--- 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 -7677.84 -7705.06
2 -7679.76 -7708.77
--------------------------------------
TOTAL -7678.40 -7708.10
--------------------------------------
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} 0.123095 0.000099 0.103792 0.142459 0.122697 1377.83 1394.54 1.000
r(A<->C){all} 0.031487 0.000140 0.010165 0.054689 0.030384 787.36 854.78 1.000
r(A<->G){all} 0.231355 0.000915 0.170910 0.287500 0.229645 712.67 750.20 1.000
r(A<->T){all} 0.031070 0.000060 0.016330 0.045789 0.030543 1150.37 1176.92 1.000
r(C<->G){all} 0.038147 0.000226 0.011190 0.068639 0.036373 925.43 960.67 1.000
r(C<->T){all} 0.622071 0.001220 0.553790 0.688455 0.623510 672.85 774.25 1.000
r(G<->T){all} 0.045869 0.000122 0.026668 0.068196 0.044763 1015.68 1027.17 1.000
pi(A){all} 0.256256 0.000046 0.242931 0.269660 0.256159 981.62 1046.26 1.000
pi(C){all} 0.172737 0.000032 0.161889 0.183956 0.172705 1036.22 1048.54 1.000
pi(G){all} 0.181161 0.000035 0.170074 0.192880 0.181173 1243.40 1277.88 1.000
pi(T){all} 0.389846 0.000055 0.375919 0.404971 0.389690 965.34 1030.94 1.000
alpha{1,2} 0.158299 0.001910 0.072643 0.248872 0.157162 1027.47 1076.39 1.001
alpha{3} 3.260599 1.861587 1.092911 6.103093 3.000510 1404.40 1422.26 1.000
pinvar{all} 0.756429 0.000836 0.696120 0.807321 0.759070 698.28 977.77 1.001
------------------------------------------------------------------------------------------------------
* 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 -7374.864266
Model 2: PositiveSelection -7370.108258
Model 7: beta -7377.033398
Model 8: beta&w>1 -7370.129673
Model 2 vs 1 9.512016
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.855 2.756
46 V 0.581 2.135
57 S 0.774 2.599
94 K 0.815 2.665
96 H 0.979* 3.024
109 G 0.911 2.883
123 H 0.550 2.061
178 E 0.718 2.449
306 V 0.874 2.796
367 I 0.881 2.819
502 R 0.947 2.957
571 E 0.841 2.723
862 H 0.839 2.734
1043 H 0.554 1.848
1150 G 0.960* 2.984
1176 V 0.867 2.779
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.730 2.006 +- 0.931
46 V 0.509 1.581 +- 0.914
57 S 0.678 1.912 +- 0.876
94 K 0.689 1.934 +- 0.945
96 H 0.901 2.258 +- 0.824
109 G 0.803 2.125 +- 0.876
178 E 0.609 1.780 +- 0.944
306 V 0.745 2.034 +- 0.932
367 I 0.770 2.074 +- 0.885
502 R 0.844 2.188 +- 0.861
571 E 0.713 1.977 +- 0.941
862 H 0.733 2.009 +- 0.885
1150 G 0.861 2.213 +- 0.851
1176 V 0.738 2.021 +- 0.934
Model 8 vs 7 13.807450
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.964* 2.690
46 V 0.802 2.255
57 S 0.985* 2.745
94 K 0.945 2.637
96 H 1.000** 2.785
109 G 0.997** 2.776
119 V 0.664 1.884
123 H 0.775 2.181
178 E 0.896 2.506
301 L 0.535 1.525
306 V 0.968* 2.700
367 I 0.994** 2.770
502 R 0.998** 2.781
571 E 0.956* 2.666
746 P 0.526 1.503
862 H 0.991** 2.762
998 H 0.515 1.472
1043 H 0.642 1.815
1085 G 0.705 1.994
1150 G 0.999** 2.782
1176 V 0.965* 2.692
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.819 1.457 +- 0.600
46 V 0.654 1.228 +- 0.684
57 S 0.855 1.506 +- 0.539
94 K 0.784 1.411 +- 0.628
96 H 0.970* 1.635 +- 0.423
109 G 0.914 1.575 +- 0.489
119 V 0.569 1.105 +- 0.695
123 H 0.635 1.202 +- 0.688
178 E 0.728 1.334 +- 0.659
306 V 0.823 1.462 +- 0.599
367 I 0.896 1.555 +- 0.506
502 R 0.932 1.595 +- 0.471
571 E 0.801 1.433 +- 0.616
862 H 0.881 1.537 +- 0.519
1043 H 0.503 0.972 +- 0.801
1085 G 0.595 1.143 +- 0.692
1150 G 0.940 1.604 +- 0.461
1176 V 0.818 1.455 +- 0.603
-- Starting log on Sat Nov 05 01:40:20 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
-- Starting log on Sat Nov 05 01:41:26 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
-- Starting log on Sat Nov 05 03:27:38 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/gapped_alignment/codeml,NL63_human_USA_012_31_2001_S_AGT51331_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 30 taxa and 4068 characters
Missing data coded as ?
Data matrix is interleaved
Data is Dna
Gaps coded as -
Matching characters coded as .
Taxon 1 -> C10
Taxon 2 -> C13
Taxon 3 -> C16
Taxon 4 -> C17
Taxon 5 -> C19
Taxon 6 -> C2
Taxon 7 -> C20
Taxon 8 -> C21
Taxon 9 -> C23
Taxon 10 -> C24
Taxon 11 -> C25
Taxon 12 -> C27
Taxon 13 -> C28
Taxon 14 -> C29
Taxon 15 -> C30
Taxon 16 -> C32
Taxon 17 -> C34
Taxon 18 -> C36
Taxon 19 -> C37
Taxon 20 -> C39
Taxon 21 -> C4
Taxon 22 -> C41
Taxon 23 -> C45
Taxon 24 -> C47
Taxon 25 -> C49
Taxon 26 -> C50
Taxon 27 -> C52
Taxon 28 -> C53
Taxon 29 -> C7
Taxon 30 -> C8
Successfully read matrix
Setting default partition (does not divide up characters)
Setting model defaults
Seed (for generating default start values) = 1667618860
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) = 991628322
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 = 4301062295
Seed = 627784768
Swapseed = 1667618860
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 44 unique site patterns
Division 2 has 28 unique site patterns
Division 3 has 114 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 -- -14043.499801 -- 82.122948
Chain 2 -- -13887.633037 -- 82.122948
Chain 3 -- -14437.413177 -- 82.122948
Chain 4 -- -14532.810149 -- 82.122948
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -14803.094425 -- 82.122948
Chain 2 -- -13926.238862 -- 82.122948
Chain 3 -- -14595.668757 -- 82.122948
Chain 4 -- -14467.940635 -- 82.122948
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-14043.500] (-13887.633) (-14437.413) (-14532.810) * [-14803.094] (-13926.239) (-14595.669) (-14467.941)
1000 -- (-8151.489) (-8213.883) [-8133.071] (-8250.154) * (-8129.068) (-8122.194) [-8047.832] (-8241.889) -- 0:16:39
2000 -- [-7817.172] (-7861.523) (-7833.990) (-7833.470) * (-7864.993) (-7843.355) [-7848.005] (-7893.637) -- 0:16:38
3000 -- [-7782.596] (-7782.293) (-7777.746) (-7755.109) * (-7774.816) (-7796.617) [-7753.076] (-7821.725) -- 0:16:37
4000 -- (-7780.234) [-7713.992] (-7726.519) (-7737.182) * (-7740.045) (-7755.526) [-7719.324] (-7767.704) -- 0:20:45
5000 -- (-7728.769) (-7704.745) [-7695.777] (-7714.306) * [-7703.966] (-7728.325) (-7715.657) (-7730.101) -- 0:19:54
Average standard deviation of split frequencies: 0.069502
6000 -- (-7712.907) (-7697.004) (-7695.465) [-7691.116] * [-7692.463] (-7742.424) (-7704.037) (-7723.583) -- 0:19:19
7000 -- [-7687.976] (-7695.899) (-7686.270) (-7681.383) * (-7692.425) [-7713.007] (-7696.491) (-7724.243) -- 0:18:54
8000 -- (-7697.783) (-7712.802) [-7688.149] (-7682.547) * (-7691.423) (-7687.836) [-7701.357] (-7712.852) -- 0:20:40
9000 -- (-7691.116) (-7700.088) (-7692.303) [-7696.174] * (-7700.781) (-7699.705) (-7689.524) [-7688.671] -- 0:20:11
10000 -- (-7698.585) (-7702.553) (-7686.834) [-7686.140] * (-7699.220) (-7688.661) [-7686.021] (-7688.139) -- 0:19:48
Average standard deviation of split frequencies: 0.045962
11000 -- (-7697.643) (-7718.711) (-7707.031) [-7682.346] * (-7703.262) (-7698.282) [-7689.914] (-7691.552) -- 0:19:28
12000 -- (-7704.550) (-7713.744) (-7693.771) [-7695.135] * (-7699.360) (-7706.389) (-7689.253) [-7689.654] -- 0:19:12
13000 -- (-7688.699) (-7728.096) (-7696.305) [-7684.182] * (-7703.351) (-7706.557) [-7689.592] (-7689.023) -- 0:20:14
14000 -- (-7699.149) (-7697.984) [-7689.918] (-7693.936) * [-7684.607] (-7699.310) (-7693.223) (-7706.174) -- 0:19:57
15000 -- (-7722.898) [-7690.738] (-7695.677) (-7696.743) * (-7692.857) [-7688.269] (-7705.949) (-7698.482) -- 0:19:42
Average standard deviation of split frequencies: 0.046551
16000 -- (-7718.007) (-7691.673) (-7701.624) [-7684.240] * [-7692.498] (-7691.271) (-7693.840) (-7714.194) -- 0:19:28
17000 -- (-7718.466) (-7697.016) (-7688.681) [-7697.843] * (-7700.991) (-7696.693) [-7695.297] (-7695.247) -- 0:19:16
18000 -- (-7690.697) [-7708.869] (-7694.571) (-7703.295) * (-7696.091) [-7693.020] (-7693.544) (-7700.279) -- 0:20:00
19000 -- (-7708.334) (-7707.270) (-7703.403) [-7687.908] * (-7695.922) [-7690.769] (-7696.313) (-7692.657) -- 0:19:47
20000 -- (-7688.331) [-7700.650] (-7690.515) (-7690.555) * [-7682.592] (-7674.727) (-7690.781) (-7692.729) -- 0:19:36
Average standard deviation of split frequencies: 0.040145
21000 -- (-7696.819) [-7700.115] (-7692.402) (-7690.877) * [-7675.804] (-7691.511) (-7705.020) (-7697.346) -- 0:19:25
22000 -- (-7693.108) (-7705.118) [-7685.522] (-7699.592) * (-7694.467) (-7699.832) (-7693.068) [-7693.014] -- 0:19:15
23000 -- (-7683.337) (-7691.639) [-7682.146] (-7699.214) * (-7700.646) [-7689.485] (-7688.260) (-7694.518) -- 0:19:06
24000 -- (-7700.655) (-7699.671) (-7679.648) [-7687.339] * [-7679.625] (-7707.610) (-7695.617) (-7716.508) -- 0:19:39
25000 -- (-7708.748) (-7695.589) [-7692.051] (-7702.342) * [-7679.363] (-7703.481) (-7703.061) (-7705.783) -- 0:19:30
Average standard deviation of split frequencies: 0.040976
26000 -- (-7699.277) [-7691.668] (-7715.534) (-7685.296) * (-7719.179) [-7691.558] (-7692.396) (-7684.327) -- 0:19:21
27000 -- [-7689.477] (-7694.475) (-7703.191) (-7696.593) * (-7717.753) (-7698.602) (-7695.537) [-7698.099] -- 0:19:13
28000 -- [-7688.815] (-7696.253) (-7703.877) (-7702.175) * (-7704.346) (-7704.584) [-7685.803] (-7683.966) -- 0:19:05
29000 -- (-7697.589) [-7689.493] (-7716.921) (-7693.140) * [-7692.140] (-7696.190) (-7711.232) (-7707.571) -- 0:18:58
30000 -- (-7683.493) (-7688.955) (-7701.057) [-7688.244] * (-7704.230) [-7678.224] (-7705.723) (-7689.673) -- 0:19:24
Average standard deviation of split frequencies: 0.041896
31000 -- (-7689.679) (-7711.483) (-7698.677) [-7681.937] * [-7699.834] (-7698.540) (-7712.882) (-7703.053) -- 0:19:16
32000 -- (-7695.100) (-7716.822) [-7683.439] (-7695.723) * (-7685.851) (-7706.182) (-7706.100) [-7687.036] -- 0:19:09
33000 -- (-7703.048) (-7710.978) [-7702.788] (-7712.390) * [-7682.774] (-7693.376) (-7700.056) (-7712.848) -- 0:19:02
34000 -- (-7697.294) (-7699.969) [-7687.643] (-7704.249) * (-7687.249) (-7718.755) [-7700.925] (-7711.439) -- 0:18:56
35000 -- [-7693.072] (-7704.770) (-7702.169) (-7697.445) * [-7695.037] (-7714.123) (-7690.712) (-7695.536) -- 0:18:50
Average standard deviation of split frequencies: 0.036403
36000 -- (-7686.719) (-7702.445) [-7685.512] (-7705.792) * [-7685.116] (-7707.947) (-7706.891) (-7697.086) -- 0:19:11
37000 -- (-7697.158) [-7685.663] (-7695.429) (-7703.631) * (-7689.016) (-7692.707) [-7697.056] (-7703.135) -- 0:19:05
38000 -- (-7701.763) (-7690.953) (-7705.824) [-7694.205] * (-7691.543) [-7677.721] (-7699.245) (-7698.634) -- 0:18:59
39000 -- [-7695.925] (-7680.791) (-7689.880) (-7688.391) * (-7694.615) [-7685.189] (-7689.786) (-7711.391) -- 0:18:53
40000 -- (-7711.620) [-7687.569] (-7693.517) (-7693.616) * (-7698.882) [-7689.143] (-7687.337) (-7695.734) -- 0:18:48
Average standard deviation of split frequencies: 0.038867
41000 -- (-7698.365) [-7693.122] (-7691.559) (-7699.971) * (-7708.090) (-7696.613) (-7698.815) [-7694.018] -- 0:19:06
42000 -- (-7705.469) (-7695.323) [-7696.875] (-7682.800) * (-7707.452) (-7703.131) (-7689.373) [-7702.707] -- 0:19:00
43000 -- (-7711.552) (-7692.802) [-7686.339] (-7698.732) * (-7701.998) (-7694.045) [-7692.208] (-7712.834) -- 0:18:55
44000 -- (-7701.817) (-7711.205) (-7699.499) [-7678.248] * (-7702.312) (-7690.086) [-7692.877] (-7700.540) -- 0:18:49
45000 -- (-7692.341) (-7695.738) [-7679.542] (-7695.639) * [-7685.243] (-7704.494) (-7692.155) (-7695.878) -- 0:18:44
Average standard deviation of split frequencies: 0.040795
46000 -- (-7695.587) [-7682.683] (-7693.972) (-7694.227) * (-7690.745) [-7693.498] (-7698.676) (-7716.560) -- 0:19:00
47000 -- (-7689.222) [-7686.172] (-7699.219) (-7711.723) * [-7696.254] (-7700.543) (-7704.940) (-7687.216) -- 0:18:55
48000 -- (-7696.800) (-7684.877) [-7692.793] (-7702.861) * [-7693.537] (-7695.494) (-7702.041) (-7699.447) -- 0:18:50
49000 -- (-7692.119) (-7709.310) [-7675.470] (-7705.959) * (-7698.889) (-7702.568) [-7689.962] (-7697.415) -- 0:18:45
50000 -- (-7709.667) [-7687.228] (-7709.098) (-7705.605) * (-7681.507) (-7703.639) (-7699.484) [-7692.769] -- 0:18:41
Average standard deviation of split frequencies: 0.040437
51000 -- (-7694.137) [-7694.517] (-7698.326) (-7698.869) * [-7694.793] (-7693.360) (-7703.043) (-7698.246) -- 0:18:36
52000 -- (-7690.865) [-7699.397] (-7701.694) (-7703.938) * [-7680.102] (-7684.939) (-7701.612) (-7714.362) -- 0:18:50
53000 -- [-7684.781] (-7701.379) (-7709.360) (-7720.988) * (-7688.439) (-7695.900) [-7685.857] (-7704.816) -- 0:18:45
54000 -- (-7693.300) [-7687.837] (-7694.875) (-7704.908) * (-7702.138) (-7697.333) [-7696.701] (-7700.099) -- 0:18:41
55000 -- (-7685.181) (-7707.856) [-7690.989] (-7725.034) * (-7709.835) (-7706.104) [-7703.916] (-7698.016) -- 0:18:36
Average standard deviation of split frequencies: 0.036973
56000 -- (-7689.632) (-7687.916) [-7674.846] (-7704.451) * [-7679.461] (-7705.561) (-7694.848) (-7692.988) -- 0:18:49
57000 -- (-7691.425) (-7704.730) (-7689.832) [-7690.058] * [-7693.934] (-7715.333) (-7690.376) (-7708.388) -- 0:18:44
58000 -- [-7678.609] (-7708.757) (-7684.981) (-7694.188) * (-7681.293) [-7704.286] (-7710.182) (-7697.189) -- 0:18:40
59000 -- (-7700.202) (-7693.822) (-7699.802) [-7685.148] * (-7694.486) [-7692.287] (-7711.896) (-7700.165) -- 0:18:36
60000 -- (-7706.712) (-7708.447) [-7678.861] (-7683.451) * (-7703.483) [-7688.063] (-7693.525) (-7701.494) -- 0:18:32
Average standard deviation of split frequencies: 0.037785
61000 -- (-7724.330) (-7697.795) [-7690.506] (-7694.285) * (-7693.852) [-7688.135] (-7698.224) (-7685.067) -- 0:18:28
62000 -- (-7710.842) (-7702.710) [-7686.479] (-7692.761) * (-7699.107) (-7716.940) [-7690.930] (-7695.114) -- 0:18:39
63000 -- (-7700.420) (-7702.450) [-7686.071] (-7690.486) * [-7688.099] (-7693.057) (-7687.274) (-7704.540) -- 0:18:35
64000 -- (-7712.450) [-7698.669] (-7691.866) (-7705.066) * (-7701.818) (-7699.741) (-7700.387) [-7690.181] -- 0:18:31
65000 -- (-7700.963) [-7688.866] (-7691.304) (-7705.978) * (-7682.944) [-7694.187] (-7690.308) (-7689.189) -- 0:18:27
Average standard deviation of split frequencies: 0.036811
66000 -- [-7696.779] (-7683.148) (-7687.511) (-7701.727) * (-7693.994) (-7684.670) [-7696.388] (-7694.802) -- 0:18:23
67000 -- (-7714.420) (-7716.355) [-7699.109] (-7684.448) * (-7692.850) [-7689.418] (-7692.110) (-7696.703) -- 0:18:34
68000 -- (-7703.993) (-7706.542) (-7701.229) [-7686.012] * (-7710.904) (-7704.747) (-7702.536) [-7685.751] -- 0:18:30
69000 -- [-7692.050] (-7678.761) (-7692.200) (-7697.635) * [-7700.558] (-7709.096) (-7693.733) (-7710.993) -- 0:18:26
70000 -- (-7703.046) [-7687.940] (-7695.129) (-7694.927) * [-7698.210] (-7699.129) (-7685.662) (-7693.561) -- 0:18:22
Average standard deviation of split frequencies: 0.033092
71000 -- (-7706.739) (-7694.711) (-7683.908) [-7690.007] * (-7710.570) [-7688.006] (-7696.216) (-7695.115) -- 0:18:19
72000 -- (-7698.146) [-7691.749] (-7696.621) (-7702.741) * (-7691.781) (-7697.692) (-7694.762) [-7674.427] -- 0:18:28
73000 -- (-7690.380) [-7685.190] (-7696.902) (-7683.848) * (-7701.244) [-7685.989] (-7686.523) (-7683.411) -- 0:18:24
74000 -- (-7692.109) (-7690.551) [-7679.717] (-7700.143) * [-7683.378] (-7688.077) (-7702.877) (-7703.226) -- 0:18:21
75000 -- (-7704.426) [-7691.887] (-7683.534) (-7695.421) * [-7682.293] (-7684.052) (-7721.565) (-7699.026) -- 0:18:17
Average standard deviation of split frequencies: 0.029797
76000 -- [-7700.002] (-7694.785) (-7707.447) (-7699.725) * [-7692.451] (-7693.297) (-7704.490) (-7716.258) -- 0:18:26
77000 -- (-7706.405) (-7696.793) (-7685.900) [-7690.055] * (-7688.052) [-7692.517] (-7717.134) (-7704.999) -- 0:18:22
78000 -- (-7706.448) [-7698.411] (-7688.797) (-7702.154) * [-7695.721] (-7694.652) (-7723.159) (-7702.653) -- 0:18:19
79000 -- (-7700.651) (-7687.211) (-7685.816) [-7683.526] * (-7711.121) (-7712.686) (-7721.952) [-7686.923] -- 0:18:15
80000 -- (-7697.068) (-7703.900) (-7693.048) [-7683.302] * (-7690.143) (-7698.878) (-7708.525) [-7678.426] -- 0:18:12
Average standard deviation of split frequencies: 0.027730
81000 -- (-7690.107) (-7696.817) (-7698.255) [-7692.219] * (-7701.470) (-7705.358) (-7716.622) [-7676.799] -- 0:18:09
82000 -- [-7694.945] (-7697.118) (-7695.701) (-7705.394) * (-7716.570) (-7696.320) (-7701.439) [-7686.569] -- 0:18:17
83000 -- (-7695.030) [-7690.623] (-7719.452) (-7705.199) * (-7720.586) [-7695.882] (-7701.091) (-7687.783) -- 0:18:13
84000 -- (-7689.898) (-7678.725) (-7702.715) [-7694.229] * [-7710.371] (-7695.579) (-7704.993) (-7696.340) -- 0:18:10
85000 -- (-7695.326) (-7696.881) [-7688.596] (-7689.463) * (-7698.028) [-7689.958] (-7706.402) (-7684.786) -- 0:18:07
Average standard deviation of split frequencies: 0.026010
86000 -- (-7688.644) (-7705.642) [-7693.976] (-7692.032) * (-7705.067) [-7691.010] (-7708.007) (-7688.053) -- 0:18:04
87000 -- (-7694.684) (-7699.530) (-7695.670) [-7699.823] * (-7699.033) (-7700.118) [-7689.698] (-7682.656) -- 0:18:00
88000 -- (-7682.973) (-7698.434) (-7692.762) [-7685.143] * (-7695.125) (-7703.998) [-7682.578] (-7714.636) -- 0:18:08
89000 -- (-7694.215) [-7684.944] (-7703.810) (-7706.220) * [-7697.855] (-7694.811) (-7687.776) (-7702.504) -- 0:18:05
90000 -- (-7690.230) (-7695.070) [-7693.022] (-7699.528) * (-7704.841) (-7704.505) [-7690.151] (-7687.994) -- 0:18:01
Average standard deviation of split frequencies: 0.023897
91000 -- (-7691.822) (-7708.541) (-7705.105) [-7695.001] * (-7689.635) (-7696.296) (-7714.999) [-7690.914] -- 0:17:58
92000 -- [-7685.202] (-7714.597) (-7690.633) (-7687.473) * (-7692.805) (-7706.125) (-7707.978) [-7691.908] -- 0:17:55
93000 -- [-7690.365] (-7709.732) (-7695.020) (-7692.057) * (-7701.811) (-7701.312) [-7695.524] (-7695.646) -- 0:18:02
94000 -- (-7709.045) (-7693.999) [-7692.346] (-7688.024) * (-7695.840) [-7687.451] (-7688.868) (-7687.969) -- 0:17:59
95000 -- (-7696.226) (-7683.467) (-7699.923) [-7701.437] * (-7684.905) [-7692.104] (-7697.989) (-7701.262) -- 0:17:56
Average standard deviation of split frequencies: 0.023782
96000 -- (-7702.986) (-7693.569) (-7687.942) [-7692.429] * [-7679.617] (-7689.806) (-7713.595) (-7692.495) -- 0:17:53
97000 -- [-7693.174] (-7704.786) (-7691.201) (-7696.062) * (-7701.605) [-7689.214] (-7694.536) (-7693.971) -- 0:17:50
98000 -- [-7697.337] (-7702.754) (-7707.945) (-7692.247) * (-7696.269) (-7703.317) [-7690.785] (-7700.776) -- 0:17:47
99000 -- (-7692.219) [-7700.358] (-7703.738) (-7704.453) * (-7695.459) (-7707.097) [-7684.323] (-7707.669) -- 0:17:53
100000 -- (-7691.955) (-7706.762) [-7690.214] (-7698.745) * (-7696.218) [-7690.277] (-7683.331) (-7690.927) -- 0:17:51
Average standard deviation of split frequencies: 0.023695
101000 -- (-7692.466) [-7691.208] (-7697.867) (-7714.315) * (-7707.852) (-7701.584) (-7702.220) [-7687.725] -- 0:17:48
102000 -- (-7692.142) (-7689.861) [-7686.487] (-7700.433) * (-7718.173) (-7694.486) (-7700.264) [-7685.799] -- 0:17:45
103000 -- (-7716.750) [-7692.906] (-7686.146) (-7695.533) * (-7701.814) (-7703.558) [-7688.018] (-7691.941) -- 0:17:42
104000 -- (-7708.104) [-7689.198] (-7696.940) (-7700.168) * (-7694.748) (-7695.819) [-7686.277] (-7692.199) -- 0:17:48
105000 -- (-7699.634) [-7700.228] (-7692.898) (-7699.010) * (-7686.430) (-7703.385) (-7695.748) [-7691.899] -- 0:17:45
Average standard deviation of split frequencies: 0.023195
106000 -- (-7708.953) (-7695.822) (-7686.521) [-7690.228] * (-7699.771) (-7692.479) [-7688.909] (-7709.118) -- 0:17:42
107000 -- (-7694.156) (-7694.903) (-7697.806) [-7692.600] * [-7704.436] (-7700.715) (-7691.536) (-7692.225) -- 0:17:39
108000 -- (-7694.817) (-7688.723) (-7709.608) [-7696.167] * (-7702.493) (-7698.322) (-7698.561) [-7694.608] -- 0:17:37
109000 -- (-7718.987) [-7692.518] (-7691.995) (-7698.379) * (-7700.386) (-7699.506) [-7702.107] (-7696.100) -- 0:17:42
110000 -- [-7693.448] (-7703.448) (-7699.979) (-7699.619) * (-7687.928) (-7684.591) (-7708.840) [-7689.911] -- 0:17:39
Average standard deviation of split frequencies: 0.023002
111000 -- (-7701.422) (-7699.540) [-7691.273] (-7689.542) * (-7688.274) [-7679.703] (-7705.347) (-7703.345) -- 0:17:37
112000 -- [-7692.286] (-7699.587) (-7705.536) (-7707.392) * (-7711.552) (-7697.517) (-7700.832) [-7688.573] -- 0:17:34
113000 -- (-7695.771) (-7700.641) (-7700.580) [-7687.962] * (-7696.068) (-7690.100) (-7708.403) [-7682.304] -- 0:17:39
114000 -- [-7684.590] (-7685.432) (-7712.022) (-7697.251) * (-7694.302) [-7683.350] (-7710.632) (-7696.344) -- 0:17:36
115000 -- (-7705.232) (-7697.986) (-7713.736) [-7694.795] * (-7691.039) (-7687.091) (-7702.898) [-7690.923] -- 0:17:34
Average standard deviation of split frequencies: 0.023746
116000 -- (-7696.863) [-7699.690] (-7706.022) (-7711.505) * (-7687.697) (-7684.103) [-7680.236] (-7713.245) -- 0:17:31
117000 -- (-7702.604) (-7681.781) (-7701.344) [-7687.441] * (-7695.355) (-7702.063) [-7675.578] (-7704.102) -- 0:17:29
118000 -- (-7694.464) [-7683.884] (-7708.637) (-7689.134) * (-7695.957) (-7686.906) [-7697.451] (-7710.363) -- 0:17:33
119000 -- (-7703.713) (-7695.373) (-7705.538) [-7700.147] * (-7712.145) [-7689.385] (-7693.721) (-7694.862) -- 0:17:31
120000 -- (-7693.469) (-7705.858) (-7693.673) [-7700.287] * [-7699.215] (-7694.965) (-7701.406) (-7690.851) -- 0:17:28
Average standard deviation of split frequencies: 0.021955
121000 -- (-7682.590) [-7685.138] (-7693.658) (-7715.290) * [-7681.347] (-7700.490) (-7696.799) (-7693.251) -- 0:17:26
122000 -- (-7703.704) [-7693.634] (-7711.528) (-7711.780) * (-7687.609) (-7710.409) [-7693.795] (-7696.042) -- 0:17:23
123000 -- (-7709.113) [-7692.090] (-7709.227) (-7716.872) * (-7699.029) (-7699.964) (-7683.867) [-7680.073] -- 0:17:28
124000 -- (-7688.045) (-7697.418) [-7686.775] (-7713.322) * [-7707.702] (-7697.073) (-7702.727) (-7705.672) -- 0:17:25
125000 -- (-7686.042) (-7710.514) (-7696.950) [-7715.509] * (-7706.303) (-7693.697) (-7700.541) [-7696.780] -- 0:17:23
Average standard deviation of split frequencies: 0.022972
