.996669 2
33 2986 0.994670 0.000000 0.994670 0.994670 2
34 2981 0.993005 0.000471 0.992672 0.993338 2
35 2915 0.971019 0.010835 0.963358 0.978681 2
36 1975 0.657895 0.001413 0.656895 0.658894 2
37 1019 0.339440 0.008951 0.333111 0.345769 2
38 1006 0.335110 0.017901 0.322452 0.347768 2
39 1005 0.334777 0.009893 0.327781 0.341772 2
40 998 0.332445 0.020728 0.317788 0.347102 2
41 997 0.332112 0.003298 0.329780 0.334444 2
42 966 0.321785 0.000000 0.321785 0.321785 2
43 297 0.098934 0.008009 0.093271 0.104597 2
44 294 0.097935 0.005653 0.093937 0.101932 2
45 290 0.096602 0.013191 0.087275 0.105929 2
46 281 0.093604 0.009893 0.086609 0.100600 2
47 275 0.091606 0.012719 0.082612 0.100600 2
----------------------------------------------------------------
+ Convergence diagnostic (standard deviation of split frequencies)
should approach 0.0 as runs converge.
Summary statistics for branch and node parameters
(saved to file "/data/mrbayes_input.nex.vstat"):
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median PSRF+ Nruns
-------------------------------------------------------------------------------------------
length{all}[1] 0.003875 0.000001 0.001759 0.006327 0.003752 1.000 2
length{all}[2] 0.000694 0.000000 0.000002 0.001661 0.000583 1.001 2
length{all}[3] 0.000348 0.000000 0.000000 0.001008 0.000245 1.000 2
length{all}[4] 0.000692 0.000000 0.000009 0.001683 0.000583 1.000 2
length{all}[5] 0.000362 0.000000 0.000000 0.001064 0.000255 1.000 2
length{all}[6] 0.002056 0.000001 0.000549 0.003805 0.001943 1.000 2
length{all}[7] 0.000689 0.000000 0.000001 0.001678 0.000564 1.000 2
length{all}[8] 0.000698 0.000000 0.000031 0.001644 0.000598 1.001 2
length{all}[9] 0.001005 0.000000 0.000102 0.002112 0.000899 1.000 2
length{all}[10] 0.000966 0.000000 0.000028 0.002260 0.000823 1.000 2
length{all}[11] 0.004948 0.000002 0.002291 0.008273 0.004781 1.000 2
length{all}[12] 0.000704 0.000000 0.000006 0.001636 0.000582 1.000 2
length{all}[13] 0.000337 0.000000 0.000000 0.001016 0.000234 1.000 2
length{all}[14] 0.000689 0.000000 0.000013 0.001594 0.000578 1.000 2
length{all}[15] 0.000672 0.000000 0.000000 0.001624 0.000558 1.000 2
length{all}[16] 0.001370 0.000000 0.000260 0.002746 0.001257 1.000 2
length{all}[17] 0.001706 0.000001 0.000441 0.003301 0.001590 1.000 2
length{all}[18] 0.000342 0.000000 0.000000 0.001017 0.000239 1.000 2
length{all}[19] 0.000342 0.000000 0.000000 0.001064 0.000226 1.000 2
length{all}[20] 0.001014 0.000000 0.000118 0.002216 0.000896 1.000 2
length{all}[21] 0.001509 0.000001 0.000302 0.003106 0.001382 1.000 2
length{all}[22] 0.001378 0.000000 0.000228 0.002668 0.001277 1.000 2
length{all}[23] 0.001019 0.000000 0.000140 0.002214 0.000905 1.000 2
length{all}[24] 0.000695 0.000000 0.000023 0.001682 0.000583 1.001 2
length{all}[25] 0.000351 0.000000 0.000000 0.001041 0.000245 1.000 2
length{all}[26] 0.000352 0.000000 0.000000 0.001105 0.000232 1.000 2
length{all}[27] 0.001020 0.000000 0.000095 0.002159 0.000914 1.000 2
length{all}[28] 0.011550 0.000006 0.006828 0.016323 0.011330 1.000 2
length{all}[29] 0.001043 0.000000 0.000097 0.002320 0.000913 1.000 2
length{all}[30] 0.001653 0.000001 0.000260 0.003205 0.001498 1.000 2
length{all}[31] 0.002353 0.000001 0.000716 0.004337 0.002235 1.000 2
length{all}[32] 0.002766 0.000001 0.000587 0.004983 0.002626 1.001 2
length{all}[33] 0.001183 0.000000 0.000106 0.002562 0.001048 1.000 2
length{all}[34] 0.001390 0.000001 0.000208 0.002783 0.001272 1.000 2
length{all}[35] 0.001073 0.000000 0.000083 0.002300 0.000941 1.000 2
length{all}[36] 0.000965 0.000000 0.000034 0.002107 0.000855 1.000 2
length{all}[37] 0.000341 0.000000 0.000001 0.001017 0.000228 0.999 2
length{all}[38] 0.000351 0.000000 0.000002 0.001043 0.000235 0.999 2
length{all}[39] 0.000333 0.000000 0.000001 0.000967 0.000234 1.001 2
length{all}[40] 0.000318 0.000000 0.000000 0.000945 0.000217 0.999 2
length{all}[41] 0.000359 0.000000 0.000000 0.001053 0.000254 0.999 2
length{all}[42] 0.000359 0.000000 0.000000 0.001062 0.000245 0.999 2
length{all}[43] 0.000358 0.000000 0.000000 0.001044 0.000256 0.999 2
length{all}[44] 0.000370 0.000000 0.000001 0.001057 0.000267 1.010 2
length{all}[45] 0.000352 0.000000 0.000003 0.001058 0.000239 1.005 2
length{all}[46] 0.000343 0.000000 0.000003 0.000969 0.000230 0.998 2
length{all}[47] 0.000304 0.000000 0.000001 0.000777 0.000234 0.998 2
-------------------------------------------------------------------------------------------
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when
deviation of parameter values within all runs is 0 or when a parameter
value (a branch length, for instance) is not sampled in all runs.
Summary statistics for partitions with frequency >= 0.10 in at least one run:
Average standard deviation of split frequencies = 0.005877
Maximum standard deviation of split frequencies = 0.020728
Average PSRF for parameter values (excluding NA and >10.0) = 1.000
Maximum PSRF for parameter values = 1.010
Clade credibility values:
/---------------------------------------------------------------------- C1 (1)
|
| /-------------- C10 (2)
| /-----100-----+
| | \-------------- C9 (26)
| |
| |---------------------------- C17 (9)
| /------99-----+
| | | /-------------- C3 (20)
| | | |
| | \-----100-----+-------------- C5 (22)
| | |
|------------100------------+ \-------------- C6 (23)
| |
| | /-------------- C11 (3)
| | /-----100-----+
| | | \-------------- C14 (6)
| \------97-----+
| \---------------------------- C4 (21)
|
| /-------------- C12 (4)
+ |
| |-------------- C13 (5)
| |
| |-------------- C15 (7)
| |
| /-----100-----+-------------- C16 (8)
| | |
| | |-------------- C2 (12)
| | |
| /-----100-----+ |-------------- C7 (24)
| | | |
| | | \-------------- C8 (25)
| /------66-----+ |
| | | \---------------------------- C19 (11)
| | |
| | \------------------------------------------ C18 (10)
| |
| |-------------------------------------------------------- C20 (13)
| |
| |-------------------------------------------------------- C21 (14)
| |
\------99-----+-------------------------------------------------------- C22 (15)
|
|-------------------------------------------------------- C23 (16)
|
|-------------------------------------------------------- C24 (17)
|
|-------------------------------------------------------- C25 (18)
|
\-------------------------------------------------------- C26 (19)
Phylogram (based on average branch lengths):
/-------------- C1 (1)
|
| /--- C10 (2)
| /--+
| | \- C9 (26)
| |
| |--- C17 (9)
| /---+
| | | /---- C3 (20)
| | | |
| | \--+----- C5 (22)
| | |
|-----+ \---- C6 (23)
| |
| | /- C11 (3)
| | /--------+
| | | \------- C14 (6)
| \--+
| \------ C4 (21)
|
| /-- C12 (4)
+ |
| |- C13 (5)
| |
| |-- C15 (7)
| |
| /---------+-- C16 (8)
| | |
| | |-- C2 (12)
| | |
| /-------------------------------------------+ |-- C7 (24)
| | | |
| | | \- C8 (25)
| /--+ |
| | | \------------------ C19 (11)
| | |
| | \--- C18 (10)
| |
| |- C20 (13)
| |
| |-- C21 (14)
| |
\----+-- C22 (15)
|
|----- C23 (16)
|
|------ C24 (17)
|
|- C25 (18)
|
\- C26 (19)
|------------------| 0.005 expected changes per site
Calculating tree probabilities...
Credible sets of trees (3002 trees sampled):
50 % credible set contains 1501 trees
90 % credible set contains 2702 trees
95 % credible set contains 2852 trees
99 % credible set contains 2972 trees
Exiting mrbayes block
Reached end of file
Tasks completed, exiting program because mode is noninteractive
To return control to the command line after completion of file processing,
set mode to interactive with 'mb -i <filename>' (i is for interactive)
or use 'set mode=interactive'
-- Starting log on Sat Nov 05 01:40:07 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
CLUSTAL FORMAT for T-COFFEE Version_12.00.7fb08c2 [http://www.tcoffee.org] [MODE: ], CPU=0.12 sec, SCORE=1000, Nseq=26, Len=790
C1 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C2 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C3 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C4 GSVVFVDKYMCGFDGKPMLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C5 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C6 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C7 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C8 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C9 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C10 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C11 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C12 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C13 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C14 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C15 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C16 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C17 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDV
C18 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C19 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDV
C20 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C21 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIIIDGVTYQLAWDV
C22 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C23 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C24 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C25 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
C26 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDV
****************:*************:*****:*.**********
C1 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C2 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C3 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C4 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C5 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C6 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C7 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C8 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C9 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C10 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C11 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C12 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C13 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C14 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C15 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C16 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C17 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C18 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C19 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C20 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C21 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C22 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C23 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C24 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSG
C25 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
C26 IRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSG
********************************** ***************
C1 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C2 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C3 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C4 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C5 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C6 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C7 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C8 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C9 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C10 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C11 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C12 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C13 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C14 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C15 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C16 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C17 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C18 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C19 EWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDG
C20 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C21 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C22 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C23 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C24 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C25 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
C26 EWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDG
******:**********:***********************.********
C1 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C2 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C3 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C4 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C5 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C6 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C7 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C8 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C9 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C10 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C11 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C12 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C13 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C14 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C15 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C16 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNI
C17 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNI
C18 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C19 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHIINI
C20 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C21 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C22 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C23 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C24 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C25 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
C26 YLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNI
******************************.**************** **
C1 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C2 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C3 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C4 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C5 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C6 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C7 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C8 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C9 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C10 TGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C11 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C12 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C13 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C14 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C15 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C16 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C17 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C18 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C19 TGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C20 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C21 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C22 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C23 TGVSLWRVTAVHSDGIFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C24 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C25 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
C26 TGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLA
**********:****:***:******************************
C1 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C2 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C3 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C4 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C5 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C6 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C7 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C8 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C9 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C10 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C11 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C12 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C13 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C14 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C15 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C16 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C17 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C18 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C19 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C20 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C21 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C22 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C23 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C24 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C25 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
C26 FLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
**************************************************
C1 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C2 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C3 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C4 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C5 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C6 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C7 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C8 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C9 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C10 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C11 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C12 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C13 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C14 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C15 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C16 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C17 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C18 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C19 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQP
C20 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C21 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C22 IWDAFVAAIKLVPTTTGALVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C23 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C24 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C25 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
C26 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQS
***************** *******************************.
C1 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C2 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C3 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C4 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C5 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C6 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C7 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C8 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C9 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C10 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C11 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C12 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C13 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C14 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C15 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C16 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C17 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C18 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C19 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C20 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C21 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C22 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C23 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C24 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C25 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
C26 VYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRG
**************************************************
C1 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C2 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C3 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C4 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C5 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C6 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C7 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C8 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C9 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C10 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCVPVVCPKGKIV
C11 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C12 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C13 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C14 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C15 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C16 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C17 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C18 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C19 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C20 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C21 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C22 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C23 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C24 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C25 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
C26 VRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIV
***************************************.**********
C1 VIAGQAFFYSGGFYRFMVDPTTVLNGPVFTGDLFYTIKFSGFKLDGFNHQ
C2 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C3 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C4 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C5 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C6 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C7 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C8 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C9 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C10 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C11 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C12 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C13 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C14 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C15 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C16 VIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C17 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C18 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C19 VIAGQAFFYSGGFYRFMVDSTTVLNDPVFTGELFYTIKFSGFKLDGFNHQ
C20 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C21 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C22 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C23 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C24 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C25 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
C26 VIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQ
**********.********.*****.*****:******************
C1 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDAAFATHVC
C2 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C3 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C4 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C5 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C6 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C7 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C8 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C9 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C10 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C11 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C12 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C13 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C14 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C15 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C16 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C17 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C18 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C19 FVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVKRDATFATHVC
C20 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C21 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C22 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C23 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C24 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C25 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
C26 FVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVC
**.*************** ********************:***:******
C1 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQATESKVLLER
C2 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C3 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C4 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C5 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C6 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C7 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C8 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C9 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C10 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C11 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C12 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C13 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C14 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C15 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C16 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C17 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C18 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C19 FKDCYSIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C20 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C21 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C22 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C23 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C24 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C25 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
C26 FKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
*****.***********************************:********
C1 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C2 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C3 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C4 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C5 FLPKCPEILLSIDDGHLWNLFVEKFTFVTDWLKTLKLTLTSNGLLGNCAK
C6 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C7 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C8 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C9 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C10 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C11 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C12 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C13 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C14 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C15 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C16 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C17 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C18 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C19 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C20 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C21 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C22 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C23 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C24 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C25 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
C26 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAK
*************************.************************
C1 RFRRFLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C2 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C3 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C4 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C5 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C6 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C7 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C8 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C9 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C10 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C11 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C12 RFRRVLVKLLDVYNGFLETVCSVVRTAGVCIKYYAVNVPYVVISGFVSRV
C13 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C14 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C15 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C16 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C17 RFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRV
C18 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C19 RFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRV
C20 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C21 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C22 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C23 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C24 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C25 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
C26 RFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRV
****.******************. *************************
C1 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C2 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C3 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C4 IRRERCDMTFPCVSCVTFFYEFLDTCFGVGKPNAIDVEHLELKETVFVEP
C5 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C6 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C7 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C8 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C9 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C10 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C11 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C12 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C13 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C14 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C15 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C16 IRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEP
C17 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C18 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C19 IRRERCDMTFPCVSCVTFFYEFLDTCFDVSKPNAIDVEHLELKETVFVEP
C20 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C21 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C22 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C23 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C24 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C25 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
C26 IRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEP
*******:*******************.*.********************
C1 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C2 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C3 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C4 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C5 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C6 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C7 KDGGHFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C8 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C9 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C10 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C11 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C12 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C13 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C14 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C15 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG
C16 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C17 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C18 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C19 KDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C20 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C21 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C22 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C23 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C24 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C25 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
C26 KDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
****:****.*****************************
-- Starting log on Sat Nov 05 04:17:24 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/original_alignment/codeml,NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1--
CODONML in paml version 4.9h, March 2018
----------------------------------------------
Phe F TTT | Ser S TCT | Tyr Y TAT | Cys C TGT
TTC | TCC | TAC | TGC
Leu L TTA | TCA | *** * TAA | *** * TGA
TTG | TCG | TAG | Trp W TGG
----------------------------------------------
Leu L CTT | Pro P CCT | His H CAT | Arg R CGT
CTC | CCC | CAC | CGC
CTA | CCA | Gln Q CAA | CGA
CTG | CCG | CAG | CGG
----------------------------------------------
Ile I ATT | Thr T ACT | Asn N AAT | Ser S AGT
ATC | ACC | AAC | AGC
ATA | ACA | Lys K AAA | Arg R AGA
Met M ATG | ACG | AAG | AGG
----------------------------------------------
Val V GTT | Ala A GCT | Asp D GAT | Gly G GGT
GTC | GCC | GAC | GGC
GTA | GCA | Glu E GAA | GGA
GTG | GCG | GAG | GGG
----------------------------------------------
Nice code, uuh?
NSsites batch run (ncatG as in YNGP2000): 1 2 7 8
processing fasta file
reading seq# 1 C1 2370 sites
reading seq# 2 C2 2370 sites
reading seq# 3 C3 2370 sites
reading seq# 4 C4 2370 sites
reading seq# 5 C5 2370 sites
reading seq# 6 C6 2370 sites
reading seq# 7 C7 2370 sites
reading seq# 8 C8 2370 sites
reading seq# 9 C9 2370 sites
reading seq#10 C10 2370 sites
reading seq#11 C11 2370 sites
reading seq#12 C12 2370 sites
reading seq#13 C13 2370 sites
reading seq#14 C14 2370 sites
reading seq#15 C15 2370 sites
reading seq#16 C16 2370 sites
reading seq#17 C17 2370 sites
reading seq#18 C18 2370 sites
reading seq#19 C19 2370 sites
reading seq#20 C20 2370 sites
reading seq#21 C21 2370 sites
reading seq#22 C22 2370 sites
reading seq#23 C23 2370 sites
reading seq#24 C24 2370 sites
reading seq#25 C25 2370 sites
reading seq#26 C26 2370 sitesns = 26 ls = 2370
Reading sequences, sequential format..
Reading seq # 1: C1
Reading seq # 2: C2
Reading seq # 3: C3
Reading seq # 4: C4
Reading seq # 5: C5
Reading seq # 6: C6
Reading seq # 7: C7
Reading seq # 8: C8
Reading seq # 9: C9
Reading seq #10: C10
Reading seq #11: C11
Reading seq #12: C12
Reading seq #13: C13
Reading seq #14: C14
Reading seq #15: C15
Reading seq #16: C16
Reading seq #17: C17
Reading seq #18: C18
Reading seq #19: C19
Reading seq #20: C20
Reading seq #21: C21
Reading seq #22: C22
Reading seq #23: C23
Reading seq #24: C24
Reading seq #25: C25
Reading seq #26: C26
Sites with gaps or missing data are removed.
6 ambiguity characters in seq. 1
6 ambiguity characters in seq. 2
6 ambiguity characters in seq. 16
6 ambiguity characters in seq. 17
6 ambiguity characters in seq. 18
6 ambiguity characters in seq. 19
6 ambiguity characters in seq. 20
6 ambiguity characters in seq. 21
6 ambiguity characters in seq. 22
6 ambiguity characters in seq. 23
6 ambiguity characters in seq. 24
6 ambiguity characters in seq. 25
6 ambiguity characters in seq. 26
2 sites are removed. 1 790
Sequences read..
Counting site patterns.. 0:00
Compressing, 143 patterns at 788 / 788 sites (100.0%), 0:00
Collecting fpatt[] & pose[], 143 patterns at 788 / 788 sites (100.0%), 0:00
Counting codons..