126000 -- (-7685.049) (-7703.382) [-7684.854] (-7691.666) * (-7710.573) (-7687.494) [-7708.166] (-7687.142) -- 0:17:20
127000 -- (-7696.125) (-7700.457) (-7694.922) [-7694.315] * [-7685.860] (-7699.592) (-7696.667) (-7691.800) -- 0:17:24
128000 -- (-7695.374) (-7705.376) [-7699.459] (-7694.469) * (-7682.043) [-7688.670] (-7700.993) (-7708.375) -- 0:17:22
129000 -- (-7700.939) [-7680.527] (-7705.748) (-7685.307) * (-7696.328) (-7693.742) [-7692.526] (-7700.927) -- 0:17:19
130000 -- [-7705.794] (-7705.696) (-7706.409) (-7691.311) * (-7705.476) (-7712.517) (-7689.214) [-7700.942] -- 0:17:17
Average standard deviation of split frequencies: 0.021646
131000 -- (-7698.205) [-7690.029] (-7720.091) (-7700.535) * (-7708.075) (-7696.234) (-7686.059) [-7699.800] -- 0:17:14
132000 -- (-7700.612) (-7693.634) [-7695.178] (-7699.680) * (-7688.713) (-7692.982) [-7686.049] (-7703.464) -- 0:17:12
133000 -- (-7691.691) (-7714.651) (-7694.266) [-7687.411] * [-7692.646] (-7691.043) (-7691.948) (-7692.882) -- 0:17:16
134000 -- (-7704.932) (-7696.462) [-7688.995] (-7698.525) * (-7701.723) (-7699.882) (-7698.118) [-7687.406] -- 0:17:14
135000 -- (-7694.403) (-7710.711) [-7693.779] (-7680.497) * (-7697.113) (-7698.900) (-7686.612) [-7697.855] -- 0:17:11
Average standard deviation of split frequencies: 0.022025
136000 -- (-7694.711) (-7717.236) [-7691.654] (-7695.233) * (-7691.874) (-7692.371) [-7698.999] (-7694.818) -- 0:17:09
137000 -- (-7697.912) [-7701.199] (-7696.840) (-7716.449) * (-7715.214) (-7695.343) (-7694.203) [-7684.711] -- 0:17:06
138000 -- (-7699.501) (-7698.602) [-7692.024] (-7694.203) * (-7715.094) (-7684.550) (-7683.637) [-7689.912] -- 0:17:10
139000 -- [-7693.624] (-7683.773) (-7707.669) (-7697.464) * (-7702.385) (-7712.227) (-7688.246) [-7673.157] -- 0:17:08
140000 -- [-7699.363] (-7688.076) (-7682.873) (-7706.043) * (-7704.234) (-7694.484) (-7690.581) [-7687.815] -- 0:17:05
Average standard deviation of split frequencies: 0.021885
141000 -- (-7706.839) (-7692.958) [-7691.441] (-7702.526) * [-7680.832] (-7696.368) (-7706.889) (-7697.178) -- 0:17:03
142000 -- (-7698.445) (-7683.630) (-7705.566) [-7678.561] * (-7690.934) [-7691.013] (-7720.157) (-7702.634) -- 0:17:01
143000 -- [-7683.581] (-7702.717) (-7701.426) (-7695.968) * [-7688.536] (-7699.054) (-7711.931) (-7693.737) -- 0:17:04
144000 -- (-7693.800) (-7690.399) [-7699.635] (-7698.317) * (-7693.583) (-7709.352) (-7711.073) [-7684.794] -- 0:17:02
145000 -- (-7704.259) [-7685.590] (-7706.978) (-7697.312) * (-7704.472) [-7681.360] (-7691.608) (-7694.163) -- 0:17:00
Average standard deviation of split frequencies: 0.020098
146000 -- [-7687.633] (-7683.097) (-7719.262) (-7694.562) * (-7690.830) (-7688.884) (-7696.174) [-7694.372] -- 0:16:57
147000 -- (-7705.683) (-7698.750) (-7707.752) [-7691.527] * (-7703.389) (-7703.786) (-7699.543) [-7697.274] -- 0:16:55
148000 -- (-7703.483) (-7709.025) [-7685.302] (-7685.200) * (-7697.774) (-7697.625) (-7703.694) [-7684.632] -- 0:16:53
149000 -- (-7700.955) (-7712.305) (-7703.565) [-7683.472] * (-7697.347) (-7719.251) [-7689.964] (-7693.904) -- 0:16:56
150000 -- (-7694.400) (-7710.996) [-7688.148] (-7696.588) * (-7697.678) [-7685.243] (-7692.002) (-7701.975) -- 0:16:54
Average standard deviation of split frequencies: 0.018709
151000 -- [-7684.561] (-7709.077) (-7688.553) (-7696.758) * (-7696.139) (-7700.059) (-7687.263) [-7702.377] -- 0:16:52
152000 -- (-7702.517) (-7688.156) [-7687.945] (-7712.041) * [-7685.223] (-7693.058) (-7694.612) (-7705.690) -- 0:16:49
153000 -- [-7684.649] (-7705.196) (-7693.123) (-7711.379) * (-7694.142) [-7681.759] (-7684.970) (-7720.999) -- 0:16:47
154000 -- (-7686.737) [-7687.574] (-7693.388) (-7690.058) * [-7694.952] (-7687.873) (-7692.459) (-7706.268) -- 0:16:50
155000 -- [-7695.513] (-7692.126) (-7693.993) (-7698.880) * (-7699.045) [-7696.136] (-7694.488) (-7697.707) -- 0:16:48
Average standard deviation of split frequencies: 0.018501
156000 -- [-7689.794] (-7704.174) (-7713.322) (-7709.676) * [-7693.149] (-7692.923) (-7688.830) (-7689.935) -- 0:16:46
157000 -- [-7688.793] (-7689.638) (-7699.253) (-7712.191) * (-7692.691) [-7690.681] (-7693.200) (-7698.839) -- 0:16:44
158000 -- (-7694.977) (-7705.225) (-7705.117) [-7697.237] * (-7696.151) [-7697.849] (-7698.149) (-7728.129) -- 0:16:41
159000 -- [-7691.905] (-7692.187) (-7700.786) (-7686.484) * (-7694.051) [-7688.020] (-7700.206) (-7699.006) -- 0:16:39
160000 -- (-7690.877) (-7704.545) (-7705.896) [-7703.269] * [-7706.412] (-7690.918) (-7705.404) (-7695.883) -- 0:16:42
Average standard deviation of split frequencies: 0.018143
161000 -- (-7694.614) (-7706.232) (-7695.313) [-7682.583] * (-7700.477) (-7705.213) (-7689.320) [-7692.783] -- 0:16:40
162000 -- (-7706.350) (-7719.030) (-7685.542) [-7685.776] * (-7710.671) (-7708.292) (-7696.499) [-7694.050] -- 0:16:38
163000 -- (-7695.128) (-7721.738) [-7697.129] (-7699.506) * (-7707.073) (-7705.263) (-7697.003) [-7684.081] -- 0:16:36
164000 -- (-7682.844) (-7699.220) [-7686.122] (-7694.478) * (-7699.681) (-7691.156) (-7699.495) [-7688.446] -- 0:16:34
165000 -- (-7687.165) [-7703.742] (-7688.722) (-7698.917) * [-7686.732] (-7703.143) (-7691.737) (-7699.600) -- 0:16:36
Average standard deviation of split frequencies: 0.018719
166000 -- [-7685.770] (-7697.409) (-7703.437) (-7689.179) * (-7702.667) (-7693.281) (-7687.265) [-7704.540] -- 0:16:34
167000 -- (-7715.031) (-7717.762) [-7686.401] (-7689.440) * [-7690.351] (-7694.645) (-7694.865) (-7689.012) -- 0:16:32
168000 -- (-7712.827) [-7692.023] (-7694.243) (-7700.343) * (-7688.269) [-7694.278] (-7700.852) (-7697.058) -- 0:16:30
169000 -- [-7683.934] (-7698.565) (-7705.200) (-7689.240) * (-7698.672) [-7683.401] (-7694.986) (-7684.303) -- 0:16:28
170000 -- [-7683.155] (-7708.327) (-7697.058) (-7707.230) * [-7687.957] (-7692.964) (-7696.728) (-7686.427) -- 0:16:31
Average standard deviation of split frequencies: 0.018602
171000 -- [-7690.272] (-7711.574) (-7692.267) (-7691.958) * (-7710.139) [-7691.875] (-7686.186) (-7690.742) -- 0:16:28
172000 -- (-7692.886) (-7713.147) [-7691.557] (-7698.548) * (-7704.122) (-7702.131) [-7686.443] (-7689.530) -- 0:16:26
173000 -- (-7678.985) [-7691.273] (-7694.944) (-7696.600) * (-7695.893) (-7686.077) (-7700.492) [-7695.099] -- 0:16:24
174000 -- [-7695.266] (-7685.918) (-7691.972) (-7702.437) * (-7699.593) [-7683.462] (-7699.367) (-7696.054) -- 0:16:22
175000 -- (-7691.387) (-7689.635) [-7685.890] (-7704.591) * (-7709.630) [-7686.656] (-7707.323) (-7693.948) -- 0:16:25
Average standard deviation of split frequencies: 0.017381
176000 -- (-7700.577) (-7704.143) [-7691.640] (-7692.483) * (-7697.831) (-7697.262) (-7699.456) [-7684.164] -- 0:16:23
177000 -- [-7697.733] (-7694.085) (-7697.892) (-7693.707) * [-7680.996] (-7687.514) (-7697.493) (-7695.506) -- 0:16:21
178000 -- (-7690.177) (-7717.928) [-7683.707] (-7692.005) * (-7695.875) (-7688.608) (-7697.444) [-7698.955] -- 0:16:19
179000 -- (-7692.160) (-7697.557) [-7683.280] (-7704.905) * [-7697.466] (-7692.339) (-7705.060) (-7694.375) -- 0:16:16
180000 -- [-7686.751] (-7717.683) (-7695.236) (-7688.440) * (-7726.647) (-7690.165) (-7690.477) [-7700.190] -- 0:16:19
Average standard deviation of split frequencies: 0.017210
181000 -- [-7687.941] (-7702.698) (-7699.415) (-7706.015) * (-7699.632) [-7688.896] (-7702.604) (-7684.625) -- 0:16:17
182000 -- (-7680.077) (-7690.846) (-7707.892) [-7682.463] * [-7684.554] (-7682.360) (-7696.091) (-7692.160) -- 0:16:15
183000 -- (-7690.943) (-7685.829) (-7697.989) [-7682.803] * (-7693.314) (-7718.043) (-7694.868) [-7689.212] -- 0:16:13
184000 -- [-7695.288] (-7709.477) (-7703.823) (-7689.654) * (-7699.720) (-7705.886) (-7693.963) [-7676.048] -- 0:16:11
185000 -- [-7688.496] (-7684.109) (-7688.138) (-7693.039) * (-7689.326) (-7689.584) [-7689.243] (-7691.219) -- 0:16:13
Average standard deviation of split frequencies: 0.017213
186000 -- (-7701.135) (-7685.643) (-7703.965) [-7690.194] * (-7705.692) [-7681.726] (-7690.023) (-7691.124) -- 0:16:11
187000 -- (-7703.439) (-7698.056) [-7690.502] (-7693.583) * (-7709.078) (-7697.618) (-7693.419) [-7692.707] -- 0:16:09
188000 -- (-7693.004) (-7693.330) (-7704.965) [-7688.351] * (-7688.173) (-7702.481) [-7681.195] (-7692.606) -- 0:16:07
189000 -- (-7694.300) (-7698.754) [-7686.503] (-7701.547) * (-7698.563) (-7712.878) [-7680.662] (-7691.914) -- 0:16:05
190000 -- (-7703.591) (-7696.492) (-7703.622) [-7702.186] * (-7704.909) (-7708.403) (-7686.503) [-7690.835] -- 0:16:07
Average standard deviation of split frequencies: 0.018182
191000 -- (-7697.560) [-7685.590] (-7701.344) (-7702.728) * [-7689.855] (-7704.320) (-7696.882) (-7703.557) -- 0:16:05
192000 -- [-7693.334] (-7682.329) (-7711.210) (-7703.814) * (-7700.926) (-7717.967) [-7691.970] (-7699.539) -- 0:16:03
193000 -- [-7684.753] (-7693.957) (-7701.714) (-7695.923) * (-7701.345) (-7697.073) [-7688.753] (-7698.076) -- 0:16:01
194000 -- [-7685.141] (-7706.760) (-7691.883) (-7696.911) * (-7695.769) (-7702.523) [-7695.947] (-7694.844) -- 0:15:59
195000 -- [-7698.885] (-7699.883) (-7690.093) (-7685.974) * (-7712.409) [-7686.293] (-7696.233) (-7688.951) -- 0:15:57
Average standard deviation of split frequencies: 0.017962
196000 -- [-7682.739] (-7707.010) (-7692.930) (-7696.319) * (-7715.898) (-7692.088) [-7682.619] (-7699.631) -- 0:15:59
197000 -- (-7698.249) (-7696.754) [-7681.240] (-7686.424) * (-7711.115) (-7697.302) (-7695.001) [-7685.699] -- 0:15:57
198000 -- (-7710.429) [-7700.181] (-7695.367) (-7703.305) * (-7703.100) [-7688.467] (-7710.872) (-7685.810) -- 0:15:55
199000 -- (-7694.979) (-7694.694) (-7697.395) [-7701.857] * (-7692.347) [-7684.147] (-7704.367) (-7695.408) -- 0:15:53
200000 -- (-7685.222) (-7702.431) [-7696.118] (-7692.693) * (-7695.397) (-7690.469) (-7701.833) [-7687.204] -- 0:15:52
Average standard deviation of split frequencies: 0.018353
201000 -- (-7689.205) (-7702.611) [-7685.815] (-7700.388) * (-7701.539) [-7683.555] (-7699.484) (-7680.204) -- 0:15:54
202000 -- (-7694.827) [-7679.447] (-7687.834) (-7707.913) * (-7700.283) [-7684.032] (-7694.701) (-7689.645) -- 0:15:52
203000 -- (-7688.982) [-7684.262] (-7697.380) (-7702.047) * (-7682.056) (-7686.881) [-7681.499] (-7699.423) -- 0:15:50
204000 -- (-7694.331) [-7691.306] (-7696.932) (-7706.996) * (-7698.267) [-7687.062] (-7692.611) (-7707.113) -- 0:15:48
205000 -- (-7697.263) (-7699.821) [-7695.734] (-7691.806) * [-7687.424] (-7701.373) (-7692.641) (-7720.847) -- 0:15:46
Average standard deviation of split frequencies: 0.018447
206000 -- (-7707.235) (-7690.326) [-7689.727] (-7694.192) * (-7693.969) (-7700.348) [-7694.672] (-7715.591) -- 0:15:44
207000 -- (-7705.527) [-7685.588] (-7704.269) (-7702.907) * (-7691.010) (-7698.845) [-7693.671] (-7701.624) -- 0:15:46
208000 -- [-7696.882] (-7686.877) (-7695.963) (-7706.435) * (-7708.263) [-7692.048] (-7702.613) (-7721.679) -- 0:15:44
209000 -- (-7687.801) [-7690.653] (-7699.050) (-7706.521) * (-7686.402) (-7702.247) [-7703.932] (-7702.722) -- 0:15:42
210000 -- [-7683.066] (-7685.224) (-7691.017) (-7702.666) * [-7681.791] (-7694.276) (-7691.238) (-7697.932) -- 0:15:40
Average standard deviation of split frequencies: 0.017156
211000 -- (-7701.383) [-7687.473] (-7688.196) (-7707.568) * (-7684.592) (-7688.344) (-7693.078) [-7693.422] -- 0:15:38
212000 -- [-7687.933] (-7714.382) (-7695.894) (-7703.765) * (-7688.996) (-7693.838) [-7700.428] (-7703.024) -- 0:15:40
213000 -- [-7681.655] (-7706.472) (-7694.671) (-7715.521) * [-7697.484] (-7700.825) (-7709.204) (-7711.714) -- 0:15:38
214000 -- [-7684.311] (-7696.002) (-7692.695) (-7689.611) * [-7688.808] (-7696.216) (-7691.810) (-7700.635) -- 0:15:36
215000 -- (-7691.222) (-7694.390) [-7692.543] (-7722.247) * (-7696.551) (-7682.742) (-7694.308) [-7698.557] -- 0:15:34
Average standard deviation of split frequencies: 0.017823
216000 -- (-7694.521) [-7683.831] (-7701.996) (-7705.380) * [-7698.672] (-7699.953) (-7698.352) (-7709.216) -- 0:15:32
217000 -- (-7693.322) [-7689.898] (-7701.867) (-7700.977) * (-7680.823) [-7685.028] (-7693.910) (-7710.855) -- 0:15:30
218000 -- [-7690.047] (-7697.299) (-7697.581) (-7713.804) * (-7701.968) (-7699.725) [-7694.952] (-7713.426) -- 0:15:32
219000 -- (-7718.336) (-7689.879) [-7687.591] (-7714.066) * [-7694.090] (-7698.786) (-7686.379) (-7691.727) -- 0:15:30
220000 -- (-7685.917) [-7684.261] (-7698.667) (-7707.232) * (-7691.215) [-7691.466] (-7700.737) (-7696.406) -- 0:15:28
Average standard deviation of split frequencies: 0.017313
221000 -- (-7689.000) (-7690.459) [-7691.150] (-7714.918) * (-7698.376) (-7692.447) (-7685.591) [-7679.040] -- 0:15:27
222000 -- (-7694.251) (-7699.388) [-7690.025] (-7694.446) * (-7690.542) (-7706.723) [-7683.661] (-7697.523) -- 0:15:25
223000 -- (-7700.721) (-7700.870) [-7691.553] (-7712.011) * (-7691.267) (-7705.392) [-7683.728] (-7697.630) -- 0:15:23
224000 -- (-7706.154) (-7699.788) [-7696.220] (-7686.827) * (-7695.903) (-7722.315) (-7684.822) [-7678.691] -- 0:15:24
225000 -- (-7701.938) (-7703.639) [-7689.661] (-7707.789) * (-7709.575) (-7698.221) [-7687.410] (-7696.969) -- 0:15:23
Average standard deviation of split frequencies: 0.016643
226000 -- [-7699.431] (-7699.790) (-7695.294) (-7699.703) * (-7703.068) (-7701.021) [-7698.013] (-7701.483) -- 0:15:21
227000 -- (-7693.691) [-7678.323] (-7714.728) (-7681.708) * [-7690.006] (-7692.777) (-7696.381) (-7700.226) -- 0:15:19
228000 -- (-7699.652) [-7684.576] (-7702.640) (-7696.905) * [-7692.148] (-7698.192) (-7715.571) (-7708.743) -- 0:15:17
229000 -- [-7694.762] (-7699.057) (-7714.815) (-7690.970) * (-7704.466) (-7698.973) (-7703.179) [-7690.817] -- 0:15:19
230000 -- (-7704.170) (-7699.145) (-7705.916) [-7702.558] * (-7691.513) [-7680.381] (-7709.393) (-7690.801) -- 0:15:17
Average standard deviation of split frequencies: 0.016392
231000 -- [-7687.850] (-7686.156) (-7694.697) (-7697.396) * (-7680.249) [-7689.414] (-7692.827) (-7697.080) -- 0:15:15
232000 -- (-7677.475) (-7688.467) [-7698.232] (-7702.753) * [-7704.435] (-7711.587) (-7691.141) (-7722.430) -- 0:15:13
233000 -- (-7691.632) [-7688.333] (-7686.282) (-7698.936) * [-7687.012] (-7706.531) (-7691.165) (-7710.411) -- 0:15:11
234000 -- [-7702.551] (-7688.347) (-7697.586) (-7693.881) * [-7682.142] (-7700.824) (-7688.957) (-7699.618) -- 0:15:10
235000 -- (-7700.423) (-7695.338) (-7709.747) [-7683.092] * [-7706.603] (-7691.260) (-7698.835) (-7694.762) -- 0:15:11
Average standard deviation of split frequencies: 0.015564
236000 -- [-7693.450] (-7685.239) (-7703.584) (-7690.883) * [-7683.146] (-7694.564) (-7695.417) (-7698.099) -- 0:15:09
237000 -- [-7695.932] (-7692.994) (-7698.683) (-7685.993) * (-7700.487) (-7705.514) (-7700.249) [-7697.382] -- 0:15:07
238000 -- (-7691.595) (-7703.247) (-7701.066) [-7694.823] * (-7702.845) [-7709.431] (-7691.504) (-7713.069) -- 0:15:06
239000 -- (-7691.598) (-7695.917) [-7683.062] (-7700.895) * (-7708.815) (-7707.409) [-7698.866] (-7694.278) -- 0:15:04
240000 -- (-7689.936) [-7699.452] (-7705.342) (-7703.939) * (-7688.588) [-7684.835] (-7705.173) (-7713.491) -- 0:15:02
Average standard deviation of split frequencies: 0.015343
241000 -- [-7688.626] (-7703.412) (-7705.296) (-7709.217) * (-7694.768) (-7696.418) [-7709.496] (-7710.049) -- 0:15:03
242000 -- (-7686.841) [-7695.018] (-7703.885) (-7705.623) * (-7687.685) [-7680.296] (-7697.813) (-7717.166) -- 0:15:02
243000 -- (-7693.721) (-7715.797) [-7696.560] (-7687.696) * (-7689.381) [-7693.607] (-7702.788) (-7702.566) -- 0:15:00
244000 -- (-7699.842) (-7708.216) [-7682.345] (-7704.962) * (-7709.307) (-7688.620) [-7682.217] (-7697.259) -- 0:14:58
245000 -- (-7695.074) (-7697.788) [-7690.338] (-7687.366) * (-7710.292) [-7689.986] (-7684.288) (-7691.674) -- 0:14:56
Average standard deviation of split frequencies: 0.015330
246000 -- (-7702.600) (-7697.582) (-7695.504) [-7687.477] * (-7697.026) [-7691.141] (-7700.980) (-7690.832) -- 0:14:58
247000 -- (-7695.056) (-7709.977) (-7691.999) [-7687.619] * [-7694.206] (-7703.242) (-7700.394) (-7709.511) -- 0:14:56
248000 -- [-7703.658] (-7691.751) (-7700.914) (-7692.187) * (-7689.550) [-7681.929] (-7705.484) (-7699.680) -- 0:14:54
249000 -- (-7688.390) (-7701.294) (-7697.833) [-7697.038] * (-7700.007) [-7687.828] (-7709.761) (-7718.020) -- 0:14:52
250000 -- (-7699.905) (-7708.018) [-7687.259] (-7692.873) * (-7697.065) [-7688.344] (-7701.496) (-7702.874) -- 0:14:51
Average standard deviation of split frequencies: 0.014614
251000 -- [-7693.306] (-7705.402) (-7697.141) (-7688.151) * (-7692.543) (-7703.761) (-7705.395) [-7691.837] -- 0:14:49
252000 -- (-7701.814) [-7690.919] (-7693.600) (-7689.552) * (-7690.042) (-7705.230) [-7698.878] (-7684.229) -- 0:14:50
253000 -- (-7698.728) (-7689.633) [-7687.961] (-7708.894) * (-7695.984) (-7699.576) (-7698.476) [-7691.871] -- 0:14:48
254000 -- [-7693.556] (-7695.483) (-7687.725) (-7714.353) * (-7720.400) [-7695.204] (-7696.497) (-7708.147) -- 0:14:46
255000 -- (-7698.808) (-7711.410) [-7684.589] (-7699.474) * (-7697.453) (-7695.123) (-7693.386) [-7692.713] -- 0:14:45
Average standard deviation of split frequencies: 0.014693
256000 -- (-7680.235) [-7701.578] (-7701.739) (-7699.714) * (-7699.515) (-7704.754) (-7685.686) [-7689.286] -- 0:14:43
257000 -- (-7690.718) (-7700.617) [-7690.585] (-7717.036) * (-7694.028) (-7700.046) [-7689.069] (-7712.415) -- 0:14:41
258000 -- [-7685.115] (-7716.311) (-7695.853) (-7710.411) * (-7702.328) (-7693.216) [-7680.642] (-7690.048) -- 0:14:42
259000 -- (-7698.667) [-7704.317] (-7692.965) (-7697.894) * (-7689.767) (-7691.557) [-7681.338] (-7710.175) -- 0:14:41
260000 -- (-7709.029) (-7694.925) [-7698.789] (-7695.919) * (-7691.032) (-7703.610) [-7684.918] (-7709.994) -- 0:14:39
Average standard deviation of split frequencies: 0.014430
261000 -- (-7704.495) (-7694.861) [-7694.894] (-7687.212) * (-7700.122) [-7702.075] (-7695.374) (-7706.245) -- 0:14:37
262000 -- (-7714.316) [-7686.273] (-7690.851) (-7694.468) * (-7687.600) (-7699.480) (-7695.128) [-7693.516] -- 0:14:36
263000 -- (-7699.650) (-7702.788) [-7690.650] (-7688.930) * (-7686.694) (-7696.102) (-7700.548) [-7683.949] -- 0:14:34
264000 -- (-7703.541) [-7690.298] (-7698.979) (-7687.230) * (-7685.328) (-7701.543) [-7691.171] (-7697.120) -- 0:14:35
265000 -- (-7688.912) (-7695.351) [-7689.220] (-7688.985) * (-7693.203) (-7696.061) [-7688.397] (-7700.621) -- 0:14:33
Average standard deviation of split frequencies: 0.014584
266000 -- (-7694.553) [-7684.993] (-7695.190) (-7687.593) * [-7692.502] (-7691.260) (-7693.769) (-7707.394) -- 0:14:31
267000 -- (-7705.758) (-7690.230) (-7699.723) [-7684.947] * [-7689.440] (-7686.849) (-7691.473) (-7709.238) -- 0:14:30
268000 -- [-7691.606] (-7694.522) (-7688.611) (-7700.422) * (-7700.918) [-7686.345] (-7715.896) (-7698.524) -- 0:14:28
269000 -- (-7708.273) (-7692.533) [-7697.654] (-7690.109) * (-7709.619) [-7688.418] (-7715.222) (-7689.857) -- 0:14:26
270000 -- (-7706.011) (-7690.196) [-7688.693] (-7688.431) * [-7684.752] (-7690.975) (-7711.734) (-7698.210) -- 0:14:27
Average standard deviation of split frequencies: 0.014260
271000 -- (-7700.495) [-7702.817] (-7694.183) (-7684.219) * (-7697.382) (-7691.009) [-7689.011] (-7694.204) -- 0:14:26
272000 -- (-7709.103) (-7700.273) [-7691.715] (-7686.471) * [-7688.659] (-7717.213) (-7685.185) (-7711.863) -- 0:14:24
273000 -- (-7693.820) [-7684.667] (-7695.992) (-7694.940) * (-7705.500) [-7693.622] (-7693.443) (-7712.348) -- 0:14:22
274000 -- (-7692.800) (-7689.603) (-7696.763) [-7686.357] * (-7695.230) (-7690.747) [-7693.204] (-7710.281) -- 0:14:21
275000 -- (-7699.689) [-7671.766] (-7700.339) (-7704.828) * (-7697.591) [-7686.661] (-7701.415) (-7695.191) -- 0:14:19
Average standard deviation of split frequencies: 0.013913
276000 -- (-7698.796) (-7685.831) (-7701.122) [-7687.582] * [-7692.929] (-7693.666) (-7703.139) (-7704.781) -- 0:14:17
277000 -- (-7696.344) (-7689.268) [-7684.097] (-7692.190) * (-7703.800) [-7688.491] (-7699.743) (-7693.606) -- 0:14:18
278000 -- (-7701.280) (-7717.398) [-7693.232] (-7699.096) * (-7699.249) (-7695.356) [-7698.527] (-7702.197) -- 0:14:17
279000 -- (-7715.922) (-7682.230) [-7687.376] (-7712.793) * (-7703.254) (-7691.406) (-7700.392) [-7693.300] -- 0:14:15
280000 -- (-7709.523) (-7682.773) (-7696.524) [-7685.909] * [-7688.090] (-7686.565) (-7690.202) (-7697.119) -- 0:14:13
Average standard deviation of split frequencies: 0.014661
281000 -- (-7696.593) (-7707.242) (-7681.561) [-7692.318] * [-7700.080] (-7693.390) (-7707.029) (-7686.098) -- 0:14:12
282000 -- (-7697.670) (-7707.909) [-7683.416] (-7700.775) * (-7693.157) [-7691.867] (-7699.168) (-7689.898) -- 0:14:10
283000 -- (-7699.894) [-7698.218] (-7681.128) (-7690.979) * [-7686.528] (-7720.485) (-7692.953) (-7692.993) -- 0:14:11
284000 -- (-7689.819) [-7701.958] (-7699.244) (-7716.749) * (-7682.241) (-7710.479) (-7699.448) [-7690.838] -- 0:14:09
285000 -- (-7695.566) [-7697.992] (-7693.075) (-7707.033) * (-7701.953) [-7697.767] (-7690.309) (-7702.545) -- 0:14:07
Average standard deviation of split frequencies: 0.014319
286000 -- (-7699.050) (-7691.091) (-7716.020) [-7692.446] * (-7703.438) (-7692.669) (-7694.341) [-7691.036] -- 0:14:06
287000 -- [-7683.833] (-7686.271) (-7684.945) (-7706.647) * [-7688.360] (-7697.542) (-7694.319) (-7692.328) -- 0:14:04
288000 -- (-7710.900) (-7687.204) [-7684.128] (-7706.834) * (-7686.170) (-7700.596) (-7690.234) [-7684.721] -- 0:14:03
289000 -- (-7705.236) [-7690.679] (-7694.165) (-7698.171) * [-7690.553] (-7696.778) (-7694.789) (-7689.604) -- 0:14:03
290000 -- (-7695.910) [-7678.500] (-7694.634) (-7691.747) * (-7688.779) (-7691.470) (-7710.689) [-7696.272] -- 0:14:02
Average standard deviation of split frequencies: 0.014056
291000 -- (-7688.020) [-7684.792] (-7702.258) (-7709.895) * [-7703.251] (-7699.876) (-7702.623) (-7702.290) -- 0:14:00
292000 -- (-7692.074) (-7712.812) (-7693.413) [-7680.705] * (-7697.046) (-7699.767) [-7684.525] (-7710.091) -- 0:13:58
293000 -- (-7691.368) (-7707.953) [-7697.766] (-7698.794) * (-7720.297) (-7697.612) [-7682.603] (-7685.098) -- 0:13:57
294000 -- (-7697.975) (-7699.331) (-7705.050) [-7686.987] * (-7691.205) (-7688.098) (-7687.507) [-7683.149] -- 0:13:58
295000 -- [-7693.725] (-7694.746) (-7699.325) (-7698.731) * (-7689.080) (-7698.581) (-7687.757) [-7685.517] -- 0:13:56
Average standard deviation of split frequencies: 0.013504
296000 -- (-7687.011) [-7688.604] (-7702.871) (-7703.898) * (-7713.805) (-7695.225) [-7700.645] (-7697.289) -- 0:13:54
297000 -- (-7691.523) [-7680.340] (-7711.931) (-7695.201) * (-7696.448) [-7687.249] (-7699.867) (-7703.881) -- 0:13:53
298000 -- [-7685.285] (-7686.636) (-7700.808) (-7691.964) * (-7699.540) (-7702.213) (-7693.833) [-7705.010] -- 0:13:51
299000 -- [-7685.614] (-7691.083) (-7706.532) (-7690.182) * (-7696.771) (-7704.400) [-7685.815] (-7688.086) -- 0:13:49
300000 -- (-7697.644) [-7695.101] (-7703.280) (-7701.334) * (-7708.448) (-7729.680) [-7694.062] (-7691.035) -- 0:13:50
Average standard deviation of split frequencies: 0.013980
301000 -- (-7694.175) (-7699.465) [-7699.299] (-7702.900) * (-7698.110) [-7695.953] (-7695.935) (-7685.720) -- 0:13:49
302000 -- (-7703.963) (-7680.436) (-7693.787) [-7691.931] * (-7705.106) (-7700.022) (-7692.170) [-7690.605] -- 0:13:47
303000 -- (-7703.532) [-7693.356] (-7689.933) (-7711.964) * (-7699.338) (-7707.908) [-7687.959] (-7701.168) -- 0:13:45
304000 -- [-7690.546] (-7693.180) (-7687.247) (-7714.438) * [-7682.697] (-7703.396) (-7697.415) (-7699.960) -- 0:13:44
305000 -- [-7680.047] (-7693.505) (-7680.875) (-7701.992) * [-7685.013] (-7699.836) (-7689.142) (-7693.390) -- 0:13:44
Average standard deviation of split frequencies: 0.012966
306000 -- (-7695.336) (-7691.307) (-7689.168) [-7697.832] * (-7687.220) [-7685.210] (-7691.873) (-7711.098) -- 0:13:43
307000 -- (-7684.438) (-7693.606) (-7696.554) [-7695.760] * (-7690.041) [-7686.589] (-7717.145) (-7701.290) -- 0:13:41
308000 -- (-7694.399) (-7686.525) (-7716.681) [-7698.371] * (-7710.523) (-7687.288) [-7690.573] (-7701.241) -- 0:13:40
309000 -- [-7697.348] (-7696.066) (-7713.907) (-7690.527) * (-7698.437) (-7687.980) [-7692.944] (-7709.484) -- 0:13:38
310000 -- [-7689.044] (-7711.233) (-7708.000) (-7688.047) * (-7709.920) [-7678.802] (-7690.422) (-7688.797) -- 0:13:36
Average standard deviation of split frequencies: 0.012424
311000 -- (-7694.168) (-7701.691) (-7708.154) [-7688.939] * (-7717.900) [-7688.386] (-7702.465) (-7705.159) -- 0:13:37
312000 -- (-7685.631) (-7697.015) [-7693.125] (-7697.379) * (-7704.853) [-7684.035] (-7710.188) (-7687.448) -- 0:13:35
313000 -- [-7677.387] (-7708.538) (-7705.434) (-7707.647) * (-7698.670) [-7693.538] (-7709.421) (-7683.931) -- 0:13:34
314000 -- [-7685.182] (-7703.192) (-7699.143) (-7718.059) * [-7694.921] (-7705.359) (-7712.656) (-7706.140) -- 0:13:32
315000 -- [-7696.346] (-7703.162) (-7695.894) (-7698.822) * (-7693.975) (-7704.487) (-7707.074) [-7688.149] -- 0:13:31
Average standard deviation of split frequencies: 0.012463
316000 -- [-7684.329] (-7705.241) (-7691.152) (-7700.957) * [-7690.521] (-7704.051) (-7698.799) (-7698.214) -- 0:13:31
317000 -- (-7691.276) (-7703.504) [-7682.633] (-7697.365) * (-7690.923) [-7696.513] (-7698.350) (-7702.877) -- 0:13:30
318000 -- [-7692.951] (-7698.713) (-7686.407) (-7703.599) * (-7698.314) [-7686.130] (-7699.496) (-7687.466) -- 0:13:28
319000 -- (-7705.321) (-7700.321) (-7703.077) [-7700.204] * (-7690.576) (-7685.361) (-7698.640) [-7683.013] -- 0:13:26
320000 -- (-7694.209) (-7696.563) (-7709.435) [-7688.326] * [-7680.566] (-7690.169) (-7688.262) (-7702.828) -- 0:13:25
Average standard deviation of split frequencies: 0.012159
321000 -- [-7697.746] (-7708.560) (-7700.843) (-7690.736) * (-7696.060) (-7690.341) (-7695.627) [-7699.827] -- 0:13:23
322000 -- (-7678.672) (-7720.672) (-7692.049) [-7689.132] * (-7693.273) (-7692.627) [-7683.430] (-7699.902) -- 0:13:24
323000 -- (-7693.320) (-7719.757) (-7687.820) [-7689.327] * (-7705.324) (-7695.831) (-7685.183) [-7679.507] -- 0:13:22
324000 -- (-7704.689) [-7688.651] (-7699.253) (-7693.522) * (-7680.703) (-7708.494) [-7693.235] (-7700.023) -- 0:13:21
325000 -- (-7705.140) (-7696.959) [-7690.497] (-7698.781) * (-7688.520) [-7689.239] (-7693.733) (-7715.691) -- 0:13:19
Average standard deviation of split frequencies: 0.012412
326000 -- (-7703.134) (-7704.583) [-7699.373] (-7703.524) * [-7687.880] (-7691.422) (-7703.801) (-7705.206) -- 0:13:18
327000 -- (-7696.977) (-7702.605) (-7682.357) [-7697.156] * (-7677.080) [-7688.875] (-7692.825) (-7691.195) -- 0:13:16
328000 -- [-7684.259] (-7695.156) (-7691.004) (-7679.892) * (-7697.157) (-7695.351) (-7692.079) [-7686.861] -- 0:13:16
329000 -- (-7698.921) [-7688.858] (-7707.319) (-7683.967) * (-7695.026) (-7700.517) [-7682.188] (-7700.935) -- 0:13:15
330000 -- (-7687.089) [-7682.204] (-7699.546) (-7684.597) * (-7686.176) (-7695.101) (-7692.310) [-7682.203] -- 0:13:13
Average standard deviation of split frequencies: 0.012296
331000 -- (-7692.314) (-7710.487) (-7704.861) [-7684.720] * (-7677.577) (-7705.077) (-7700.302) [-7687.315] -- 0:13:12
332000 -- (-7697.227) [-7695.461] (-7705.117) (-7706.672) * [-7696.253] (-7700.907) (-7693.269) (-7701.542) -- 0:13:10
333000 -- (-7690.587) [-7691.767] (-7710.123) (-7694.702) * (-7700.860) [-7697.313] (-7699.255) (-7690.429) -- 0:13:09
334000 -- (-7690.870) (-7698.739) (-7697.710) [-7679.983] * (-7704.583) (-7717.073) [-7688.755] (-7689.828) -- 0:13:07
335000 -- [-7687.149] (-7707.230) (-7694.668) (-7695.189) * (-7696.684) (-7698.410) (-7710.016) [-7691.496] -- 0:13:08
Average standard deviation of split frequencies: 0.011955
336000 -- (-7690.692) [-7701.587] (-7688.497) (-7693.130) * (-7691.966) (-7703.791) [-7696.953] (-7703.171) -- 0:13:06
337000 -- (-7685.958) (-7695.204) [-7690.873] (-7702.473) * (-7694.383) (-7703.622) (-7715.812) [-7680.867] -- 0:13:04
338000 -- [-7696.025] (-7684.429) (-7695.702) (-7695.881) * (-7696.675) [-7688.246] (-7708.826) (-7689.708) -- 0:13:03
339000 -- [-7692.596] (-7686.794) (-7698.026) (-7709.545) * (-7693.129) [-7688.373] (-7701.453) (-7697.628) -- 0:13:01
340000 -- (-7686.602) (-7700.237) (-7705.284) [-7684.200] * (-7695.488) (-7696.513) [-7699.367] (-7699.840) -- 0:13:00
Average standard deviation of split frequencies: 0.012166
341000 -- (-7701.804) (-7696.241) [-7692.173] (-7693.973) * (-7705.414) [-7685.711] (-7692.663) (-7687.237) -- 0:12:58
342000 -- (-7701.066) (-7696.479) (-7698.332) [-7693.679] * (-7699.447) (-7706.516) (-7693.662) [-7688.494] -- 0:12:59
343000 -- [-7680.024] (-7696.887) (-7694.868) (-7690.350) * (-7702.929) (-7708.049) (-7702.986) [-7690.147] -- 0:12:57
344000 -- (-7695.307) (-7695.489) [-7684.203] (-7700.319) * (-7697.857) (-7698.334) (-7691.281) [-7693.203] -- 0:12:56
345000 -- (-7697.537) (-7702.807) (-7699.250) [-7683.637] * (-7703.939) [-7684.006] (-7682.039) (-7689.468) -- 0:12:54
Average standard deviation of split frequencies: 0.012234
346000 -- (-7696.781) (-7701.514) [-7690.138] (-7683.608) * (-7697.906) (-7689.874) (-7688.040) [-7699.567] -- 0:12:53
347000 -- (-7713.197) (-7700.300) (-7691.219) [-7686.873] * (-7700.270) (-7684.792) (-7695.481) [-7692.275] -- 0:12:51
348000 -- [-7699.329] (-7706.075) (-7682.663) (-7703.353) * (-7701.689) [-7702.301] (-7685.506) (-7697.082) -- 0:12:51
349000 -- (-7698.215) (-7689.337) [-7690.377] (-7700.323) * (-7687.829) (-7717.296) (-7705.607) [-7693.900] -- 0:12:50
350000 -- (-7712.022) [-7708.838] (-7689.359) (-7717.882) * (-7695.115) (-7700.309) (-7685.665) [-7691.114] -- 0:12:48
Average standard deviation of split frequencies: 0.011539
351000 -- (-7717.125) (-7698.301) (-7685.179) [-7695.228] * (-7697.494) (-7712.874) [-7690.920] (-7687.247) -- 0:12:47
352000 -- (-7709.326) (-7688.130) [-7690.540] (-7701.272) * (-7697.148) (-7693.353) (-7698.378) [-7690.586] -- 0:12:45
353000 -- [-7684.566] (-7690.877) (-7687.407) (-7712.813) * [-7691.073] (-7699.503) (-7690.038) (-7705.434) -- 0:12:46
354000 -- [-7682.312] (-7711.018) (-7717.351) (-7691.182) * (-7687.601) [-7690.990] (-7696.878) (-7708.870) -- 0:12:44
355000 -- (-7684.070) (-7704.913) (-7706.354) [-7697.355] * [-7697.293] (-7699.458) (-7698.112) (-7682.071) -- 0:12:43
Average standard deviation of split frequencies: 0.011228
356000 -- (-7693.876) (-7691.017) (-7691.536) [-7702.444] * (-7693.549) [-7683.667] (-7710.260) (-7692.212) -- 0:12:41
357000 -- [-7689.414] (-7694.153) (-7711.215) (-7695.012) * (-7705.543) (-7694.552) [-7693.671] (-7699.006) -- 0:12:40
358000 -- (-7687.854) [-7681.764] (-7702.225) (-7697.436) * (-7722.986) (-7697.800) [-7687.648] (-7702.925) -- 0:12:40
359000 -- (-7686.380) (-7688.449) (-7697.440) [-7692.651] * (-7697.254) (-7697.694) [-7691.856] (-7704.722) -- 0:12:38
360000 -- [-7681.236] (-7701.510) (-7698.279) (-7688.244) * (-7696.367) [-7693.522] (-7700.933) (-7708.257) -- 0:12:37
Average standard deviation of split frequencies: 0.011001
361000 -- (-7695.578) (-7711.734) (-7693.735) [-7700.402] * (-7706.080) [-7696.785] (-7704.757) (-7700.769) -- 0:12:35
362000 -- [-7694.432] (-7704.543) (-7702.673) (-7695.132) * (-7703.449) (-7705.678) [-7691.082] (-7704.532) -- 0:12:34
363000 -- (-7701.714) [-7695.575] (-7691.967) (-7712.835) * (-7696.173) (-7702.666) [-7687.796] (-7701.104) -- 0:12:34
364000 -- [-7693.672] (-7688.844) (-7697.085) (-7699.112) * (-7697.351) (-7695.079) (-7704.636) [-7682.034] -- 0:12:33
365000 -- (-7690.735) (-7699.506) (-7702.898) [-7680.196] * (-7687.138) [-7690.114] (-7688.188) (-7706.760) -- 0:12:31
Average standard deviation of split frequencies: 0.010867
366000 -- (-7694.936) (-7697.785) [-7698.256] (-7690.134) * (-7688.350) (-7698.306) [-7700.720] (-7697.177) -- 0:12:30
367000 -- (-7700.634) [-7694.096] (-7692.910) (-7689.519) * [-7697.767] (-7698.043) (-7694.317) (-7694.332) -- 0:12:28
368000 -- [-7702.936] (-7711.804) (-7692.342) (-7691.113) * [-7699.471] (-7708.682) (-7708.129) (-7705.061) -- 0:12:28
369000 -- (-7700.140) (-7709.135) [-7682.444] (-7687.270) * (-7708.761) (-7710.840) [-7692.209] (-7683.462) -- 0:12:27
370000 -- (-7699.232) [-7684.799] (-7689.353) (-7690.443) * (-7696.383) (-7695.709) [-7691.927] (-7692.664) -- 0:12:25
Average standard deviation of split frequencies: 0.010890
371000 -- (-7697.181) [-7675.593] (-7695.581) (-7691.329) * (-7686.371) (-7695.457) (-7694.109) [-7695.497] -- 0:12:24
372000 -- (-7689.274) [-7681.268] (-7700.925) (-7704.870) * (-7692.345) [-7701.861] (-7696.980) (-7693.538) -- 0:12:22
373000 -- [-7693.459] (-7687.760) (-7692.356) (-7697.672) * [-7687.888] (-7700.283) (-7700.659) (-7682.346) -- 0:12:21
374000 -- (-7701.431) [-7706.143] (-7685.850) (-7705.540) * (-7714.086) [-7691.516] (-7706.104) (-7686.726) -- 0:12:21
375000 -- (-7681.871) (-7706.811) [-7695.540] (-7699.806) * [-7693.515] (-7709.512) (-7695.140) (-7694.703) -- 0:12:20
Average standard deviation of split frequencies: 0.010866
376000 -- [-7686.522] (-7717.458) (-7690.668) (-7697.408) * (-7693.107) (-7714.175) (-7691.428) [-7690.266] -- 0:12:18
377000 -- [-7690.982] (-7697.354) (-7691.551) (-7709.227) * [-7686.056] (-7691.735) (-7709.982) (-7706.050) -- 0:12:17
378000 -- (-7698.664) (-7705.541) [-7685.787] (-7690.493) * (-7701.713) [-7691.514] (-7702.541) (-7711.327) -- 0:12:15
379000 -- (-7699.095) (-7723.717) [-7692.764] (-7691.377) * (-7692.517) [-7701.081] (-7699.546) (-7697.949) -- 0:12:14
380000 -- (-7704.215) [-7681.009] (-7692.710) (-7694.051) * (-7687.464) (-7714.437) (-7699.710) [-7701.194] -- 0:12:14
Average standard deviation of split frequencies: 0.010604
381000 -- (-7689.231) (-7706.691) (-7696.995) [-7691.507] * [-7685.396] (-7693.175) (-7702.512) (-7703.649) -- 0:12:12
382000 -- (-7703.684) [-7681.631] (-7700.855) (-7683.306) * [-7695.371] (-7704.576) (-7699.844) (-7688.883) -- 0:12:11
383000 -- (-7714.506) (-7694.535) (-7693.090) [-7682.247] * [-7689.272] (-7706.418) (-7707.361) (-7706.833) -- 0:12:09
384000 -- (-7697.035) [-7683.714] (-7686.082) (-7689.636) * (-7693.904) [-7694.911] (-7704.197) (-7701.283) -- 0:12:08
385000 -- (-7691.751) (-7701.356) [-7691.885] (-7713.020) * (-7694.863) (-7682.996) (-7705.178) [-7698.134] -- 0:12:06
Average standard deviation of split frequencies: 0.010152
386000 -- (-7721.226) (-7708.672) [-7696.615] (-7696.336) * (-7700.154) [-7688.631] (-7716.083) (-7708.927) -- 0:12:05
387000 -- (-7702.385) (-7697.207) (-7716.258) [-7688.864] * (-7693.756) (-7689.562) (-7697.207) [-7697.386] -- 0:12:05
388000 -- (-7708.676) (-7697.595) (-7689.516) [-7687.167] * (-7703.611) (-7696.334) (-7709.922) [-7687.033] -- 0:12:03
389000 -- (-7700.942) (-7686.196) [-7687.331] (-7682.179) * (-7694.289) (-7699.114) (-7700.630) [-7697.837] -- 0:12:02
390000 -- (-7684.159) (-7695.419) [-7681.481] (-7684.910) * (-7691.108) (-7705.755) [-7696.541] (-7686.334) -- 0:12:01
Average standard deviation of split frequencies: 0.010056
391000 -- (-7697.427) (-7678.739) [-7687.470] (-7692.379) * (-7695.799) (-7687.263) (-7719.421) [-7680.365] -- 0:11:59
392000 -- (-7697.196) [-7701.621] (-7692.889) (-7704.902) * [-7708.826] (-7693.576) (-7706.962) (-7697.551) -- 0:11:58
393000 -- (-7703.801) (-7688.971) (-7685.583) [-7694.505] * [-7715.978] (-7704.951) (-7696.764) (-7700.189) -- 0:11:58
394000 -- (-7697.984) [-7684.524] (-7686.043) (-7711.763) * [-7689.806] (-7696.309) (-7719.655) (-7701.816) -- 0:11:56
395000 -- [-7692.427] (-7689.046) (-7694.823) (-7683.532) * (-7707.553) (-7689.466) [-7702.750] (-7699.704) -- 0:11:55
Average standard deviation of split frequencies: 0.009548
396000 -- (-7710.201) [-7689.848] (-7697.974) (-7702.298) * (-7724.011) (-7700.053) (-7690.907) [-7693.567] -- 0:11:53
397000 -- (-7693.336) (-7695.101) [-7690.875] (-7712.085) * (-7719.357) (-7694.340) (-7703.739) [-7687.013] -- 0:11:52
398000 -- [-7702.208] (-7704.913) (-7691.961) (-7696.870) * (-7711.174) (-7686.777) (-7701.471) [-7698.287] -- 0:11:50
399000 -- (-7700.724) (-7697.497) [-7701.501] (-7689.273) * (-7708.068) [-7691.059] (-7704.034) (-7691.226) -- 0:11:50
400000 -- [-7679.187] (-7701.482) (-7700.515) (-7702.445) * (-7705.606) [-7689.056] (-7711.135) (-7701.524) -- 0:11:49
Average standard deviation of split frequencies: 0.009707
401000 -- (-7680.931) [-7686.053] (-7714.673) (-7698.593) * (-7692.930) [-7693.412] (-7697.533) (-7715.001) -- 0:11:48
402000 -- [-7678.170] (-7690.265) (-7705.997) (-7691.046) * (-7702.965) (-7699.037) (-7698.040) [-7710.310] -- 0:11:46
403000 -- (-7709.678) (-7707.701) (-7698.427) [-7696.273] * (-7698.934) [-7687.173] (-7699.377) (-7693.272) -- 0:11:45
404000 -- (-7705.288) (-7707.801) [-7689.250] (-7696.230) * (-7690.456) (-7687.305) [-7681.980] (-7701.291) -- 0:11:43
405000 -- [-7694.637] (-7708.934) (-7695.572) (-7693.572) * (-7696.640) [-7693.162] (-7680.501) (-7702.179) -- 0:11:43
Average standard deviation of split frequencies: 0.009700
406000 -- [-7681.271] (-7718.824) (-7698.571) (-7712.456) * (-7701.001) [-7694.711] (-7691.579) (-7715.144) -- 0:11:42
407000 -- (-7683.125) [-7686.687] (-7707.975) (-7691.328) * (-7696.009) [-7691.842] (-7695.663) (-7683.328) -- 0:11:40
408000 -- (-7692.639) (-7687.240) (-7712.592) [-7700.104] * (-7704.970) (-7687.757) (-7704.031) [-7691.038] -- 0:11:39
409000 -- (-7694.679) [-7685.866] (-7695.138) (-7686.249) * (-7698.526) (-7692.552) (-7703.590) [-7689.995] -- 0:11:37
410000 -- [-7688.509] (-7690.295) (-7719.761) (-7695.428) * (-7696.444) (-7693.009) [-7695.763] (-7694.114) -- 0:11:37
Average standard deviation of split frequencies: 0.009111
411000 -- (-7691.893) [-7688.836] (-7705.799) (-7705.007) * (-7705.086) [-7685.104] (-7695.402) (-7686.960) -- 0:11:36
412000 -- (-7712.523) (-7701.056) [-7696.674] (-7706.873) * (-7714.958) (-7690.537) (-7690.959) [-7694.829] -- 0:11:35
413000 -- (-7683.448) [-7695.135] (-7699.392) (-7713.699) * [-7686.308] (-7702.475) (-7695.408) (-7697.829) -- 0:11:33
414000 -- (-7688.197) (-7714.376) [-7693.254] (-7713.028) * (-7694.749) (-7711.721) [-7674.718] (-7695.158) -- 0:11:32
415000 -- (-7687.791) (-7696.197) [-7693.124] (-7693.397) * [-7687.950] (-7696.684) (-7696.826) (-7715.565) -- 0:11:30
Average standard deviation of split frequencies: 0.009490
416000 -- (-7691.174) (-7693.473) (-7701.178) [-7688.667] * (-7681.452) [-7690.604] (-7705.323) (-7703.931) -- 0:11:30
417000 -- [-7692.939] (-7688.650) (-7687.343) (-7696.775) * (-7681.322) [-7696.298] (-7701.294) (-7700.287) -- 0:11:29
418000 -- (-7706.302) (-7698.044) (-7699.414) [-7685.005] * (-7695.685) (-7691.397) (-7704.772) [-7687.838] -- 0:11:27
419000 -- (-7686.785) [-7686.275] (-7685.510) (-7691.792) * [-7690.094] (-7696.934) (-7719.676) (-7680.871) -- 0:11:26
420000 -- (-7700.168) [-7685.973] (-7700.084) (-7685.417) * [-7698.891] (-7708.322) (-7694.274) (-7692.602) -- 0:11:24
Average standard deviation of split frequencies: 0.009128
421000 -- (-7706.107) [-7682.270] (-7699.943) (-7704.420) * (-7700.675) [-7690.019] (-7698.276) (-7693.388) -- 0:11:23
422000 -- (-7707.732) (-7694.416) [-7686.162] (-7691.387) * (-7711.455) (-7692.295) [-7702.043] (-7700.187) -- 0:11:23
423000 -- (-7690.869) (-7694.701) (-7688.375) [-7687.053] * (-7706.201) [-7690.762] (-7683.096) (-7716.327) -- 0:11:22
424000 -- [-7692.602] (-7713.458) (-7699.390) (-7683.022) * (-7697.313) [-7690.310] (-7694.428) (-7711.396) -- 0:11:20
425000 -- [-7688.946] (-7688.600) (-7696.104) (-7694.303) * (-7687.755) (-7706.230) [-7690.709] (-7702.104) -- 0:11:19
Average standard deviation of split frequencies: 0.009508
426000 -- (-7705.524) [-7690.198] (-7691.370) (-7698.315) * (-7689.149) (-7686.428) (-7701.733) [-7683.713] -- 0:11:17
427000 -- (-7697.381) [-7686.892] (-7697.496) (-7699.495) * (-7683.900) (-7703.522) [-7694.831] (-7700.728) -- 0:11:17
428000 -- (-7699.573) (-7692.547) [-7686.683] (-7707.616) * (-7684.517) (-7700.933) (-7698.342) [-7689.012] -- 0:11:16
429000 -- (-7695.124) (-7695.658) (-7690.183) [-7687.514] * (-7688.478) (-7694.204) [-7704.202] (-7696.355) -- 0:11:14
430000 -- [-7687.766] (-7705.300) (-7699.795) (-7697.120) * [-7677.144] (-7690.739) (-7695.846) (-7707.580) -- 0:11:13
Average standard deviation of split frequencies: 0.009532
431000 -- (-7702.439) (-7689.884) (-7692.037) [-7685.822] * (-7687.788) (-7698.946) [-7695.036] (-7699.903) -- 0:11:11
432000 -- [-7677.556] (-7713.604) (-7694.976) (-7703.094) * (-7692.296) [-7684.369] (-7692.048) (-7706.947) -- 0:11:10
433000 -- (-7690.854) [-7699.750] (-7702.301) (-7694.420) * (-7683.107) [-7682.523] (-7699.236) (-7700.716) -- 0:11:10
434000 -- (-7720.497) [-7686.427] (-7687.589) (-7699.732) * (-7691.593) [-7687.937] (-7704.485) (-7687.439) -- 0:11:09
435000 -- (-7715.845) [-7704.060] (-7701.804) (-7696.350) * (-7692.982) [-7678.935] (-7697.418) (-7694.862) -- 0:11:07
Average standard deviation of split frequencies: 0.009483
436000 -- (-7683.167) (-7709.015) (-7697.414) [-7691.322] * (-7692.942) (-7688.827) [-7690.584] (-7703.819) -- 0:11:06
437000 -- (-7688.021) [-7705.864] (-7704.744) (-7697.266) * (-7701.893) [-7679.792] (-7726.151) (-7687.852) -- 0:11:04
438000 -- (-7705.812) [-7703.901] (-7700.146) (-7692.686) * (-7692.894) (-7702.144) (-7708.987) [-7698.267] -- 0:11:04
439000 -- [-7684.296] (-7694.938) (-7699.204) (-7707.359) * (-7687.701) (-7698.393) (-7701.275) [-7697.151] -- 0:11:03
440000 -- (-7693.256) (-7700.305) (-7706.329) [-7688.011] * (-7700.797) [-7704.921] (-7701.469) (-7690.915) -- 0:11:01
Average standard deviation of split frequencies: 0.009137
441000 -- (-7712.468) (-7694.094) [-7685.600] (-7683.595) * (-7703.324) (-7705.587) (-7711.469) [-7683.732] -- 0:11:00
442000 -- (-7717.256) (-7698.507) (-7690.733) [-7681.742] * (-7691.828) (-7697.398) (-7686.693) [-7682.101] -- 0:10:58
443000 -- (-7694.966) (-7692.954) [-7698.124] (-7694.646) * [-7694.398] (-7695.357) (-7706.040) (-7691.391) -- 0:10:57
444000 -- (-7701.922) (-7694.281) [-7685.814] (-7697.819) * [-7686.798] (-7686.920) (-7713.927) (-7701.831) -- 0:10:57
445000 -- (-7696.660) [-7692.021] (-7698.715) (-7697.735) * (-7696.702) [-7685.258] (-7698.730) (-7703.392) -- 0:10:56
Average standard deviation of split frequencies: 0.008874
446000 -- (-7701.273) (-7693.616) [-7703.485] (-7716.577) * (-7701.011) (-7694.337) (-7702.587) [-7698.928] -- 0:10:54
447000 -- (-7702.717) [-7690.402] (-7710.307) (-7712.887) * (-7710.853) (-7688.143) [-7688.285] (-7702.055) -- 0:10:53
448000 -- (-7700.453) (-7696.618) [-7685.409] (-7702.790) * (-7694.302) [-7685.459] (-7693.157) (-7699.237) -- 0:10:51
449000 -- (-7708.648) (-7718.413) [-7685.196] (-7690.591) * (-7707.172) (-7701.135) [-7686.908] (-7695.298) -- 0:10:50
450000 -- (-7699.787) (-7699.375) [-7685.353] (-7703.870) * (-7707.637) [-7689.394] (-7683.854) (-7698.046) -- 0:10:50
Average standard deviation of split frequencies: 0.008760
451000 -- (-7704.789) (-7701.782) [-7700.840] (-7703.669) * (-7698.953) (-7693.188) [-7684.810] (-7697.174) -- 0:10:48
452000 -- (-7712.437) (-7686.724) [-7695.225] (-7700.965) * (-7696.263) [-7693.775] (-7682.975) (-7688.948) -- 0:10:47
453000 -- (-7698.208) (-7705.204) [-7687.876] (-7714.800) * (-7696.995) [-7705.401] (-7685.733) (-7702.417) -- 0:10:46
454000 -- [-7689.481] (-7682.707) (-7684.865) (-7694.326) * (-7691.951) (-7695.419) (-7699.387) [-7691.310] -- 0:10:44
455000 -- [-7695.610] (-7688.734) (-7685.533) (-7689.514) * (-7691.143) (-7699.014) (-7705.875) [-7690.586] -- 0:10:43
Average standard deviation of split frequencies: 0.008529
456000 -- [-7688.385] (-7698.322) (-7684.268) (-7691.054) * [-7687.720] (-7703.410) (-7690.905) (-7704.941) -- 0:10:41
457000 -- (-7697.628) [-7701.156] (-7695.674) (-7692.350) * [-7691.655] (-7699.934) (-7709.206) (-7689.300) -- 0:10:41