2600 bytes for distance
139568 bytes for conP
12584 bytes for fhK
5000000 bytes for space
Model 1: NearlyNeutral
TREE # 1
(1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
767624 bytes for conP, adjusted
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
34
0.012934 0.050417 0.101339 0.074212 0.079066 0.046869 0.040917 0.042002 0.039100 0.095259 0.050527 0.058128 0.095147 0.040616 0.059782 0.020575 0.092405 0.014539 0.010202 0.055621 0.029911 0.052028 0.049513 0.098897 0.105196 0.030108 0.065310 0.019295 0.022502 0.014158 0.075264 0.109207 0.069265 0.072893 0.066050 0.039493 0.300000 0.622196 0.539715
ntime & nrate & np: 36 2 39
Bounds (np=39):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.000001
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 1.000000
Qfactor_NS = 7.842865
np = 39
lnL0 = -5106.797990
Iterating by ming2
Initial: fx= 5106.797990
x= 0.01293 0.05042 0.10134 0.07421 0.07907 0.04687 0.04092 0.04200 0.03910 0.09526 0.05053 0.05813 0.09515 0.04062 0.05978 0.02057 0.09240 0.01454 0.01020 0.05562 0.02991 0.05203 0.04951 0.09890 0.10520 0.03011 0.06531 0.01930 0.02250 0.01416 0.07526 0.10921 0.06926 0.07289 0.06605 0.03949 0.30000 0.62220 0.53972
1 h-m-p 0.0000 0.0000 4220.7313 ++ 4807.482345 m 0.0000 44 | 1/39
2 h-m-p 0.0000 0.0000 12685.9209 ++ 4612.477686 m 0.0000 86 | 1/39
3 h-m-p 0.0000 0.0000 130371.2237 ++ 4509.485417 m 0.0000 128 | 1/39
4 h-m-p 0.0000 0.0000 94091.8839 +YCYC 4508.589894 3 0.0000 175 | 1/39
5 h-m-p 0.0000 0.0000 93539.0241 +YCCCC 4506.447746 4 0.0000 225 | 1/39
6 h-m-p 0.0000 0.0000 530163.2617 ++ 4418.210445 m 0.0000 267 | 1/39
7 h-m-p 0.0000 0.0000 9465935.3537 ++ 4396.646849 m 0.0000 309 | 2/39
8 h-m-p 0.0000 0.0000 27626.4816 ++ 4380.925549 m 0.0000 351 | 3/39
9 h-m-p 0.0000 0.0000 69680.4757 ++ 4304.663028 m 0.0000 393 | 4/39
10 h-m-p 0.0000 0.0000 31858.9141 ++ 4259.318533 m 0.0000 435 | 5/39
11 h-m-p 0.0000 0.0000 34934.8063 ++ 4222.536100 m 0.0000 477 | 5/39
12 h-m-p -0.0000 -0.0000 14542.5466
h-m-p: -0.00000000e+00 -0.00000000e+00 1.45425466e+04 4222.536100
.. | 5/39
13 h-m-p 0.0000 0.0000 468034.3838 --YCYYCYCCC 4201.600028 8 0.0000 572 | 5/39
14 h-m-p 0.0000 0.0000 7605.7861 +CYYCYCCC 4169.915398 7 0.0000 626 | 5/39
15 h-m-p 0.0000 0.0000 3485.3752 ++ 4152.991390 m 0.0000 668 | 6/39
16 h-m-p 0.0000 0.0000 11979.0618 ++ 4143.451431 m 0.0000 710 | 7/39
17 h-m-p 0.0000 0.0000 22382.9705 +YCCYCC 4089.261007 5 0.0000 762 | 7/39
18 h-m-p 0.0000 0.0000 86196.4311 +CYCCCC 4075.436773 5 0.0000 814 | 7/39
19 h-m-p 0.0000 0.0000 2278372.4907 +CCYYYC 4059.207659 5 0.0000 864 | 7/39
20 h-m-p 0.0000 0.0000 18018.4862 +CYYCYCCC 4048.619133 7 0.0000 918 | 7/39
21 h-m-p 0.0000 0.0000 60901.1322 +YYYCYCCC 4044.360709 7 0.0000 971 | 7/39
22 h-m-p 0.0000 0.0000 12390.9378 +YYYYCCCCC 4036.897919 8 0.0000 1026 | 7/39
23 h-m-p 0.0000 0.0000 33222.4021 +CYYCC 4031.730309 4 0.0000 1075 | 7/39
24 h-m-p 0.0000 0.0000 51977.8496 +YYYCYCCC 4020.408321 7 0.0000 1128 | 7/39
25 h-m-p 0.0000 0.0000 75065.8058 +YYYYYCCCCC 4006.921224 9 0.0000 1184 | 7/39
26 h-m-p 0.0000 0.0000 26015.7441 +CYYCYCCC 3991.663394 7 0.0000 1238 | 7/39
27 h-m-p 0.0000 0.0000 3633.1131 +YYCCCC 3985.252723 5 0.0000 1289 | 7/39
28 h-m-p 0.0000 0.0000 4585.0224 +YYYCCC 3983.002559 5 0.0000 1339 | 7/39
29 h-m-p 0.0000 0.0000 1882.5534 +YYCCC 3981.062399 4 0.0000 1388 | 7/39
30 h-m-p 0.0000 0.0000 966.2773 YCYCCC 3980.689401 5 0.0000 1438 | 7/39
31 h-m-p 0.0000 0.0000 436.7902 YCCCC 3979.909271 4 0.0000 1487 | 7/39
32 h-m-p 0.0000 0.0000 2889.2117 CCCC 3978.810307 3 0.0000 1535 | 7/39
33 h-m-p 0.0000 0.0000 4375.8591 +YCCCC 3972.618240 4 0.0000 1585 | 7/39
34 h-m-p 0.0000 0.0000 5034.1370 CCCC 3969.329721 3 0.0000 1633 | 7/39
35 h-m-p 0.0000 0.0000 3134.6881 +CYYYCCCC 3958.287583 7 0.0000 1687 | 7/39
36 h-m-p 0.0000 0.0000 31126.3833 +YYCYCC 3947.421427 5 0.0000 1737 | 7/39
37 h-m-p 0.0000 0.0000 23691.6744 +CYYCCCCC 3929.746634 7 0.0000 1792 | 7/39
38 h-m-p 0.0000 0.0000 72058.1460 ++ 3887.349521 m 0.0000 1834 | 7/39
39 h-m-p 0.0000 0.0000 844504.7532 +YYYCCC 3880.298639 5 0.0000 1884 | 7/39
40 h-m-p 0.0000 0.0000 77666.4224 +YYYYYYYYC 3860.013749 8 0.0000 1935 | 7/39
41 h-m-p 0.0000 0.0001 639.7607 YCYCCC 3856.547093 5 0.0000 1985 | 7/39
42 h-m-p 0.0000 0.0002 579.6540 +YYCYCC 3847.304090 5 0.0001 2035 | 7/39
43 h-m-p 0.0000 0.0000 10226.6264 +CYYCC 3832.065830 4 0.0000 2084 | 7/39
44 h-m-p 0.0001 0.0005 39.2393 ++ 3831.651560 m 0.0005 2126 | 8/39
45 h-m-p 0.0251 0.3177 0.7033 +YYCC 3827.920754 3 0.0789 2173 | 7/39
46 h-m-p 0.0000 0.0002 812.7882 CYCC 3825.262523 3 0.0001 2251 | 7/39
47 h-m-p 0.0037 0.0184 6.7687 ++ 3814.787245 m 0.0184 2293 | 8/39
48 h-m-p 0.1099 0.5493 0.2242 +YYCCYCC 3797.019879 6 0.5001 2346 | 8/39
49 h-m-p 0.1608 0.8041 0.0698 +CYCYYCCC 3781.521528 7 0.7505 2431 | 7/39
50 h-m-p 0.0000 0.0002 62.7252 CCC 3781.436583 2 0.0000 2508 | 7/39
51 h-m-p 0.0088 0.1830 0.3142 ++YYYYCYCCC 3774.394775 8 0.1469 2563 | 7/39
52 h-m-p 0.0642 0.6839 0.7189 +YCYCCC 3758.652580 5 0.5975 2647 | 7/39
53 h-m-p 0.0103 0.0513 7.2316 +CYCCC 3750.338689 4 0.0427 2729 | 7/39
54 h-m-p 0.0089 0.0443 8.7739 +YYYCCC 3742.279285 5 0.0322 2779 | 7/39
55 h-m-p 0.1091 0.5457 0.3707 +YYYYYYY 3732.248484 6 0.4358 2828 | 7/39
56 h-m-p 0.2632 1.3158 0.2130 YYCCC 3730.400469 4 0.3514 2908 | 7/39
57 h-m-p 0.1013 0.5065 0.0498 ++ 3727.278093 m 0.5065 2982 | 8/39
58 h-m-p 0.0952 1.4522 0.2024 +CCCC 3725.028144 3 0.4594 3063 | 8/39
59 h-m-p 0.4229 2.9630 0.2198 +YYYYC 3721.792129 4 1.6581 3141 | 8/39
60 h-m-p 1.2847 8.0000 0.2837 YYCCC 3718.742061 4 1.5811 3220 | 8/39
61 h-m-p 1.1011 5.5057 0.2516 +YYCCC 3712.695820 4 3.6497 3300 | 8/39
62 h-m-p 0.4250 2.1250 0.3998 +YYCCC 3710.139119 4 1.3760 3380 | 8/39
63 h-m-p 0.9906 5.1757 0.5554 CYCC 3707.903934 3 1.2698 3458 | 7/39
64 h-m-p 0.0201 0.1004 22.1621 --YC 3707.902475 1 0.0002 3534 | 7/39
65 h-m-p 0.0076 0.6613 0.4882 ++++ 3706.962774 m 0.6613 3578 | 8/39
66 h-m-p 0.5191 2.5955 0.5164 YCYCC 3705.661642 4 1.2724 3658 | 8/39
67 h-m-p 0.7768 3.8841 0.4271 CCCC 3704.422105 3 1.2829 3737 | 8/39
68 h-m-p 1.6000 8.0000 0.1413 CCC 3703.520074 2 2.0106 3814 | 8/39
69 h-m-p 1.0867 8.0000 0.2614 +YCCC 3702.855336 3 2.8502 3893 | 8/39
70 h-m-p 1.6000 8.0000 0.3536 +YCCC 3701.150646 3 5.1728 3972 | 7/39
71 h-m-p 0.0101 0.0505 55.1531 --C 3701.147898 0 0.0002 4047 | 7/39
72 h-m-p 0.0332 0.4991 0.2817 ++ 3700.890683 m 0.4991 4089 | 8/39
73 h-m-p 0.3653 3.2843 0.3848 +YCCC 3700.371121 3 1.0447 4169 | 8/39
74 h-m-p 1.6000 8.0000 0.0052 +YCC 3699.616264 2 4.7361 4246 | 8/39
75 h-m-p 0.1381 8.0000 0.1793 ++CCCC 3698.648020 3 3.2068 4327 | 8/39
76 h-m-p 1.5089 7.5446 0.1261 CCCC 3697.854921 3 2.1893 4406 | 8/39
77 h-m-p 0.6014 8.0000 0.4592 +CYC 3697.303337 2 2.3081 4483 | 8/39
78 h-m-p 1.6000 8.0000 0.5733 CC 3696.958557 1 1.8420 4558 | 8/39
79 h-m-p 1.6000 8.0000 0.5865 CCCC 3696.655860 3 2.1171 4637 | 8/39
80 h-m-p 1.6000 8.0000 0.1997 CC 3696.434758 1 2.1519 4712 | 8/39
81 h-m-p 1.6000 8.0000 0.0187 YC 3696.295653 1 2.7728 4786 | 8/39
82 h-m-p 1.6000 8.0000 0.0256 CC 3696.171327 1 2.3017 4861 | 8/39
83 h-m-p 1.2264 8.0000 0.0480 +CC 3696.030559 1 4.2062 4937 | 8/39
84 h-m-p 1.5839 8.0000 0.1274 YC 3695.846943 1 3.1081 5011 | 8/39
85 h-m-p 1.6000 8.0000 0.2412 YC 3695.769596 1 2.7493 5085 | 8/39
86 h-m-p 1.6000 8.0000 0.0341 YC 3695.707099 1 2.6534 5159 | 8/39
87 h-m-p 1.0454 8.0000 0.0865 YC 3695.675843 1 2.5981 5233 | 8/39
88 h-m-p 1.6000 8.0000 0.0378 +YC 3695.624417 1 4.7347 5308 | 8/39
89 h-m-p 1.2378 8.0000 0.1446 CC 3695.598857 1 1.5914 5383 | 8/39
90 h-m-p 1.6000 8.0000 0.0494 CC 3695.583975 1 2.5531 5458 | 8/39
91 h-m-p 1.6000 8.0000 0.0477 CC 3695.573454 1 2.0968 5533 | 8/39
92 h-m-p 1.6000 8.0000 0.0583 YC 3695.566673 1 2.6257 5607 | 8/39
93 h-m-p 1.6000 8.0000 0.0727 YC 3695.558357 1 3.8204 5681 | 8/39
94 h-m-p 1.6000 8.0000 0.0238 YC 3695.553218 1 3.4343 5755 | 8/39
95 h-m-p 1.6000 8.0000 0.0109 YC 3695.545517 1 3.7586 5829 | 8/39
96 h-m-p 1.1804 8.0000 0.0346 +YC 3695.539008 1 4.0094 5904 | 8/39
97 h-m-p 1.6000 8.0000 0.0373 CC 3695.535910 1 2.4627 5979 | 8/39
98 h-m-p 1.6000 8.0000 0.0044 ++ 3695.526970 m 8.0000 6052 | 8/39
99 h-m-p 1.0517 8.0000 0.0332 +YC 3695.519413 1 2.9786 6127 | 8/39
100 h-m-p 1.6000 8.0000 0.0559 +YC 3695.511013 1 4.0011 6202 | 8/39
101 h-m-p 1.6000 8.0000 0.0385 +YC 3695.496528 1 5.2421 6277 | 8/39
102 h-m-p 1.6000 8.0000 0.1062 YC 3695.480263 1 3.3518 6351 | 8/39
103 h-m-p 1.6000 8.0000 0.0164 +YC 3695.463392 1 4.3955 6426 | 8/39
104 h-m-p 0.5367 8.0000 0.1345 +CC 3695.447018 1 2.8385 6502 | 8/39
105 h-m-p 1.6000 8.0000 0.1006 YC 3695.444307 1 1.2407 6576 | 8/39
106 h-m-p 1.6000 8.0000 0.0250 +YC 3695.443155 1 4.4604 6651 | 8/39
107 h-m-p 1.6000 8.0000 0.0016 ++ 3695.436113 m 8.0000 6724 | 8/39
108 h-m-p 0.3425 8.0000 0.0367 +YC 3695.433832 1 2.2865 6799 | 8/39
109 h-m-p 1.6000 8.0000 0.0065 +C 3695.427832 0 6.3508 6873 | 8/39
110 h-m-p 1.6000 8.0000 0.0166 C 3695.427113 0 1.6365 6946 | 8/39
111 h-m-p 1.6000 8.0000 0.0000 ++ 3695.423862 m 8.0000 7019 | 8/39
112 h-m-p 0.0160 8.0000 0.0264 +++CC 3695.416501 1 1.2052 7097 | 8/39
113 h-m-p 1.6000 8.0000 0.0121 ++ 3695.410066 m 8.0000 7170 | 8/39
114 h-m-p 1.6000 8.0000 0.0011 CC 3695.405988 1 1.9964 7245 | 8/39
115 h-m-p 0.1588 8.0000 0.0139 +++ 3695.402504 m 8.0000 7319 | 8/39
116 h-m-p 1.6000 8.0000 0.0574 +YC 3695.386680 1 5.1726 7394 | 8/39
117 h-m-p 1.6000 8.0000 0.0560 CC 3695.378156 1 1.7142 7469 | 8/39
118 h-m-p 1.6000 8.0000 0.0056 YC 3695.377333 1 3.5150 7543 | 8/39
119 h-m-p 1.6000 8.0000 0.0001 ++ 3695.371826 m 8.0000 7616 | 8/39
120 h-m-p 0.0391 8.0000 0.0224 ++YC 3695.369359 1 1.2886 7692 | 8/39
121 h-m-p 1.6000 8.0000 0.0015 Y 3695.369250 0 1.2191 7765 | 8/39
122 h-m-p 1.6000 8.0000 0.0001 +C 3695.369237 0 6.1928 7839 | 8/39
123 h-m-p 1.6000 8.0000 0.0001 +Y 3695.369209 0 4.6562 7913 | 8/39
124 h-m-p 0.8912 8.0000 0.0005 Y 3695.369189 0 1.7566 7986 | 8/39
125 h-m-p 1.6000 8.0000 0.0001 Y 3695.369188 0 1.0582 8059 | 8/39
126 h-m-p 1.6000 8.0000 0.0000 ++ 3695.369188 m 8.0000 8132 | 8/39
127 h-m-p 1.6000 8.0000 0.0000 ++ 3695.369188 m 8.0000 8205 | 8/39
128 h-m-p 0.0440 8.0000 0.0060 ++C 3695.369181 0 1.0493 8280 | 8/39
129 h-m-p 1.6000 8.0000 0.0001 ------------C 3695.369181 0 0.0000 8365 | 8/39
130 h-m-p 0.0160 8.0000 0.0001 ---------C 3695.369181 0 0.0000 8447
Out..
lnL = -3695.369181
8448 lfun, 25344 eigenQcodon, 608256 P(t)
end of tree file.