458000 -- [-7683.414] (-7703.033) (-7704.358) (-7698.549) * [-7688.684] (-7705.043) (-7689.035) (-7688.287) -- 0:10:40
459000 -- (-7698.492) (-7688.496) (-7713.649) [-7684.110] * (-7712.456) (-7721.964) [-7689.617] (-7703.695) -- 0:10:38
460000 -- (-7688.222) (-7680.280) (-7695.661) [-7687.993] * (-7703.963) (-7718.820) (-7707.010) [-7689.251] -- 0:10:37
Average standard deviation of split frequencies: 0.008293
461000 -- (-7687.085) (-7690.513) (-7698.914) [-7687.499] * [-7693.174] (-7696.191) (-7701.199) (-7710.714) -- 0:10:36
462000 -- (-7693.536) (-7701.897) [-7698.145] (-7688.627) * [-7690.306] (-7695.069) (-7694.897) (-7694.933) -- 0:10:34
463000 -- (-7706.210) [-7690.935] (-7698.615) (-7685.718) * (-7694.863) [-7683.663] (-7686.928) (-7705.236) -- 0:10:33
464000 -- (-7705.094) [-7684.526] (-7703.180) (-7703.424) * (-7700.411) (-7709.265) (-7694.536) [-7698.984] -- 0:10:33
465000 -- (-7692.319) (-7692.880) (-7722.907) [-7683.321] * (-7691.102) [-7690.930] (-7718.658) (-7700.037) -- 0:10:31
Average standard deviation of split frequencies: 0.008325
466000 -- (-7684.442) (-7690.283) [-7691.134] (-7701.136) * [-7691.276] (-7697.848) (-7708.042) (-7703.207) -- 0:10:30
467000 -- [-7683.021] (-7709.252) (-7699.558) (-7688.147) * (-7691.394) [-7687.589] (-7697.211) (-7695.333) -- 0:10:28
468000 -- (-7694.007) [-7702.665] (-7709.073) (-7707.777) * [-7687.447] (-7700.035) (-7706.667) (-7701.521) -- 0:10:27
469000 -- (-7701.762) [-7684.302] (-7694.522) (-7705.491) * (-7692.756) (-7690.189) (-7710.775) [-7703.894] -- 0:10:27
470000 -- (-7692.414) [-7697.160] (-7705.116) (-7708.875) * [-7692.511] (-7693.635) (-7683.972) (-7703.638) -- 0:10:25
Average standard deviation of split frequencies: 0.008659
471000 -- (-7698.497) (-7705.635) [-7683.916] (-7702.791) * [-7686.510] (-7701.767) (-7698.357) (-7696.344) -- 0:10:24
472000 -- (-7694.054) (-7697.653) [-7681.138] (-7691.319) * [-7696.849] (-7698.715) (-7696.396) (-7719.963) -- 0:10:23
473000 -- (-7690.192) (-7710.666) (-7700.625) [-7695.866] * (-7689.262) (-7686.780) [-7691.721] (-7690.511) -- 0:10:21
474000 -- (-7706.586) (-7681.305) (-7716.815) [-7685.967] * (-7688.436) [-7694.447] (-7702.505) (-7718.360) -- 0:10:21
475000 -- (-7693.345) [-7685.892] (-7696.982) (-7679.634) * (-7692.879) (-7700.916) [-7691.785] (-7715.761) -- 0:10:20
Average standard deviation of split frequencies: 0.009140
476000 -- (-7690.832) (-7696.101) [-7698.177] (-7685.342) * (-7689.750) [-7692.942] (-7690.419) (-7700.171) -- 0:10:18
477000 -- [-7690.174] (-7691.790) (-7693.144) (-7689.064) * (-7707.987) (-7712.724) [-7688.000] (-7691.482) -- 0:10:17
478000 -- (-7689.756) [-7681.633] (-7699.217) (-7699.448) * [-7698.568] (-7688.175) (-7693.672) (-7714.381) -- 0:10:15
479000 -- [-7690.975] (-7689.180) (-7708.037) (-7703.020) * (-7694.990) (-7698.701) [-7683.999] (-7684.338) -- 0:10:14
480000 -- (-7696.892) (-7694.716) (-7707.942) [-7687.371] * [-7684.106] (-7690.245) (-7712.546) (-7693.032) -- 0:10:14
Average standard deviation of split frequencies: 0.008990
481000 -- (-7707.229) (-7704.135) [-7691.200] (-7703.522) * (-7696.697) [-7686.320] (-7692.557) (-7693.081) -- 0:10:12
482000 -- [-7700.342] (-7699.456) (-7689.965) (-7699.041) * (-7686.055) (-7703.838) [-7685.538] (-7707.245) -- 0:10:11
483000 -- (-7694.939) (-7702.165) (-7705.043) [-7687.278] * (-7689.425) (-7708.841) (-7686.362) [-7686.655] -- 0:10:10
484000 -- (-7695.231) [-7692.219] (-7702.132) (-7701.247) * (-7694.641) (-7694.745) (-7713.289) [-7693.182] -- 0:10:08
485000 -- [-7684.427] (-7699.984) (-7696.403) (-7699.781) * (-7696.380) (-7689.443) (-7706.501) [-7693.497] -- 0:10:08
Average standard deviation of split frequencies: 0.008790
486000 -- (-7711.375) [-7706.595] (-7701.778) (-7703.067) * [-7687.937] (-7710.750) (-7698.682) (-7687.947) -- 0:10:07
487000 -- (-7698.718) (-7711.927) (-7693.559) [-7687.453] * (-7710.468) (-7702.725) [-7683.639] (-7693.607) -- 0:10:05
488000 -- (-7703.064) (-7698.908) (-7710.500) [-7690.530] * (-7707.500) (-7697.957) [-7685.557] (-7702.205) -- 0:10:04
489000 -- [-7686.345] (-7697.341) (-7701.976) (-7693.242) * (-7704.134) [-7687.728] (-7691.732) (-7697.243) -- 0:10:02
490000 -- [-7691.287] (-7694.048) (-7700.560) (-7699.310) * (-7695.234) (-7706.141) [-7686.161] (-7696.494) -- 0:10:01
Average standard deviation of split frequencies: 0.008407
491000 -- [-7702.672] (-7706.121) (-7692.329) (-7695.785) * (-7706.262) (-7697.611) (-7686.337) [-7694.681] -- 0:10:01
492000 -- (-7706.122) (-7695.995) (-7700.879) [-7682.835] * [-7690.245] (-7705.536) (-7683.894) (-7685.291) -- 0:09:59
493000 -- (-7698.020) (-7691.412) (-7692.473) [-7678.656] * [-7683.249] (-7700.971) (-7699.478) (-7681.742) -- 0:09:58
494000 -- [-7677.951] (-7693.359) (-7708.662) (-7686.773) * [-7693.897] (-7690.795) (-7690.849) (-7689.616) -- 0:09:57
495000 -- (-7690.386) [-7685.842] (-7692.838) (-7709.161) * [-7685.193] (-7694.037) (-7699.674) (-7710.901) -- 0:09:55
Average standard deviation of split frequencies: 0.008653
496000 -- (-7689.152) [-7685.463] (-7699.055) (-7692.195) * (-7707.901) (-7704.316) (-7694.104) [-7690.571] -- 0:09:54
497000 -- (-7710.185) [-7683.711] (-7690.058) (-7701.745) * [-7691.180] (-7694.142) (-7710.752) (-7695.030) -- 0:09:54
498000 -- (-7699.526) (-7699.182) (-7694.896) [-7690.715] * (-7697.003) (-7690.806) (-7695.756) [-7683.429] -- 0:09:52
499000 -- (-7706.170) [-7702.792] (-7701.848) (-7698.121) * (-7698.607) [-7681.280] (-7690.004) (-7703.651) -- 0:09:51
500000 -- (-7699.990) (-7690.420) [-7678.537] (-7712.181) * (-7688.248) (-7691.965) [-7703.474] (-7690.069) -- 0:09:50
Average standard deviation of split frequencies: 0.008513
501000 -- (-7695.401) (-7720.519) (-7704.328) [-7683.762] * (-7685.018) (-7699.412) (-7704.018) [-7688.383] -- 0:09:48
502000 -- [-7689.294] (-7692.150) (-7708.195) (-7692.168) * (-7692.449) [-7693.303] (-7703.520) (-7695.023) -- 0:09:47
503000 -- (-7682.622) [-7693.418] (-7704.942) (-7689.483) * (-7688.192) [-7696.658] (-7699.347) (-7691.066) -- 0:09:46
504000 -- (-7695.259) [-7698.891] (-7696.501) (-7718.329) * (-7687.182) (-7700.965) [-7690.881] (-7718.061) -- 0:09:45
505000 -- [-7683.633] (-7708.765) (-7707.718) (-7700.342) * (-7700.295) (-7682.818) [-7696.731] (-7708.332) -- 0:09:44
Average standard deviation of split frequencies: 0.008986
506000 -- [-7681.591] (-7709.581) (-7710.626) (-7690.213) * (-7703.592) (-7680.351) (-7709.033) [-7696.582] -- 0:09:42
507000 -- (-7687.961) [-7684.237] (-7692.362) (-7687.949) * [-7697.901] (-7696.856) (-7691.015) (-7707.370) -- 0:09:41
508000 -- (-7706.119) [-7684.827] (-7699.580) (-7700.118) * (-7688.323) (-7699.145) [-7692.197] (-7705.155) -- 0:09:40
509000 -- (-7701.481) [-7684.262] (-7699.033) (-7705.597) * [-7678.805] (-7698.174) (-7690.446) (-7690.847) -- 0:09:38
510000 -- (-7685.477) (-7694.706) [-7680.547] (-7705.306) * (-7691.533) (-7713.795) [-7691.055] (-7694.929) -- 0:09:38
Average standard deviation of split frequencies: 0.008712
511000 -- (-7691.889) [-7695.991] (-7691.784) (-7707.483) * (-7693.630) (-7681.868) (-7690.186) [-7691.680] -- 0:09:37
512000 -- [-7690.013] (-7702.068) (-7688.451) (-7690.781) * [-7686.413] (-7698.399) (-7696.365) (-7704.259) -- 0:09:35
513000 -- (-7705.625) (-7695.696) [-7685.789] (-7692.708) * (-7709.510) (-7699.015) (-7698.377) [-7690.108] -- 0:09:34
514000 -- (-7713.227) (-7702.888) (-7682.913) [-7697.901] * [-7692.799] (-7695.427) (-7689.306) (-7692.287) -- 0:09:32
515000 -- (-7695.335) (-7693.566) [-7690.102] (-7691.673) * (-7694.128) [-7689.972] (-7698.196) (-7699.435) -- 0:09:31
Average standard deviation of split frequencies: 0.009304
516000 -- (-7717.189) (-7686.285) (-7688.437) [-7686.744] * (-7713.310) (-7696.247) (-7710.250) [-7694.211] -- 0:09:30
517000 -- (-7696.145) (-7698.470) (-7713.415) [-7686.693] * (-7695.769) [-7680.573] (-7702.455) (-7697.272) -- 0:09:28
518000 -- (-7700.226) (-7697.755) [-7687.505] (-7710.656) * (-7706.245) (-7690.472) (-7704.800) [-7693.044] -- 0:09:28
519000 -- (-7699.648) (-7695.890) [-7685.382] (-7712.196) * (-7700.463) [-7675.996] (-7705.643) (-7707.484) -- 0:09:27
520000 -- (-7678.764) (-7709.367) [-7688.332] (-7694.991) * (-7700.703) [-7687.925] (-7699.802) (-7712.596) -- 0:09:25
Average standard deviation of split frequencies: 0.009146
521000 -- [-7699.190] (-7699.736) (-7691.842) (-7693.981) * (-7686.460) (-7703.593) (-7696.806) [-7693.373] -- 0:09:24
522000 -- [-7684.990] (-7697.108) (-7703.015) (-7713.185) * (-7687.583) (-7689.889) (-7690.091) [-7693.348] -- 0:09:23
523000 -- [-7690.571] (-7696.581) (-7689.344) (-7699.534) * (-7697.202) (-7715.478) [-7687.444] (-7690.883) -- 0:09:21
524000 -- (-7704.779) [-7695.422] (-7700.223) (-7700.894) * (-7700.647) (-7698.178) [-7686.029] (-7688.756) -- 0:09:21
525000 -- (-7695.206) [-7705.503] (-7699.745) (-7691.134) * [-7688.598] (-7697.329) (-7704.228) (-7690.465) -- 0:09:20
Average standard deviation of split frequencies: 0.008669
526000 -- (-7695.083) [-7682.867] (-7687.790) (-7699.243) * (-7696.709) [-7689.208] (-7705.042) (-7693.913) -- 0:09:18
527000 -- [-7687.671] (-7713.696) (-7693.389) (-7699.634) * [-7694.188] (-7692.502) (-7710.673) (-7696.267) -- 0:09:17
528000 -- (-7678.783) [-7689.773] (-7694.567) (-7695.644) * (-7695.437) (-7693.432) (-7703.536) [-7686.467] -- 0:09:16
529000 -- [-7693.689] (-7711.770) (-7686.413) (-7693.098) * (-7700.140) [-7691.779] (-7702.403) (-7695.969) -- 0:09:15
530000 -- (-7690.397) [-7704.940] (-7688.651) (-7690.270) * (-7705.560) [-7686.208] (-7701.788) (-7698.639) -- 0:09:14
Average standard deviation of split frequencies: 0.008321
531000 -- (-7691.316) (-7721.766) [-7684.039] (-7692.306) * (-7717.039) (-7700.778) (-7687.710) [-7692.149] -- 0:09:12
532000 -- (-7700.749) (-7701.204) (-7701.205) [-7686.331] * (-7702.109) [-7683.874] (-7690.820) (-7706.418) -- 0:09:11
533000 -- [-7690.086] (-7706.294) (-7692.753) (-7707.061) * (-7692.002) [-7681.220] (-7708.527) (-7711.672) -- 0:09:10
534000 -- (-7698.721) (-7703.633) [-7694.775] (-7689.529) * [-7689.953] (-7691.360) (-7706.799) (-7691.604) -- 0:09:09
535000 -- (-7696.943) (-7694.555) [-7686.312] (-7701.932) * (-7706.232) (-7703.400) [-7690.401] (-7693.785) -- 0:09:08
Average standard deviation of split frequencies: 0.008292
536000 -- [-7685.855] (-7696.000) (-7693.706) (-7699.323) * (-7702.887) (-7697.394) [-7692.816] (-7688.407) -- 0:09:07
537000 -- (-7694.187) [-7693.053] (-7685.260) (-7709.450) * (-7699.460) [-7696.234] (-7711.842) (-7690.280) -- 0:09:05
538000 -- (-7701.169) [-7688.126] (-7704.665) (-7695.417) * (-7696.511) [-7692.432] (-7702.841) (-7701.356) -- 0:09:04
539000 -- (-7714.008) (-7695.500) (-7705.004) [-7684.123] * (-7701.001) (-7697.513) (-7701.374) [-7683.570] -- 0:09:03
540000 -- (-7690.807) (-7696.564) (-7707.989) [-7683.321] * (-7685.368) (-7695.637) (-7691.546) [-7686.898] -- 0:09:02
Average standard deviation of split frequencies: 0.007687
541000 -- (-7698.578) (-7706.102) (-7699.864) [-7682.003] * (-7695.354) (-7692.898) [-7691.265] (-7715.942) -- 0:09:01
542000 -- [-7697.377] (-7702.312) (-7699.480) (-7694.040) * (-7700.115) [-7696.548] (-7690.556) (-7703.580) -- 0:08:59
543000 -- (-7701.907) (-7704.655) (-7698.848) [-7704.376] * (-7682.442) (-7709.568) [-7698.264] (-7701.709) -- 0:08:58
544000 -- (-7702.464) (-7691.622) [-7695.143] (-7695.721) * [-7687.779] (-7713.047) (-7698.550) (-7701.786) -- 0:08:57
545000 -- [-7683.792] (-7696.119) (-7701.889) (-7696.393) * (-7695.045) (-7693.509) (-7700.443) [-7681.926] -- 0:08:56
Average standard deviation of split frequencies: 0.008193
546000 -- (-7706.056) (-7690.468) (-7712.633) [-7680.906] * (-7698.408) (-7695.218) [-7690.783] (-7683.098) -- 0:08:55
547000 -- (-7694.771) (-7688.674) (-7697.099) [-7683.034] * [-7683.123] (-7690.661) (-7696.756) (-7693.259) -- 0:08:54
548000 -- (-7691.796) (-7706.487) [-7689.665] (-7702.101) * (-7684.980) [-7701.854] (-7704.702) (-7709.920) -- 0:08:52
549000 -- (-7690.860) (-7694.430) [-7695.095] (-7693.389) * (-7690.925) (-7710.743) (-7702.549) [-7693.775] -- 0:08:51
550000 -- (-7710.495) (-7691.380) [-7683.635] (-7696.540) * (-7696.180) (-7689.546) (-7706.431) [-7689.683] -- 0:08:50
Average standard deviation of split frequencies: 0.008019
551000 -- (-7711.868) (-7701.294) [-7689.806] (-7687.008) * (-7717.073) [-7683.165] (-7684.338) (-7706.756) -- 0:08:49
552000 -- (-7717.436) (-7681.096) [-7687.245] (-7690.643) * (-7691.576) (-7683.565) [-7695.088] (-7701.905) -- 0:08:48
553000 -- (-7697.531) (-7693.087) [-7682.027] (-7701.881) * [-7685.642] (-7699.524) (-7709.610) (-7692.338) -- 0:08:47
554000 -- [-7688.591] (-7686.902) (-7689.706) (-7712.527) * (-7693.112) (-7697.684) (-7691.953) [-7690.012] -- 0:08:45
555000 -- [-7695.793] (-7703.489) (-7687.937) (-7698.402) * [-7696.957] (-7692.444) (-7700.241) (-7712.039) -- 0:08:44
Average standard deviation of split frequencies: 0.008184
556000 -- (-7700.906) [-7684.719] (-7695.368) (-7685.229) * (-7694.831) (-7705.873) (-7701.854) [-7693.998] -- 0:08:43
557000 -- (-7689.738) (-7685.726) (-7715.041) [-7703.327] * (-7709.665) [-7701.669] (-7690.504) (-7704.483) -- 0:08:42
558000 -- (-7702.010) (-7684.301) (-7701.741) [-7693.287] * (-7687.795) (-7700.517) (-7695.413) [-7689.699] -- 0:08:41
559000 -- (-7684.100) [-7688.097] (-7694.708) (-7695.435) * [-7692.490] (-7694.465) (-7704.909) (-7694.990) -- 0:08:39
560000 -- (-7702.628) [-7690.009] (-7692.398) (-7708.527) * (-7709.459) (-7694.398) (-7688.792) [-7684.460] -- 0:08:38
Average standard deviation of split frequencies: 0.008339
561000 -- [-7692.262] (-7690.491) (-7712.592) (-7702.970) * (-7702.922) (-7685.021) (-7705.797) [-7680.035] -- 0:08:37
562000 -- (-7705.086) (-7714.952) (-7697.910) [-7684.337] * (-7714.910) [-7679.600] (-7700.646) (-7692.383) -- 0:08:36
563000 -- (-7701.821) (-7708.363) (-7693.806) [-7687.835] * (-7700.371) [-7685.364] (-7687.469) (-7695.848) -- 0:08:35
564000 -- [-7684.339] (-7688.841) (-7697.826) (-7690.679) * (-7704.570) (-7702.118) [-7690.435] (-7686.775) -- 0:08:34
565000 -- (-7687.144) (-7702.336) (-7711.603) [-7689.832] * [-7700.949] (-7705.346) (-7692.478) (-7690.706) -- 0:08:32
Average standard deviation of split frequencies: 0.008210
566000 -- [-7687.658] (-7699.634) (-7717.180) (-7699.461) * (-7691.134) (-7702.945) (-7694.702) [-7685.709] -- 0:08:31
567000 -- (-7690.818) (-7697.539) [-7694.093] (-7698.290) * [-7687.078] (-7703.229) (-7700.683) (-7688.787) -- 0:08:30
568000 -- (-7704.371) (-7701.000) [-7696.795] (-7698.661) * (-7701.521) (-7710.840) [-7686.078] (-7686.042) -- 0:08:28
569000 -- [-7690.506] (-7733.010) (-7697.148) (-7723.694) * [-7706.365] (-7696.590) (-7690.730) (-7692.687) -- 0:08:28
570000 -- [-7687.684] (-7711.143) (-7706.952) (-7687.597) * (-7694.120) (-7700.959) [-7683.035] (-7680.117) -- 0:08:26
Average standard deviation of split frequencies: 0.008463
571000 -- (-7689.172) [-7694.520] (-7691.126) (-7684.066) * [-7693.869] (-7701.023) (-7705.087) (-7701.210) -- 0:08:25
572000 -- (-7705.520) (-7704.582) (-7687.584) [-7695.391] * (-7701.038) (-7685.863) (-7702.490) [-7684.807] -- 0:08:24
573000 -- [-7686.806] (-7690.525) (-7694.529) (-7709.293) * [-7689.741] (-7681.918) (-7689.332) (-7682.548) -- 0:08:23
574000 -- [-7687.712] (-7699.840) (-7695.859) (-7700.698) * (-7694.888) [-7691.014] (-7710.371) (-7702.469) -- 0:08:21
575000 -- [-7682.546] (-7698.024) (-7692.207) (-7699.696) * [-7688.940] (-7707.106) (-7697.819) (-7691.563) -- 0:08:20
Average standard deviation of split frequencies: 0.008852
576000 -- (-7686.584) [-7692.670] (-7697.772) (-7700.903) * [-7685.284] (-7700.078) (-7688.342) (-7712.940) -- 0:08:19
577000 -- [-7696.925] (-7696.789) (-7695.892) (-7689.663) * (-7697.351) (-7703.918) (-7699.197) [-7703.619] -- 0:08:18
578000 -- (-7697.072) (-7692.233) [-7683.887] (-7688.040) * [-7691.582] (-7700.805) (-7694.235) (-7701.221) -- 0:08:17
579000 -- (-7709.257) [-7691.317] (-7700.579) (-7693.706) * (-7696.231) (-7679.461) (-7699.495) [-7676.256] -- 0:08:15
580000 -- [-7691.240] (-7697.396) (-7700.296) (-7704.014) * [-7687.853] (-7693.464) (-7709.231) (-7700.253) -- 0:08:14
Average standard deviation of split frequencies: 0.009278
581000 -- (-7690.836) (-7698.907) [-7691.549] (-7692.584) * (-7703.705) (-7688.697) [-7712.173] (-7705.375) -- 0:08:13
582000 -- [-7680.720] (-7705.304) (-7706.682) (-7699.811) * (-7693.591) [-7679.126] (-7693.375) (-7698.253) -- 0:08:12
583000 -- (-7691.182) (-7693.837) (-7706.571) [-7691.675] * (-7695.248) [-7689.168] (-7684.399) (-7707.521) -- 0:08:11
584000 -- (-7703.424) (-7710.314) (-7691.198) [-7682.023] * (-7699.474) (-7697.040) [-7680.795] (-7693.134) -- 0:08:10
585000 -- (-7718.729) (-7687.890) [-7695.214] (-7704.911) * [-7696.867] (-7699.470) (-7702.295) (-7699.226) -- 0:08:08
Average standard deviation of split frequencies: 0.009095
586000 -- (-7703.413) [-7689.546] (-7687.739) (-7700.418) * (-7701.041) [-7699.002] (-7691.294) (-7706.526) -- 0:08:07
587000 -- (-7703.524) (-7688.375) (-7698.248) [-7689.607] * (-7714.344) (-7715.418) (-7709.543) [-7702.590] -- 0:08:06
588000 -- (-7693.105) (-7697.957) (-7687.208) [-7691.861] * (-7707.099) (-7710.600) [-7684.265] (-7695.022) -- 0:08:05
589000 -- (-7691.526) (-7713.985) (-7697.935) [-7692.252] * (-7685.821) (-7696.427) [-7699.976] (-7685.600) -- 0:08:04
590000 -- (-7710.225) (-7693.178) (-7698.293) [-7696.202] * (-7690.247) (-7702.391) (-7702.635) [-7700.297] -- 0:08:02
Average standard deviation of split frequencies: 0.009284
591000 -- (-7686.673) (-7692.290) [-7686.333] (-7700.604) * [-7687.073] (-7698.775) (-7711.421) (-7705.508) -- 0:08:01
592000 -- (-7692.956) (-7682.565) [-7699.529] (-7700.617) * (-7697.147) [-7704.821] (-7696.101) (-7699.529) -- 0:08:00
593000 -- (-7692.675) [-7692.845] (-7706.273) (-7693.935) * [-7687.553] (-7709.664) (-7696.084) (-7714.896) -- 0:07:59
594000 -- (-7691.733) (-7693.551) [-7686.679] (-7685.913) * (-7693.397) (-7707.594) [-7681.914] (-7702.242) -- 0:07:58
595000 -- (-7702.550) (-7689.515) [-7688.855] (-7700.919) * (-7712.176) (-7689.915) [-7688.424] (-7695.788) -- 0:07:57
Average standard deviation of split frequencies: 0.009314
596000 -- [-7693.374] (-7695.484) (-7693.835) (-7700.721) * [-7697.134] (-7684.977) (-7696.189) (-7701.595) -- 0:07:55
597000 -- (-7702.989) (-7696.217) (-7688.383) [-7684.969] * (-7691.625) (-7702.902) (-7704.365) [-7686.638] -- 0:07:54
598000 -- (-7706.667) (-7704.357) [-7689.873] (-7688.368) * [-7690.721] (-7685.716) (-7690.514) (-7700.110) -- 0:07:53
599000 -- (-7680.351) [-7694.603] (-7701.034) (-7699.474) * (-7701.992) (-7681.102) (-7700.099) [-7698.993] -- 0:07:51
600000 -- [-7686.545] (-7699.573) (-7696.623) (-7706.127) * (-7701.503) (-7695.437) [-7680.840] (-7698.254) -- 0:07:51
Average standard deviation of split frequencies: 0.009562
601000 -- (-7697.402) [-7682.856] (-7698.925) (-7682.661) * [-7685.273] (-7689.259) (-7696.763) (-7710.115) -- 0:07:50
602000 -- (-7696.648) [-7679.760] (-7701.780) (-7695.117) * (-7688.494) [-7685.656] (-7709.693) (-7721.554) -- 0:07:48
603000 -- (-7683.466) [-7693.810] (-7705.331) (-7688.938) * [-7694.660] (-7705.341) (-7690.120) (-7719.257) -- 0:07:47
604000 -- (-7687.695) [-7688.380] (-7691.743) (-7697.220) * (-7699.408) (-7702.570) (-7698.437) [-7693.715] -- 0:07:46
605000 -- [-7690.956] (-7687.193) (-7697.117) (-7691.508) * (-7704.591) [-7693.857] (-7702.172) (-7696.821) -- 0:07:45
Average standard deviation of split frequencies: 0.009605
606000 -- (-7689.156) (-7695.232) (-7708.210) [-7686.777] * (-7698.653) (-7713.306) (-7693.994) [-7700.129] -- 0:07:44
607000 -- (-7701.773) (-7694.837) (-7702.652) [-7680.606] * (-7719.135) (-7684.232) (-7707.395) [-7686.286] -- 0:07:42
608000 -- (-7687.220) (-7698.750) [-7695.176] (-7702.604) * (-7718.863) (-7687.102) [-7687.845] (-7703.390) -- 0:07:41
609000 -- [-7690.268] (-7700.305) (-7710.726) (-7704.986) * (-7710.373) (-7702.188) [-7691.361] (-7703.934) -- 0:07:40
610000 -- [-7701.277] (-7699.028) (-7701.176) (-7705.855) * (-7700.713) (-7697.080) (-7688.181) [-7686.543] -- 0:07:39
Average standard deviation of split frequencies: 0.009563
611000 -- (-7704.068) [-7695.967] (-7698.458) (-7682.567) * (-7705.503) [-7685.449] (-7697.434) (-7700.488) -- 0:07:38
612000 -- (-7691.900) [-7680.002] (-7697.161) (-7701.427) * (-7706.790) (-7694.422) [-7689.708] (-7703.500) -- 0:07:37
613000 -- (-7704.032) (-7688.748) (-7701.187) [-7691.455] * (-7703.213) (-7689.831) [-7687.561] (-7704.347) -- 0:07:35
614000 -- (-7690.258) [-7687.924] (-7714.102) (-7701.981) * [-7688.056] (-7700.864) (-7706.381) (-7702.018) -- 0:07:34
615000 -- [-7704.949] (-7691.911) (-7692.035) (-7694.049) * (-7689.416) [-7689.556] (-7695.569) (-7695.726) -- 0:07:33
Average standard deviation of split frequencies: 0.009261
616000 -- [-7689.562] (-7705.760) (-7700.484) (-7699.110) * (-7704.085) (-7688.296) (-7689.729) [-7695.183] -- 0:07:32
617000 -- (-7688.658) (-7695.926) (-7704.479) [-7697.161] * (-7704.466) [-7691.564] (-7694.947) (-7708.908) -- 0:07:31
618000 -- (-7696.083) (-7687.570) (-7704.371) [-7697.781] * [-7686.516] (-7701.836) (-7707.580) (-7698.301) -- 0:07:29
619000 -- (-7701.035) [-7688.965] (-7700.346) (-7705.340) * [-7690.368] (-7702.090) (-7709.471) (-7686.957) -- 0:07:28
620000 -- (-7703.966) [-7689.003] (-7699.939) (-7699.885) * (-7695.679) (-7696.160) (-7700.059) [-7693.639] -- 0:07:27
Average standard deviation of split frequencies: 0.009099
621000 -- (-7698.426) (-7696.579) [-7691.299] (-7687.398) * [-7690.412] (-7686.605) (-7698.044) (-7702.008) -- 0:07:26
622000 -- (-7684.716) (-7690.154) (-7698.103) [-7694.654] * [-7683.942] (-7700.952) (-7692.797) (-7686.513) -- 0:07:25
623000 -- [-7690.175] (-7698.611) (-7692.092) (-7689.570) * (-7694.909) (-7696.605) (-7698.088) [-7693.540] -- 0:07:24
624000 -- (-7713.887) [-7691.289] (-7686.506) (-7715.359) * (-7688.539) [-7678.948] (-7713.693) (-7702.261) -- 0:07:22
625000 -- [-7681.890] (-7687.237) (-7697.709) (-7691.602) * (-7699.333) [-7684.428] (-7708.026) (-7704.853) -- 0:07:21
Average standard deviation of split frequencies: 0.008990
626000 -- (-7686.425) [-7684.021] (-7692.488) (-7701.373) * (-7687.789) [-7680.085] (-7695.565) (-7697.524) -- 0:07:20
627000 -- (-7695.390) [-7684.049] (-7704.193) (-7717.546) * (-7696.490) (-7688.359) (-7699.162) [-7693.606] -- 0:07:19
628000 -- (-7692.265) [-7682.897] (-7696.661) (-7694.131) * (-7697.792) [-7679.489] (-7686.449) (-7692.432) -- 0:07:18
629000 -- [-7691.554] (-7694.170) (-7704.638) (-7688.112) * (-7699.719) [-7686.728] (-7702.066) (-7703.002) -- 0:07:17
630000 -- (-7692.045) (-7691.523) (-7693.625) [-7677.151] * (-7698.199) [-7694.479] (-7702.007) (-7693.671) -- 0:07:15
Average standard deviation of split frequencies: 0.008741
631000 -- (-7684.085) [-7685.633] (-7706.495) (-7694.004) * (-7695.120) [-7694.566] (-7703.260) (-7694.565) -- 0:07:14
632000 -- (-7695.428) (-7704.523) [-7694.006] (-7702.097) * (-7693.014) [-7679.956] (-7692.211) (-7689.266) -- 0:07:13
633000 -- (-7718.500) (-7702.527) [-7686.338] (-7709.780) * (-7712.614) (-7699.413) [-7697.254] (-7708.263) -- 0:07:11
634000 -- (-7698.205) (-7718.152) (-7695.916) [-7688.558] * (-7707.870) [-7682.541] (-7686.110) (-7694.499) -- 0:07:10
635000 -- (-7686.515) (-7710.516) [-7684.259] (-7692.891) * [-7689.665] (-7690.413) (-7691.646) (-7712.419) -- 0:07:09
Average standard deviation of split frequencies: 0.008698
636000 -- (-7698.558) [-7697.770] (-7690.673) (-7684.879) * (-7695.245) (-7695.785) [-7687.919] (-7693.199) -- 0:07:08
637000 -- (-7706.020) (-7692.661) (-7689.941) [-7694.670] * (-7697.993) (-7694.662) [-7689.469] (-7705.556) -- 0:07:07
638000 -- (-7695.421) [-7695.212] (-7690.216) (-7702.211) * (-7695.837) (-7693.416) [-7693.155] (-7704.347) -- 0:07:06
639000 -- (-7689.959) (-7688.686) [-7694.320] (-7688.712) * (-7703.161) (-7693.381) (-7701.815) [-7686.193] -- 0:07:04
640000 -- (-7694.789) [-7683.454] (-7717.841) (-7683.570) * [-7690.746] (-7688.141) (-7702.185) (-7702.411) -- 0:07:03
Average standard deviation of split frequencies: 0.008319
641000 -- (-7686.543) [-7689.584] (-7711.312) (-7693.332) * (-7708.344) [-7686.118] (-7679.331) (-7708.233) -- 0:07:02
642000 -- (-7694.690) (-7703.086) (-7699.541) [-7682.948] * [-7681.943] (-7712.939) (-7686.338) (-7685.203) -- 0:07:01
643000 -- (-7708.077) (-7690.251) (-7694.958) [-7692.697] * [-7678.500] (-7702.713) (-7687.008) (-7693.833) -- 0:07:00
644000 -- [-7687.230] (-7693.818) (-7697.132) (-7698.332) * (-7689.178) (-7696.281) [-7684.350] (-7699.088) -- 0:06:59
645000 -- (-7677.506) [-7692.613] (-7706.097) (-7708.779) * (-7693.003) (-7712.327) [-7685.814] (-7711.765) -- 0:06:57
Average standard deviation of split frequencies: 0.008444
646000 -- (-7688.503) [-7693.177] (-7697.377) (-7694.056) * [-7683.037] (-7703.605) (-7685.340) (-7714.586) -- 0:06:56
647000 -- (-7682.475) [-7681.076] (-7705.170) (-7698.211) * (-7714.365) [-7694.956] (-7693.033) (-7710.842) -- 0:06:55
648000 -- (-7695.492) (-7699.559) (-7716.379) [-7684.835] * (-7690.306) (-7704.849) [-7687.504] (-7698.534) -- 0:06:54
649000 -- [-7683.340] (-7703.172) (-7701.438) (-7700.719) * (-7700.941) (-7688.922) [-7686.497] (-7703.975) -- 0:06:53
650000 -- (-7691.561) (-7694.128) (-7715.408) [-7699.279] * (-7702.918) (-7702.475) (-7696.502) [-7689.768] -- 0:06:51
Average standard deviation of split frequencies: 0.008517
651000 -- (-7703.256) (-7716.302) (-7694.440) [-7710.585] * (-7697.282) (-7700.984) [-7689.153] (-7697.194) -- 0:06:50
652000 -- [-7691.328] (-7697.390) (-7684.604) (-7691.770) * (-7699.924) [-7688.896] (-7697.493) (-7706.875) -- 0:06:49
653000 -- (-7699.756) [-7679.708] (-7695.697) (-7700.326) * (-7694.478) (-7709.593) [-7697.705] (-7696.852) -- 0:06:48
654000 -- (-7708.265) (-7684.818) [-7688.619] (-7693.716) * [-7693.694] (-7690.863) (-7685.743) (-7710.905) -- 0:06:47
655000 -- (-7691.823) [-7690.870] (-7698.278) (-7698.074) * (-7708.601) [-7674.660] (-7688.570) (-7724.989) -- 0:06:46
Average standard deviation of split frequencies: 0.008227
656000 -- (-7691.921) (-7701.768) (-7705.836) [-7686.419] * (-7702.599) (-7688.855) [-7681.784] (-7699.606) -- 0:06:44
657000 -- (-7699.850) (-7699.596) (-7720.314) [-7688.557] * (-7695.756) (-7690.850) [-7690.968] (-7708.470) -- 0:06:43
658000 -- (-7682.375) [-7681.464] (-7707.163) (-7704.192) * (-7698.349) (-7698.220) [-7697.232] (-7704.917) -- 0:06:42
659000 -- [-7688.553] (-7686.986) (-7708.126) (-7692.539) * (-7692.229) (-7719.524) [-7706.799] (-7693.700) -- 0:06:41
660000 -- [-7689.132] (-7713.595) (-7689.069) (-7680.312) * (-7691.910) (-7697.103) [-7694.713] (-7698.425) -- 0:06:40
Average standard deviation of split frequencies: 0.008300
661000 -- (-7690.203) [-7685.847] (-7694.272) (-7696.605) * (-7707.642) [-7698.158] (-7696.498) (-7692.977) -- 0:06:39
662000 -- [-7690.903] (-7706.332) (-7708.947) (-7704.349) * (-7696.866) (-7696.403) [-7691.853] (-7710.519) -- 0:06:37
663000 -- (-7681.824) [-7692.802] (-7693.462) (-7714.465) * (-7688.569) [-7700.594] (-7687.186) (-7688.155) -- 0:06:36
664000 -- (-7695.690) (-7693.743) (-7697.486) [-7690.311] * [-7701.002] (-7693.938) (-7718.554) (-7684.203) -- 0:06:35
665000 -- (-7696.065) (-7695.483) (-7695.054) [-7684.946] * (-7721.951) (-7692.588) (-7698.641) [-7695.333] -- 0:06:34
Average standard deviation of split frequencies: 0.008003
666000 -- [-7690.719] (-7695.893) (-7705.166) (-7704.721) * (-7702.115) [-7693.469] (-7700.975) (-7695.417) -- 0:06:33
667000 -- [-7682.860] (-7714.193) (-7705.539) (-7695.965) * (-7702.500) (-7693.976) [-7705.276] (-7695.406) -- 0:06:31
668000 -- (-7687.981) (-7702.228) [-7699.479] (-7694.403) * (-7705.133) (-7723.584) [-7692.172] (-7694.891) -- 0:06:30
669000 -- [-7688.033] (-7706.147) (-7696.874) (-7688.336) * (-7695.099) (-7709.681) (-7691.280) [-7703.663] -- 0:06:29
670000 -- [-7685.092] (-7695.540) (-7708.414) (-7689.770) * [-7684.158] (-7702.545) (-7702.030) (-7674.259) -- 0:06:28
Average standard deviation of split frequencies: 0.007990
671000 -- (-7688.111) (-7681.862) [-7699.726] (-7684.913) * (-7681.615) (-7703.605) [-7701.148] (-7691.213) -- 0:06:27
672000 -- (-7696.813) [-7691.114] (-7692.156) (-7695.883) * (-7687.016) (-7701.038) [-7700.338] (-7699.763) -- 0:06:26
673000 -- [-7686.814] (-7693.855) (-7703.677) (-7706.354) * (-7708.790) [-7701.874] (-7689.011) (-7688.528) -- 0:06:24
674000 -- (-7695.981) [-7688.614] (-7707.338) (-7708.187) * (-7704.100) [-7688.874] (-7692.127) (-7701.055) -- 0:06:23
675000 -- [-7683.913] (-7698.995) (-7695.954) (-7690.059) * (-7704.490) (-7704.045) [-7686.759] (-7687.800) -- 0:06:22
Average standard deviation of split frequencies: 0.007955
676000 -- (-7689.322) [-7693.569] (-7691.867) (-7690.004) * (-7695.025) (-7685.314) (-7686.045) [-7683.593] -- 0:06:21
677000 -- (-7692.835) (-7709.438) [-7699.344] (-7684.197) * (-7690.959) [-7685.606] (-7694.935) (-7709.299) -- 0:06:20
678000 -- (-7694.952) (-7696.036) [-7690.464] (-7699.363) * (-7692.598) [-7697.242] (-7714.500) (-7693.347) -- 0:06:18
679000 -- (-7682.488) [-7691.553] (-7702.145) (-7701.174) * (-7694.768) (-7699.706) [-7686.309] (-7699.327) -- 0:06:17
680000 -- (-7690.693) (-7690.754) (-7689.625) [-7684.495] * [-7700.297] (-7709.985) (-7691.526) (-7690.431) -- 0:06:16
Average standard deviation of split frequencies: 0.008056
681000 -- (-7690.681) (-7707.115) (-7695.405) [-7687.789] * (-7694.953) [-7691.749] (-7696.576) (-7701.809) -- 0:06:15
682000 -- [-7689.831] (-7688.036) (-7716.694) (-7684.863) * (-7706.733) [-7706.643] (-7688.136) (-7700.655) -- 0:06:13
683000 -- (-7708.190) [-7692.649] (-7714.327) (-7695.260) * (-7686.552) [-7688.915] (-7710.601) (-7700.660) -- 0:06:13
684000 -- (-7704.318) [-7686.969] (-7696.578) (-7700.365) * (-7689.798) [-7685.249] (-7701.809) (-7706.729) -- 0:06:11
685000 -- (-7702.070) (-7696.667) [-7684.025] (-7703.436) * (-7695.738) (-7702.118) [-7679.452] (-7687.268) -- 0:06:10
Average standard deviation of split frequencies: 0.008008
686000 -- [-7691.743] (-7723.035) (-7701.553) (-7688.996) * (-7700.173) (-7697.305) (-7685.847) [-7682.705] -- 0:06:09
687000 -- (-7696.077) (-7692.049) [-7687.890] (-7700.988) * (-7699.444) (-7704.496) (-7692.991) [-7684.438] -- 0:06:08
688000 -- (-7686.719) (-7703.090) [-7691.775] (-7680.011) * (-7700.797) [-7693.812] (-7695.011) (-7712.397) -- 0:06:06
689000 -- (-7697.622) (-7702.313) (-7699.416) [-7708.166] * (-7695.507) [-7679.723] (-7714.135) (-7690.358) -- 0:06:06
690000 -- (-7683.018) [-7686.971] (-7698.066) (-7695.721) * [-7695.581] (-7694.019) (-7699.395) (-7699.467) -- 0:06:04
Average standard deviation of split frequencies: 0.007717
691000 -- (-7701.682) (-7699.462) [-7695.675] (-7707.079) * [-7695.645] (-7679.509) (-7698.030) (-7686.805) -- 0:06:03
692000 -- (-7700.906) (-7691.241) [-7689.217] (-7686.261) * (-7691.132) [-7680.232] (-7693.054) (-7715.278) -- 0:06:02
693000 -- (-7704.146) (-7686.938) [-7695.022] (-7685.363) * (-7700.313) (-7691.338) [-7686.531] (-7690.318) -- 0:06:01
694000 -- (-7704.699) [-7696.536] (-7699.374) (-7689.177) * (-7696.773) (-7680.241) [-7698.274] (-7702.131) -- 0:05:59
695000 -- (-7683.386) [-7686.602] (-7700.433) (-7701.470) * (-7703.990) (-7694.813) [-7693.799] (-7697.963) -- 0:05:58
Average standard deviation of split frequencies: 0.007561
696000 -- [-7684.617] (-7699.375) (-7699.726) (-7694.992) * (-7693.967) (-7705.200) [-7690.017] (-7698.250) -- 0:05:57
697000 -- (-7693.423) (-7704.539) (-7692.319) [-7684.197] * [-7691.411] (-7693.969) (-7696.640) (-7684.431) -- 0:05:56
698000 -- (-7704.915) (-7692.363) (-7700.635) [-7695.323] * (-7712.154) (-7699.765) (-7694.816) [-7676.192] -- 0:05:55
699000 -- (-7701.314) [-7688.848] (-7704.308) (-7709.465) * [-7699.462] (-7692.076) (-7698.747) (-7697.410) -- 0:05:53
700000 -- (-7699.029) [-7690.627] (-7692.802) (-7700.448) * [-7708.150] (-7692.311) (-7701.037) (-7692.877) -- 0:05:52
Average standard deviation of split frequencies: 0.007442
701000 -- [-7689.675] (-7697.765) (-7696.430) (-7706.595) * (-7692.307) (-7700.846) [-7689.549] (-7712.506) -- 0:05:51
702000 -- (-7690.350) (-7687.631) [-7696.577] (-7706.998) * [-7691.358] (-7698.897) (-7704.697) (-7708.125) -- 0:05:50
703000 -- [-7688.148] (-7704.119) (-7690.333) (-7709.486) * (-7697.713) (-7695.979) (-7698.882) [-7700.431] -- 0:05:49
704000 -- (-7692.184) (-7702.233) (-7695.731) [-7689.899] * (-7688.336) (-7696.396) (-7690.139) [-7694.346] -- 0:05:48
705000 -- (-7696.653) (-7707.249) (-7699.919) [-7683.949] * (-7691.430) (-7709.226) [-7689.921] (-7702.665) -- 0:05:46
Average standard deviation of split frequencies: 0.007522
706000 -- (-7684.786) [-7694.710] (-7702.157) (-7691.074) * (-7695.048) [-7678.339] (-7690.287) (-7691.491) -- 0:05:45
707000 -- (-7686.578) [-7690.882] (-7700.402) (-7692.907) * (-7692.785) (-7697.004) [-7682.870] (-7692.698) -- 0:05:44
708000 -- (-7693.795) [-7694.109] (-7699.014) (-7695.405) * [-7686.018] (-7707.815) (-7705.020) (-7692.723) -- 0:05:43
709000 -- [-7690.376] (-7709.050) (-7701.341) (-7695.662) * [-7693.357] (-7702.255) (-7700.617) (-7693.156) -- 0:05:42
710000 -- (-7679.807) (-7695.819) (-7691.910) [-7684.137] * [-7688.194] (-7696.807) (-7703.861) (-7692.390) -- 0:05:41
Average standard deviation of split frequencies: 0.007446
711000 -- (-7694.350) (-7697.056) (-7688.663) [-7697.559] * (-7692.199) (-7706.428) (-7685.893) [-7686.545] -- 0:05:39
712000 -- (-7685.892) (-7701.696) [-7682.577] (-7706.138) * [-7693.105] (-7697.771) (-7684.854) (-7704.164) -- 0:05:38
713000 -- (-7696.246) (-7679.771) [-7680.888] (-7715.176) * (-7702.152) (-7692.571) (-7688.901) [-7702.942] -- 0:05:37
714000 -- [-7689.788] (-7693.347) (-7694.510) (-7697.944) * (-7696.779) [-7693.178] (-7695.151) (-7720.427) -- 0:05:36
715000 -- [-7691.706] (-7691.810) (-7688.772) (-7708.901) * (-7697.992) (-7702.896) (-7694.633) [-7694.545] -- 0:05:35
Average standard deviation of split frequencies: 0.007565
716000 -- [-7686.899] (-7688.476) (-7681.127) (-7712.693) * (-7696.511) (-7703.265) [-7688.553] (-7689.099) -- 0:05:33
717000 -- (-7712.104) [-7685.807] (-7695.140) (-7712.613) * (-7696.749) (-7700.801) (-7710.731) [-7689.614] -- 0:05:32
718000 -- (-7709.648) [-7695.321] (-7684.790) (-7703.378) * (-7702.973) (-7694.021) (-7721.028) [-7696.967] -- 0:05:31
719000 -- (-7696.242) (-7697.396) (-7686.435) [-7689.230] * (-7695.140) (-7706.550) (-7697.728) [-7694.972] -- 0:05:30
720000 -- (-7705.890) (-7706.609) [-7690.268] (-7692.407) * (-7702.329) [-7699.072] (-7713.535) (-7700.662) -- 0:05:29
Average standard deviation of split frequencies: 0.007356
721000 -- (-7714.425) (-7710.305) (-7699.966) [-7699.770] * [-7689.515] (-7703.293) (-7706.785) (-7696.256) -- 0:05:28
722000 -- [-7699.429] (-7703.665) (-7692.536) (-7690.761) * (-7701.230) (-7696.637) (-7702.948) [-7692.663] -- 0:05:26
723000 -- (-7709.440) (-7695.507) (-7710.137) [-7690.344] * (-7697.325) (-7701.642) [-7684.574] (-7710.630) -- 0:05:25
724000 -- (-7704.967) (-7690.353) [-7683.913] (-7699.170) * (-7707.694) (-7695.371) [-7689.760] (-7698.853) -- 0:05:24
725000 -- (-7693.723) [-7689.438] (-7698.497) (-7706.474) * (-7695.711) [-7683.985] (-7696.094) (-7708.495) -- 0:05:23
Average standard deviation of split frequencies: 0.007500
726000 -- [-7686.680] (-7716.271) (-7697.748) (-7711.840) * (-7696.547) (-7708.014) (-7684.924) [-7693.649] -- 0:05:22
727000 -- (-7717.152) (-7699.109) (-7698.598) [-7689.425] * (-7709.533) [-7679.809] (-7696.841) (-7689.055) -- 0:05:21
728000 -- [-7679.234] (-7691.394) (-7692.088) (-7695.915) * [-7686.438] (-7720.920) (-7689.855) (-7694.734) -- 0:05:19
729000 -- (-7695.501) (-7697.540) (-7701.336) [-7678.222] * (-7697.594) [-7697.427] (-7691.830) (-7701.505) -- 0:05:18
730000 -- (-7707.041) (-7713.631) (-7690.109) [-7689.333] * (-7703.714) (-7704.013) [-7696.539] (-7684.350) -- 0:05:17
Average standard deviation of split frequencies: 0.007281
731000 -- (-7698.237) (-7695.177) (-7671.994) [-7695.049] * (-7692.689) [-7692.680] (-7701.235) (-7696.050) -- 0:05:16
732000 -- (-7697.534) (-7688.354) [-7680.283] (-7701.492) * [-7682.235] (-7693.446) (-7711.763) (-7694.113) -- 0:05:15
733000 -- (-7690.701) (-7697.341) (-7690.001) [-7705.172] * (-7693.966) (-7712.043) [-7685.015] (-7696.412) -- 0:05:13
734000 -- [-7687.615] (-7695.470) (-7705.052) (-7699.642) * (-7695.671) (-7705.107) [-7689.972] (-7687.653) -- 0:05:12
735000 -- [-7694.586] (-7696.700) (-7694.667) (-7702.424) * (-7702.391) (-7702.610) (-7707.343) [-7689.938] -- 0:05:11
Average standard deviation of split frequencies: 0.007307
736000 -- [-7695.875] (-7706.226) (-7693.937) (-7690.185) * (-7704.363) (-7699.808) (-7714.565) [-7695.540] -- 0:05:10
737000 -- (-7705.106) (-7686.740) (-7707.317) [-7696.750] * [-7680.001] (-7700.896) (-7705.147) (-7704.126) -- 0:05:09
738000 -- (-7712.374) (-7688.624) [-7691.704] (-7711.933) * (-7711.410) (-7695.024) [-7682.415] (-7705.701) -- 0:05:08
739000 -- (-7718.879) [-7684.440] (-7691.048) (-7711.315) * [-7692.732] (-7700.516) (-7698.335) (-7691.116) -- 0:05:06
740000 -- (-7693.205) [-7685.686] (-7697.746) (-7694.985) * (-7694.749) (-7702.823) (-7697.747) [-7692.965] -- 0:05:05
Average standard deviation of split frequencies: 0.007456
741000 -- (-7703.778) [-7696.160] (-7700.325) (-7701.367) * (-7715.261) (-7694.489) [-7682.547] (-7686.398) -- 0:05:04
742000 -- (-7694.076) (-7683.688) [-7693.085] (-7697.051) * (-7698.167) (-7700.170) (-7700.042) [-7690.610] -- 0:05:03
743000 -- [-7697.430] (-7690.931) (-7710.210) (-7698.650) * [-7690.113] (-7708.465) (-7692.296) (-7697.502) -- 0:05:02
744000 -- (-7701.480) [-7687.018] (-7708.041) (-7695.664) * (-7686.644) (-7701.550) (-7702.516) [-7676.682] -- 0:05:01
745000 -- (-7702.971) (-7687.091) (-7692.318) [-7690.297] * (-7685.598) (-7712.876) (-7691.423) [-7689.426] -- 0:04:59
Average standard deviation of split frequencies: 0.007312
746000 -- (-7715.496) (-7691.096) (-7694.864) [-7695.086] * (-7688.597) [-7699.617] (-7695.071) (-7694.617) -- 0:04:58
747000 -- (-7696.081) [-7691.375] (-7704.572) (-7688.289) * (-7700.985) (-7698.470) (-7706.427) [-7693.261] -- 0:04:57
748000 -- (-7675.047) (-7706.072) (-7714.101) [-7690.883] * (-7713.747) [-7698.669] (-7698.519) (-7700.757) -- 0:04:56
749000 -- [-7686.849] (-7708.191) (-7699.934) (-7700.221) * (-7695.112) (-7701.750) (-7697.493) [-7689.086] -- 0:04:55
750000 -- (-7691.276) [-7697.384] (-7691.149) (-7703.283) * (-7688.664) (-7702.213) [-7697.903] (-7701.935) -- 0:04:54
Average standard deviation of split frequencies: 0.007356
751000 -- (-7687.688) [-7687.487] (-7698.737) (-7699.987) * (-7696.453) (-7703.774) [-7693.233] (-7703.952) -- 0:04:52
752000 -- (-7682.130) (-7687.741) [-7692.832] (-7703.906) * (-7699.284) [-7709.767] (-7702.979) (-7692.441) -- 0:04:51
753000 -- (-7688.724) [-7679.808] (-7706.462) (-7707.154) * (-7696.494) [-7685.666] (-7691.143) (-7689.448) -- 0:04:50
754000 -- [-7679.570] (-7695.901) (-7700.280) (-7708.456) * (-7700.726) (-7710.863) (-7708.336) [-7683.067] -- 0:04:49
755000 -- [-7690.121] (-7701.675) (-7688.428) (-7697.649) * (-7704.182) [-7695.098] (-7697.663) (-7682.666) -- 0:04:47
Average standard deviation of split frequencies: 0.007597
756000 -- (-7684.402) [-7689.822] (-7694.725) (-7691.323) * [-7693.091] (-7693.622) (-7711.762) (-7695.435) -- 0:04:46
757000 -- (-7687.742) (-7684.829) (-7698.040) [-7684.734] * (-7687.878) (-7712.776) [-7687.655] (-7703.835) -- 0:04:45
758000 -- [-7692.296] (-7714.047) (-7713.004) (-7680.134) * (-7691.872) (-7707.747) [-7686.176] (-7689.037) -- 0:04:44
759000 -- (-7700.759) (-7705.369) (-7703.330) [-7685.692] * (-7693.972) (-7711.556) [-7689.939] (-7692.488) -- 0:04:43
760000 -- (-7702.482) (-7691.379) (-7705.956) [-7684.746] * (-7700.465) (-7705.804) [-7686.031] (-7688.133) -- 0:04:42
Average standard deviation of split frequencies: 0.007753
761000 -- (-7705.360) (-7691.508) (-7691.895) [-7686.670] * (-7689.645) (-7706.213) (-7691.308) [-7690.990] -- 0:04:40
762000 -- (-7716.450) (-7683.268) (-7711.782) [-7707.123] * [-7688.260] (-7700.503) (-7688.628) (-7702.436) -- 0:04:39
763000 -- (-7701.093) [-7690.591] (-7696.645) (-7703.920) * [-7687.125] (-7697.216) (-7693.355) (-7689.907) -- 0:04:38
764000 -- (-7710.636) (-7700.783) (-7683.890) [-7686.147] * (-7717.900) (-7710.094) [-7701.993] (-7692.524) -- 0:04:37
765000 -- (-7695.689) (-7703.215) [-7697.357] (-7698.175) * (-7710.458) (-7708.125) (-7700.058) [-7694.324] -- 0:04:36
Average standard deviation of split frequencies: 0.007812
766000 -- (-7706.538) [-7701.967] (-7691.938) (-7704.265) * (-7702.616) (-7707.000) (-7687.688) [-7695.430] -- 0:04:34
767000 -- (-7693.759) [-7687.688] (-7710.378) (-7694.587) * (-7712.359) (-7702.559) (-7691.671) [-7694.302] -- 0:04:33
768000 -- (-7690.285) (-7702.204) (-7690.828) [-7689.248] * [-7707.375] (-7717.555) (-7687.793) (-7700.225) -- 0:04:32
769000 -- (-7697.557) (-7694.305) [-7694.358] (-7703.713) * (-7705.181) [-7687.999] (-7687.709) (-7688.146) -- 0:04:31
770000 -- (-7685.856) [-7692.409] (-7690.801) (-7702.135) * (-7702.939) (-7705.796) (-7696.166) [-7688.180] -- 0:04:30
Average standard deviation of split frequencies: 0.007752
771000 -- [-7683.339] (-7692.397) (-7692.208) (-7708.281) * (-7690.719) (-7692.806) [-7699.793] (-7685.964) -- 0:04:29
772000 -- [-7681.967] (-7710.092) (-7712.170) (-7691.955) * [-7688.356] (-7711.327) (-7686.865) (-7699.005) -- 0:04:27
773000 -- (-7692.401) (-7699.807) [-7700.171] (-7695.265) * [-7694.808] (-7707.027) (-7690.355) (-7703.809) -- 0:04:26
774000 -- (-7701.911) (-7686.417) [-7695.217] (-7707.177) * (-7686.052) (-7714.852) [-7689.255] (-7694.806) -- 0:04:25
775000 -- (-7708.462) (-7714.488) [-7688.485] (-7699.396) * (-7684.896) [-7689.592] (-7707.329) (-7698.374) -- 0:04:24
Average standard deviation of split frequencies: 0.007733
776000 -- (-7692.998) (-7693.070) (-7689.812) [-7688.081] * (-7697.007) (-7693.019) [-7704.189] (-7703.845) -- 0:04:23
777000 -- (-7693.268) [-7684.040] (-7681.752) (-7691.796) * (-7687.749) (-7696.041) [-7696.042] (-7688.989) -- 0:04:22
778000 -- (-7690.479) (-7699.285) (-7696.667) [-7691.346] * (-7695.229) [-7698.793] (-7696.758) (-7692.887) -- 0:04:20
779000 -- [-7692.085] (-7691.662) (-7697.696) (-7703.113) * (-7708.779) (-7689.666) (-7691.729) [-7686.213] -- 0:04:19
780000 -- (-7696.636) (-7697.409) (-7690.734) [-7685.614] * [-7688.043] (-7695.531) (-7705.174) (-7687.705) -- 0:04:18
Average standard deviation of split frequencies: 0.007863
781000 -- (-7709.602) (-7692.885) (-7698.495) [-7683.909] * [-7678.262] (-7698.577) (-7709.881) (-7693.532) -- 0:04:17
782000 -- [-7691.048] (-7690.996) (-7693.350) (-7710.661) * [-7695.628] (-7707.079) (-7706.985) (-7688.174) -- 0:04:16
783000 -- [-7698.569] (-7692.089) (-7704.619) (-7718.230) * (-7701.362) [-7693.081] (-7691.140) (-7685.354) -- 0:04:14
784000 -- [-7689.762] (-7694.356) (-7703.426) (-7697.889) * (-7707.248) (-7687.540) (-7693.646) [-7689.119] -- 0:04:13
785000 -- [-7692.583] (-7696.928) (-7694.710) (-7686.689) * (-7701.460) (-7693.925) (-7714.626) [-7689.152] -- 0:04:12
Average standard deviation of split frequencies: 0.008005
786000 -- [-7691.999] (-7684.468) (-7690.878) (-7704.882) * (-7698.914) (-7699.403) (-7702.584) [-7686.731] -- 0:04:11
787000 -- (-7695.242) (-7686.078) (-7690.883) [-7707.394] * (-7694.364) [-7691.879] (-7718.965) (-7695.499) -- 0:04:10
788000 -- (-7717.844) [-7694.938] (-7693.962) (-7707.707) * (-7700.060) [-7693.092] (-7696.229) (-7709.876) -- 0:04:09
789000 -- (-7694.802) (-7708.403) (-7691.370) [-7688.477] * (-7698.110) (-7697.732) [-7697.655] (-7700.155) -- 0:04:07