Time used: 3:44
Model 2: PositiveSelection
TREE # 1
(1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
34
0.048206 0.052638 0.066115 0.038950 0.069085 0.042536 0.069815 0.040136 0.101109 0.044326 0.065992 0.039272 0.097501 0.032722 0.072593 0.064984 0.082681 0.102284 0.095653 0.043341 0.019522 0.078058 0.014860 0.099655 0.070649 0.080018 0.074889 0.016433 0.045966 0.039762 0.062169 0.083422 0.103601 0.042890 0.021803 0.050676 15.972585 1.164597 0.277499 0.237205 1.457539
ntime & nrate & np: 36 3 41
Bounds (np=41):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 -99.000000 -99.000000 0.000001 1.000000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000 1.000000 999.000000
Qfactor_NS = 1.103487
np = 41
lnL0 = -4613.742727
Iterating by ming2
Initial: fx= 4613.742727
x= 0.04821 0.05264 0.06612 0.03895 0.06908 0.04254 0.06981 0.04014 0.10111 0.04433 0.06599 0.03927 0.09750 0.03272 0.07259 0.06498 0.08268 0.10228 0.09565 0.04334 0.01952 0.07806 0.01486 0.09965 0.07065 0.08002 0.07489 0.01643 0.04597 0.03976 0.06217 0.08342 0.10360 0.04289 0.02180 0.05068 15.97258 1.16460 0.27750 0.23721 1.45754
1 h-m-p 0.0000 0.0000 2627.2361 ++ 4361.011927 m 0.0000 46 | 0/41
2 h-m-p 0.0000 0.0000 125173.5057 ++ 4301.800360 m 0.0000 90 | 1/41
3 h-m-p 0.0000 0.0000 56849.3930 ++ 4159.424833 m 0.0000 134 | 2/41
4 h-m-p 0.0000 0.0000 5389.4493 ++ 4101.833151 m 0.0000 178 | 3/41
5 h-m-p 0.0000 0.0000 14744.0448 ++ 4077.441492 m 0.0000 222 | 4/41
6 h-m-p 0.0000 0.0000 1663.1318 ++ 4029.036356 m 0.0000 266 | 5/41
7 h-m-p 0.0000 0.0001 1157.4798 ++ 3932.457952 m 0.0001 310 | 6/41
8 h-m-p 0.0000 0.0000 5152.3694 ++ 3922.290013 m 0.0000 354 | 7/41
9 h-m-p 0.0000 0.0000 4735.9365 +YCYCYC 3892.596789 5 0.0000 407 | 7/41
10 h-m-p 0.0000 0.0000 8475.6741 +YYCYCYC 3887.885197 6 0.0000 460 | 7/41
11 h-m-p 0.0000 0.0000 11222.4513 +CCYYYYCCCC 3863.066528 9 0.0000 519 | 7/41
12 h-m-p 0.0000 0.0000 7855.7995 +YYCYC 3861.856164 4 0.0000 569 | 7/41
13 h-m-p 0.0000 0.0000 10824.2961 +YYYYYYYY 3851.892517 7 0.0000 621 | 7/41
14 h-m-p 0.0000 0.0000 8021.6129 +YYCCCC 3850.016050 5 0.0000 674 | 7/41
15 h-m-p 0.0000 0.0000 6801.7593 ++ 3841.543115 m 0.0000 718 | 8/41
16 h-m-p 0.0000 0.0000 8954.7381 +YYYCC 3836.620035 4 0.0000 768 | 8/41
17 h-m-p 0.0000 0.0000 4899.5955 +YCYCCC 3833.721791 5 0.0000 821 | 8/41
18 h-m-p 0.0000 0.0000 2676.0701 +YYYYYY 3829.980099 5 0.0000 871 | 8/41
19 h-m-p 0.0000 0.0000 9029.1420 +YYCCC 3828.678249 4 0.0000 922 | 8/41
20 h-m-p 0.0000 0.0000 1497.3505 +YYYC 3826.324404 3 0.0000 970 | 8/41
21 h-m-p 0.0000 0.0000 18268.2926 YCYCCC 3824.971007 5 0.0000 1022 | 8/41
22 h-m-p 0.0000 0.0000 502.1857 CCCC 3824.624970 3 0.0000 1072 | 8/41
23 h-m-p 0.0000 0.0000 573.0382 CCCC 3823.981619 3 0.0000 1122 | 8/41
24 h-m-p 0.0000 0.0000 349.8026 CYCCC 3823.573668 4 0.0000 1173 | 8/41
25 h-m-p 0.0000 0.0001 757.0303 +CYYCCC 3817.843724 5 0.0001 1226 | 8/41
26 h-m-p 0.0000 0.0000 1824.3234 +YYCYC 3813.283232 4 0.0000 1276 | 8/41
27 h-m-p 0.0000 0.0000 5456.6164 +YYYCYCCC 3800.099753 7 0.0000 1331 | 7/41
28 h-m-p 0.0000 0.0000 52777.2846 +YYYCCC 3798.586418 5 0.0000 1383 | 7/41
29 h-m-p 0.0000 0.0000 800.6087 +CYCCC 3794.920978 4 0.0000 1435 | 7/41
30 h-m-p 0.0000 0.0000 5585.7252 ++ 3778.248491 m 0.0000 1479 | 7/41
31 h-m-p 0.0000 0.0000 12992.0301 +YCYCCC 3761.843717 5 0.0000 1532 | 7/41
32 h-m-p 0.0000 0.0001 1983.4935 CCCC 3759.301167 3 0.0000 1582 | 7/41
33 h-m-p 0.0000 0.0001 660.0189 ++ 3748.037919 m 0.0001 1626 | 8/41
34 h-m-p 0.0055 0.0288 15.5376 +YCYCCC 3739.751981 5 0.0166 1679 | 8/41
35 h-m-p 0.0013 0.0066 69.3825 +YYCYCCC 3726.245305 6 0.0057 1733 | 8/41
36 h-m-p 0.0012 0.0058 71.7084 +YYCYCCC 3715.143801 6 0.0040 1787 | 8/41
37 h-m-p 0.0565 0.2895 5.1129 YCCC 3707.615309 3 0.0953 1836 | 7/41
38 h-m-p 0.0005 0.0024 425.0621 YCCC 3706.811591 3 0.0002 1885 | 7/41
39 h-m-p 0.0907 0.4535 0.7108 YCYCCC 3704.572194 5 0.2476 1937 | 7/41
40 h-m-p 0.0286 0.1431 1.2449 YCCCC 3703.112079 4 0.0610 2022 | 7/41
41 h-m-p 0.0606 0.3031 1.0573 YCCC 3701.848132 3 0.1203 2071 | 7/41
42 h-m-p 0.1181 0.6057 1.0777 +YCCC 3700.154308 3 0.3254 2121 | 7/41
43 h-m-p 0.3804 1.9019 0.2835 CCCC 3699.479393 3 0.4633 2171 | 7/41
44 h-m-p 0.2973 2.6918 0.4417 YC 3698.609354 1 0.6232 2250 | 7/41
45 h-m-p 0.5243 2.6214 0.3367 YCCC 3697.920800 3 1.0967 2333 | 7/41
46 h-m-p 0.3015 1.5076 0.4785 YCCCC 3697.465860 4 0.6743 2418 | 7/41
47 h-m-p 0.2989 1.4944 0.3558 +YCC 3697.202396 2 0.9220 2500 | 7/41
48 h-m-p 0.1222 0.6108 0.3912 +CC 3697.089481 1 0.5018 2581 | 7/41
49 h-m-p 0.0117 0.0584 0.4890 ++ 3697.055180 m 0.0584 2659 | 8/41
50 h-m-p 0.0297 0.4824 0.9611 ++YC 3696.938445 1 0.3215 2740 | 8/41
51 h-m-p 0.7702 3.8510 0.1714 CYC 3696.625919 2 0.7152 2820 | 8/41
52 h-m-p 0.7323 3.6613 0.0767 CCC 3696.502336 2 0.8386 2901 | 8/41
53 h-m-p 0.4274 8.0000 0.1505 +CCC 3696.338952 2 1.5200 2983 | 7/41
54 h-m-p 0.0055 0.0444 41.2334 -YC 3696.334117 1 0.0002 3062 | 7/41
55 h-m-p 0.0543 1.7420 0.1456 +++ 3696.155353 m 1.7420 3107 | 8/41
56 h-m-p 0.4961 2.4804 0.2097 +YC 3696.066599 1 1.2937 3187 | 8/41
57 h-m-p 1.6000 8.0000 0.0608 CC 3696.010301 1 1.6853 3266 | 7/41
58 h-m-p 0.0268 0.3247 3.8269 --Y 3696.010273 0 0.0003 3345 | 7/41
59 h-m-p 0.0228 0.1142 0.0328 ++ 3696.003656 m 0.1142 3389 | 8/41
60 h-m-p 0.0206 1.6477 0.1818 ++YC 3695.928980 1 0.7472 3470 | 8/41
61 h-m-p 1.0997 8.0000 0.1235 C 3695.877681 0 1.0997 3547 | 8/41
62 h-m-p 1.6000 8.0000 0.0160 +YC 3695.773292 1 4.1067 3626 | 7/41
63 h-m-p 0.0118 0.0880 5.5608 --C 3695.772507 0 0.0002 3705 | 7/41
64 h-m-p 0.0117 2.5597 0.0874 ++++ 3695.658028 m 2.5597 3751 | 8/41
65 h-m-p 1.1483 8.0000 0.1949 CC 3695.584712 1 1.4376 3831 | 8/41
66 h-m-p 1.6000 8.0000 0.0185 CC 3695.557122 1 1.8801 3910 | 8/41
67 h-m-p 1.0757 8.0000 0.0324 YC 3695.536013 1 2.2891 3988 | 8/41
68 h-m-p 1.6000 8.0000 0.0046 CC 3695.519497 1 2.3887 4067 | 8/41
69 h-m-p 1.1901 8.0000 0.0092 CC 3695.512308 1 1.8711 4146 | 8/41
70 h-m-p 0.9383 8.0000 0.0183 YC 3695.506650 1 2.1127 4224 | 8/41
71 h-m-p 1.6000 8.0000 0.0016 YC 3695.500916 1 2.9692 4302 | 8/41
72 h-m-p 0.6547 8.0000 0.0072 +CC 3695.492111 1 3.2618 4382 | 8/41
73 h-m-p 1.6000 8.0000 0.0082 YC 3695.484660 1 3.1837 4460 | 8/41
74 h-m-p 0.9890 8.0000 0.0263 ++ 3695.457437 m 8.0000 4537 | 8/41
75 h-m-p 1.6000 8.0000 0.0429 YC 3695.418469 1 2.8539 4615 | 8/41
76 h-m-p 1.0823 8.0000 0.1131 +YC 3695.366429 1 3.7153 4694 | 8/41
77 h-m-p 1.6000 8.0000 0.1363 YC 3695.323523 1 2.6651 4772 | 8/41
78 h-m-p 1.6000 8.0000 0.0516 C 3695.312911 0 1.4845 4849 | 8/41
79 h-m-p 1.6000 8.0000 0.0289 CC 3695.309886 1 2.0336 4928 | 8/41
80 h-m-p 1.6000 8.0000 0.0113 CC 3695.308763 1 2.2989 5007 | 8/41
81 h-m-p 1.4771 8.0000 0.0176 YC 3695.307450 1 3.4073 5085 | 8/41
82 h-m-p 1.6000 8.0000 0.0093 C 3695.307077 0 1.6281 5162 | 8/41
83 h-m-p 1.1140 8.0000 0.0135 YC 3695.306900 1 2.2865 5240 | 8/41
84 h-m-p 1.6000 8.0000 0.0047 C 3695.306827 0 1.9584 5317 | 8/41
85 h-m-p 1.6000 8.0000 0.0043 C 3695.306799 0 1.9836 5394 | 8/41
86 h-m-p 1.6000 8.0000 0.0024 Y 3695.306790 0 3.0118 5471 | 8/41
87 h-m-p 1.3159 8.0000 0.0055 +Y 3695.306773 0 3.6005 5549 | 8/41
88 h-m-p 1.6000 8.0000 0.0038 C 3695.306768 0 1.7298 5626 | 8/41
89 h-m-p 1.6000 8.0000 0.0024 C 3695.306765 0 2.2791 5703 | 8/41
90 h-m-p 1.6000 8.0000 0.0004 +Y 3695.306762 0 4.2575 5781 | 8/41
91 h-m-p 1.0817 8.0000 0.0016 C 3695.306761 0 1.1658 5858 | 8/41
92 h-m-p 1.6000 8.0000 0.0002 C 3695.306761 0 2.3193 5935 | 8/41
93 h-m-p 1.6000 8.0000 0.0002 ----Y 3695.306761 0 0.0016 6016 | 8/41
94 h-m-p 0.0160 8.0000 0.0003 --C 3695.306761 0 0.0003 6095
Out..
lnL = -3695.306761
6096 lfun, 24384 eigenQcodon, 658368 P(t)
BEBing (dim = 4). This may take several minutes.
Calculating f(x_h|w): 10 categories 21 w sets.
Calculating f(X), the marginal likelihood.
log(fX) = -3705.704499 S = -3582.927785 -137.662331
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 143 patterns 7:46
did 20 / 143 patterns 7:46
did 30 / 143 patterns 7:46
did 40 / 143 patterns 7:46
did 50 / 143 patterns 7:46
did 60 / 143 patterns 7:46
did 70 / 143 patterns 7:46
did 80 / 143 patterns 7:46
did 90 / 143 patterns 7:47
did 100 / 143 patterns 7:47
did 110 / 143 patterns 7:47
did 120 / 143 patterns 7:47
did 130 / 143 patterns 7:47
did 140 / 143 patterns 7:47
did 143 / 143 patterns 7:47end of tree file.
Time used: 7:47
Model 7: beta
TREE # 1
(1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
34
0.031568 0.088242 0.026831 0.089849 0.084398 0.106377 0.088664 0.027182 0.085361 0.109257 0.095512 0.047941 0.070655 0.077685 0.022437 0.021355 0.064657 0.102579 0.060018 0.021456 0.036044 0.063388 0.043475 0.107591 0.044835 0.019681 0.059423 0.095463 0.022532 0.064370 0.059953 0.104627 0.102562 0.061980 0.088726 0.043405 16.076828 1.031945 1.604235
ntime & nrate & np: 36 1 39
Bounds (np=39):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.005000 0.005000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 99.000000 99.000000
Qfactor_NS = 1.582467
np = 39
lnL0 = -4807.674895
Iterating by ming2
Initial: fx= 4807.674895
x= 0.03157 0.08824 0.02683 0.08985 0.08440 0.10638 0.08866 0.02718 0.08536 0.10926 0.09551 0.04794 0.07065 0.07768 0.02244 0.02135 0.06466 0.10258 0.06002 0.02146 0.03604 0.06339 0.04348 0.10759 0.04483 0.01968 0.05942 0.09546 0.02253 0.06437 0.05995 0.10463 0.10256 0.06198 0.08873 0.04341 16.07683 1.03194 1.60423
1 h-m-p 0.0000 0.0000 2534.4536 ++ 4516.972886 m 0.0000 44 | 0/39
2 h-m-p 0.0000 0.0000 84889.9058
h-m-p: 3.59778075e-21 1.79889038e-20 8.48899058e+04 4516.972886
.. | 0/39
3 h-m-p 0.0000 0.0000 236383.0370 --CYCYYYYC 4511.781087 7 0.0000 136 | 0/39
4 h-m-p 0.0000 0.0000 2619.3992 ++ 4443.088991 m 0.0000 178 | 0/39
5 h-m-p 0.0000 0.0000 528818.8404
h-m-p: 5.99623665e-25 2.99811833e-24 5.28818840e+05 4443.088991
.. | 0/39
6 h-m-p 0.0000 0.0000 2623.0680 ++ 4314.991594 m 0.0000 259 | 0/39
7 h-m-p 0.0000 0.0000 227323.7006 ++ 4284.266224 m 0.0000 301 | 0/39
8 h-m-p 0.0000 0.0000 103736.7781 ++ 4284.226917 m 0.0000 343 | 0/39
9 h-m-p 0.0000 0.0000 60138.7048 ++ 4284.197656 m 0.0000 385 | 0/39
10 h-m-p -0.0000 -0.0000 14717.9198
h-m-p: -0.00000000e+00 -0.00000000e+00 1.47179198e+04 4284.197656
.. | 0/39
11 h-m-p 0.0000 0.0000 236339.9894 -YCYYYYYCCC 4279.073532 10 0.0000 481 | 0/39
12 h-m-p 0.0000 0.0000 3184.5572 ++ 4242.938047 m 0.0000 523 | 1/39
13 h-m-p 0.0000 0.0000 8519.6588 ++ 4176.491262 m 0.0000 565 | 1/39
14 h-m-p 0.0000 0.0000 137487.6186 +CYYYCCCC 4169.931083 7 0.0000 619 | 1/39
15 h-m-p 0.0000 0.0000 105423.9858 ++ 4123.453902 m 0.0000 661 | 1/39
16 h-m-p -0.0000 -0.0000 336493.6945
h-m-p: -0.00000000e+00 -0.00000000e+00 3.36493694e+05 4123.453902
.. | 1/39
17 h-m-p 0.0000 0.0000 237763.4101 --YCYYYYYCCC 4116.521259 10 0.0000 757 | 1/39
18 h-m-p 0.0000 0.0000 3535.6154 ++ 4068.746474 m 0.0000 799 | 2/39
19 h-m-p 0.0000 0.0000 5728.2575 ++ 4026.805485 m 0.0000 841 | 3/39
20 h-m-p 0.0000 0.0000 83807.7142 ++ 4017.481932 m 0.0000 883 | 4/39
21 h-m-p 0.0000 0.0000 196900.6454 ++ 3895.890524 m 0.0000 925 | 5/39
22 h-m-p 0.0000 0.0000 219633.9461 +YCYCCC 3872.728111 5 0.0000 977 | 5/39
23 h-m-p 0.0000 0.0000 56928.4656 ++ 3854.194521 m 0.0000 1019 | 5/39
24 h-m-p 0.0000 0.0000 766533.9535 +YYCCCC 3849.081225 5 0.0000 1070 | 5/39
25 h-m-p 0.0000 0.0000 69420.1021 +YYYCCCC 3846.185985 6 0.0000 1122 | 5/39
26 h-m-p 0.0000 0.0000 6685.3786 +CYCCC 3840.094857 4 0.0000 1172 | 5/39
27 h-m-p 0.0000 0.0000 8690.1815 ++ 3838.711456 m 0.0000 1214 | 6/39
28 h-m-p 0.0000 0.0000 3446.8817 ++ 3836.931144 m 0.0000 1256 | 6/39
29 h-m-p -0.0000 -0.0000 4817.1035
h-m-p: -2.40847705e-23 -1.20423853e-22 4.81710347e+03 3836.931144
.. | 6/39
30 h-m-p 0.0000 0.0000 49528.0896 CYYCCCCC 3824.933567 7 0.0000 1349 | 6/39
31 h-m-p 0.0000 0.0000 3713.8285 +YYCCC 3805.690516 4 0.0000 1398 | 6/39
32 h-m-p 0.0000 0.0000 2621.7189 +CYCYCYC 3768.027298 6 0.0000 1451 | 6/39
33 h-m-p 0.0000 0.0000 25984.8430 +YYYYYCCCC 3761.032844 8 0.0000 1505 | 6/39
34 h-m-p 0.0000 0.0000 17389.8871 ++ 3754.830172 m 0.0000 1547 | 7/39
35 h-m-p 0.0000 0.0000 8605.5912 +YYCCCC 3751.193968 5 0.0000 1598 | 7/39
36 h-m-p 0.0000 0.0000 8230.8637 YCCCC 3749.832626 4 0.0000 1647 | 7/39
37 h-m-p 0.0000 0.0000 3850.1141 +YYCCC 3748.028353 4 0.0000 1696 | 7/39
38 h-m-p 0.0000 0.0000 1507.6157 +YYCCC 3746.758778 4 0.0000 1745 | 7/39
39 h-m-p 0.0000 0.0000 2949.9179 CCCC 3745.857006 3 0.0000 1793 | 7/39
40 h-m-p 0.0000 0.0000 1098.1031 YCCCC 3745.099002 4 0.0000 1842 | 7/39
41 h-m-p 0.0000 0.0000 541.4432 CCC 3744.680622 2 0.0000 1888 | 7/39
42 h-m-p 0.0000 0.0000 878.4901 CCCC 3744.037025 3 0.0000 1936 | 7/39
43 h-m-p 0.0000 0.0000 756.6516 YCC 3743.815075 2 0.0000 1981 | 7/39
44 h-m-p 0.0000 0.0004 106.7934 CYC 3743.711163 2 0.0000 2026 | 7/39
45 h-m-p 0.0000 0.0001 163.0270 CCC 3743.615532 2 0.0000 2072 | 7/39
46 h-m-p 0.0000 0.0001 182.8733 CCC 3743.587927 2 0.0000 2118 | 7/39
47 h-m-p 0.0000 0.0002 73.2847 YC 3743.550881 1 0.0000 2161 | 7/39
48 h-m-p 0.0000 0.0002 115.8735 YC 3743.474373 1 0.0000 2204 | 7/39
49 h-m-p 0.0000 0.0002 497.5693 +CYCCC 3742.938146 4 0.0001 2254 | 7/39
50 h-m-p 0.0000 0.0000 3660.2850 +YCYCCC 3741.718944 5 0.0000 2305 | 7/39
51 h-m-p 0.0000 0.0001 10651.8026 +YCYCCC 3725.009926 5 0.0001 2357 | 7/39
52 h-m-p 0.0000 0.0000 83195.7066 +YYCYC 3723.283344 4 0.0000 2405 | 7/39
53 h-m-p 0.0000 0.0000 17974.9489 YCCCC 3722.383210 4 0.0000 2454 | 7/39
54 h-m-p 0.0000 0.0000 903.6286 YC 3722.326058 1 0.0000 2497 | 7/39
55 h-m-p 0.0000 0.0001 389.0199 YCC 3722.282351 2 0.0000 2542 | 7/39
56 h-m-p 0.0000 0.0004 120.7992 YC 3722.262241 1 0.0000 2585 | 7/39
57 h-m-p 0.0000 0.0006 69.1523 YC 3722.221775 1 0.0000 2628 | 7/39
58 h-m-p 0.0000 0.0002 182.3834 YC 3722.199159 1 0.0000 2671 | 7/39
59 h-m-p 0.0000 0.0068 50.6605 +CYC 3722.111206 2 0.0002 2717 | 7/39
60 h-m-p 0.0000 0.0008 386.6870 +CCC 3721.717369 2 0.0001 2764 | 7/39
61 h-m-p 0.0028 0.1533 12.3765 ++CYCCC 3716.941600 4 0.0678 2815 | 7/39
62 h-m-p 0.0928 0.4640 0.1143 YCYCCC 3715.277428 5 0.2488 2865 | 7/39
63 h-m-p 0.0144 0.2556 1.9746 ++YCYCCC 3707.925285 5 0.1692 2949 | 7/39
64 h-m-p 0.1936 0.9680 0.4464 YCYCCC 3706.497163 5 0.4232 2999 | 7/39
65 h-m-p 0.0928 0.4639 0.3901 YCCCC 3705.476507 4 0.1933 3080 | 7/39
66 h-m-p 0.0787 0.3935 0.4471 YCCCC 3704.698112 4 0.1714 3161 | 7/39
67 h-m-p 0.1382 1.5411 0.5544 +CCCC 3703.556976 3 0.6563 3242 | 7/39
68 h-m-p 0.2336 1.1682 0.7256 YCCCC 3702.847746 4 0.4951 3323 | 7/39
69 h-m-p 0.2335 1.1677 1.0926 +YYCYC 3700.746208 4 0.8138 3403 | 7/39
70 h-m-p 0.0091 0.0456 10.7575 +YYYYYCYCYC 3699.851596 9 0.0392 3457 | 7/39
71 h-m-p 0.0017 0.0086 9.1155 +YCYC 3699.724902 3 0.0051 3504 | 7/39
72 h-m-p 0.0129 0.0646 0.6394 ++ 3699.272680 m 0.0646 3546 | 7/39
73 h-m-p -0.0000 -0.0000 0.0419
h-m-p: -0.00000000e+00 -0.00000000e+00 4.19247539e-02 3699.272680
.. | 7/39
74 h-m-p 0.0000 0.0000 1035.9682 YCCC 3697.515509 3 0.0000 3696 | 7/39
75 h-m-p 0.0000 0.0000 975.3361 +YYCYC 3696.207849 4 0.0000 3744 | 7/39
76 h-m-p 0.0000 0.0000 382.0658 CCC 3696.119246 2 0.0000 3790 | 7/39
77 h-m-p 0.0000 0.0000 222.7033 CYC 3695.995966 2 0.0000 3835 | 7/39
78 h-m-p 0.0000 0.0001 276.9030 CYC 3695.945062 2 0.0000 3880 | 7/39
79 h-m-p 0.0000 0.0001 197.4532 YYCCCYCCC 3695.827726 8 0.0000 3935 | 7/39
80 h-m-p 0.0000 0.0000 1424.1713 YCYC 3695.795755 3 0.0000 3981 | 7/39
81 h-m-p 0.0000 0.0003 48.9537 YC 3695.789167 1 0.0000 4024 | 7/39
82 h-m-p 0.0000 0.0001 98.1307 CC 3695.783753 1 0.0000 4068 | 7/39
83 h-m-p 0.0000 0.0002 51.1095 YC 3695.779112 1 0.0000 4111 | 7/39
84 h-m-p 0.0000 0.0001 71.5096 CC 3695.776942 1 0.0000 4155 | 7/39
85 h-m-p 0.0000 0.0003 46.7485 YC 3695.775048 1 0.0000 4198 | 7/39
86 h-m-p 0.0000 0.0003 28.6356 YC 3695.774033 1 0.0000 4241 | 7/39
87 h-m-p 0.0000 0.0002 38.2484 YC 3695.773217 1 0.0000 4284 | 7/39
88 h-m-p 0.0000 0.0008 15.6578 YC 3695.772852 1 0.0000 4327 | 7/39
89 h-m-p 0.0000 0.0004 12.8442 C 3695.772765 0 0.0000 4369 | 7/39
90 h-m-p 0.0000 0.0022 3.9787 Y 3695.772740 0 0.0000 4411 | 7/39
91 h-m-p 0.0000 0.0069 1.5639 C 3695.772724 0 0.0000 4453 | 7/39
92 h-m-p 0.0000 0.0052 2.2625 C 3695.772700 0 0.0000 4495 | 7/39
93 h-m-p 0.0000 0.0085 6.0358 Y 3695.772585 0 0.0000 4537 | 7/39
94 h-m-p 0.0000 0.0029 16.3713 +Y 3695.772231 0 0.0000 4580 | 7/39
95 h-m-p 0.0000 0.0020 91.1351 +CC 3695.768330 1 0.0001 4625 | 7/39
96 h-m-p 0.0000 0.0005 958.4629 +CCC 3695.715893 2 0.0001 4672 | 7/39
97 h-m-p 0.0000 0.0001 5276.8041 YC 3695.695653 1 0.0000 4715 | 7/39
98 h-m-p 0.0000 0.0003 1101.9879 C 3695.690584 0 0.0000 4757 | 7/39
99 h-m-p 0.0002 0.0015 43.2564 -YC 3695.690407 1 0.0000 4801 | 7/39
100 h-m-p 0.0001 0.0024 5.0661 -C 3695.690390 0 0.0000 4844 | 7/39
101 h-m-p 0.0001 0.0186 0.3499 C 3695.690380 0 0.0000 4886 | 7/39
102 h-m-p 0.0000 0.0134 1.0917 +YC 3695.690236 1 0.0001 4962 | 7/39
103 h-m-p 0.0000 0.0102 14.2698 ++YC 3695.668206 1 0.0007 5007 | 7/39
104 h-m-p 0.0000 0.0001 2245.1958 CC 3695.601046 1 0.0000 5051 | 7/39
105 h-m-p 0.0002 0.0009 14.4103 --Y 3695.600903 0 0.0000 5095 | 7/39
106 h-m-p 0.0160 8.0000 0.0054 +++CC 3695.577594 1 1.2182 5142 | 7/39
107 h-m-p 0.9941 8.0000 0.0066 CC 3695.570629 1 1.3508 5218 | 7/39
108 h-m-p 1.2239 8.0000 0.0073 YC 3695.568271 1 0.8496 5293 | 7/39
109 h-m-p 0.8273 8.0000 0.0075 CC 3695.566724 1 1.4134 5369 | 7/39
110 h-m-p 1.3182 8.0000 0.0080 YY 3695.566031 1 1.0836 5444 | 7/39
111 h-m-p 1.6000 8.0000 0.0041 YC 3695.565658 1 1.2154 5519 | 7/39
112 h-m-p 0.7707 8.0000 0.0065 C 3695.565537 0 0.8461 5593 | 7/39
113 h-m-p 0.6045 8.0000 0.0091 YC 3695.565377 1 1.3320 5668 | 7/39
114 h-m-p 1.0621 8.0000 0.0114 Y 3695.565309 0 1.0621 5742 | 7/39
115 h-m-p 0.3263 3.6155 0.0371 Y 3695.565232 0 0.3263 5816 | 7/39
116 h-m-p 0.2003 1.9392 0.0605 Y 3695.565229 0 0.0501 5890 | 7/39
117 h-m-p 0.0113 0.4394 0.2669 C 3695.565219 0 0.0181 5964 | 7/39
118 h-m-p 0.0129 0.3003 0.3736 Y 3695.565218 0 0.0060 6038 | 7/39
119 h-m-p 0.0021 0.1019 1.0854 Y 3695.565217 0 0.0014 6112 | 7/39
120 h-m-p 0.5356 8.0000 0.0028 Y 3695.565156 0 0.9114 6154 | 7/39
121 h-m-p 0.5582 8.0000 0.0046 Y 3695.565155 0 0.2523 6228 | 7/39
122 h-m-p 0.0742 8.0000 0.0156 C 3695.565154 0 0.0681 6302 | 7/39
123 h-m-p 0.0174 2.3112 0.0611 Y 3695.565154 0 0.0091 6376 | 7/39
124 h-m-p 0.0015 0.3706 0.3730 C 3695.565154 0 0.0005 6450 | 7/39
125 h-m-p 0.0002 0.0983 1.4258 -----Y 3695.565154 0 0.0000 6529 | 7/39
126 h-m-p 0.0160 8.0000 0.0005 +++C 3695.565149 0 1.3494 6574 | 7/39
127 h-m-p 0.8701 8.0000 0.0007 C 3695.565148 0 0.9550 6648 | 7/39
128 h-m-p 1.0508 8.0000 0.0007 C 3695.565147 0 1.5877 6722 | 7/39
129 h-m-p 1.6000 8.0000 0.0002 C 3695.565147 0 1.8732 6796 | 7/39
130 h-m-p 0.4499 8.0000 0.0006 +C 3695.565147 0 2.5939 6871 | 7/39
131 h-m-p 1.2376 8.0000 0.0013 C 3695.565147 0 1.1604 6945 | 7/39
132 h-m-p 1.6000 8.0000 0.0006 ------C 3695.565147 0 0.0001 7025 | 7/39
133 h-m-p 0.0160 8.0000 0.0007 --C 3695.565147 0 0.0003 7101 | 7/39
134 h-m-p 0.0160 8.0000 0.0001 -------------.. | 7/39
135 h-m-p 0.0000 0.0235 2.5775 --C 3695.565146 0 0.0000 7262 | 7/39
136 h-m-p 0.0001 0.0266 0.2967 -C 3695.565145 0 0.0000 7305 | 7/39
137 h-m-p 0.0001 0.0314 0.2349 -C 3695.565145 0 0.0000 7380 | 7/39
138 h-m-p 0.0001 0.0644 0.0986 -Y 3695.565145 0 0.0000 7455 | 7/39
139 h-m-p 0.0004 0.1775 0.1066 --C 3695.565145 0 0.0000 7531 | 7/39
140 h-m-p 0.0006 0.2859 0.0685 ---C 3695.565145 0 0.0000 7608 | 7/39
141 h-m-p 0.0001 0.0662 0.1278 --Y 3695.565145 0 0.0000 7684 | 7/39
142 h-m-p 0.0007 0.3726 0.1885 ---Y 3695.565145 0 0.0000 7761 | 7/39
143 h-m-p 0.0001 0.0425 0.4771 ---------.. | 7/39
144 h-m-p 0.0000 0.0106 1.5015 ---C 3695.565145 0 0.0000 7919 | 7/39
145 h-m-p 0.0000 0.0248 0.2678 --C 3695.565145 0 0.0000 7963 | 7/39
146 h-m-p 0.0002 0.0923 0.0579 ---------Y 3695.565145 0 0.0000 8046 | 7/39
147 h-m-p 0.0005 0.2578 0.0714 ---C 3695.565145 0 0.0000 8123 | 7/39
148 h-m-p 0.0003 0.1474 0.1062 -----C 3695.565145 0 0.0000 8202 | 7/39
149 h-m-p 0.0002 0.0848 0.3290 ---------Y 3695.565145 0 0.0000 8285 | 7/39
150 h-m-p 0.0001 0.0676 0.6970 --Y 3695.565145 0 0.0000 8361 | 7/39
151 h-m-p 0.0000 0.0234 1.4868 --C 3695.565145 0 0.0000 8437 | 7/39
152 h-m-p 0.0001 0.0315 1.2450 ----Y 3695.565145 0 0.0000 8483 | 7/39
153 h-m-p 0.0001 0.0741 0.5909 --------C 3695.565145 0 0.0000 8533 | 7/39
154 h-m-p 0.0000 0.0027 14.0344 --------.. | 7/39
155 h-m-p 0.0000 0.0091 0.4251 -------- | 7/39
156 h-m-p 0.0000 0.0125 1.4242 -------Y 3695.565145 0 0.0000 8742 | 7/39
157 h-m-p 0.0001 0.0425 0.2014 ---Y 3695.565145 0 0.0000 8819 | 7/39
158 h-m-p 0.0001 0.0423 0.1078 --C 3695.565145 0 0.0000 8895 | 7/39
159 h-m-p 0.0002 0.1124 0.1384 ---C 3695.565145 0 0.0000 8972 | 7/39
160 h-m-p 0.0001 0.0623 0.5147 ---Y 3695.565145 0 0.0000 9049 | 7/39
161 h-m-p 0.0001 0.0306 1.6138 --Y 3695.565145 0 0.0000 9125 | 7/39
162 h-m-p 0.0000 0.0250 2.7501 --Y 3695.565145 0 0.0000 9201 | 7/39
163 h-m-p 0.0000 0.0070 6.1728 -Y 3695.565145 0 0.0000 9276 | 7/39
164 h-m-p 0.0000 0.0033 14.1668 --C 3695.565145 0 0.0000 9352 | 7/39
165 h-m-p 0.0000 0.0015 32.4557 --C 3695.565145 0 0.0000 9428 | 7/39
166 h-m-p 0.0000 0.0015 31.0698 --C 3695.565145 0 0.0000 9504 | 7/39
167 h-m-p 0.0000 0.0014 34.0787 -C 3695.565145 0 0.0000 9579 | 7/39
168 h-m-p 0.0000 0.0004 128.0258 --Y 3695.565145 0 0.0000 9655 | 7/39
169 h-m-p 0.0000 0.0001 546.9694 --C 3695.565145 0 0.0000 9731 | 7/39
170 h-m-p 0.0000 0.0000 1014.2578 --C 3695.565145 0 0.0000 9807 | 7/39
171 h-m-p 0.0000 0.0000 62848.0928 ---Y 3695.565145 0 0.0000 9884 | 7/39
172 h-m-p 0.0000 0.0001 642.1907 -------Y 3695.565145 0 0.0000 9965 | 7/39
173 h-m-p 0.0000 0.0001 349.5819 ------Y 3695.565145 0 0.0000 10045 | 7/39
174 h-m-p 0.0000 0.0005 101.8745 --------.. | 7/39
175 h-m-p 0.0000 0.0118 1.3705 --------
Out..
lnL = -3695.565145
10206 lfun, 112266 eigenQcodon, 3674160 P(t)
end of tree file.