790000 -- [-7703.152] (-7707.987) (-7702.266) (-7692.852) * (-7703.082) (-7703.930) [-7687.255] (-7693.586) -- 0:04:06
Average standard deviation of split frequencies: 0.008074
791000 -- [-7692.322] (-7687.116) (-7712.928) (-7699.685) * (-7685.195) (-7709.330) (-7699.829) [-7688.084] -- 0:04:05
792000 -- (-7702.776) (-7684.166) (-7700.218) [-7685.522] * (-7704.080) (-7691.517) [-7692.936] (-7704.196) -- 0:04:04
793000 -- (-7692.232) (-7703.847) [-7694.495] (-7690.684) * [-7696.908] (-7705.488) (-7704.279) (-7684.292) -- 0:04:03
794000 -- [-7700.347] (-7709.850) (-7707.251) (-7685.839) * [-7690.010] (-7698.547) (-7689.902) (-7689.856) -- 0:04:02
795000 -- [-7691.809] (-7691.325) (-7691.448) (-7706.148) * (-7695.986) (-7717.171) (-7719.816) [-7691.095] -- 0:04:00
Average standard deviation of split frequencies: 0.008118
796000 -- (-7707.793) (-7692.874) (-7700.923) [-7697.479] * (-7709.433) (-7698.786) (-7705.764) [-7686.805] -- 0:03:59
797000 -- (-7704.336) [-7686.352] (-7704.697) (-7703.802) * (-7696.950) (-7696.805) (-7706.232) [-7695.798] -- 0:03:58
798000 -- (-7700.107) (-7682.850) [-7692.754] (-7699.378) * (-7704.310) (-7692.407) (-7707.667) [-7678.162] -- 0:03:57
799000 -- (-7705.191) (-7684.662) (-7703.711) [-7689.698] * (-7692.311) [-7684.300] (-7714.181) (-7690.693) -- 0:03:56
800000 -- (-7709.382) [-7694.613] (-7687.972) (-7701.293) * (-7692.605) [-7702.252] (-7709.126) (-7700.375) -- 0:03:55
Average standard deviation of split frequencies: 0.007605
801000 -- (-7707.685) (-7694.568) [-7678.665] (-7705.344) * [-7684.567] (-7690.783) (-7696.628) (-7675.879) -- 0:03:53
802000 -- (-7695.972) (-7698.852) (-7684.195) [-7692.413] * (-7685.402) (-7724.087) (-7699.511) [-7679.986] -- 0:03:52
803000 -- (-7688.437) (-7700.107) [-7689.793] (-7690.233) * [-7693.572] (-7700.204) (-7701.543) (-7687.089) -- 0:03:51
804000 -- (-7697.408) (-7706.031) [-7688.439] (-7708.568) * (-7703.034) (-7696.607) (-7700.476) [-7693.652] -- 0:03:50
805000 -- [-7690.407] (-7702.367) (-7689.203) (-7696.021) * (-7704.118) (-7692.029) [-7680.974] (-7699.827) -- 0:03:49
Average standard deviation of split frequencies: 0.007664
806000 -- (-7697.627) (-7709.960) [-7695.572] (-7719.871) * [-7694.305] (-7689.360) (-7690.637) (-7702.483) -- 0:03:47
807000 -- (-7699.948) (-7725.856) (-7709.865) [-7688.772] * (-7682.120) [-7691.269] (-7713.301) (-7710.314) -- 0:03:46
808000 -- [-7690.544] (-7693.067) (-7703.679) (-7702.631) * (-7695.494) (-7689.764) [-7691.567] (-7691.015) -- 0:03:45
809000 -- [-7690.532] (-7714.871) (-7706.954) (-7695.631) * (-7694.408) (-7705.748) [-7682.310] (-7691.370) -- 0:03:44
810000 -- [-7687.440] (-7698.897) (-7706.203) (-7697.483) * (-7694.959) (-7702.600) (-7681.415) [-7694.473] -- 0:03:43
Average standard deviation of split frequencies: 0.007814
811000 -- (-7689.280) (-7713.560) [-7702.997] (-7705.932) * (-7699.453) (-7693.807) [-7686.138] (-7701.052) -- 0:03:42
812000 -- [-7689.082] (-7683.910) (-7697.340) (-7683.876) * (-7694.666) [-7705.455] (-7706.570) (-7707.006) -- 0:03:40
813000 -- [-7693.117] (-7698.997) (-7709.948) (-7711.601) * (-7697.910) (-7700.005) [-7692.110] (-7700.332) -- 0:03:39
814000 -- [-7690.707] (-7703.510) (-7708.350) (-7693.733) * [-7689.586] (-7698.355) (-7694.214) (-7681.695) -- 0:03:38
815000 -- (-7689.743) [-7690.781] (-7714.924) (-7707.239) * [-7695.853] (-7698.260) (-7708.304) (-7706.642) -- 0:03:37
Average standard deviation of split frequencies: 0.007643
816000 -- (-7698.217) (-7696.598) (-7693.749) [-7679.275] * [-7689.722] (-7708.311) (-7695.802) (-7709.995) -- 0:03:36
817000 -- (-7690.300) (-7693.544) (-7705.192) [-7681.782] * (-7696.061) (-7694.978) (-7682.014) [-7689.887] -- 0:03:35
818000 -- (-7700.587) (-7713.792) (-7707.906) [-7695.943] * (-7690.609) [-7692.763] (-7700.048) (-7698.400) -- 0:03:33
819000 -- [-7694.865] (-7692.359) (-7714.215) (-7708.892) * (-7706.666) (-7706.395) [-7689.293] (-7703.416) -- 0:03:32
820000 -- (-7703.536) [-7711.404] (-7694.969) (-7716.897) * (-7709.801) (-7708.900) (-7685.746) [-7694.061] -- 0:03:31
Average standard deviation of split frequencies: 0.007599
821000 -- (-7697.118) (-7704.316) (-7704.328) [-7703.163] * (-7704.164) [-7690.144] (-7697.573) (-7713.906) -- 0:03:30
822000 -- [-7689.894] (-7705.579) (-7694.441) (-7698.210) * (-7704.510) (-7690.571) [-7691.690] (-7714.826) -- 0:03:28
823000 -- (-7711.556) [-7695.387] (-7700.078) (-7696.092) * (-7704.956) (-7697.691) [-7690.183] (-7682.401) -- 0:03:27
824000 -- (-7710.114) (-7692.796) [-7690.144] (-7695.700) * [-7692.729] (-7687.902) (-7690.465) (-7694.606) -- 0:03:26
825000 -- (-7701.124) (-7695.086) (-7704.359) [-7683.949] * (-7687.889) [-7697.011] (-7701.552) (-7714.133) -- 0:03:25
Average standard deviation of split frequencies: 0.007562
826000 -- (-7699.259) (-7692.359) (-7705.732) [-7687.821] * [-7688.501] (-7693.770) (-7693.426) (-7702.473) -- 0:03:24
827000 -- [-7696.473] (-7689.566) (-7698.941) (-7697.224) * (-7698.269) (-7704.880) [-7685.575] (-7709.248) -- 0:03:23
828000 -- (-7689.795) (-7689.527) (-7703.607) [-7684.444] * (-7698.255) (-7691.156) [-7693.851] (-7697.930) -- 0:03:21
829000 -- (-7706.285) (-7685.809) (-7703.482) [-7695.449] * [-7686.603] (-7697.295) (-7698.433) (-7702.995) -- 0:03:20
830000 -- (-7697.170) [-7699.113] (-7696.465) (-7690.606) * [-7689.840] (-7704.989) (-7704.982) (-7709.705) -- 0:03:19
Average standard deviation of split frequencies: 0.007448
831000 -- (-7697.229) (-7688.653) (-7695.180) [-7679.205] * (-7689.000) [-7691.584] (-7719.167) (-7686.606) -- 0:03:18
832000 -- (-7697.222) (-7701.460) (-7694.069) [-7691.691] * (-7706.279) (-7689.565) (-7706.154) [-7692.429] -- 0:03:17
833000 -- (-7689.477) (-7699.174) [-7692.472] (-7694.963) * [-7695.119] (-7700.575) (-7690.432) (-7694.668) -- 0:03:16
834000 -- [-7686.391] (-7686.952) (-7700.381) (-7701.486) * (-7685.856) (-7680.898) (-7693.872) [-7683.751] -- 0:03:15
835000 -- (-7686.302) [-7696.997] (-7692.756) (-7701.767) * [-7694.309] (-7699.280) (-7695.582) (-7691.155) -- 0:03:13
Average standard deviation of split frequencies: 0.007272
836000 -- (-7688.232) (-7681.837) [-7692.858] (-7705.690) * (-7694.536) (-7696.394) [-7684.619] (-7689.617) -- 0:03:12
837000 -- [-7692.614] (-7697.746) (-7693.968) (-7716.498) * (-7707.963) [-7689.101] (-7697.291) (-7680.804) -- 0:03:11
838000 -- (-7697.219) [-7685.603] (-7698.522) (-7707.074) * (-7702.241) [-7694.116] (-7702.429) (-7693.147) -- 0:03:10
839000 -- (-7706.470) (-7686.554) [-7690.620] (-7688.519) * (-7699.629) (-7697.591) [-7683.702] (-7698.704) -- 0:03:09
840000 -- [-7697.108] (-7694.870) (-7700.072) (-7704.497) * [-7700.691] (-7692.652) (-7682.541) (-7711.055) -- 0:03:08
Average standard deviation of split frequencies: 0.006986
841000 -- (-7714.851) (-7691.030) [-7687.661] (-7701.252) * [-7682.030] (-7686.682) (-7706.212) (-7698.059) -- 0:03:06
842000 -- [-7693.490] (-7709.698) (-7699.122) (-7692.020) * (-7703.666) (-7689.582) (-7692.403) [-7691.408] -- 0:03:05
843000 -- [-7687.135] (-7687.995) (-7685.881) (-7705.005) * (-7686.693) (-7712.269) (-7717.758) [-7689.730] -- 0:03:04
844000 -- (-7692.607) (-7705.887) [-7696.532] (-7690.485) * [-7690.040] (-7702.697) (-7714.674) (-7693.150) -- 0:03:03
845000 -- (-7699.963) (-7705.069) [-7692.074] (-7687.408) * (-7692.963) (-7698.948) (-7680.151) [-7689.882] -- 0:03:01
Average standard deviation of split frequencies: 0.006907
846000 -- (-7699.229) (-7695.996) [-7690.721] (-7697.599) * (-7694.956) [-7686.558] (-7702.078) (-7681.732) -- 0:03:00
847000 -- (-7712.143) (-7684.929) [-7680.468] (-7691.072) * [-7687.637] (-7689.549) (-7708.124) (-7711.249) -- 0:02:59
848000 -- (-7693.084) [-7692.618] (-7680.379) (-7696.266) * (-7698.326) [-7695.751] (-7690.565) (-7700.748) -- 0:02:58
849000 -- (-7695.703) [-7684.981] (-7690.908) (-7704.001) * (-7699.590) [-7699.691] (-7689.359) (-7701.444) -- 0:02:57
850000 -- (-7697.668) [-7705.600] (-7687.074) (-7700.122) * [-7681.465] (-7704.915) (-7699.085) (-7693.616) -- 0:02:56
Average standard deviation of split frequencies: 0.006616
851000 -- (-7695.712) (-7703.752) [-7693.350] (-7696.181) * (-7697.670) (-7695.558) [-7694.803] (-7688.801) -- 0:02:55
852000 -- [-7704.893] (-7711.624) (-7712.826) (-7697.351) * (-7702.288) (-7700.449) (-7694.211) [-7684.117] -- 0:02:53
853000 -- (-7699.290) (-7701.832) [-7689.758] (-7698.430) * (-7688.248) (-7696.887) (-7694.755) [-7685.350] -- 0:02:52
854000 -- (-7694.473) (-7699.898) (-7709.313) [-7702.123] * [-7690.073] (-7714.389) (-7705.785) (-7691.780) -- 0:02:51
855000 -- (-7685.753) (-7701.178) [-7691.439] (-7709.270) * [-7694.989] (-7698.915) (-7699.142) (-7690.379) -- 0:02:50
Average standard deviation of split frequencies: 0.006653
856000 -- (-7696.138) (-7704.567) (-7698.153) [-7685.450] * (-7716.096) (-7704.739) [-7692.840] (-7694.962) -- 0:02:49
857000 -- (-7689.259) (-7713.487) [-7691.877] (-7687.081) * (-7709.007) (-7702.907) [-7686.555] (-7705.978) -- 0:02:48
858000 -- (-7701.386) (-7700.335) [-7696.888] (-7697.213) * (-7695.011) (-7699.037) [-7691.854] (-7698.056) -- 0:02:46
859000 -- (-7698.140) [-7695.999] (-7698.426) (-7705.420) * (-7695.493) (-7687.555) [-7688.479] (-7680.262) -- 0:02:45
860000 -- [-7699.992] (-7695.479) (-7689.731) (-7695.370) * (-7689.946) [-7683.445] (-7713.302) (-7706.969) -- 0:02:44
Average standard deviation of split frequencies: 0.006617
861000 -- (-7701.613) (-7691.379) [-7686.345] (-7709.533) * (-7682.266) [-7690.153] (-7713.898) (-7683.666) -- 0:02:43
862000 -- (-7707.472) (-7710.333) [-7691.700] (-7698.078) * (-7688.801) (-7697.275) [-7689.259] (-7692.212) -- 0:02:42
863000 -- (-7703.948) [-7691.221] (-7689.589) (-7714.564) * (-7696.274) [-7690.474] (-7708.936) (-7693.839) -- 0:02:40
864000 -- (-7698.616) [-7687.438] (-7699.086) (-7706.224) * [-7699.743] (-7698.088) (-7700.550) (-7691.895) -- 0:02:39
865000 -- (-7710.725) [-7681.258] (-7685.958) (-7690.409) * (-7697.985) (-7683.386) (-7692.013) [-7682.899] -- 0:02:38
Average standard deviation of split frequencies: 0.006632
866000 -- [-7685.388] (-7701.288) (-7691.393) (-7692.070) * (-7702.052) (-7704.027) (-7697.482) [-7681.088] -- 0:02:37
867000 -- (-7691.520) [-7698.358] (-7705.247) (-7693.031) * (-7705.637) (-7683.541) (-7707.653) [-7695.643] -- 0:02:36
868000 -- (-7699.450) (-7682.932) [-7689.569] (-7696.292) * [-7690.553] (-7699.712) (-7692.685) (-7698.667) -- 0:02:34
869000 -- [-7687.094] (-7711.923) (-7687.645) (-7701.627) * (-7709.138) (-7695.498) [-7695.555] (-7697.439) -- 0:02:33
870000 -- (-7694.964) (-7713.185) [-7702.132] (-7699.469) * (-7694.478) (-7703.231) (-7705.305) [-7703.149] -- 0:02:32
Average standard deviation of split frequencies: 0.006641
871000 -- (-7700.888) [-7693.974] (-7692.971) (-7696.081) * [-7693.057] (-7686.282) (-7694.932) (-7704.542) -- 0:02:31
872000 -- (-7691.041) (-7700.274) (-7692.917) [-7690.057] * (-7696.947) (-7696.914) [-7694.572] (-7709.087) -- 0:02:30
873000 -- (-7709.278) (-7702.810) [-7695.442] (-7692.825) * (-7698.610) (-7707.918) [-7679.399] (-7698.143) -- 0:02:29
874000 -- (-7692.490) (-7719.471) (-7694.687) [-7690.089] * (-7691.287) [-7700.182] (-7685.864) (-7688.102) -- 0:02:27
875000 -- (-7691.272) (-7708.486) [-7701.121] (-7686.767) * (-7702.223) [-7692.702] (-7687.715) (-7693.667) -- 0:02:26
Average standard deviation of split frequencies: 0.006578
876000 -- (-7693.199) (-7720.820) (-7694.829) [-7694.082] * [-7681.588] (-7709.786) (-7700.015) (-7696.253) -- 0:02:25
877000 -- (-7704.118) (-7700.098) [-7696.586] (-7684.690) * (-7684.277) (-7694.348) [-7694.987] (-7689.912) -- 0:02:24
878000 -- (-7693.308) (-7700.864) (-7691.105) [-7695.659] * [-7695.152] (-7694.707) (-7708.022) (-7704.773) -- 0:02:23
879000 -- (-7699.385) [-7674.327] (-7698.434) (-7697.264) * [-7689.120] (-7685.775) (-7698.691) (-7699.639) -- 0:02:22
880000 -- [-7701.879] (-7705.989) (-7701.253) (-7700.259) * (-7694.514) (-7683.982) (-7700.042) [-7680.328] -- 0:02:20
Average standard deviation of split frequencies: 0.006535
881000 -- (-7698.208) (-7680.031) (-7707.127) [-7693.620] * (-7706.526) (-7690.804) (-7702.933) [-7679.761] -- 0:02:19
882000 -- (-7694.061) (-7692.404) (-7714.122) [-7683.124] * (-7689.961) (-7697.117) [-7683.344] (-7692.082) -- 0:02:18
883000 -- (-7690.058) (-7687.966) (-7691.055) [-7696.844] * (-7690.540) [-7692.469] (-7695.943) (-7695.688) -- 0:02:17
884000 -- (-7683.401) (-7699.524) (-7700.730) [-7701.119] * [-7694.199] (-7686.448) (-7708.229) (-7692.012) -- 0:02:16
885000 -- [-7693.087] (-7694.079) (-7704.678) (-7701.512) * (-7695.873) [-7688.278] (-7702.398) (-7710.342) -- 0:02:15
Average standard deviation of split frequencies: 0.006580
886000 -- [-7682.760] (-7686.584) (-7698.825) (-7706.928) * (-7696.010) [-7678.114] (-7692.863) (-7705.210) -- 0:02:13
887000 -- [-7691.197] (-7697.139) (-7701.873) (-7700.808) * (-7710.948) [-7683.623] (-7685.572) (-7689.719) -- 0:02:12
888000 -- [-7690.843] (-7688.287) (-7700.053) (-7698.922) * (-7697.154) (-7693.474) [-7681.350] (-7704.834) -- 0:02:11
889000 -- [-7685.260] (-7714.290) (-7692.868) (-7682.984) * (-7690.021) (-7698.370) [-7687.516] (-7714.499) -- 0:02:10
890000 -- (-7695.235) (-7694.428) [-7697.546] (-7697.939) * [-7691.071] (-7706.454) (-7709.877) (-7711.473) -- 0:02:09
Average standard deviation of split frequencies: 0.006671
891000 -- (-7695.663) (-7689.039) [-7692.106] (-7692.971) * (-7701.704) (-7706.986) (-7702.123) [-7695.091] -- 0:02:07
892000 -- (-7699.865) (-7695.501) [-7685.899] (-7717.276) * (-7689.300) (-7703.363) (-7696.633) [-7690.225] -- 0:02:06
893000 -- (-7696.734) [-7689.718] (-7699.553) (-7686.951) * (-7714.237) (-7692.232) (-7705.098) [-7687.746] -- 0:02:05
894000 -- (-7694.879) [-7689.177] (-7693.176) (-7700.188) * (-7690.368) [-7681.561] (-7707.520) (-7704.784) -- 0:02:04
895000 -- (-7688.182) [-7690.869] (-7698.157) (-7686.091) * (-7685.366) [-7683.589] (-7687.906) (-7702.638) -- 0:02:03
Average standard deviation of split frequencies: 0.006587
896000 -- [-7687.262] (-7683.000) (-7708.306) (-7698.347) * [-7682.565] (-7696.045) (-7694.948) (-7700.700) -- 0:02:02
897000 -- [-7696.490] (-7690.162) (-7704.825) (-7709.915) * [-7679.828] (-7717.775) (-7692.570) (-7686.953) -- 0:02:00
898000 -- (-7716.034) [-7695.113] (-7700.891) (-7698.760) * (-7694.500) [-7679.485] (-7707.088) (-7702.962) -- 0:01:59
899000 -- (-7694.409) [-7690.710] (-7711.089) (-7707.481) * (-7698.481) (-7686.895) (-7696.089) [-7686.560] -- 0:01:58
900000 -- (-7689.495) (-7705.698) [-7698.924] (-7697.126) * (-7703.782) (-7700.778) (-7691.511) [-7679.418] -- 0:01:57
Average standard deviation of split frequencies: 0.006422
901000 -- [-7704.182] (-7683.988) (-7698.642) (-7709.824) * (-7690.671) (-7694.825) [-7680.880] (-7701.370) -- 0:01:56
902000 -- (-7693.997) [-7676.251] (-7704.457) (-7686.889) * (-7699.681) [-7700.944] (-7695.182) (-7693.300) -- 0:01:55
903000 -- [-7686.077] (-7699.999) (-7694.578) (-7705.039) * (-7714.688) (-7704.014) [-7681.959] (-7715.980) -- 0:01:53
904000 -- [-7693.178] (-7691.922) (-7694.360) (-7694.734) * (-7730.232) [-7690.650] (-7679.363) (-7709.200) -- 0:01:52
905000 -- (-7688.739) [-7688.107] (-7698.936) (-7690.937) * [-7685.724] (-7693.111) (-7691.088) (-7712.695) -- 0:01:51
Average standard deviation of split frequencies: 0.006558
906000 -- (-7696.373) [-7689.179] (-7700.262) (-7692.697) * (-7695.866) (-7692.864) (-7692.591) [-7687.895] -- 0:01:50
907000 -- (-7695.869) (-7690.126) [-7688.309] (-7693.621) * (-7713.557) [-7692.949] (-7679.990) (-7708.656) -- 0:01:49
908000 -- (-7694.812) (-7691.770) [-7702.849] (-7692.794) * (-7707.746) (-7691.531) [-7687.922] (-7693.403) -- 0:01:48
909000 -- (-7702.925) (-7692.155) (-7688.718) [-7694.466] * (-7702.682) (-7693.801) [-7685.775] (-7705.398) -- 0:01:46
910000 -- (-7704.279) [-7694.142] (-7697.635) (-7691.080) * (-7705.744) (-7693.730) (-7705.027) [-7688.914] -- 0:01:45
Average standard deviation of split frequencies: 0.006719
911000 -- [-7697.678] (-7699.066) (-7701.989) (-7686.485) * (-7693.751) (-7698.084) (-7710.949) [-7679.357] -- 0:01:44
912000 -- [-7682.453] (-7706.750) (-7688.448) (-7689.900) * (-7702.842) (-7695.745) [-7685.638] (-7688.438) -- 0:01:43
913000 -- (-7702.632) (-7688.725) (-7693.729) [-7697.460] * (-7703.960) (-7696.437) (-7706.429) [-7687.474] -- 0:01:42
914000 -- [-7679.952] (-7699.164) (-7688.167) (-7698.966) * (-7693.635) [-7690.574] (-7702.443) (-7690.821) -- 0:01:40
915000 -- (-7701.496) (-7683.005) [-7690.099] (-7695.224) * (-7686.844) (-7700.162) [-7693.990] (-7692.115) -- 0:01:39
Average standard deviation of split frequencies: 0.006519
916000 -- (-7706.193) (-7687.700) [-7704.358] (-7691.991) * (-7696.892) (-7698.480) (-7700.588) [-7690.173] -- 0:01:38
917000 -- (-7678.985) [-7685.404] (-7692.778) (-7699.563) * (-7702.002) (-7702.122) [-7701.426] (-7699.860) -- 0:01:37
918000 -- (-7685.966) (-7697.941) [-7675.369] (-7706.212) * (-7695.311) (-7692.674) (-7700.709) [-7690.617] -- 0:01:36
919000 -- [-7686.150] (-7697.275) (-7683.637) (-7693.694) * (-7693.003) (-7705.685) (-7703.601) [-7682.171] -- 0:01:35
920000 -- (-7693.450) (-7704.926) [-7682.915] (-7710.100) * (-7701.437) (-7691.817) [-7692.158] (-7685.973) -- 0:01:33
Average standard deviation of split frequencies: 0.006336
921000 -- (-7684.547) (-7691.817) [-7695.246] (-7698.486) * (-7689.555) (-7701.054) [-7683.506] (-7696.261) -- 0:01:32
922000 -- [-7680.835] (-7702.636) (-7695.575) (-7690.364) * (-7702.416) [-7690.162] (-7697.709) (-7708.312) -- 0:01:31
923000 -- [-7688.999] (-7699.940) (-7687.829) (-7706.332) * (-7700.773) (-7705.618) [-7675.005] (-7699.286) -- 0:01:30
924000 -- (-7701.913) (-7699.414) [-7688.387] (-7718.007) * [-7696.319] (-7700.803) (-7687.378) (-7680.503) -- 0:01:29
925000 -- (-7694.141) (-7701.279) (-7678.529) [-7709.651] * [-7694.048] (-7693.462) (-7695.358) (-7697.530) -- 0:01:28
Average standard deviation of split frequencies: 0.006427
926000 -- (-7707.390) (-7697.122) (-7687.043) [-7687.027] * (-7698.936) (-7710.422) [-7688.202] (-7694.507) -- 0:01:26
927000 -- [-7689.011] (-7701.593) (-7708.524) (-7710.801) * [-7692.607] (-7699.592) (-7682.392) (-7717.479) -- 0:01:25
928000 -- [-7690.196] (-7699.572) (-7692.542) (-7698.522) * (-7704.335) (-7699.630) (-7694.777) [-7696.997] -- 0:01:24
929000 -- (-7688.493) (-7696.302) (-7698.385) [-7686.470] * (-7689.171) (-7707.780) [-7688.428] (-7694.705) -- 0:01:23
930000 -- (-7694.677) (-7690.947) [-7687.493] (-7703.182) * [-7697.875] (-7696.133) (-7699.648) (-7704.540) -- 0:01:22
Average standard deviation of split frequencies: 0.006405
931000 -- (-7688.210) (-7710.548) (-7681.494) [-7695.876] * [-7701.115] (-7685.883) (-7701.069) (-7704.686) -- 0:01:21
932000 -- [-7677.613] (-7705.083) (-7700.284) (-7706.229) * (-7700.688) [-7682.469] (-7715.729) (-7701.027) -- 0:01:19
933000 -- [-7690.920] (-7692.237) (-7690.917) (-7711.458) * (-7694.786) (-7690.285) (-7696.564) [-7681.624] -- 0:01:18
934000 -- [-7692.472] (-7689.222) (-7698.862) (-7708.705) * (-7698.809) (-7688.084) (-7709.358) [-7693.215] -- 0:01:17
935000 -- [-7688.009] (-7705.324) (-7689.827) (-7714.897) * (-7712.766) (-7688.556) (-7700.410) [-7692.532] -- 0:01:16
Average standard deviation of split frequencies: 0.006495
936000 -- [-7690.281] (-7704.737) (-7689.198) (-7690.082) * (-7696.954) (-7697.836) (-7696.046) [-7683.814] -- 0:01:15
937000 -- [-7693.840] (-7698.988) (-7691.154) (-7687.585) * (-7696.739) (-7691.218) [-7691.633] (-7688.093) -- 0:01:13
938000 -- (-7694.626) (-7696.258) (-7701.045) [-7681.753] * (-7686.468) (-7711.850) (-7710.250) [-7685.503] -- 0:01:12
939000 -- (-7703.015) (-7685.813) (-7711.079) [-7683.802] * [-7678.008] (-7698.914) (-7711.334) (-7698.607) -- 0:01:11
940000 -- (-7683.759) [-7687.648] (-7700.496) (-7696.489) * [-7680.563] (-7690.160) (-7689.692) (-7699.027) -- 0:01:10
Average standard deviation of split frequencies: 0.006431
941000 -- (-7711.039) (-7695.097) (-7683.877) [-7694.340] * [-7689.573] (-7696.102) (-7693.911) (-7691.625) -- 0:01:09
942000 -- (-7692.316) (-7691.089) [-7687.036] (-7698.346) * [-7692.592] (-7687.656) (-7697.648) (-7688.476) -- 0:01:08
943000 -- (-7696.723) [-7693.039] (-7683.356) (-7693.880) * [-7683.475] (-7686.602) (-7701.754) (-7706.230) -- 0:01:06
944000 -- (-7693.132) [-7696.090] (-7703.074) (-7695.553) * (-7683.484) (-7711.952) [-7691.068] (-7699.385) -- 0:01:05
945000 -- (-7693.653) (-7705.807) (-7693.831) [-7685.035] * (-7707.653) [-7695.003] (-7694.294) (-7703.850) -- 0:01:04
Average standard deviation of split frequencies: 0.006395
946000 -- (-7691.159) (-7705.526) [-7694.353] (-7688.569) * (-7691.205) (-7702.958) [-7701.646] (-7699.755) -- 0:01:03
947000 -- [-7693.771] (-7702.530) (-7709.189) (-7692.747) * (-7691.929) [-7681.019] (-7695.018) (-7703.887) -- 0:01:02
948000 -- (-7679.566) (-7704.625) (-7706.398) [-7673.672] * (-7704.484) (-7698.324) [-7691.428] (-7694.143) -- 0:01:00
949000 -- [-7684.845] (-7712.494) (-7701.349) (-7714.819) * (-7704.406) (-7691.975) (-7687.654) [-7688.710] -- 0:00:59
950000 -- [-7688.104] (-7697.495) (-7699.730) (-7709.171) * (-7696.523) (-7696.493) [-7688.229] (-7688.472) -- 0:00:58
Average standard deviation of split frequencies: 0.005981
951000 -- (-7699.726) (-7706.845) (-7727.677) [-7694.823] * (-7692.326) (-7695.330) (-7695.342) [-7686.477] -- 0:00:57
952000 -- (-7689.431) [-7688.112] (-7707.082) (-7696.771) * [-7690.361] (-7701.691) (-7687.640) (-7700.767) -- 0:00:56
953000 -- (-7696.732) (-7695.297) (-7703.343) [-7682.708] * (-7687.378) [-7684.361] (-7681.714) (-7714.638) -- 0:00:55
954000 -- [-7709.167] (-7694.687) (-7703.658) (-7702.658) * [-7687.625] (-7682.889) (-7698.864) (-7706.296) -- 0:00:53
955000 -- (-7700.589) [-7683.451] (-7705.125) (-7679.658) * [-7699.139] (-7698.188) (-7702.331) (-7688.545) -- 0:00:52