Time used: 30:28
Model 8: beta&w>1
TREE # 1
(1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
34
0.098764 0.067128 0.060128 0.019705 0.016628 0.020655 0.060933 0.095995 0.082671 0.051120 0.048535 0.054516 0.072053 0.051815 0.035931 0.059673 0.076203 0.073173 0.089327 0.025868 0.099421 0.011775 0.091869 0.107434 0.100302 0.063323 0.095182 0.061131 0.082672 0.100516 0.050880 0.079633 0.015725 0.011760 0.089246 0.069455 15.829618 0.900000 0.480415 1.016661 1.300000
ntime & nrate & np: 36 2 41
Bounds (np=41):
0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000004 0.000100 0.000010 0.005000 0.005000 1.000000
50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 50.000000 999.000000 0.999990 99.000000 99.000000 999.000000
Qfactor_NS = 1.529704
np = 41
lnL0 = -4567.813945
Iterating by ming2
Initial: fx= 4567.813945
x= 0.09876 0.06713 0.06013 0.01970 0.01663 0.02066 0.06093 0.09599 0.08267 0.05112 0.04853 0.05452 0.07205 0.05182 0.03593 0.05967 0.07620 0.07317 0.08933 0.02587 0.09942 0.01177 0.09187 0.10743 0.10030 0.06332 0.09518 0.06113 0.08267 0.10052 0.05088 0.07963 0.01572 0.01176 0.08925 0.06946 15.82962 0.90000 0.48042 1.01666 1.30000
1 h-m-p 0.0000 0.0000 2034.5041 ++ 4441.524798 m 0.0000 87 | 1/41
2 h-m-p 0.0000 0.0000 183912.6929 ++ 4355.665453 m 0.0000 172 | 2/41
3 h-m-p 0.0000 0.0000 98915.9373 ++ 4265.076521 m 0.0000 256 | 2/41
4 h-m-p 0.0000 0.0000 120310.2683 ++ 4199.655075 m 0.0000 339 | 2/41
5 h-m-p 0.0000 0.0000 183815.5344 ++ 4182.045452 m 0.0000 422 | 2/41
6 h-m-p 0.0000 0.0000 9647.8557 +CCYYCCC 4127.449631 6 0.0000 516 | 2/41
7 h-m-p 0.0000 0.0000 17236.2399 +CYCYYC 4100.051777 5 0.0000 607 | 2/41
8 h-m-p 0.0000 0.0000 30065.3370 +CCYYYC 4085.011922 5 0.0000 698 | 2/41
9 h-m-p 0.0000 0.0000 41368.5908 ++ 4077.944587 m 0.0000 781 | 2/41
10 h-m-p -0.0000 -0.0000 21839.4595
h-m-p: -0.00000000e+00 -0.00000000e+00 2.18394595e+04 4077.944587
.. | 2/41
11 h-m-p 0.0000 0.0000 883809.8178 -YYCYCCCC 4054.101316 7 0.0000 957 | 2/41
12 h-m-p 0.0000 0.0000 7126.3574 ++ 4037.029476 m 0.0000 1040 | 3/41
13 h-m-p 0.0000 0.0000 2204.8051 ++ 3935.884973 m 0.0000 1123 | 3/41
14 h-m-p 0.0000 0.0000 47893.4359 +YYCYCCC 3932.563323 6 0.0000 1215 | 3/41
15 h-m-p 0.0000 0.0000 152493.9355 +CYYCC 3923.373860 4 0.0000 1304 | 3/41
16 h-m-p 0.0000 0.0000 54469.8299 ++ 3921.609514 m 0.0000 1386 | 4/41
17 h-m-p 0.0000 0.0000 98823.8543 +CCYYCCC 3876.929476 6 0.0000 1479 | 4/41
18 h-m-p 0.0000 0.0000 101287.1072 ++ 3855.420751 m 0.0000 1560 | 4/41
19 h-m-p 0.0000 0.0000 19332.0958
h-m-p: 2.09159167e-23 1.04579583e-22 1.93320958e+04 3855.420751
.. | 4/41
20 h-m-p 0.0000 0.0000 483176.6205 --YCYCCC 3851.354930 5 0.0000 1730 | 4/41
21 h-m-p 0.0000 0.0000 10290.4865 CYYYCCCC 3835.269202 7 0.0000 1822 | 4/41
22 h-m-p 0.0000 0.0000 2101.7645 ++ 3801.783937 m 0.0000 1903 | 4/41
23 h-m-p 0.0000 0.0000 61644.0817 ++ 3798.331029 m 0.0000 1984 | 5/41
24 h-m-p 0.0000 0.0000 11679.9770 ++ 3771.543856 m 0.0000 2065 | 6/41
25 h-m-p 0.0000 0.0000 6940.6171 ++ 3755.702930 m 0.0000 2145 | 7/41
26 h-m-p 0.0000 0.0000 19006.9808 +YYYCYCCC 3749.544188 7 0.0000 2235 | 7/41
27 h-m-p 0.0000 0.0000 1779.5618 +YYYCCC 3747.523076 5 0.0000 2321 | 7/41
28 h-m-p 0.0000 0.0000 5879.8119 +YYYYYC 3744.483457 5 0.0000 2405 | 7/41
29 h-m-p 0.0000 0.0000 1517.5441 YCYCC 3743.968433 4 0.0000 2489 | 7/41
30 h-m-p 0.0000 0.0000 1525.2713 YCYCCC 3741.716785 5 0.0000 2575 | 7/41
31 h-m-p 0.0000 0.0000 687.6506 YCCCC 3740.110526 4 0.0000 2660 | 7/41
32 h-m-p 0.0000 0.0000 899.2839 CCCC 3739.180697 3 0.0000 2744 | 7/41
33 h-m-p 0.0000 0.0001 426.5284 YCCC 3737.707275 3 0.0000 2827 | 7/41
34 h-m-p 0.0000 0.0000 1673.8139 CCC 3737.054292 2 0.0000 2909 | 7/41
35 h-m-p 0.0000 0.0001 276.6597 CYCCC 3736.657089 4 0.0000 2994 | 7/41
36 h-m-p 0.0000 0.0001 581.2862 CCCC 3736.195897 3 0.0000 3078 | 7/41
37 h-m-p 0.0000 0.0002 700.5070 +++ 3724.857166 m 0.0002 3157 | 8/41
38 h-m-p 0.0000 0.0000 2797.6722 YCCCC 3723.351487 4 0.0000 3242 | 8/41
39 h-m-p 0.0000 0.0001 5174.7534 CYCCC 3718.054397 4 0.0000 3327 | 8/41
40 h-m-p 0.0000 0.0000 2429.8216 CCC 3717.428953 2 0.0000 3408 | 8/41
41 h-m-p 0.0000 0.0001 508.1600 YCC 3717.363868 2 0.0000 3488 | 8/41
42 h-m-p 0.0000 0.0002 92.2146 YC 3717.329981 1 0.0000 3566 | 7/41
43 h-m-p 0.0000 0.0003 120.0912 +YCCC 3716.546326 3 0.0001 3649 | 7/41
44 h-m-p 0.0000 0.0001 818.8557 CYC 3715.985564 2 0.0000 3730 | 7/41
45 h-m-p 0.0000 0.0001 314.8986 YYC 3715.834769 2 0.0000 3810 | 7/41
46 h-m-p 0.0000 0.0002 102.1703 YC 3715.745183 1 0.0000 3889 | 7/41
47 h-m-p 0.0001 0.0004 27.1753 CC 3715.737481 1 0.0000 3969 | 7/41
48 h-m-p 0.0000 0.0008 88.8908 +YCC 3715.604841 2 0.0001 4051 | 7/41
49 h-m-p 0.0000 0.0001 1214.2184 CCCC 3715.261393 3 0.0000 4135 | 7/41
50 h-m-p 0.0000 0.0001 477.7862 CCC 3714.927681 2 0.0000 4217 | 7/41
51 h-m-p 0.0001 0.0005 21.6228 C 3714.921852 0 0.0000 4295 | 7/41
52 h-m-p 0.0001 0.0373 10.8914 ++++CYCCC 3713.038897 4 0.0234 4384 | 7/41
53 h-m-p 0.0003 0.0017 85.2112 ++ 3711.896542 m 0.0017 4462 | 7/41
54 h-m-p -0.0000 -0.0000 142.3915
h-m-p: -0.00000000e+00 -0.00000000e+00 1.42391549e+02 3711.896542
.. | 7/41
55 h-m-p 0.0000 0.0000 22796.7200 YCCYC 3709.375631 4 0.0000 4622 | 7/41
56 h-m-p 0.0000 0.0000 1819.8775 YCYC 3706.431043 3 0.0000 4704 | 7/41
57 h-m-p 0.0000 0.0000 1189.2164 +YYYCCC 3703.835242 5 0.0000 4790 | 7/41
58 h-m-p 0.0000 0.0000 2520.0185 YCCCC 3702.633864 4 0.0000 4875 | 7/41
59 h-m-p 0.0000 0.0000 974.9130 CCCC 3701.660087 3 0.0000 4959 | 7/41
60 h-m-p 0.0000 0.0000 692.9892 YCYCC 3700.966164 4 0.0000 5043 | 7/41
61 h-m-p 0.0000 0.0000 1201.2694 CCCC 3700.094736 3 0.0000 5127 | 7/41
62 h-m-p 0.0000 0.0000 655.9956 CCC 3699.789915 2 0.0000 5209 | 7/41
63 h-m-p 0.0000 0.0001 243.7263 CCC 3699.726209 2 0.0000 5291 | 7/41
64 h-m-p 0.0000 0.0000 208.3206 YYC 3699.671666 2 0.0000 5371 | 7/41
65 h-m-p 0.0000 0.0001 174.2679 YC 3699.635127 1 0.0000 5450 | 7/41
66 h-m-p 0.0000 0.0001 92.4645 YC 3699.618071 1 0.0000 5529 | 7/41
67 h-m-p 0.0000 0.0001 90.0059 YC 3699.606637 1 0.0000 5608 | 7/41
68 h-m-p 0.0000 0.0001 148.2465 CC 3699.585282 1 0.0000 5688 | 7/41
69 h-m-p 0.0000 0.0001 176.7152 YC 3699.540723 1 0.0000 5767 | 7/41
70 h-m-p 0.0000 0.0000 573.3783 YCC 3699.481160 2 0.0000 5848 | 7/41
71 h-m-p 0.0000 0.0001 374.0070 CCC 3699.433579 2 0.0000 5930 | 7/41
72 h-m-p 0.0000 0.0002 401.2032 YC 3699.294416 1 0.0000 6009 | 7/41
73 h-m-p 0.0000 0.0002 1080.5636 YC 3698.966949 1 0.0000 6088 | 7/41
74 h-m-p 0.0000 0.0000 3690.3627 YCCCC 3697.954357 4 0.0000 6173 | 7/41
75 h-m-p 0.0000 0.0000 2546.7863 CCCC 3697.707476 3 0.0000 6257 | 7/41
76 h-m-p 0.0000 0.0001 652.3487 CC 3697.646673 1 0.0000 6337 | 7/41
77 h-m-p 0.0000 0.0002 247.9162 YC 3697.552604 1 0.0000 6416 | 7/41
78 h-m-p 0.0000 0.0000 1240.2799 ++ 3696.727747 m 0.0000 6494 | 7/41
79 h-m-p -0.0000 -0.0000 7841.9622
h-m-p: -9.55809324e-23 -4.77904662e-22 7.84196218e+03 3696.727747
.. | 7/41
80 h-m-p 0.0000 0.0000 671.2805 YCCCC 3695.791755 4 0.0000 6654 | 7/41
81 h-m-p 0.0000 0.0000 506.6185 CYCC 3695.578157 3 0.0000 6737 | 7/41
82 h-m-p 0.0000 0.0000 173.3898 YCC 3695.509557 2 0.0000 6818 | 7/41
83 h-m-p 0.0000 0.0001 113.8842 CC 3695.492631 1 0.0000 6898 | 7/41
84 h-m-p 0.0000 0.0001 132.9752 YCC 3695.460234 2 0.0000 6979 | 7/41
85 h-m-p 0.0000 0.0001 143.0592 YC 3695.441873 1 0.0000 7058
QuantileBeta(0.15, 0.00495, 1.43965) = 2.606924e-163 2000 rounds
| 7/41
86 h-m-p 0.0000 0.0002 144.6246 YC 3695.428469 1 0.0000 7137
QuantileBeta(0.15, 0.00495, 1.43965) = 7.407934e-163 2000 rounds
| 7/41
87 h-m-p 0.0000 0.0001 106.5460 CC 3695.413212 1 0.0000 7217
QuantileBeta(0.15, 0.00495, 1.43965) = 1.859539e-162 2000 rounds
| 7/41
88 h-m-p 0.0000 0.0002 103.5642 YC 3695.404089 1 0.0000 7296
QuantileBeta(0.15, 0.00495, 1.43965) = 1.942770e-162 2000 rounds
| 7/41
89 h-m-p 0.0000 0.0002 92.4035 CC 3695.400190 1 0.0000 7376
QuantileBeta(0.15, 0.00495, 1.43965) = 1.983042e-162 2000 rounds
| 7/41
90 h-m-p 0.0000 0.0002 48.7838 YC 3695.397670 1 0.0000 7455
QuantileBeta(0.15, 0.00495, 1.43965) = 2.012511e-162 2000 rounds
| 7/41
91 h-m-p 0.0000 0.0010 25.8821 +YC 3695.391752 1 0.0000 7535
QuantileBeta(0.15, 0.00495, 1.43965) = 2.099024e-162 2000 rounds
| 7/41
92 h-m-p 0.0000 0.0002 175.3928 CC 3695.388031 1 0.0000 7615
QuantileBeta(0.15, 0.00495, 1.43965) = 3.573299e-162 2000 rounds
| 7/41
93 h-m-p 0.0000 0.0006 70.5966 YC 3695.379499 1 0.0000 7694
QuantileBeta(0.15, 0.00495, 1.43965) = 3.710486e-162 2000 rounds
| 7/41
94 h-m-p 0.0000 0.0001 163.5325 YC 3695.373386 1 0.0000 7773
QuantileBeta(0.15, 0.00495, 1.43965) = 3.750705e-162 2000 rounds
| 7/41
95 h-m-p 0.0000 0.0001 133.7056 CC 3695.370707 1 0.0000 7853
QuantileBeta(0.15, 0.00495, 1.43965) = 3.720928e-162 2000 rounds
| 7/41
96 h-m-p 0.0000 0.0001 56.6542 YC 3695.368926 1 0.0000 7932
QuantileBeta(0.15, 0.00495, 1.43965) = 3.609339e-162 2000 rounds
| 7/41
97 h-m-p 0.0000 0.0001 14.7421 YC 3695.368334 1 0.0000 8011
QuantileBeta(0.15, 0.00495, 1.43965) = 2.054107e-162 2000 rounds
| 7/41
98 h-m-p 0.0000 0.0000 18.7574 C 3695.368173 0 0.0000 8089
QuantileBeta(0.15, 0.00495, 1.43965) = 1.995135e-162 2000 rounds
| 7/41
99 h-m-p 0.0000 0.0000 7.9274 Y 3695.368053 0 0.0000 8167
QuantileBeta(0.15, 0.00495, 1.43965) = 1.891001e-162 2000 rounds
| 7/41
100 h-m-p 0.0000 0.0001 2.5150 Y 3695.368039 0 0.0000 8245
QuantileBeta(0.15, 0.00495, 1.43965) = 1.839400e-162 2000 rounds
| 7/41
101 h-m-p 0.0000 0.0000 2.2654 Y 3695.368033 0 0.0000 8323
QuantileBeta(0.15, 0.00495, 1.43965) = 7.532553e-163 2000 rounds
| 7/41
102 h-m-p 0.0000 0.0000 2.4217 +C 3695.368012 0 0.0000 8402 | 8/41
103 h-m-p 0.0001 0.0287 6.2352 +C 3695.367346 0 0.0002 8481 | 8/41
104 h-m-p 0.0000 0.0018 234.1444 +C 3695.362666 0 0.0000 8559 | 8/41
105 h-m-p 0.0000 0.0006 1617.1422 YC 3695.345278 1 0.0000 8637 | 8/41
106 h-m-p 0.0000 0.0005 3640.2271 YC 3695.313974 1 0.0000 8715 | 8/41
107 h-m-p 0.0003 0.0014 25.8480 --C 3695.313920 0 0.0000 8794 | 8/41
108 h-m-p 0.0001 0.0069 1.6724 -C 3695.313918 0 0.0000 8872 | 8/41
109 h-m-p 0.0045 2.2606 0.0103 C 3695.313890 0 0.0042 8949 | 8/41
110 h-m-p 0.0000 0.0148 11.5001 ++CC 3695.307855 1 0.0008 9030 | 8/41
111 h-m-p 0.0012 0.0060 0.5323 ---C 3695.307854 0 0.0000 9110 | 8/41
112 h-m-p 0.0160 8.0000 0.0096 +++C 3695.307639 0 1.1533 9190 | 8/41
113 h-m-p 0.9726 8.0000 0.0114 ++ 3695.307090 m 8.0000 9267 | 8/41
114 h-m-p 0.8338 8.0000 0.1091 CC 3695.306690 1 1.2818 9346 | 8/41
115 h-m-p 1.6000 8.0000 0.0066 C 3695.306671 0 1.3793 9423 | 8/41
116 h-m-p 1.6000 8.0000 0.0013 --C 3695.306671 0 0.0250 9502 | 8/41
117 h-m-p 0.0244 8.0000 0.0014 -------------.. | 8/41
118 h-m-p 0.0001 0.0532 0.4075 ----------
Out..
lnL = -3695.306671
9676 lfun, 116112 eigenQcodon, 3831696 P(t)
BEBing (dim = 4). This may take several minutes.
Calculating f(x_h|w): 10 categories 20 w sets.
Calculating f(X), the marginal likelihood.
log(fX) = -3707.848275 S = -3582.947576 -135.160399
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 143 patterns 53:49
did 20 / 143 patterns 53:49
did 30 / 143 patterns 53:49
did 40 / 143 patterns 53:50
did 50 / 143 patterns 53:50
did 60 / 143 patterns 53:50
did 70 / 143 patterns 53:50
did 80 / 143 patterns 53:50
did 90 / 143 patterns 53:50
did 100 / 143 patterns 53:51
did 110 / 143 patterns 53:51
did 120 / 143 patterns 53:51
did 130 / 143 patterns 53:51
did 140 / 143 patterns 53:51
did 143 / 143 patterns 53:51end of tree file.
Time used: 53:52
The loglikelihoods for models M1, M2, M7 and M8 are -3695.369181 -3695.306761 -3695.565145 -3695.306671 respectively
CLUSTAL W (1.8) multiple sequence alignment (ALTER 1.3.3)
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPMLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIIIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQ
****************:*************:*****:*.********************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISL
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 NVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSL
************************ *********************:**********:**
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 LDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITST
*********************.**************************************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 SAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 DAGCGVKYYAGLVVKHIINITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVN
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGIFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 GAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVN
.**************** ************:****:***:********************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 TLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDA
************************************************************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAIC
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGALVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 IWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAIC
***************** *******************************.**********
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 AAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTT
************************************************************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNGPVFT
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCVPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFT
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDSTTVLNDPVFT
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 EVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFT
*******************.********************.********.*****.****
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 GELFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVK
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 GDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVR
*:********************.*************** ********************:
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 RDAAFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQATESKVLLER
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYSIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 RDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLER
***:***********.***********************************:********
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRFLVKLL
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFTFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 FLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLL
*************************.****************************.*****
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVRTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFY
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 DVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFY
*************. ********************************:************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 EFLDTCFGVGKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGHFFVSDDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 EFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 EFLDTCFDVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVL
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 EFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVL
*******.*.************************:****.********************
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 PVAFTKLAG-
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 PVAFTKLAG-
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 PVAFTKLAGG
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 PVAFTKLAG-
*********
>Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 ---AGTGTGGTCTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAATATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAACAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTAACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGGTCCTGTTTTTACTGGTGATTTATTTTATACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCTATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTGCATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCAACGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTTTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCATTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGT--- >NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTGACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCCGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTCGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCAGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTATGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTATTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTGGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACCGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTGACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAGGCATCAGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTACTTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCGTTTACAAAATTAGCAGGTGGT >NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAATATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAGCCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTGACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCAGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCATTTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGTGGT >NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGTGGT >NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTATTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTCTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTATTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGTACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTCTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACCGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACGCACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGTGGT >NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGTGGT >NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGTTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTGGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCCATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACCGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGTGGT >NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 GGAAGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACCGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGTGGT >NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCTATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGTACATTTACACAAGCCATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGATGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGACCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTGTCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACGTGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTAGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGT--- >NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTACATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGGTGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCTAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTCGTTCCTGGTGATGTGATCATCACCTCAACTAGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTAGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTCTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCTACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCATACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACCTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTATTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGAGATTACTTTAATGATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAATTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTATCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTCATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAAGGCGTTTGGTTCACCATTTATTACAAATGGTATATCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAATTGGAGTGTTGGTGCATGGGATGGTTATCTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATTATCACCTCAACTGATGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTCAAACACATTATTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCAACATCTTCTTATGATGCACTTTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTGCCAACTACTACTGGTGGTTTGGTTAGGTTTGTTAAGTCTATCGCTTCAACTGTTTTAACTGTTTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAACCAGTTTACCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAATGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGCGCACCTGTAGTTTGCCCTAAAGGTAAAATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATTCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGAGTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTAATGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATCGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGTTGTAGTGTCATTGTTAAACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAGTATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTTGTACACACTGCTGGTGTTTGCATTAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACGTGTTTTGATGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGATGATTATCTTTGGTATGTTGTAGATGACATTTATTACCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTGGCAGGT--- >NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTATTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGCTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATATTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTTTATAATGGTTTTCTTGAAACTGTTTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCCGGTTGCAAACTTATTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTCTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGTCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT--- >NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 ---AGTGTGGTTTTTGTGGATAAGTATATGTGTGGTTTTGATGGTAAACCTGTGTTACCTAAAAACATGTGGGAATTTAGGGATTACTTTAATAATAATACTGATAGTATTGTTATTGATGGTGTCACTTATCAACTAGCATGGGATGTTATACGTAAAGACCTTTCTTATGAACAGCAAAATGTTTTAGCCATTGAGAGCATTCATTACCTTGGTACTACAGGTCATACTTTGAAGTCTGGTTGCAAACTTACTAATGCCAAGCCGCCTAAATATTCTTCTAAGGTTGTTTTGAGTGGTGAATGGAATGCTGTGTATAGGGCGTTTGGTTCACCATTTATTACAAATGGTATGTCATTGCTAGATATAATTGTTAAACCAGTTTTCTTTAATGCTTTTGTTAAATGCAATTGTGGTTCTGAGAGTTGGAGTGTTGGTGCATGGGATGGTTACTTATCTTCTTGTTGTGGCACACCTGCTAAGAAACTTTGTGTTGTTCCTGGTAATGTTGTTCCTGGTGATGTGATCATCACCTCAACTGGTGCTGGTTGTGGTGTTAAATACTATGCTGGCTTAGTTGTTAAACATATTACTAACATTACTGGTGTGTCTTTATGGCGTGTTACAGCTGTTCATTCTGATGGAATGTTTGTGGCATCATCTTCTTATGATGCACTCTTGCATAGAAATTCATTAGACCCTTTTTGCTTTGATGTTAACACTTTACTTTCTAATCAATTACGTCTAGCTTTTCTTGGTGCTTCTGTTACAGAAGATGTTAAATTTGCTGCTAGCACTGGTGTTATTGACATTAGTGCTGGTATGTTTGGTCTTTACGATGACATATTGACAAACAATAAACCTTGGTTTGTACGCAAAGCTTCTGGGCTTTTTGATGCAATCTGGGATGCTTTTGTTGCCGCTATTAAGCTTGTACCAACTACTACTGGTGTTTTGGTTAGGTTTGTTAAGTCTATTGCTTCAACTGTTTTAACTGTCTCTAATGGTGTTATTATTATGTGTGCAGATGTTCCAGATGCTTTTCAATCAGTTTATCGCACATTTACACAAGCTATTTGTGCTGCATTTGATTTTTCTTTAGATGTATTTAAAATTGGTGATGTTAAATTTAAACGACTTGGTGATTATGTTCTTACTGAAAACGCTCTTGTTCGTTTGACTACTGAAGTTGTTCGTGGTGTTCGTGATGCTCGCATAAAGAAAGCCATGTTTACTAAAGTAGTTGTAGGTCCTACAACTGAAGTTAAGTTTTCTGTTATTGAACTTGCCACTGTTAATTTGCGTCTTGTTGATTGTGCACCTGTAGTTTGCCCTAAAGGTAAGATTGTTGTTATTGCTGGACAAGCTTTTTTCTATAGTGGTGGTTTTTATCGTTTTATGGTTGATCCTACAACTGTATTAAATGATCCTGTTTTTACTGGTGATTTATTTTACACTATTAAGTTTAGTGGTTTTAAGCTTGATGGTTTTAACCATCAGTTTGTTACTGCTAGTTCTGCTACAGATGCCATTATTGCTGTTGAGCTGTTGTTATTGGATTTTAAAACTGCAGTTTTTGTGTACACATGTGTGGTTGATGGCTGTAGTGTCATTGTTAGACGTGATGCTACATTCGCCACACATGTGTGTTTTAAGGACTGTTATAATATTTGGGAGCAATTCTGCATTGATAATTGTGGTGAGCCATGGTTTTTGACTGATTATAATGCTATCTTGCAGAGTAATAACCCTCAATGTGCTATTGTTCAAGCATCGGAGTCTAAAGTTTTGCTTGAGAGGTTTTTACCTAAGTGTCCTGAAATACTGTTGAGTATTGATGATGGCCATTTATGGAATCTTTTTGTTGAAAAGTTTAATTTTGTTACAGATTGGTTAAAAACTCTTAAGCTTACACTTACTTCTAATGGTCTTTTAGGTAATTGTGCCAAACGTTTTAGACGTGTTTTGGTAAAATTGCTTGATGTCTATAATGGTTTTCTTGAAACTGTCTGTAGTGTCGCACACACTGCTGGTGTTTGCATCAAATATTATGCTGTTAATGTTCCATATGTAGTTATTAGTGGTTTTGTAAGTCGTGTAATTCGTAGAGAAAGGTGTGACATGACTTTTCCTTGTGTTAGTTGTGTCACTTTTTTCTATGAATTTTTAGACACTTGTTTTGGTGTTAGTAAACCTAATGCCATTGATGTTGAACATTTAGAGCTTAAAGAAACTGTTTTTGTTGAACCTAAGGATGGTGGTCAATTTTTTGTTTCTGGTGATTATCTTTGGTATGTTGTAGATGACATTTATTATCCAGCTTCATGTAATGGTGTATTGCCAGTTGCTTTTACAAAATTAGCAGGT---
>Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNGPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDAAFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQATESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRFLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPMLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVGKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFTFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGHFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAIHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCVPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVRTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63 GSVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAGG >NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSDGFYRFMVDSTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDVTFPCVSCVTFFYEFLDTCFSVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIGGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTSAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAYTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNDNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYKAFGSPFITNGISLLDIIVKPVFFNAFVKCNCGSENWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTDAGCGVKYYAGLVVKHIINITGVSLWRVTAVHSDGMFVATSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGGLVRFVKSIASTVLTVSNGVIIMCADVPDAFQPVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDSTTVLNDPVFTGELFYTIKFSGFKLDGFNHQFVNASSATDAIIAVELLLSDFKTAVFVYTCVVDGCSVIVKRDATFATHVCFKDCYSIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVVHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFDVSKPNAIDVEHLELKETVFVEPKDGGQFFVSDDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIIIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGALVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGIFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLINAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG- >NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63 -SVVFVDKYMCGFDGKPVLPKNMWEFRDYFNNNTDSIVIDGVTYQLAWDVIRKDLSYEQQNVLAIESIHYLGTTGHTLKSGCKLTNAKPPKYSSKVVLSGEWNAVYRAFGSPFITNGMSLLDIIVKPVFFNAFVKCNCGSESWSVGAWDGYLSSCCGTPAKKLCVVPGNVVPGDVIITSTGAGCGVKYYAGLVVKHITNITGVSLWRVTAVHSDGMFVASSSYDALLHRNSLDPFCFDVNTLLSNQLRLAFLGASVTEDVKFAASTGVIDISAGMFGLYDDILTNNKPWFVRKASGLFDAIWDAFVAAIKLVPTTTGVLVRFVKSIASTVLTVSNGVIIMCADVPDAFQSVYRTFTQAICAAFDFSLDVFKIGDVKFKRLGDYVLTENALVRLTTEVVRGVRDARIKKAMFTKVVVGPTTEVKFSVIELATVNLRLVDCAPVVCPKGKIVVIAGQAFFYSGGFYRFMVDPTTVLNDPVFTGDLFYTIKFSGFKLDGFNHQFVTASSATDAIIAVELLLLDFKTAVFVYTCVVDGCSVIVRRDATFATHVCFKDCYNIWEQFCIDNCGEPWFLTDYNAILQSNNPQCAIVQASESKVLLERFLPKCPEILLSIDDGHLWNLFVEKFNFVTDWLKTLKLTLTSNGLLGNCAKRFRRVLVKLLDVYNGFLETVCSVAHTAGVCIKYYAVNVPYVVISGFVSRVIRRERCDMTFPCVSCVTFFYEFLDTCFGVSKPNAIDVEHLELKETVFVEPKDGGQFFVSGDYLWYVVDDIYYPASCNGVLPVAFTKLAG-
Reading sequence file /data//pss_subsets/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/original_alignment/codeml/fasta/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1
Found 26 sequences of length 2370
Alignment looks like a valid DNA alignment.
Estimated diversity is (pairwise deletion - ignoring missing/ambig): 1.1%
Found 52 informative sites.
Writing alignment of informative sites to: Phi.inf.sites
Writing list of informative sites to: Phi.inf.list
Calculating all pairwise incompatibilities...
Done: 0.0%100.0%
Using a window size of 80 with k as 2
Calculating analytical mean and variance
Doing permutation test for PHI
Doing permutation test for NSS
Doing Permutation test for MAXCHI
Writing alignment of polymorphic unambig sites to: Phi.poly.sites
Window size is 65 polymorphic sites
**p-Value(s)**
----------
NSS: 2.70e-02 (1000 permutations)
Max Chi^2: 1.67e-01 (1000 permutations)
PHI (Permutation): 3.31e-01 (1000 permutations)
PHI (Normal): 2.58e-01
#NEXUS
[ID: 3789378347]
begin taxa;
dimensions ntax=26;
taxlabels
Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63
NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63
NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63
NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63
NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63
NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63
NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63
Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63
NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63
NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63
NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63
NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63
NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63
NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63
NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63
;
end;
begin trees;
translate
1 Amsterdam_057_1ab_VIPR_ALG1_93004446_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63,
2 NL63_DEN_2005_347_PP1ab_VIPR_ALG1_380710256_569_2938_1_2005_02_01_USA_Human_Human_coronavirus_NL63,
3 NL63_DEN_2008_16_PP1ab_VIPR_ALG1_380710208_569_2938_1_2008_01_08_USA_Human_Human_coronavirus_NL63,
4 NL63_DEN_2009_15_PP1ab_VIPR_ALG1_380710200_569_2938_1_2009_02_13_USA_Human_Human_coronavirus_NL63,
5 NL63_DEN_2009_14_PP1ab_VIPR_ALG1_380710192_569_2938_1_2009_03_01_USA_Human_Human_coronavirus_NL63,
6 NL63_DEN_2009_20_PP1ab_VIPR_ALG1_380710216_569_2938_1_2009_03_12_USA_Human_Human_coronavirus_NL63,
7 NL63_DEN_2009_9_PP1ab_VIPR_ALG1_380710184_569_2938_1_2009_03_16_USA_Human_Human_coronavirus_NL63,
8 NL63_human_USA_0111_25_2001_Pp1ab_VIPR_ALG1_530802127_552_2915_1_2001_11_21_USA_Human_Human_coronavirus_NL63,
9 NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63,
10 NL63_human_USA_838_9_1983_Pp1ab_VIPR_ALG1_530802111_552_2915_1_1983_08_16_USA_Human_Human_coronavirus_NL63,
11 NL63_human_USA_8712_17_1987_Pp1ab_VIPR_ALG1_530802079_552_2915_1_1987_12_16_USA_Human_Human_coronavirus_NL63,
12 Amsterdam_496_1ab_VIPR_ALG1_93004453_617_2980_1_NA_Netherlands_Unknown_Human_coronavirus_NL63,
13 NL63_human_USA_891_4_1989_Pp1ab_VIPR_ALG1_530802143_552_2915_1_1989_01_03_USA_Human_Human_coronavirus_NL63,
14 NL63_human_USA_891_6_1989_Pp1ab_VIPR_ALG1_530802095_552_2915_1_1989_01_05_USA_Human_Human_coronavirus_NL63,
15 NL63_human_USA_903_28_1990_Pp1ab_VIPR_ALG1_530802103_552_2915_1_1990_03_21_USA_Human_Human_coronavirus_NL63,
16 NL63_human_USA_901_24_1990_Pp1ab_VIPR_ALG1_530802119_552_2915_1_1990_01_05_USA_Human_Human_coronavirus_NL63,
17 NL63_human_USA_905_25_1990_Pp1ab_VIPR_ALG1_530802135_552_2915_1_1990_05_29_USA_Human_Human_coronavirus_NL63,
18 NL63_human_USA_904_20_1990_Pp1ab_VIPR_ALG1_530802063_552_2915_1_1990_04_26_USA_Human_Human_coronavirus_NL63,
19 NL63_human_USA_911_56_1991_Pp1ab_VIPR_ALG1_530802087_552_2915_1_1991_01_24_USA_Human_Human_coronavirus_NL63,
20 NL63_DEN_2005_1062_PP1ab_VIPR_ALG1_380710266_569_2938_1_2005_04_12_USA_Human_Human_coronavirus_NL63,
21 NL63_DEN_2005_1862_PP1ab_VIPR_ALG1_380710274_569_2938_1_2005_11_USA_Human_Human_coronavirus_NL63,
22 NL63_DEN_2005_1876_PP1ab_VIPR_ALG1_380710282_569_2938_1_2005_11_21_USA_Human_Human_coronavirus_NL63,
23 NL63_DEN_2005_193_PP1ab_VIPR_ALG1_380710224_569_2938_1_2005_01_11_USA_Human_Human_coronavirus_NL63,
24 NL63_DEN_2005_232_PP1ab_VIPR_ALG1_380710232_569_2938_1_2005_01_18_USA_Human_Human_coronavirus_NL63,
25 NL63_DEN_2005_235_PP1ab_VIPR_ALG1_380710240_569_2938_1_2005_01_19_USA_Human_Human_coronavirus_NL63,
26 NL63_DEN_2005_271_PP1ab_VIPR_ALG1_380710248_569_2938_1_2005_01_23_USA_Human_Human_coronavirus_NL63
;
[Note: This tree contains information on the topology,
branch lengths (if present), and the probability
of the partition indicated by the branch.]
tree con_50_majrule = (1:3.751713e-03,(((2:5.832707e-04,26:2.319576e-04)1.000:9.143725e-04,9:8.988574e-04,(20:8.962970e-04,22:1.276761e-03,23:9.046070e-04)0.999:9.127200e-04)0.995:1.047757e-03,((3:2.453348e-04,6:1.942658e-03)0.998:2.234850e-03,21:1.382423e-03)0.971:9.407281e-04)0.998:1.497548e-03,((((4:5.830038e-04,5:2.550215e-04,7:5.639820e-04,8:5.981084e-04,12:5.821862e-04,24:5.828723e-04,25:2.449006e-04)0.996:2.625806e-03,11:4.780589e-03)1.000:1.133009e-02,10:8.233966e-04)0.658:8.547485e-04,13:2.344117e-04,14:5.784512e-04,15:5.582861e-04,16:1.257414e-03,17:1.589582e-03,18:2.388101e-04,19:2.257580e-04)0.993:1.271532e-03);
[Note: This tree contains information only on the topology
and branch lengths (median of the posterior probability density).]
tree con_50_majrule = (1:3.751713e-03,(((2:5.832707e-04,26:2.319576e-04):9.143725e-04,9:8.988574e-04,(20:8.962970e-04,22:1.276761e-03,23:9.046070e-04):9.127200e-04):1.047757e-03,((3:2.453348e-04,6:1.942658e-03):2.234850e-03,21:1.382423e-03):9.407281e-04):1.497548e-03,((((4:5.830038e-04,5:2.550215e-04,7:5.639820e-04,8:5.981084e-04,12:5.821862e-04,24:5.828723e-04,25:2.449006e-04):2.625806e-03,11:4.780589e-03):1.133009e-02,10:8.233966e-04):8.547485e-04,13:2.344117e-04,14:5.784512e-04,15:5.582861e-04,16:1.257414e-03,17:1.589582e-03,18:2.388101e-04,19:2.257580e-04):1.271532e-03);
end;
Estimated marginal likelihoods for runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)
(Values are saved to the file /data/mrbayes_input.nex.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -3918.35 -3943.99
2 -3918.96 -3941.02
--------------------------------------
TOTAL -3918.61 -3943.35
--------------------------------------
Model parameter summaries over the runs sampled in files
"/data/mrbayes_input.nex.run1.p" and "/data/mrbayes_input.nex.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 "/data/mrbayes_input.nex.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 0.058114 0.000048 0.044799 0.071408 0.057572 1349.32 1362.12 1.000
r(A<->C){all} 0.039036 0.000529 0.001192 0.082531 0.034860 791.49 804.33 1.000
r(A<->G){all} 0.323197 0.002478 0.232205 0.423494 0.321677 700.09 725.63 1.000
r(A<->T){all} 0.022281 0.000107 0.004701 0.042958 0.020631 796.07 990.21 1.001
r(C<->G){all} 0.015273 0.000221 0.000010 0.044542 0.010945 832.12 876.97 1.000
r(C<->T){all} 0.571426 0.002878 0.464826 0.674377 0.570484 741.65 803.81 1.001
r(G<->T){all} 0.028787 0.000145 0.007903 0.052450 0.027354 868.98 931.08 1.000
pi(A){all} 0.239662 0.000073 0.223502 0.256582 0.239487 1005.42 1154.54 1.000
pi(C){all} 0.137158 0.000047 0.124601 0.150779 0.136985 1267.87 1279.21 1.000
pi(G){all} 0.215578 0.000068 0.200142 0.232500 0.215586 1221.62 1256.30 1.000
pi(T){all} 0.407602 0.000101 0.387760 0.427354 0.407476 1115.77 1239.62 1.000
alpha{1,2} 0.131381 0.021475 0.000192 0.364621 0.093895 918.42 953.01 1.000
alpha{3} 2.164240 1.559742 0.363221 4.771774 1.877735 1294.78 1323.20 1.000
pinvar{all} 0.672782 0.006715 0.509420 0.815747 0.682229 1077.53 1091.10 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.