Average standard deviation of split frequencies: 0.005969
956000 -- [-7704.703] (-7691.895) (-7698.098) (-7686.195) * (-7684.401) (-7695.429) (-7700.368) [-7693.004] -- 0:00:51
957000 -- (-7698.231) (-7698.802) [-7686.748] (-7693.990) * (-7692.262) [-7687.503] (-7692.418) (-7698.581) -- 0:00:50
958000 -- [-7689.204] (-7704.971) (-7694.153) (-7691.308) * (-7705.600) [-7699.626] (-7702.795) (-7687.239) -- 0:00:49
959000 -- (-7708.184) (-7698.747) (-7699.508) [-7689.181] * (-7689.651) (-7691.667) (-7685.692) [-7687.823] -- 0:00:48
960000 -- (-7711.646) (-7708.951) (-7714.927) [-7692.068] * (-7698.173) (-7690.903) [-7689.607] (-7686.660) -- 0:00:46
Average standard deviation of split frequencies: 0.006154
961000 -- (-7705.706) (-7737.466) (-7697.598) [-7692.729] * [-7683.967] (-7699.448) (-7707.965) (-7684.487) -- 0:00:45
962000 -- [-7703.999] (-7712.569) (-7711.093) (-7700.146) * (-7694.151) (-7712.722) (-7694.607) [-7679.699] -- 0:00:44
963000 -- [-7691.694] (-7693.096) (-7720.475) (-7706.344) * (-7697.658) [-7691.993] (-7698.014) (-7688.185) -- 0:00:43
964000 -- (-7694.820) (-7706.665) [-7695.579] (-7701.154) * (-7707.426) [-7691.149] (-7697.353) (-7708.495) -- 0:00:42
965000 -- (-7694.284) (-7717.348) [-7688.180] (-7707.902) * (-7704.335) (-7702.636) (-7693.008) [-7688.663] -- 0:00:41
Average standard deviation of split frequencies: 0.006263
966000 -- (-7694.630) [-7692.175] (-7699.438) (-7691.952) * [-7692.533] (-7707.830) (-7700.463) (-7689.673) -- 0:00:39
967000 -- (-7697.448) (-7709.498) (-7681.121) [-7693.865] * (-7715.714) (-7695.545) [-7686.700] (-7688.635) -- 0:00:38
968000 -- (-7699.361) (-7688.128) [-7701.634] (-7690.652) * (-7707.435) (-7696.173) (-7687.046) [-7687.975] -- 0:00:37
969000 -- [-7688.484] (-7719.010) (-7691.569) (-7707.008) * (-7697.570) (-7696.187) (-7711.616) [-7693.584] -- 0:00:36
970000 -- [-7685.405] (-7714.703) (-7690.994) (-7700.287) * (-7702.911) [-7697.557] (-7698.007) (-7700.793) -- 0:00:35
Average standard deviation of split frequencies: 0.005899
971000 -- (-7701.675) [-7689.491] (-7712.387) (-7699.515) * (-7714.697) [-7680.615] (-7696.182) (-7719.607) -- 0:00:34
972000 -- [-7696.913] (-7692.028) (-7702.065) (-7729.948) * (-7692.523) (-7691.653) (-7702.784) [-7677.587] -- 0:00:32
973000 -- (-7696.545) (-7686.366) (-7706.460) [-7693.055] * (-7698.843) (-7691.561) (-7695.258) [-7675.657] -- 0:00:31
974000 -- [-7691.606] (-7690.774) (-7695.961) (-7720.460) * (-7695.628) [-7691.952] (-7693.288) (-7682.466) -- 0:00:30
975000 -- (-7700.654) (-7694.657) [-7695.357] (-7707.215) * [-7700.097] (-7698.682) (-7685.320) (-7715.853) -- 0:00:29
Average standard deviation of split frequencies: 0.005585
976000 -- (-7697.703) [-7691.590] (-7710.369) (-7703.335) * (-7690.840) (-7705.038) [-7692.512] (-7709.024) -- 0:00:28
977000 -- (-7696.323) (-7703.115) (-7710.993) [-7684.789] * (-7707.466) (-7695.701) (-7698.162) [-7692.562] -- 0:00:26
978000 -- [-7690.115] (-7690.666) (-7701.005) (-7696.401) * (-7710.654) (-7695.532) [-7694.885] (-7692.695) -- 0:00:25
979000 -- [-7688.414] (-7706.021) (-7705.929) (-7694.125) * [-7692.809] (-7705.521) (-7707.265) (-7712.289) -- 0:00:24
980000 -- [-7685.050] (-7687.936) (-7693.851) (-7689.747) * [-7676.071] (-7698.951) (-7710.206) (-7693.344) -- 0:00:23
Average standard deviation of split frequencies: 0.005678
981000 -- (-7683.154) (-7701.759) [-7694.493] (-7693.969) * (-7693.415) (-7702.005) [-7691.289] (-7692.633) -- 0:00:22
982000 -- [-7690.030] (-7700.316) (-7688.062) (-7680.300) * [-7694.470] (-7694.419) (-7693.531) (-7702.865) -- 0:00:21
983000 -- [-7686.399] (-7694.001) (-7699.196) (-7694.585) * [-7696.946] (-7693.961) (-7714.759) (-7696.885) -- 0:00:19
984000 -- (-7690.268) (-7698.144) [-7691.936] (-7687.451) * (-7705.270) (-7697.751) [-7692.961] (-7699.197) -- 0:00:18
985000 -- [-7694.037] (-7697.156) (-7703.722) (-7690.479) * (-7693.272) [-7691.178] (-7698.794) (-7694.450) -- 0:00:17
Average standard deviation of split frequencies: 0.005787
986000 -- (-7703.366) (-7696.404) [-7697.210] (-7714.240) * [-7691.942] (-7698.937) (-7712.161) (-7696.429) -- 0:00:16
987000 -- [-7688.547] (-7708.108) (-7690.948) (-7691.855) * [-7695.227] (-7696.937) (-7698.542) (-7698.537) -- 0:00:15
988000 -- (-7695.249) (-7691.660) [-7681.750] (-7691.865) * (-7696.073) (-7697.595) (-7686.359) [-7691.639] -- 0:00:14
989000 -- (-7679.566) (-7695.175) [-7707.502] (-7692.381) * (-7697.180) [-7690.091] (-7710.489) (-7698.545) -- 0:00:12
990000 -- [-7688.962] (-7690.489) (-7699.712) (-7709.581) * (-7693.397) (-7696.298) [-7681.929] (-7696.747) -- 0:00:11
Average standard deviation of split frequencies: 0.005809
991000 -- (-7687.079) (-7693.798) (-7699.770) [-7694.577] * (-7717.315) (-7698.661) (-7690.931) [-7686.267] -- 0:00:10
992000 -- (-7695.338) (-7698.616) (-7699.165) [-7685.546] * (-7701.725) (-7704.349) (-7695.219) [-7689.118] -- 0:00:09
993000 -- (-7692.606) (-7686.550) (-7703.142) [-7689.313] * (-7691.073) (-7697.161) [-7682.279] (-7689.291) -- 0:00:08
994000 -- (-7695.111) (-7692.202) (-7691.071) [-7697.449] * (-7710.263) (-7696.478) (-7685.673) [-7699.865] -- 0:00:07
995000 -- (-7684.583) (-7698.286) (-7713.432) [-7683.040] * [-7687.895] (-7695.984) (-7704.564) (-7693.150) -- 0:00:05
Average standard deviation of split frequencies: 0.005729
996000 -- (-7689.722) (-7693.919) (-7694.141) [-7681.326] * (-7709.034) (-7703.937) [-7697.784] (-7696.275) -- 0:00:04
997000 -- (-7692.527) (-7697.626) (-7695.984) [-7696.365] * (-7725.694) (-7693.879) [-7696.641] (-7681.920) -- 0:00:03
998000 -- (-7695.273) [-7692.692] (-7698.251) (-7692.847) * (-7695.844) [-7684.785] (-7708.835) (-7687.200) -- 0:00:02
999000 -- (-7701.048) (-7701.314) (-7705.723) [-7688.514] * (-7696.287) [-7684.392] (-7697.176) (-7699.723) -- 0:00:01
1000000 -- (-7690.964) [-7692.541] (-7695.553) (-7700.433) * [-7697.879] (-7703.872) (-7690.084) (-7691.448) -- 0:00:00
Average standard deviation of split frequencies: 0.005722
Analysis completed in 19 mins 33 seconds
Analysis used 1171.49 seconds of CPU time
Likelihood of best state for "cold" chain of run 1 was -7670.33
Likelihood of best state for "cold" chain of run 2 was -7670.24
Acceptance rates for the moves in the "cold" chain of run 1:
With prob. (last 100) chain accepted proposals by move
34.9 % ( 23 %) Dirichlet(Revmat{all})
56.6 % ( 40 %) Slider(Revmat{all})
10.7 % ( 23 %) Dirichlet(Pi{all})
22.6 % ( 38 %) Slider(Pi{all})
37.2 % ( 25 %) Multiplier(Alpha{1,2})
50.0 % ( 19 %) Multiplier(Alpha{3})
32.7 % ( 28 %) Slider(Pinvar{all})
29.8 % ( 38 %) ExtSPR(Tau{all},V{all})
12.9 % ( 7 %) ExtTBR(Tau{all},V{all})
27.1 % ( 28 %) NNI(Tau{all},V{all})
31.0 % ( 28 %) ParsSPR(Tau{all},V{all})
26.9 % ( 27 %) Multiplier(V{all})
45.9 % ( 52 %) Nodeslider(V{all})
25.0 % ( 27 %) TLMultiplier(V{all})
Acceptance rates for the moves in the "cold" chain of run 2:
With prob. (last 100) chain accepted proposals by move
36.1 % ( 25 %) Dirichlet(Revmat{all})
56.1 % ( 48 %) Slider(Revmat{all})
11.1 % ( 16 %) Dirichlet(Pi{all})
21.8 % ( 20 %) Slider(Pi{all})
37.4 % ( 20 %) Multiplier(Alpha{1,2})
50.4 % ( 22 %) Multiplier(Alpha{3})
33.2 % ( 30 %) Slider(Pinvar{all})
29.6 % ( 32 %) ExtSPR(Tau{all},V{all})
13.0 % ( 20 %) ExtTBR(Tau{all},V{all})
27.3 % ( 24 %) NNI(Tau{all},V{all})
31.0 % ( 34 %) ParsSPR(Tau{all},V{all})
26.8 % ( 25 %) Multiplier(V{all})
45.8 % ( 49 %) Nodeslider(V{all})
24.9 % ( 38 %) TLMultiplier(V{all})
Chain swap information for run 1:
1 2 3 4
----------------------------------
1 | 0.60 0.32 0.15
2 | 166687 0.63 0.36
3 | 166794 166412 0.66
4 | 166615 166532 166960
Chain swap information for run 2:
1 2 3 4
----------------------------------
1 | 0.60 0.32 0.15
2 | 166986 0.63 0.36
3 | 166737 166270 0.66
4 | 166682 167529 165796
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)
+------------------------------------------------------------+ -7687.26
| 1 2 |
| 2 1 1 2 21 |
| 1 1 2 2 11 1 2 |
| 11 211 2 2 2 2 1 2 2 2 |
| 1 12 1 1 *2 1 1 21 12 2 1 12 |
| 2 22 11 11 1 1 1 1 22 1 1|
|*2 1 2 22 22 1 * 11 1 2|
| 22 1 1 12 2 1 2 1 21 1 1 |
| 1 1 22 2 2 12 2 1 |
| 2 2 2 2 2 2 1 1 * |
| 2 1 2 1 |
| 2 1 |
| |
| 2 |
| 2 |
+------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -7695.00
^ ^
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 -7677.84 -7705.06
2 -7679.76 -7708.77
--------------------------------------
TOTAL -7678.40 -7708.10
--------------------------------------
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} 0.123095 0.000099 0.103792 0.142459 0.122697 1377.83 1394.54 1.000
r(A<->C){all} 0.031487 0.000140 0.010165 0.054689 0.030384 787.36 854.78 1.000
r(A<->G){all} 0.231355 0.000915 0.170910 0.287500 0.229645 712.67 750.20 1.000
r(A<->T){all} 0.031070 0.000060 0.016330 0.045789 0.030543 1150.37 1176.92 1.000
r(C<->G){all} 0.038147 0.000226 0.011190 0.068639 0.036373 925.43 960.67 1.000
r(C<->T){all} 0.622071 0.001220 0.553790 0.688455 0.623510 672.85 774.25 1.000
r(G<->T){all} 0.045869 0.000122 0.026668 0.068196 0.044763 1015.68 1027.17 1.000
pi(A){all} 0.256256 0.000046 0.242931 0.269660 0.256159 981.62 1046.26 1.000
pi(C){all} 0.172737 0.000032 0.161889 0.183956 0.172705 1036.22 1048.54 1.000
pi(G){all} 0.181161 0.000035 0.170074 0.192880 0.181173 1243.40 1277.88 1.000
pi(T){all} 0.389846 0.000055 0.375919 0.404971 0.389690 965.34 1030.94 1.000
alpha{1,2} 0.158299 0.001910 0.072643 0.248872 0.157162 1027.47 1076.39 1.001
alpha{3} 3.260599 1.861587 1.092911 6.103093 3.000510 1404.40 1422.26 1.000
pinvar{all} 0.756429 0.000836 0.696120 0.807321 0.759070 698.28 977.77 1.001
------------------------------------------------------------------------------------------------------
* 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 -- C10
2 -- C13
3 -- C16
4 -- C17
5 -- C19
6 -- C2
7 -- C20
8 -- C21
9 -- C23
10 -- C24
11 -- C25
12 -- C27
13 -- C28
14 -- C29
15 -- C30
16 -- C32
17 -- C34
18 -- C36
19 -- C37
20 -- C39
21 -- C4
22 -- C41
23 -- C45
24 -- C47
25 -- C49
26 -- C50
27 -- C52
28 -- C53
29 -- C7
30 -- C8
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 -- .***..........................
48 -- ....****************..*******.
49 -- ...............*.**....******.
50 -- ...............*.**...........
51 -- .......*....*.................
52 -- ....*.*.......................
53 -- ...........*.*................
54 -- .............**...............
55 -- ...........*..*...............
56 -- ..**..........................
57 -- ....*...*.*...................
58 -- .**...........................
59 -- .*.*..........................
60 -- ......*.*.*...................
61 -- ...............*..*...........
62 -- .................**...........
63 -- ...............*.*............
64 -- .......................***....
65 -- .......................*.*....
66 -- ........................*..*..
67 -- .......................**.....
68 -- .........*..*.................
69 -- ........................**....
70 -- .......................*.*.*..
71 -- .......................**..*..
72 -- .........................*.*..
73 -- ........................**.*..
74 -- .......................*...*..
75 -- .......*.*....................
76 -- ...............*.**...*...*.*.
77 -- ....*.*.*.*..........*........
78 -- ...............*..*.........*.
------------------------------------
Summary statistics for informative taxon bipartitions
(saved to file "/data/mrbayes_input.nex.tstat"):
ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns
----------------------------------------------------------------
31 3002 1.000000 0.000000 1.000000 1.000000 2
32 3002 1.000000 0.000000 1.000000 1.000000 2
33 3002 1.000000 0.000000 1.000000 1.000000 2
34 3002 1.000000 0.000000 1.000000 1.000000 2
35 3002 1.000000 0.000000 1.000000 1.000000 2
36 3002 1.000000 0.000000 1.000000 1.000000 2
37 3002 1.000000 0.000000 1.000000 1.000000 2
38 3002 1.000000 0.000000 1.000000 1.000000 2
39 3002 1.000000 0.000000 1.000000 1.000000 2
40 3002 1.000000 0.000000 1.000000 1.000000 2
41 3002 1.000000 0.000000 1.000000 1.000000 2
42 3002 1.000000 0.000000 1.000000 1.000000 2
43 2998 0.998668 0.000000 0.998668 0.998668 2
44 2988 0.995336 0.000000 0.995336 0.995336 2
45 2945 0.981013 0.001413 0.980013 0.982012 2
46 2936 0.978015 0.000942 0.977348 0.978681 2
47 2842 0.946702 0.013191 0.937375 0.956029 2
48 2689 0.895736 0.005182 0.892072 0.899400 2
49 2469 0.822452 0.013662 0.812791 0.832112 2
50 1981 0.659893 0.004240 0.656895 0.662891 2
51 1822 0.606929 0.020728 0.592272 0.621586 2
52 1034 0.344437 0.005653 0.340440 0.348434 2
53 1026 0.341772 0.002827 0.339773 0.343771 2
54 992 0.330446 0.000942 0.329780 0.331113 2
55 984 0.327781 0.001884 0.326449 0.329114 2
56 979 0.326116 0.010835 0.318454 0.333777 2
57 978 0.325783 0.004711 0.322452 0.329114 2
58 971 0.323451 0.003298 0.321119 0.325783 2
59 969 0.322785 0.003298 0.320453 0.325117 2
60 963 0.320786 0.000471 0.320453 0.321119 2
61 853 0.284144 0.023083 0.267821 0.300466 2
62 824 0.274484 0.001884 0.273151 0.275816 2
63 810 0.269820 0.007537 0.264490 0.275150 2
64 627 0.208861 0.010835 0.201199 0.216522 2
65 622 0.207195 0.002827 0.205197 0.209194 2
66 610 0.203198 0.009422 0.196536 0.209860 2
67 609 0.202865 0.004240 0.199867 0.205863 2
68 607 0.202199 0.015546 0.191206 0.213191 2
69 602 0.200533 0.007537 0.195203 0.205863 2
70 598 0.199201 0.021670 0.183877 0.214524 2
71 588 0.195869 0.013191 0.186542 0.205197 2
72 584 0.194537 0.006595 0.189873 0.199201 2
73 583 0.194204 0.011777 0.185876 0.202532 2
74 581 0.193538 0.007066 0.188541 0.198534 2
75 573 0.190873 0.005182 0.187209 0.194537 2
76 471 0.156895 0.014604 0.146569 0.167222 2
77 294 0.097935 0.003769 0.095270 0.100600 2
78 275 0.091606 0.014604 0.081279 0.101932 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] 0.001636 0.000001 0.000256 0.003268 0.001511 1.000 2
length{all}[2] 0.000266 0.000000 0.000000 0.000809 0.000184 1.000 2
length{all}[3] 0.000260 0.000000 0.000000 0.000771 0.000174 1.000 2
length{all}[4] 0.000529 0.000000 0.000013 0.001258 0.000443 1.000 2
length{all}[5] 0.000258 0.000000 0.000000 0.000763 0.000181 1.000 2
length{all}[6] 0.000811 0.000000 0.000072 0.001724 0.000721 1.000 2
length{all}[7] 0.000528 0.000000 0.000024 0.001227 0.000450 1.000 2
length{all}[8] 0.000273 0.000000 0.000000 0.000828 0.000190 1.000 2
length{all}[9] 0.000528 0.000000 0.000012 0.001272 0.000447 1.002 2
length{all}[10] 0.000408 0.000000 0.000000 0.001107 0.000315 1.000 2
length{all}[11] 0.000266 0.000000 0.000000 0.000819 0.000181 1.000 2
length{all}[12] 0.001065 0.000000 0.000200 0.002170 0.000972 1.000 2
length{all}[13] 0.000779 0.000000 0.000096 0.001686 0.000686 1.000 2
length{all}[14] 0.001319 0.000000 0.000330 0.002487 0.001240 1.002 2
length{all}[15] 0.000508 0.000000 0.000015 0.001226 0.000423 1.000 2
length{all}[16] 0.000755 0.000000 0.000087 0.001655 0.000670 1.000 2
length{all}[17] 0.001695 0.000000 0.000519 0.003123 0.001594 1.001 2
length{all}[18] 0.001020 0.000000 0.000196 0.002083 0.000936 1.000 2
length{all}[19] 0.001552 0.000000 0.000440 0.002838 0.001468 1.000 2
length{all}[20] 0.000813 0.000000 0.000080 0.001728 0.000720 1.000 2
length{all}[21] 0.000548 0.000000 0.000008 0.001277 0.000454 1.000 2
length{all}[22] 0.001924 0.000001 0.000672 0.003468 0.001822 1.000 2
length{all}[23] 0.002538 0.000001 0.000873 0.004406 0.002460 1.000 2
length{all}[24] 0.000270 0.000000 0.000000 0.000800 0.000187 1.000 2
length{all}[25] 0.000546 0.000000 0.000011 0.001309 0.000454 1.000 2
length{all}[26] 0.000266 0.000000 0.000000 0.000794 0.000185 1.000 2
length{all}[27] 0.002570 0.000002 0.000250 0.005035 0.002424 1.000 2
length{all}[28] 0.000536 0.000000 0.000007 0.001282 0.000446 1.000 2
length{all}[29] 0.008639 0.000003 0.005178 0.012196 0.008480 1.001 2
length{all}[30] 0.002114 0.000001 0.000565 0.003833 0.001998 1.000 2
length{all}[31] 0.002138 0.000001 0.000621 0.003771 0.002031 1.000 2
length{all}[32] 0.001880 0.000001 0.000414 0.003574 0.001774 1.000 2
length{all}[33] 0.001612 0.000000 0.000448 0.002951 0.001529 1.001 2
length{all}[34] 0.003048 0.000001 0.001083 0.005195 0.002937 1.000 2
length{all}[35] 0.001397 0.000000 0.000391 0.002618 0.001309 1.000 2
length{all}[36] 0.002819 0.000001 0.001012 0.004891 0.002703 1.000 2
length{all}[37] 0.020277 0.000011 0.013993 0.027016 0.020056 1.000 2
length{all}[38] 0.022377 0.000012 0.015978 0.029010 0.022206 1.000 2
length{all}[39] 0.001289 0.000000 0.000226 0.002540 0.001188 1.000 2
length{all}[40] 0.012018 0.000005 0.007985 0.016263 0.011839 1.000 2
length{all}[41] 0.004450 0.000002 0.002248 0.006860 0.004324 1.001 2
length{all}[42] 0.003889 0.000001 0.001881 0.006070 0.003761 1.000 2
length{all}[43] 0.001340 0.000000 0.000295 0.002671 0.001252 1.001 2
length{all}[44] 0.001526 0.000001 0.000242 0.003055 0.001424 1.000 2
length{all}[45] 0.002128 0.000001 0.000483 0.003892 0.002010 1.000 2
length{all}[46] 0.000518 0.000000 0.000016 0.001268 0.000422 1.000 2
length{all}[47] 0.000526 0.000000 0.000017 0.001259 0.000447 1.000 2
length{all}[48] 0.000861 0.000000 0.000024 0.001851 0.000747 1.001 2
length{all}[49] 0.000942 0.000000 0.000005 0.002082 0.000824 1.000 2
length{all}[50] 0.001185 0.000001 0.000000 0.002793 0.001009 1.001 2
length{all}[51] 0.000454 0.000000 0.000001 0.001158 0.000364 0.999 2
length{all}[52] 0.000274 0.000000 0.000000 0.000812 0.000186 0.999 2
length{all}[53] 0.000262 0.000000 0.000000 0.000759 0.000185 1.001 2
length{all}[54] 0.000274 0.000000 0.000000 0.000814 0.000191 0.999 2
length{all}[55] 0.000280 0.000000 0.000000 0.000895 0.000178 1.000 2
length{all}[56] 0.000255 0.000000 0.000000 0.000722 0.000186 1.000 2
length{all}[57] 0.000264 0.000000 0.000000 0.000760 0.000194 0.999 2
length{all}[58] 0.000263 0.000000 0.000000 0.000755 0.000187 0.999 2
length{all}[59] 0.000253 0.000000 0.000001 0.000763 0.000163 0.999 2
length{all}[60] 0.000256 0.000000 0.000001 0.000729 0.000180 1.002 2
length{all}[61] 0.000259 0.000000 0.000000 0.000779 0.000183 1.001 2
length{all}[62] 0.000267 0.000000 0.000000 0.000837 0.000190 0.999 2
length{all}[63] 0.000248 0.000000 0.000001 0.000742 0.000169 0.999 2
length{all}[64] 0.000278 0.000000 0.000001 0.000825 0.000191 0.998 2
length{all}[65] 0.000260 0.000000 0.000001 0.000731 0.000186 0.999 2
length{all}[66] 0.000271 0.000000 0.000000 0.000792 0.000179 0.999 2
length{all}[67] 0.000271 0.000000 0.000001 0.000775 0.000192 1.000 2
length{all}[68] 0.000264 0.000000 0.000000 0.000800 0.000177 0.998 2
length{all}[69] 0.000264 0.000000 0.000000 0.000789 0.000176 0.999 2
length{all}[70] 0.000278 0.000000 0.000000 0.000830 0.000191 1.003 2
length{all}[71] 0.000285 0.000000 0.000000 0.000875 0.000197 0.999 2
length{all}[72] 0.000278 0.000000 0.000000 0.000809 0.000210 0.998 2
length{all}[73] 0.000291 0.000000 0.000000 0.000889 0.000200 1.003 2
length{all}[74] 0.000258 0.000000 0.000001 0.000824 0.000174 0.999 2
length{all}[75] 0.000270 0.000000 0.000000 0.000784 0.000202 1.002 2
length{all}[76] 0.001025 0.000001 0.000002 0.002457 0.000882 0.998 2
length{all}[77] 0.001045 0.000000 0.000002 0.002272 0.000946 0.997 2
length{all}[78] 0.000288 0.000000 0.000001 0.000799 0.000194 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 = 0.005722
Maximum standard deviation of split frequencies = 0.023083
Average PSRF for parameter values (excluding NA and >10.0) = 1.000
Maximum PSRF for parameter values = 1.003
Clade credibility values:
/---------------------------------------------------------------------- C10 (1)
|
|---------------------------------------------------------------------- C8 (30)
|
| /------ C13 (2)
| |
| /--95--+------ C16 (3)
| | |
| /------------------------100-----------------------+ \------ C17 (4)
| | |
| | \------------- C4 (21)
| |
| | /------------- C19 (5)
| | |
+ | |------------- C20 (7)
| | /-----------------100-----------------+
| | | | /------ C23 (9)
| | | \--98--+
| | | \------ C25 (11)
| | |
| | | /------ C2 (6)
| | | /--100-+
| | | | \------ C39 (20)
| | | |
| | | /-100-+ /------ C27 (12)
| | | | | |
| | | | \--100-+------ C29 (14)
\-100-+ | /--------100-------+ |
| | | | \------ C30 (15)
| | | |
| | | \------------------- C34 (17)
| /--90-+ |
| | | | /------ C32 (16)
| | | | |
| | | | /--66--+------ C36 (18)
| | | | | |
| | | | /-100-+ \------ C37 (19)
| | | /--98--+ | |
| | | | | /-100-+ \------------- C7 (29)
| | | | | | |
| | | | | | \------------------- C52 (27)
| | | | | |
| | | | | /--82--+ /------ C47 (24)
| | | | | | | |
| | | | | | | |------ C49 (25)
\--100-+ | | | | \--------100-------+
| \-100-+ \-100-+ |------ C50 (26)
| | | |
| | | \------ C53 (28)
| | |
| | \-------------------------------- C45 (23)
| |
| | /------ C21 (8)
| | /--61--+
| | | \------ C28 (13)
| \--------------100--------------+
| \------------- C24 (10)
|
\--------------------------------------------------------- C41 (22)
Phylogram (based on average branch lengths):
/- C10 (1)
|
|-- C8 (30)
|
| / C13 (2)
| |
| /+ C16 (3)
| ||
| /+\ C17 (4)
| ||
| |\- C4 (21)
| |
| | / C19 (5)
| | |
+ | | C20 (7)
| | /+
| | ||- C23 (9)
| | ||
| | |\ C25 (11)
| | |
| | | /- C2 (6)
| | | /+
| | | |\- C39 (20)
| | | |
| | | /+ / C27 (12)
| | | || |
| | | |\-+- C29 (14)
\---+ | /-+ |
| | | | \ C30 (15)
| | | |
| | | \- C34 (17)
|/+ |
||| | / C32 (16)
||| | |
||| | /+- C36 (18)
||| | ||
||| | /--------------------+\- C37 (19)
||| /-+ | |
||| | | /-------------------+ \-------- C7 (29)
||| | | | |
||| | | | \-- C52 (27)
||| | | |
||| | | | /- C47 (24)
||| | | | |
||| | | | |- C49 (25)
\+| | | |---+
|\----------+ \--+ |- C50 (26)
| | | |
| | | \- C53 (28)
| | |
| | \-- C45 (23)
| |
| | / C21 (8)
| | |
| | |- C28 (13)
| \--+
| \ C24 (10)
|
\-- C41 (22)
|--------| 0.010 expected changes per site
Calculating tree probabilities...