CODONML (in paml version 4.9h, March 2018) /data/fasta_checked/NL63_human_USA_012_31_2001_Pp1ab_VIPR_ALG1_530802071_552_2915_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1
Model: One dN/dS ratio,
Codon frequency model: F3x4
Site-class models:
ns = 26 ls = 788
Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 55 54 53 54 53 53 | Ser TCT 22 23 22 22 22 22 | Tyr TAT 23 23 21 22 21 21 | Cys TGT 23 23 23 23 23 23
TTC 5 5 6 5 6 6 | TCC 0 0 0 0 0 0 | TAC 6 6 9 8 9 9 | TGC 6 6 6 6 6 6
Leu TTA 21 19 19 20 19 19 | TCA 8 6 9 8 9 9 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 16 17 18 17 18 18 | TCG 0 2 0 1 0 0 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 25 24 24 25 25 25 | Pro CCT 19 18 19 19 19 19 | His CAT 9 9 9 9 9 9 | Arg CGT 13 14 13 13 13 13
CTC 1 2 2 1 1 1 | CCC 0 0 0 0 0 0 | CAC 1 1 0 0 0 0 | CGC 3 2 3 3 3 3
CTA 3 3 3 3 3 3 | CCA 8 9 8 8 8 8 | Gln CAA 10 10 10 10 9 10 | CGA 1 1 1 1 1 1
CTG 2 2 2 2 2 2 | CCG 1 1 1 1 1 1 | CAG 3 3 3 3 4 3 | CGG 0 0 0 0 0 0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 31 32 31 32 31 31 | Thr ACT 34 32 34 32 35 34 | Asn AAT 28 30 28 28 27 29 | Ser AGT 18 17 18 17 18 18
ATC 5 5 5 5 5 5 | ACC 2 1 2 3 2 2 | AAC 7 6 7 7 7 6 | AGC 2 2 2 2 2 2
ATA 5 6 5 5 5 5 | ACA 16 18 17 17 17 17 | Lys AAA 28 29 28 28 28 27 | Arg AGA 4 5 4 5 4 4
Met ATG 9 7 9 10 9 9 | ACG 1 1 0 0 0 0 | AAG 17 17 17 17 17 18 | AGG 5 3 5 4 5 5
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 66 69 68 68 68 68 | Ala GCT 33 32 33 34 33 34 | Asp GAT 41 45 41 41 41 41 | Gly GGT 46 44 46 47 46 46
GTC 9 6 8 8 8 8 | GCC 8 9 8 7 7 7 | GAC 8 9 8 8 8 8 | GGC 4 3 4 4 4 4
GTA 13 13 13 13 13 13 | GCA 13 12 12 12 12 12 | Glu GAA 16 16 16 16 16 16 | GGA 2 2 2 2 2 2
GTG 10 12 10 9 10 10 | GCG 1 0 1 1 2 1 | GAG 8 8 8 8 8 8 | GGG 1 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 54 54 52 52 54 54 | Ser TCT 23 23 22 22 22 23 | Tyr TAT 23 23 21 21 23 23 | Cys TGT 23 23 23 23 23 23
TTC 5 5 7 7 5 5 | TCC 0 0 0 0 0 0 | TAC 6 6 9 9 7 6 | TGC 6 6 6 6 6 6
Leu TTA 19 19 20 20 21 19 | TCA 6 6 8 8 8 6 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 17 17 17 17 17 17 | TCG 2 2 1 1 1 2 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 24 24 25 25 24 24 | Pro CCT 18 18 19 19 19 18 | His CAT 10 9 9 9 9 9 | Arg CGT 14 14 13 13 13 14
CTC 2 2 1 1 2 2 | CCC 0 0 0 0 0 0 | CAC 1 1 0 0 0 0 | CGC 2 2 3 3 3 3
CTA 3 3 3 3 2 3 | CCA 9 9 8 8 8 9 | Gln CAA 9 10 10 10 10 10 | CGA 1 1 1 1 1 1
CTG 2 2 2 2 2 2 | CCG 1 1 1 1 1 1 | CAG 3 3 3 3 3 3 | CGG 0 0 0 0 0 0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 32 32 32 32 31 32 | Thr ACT 32 32 34 34 33 32 | Asn AAT 30 30 28 28 27 30 | Ser AGT 17 17 18 18 18 17
ATC 5 5 5 5 5 5 | ACC 1 1 2 2 3 1 | AAC 6 6 7 7 7 6 | AGC 2 2 2 2 2 2
ATA 6 6 5 5 5 6 | ACA 18 18 17 17 17 18 | Lys AAA 29 29 28 28 28 29 | Arg AGA 5 5 4 4 5 5
Met ATG 7 7 9 9 9 7 | ACG 1 1 0 0 0 1 | AAG 17 17 17 17 17 17 | AGG 3 3 5 5 4 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 69 69 67 67 68 69 | Ala GCT 32 32 34 34 35 32 | Asp GAT 45 45 41 41 43 45 | Gly GGT 44 44 46 46 45 44
GTC 6 6 8 8 8 6 | GCC 9 9 7 7 6 9 | GAC 9 9 8 8 8 9 | GGC 3 3 4 4 4 3
GTA 13 13 13 14 13 13 | GCA 11 11 12 11 12 11 | Glu GAA 16 16 16 16 16 16 | GGA 2 2 2 2 2 2
GTG 12 12 10 10 10 12 | GCG 1 1 1 1 1 1 | GAG 8 8 8 8 8 8 | GGG 1 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 54 54 54 54 53 54 | Ser TCT 23 22 23 23 22 22 | Tyr TAT 23 23 23 23 21 23 | Cys TGT 23 23 23 23 23 23
TTC 5 5 5 5 6 5 | TCC 0 0 0 0 0 0 | TAC 6 7 6 6 9 6 | TGC 6 6 6 6 6 6
Leu TTA 19 20 19 18 20 20 | TCA 6 8 6 6 8 8 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 17 18 17 18 17 17 | TCG 2 1 2 2 1 1 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 24 24 24 24 25 25 | Pro CCT 18 19 18 18 19 19 | His CAT 9 9 9 9 9 9 | Arg CGT 14 13 14 14 13 13
CTC 2 2 2 2 1 1 | CCC 0 0 0 0 0 0 | CAC 1 0 1 1 0 1 | CGC 2 3 2 2 3 3
CTA 3 2 3 3 3 3 | CCA 9 8 9 9 8 8 | Gln CAA 10 10 10 10 10 10 | CGA 1 1 1 1 1 1
CTG 2 2 2 2 2 2 | CCG 1 1 1 1 1 1 | CAG 3 3 3 3 3 3 | CGG 0 0 0 0 0 0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 32 31 32 32 31 31 | Thr ACT 32 33 31 32 34 35 | Asn AAT 30 27 30 30 29 29 | Ser AGT 17 18 17 17 18 17
ATC 5 5 5 5 5 5 | ACC 1 3 2 1 2 1 | AAC 6 7 6 6 6 6 | AGC 2 2 2 2 2 2
ATA 6 5 6 6 5 5 | ACA 18 17 18 18 17 17 | Lys AAA 29 28 29 29 28 28 | Arg AGA 5 5 5 5 4 4
Met ATG 7 9 7 7 9 9 | ACG 1 0 1 1 0 0 | AAG 17 17 17 17 17 17 | AGG 3 4 3 3 5 5
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 69 69 69 69 67 69 | Ala GCT 32 34 32 32 34 32 | Asp GAT 45 43 45 45 41 42 | Gly GGT 44 47 44 44 46 46
GTC 6 7 6 6 8 7 | GCC 9 7 9 9 7 9 | GAC 9 8 9 9 8 8 | GGC 3 2 3 3 4 4
GTA 13 13 13 13 14 14 | GCA 11 12 11 11 12 12 | Glu GAA 16 16 16 16 16 16 | GGA 2 2 2 2 2 2
GTG 12 10 12 12 10 9 | GCG 1 1 1 1 1 1 | GAG 8 8 8 8 8 8 | GGG 1 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 54 54 54 54 54 54 | Ser TCT 23 22 22 22 22 21 | Tyr TAT 22 22 22 22 22 22 | Cys TGT 22 23 23 23 23 24
TTC 5 5 5 5 5 5 | TCC 0 0 0 0 0 1 | TAC 7 7 7 7 7 7 | TGC 7 6 6 6 6 5
Leu TTA 19 20 20 20 20 20 | TCA 6 8 8 8 8 8 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 17 17 17 17 17 17 | TCG 2 1 1 1 1 1 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 25 25 25 25 25 25 | Pro CCT 18 19 19 19 19 19 | His CAT 8 9 9 9 9 9 | Arg CGT 13 13 13 13 13 13
CTC 1 1 1 1 1 1 | CCC 0 0 0 0 0 0 | CAC 2 1 1 1 1 1 | CGC 3 3 3 3 3 3
CTA 3 3 3 3 3 3 | CCA 9 8 8 8 8 8 | Gln CAA 10 10 10 10 10 10 | CGA 1 1 1 1 1 1
CTG 2 2 2 2 2 2 | CCG 1 1 1 1 1 1 | CAG 3 3 3 3 3 3 | CGG 0 0 0 0 0 0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 34 31 32 31 31 32 | Thr ACT 31 35 35 35 35 34 | Asn AAT 29 28 28 28 28 28 | Ser AGT 17 17 17 17 17 17
ATC 4 5 5 5 5 5 | ACC 1 1 1 1 1 1 | AAC 6 7 7 7 7 7 | AGC 2 2 2 2 2 2
ATA 6 5 5 5 6 5 | ACA 18 17 17 17 17 17 | Lys AAA 30 28 28 28 28 28 | Arg AGA 4 4 4 4 4 4
Met ATG 8 9 9 9 8 9 | ACG 1 0 0 0 0 0 | AAG 17 17 17 17 17 17 | AGG 3 5 5 5 5 5
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 69 69 68 68 71 68 | Ala GCT 32 32 32 33 32 32 | Asp GAT 45 42 42 42 42 42 | Gly GGT 45 46 46 46 46 46
GTC 6 7 7 7 5 8 | GCC 9 9 9 9 9 9 | GAC 8 8 8 8 8 8 | GGC 3 4 4 4 4 4
GTA 13 13 13 13 13 13 | GCA 11 12 12 12 12 12 | Glu GAA 16 16 16 16 16 16 | GGA 2 2 2 2 2 2
GTG 11 10 10 10 10 10 | GCG 1 1 1 1 1 1 | GAG 9 8 8 8 8 8 | GGG 1 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
----------------------------------------------------------------------
Phe TTT 54 54 | Ser TCT 22 22 | Tyr TAT 22 22 | Cys TGT 23 23
TTC 5 5 | TCC 0 0 | TAC 7 7 | TGC 6 6
Leu TTA 20 20 | TCA 8 8 | *** TAA 0 0 | *** TGA 0 0
TTG 17 17 | TCG 1 1 | TAG 0 0 | Trp TGG 13 13
----------------------------------------------------------------------
Leu CTT 25 25 | Pro CCT 19 19 | His CAT 9 9 | Arg CGT 13 13
CTC 1 1 | CCC 0 0 | CAC 1 1 | CGC 3 3
CTA 3 3 | CCA 8 8 | Gln CAA 10 10 | CGA 1 1
CTG 2 2 | CCG 1 1 | CAG 3 3 | CGG 0 0
----------------------------------------------------------------------
Ile ATT 31 31 | Thr ACT 35 35 | Asn AAT 28 28 | Ser AGT 17 17
ATC 5 5 | ACC 1 1 | AAC 7 7 | AGC 2 2
ATA 5 5 | ACA 17 17 | Lys AAA 28 28 | Arg AGA 4 4
Met ATG 9 9 | ACG 0 0 | AAG 17 17 | AGG 5 5
----------------------------------------------------------------------
Val GTT 69 69 | Ala GCT 32 32 | Asp GAT 42 42 | Gly GGT 46 46
GTC 7 7 | GCC 9 9 | GAC 8 8 | GGC 4 4
GTA 13 13 | GCA 12 12 | Glu GAA 16 16 | GGA 2 2
GTG 10 10 | GCG 1 1 | GAG 8 8 | GGG 1 1
----------------------------------------------------------------------
Codon position x base (3x4) table for each sequence.
#1: C1
position 1: T:0.25127 C:0.12563 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21066 A:0.26015 G:0.17893
position 3: T:0.61675 C:0.08503 A:0.18782 G:0.11041
Average T:0.40609 C:0.14044 A:0.23900 G:0.21447
#2: C2
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.62056 C:0.07995 A:0.18909 G:0.11041
Average T:0.40694 C:0.13790 A:0.24196 G:0.21320
#3: C3
position 1: T:0.25254 C:0.12437 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21066 A:0.26015 G:0.17893
position 3: T:0.61294 C:0.08883 A:0.18655 G:0.11168
Average T:0.40525 C:0.14129 A:0.23858 G:0.21489
#4: C4
position 1: T:0.25254 C:0.12437 A:0.26904 G:0.35406
position 2: T:0.35152 C:0.20939 A:0.26015 G:0.17893
position 3: T:0.61675 C:0.08503 A:0.18782 G:0.11041
Average T:0.40694 C:0.13959 A:0.23900 G:0.21447
#5: C5
position 1: T:0.25254 C:0.12437 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21193 A:0.25888 G:0.17893
position 3: T:0.61421 C:0.08629 A:0.18528 G:0.11421
Average T:0.40567 C:0.14086 A:0.23773 G:0.21574
#6: C6
position 1: T:0.25254 C:0.12437 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21066 A:0.26015 G:0.17893
position 3: T:0.61675 C:0.08503 A:0.18528 G:0.11294
Average T:0.40651 C:0.14002 A:0.23816 G:0.21531
#7: C7
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.62183 C:0.07995 A:0.18655 G:0.11168
Average T:0.40736 C:0.13790 A:0.24112 G:0.21362
#8: C8
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.62056 C:0.07995 A:0.18782 G:0.11168
Average T:0.40694 C:0.13790 A:0.24154 G:0.21362
#9: C9
position 1: T:0.25254 C:0.12437 A:0.27030 G:0.35279
position 2: T:0.35025 C:0.21066 A:0.26015 G:0.17893
position 3: T:0.61421 C:0.08756 A:0.18655 G:0.11168
Average T:0.40567 C:0.14086 A:0.23900 G:0.21447
#10: C10
position 1: T:0.25254 C:0.12437 A:0.27030 G:0.35279
position 2: T:0.35152 C:0.20939 A:0.26015 G:0.17893
position 3: T:0.61421 C:0.08756 A:0.18655 G:0.11168
Average T:0.40609 C:0.14044 A:0.23900 G:0.21447
#11: C11
position 1: T:0.25381 C:0.12310 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18782 G:0.11041
Average T:0.40736 C:0.13917 A:0.23900 G:0.21447
#12: C12
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26777 G:0.17386
position 3: T:0.62056 C:0.07995 A:0.18782 G:0.11168
Average T:0.40694 C:0.13790 A:0.24112 G:0.21404
#13: C13
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.62056 C:0.07995 A:0.18782 G:0.11168
Average T:0.40694 C:0.13790 A:0.24154 G:0.21362
#14: C14
position 1: T:0.25381 C:0.12310 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.62056 C:0.08122 A:0.18655 G:0.11168
Average T:0.40821 C:0.13832 A:0.23858 G:0.21489
#15: C15
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.61929 C:0.08122 A:0.18782 G:0.11168
Average T:0.40651 C:0.13832 A:0.24154 G:0.21362
#16: C16
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35025 C:0.20812 A:0.26904 G:0.17259
position 3: T:0.62056 C:0.07995 A:0.18655 G:0.11294
Average T:0.40694 C:0.13790 A:0.24112 G:0.21404
#17: C17
position 1: T:0.25254 C:0.12437 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21066 A:0.26015 G:0.17893
position 3: T:0.61548 C:0.08503 A:0.18782 G:0.11168
Average T:0.40609 C:0.14002 A:0.23900 G:0.21489
#18: C18
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.62056 C:0.08122 A:0.18782 G:0.11041
Average T:0.40736 C:0.13917 A:0.23900 G:0.21447
#19: C19
position 1: T:0.25000 C:0.12563 A:0.26777 G:0.35660
position 2: T:0.35152 C:0.20685 A:0.26904 G:0.17259
position 3: T:0.61802 C:0.08122 A:0.18782 G:0.11294
Average T:0.40651 C:0.13790 A:0.24154 G:0.21404
#20: C20
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18655 G:0.11168
Average T:0.40651 C:0.14002 A:0.23858 G:0.21489
#21: C21
position 1: T:0.25127 C:0.12563 A:0.26904 G:0.35406
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18655 G:0.11168
Average T:0.40651 C:0.14002 A:0.23900 G:0.21447
#22: C22
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.34898 C:0.21193 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18655 G:0.11168
Average T:0.40609 C:0.14044 A:0.23858 G:0.21489
#23: C23
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.62056 C:0.08122 A:0.18782 G:0.11041
Average T:0.40736 C:0.13917 A:0.23900 G:0.21447
#24: C24
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35152 C:0.20939 A:0.26142 G:0.17766
position 3: T:0.61675 C:0.08503 A:0.18655 G:0.11168
Average T:0.40651 C:0.14002 A:0.23858 G:0.21489
#25: C25
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18655 G:0.11168
Average T:0.40651 C:0.14002 A:0.23858 G:0.21489
#26: C26
position 1: T:0.25127 C:0.12563 A:0.26777 G:0.35533
position 2: T:0.35025 C:0.21066 A:0.26142 G:0.17766
position 3: T:0.61802 C:0.08376 A:0.18655 G:0.11168
Average T:0.40651 C:0.14002 A:0.23858 G:0.21489
Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT 1397 | Ser S TCT 579 | Tyr Y TAT 577 | Cys C TGT 598
TTC 138 | TCC 1 | TAC 186 | TGC 156
Leu L TTA 510 | TCA 195 | *** * TAA 0 | *** * TGA 0
TTG 446 | TCG 30 | TAG 0 | Trp W TGG 338
------------------------------------------------------------------------------
Leu L CTT 640 | Pro P CCT 486 | His H CAT 234 | Arg R CGT 345
CTC 36 | CCC 0 | CAC 17 | CGC 72
CTA 76 | CCA 216 | Gln Q CAA 258 | CGA 26
CTG 52 | CCG 26 | CAG 79 | CGG 0
------------------------------------------------------------------------------
Ile I ATT 821 | Thr T ACT 870 | Asn N AAT 743 | Ser S AGT 451
ATC 129 | ACC 40 | AAC 171 | AGC 52
ATA 139 | ACA 449 | Lys K AAA 736 | Arg R AGA 114
Met M ATG 219 | ACG 9 | AAG 443 | AGG 111
------------------------------------------------------------------------------
Val V GTT 1779 | Ala A GCT 851 | Asp D GAT 1110 | Gly G GGT 1182
GTC 183 | GCC 215 | GAC 215 | GGC 94
GTA 341 | GCA 305 | Glu E GAA 416 | GGA 52
GTG 273 | GCG 26 | GAG 209 | GGG 26
------------------------------------------------------------------------------
Codon position x base (3x4) table, overall
position 1: T:0.25142 C:0.12510 A:0.26830 G:0.35518
position 2: T:0.35040 C:0.20978 A:0.26328 G:0.17654
position 3: T:0.61807 C:0.08322 A:0.18709 G:0.11163
Average T:0.40663 C:0.13937 A:0.23955 G:0.21445
Model 1: NearlyNeutral (2 categories)
TREE # 1: (1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
lnL(ntime: 36 np: 39): -3695.369181 +0.000000
27..1 27..28 28..29 29..30 30..10 30..9 29..17 29..31 31..3 31..5 31..6 28..32 32..33 33..11 33..14 32..4 27..34 34..35 35..36 36..37 37..12 37..13 37..15 37..16 37..2 37..7 37..8 36..19 35..18 34..20 34..21 34..22 34..23 34..24 34..25 34..26
0.013663 0.005206 0.002877 0.002655 0.001323 0.000004 0.002664 0.002659 0.002653 0.004006 0.002660 0.002729 0.007888 0.000004 0.006748 0.004222 0.004032 0.002640 0.041646 0.009273 0.001350 0.000004 0.001349 0.001350 0.001350 0.001348 0.000004 0.017243 0.001393 0.000004 0.001337 0.001337 0.004039 0.005362 0.000004 0.000004 15.972585 0.882960 0.000001
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.157030
(1: 0.013663, (((10: 0.001323, 9: 0.000004): 0.002655, 17: 0.002664, (3: 0.002653, 5: 0.004006, 6: 0.002660): 0.002659): 0.002877, ((11: 0.000004, 14: 0.006748): 0.007888, 4: 0.004222): 0.002729): 0.005206, ((((12: 0.001350, 13: 0.000004, 15: 0.001349, 16: 0.001350, 2: 0.001350, 7: 0.001348, 8: 0.000004): 0.009273, 19: 0.017243): 0.041646, 18: 0.001393): 0.002640, 20: 0.000004, 21: 0.001337, 22: 0.001337, 23: 0.004039, 24: 0.005362, 25: 0.000004, 26: 0.000004): 0.004032);
(C1: 0.013663, (((C10: 0.001323, C9: 0.000004): 0.002655, C17: 0.002664, (C3: 0.002653, C5: 0.004006, C6: 0.002660): 0.002659): 0.002877, ((C11: 0.000004, C14: 0.006748): 0.007888, C4: 0.004222): 0.002729): 0.005206, ((((C12: 0.001350, C13: 0.000004, C15: 0.001349, C16: 0.001350, C2: 0.001350, C7: 0.001348, C8: 0.000004): 0.009273, C19: 0.017243): 0.041646, C18: 0.001393): 0.002640, C20: 0.000004, C21: 0.001337, C22: 0.001337, C23: 0.004039, C24: 0.005362, C25: 0.000004, C26: 0.000004): 0.004032);
Detailed output identifying parameters
kappa (ts/tv) = 15.97258
MLEs of dN/dS (w) for site classes (K=2)
p: 0.88296 0.11704
w: 0.00000 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
27..1 0.014 2012.6 351.4 0.1170 0.0021 0.0183 4.3 6.4
27..28 0.005 2012.6 351.4 0.1170 0.0008 0.0070 1.6 2.5
28..29 0.003 2012.6 351.4 0.1170 0.0005 0.0039 0.9 1.4
29..30 0.003 2012.6 351.4 0.1170 0.0004 0.0036 0.8 1.3
30..10 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
30..9 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
29..17 0.003 2012.6 351.4 0.1170 0.0004 0.0036 0.8 1.3
29..31 0.003 2012.6 351.4 0.1170 0.0004 0.0036 0.8 1.3
31..3 0.003 2012.6 351.4 0.1170 0.0004 0.0036 0.8 1.3
31..5 0.004 2012.6 351.4 0.1170 0.0006 0.0054 1.3 1.9
31..6 0.003 2012.6 351.4 0.1170 0.0004 0.0036 0.8 1.3
28..32 0.003 2012.6 351.4 0.1170 0.0004 0.0037 0.9 1.3
32..33 0.008 2012.6 351.4 0.1170 0.0012 0.0106 2.5 3.7
33..11 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
33..14 0.007 2012.6 351.4 0.1170 0.0011 0.0091 2.1 3.2
32..4 0.004 2012.6 351.4 0.1170 0.0007 0.0057 1.3 2.0
27..34 0.004 2012.6 351.4 0.1170 0.0006 0.0054 1.3 1.9
34..35 0.003 2012.6 351.4 0.1170 0.0004 0.0035 0.8 1.2
35..36 0.042 2012.6 351.4 0.1170 0.0065 0.0559 13.2 19.6
36..37 0.009 2012.6 351.4 0.1170 0.0015 0.0124 2.9 4.4
37..12 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
37..13 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
37..15 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
37..16 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
37..2 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
37..7 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
37..8 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
36..19 0.017 2012.6 351.4 0.1170 0.0027 0.0231 5.5 8.1
35..18 0.001 2012.6 351.4 0.1170 0.0002 0.0019 0.4 0.7
34..20 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
34..21 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
34..22 0.001 2012.6 351.4 0.1170 0.0002 0.0018 0.4 0.6
34..23 0.004 2012.6 351.4 0.1170 0.0006 0.0054 1.3 1.9
34..24 0.005 2012.6 351.4 0.1170 0.0008 0.0072 1.7 2.5
34..25 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
34..26 0.000 2012.6 351.4 0.1170 0.0000 0.0000 0.0 0.0
Time used: 3:44
Model 2: PositiveSelection (3 categories)
TREE # 1: (1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
lnL(ntime: 36 np: 41): -3695.306761 +0.000000
27..1 27..28 28..29 29..30 30..10 30..9 29..17 29..31 31..3 31..5 31..6 28..32 32..33 33..11 33..14 32..4 27..34 34..35 35..36 36..37 37..12 37..13 37..15 37..16 37..2 37..7 37..8 36..19 35..18 34..20 34..21 34..22 34..23 34..24 34..25 34..26
0.013738 0.005227 0.002887 0.002665 0.001328 0.000004 0.002674 0.002669 0.002663 0.004022 0.002670 0.002743 0.007923 0.000004 0.006775 0.004233 0.004049 0.002651 0.042020 0.009298 0.001356 0.000004 0.001355 0.001356 0.001356 0.001353 0.000004 0.017372 0.001398 0.000004 0.001342 0.001342 0.004054 0.005383 0.000004 0.000004 16.076828 0.891292 0.001454 0.000001 1.132662
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.157928
(1: 0.013738, (((10: 0.001328, 9: 0.000004): 0.002665, 17: 0.002674, (3: 0.002663, 5: 0.004022, 6: 0.002670): 0.002669): 0.002887, ((11: 0.000004, 14: 0.006775): 0.007923, 4: 0.004233): 0.002743): 0.005227, ((((12: 0.001356, 13: 0.000004, 15: 0.001355, 16: 0.001356, 2: 0.001356, 7: 0.001353, 8: 0.000004): 0.009298, 19: 0.017372): 0.042020, 18: 0.001398): 0.002651, 20: 0.000004, 21: 0.001342, 22: 0.001342, 23: 0.004054, 24: 0.005383, 25: 0.000004, 26: 0.000004): 0.004049);
(C1: 0.013738, (((C10: 0.001328, C9: 0.000004): 0.002665, C17: 0.002674, (C3: 0.002663, C5: 0.004022, C6: 0.002670): 0.002669): 0.002887, ((C11: 0.000004, C14: 0.006775): 0.007923, C4: 0.004233): 0.002743): 0.005227, ((((C12: 0.001356, C13: 0.000004, C15: 0.001355, C16: 0.001356, C2: 0.001356, C7: 0.001353, C8: 0.000004): 0.009298, C19: 0.017372): 0.042020, C18: 0.001398): 0.002651, C20: 0.000004, C21: 0.001342, C22: 0.001342, C23: 0.004054, C24: 0.005383, C25: 0.000004, C26: 0.000004): 0.004049);
Detailed output identifying parameters
kappa (ts/tv) = 16.07683
MLEs of dN/dS (w) for site classes (K=3)
p: 0.89129 0.00145 0.10725
w: 0.00000 1.00000 1.13266
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
27..1 0.014 2012.5 351.5 0.1229 0.0022 0.0181 4.5 6.4
27..28 0.005 2012.5 351.5 0.1229 0.0008 0.0069 1.7 2.4
28..29 0.003 2012.5 351.5 0.1229 0.0005 0.0038 0.9 1.3
29..30 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
30..10 0.001 2012.5 351.5 0.1229 0.0002 0.0017 0.4 0.6
30..9 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
29..17 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
29..31 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
31..3 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
31..5 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
31..6 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
28..32 0.003 2012.5 351.5 0.1229 0.0004 0.0036 0.9 1.3
32..33 0.008 2012.5 351.5 0.1229 0.0013 0.0104 2.6 3.7
33..11 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
33..14 0.007 2012.5 351.5 0.1229 0.0011 0.0089 2.2 3.1
32..4 0.004 2012.5 351.5 0.1229 0.0007 0.0056 1.4 2.0
27..34 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
34..35 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
35..36 0.042 2012.5 351.5 0.1229 0.0068 0.0553 13.7 19.4
36..37 0.009 2012.5 351.5 0.1229 0.0015 0.0122 3.0 4.3
37..12 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..13 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
37..15 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..16 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..2 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..7 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..8 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
36..19 0.017 2012.5 351.5 0.1229 0.0028 0.0229 5.7 8.0
35..18 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.5 0.6
34..20 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
34..21 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
34..22 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
34..23 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
34..24 0.005 2012.5 351.5 0.1229 0.0009 0.0071 1.8 2.5
34..25 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
34..26 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C1)
Pr(w>1) post mean +- SE for w
17 V 0.988* 1.131
31 N 0.988* 1.131
37 V 0.987* 1.131
39 D 0.989* 1.131
84 T 0.990* 1.131
106 R 0.988* 1.131
117 M 0.988* 1.131
141 S 0.987* 1.131
180 S 0.989* 1.131
197 T 0.987* 1.131
210 V 0.987* 1.131
215 M 0.988* 1.131
219 S 0.988* 1.131
317 V 0.989* 1.131
349 S 0.988* 1.131
439 A 0.988* 1.131
460 G 0.987* 1.131
469 P 0.987* 1.131
475 G 0.987* 1.131
481 D 0.987* 1.131
502 T 0.987* 1.131
518 L 0.988* 1.131
539 R 0.988* 1.131
543 A 0.988* 1.131
555 N 0.987* 1.131
591 T 0.988* 1.131
625 N 0.987* 1.131
654 F 0.987* 1.131
673 A 0.988* 1.131
674 H 0.989* 1.131
707 M 0.988* 1.131
727 G 0.989* 1.131
729 S 0.987* 1.131
754 Q 0.988* 1.131
759 G 0.987* 1.131
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: C1)
Pr(w>1) post mean +- SE for w
31 N 0.612 1.644 +- 0.859
39 D 0.624 1.665 +- 0.865
84 T 0.749 1.862 +- 0.825
180 S 0.623 1.663 +- 0.862
317 V 0.615 1.648 +- 0.861
674 H 0.756 1.877 +- 0.864
727 G 0.656 1.718 +- 0.867
The grid (see ternary graph for p0-p1)
w0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950
w2: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500
Posterior on the grid
w0: 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
w2: 0.535 0.359 0.088 0.015 0.002 0.000 0.000 0.000 0.000 0.000
Posterior for p0-p1 (see the ternary graph) (YWN2015, fig. 1)
0.000
0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.001 0.999
sum of density on p0-p1 = 1.000000
Time used: 7:47
Model 7: beta (10 categories)
TREE # 1: (1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
check convergence..
lnL(ntime: 36 np: 39): -3695.565145 +0.000000
27..1 27..28 28..29 29..30 30..10 30..9 29..17 29..31 31..3 31..5 31..6 28..32 32..33 33..11 33..14 32..4 27..34 34..35 35..36 36..37 37..12 37..13 37..15 37..16 37..2 37..7 37..8 36..19 35..18 34..20 34..21 34..22 34..23 34..24 34..25 34..26
0.013516 0.005154 0.002847 0.002627 0.001309 0.000004 0.002637 0.002631 0.002625 0.003963 0.002633 0.002701 0.007807 0.000004 0.006680 0.004181 0.003990 0.002613 0.041157 0.009182 0.001336 0.000004 0.001334 0.001335 0.001336 0.001333 0.000004 0.017054 0.001380 0.000004 0.001323 0.001323 0.003999 0.005307 0.000004 0.000004 15.829618 0.010631 0.072535
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.155340
(1: 0.013516, (((10: 0.001309, 9: 0.000004): 0.002627, 17: 0.002637, (3: 0.002625, 5: 0.003963, 6: 0.002633): 0.002631): 0.002847, ((11: 0.000004, 14: 0.006680): 0.007807, 4: 0.004181): 0.002701): 0.005154, ((((12: 0.001336, 13: 0.000004, 15: 0.001334, 16: 0.001335, 2: 0.001336, 7: 0.001333, 8: 0.000004): 0.009182, 19: 0.017054): 0.041157, 18: 0.001380): 0.002613, 20: 0.000004, 21: 0.001323, 22: 0.001323, 23: 0.003999, 24: 0.005307, 25: 0.000004, 26: 0.000004): 0.003990);
(C1: 0.013516, (((C10: 0.001309, C9: 0.000004): 0.002627, C17: 0.002637, (C3: 0.002625, C5: 0.003963, C6: 0.002633): 0.002631): 0.002847, ((C11: 0.000004, C14: 0.006680): 0.007807, C4: 0.004181): 0.002701): 0.005154, ((((C12: 0.001336, C13: 0.000004, C15: 0.001334, C16: 0.001335, C2: 0.001336, C7: 0.001333, C8: 0.000004): 0.009182, C19: 0.017054): 0.041157, C18: 0.001380): 0.002613, C20: 0.000004, C21: 0.001323, C22: 0.001323, C23: 0.003999, C24: 0.005307, C25: 0.000004, C26: 0.000004): 0.003990);
Detailed output identifying parameters
kappa (ts/tv) = 15.82962
Parameters in M7 (beta):
p = 0.01063 q = 0.07254
MLEs of dN/dS (w) for site classes (K=10)
p: 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000
w: 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.07394 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
27..1 0.014 2012.6 351.4 0.1074 0.0020 0.0188 4.1 6.6
27..28 0.005 2012.6 351.4 0.1074 0.0008 0.0072 1.5 2.5
28..29 0.003 2012.6 351.4 0.1074 0.0004 0.0040 0.9 1.4
29..30 0.003 2012.6 351.4 0.1074 0.0004 0.0036 0.8 1.3
30..10 0.001 2012.6 351.4 0.1074 0.0002 0.0018 0.4 0.6
30..9 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
29..17 0.003 2012.6 351.4 0.1074 0.0004 0.0037 0.8 1.3
29..31 0.003 2012.6 351.4 0.1074 0.0004 0.0037 0.8 1.3
31..3 0.003 2012.6 351.4 0.1074 0.0004 0.0036 0.8 1.3
31..5 0.004 2012.6 351.4 0.1074 0.0006 0.0055 1.2 1.9
31..6 0.003 2012.6 351.4 0.1074 0.0004 0.0037 0.8 1.3
28..32 0.003 2012.6 351.4 0.1074 0.0004 0.0037 0.8 1.3
32..33 0.008 2012.6 351.4 0.1074 0.0012 0.0108 2.3 3.8
33..11 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
33..14 0.007 2012.6 351.4 0.1074 0.0010 0.0093 2.0 3.3
32..4 0.004 2012.6 351.4 0.1074 0.0006 0.0058 1.3 2.0
27..34 0.004 2012.6 351.4 0.1074 0.0006 0.0055 1.2 1.9
34..35 0.003 2012.6 351.4 0.1074 0.0004 0.0036 0.8 1.3
35..36 0.041 2012.6 351.4 0.1074 0.0061 0.0571 12.4 20.1
36..37 0.009 2012.6 351.4 0.1074 0.0014 0.0127 2.8 4.5
37..12 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
37..13 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
37..15 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
37..16 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
37..2 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
37..7 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
37..8 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
36..19 0.017 2012.6 351.4 0.1074 0.0025 0.0237 5.1 8.3
35..18 0.001 2012.6 351.4 0.1074 0.0002 0.0019 0.4 0.7
34..20 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
34..21 0.001 2012.6 351.4 0.1074 0.0002 0.0018 0.4 0.6
34..22 0.001 2012.6 351.4 0.1074 0.0002 0.0018 0.4 0.6
34..23 0.004 2012.6 351.4 0.1074 0.0006 0.0056 1.2 2.0
34..24 0.005 2012.6 351.4 0.1074 0.0008 0.0074 1.6 2.6
34..25 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
34..26 0.000 2012.6 351.4 0.1074 0.0000 0.0000 0.0 0.0
Time used: 30:28
Model 8: beta&w>1 (11 categories)
TREE # 1: (1, (((10, 9), 17, (3, 5, 6)), ((11, 14), 4)), ((((12, 13, 15, 16, 2, 7, 8), 19), 18), 20, 21, 22, 23, 24, 25, 26)); MP score: 113
check convergence..
lnL(ntime: 36 np: 41): -3695.306671 +0.000000
27..1 27..28 28..29 29..30 30..10 30..9 29..17 29..31 31..3 31..5 31..6 28..32 32..33 33..11 33..14 32..4 27..34 34..35 35..36 36..37 37..12 37..13 37..15 37..16 37..2 37..7 37..8 36..19 35..18 34..20 34..21 34..22 34..23 34..24 34..25 34..26
0.013738 0.005227 0.002887 0.002665 0.001328 0.000004 0.002674 0.002669 0.002663 0.004021 0.002670 0.002743 0.007923 0.000004 0.006775 0.004234 0.004048 0.002651 0.042021 0.009298 0.001356 0.000004 0.001355 0.001356 0.001355 0.001353 0.000004 0.017372 0.001398 0.000004 0.001341 0.001342 0.004054 0.005383 0.000004 0.000004 16.075977 0.891323 0.005001 1.439870 1.131152
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.157926
(1: 0.013738, (((10: 0.001328, 9: 0.000004): 0.002665, 17: 0.002674, (3: 0.002663, 5: 0.004021, 6: 0.002670): 0.002669): 0.002887, ((11: 0.000004, 14: 0.006775): 0.007923, 4: 0.004234): 0.002743): 0.005227, ((((12: 0.001356, 13: 0.000004, 15: 0.001355, 16: 0.001356, 2: 0.001355, 7: 0.001353, 8: 0.000004): 0.009298, 19: 0.017372): 0.042021, 18: 0.001398): 0.002651, 20: 0.000004, 21: 0.001341, 22: 0.001342, 23: 0.004054, 24: 0.005383, 25: 0.000004, 26: 0.000004): 0.004048);
(C1: 0.013738, (((C10: 0.001328, C9: 0.000004): 0.002665, C17: 0.002674, (C3: 0.002663, C5: 0.004021, C6: 0.002670): 0.002669): 0.002887, ((C11: 0.000004, C14: 0.006775): 0.007923, C4: 0.004234): 0.002743): 0.005227, ((((C12: 0.001356, C13: 0.000004, C15: 0.001355, C16: 0.001356, C2: 0.001355, C7: 0.001353, C8: 0.000004): 0.009298, C19: 0.017372): 0.042021, C18: 0.001398): 0.002651, C20: 0.000004, C21: 0.001341, C22: 0.001342, C23: 0.004054, C24: 0.005383, C25: 0.000004, C26: 0.000004): 0.004048);
Detailed output identifying parameters
kappa (ts/tv) = 16.07598
Parameters in M8 (beta&w>1):
p0 = 0.89132 p = 0.00500 q = 1.43987
(p1 = 0.10868) w = 1.13115
MLEs of dN/dS (w) for site classes (K=11)
p: 0.08913 0.08913 0.08913 0.08913 0.08913 0.08913 0.08913 0.08913 0.08913 0.08913 0.10868
w: 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00002 1.13115
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
27..1 0.014 2012.5 351.5 0.1229 0.0022 0.0181 4.5 6.4
27..28 0.005 2012.5 351.5 0.1229 0.0008 0.0069 1.7 2.4
28..29 0.003 2012.5 351.5 0.1229 0.0005 0.0038 0.9 1.3
29..30 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
30..10 0.001 2012.5 351.5 0.1229 0.0002 0.0017 0.4 0.6
30..9 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
29..17 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
29..31 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
31..3 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
31..5 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
31..6 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
28..32 0.003 2012.5 351.5 0.1229 0.0004 0.0036 0.9 1.3
32..33 0.008 2012.5 351.5 0.1229 0.0013 0.0104 2.6 3.7
33..11 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
33..14 0.007 2012.5 351.5 0.1229 0.0011 0.0089 2.2 3.1
32..4 0.004 2012.5 351.5 0.1229 0.0007 0.0056 1.4 2.0
27..34 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
34..35 0.003 2012.5 351.5 0.1229 0.0004 0.0035 0.9 1.2
35..36 0.042 2012.5 351.5 0.1229 0.0068 0.0553 13.7 19.4
36..37 0.009 2012.5 351.5 0.1229 0.0015 0.0122 3.0 4.3
37..12 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..13 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
37..15 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..16 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..2 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..7 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
37..8 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
36..19 0.017 2012.5 351.5 0.1229 0.0028 0.0229 5.7 8.0
35..18 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.5 0.6
34..20 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
34..21 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
34..22 0.001 2012.5 351.5 0.1229 0.0002 0.0018 0.4 0.6
34..23 0.004 2012.5 351.5 0.1229 0.0007 0.0053 1.3 1.9
34..24 0.005 2012.5 351.5 0.1229 0.0009 0.0071 1.8 2.5
34..25 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
34..26 0.000 2012.5 351.5 0.1229 0.0000 0.0000 0.0 0.0
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C1)
Pr(w>1) post mean +- SE for w
17 V 1.000** 1.131
31 N 1.000** 1.131
37 V 1.000** 1.131
39 D 1.000** 1.131
84 T 1.000** 1.131
106 R 1.000** 1.131
117 M 1.000** 1.131
141 S 1.000** 1.131
180 S 1.000** 1.131
197 T 1.000** 1.131
210 V 1.000** 1.131
215 M 1.000** 1.131
219 S 1.000** 1.131
317 V 1.000** 1.131
349 S 1.000** 1.131
439 A 1.000** 1.131
460 G 1.000** 1.131
469 P 1.000** 1.131
475 G 1.000** 1.131
481 D 1.000** 1.131
502 T 1.000** 1.131
518 L 1.000** 1.131
539 R 1.000** 1.131
543 A 1.000** 1.131
555 N 1.000** 1.131
591 T 1.000** 1.131
625 N 1.000** 1.131
654 F 1.000** 1.131
673 A 1.000** 1.131
674 H 1.000** 1.131
707 M 1.000** 1.131
727 G 1.000** 1.131
729 S 1.000** 1.131
754 Q 1.000** 1.131
759 G 1.000** 1.131
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: C1)
Pr(w>1) post mean +- SE for w
31 N 0.718 1.335 +- 0.666
39 D 0.726 1.347 +- 0.663
84 T 0.883 1.551 +- 0.526
180 S 0.727 1.348 +- 0.662
317 V 0.719 1.337 +- 0.665
674 H 0.841 1.497 +- 0.588
727 G 0.756 1.388 +- 0.647
The grid
p0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950
p : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
q : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
ws: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500
Posterior on the grid
p0: 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000
p : 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
q : 0.000 0.000 0.000 0.000 0.001 0.013 0.052 0.141 0.291 0.502
ws: 0.847 0.142 0.011 0.001 0.000 0.000 0.000 0.000 0.000 0.000
Time used: 53:52
Model 1: NearlyNeutral -3695.369181 Model 2: PositiveSelection -3695.306761 Model 7: beta -3695.565145 Model 8: beta&w>1 -3695.306671 Model 2 vs 1 .124840 Model 8 vs 7 .516948
Not all of the following information may be relevant for the case being handled, since this project may be part of a much larger auto-PSS-genome project where several methods of detection of positively selected sites have been used. As such the aligned.score_ascii file may have more sequences than the file effectively used to detect positively selected codons, since the content of this file reflects the content of the file used for the master alignment, from which a subsample may have been taken. # ### General parameters ### # # The maximum number of sequences to use for the master file sequence_limit=90 # The random seed random_seed=3976763 # ### Alignment ### # # The alignment method: clustalw, muscle, kalign, t_coffee, or amap align_method=muscle # Minimum support value for amino acid positions in the alignment tcoffee_min_score=3 # ### MrBayes ### # # Number of iterations in MrBayes mrbayes_generations=1000000 # MrBayes burnin mrbayes_burnin=2500 # ### FUBAR ### # # The maximum number of sequences to be used by FUBAR. fubar_sequence_limit=90 # The number of FUBAR runs fubar_runs=1 # ### codeML ### # # The maximum number of sequences to be used by CodeML codeml_sequence_limit=30 # The number of CodeML runs codeml_runs=1 # The CodeML models to be run, one or more of: '1', '2', '7', and/or '8'. codeml_models=1 2 7 8 # ### OmegaMap ### # # The maximum number of sequences to use in OmegaMap omegamap_sequence_limit=90 # The number of OmegaMap runs omegamap_runs=1 # The number of OmegaMap iterations omegamap_iterations=2500
Phone: +351 220 408 800
Email: info@i3s.up.pt
Address: Rua Alfredo Allen, 208
4200-135 Porto, Portugal
If you use B+, please cite us:
N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2018) Large Scale Analyses and Visualization of Adaptive Amino Acid Changes Projects. Interdisciplinary Sciences: Computational Life Sciences. https://doi.org/10.1007/s12539-018-0282-7
N. Vázquez, C.P. Vieira, B.S.R. Amorin, A. Torres, H. López-Fernández, F. Fdez-Riverola, J.L.R. Sousa, M. Reboiro-Jato, J. Vieira (2017) Automated Collection and Sharing of Adaptive Amino Acid Changes Data. 11th International Conference on Practical Applications of Computational Biology & Bioinformatics. Porto, Portugal. https://doi.org/10.1007/978-3-319-60816-7_3