Credible sets of trees (2687 trees sampled):
50 % credible set contains 1186 trees
90 % credible set contains 2387 trees
95 % credible set contains 2537 trees
99 % credible set contains 2657 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 01:40:20 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result--
-- Starting log on Sat Nov 05 04:48:26 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/original_alignment/codeml,NL63_human_USA_012_31_2001_S_AGT51331_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 C52 4068 sites
reading seq# 2 C7 4068 sites
reading seq# 3 C8 4068 sites
reading seq# 4 C10 4068 sites
reading seq# 5 C4 4068 sites
reading seq# 6 C29 4068 sites
reading seq# 7 C47 4068 sites
reading seq# 8 C41 4068 sites
reading seq# 9 C16 4068 sites
reading seq#10 C53 4068 sites
reading seq#11 C17 4068 sites
reading seq#12 C27 4068 sites
reading seq#13 C37 4068 sites
reading seq#14 C21 4068 sites
reading seq#15 C30 4068 sites
reading seq#16 C23 4068 sites
reading seq#17 C25 4068 sites
reading seq#18 C13 4068 sites
reading seq#19 C2 4068 sites
reading seq#20 C28 4068 sites
reading seq#21 C39 4068 sites
reading seq#22 C19 4068 sites
reading seq#23 C32 4068 sites
reading seq#24 C49 4068 sites
reading seq#25 C45 4068 sites
reading seq#26 C36 4068 sites
reading seq#27 C20 4068 sites
reading seq#28 C24 4068 sites
reading seq#29 C50 4068 sites
reading seq#30 C34 4068 sitesns = 30 ls = 4068
Reading sequences, sequential format..
Reading seq # 1: C52
Reading seq # 2: C7
Reading seq # 3: C8
Reading seq # 4: C10
Reading seq # 5: C4
Reading seq # 6: C29
Reading seq # 7: C47
Reading seq # 8: C41
Reading seq # 9: C16
Reading seq #10: C53
Reading seq #11: C17
Reading seq #12: C27
Reading seq #13: C37
Reading seq #14: C21
Reading seq #15: C30
Reading seq #16: C23
Reading seq #17: C25
Reading seq #18: C13
Reading seq #19: C2
Reading seq #20: C28
Reading seq #21: C39
Reading seq #22: C19
Reading seq #23: C32
Reading seq #24: C49
Reading seq #25: C45
Reading seq #26: C36
Reading seq #27: C20
Reading seq #28: C24
Reading seq #29: C50
Reading seq #30: C34
Sites with gaps or missing data are removed.
3 ambiguity characters in seq. 1
3 ambiguity characters in seq. 2
3 ambiguity characters in seq. 3
3 ambiguity characters in seq. 4
3 ambiguity characters in seq. 7
3 ambiguity characters in seq. 10
3 ambiguity characters in seq. 13
3 ambiguity characters in seq. 23
3 ambiguity characters in seq. 24
3 ambiguity characters in seq. 26
3 ambiguity characters in seq. 29
1 sites are removed. 110
Sequences read..
Counting site patterns.. 0:00
Compressing, 276 patterns at 1355 / 1355 sites (100.0%), 0:00
Collecting fpatt[] & pose[], 276 patterns at 1355 / 1355 sites (100.0%), 0:00
Counting codons..
3480 bytes for distance
269376 bytes for conP
24288 bytes for fhK
5000000 bytes for space
Model 1: NearlyNeutral
TREE # 1
(4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
2963136 bytes for conP, adjusted
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.041740 0.058616 0.088777 0.044315 0.041420 0.055512 0.010650 0.029597 0.051977 0.100675 0.057501 0.053560 0.037331 0.043675 0.083787 0.023442 0.030888 0.094520 0.052365 0.086423 0.052691 0.039281 0.016046 0.085622 0.056565 0.076698 0.078362 0.026941 0.074414 0.049236 0.088211 0.067676 0.099891 0.017000 0.098076 0.012854 0.028594 0.097967 0.090510 0.080216 0.047004 0.072957 0.052571 0.069788 0.037338 0.028792 0.052887 0.048988 0.040504 0.088078 0.051049 0.300000 0.616735 0.521769
ntime & nrate & np: 51 2 54
Bounds (np=54):
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 0.000004 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 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 = 8.733985
np = 54
lnL0 = -10604.850229
Iterating by ming2
Initial: fx= 10604.850229
x= 0.04174 0.05862 0.08878 0.04432 0.04142 0.05551 0.01065 0.02960 0.05198 0.10068 0.05750 0.05356 0.03733 0.04367 0.08379 0.02344 0.03089 0.09452 0.05236 0.08642 0.05269 0.03928 0.01605 0.08562 0.05656 0.07670 0.07836 0.02694 0.07441 0.04924 0.08821 0.06768 0.09989 0.01700 0.09808 0.01285 0.02859 0.09797 0.09051 0.08022 0.04700 0.07296 0.05257 0.06979 0.03734 0.02879 0.05289 0.04899 0.04050 0.08808 0.05105 0.30000 0.61673 0.52177
1 h-m-p 0.0000 0.0000 7419.8706 ++ 10084.888245 m 0.0000 59 | 1/54
2 h-m-p 0.0000 0.0000 38355.9536 ++ 9465.943989 m 0.0000 116 | 1/54
3 h-m-p 0.0000 0.0000 328921.8133 ++ 9351.676877 m 0.0000 173 | 1/54
4 h-m-p 0.0000 0.0000 293799.3211 ++ 9308.413137 m 0.0000 230 | 2/54
5 h-m-p 0.0000 0.0000 133971.1232 ++ 9089.565972 m 0.0000 287 | 3/54
6 h-m-p 0.0000 0.0000 260082.0777 ++ 8965.203147 m 0.0000 344 | 3/54
7 h-m-p -0.0000 -0.0000 163213.2839
h-m-p: -0.00000000e+00 -0.00000000e+00 1.63213284e+05 8965.203147
.. | 3/54
8 h-m-p 0.0000 0.0000 235080.9516 --YYCYYCC 8959.671185 6 0.0000 465 | 3/54
9 h-m-p 0.0000 0.0000 8286.6023 ++ 8844.490619 m 0.0000 522 | 3/54
10 h-m-p 0.0000 0.0000 475526.2279 ++ 8811.700964 m 0.0000 579 | 4/54
11 h-m-p 0.0000 0.0000 14349.3166 ++ 8745.675639 m 0.0000 636 | 5/54
12 h-m-p 0.0000 0.0000 76045.4934 ++ 8654.491014 m 0.0000 693 | 6/54
13 h-m-p 0.0000 0.0000 46100.3066 ++ 8611.667661 m 0.0000 750 | 7/54
14 h-m-p 0.0000 0.0000 109728.3990 ++ 8585.115029 m 0.0000 807 | 8/54
15 h-m-p 0.0000 0.0000 45262.2248 ++ 8428.982670 m 0.0000 864 | 8/54
16 h-m-p 0.0000 0.0000 177674.0365 ++ 8347.381571 m 0.0000 921 | 8/54
17 h-m-p 0.0000 0.0000 244355.6164 ++ 8326.127658 m 0.0000 978 | 8/54
18 h-m-p 0.0000 0.0000 69124.1430 ++ 8291.249162 m 0.0000 1035 | 8/54
19 h-m-p 0.0000 0.0000 59062.4150 +YYCYYCCC 8274.571765 7 0.0000 1104 | 8/54
20 h-m-p 0.0000 0.0000 61620.9448 +CYYCYCCC 8208.911628 7 0.0000 1173 | 8/54
21 h-m-p 0.0000 0.0000 27147.7253 +YYYCCCCC 8195.410671 7 0.0000 1242 | 8/54
22 h-m-p 0.0000 0.0000 141043.1019 +YYYYYC 8193.006930 5 0.0000 1305 | 8/54
23 h-m-p 0.0000 0.0000 31869.9021 +YYYYC 8177.610312 4 0.0000 1367 | 8/54
24 h-m-p 0.0000 0.0000 19054.4115 +CYCCC 8167.152204 4 0.0000 1432 | 7/54
25 h-m-p 0.0000 0.0000 125069.5879 +CYC 8165.964665 2 0.0000 1493 | 7/54
26 h-m-p 0.0000 0.0000 38047.1988 ++ 8165.628411 m 0.0000 1550 | 7/54
27 h-m-p 0.0000 0.0000 21282.6777
h-m-p: 6.41672256e-26 3.20836128e-25 2.12826777e+04 8165.628411
.. | 7/54
28 h-m-p 0.0000 0.0000 27331.9388 YCYCCC 8146.414679 5 0.0000 1669 | 7/54
29 h-m-p 0.0000 0.0000 5085.3667 ++ 8145.554417 m 0.0000 1726 | 8/54
30 h-m-p 0.0000 0.0000 7236.6882 ++ 8124.525651 m 0.0000 1783 | 8/54
31 h-m-p 0.0000 0.0000 519404.7251 +YYCYCC 8110.526234 5 0.0000 1848 | 8/54
32 h-m-p 0.0000 0.0000 27268.3252 +CYYYCCCC 8102.344133 7 0.0000 1917 | 8/54
33 h-m-p 0.0000 0.0000 22598.7664 +CYYYCCCC 8076.717923 7 0.0000 1986 | 8/54
34 h-m-p 0.0000 0.0000 21679.0594 +YYCCC 8074.333403 4 0.0000 2050 | 8/54
35 h-m-p 0.0000 0.0000 29079.4772 +YYYCCC 8067.265329 5 0.0000 2115 | 8/54
36 h-m-p 0.0000 0.0000 20583.9260 +YYYYC 8065.018308 4 0.0000 2177 | 8/54
37 h-m-p 0.0000 0.0000 9758.2803 +YYYCC 8051.629905 4 0.0000 2240 | 8/54
38 h-m-p 0.0000 0.0000 9680.3001 +YYCCC 8049.019186 4 0.0000 2304 | 8/54
39 h-m-p 0.0000 0.0000 6431.7151 +YYCYC 8047.725035 4 0.0000 2367 | 8/54
40 h-m-p 0.0000 0.0000 3368.2949 +YYCCCC 8043.902518 5 0.0000 2433 | 8/54
41 h-m-p 0.0000 0.0000 3915.5775 YCCCC 8036.895682 4 0.0000 2497 | 8/54
42 h-m-p 0.0000 0.0000 4699.7635 +YYYCCC 8031.983296 5 0.0000 2562 | 8/54
43 h-m-p 0.0000 0.0000 16692.8264 YCCCC 8024.260825 4 0.0000 2626 | 8/54
44 h-m-p 0.0000 0.0000 6809.5805 YCY 8022.289047 2 0.0000 2686 | 8/54
45 h-m-p 0.0000 0.0000 4605.6191 +YYYCCC 8016.402984 5 0.0000 2751 | 8/54
46 h-m-p 0.0000 0.0000 17926.2755 YCCCC 8013.116898 4 0.0000 2815 | 8/54
47 h-m-p 0.0000 0.0000 12167.7175 YCCC 8002.413087 3 0.0000 2877 | 8/54
48 h-m-p 0.0000 0.0000 14658.7275 YCCC 7996.032612 3 0.0000 2939 | 8/54
49 h-m-p 0.0000 0.0000 12907.2949 +YYCCC 7988.338611 4 0.0000 3003 | 8/54
50 h-m-p 0.0000 0.0000 23847.8888 +YYCCC 7979.167652 4 0.0000 3067 | 8/54
51 h-m-p 0.0000 0.0000 29537.2912 +YYYCCC 7967.426034 5 0.0000 3132 | 8/54
52 h-m-p 0.0000 0.0000 51909.2354 +YYCYCCC 7947.316578 6 0.0000 3199 | 8/54
53 h-m-p 0.0000 0.0000 35840.2151 +CYYYYYCCC 7891.979179 8 0.0000 3268 | 8/54
54 h-m-p 0.0000 0.0000 74343.3840 ++ 7838.386860 m 0.0000 3325 | 8/54
55 h-m-p 0.0000 0.0000 1878872.3420 +YYYYYC 7817.654724 5 0.0000 3388 | 8/54
56 h-m-p 0.0000 0.0000 140074.4514 +CYYCCCCC 7781.492671 7 0.0000 3458 | 8/54
57 h-m-p 0.0000 0.0000 201395.3809 ++ 7712.133525 m 0.0000 3515 | 7/54
58 h-m-p 0.0000 0.0000 4353650.1050 +CYYCCC 7658.035121 5 0.0000 3581 | 7/54
59 h-m-p 0.0000 0.0000 90186.6281 ++ 7634.061305 m 0.0000 3638 | 8/54
60 h-m-p 0.0000 0.0000 62321.9154 ++ 7602.626118 m 0.0000 3695 | 8/54
61 h-m-p 0.0000 0.0000 2712510.8656 YCYCCC 7599.947145 5 0.0000 3760 | 8/54
62 h-m-p 0.0000 0.0000 65491.5853 +CCCC 7582.747238 3 0.0000 3824 | 8/54
63 h-m-p 0.0000 0.0000 117351.4150 +YYCCC 7577.083612 4 0.0000 3888 | 8/54
64 h-m-p 0.0000 0.0000 34066.0309 +YCCC 7569.343374 3 0.0000 3951 | 8/54
65 h-m-p 0.0000 0.0000 59219.3655 +CYYCCCC 7560.514959 6 0.0000 4019 | 8/54
66 h-m-p 0.0000 0.0000 159945.2419 +YYCCCC 7555.005010 5 0.0000 4085 | 8/54
67 h-m-p 0.0000 0.0000 30606.5319 +YYCCC 7531.995379 4 0.0000 4149 | 8/54
68 h-m-p 0.0000 0.0000 360.2726 +YCYC 7531.224203 3 0.0000 4211 | 8/54
69 h-m-p 0.0000 0.0000 5918.7418 CCCC 7527.669928 3 0.0000 4274 | 8/54
70 h-m-p 0.0000 0.0001 519.2082 YCCC 7522.794811 3 0.0000 4336 | 8/54
71 h-m-p 0.0000 0.0001 511.7680 YCCCC 7520.129304 4 0.0000 4400 | 8/54
72 h-m-p 0.0000 0.0002 213.3012 YCC 7519.776128 2 0.0000 4460 | 8/54
73 h-m-p 0.0000 0.0002 268.2972 CYC 7519.485418 2 0.0000 4520 | 8/54
74 h-m-p 0.0001 0.0005 110.6895 CC 7519.431599 1 0.0000 4579 | 8/54
75 h-m-p 0.0000 0.0015 35.7987 +CCC 7519.318043 2 0.0002 4641 | 8/54
76 h-m-p 0.0025 0.0201 2.2103 +CCYC 7514.715503 3 0.0156 4705 | 8/54
77 h-m-p 0.0107 0.0537 0.1987 +YYYYC 7512.364052 4 0.0418 4767 | 8/54
78 h-m-p 0.0095 0.0477 0.8661 +YCYYYC 7504.769151 5 0.0424 4877 | 8/54
79 h-m-p 0.0873 0.8515 0.4205 ++ 7479.447450 m 0.8515 4980 | 8/54
80 h-m-p 0.2245 1.1227 0.3104 +YCCC 7465.851347 3 0.5918 5089 | 8/54
81 h-m-p 0.2221 1.1103 0.2048 YCCC 7459.806350 3 0.4908 5197 | 8/54
82 h-m-p 0.2442 1.2212 0.1798 +YYCCC 7451.510317 4 0.8623 5307 | 8/54
83 h-m-p 0.3725 1.8626 0.2694 +YYCCC 7439.011519 4 1.1752 5417 | 8/54
84 h-m-p 0.2539 1.2693 0.2364 +YCCC 7434.729790 3 0.6871 5526 | 8/54
85 h-m-p 0.3693 1.8466 0.2314 +YCCC 7427.584024 3 1.0014 5635 | 8/54
86 h-m-p 0.5417 2.7085 0.2803 +YCYCCC 7414.467629 5 2.2765 5747 | 8/54
87 h-m-p 0.8979 4.4894 0.3279 YCCC 7405.365151 3 1.7581 5855 | 8/54
88 h-m-p 0.4327 2.1634 0.2880 +YCCC 7401.341528 3 1.1756 5964 | 7/54
89 h-m-p 0.0000 0.0000 14256.3894 YCCC 7401.288875 3 0.0000 6072 | 7/54
90 h-m-p 0.0046 0.0229 0.5656 ++ 7400.936735 m 0.0229 6129 | 8/54
91 h-m-p 0.0115 0.6233 1.1234 ++CYCCC 7398.928057 4 0.2923 6242 | 8/54
92 h-m-p 0.1789 0.8946 0.3190 YCYC 7398.407370 3 0.4573 6303 | 7/54
93 h-m-p 0.0000 0.0000 79137.7524 +CC 7398.228139 1 0.0000 6409 | 7/54
94 h-m-p 0.0259 0.1293 0.1999 ++ 7398.209624 m 0.1293 6466 | 7/54
95 h-m-p 0.5786 4.0154 0.0447 ---------------Y 7398.209624 0 0.0000 6585 | 7/54
96 h-m-p 0.0000 0.0000 0.0124
h-m-p: 2.19751827e-12 1.09875913e-11 1.23900275e-02 7398.209624
.. | 7/54
97 h-m-p 0.0000 0.0000 16280.3699 CYYCCC 7384.810120 5 0.0000 6798 | 7/54
98 h-m-p 0.0000 0.0000 2201.4975 ++ 7380.860572 m 0.0000 6855 | 8/54
99 h-m-p 0.0000 0.0000 1649.0736 YCCCC 7379.192031 4 0.0000 6919 | 8/54
100 h-m-p 0.0000 0.0000 1704.8701 YCC 7378.555042 2 0.0000 6979 | 8/54
101 h-m-p 0.0000 0.0000 1044.3573 CCCC 7378.133178 3 0.0000 7042 | 8/54
102 h-m-p 0.0000 0.0000 375.4970 YC 7378.079061 1 0.0000 7100 | 8/54
103 h-m-p 0.0000 0.0000 318.4026 YCC 7378.023106 2 0.0000 7160 | 8/54
104 h-m-p 0.0000 0.0000 434.3084 YC 7377.983698 1 0.0000 7218 | 8/54
105 h-m-p 0.0000 0.0000 325.2952 CC 7377.940778 1 0.0000 7277 | 8/54
106 h-m-p 0.0000 0.0000 348.6668 YC 7377.909291 1 0.0000 7335 | 8/54
107 h-m-p 0.0000 0.0000 354.7869 YC 7377.883549 1 0.0000 7393 | 8/54
108 h-m-p 0.0000 0.0000 268.6446 CC 7377.862269 1 0.0000 7452 | 8/54
109 h-m-p 0.0000 0.0000 232.7383 CC 7377.850598 1 0.0000 7511 | 8/54
110 h-m-p 0.0000 0.0000 206.4647 YC 7377.843247 1 0.0000 7569 | 8/54
111 h-m-p 0.0000 0.0001 68.5360 CC 7377.840429 1 0.0000 7628 | 8/54
112 h-m-p 0.0000 0.0001 89.3047 YC 7377.838117 1 0.0000 7686 | 8/54
113 h-m-p 0.0000 0.0001 85.4451 C 7377.834612 0 0.0000 7743 | 8/54
114 h-m-p 0.0000 0.0003 68.2602 YC 7377.830129 1 0.0000 7801 | 8/54
115 h-m-p 0.0000 0.0000 128.7781 YC 7377.827886 1 0.0000 7859 | 8/54
116 h-m-p 0.0000 0.0001 92.1179 YC 7377.825974 1 0.0000 7917 | 8/54
117 h-m-p 0.0000 0.0002 37.9695 YC 7377.824209 1 0.0000 7975 | 8/54
118 h-m-p 0.0000 0.0001 70.4928 -YC 7377.823340 1 0.0000 8034 | 8/54
119 h-m-p 0.0000 0.0006 23.3076 YC 7377.821177 1 0.0000 8092 | 8/54
120 h-m-p 0.0000 0.0002 40.3566 YC 7377.817550 1 0.0000 8150 | 8/54
121 h-m-p 0.0000 0.0004 60.1455 CC 7377.801812 1 0.0000 8209 | 8/54
122 h-m-p 0.0000 0.0001 246.5056 YC 7377.779483 1 0.0000 8267 | 8/54
123 h-m-p 0.0000 0.0001 359.5120 YC 7377.748710 1 0.0000 8325 | 8/54
124 h-m-p 0.0000 0.0001 388.6351 CC 7377.722334 1 0.0000 8384 | 8/54
125 h-m-p 0.0000 0.0003 99.4890 YC 7377.709467 1 0.0000 8442 | 8/54
126 h-m-p 0.0000 0.0001 145.2632 YC 7377.699394 1 0.0000 8500 | 8/54
127 h-m-p 0.0000 0.0003 85.5751 YC 7377.693802 1 0.0000 8558 | 8/54
128 h-m-p 0.0000 0.0005 43.6632 CC 7377.689820 1 0.0000 8617 | 8/54
129 h-m-p 0.0000 0.0004 25.5910 YC 7377.688427 1 0.0000 8675 | 8/54
130 h-m-p 0.0000 0.0018 49.2039 YC 7377.681323 1 0.0000 8733 | 8/54
131 h-m-p 0.0000 0.0004 99.8494 YC 7377.677762 1 0.0000 8791 | 8/54
132 h-m-p 0.0000 0.0009 71.9800 C 7377.673772 0 0.0000 8848 | 8/54
133 h-m-p 0.0000 0.0002 56.9703 CC 7377.672372 1 0.0000 8907 | 8/54
134 h-m-p 0.0000 0.0010 51.4306 YC 7377.671041 1 0.0000 8965 | 8/54
135 h-m-p 0.0000 0.0006 31.5789 YC 7377.670425 1 0.0000 9023 | 8/54
136 h-m-p 0.0000 0.0032 9.6397 Y 7377.670238 0 0.0000 9080 | 8/54
137 h-m-p 0.0000 0.0018 9.1938 C 7377.670067 0 0.0000 9137 | 8/54
138 h-m-p 0.0000 0.0029 15.7266 Y 7377.669634 0 0.0000 9194 | 8/54
139 h-m-p 0.0000 0.0032 56.0329 +YC 7377.666976 1 0.0000 9253 | 8/54
140 h-m-p 0.0000 0.0009 118.4715 YC 7377.665840 1 0.0000 9311 | 8/54
141 h-m-p 0.0001 0.0554 83.7535 +YCC 7377.569865 2 0.0007 9372 | 8/54
142 h-m-p 0.0000 0.0001 7732.9211 +CYCCC 7376.711863 4 0.0001 9437 | 8/54
143 h-m-p 0.0000 0.0001 59560.1688 YCC 7375.111353 2 0.0000 9497 | 8/54
144 h-m-p 1.2153 6.0767 0.2216 C 7374.889754 0 1.1725 9554 | 8/54
145 h-m-p 1.6000 8.0000 0.1003 YC 7374.868403 1 0.7375 9658 | 8/54
146 h-m-p 1.6000 8.0000 0.0348 YC 7374.864339 1 0.7950 9762 | 8/54
147 h-m-p 1.6000 8.0000 0.0005 C 7374.864267 0 1.4034 9865 | 8/54
148 h-m-p 1.0819 8.0000 0.0007 C 7374.864266 0 0.3763 9968 | 8/54
149 h-m-p 0.2552 8.0000 0.0010 Y 7374.864266 0 0.1162 10071 | 8/54
150 h-m-p 0.1086 8.0000 0.0011 C 7374.864266 0 0.0423 10174 | 8/54
151 h-m-p 0.0429 8.0000 0.0011 C 7374.864266 0 0.0107 10277 | 8/54
152 h-m-p 0.0160 8.0000 0.0011 Y 7374.864266 0 0.0121 10380 | 8/54
153 h-m-p 0.0160 8.0000 0.0010 -----C 7374.864266 0 0.0000 10488 | 8/54
154 h-m-p 0.0160 8.0000 0.0000 -------------.. | 8/54
155 h-m-p 0.0000 0.0061 1.2949 -------- | 8/54
156 h-m-p 0.0000 0.0061 1.2949 --------
Out..
lnL = -7374.864266
10821 lfun, 32463 eigenQcodon, 1103742 P(t)
end of tree file.
Time used: 10:51
Model 2: PositiveSelection
TREE # 1
(4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.049037 0.044022 0.064670 0.039414 0.033846 0.029241 0.099973 0.059286 0.018902 0.039110 0.026434 0.097896 0.095459 0.076561 0.084014 0.070800 0.084079 0.056382 0.079243 0.062705 0.101321 0.031998 0.085266 0.078421 0.052120 0.062377 0.044911 0.089406 0.096284 0.048772 0.062724 0.093117 0.012552 0.045967 0.046906 0.077330 0.058643 0.027728 0.037092 0.056637 0.100746 0.061132 0.028904 0.023290 0.060875 0.019483 0.081220 0.029596 0.105535 0.038478 0.067096 7.229493 1.640372 0.420671 0.441316 1.545123
ntime & nrate & np: 51 3 56
Bounds (np=56):
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 0.000004 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 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 = 2.142374
np = 56
lnL0 = -10156.759659
Iterating by ming2
Initial: fx= 10156.759659
x= 0.04904 0.04402 0.06467 0.03941 0.03385 0.02924 0.09997 0.05929 0.01890 0.03911 0.02643 0.09790 0.09546 0.07656 0.08401 0.07080 0.08408 0.05638 0.07924 0.06271 0.10132 0.03200 0.08527 0.07842 0.05212 0.06238 0.04491 0.08941 0.09628 0.04877 0.06272 0.09312 0.01255 0.04597 0.04691 0.07733 0.05864 0.02773 0.03709 0.05664 0.10075 0.06113 0.02890 0.02329 0.06088 0.01948 0.08122 0.02960 0.10554 0.03848 0.06710 7.22949 1.64037 0.42067 0.44132 1.54512
1 h-m-p 0.0000 0.0000 7370.4188 ++ 9275.018430 m 0.0000 117 | 0/56
2 h-m-p 0.0000 0.0000 54709.9461 ++ 9106.381047 m 0.0000 232 | 0/56
3 h-m-p 0.0000 0.0000 321522.8396 ++ 8951.683991 m 0.0000 347 | 1/56
4 h-m-p 0.0000 0.0000 21959.2126 ++ 8939.198126 m 0.0000 462 | 2/56
5 h-m-p 0.0000 0.0000 249491.8347 ++ 8925.573577 m 0.0000 576 | 3/56
6 h-m-p 0.0000 0.0000 52978.7850 ++ 8733.488415 m 0.0000 689 | 3/56
7 h-m-p 0.0000 0.0000 75019.5909 ++ 8670.432048 m 0.0000 801 | 4/56
8 h-m-p 0.0000 0.0000 84633.7566 ++ 8343.449013 m 0.0000 913 | 4/56
9 h-m-p 0.0000 0.0000 196688.3992 ++ 8192.887837 m 0.0000 1024 | 4/56
10 h-m-p 0.0000 0.0000 112824.0339 ++ 8162.651080 m 0.0000 1135 | 4/56
11 h-m-p 0.0000 0.0000 106572.7128 ++ 8078.476911 m 0.0000 1246 | 4/56
12 h-m-p 0.0000 0.0000 453216.5177 +YYCYCYC 8062.000802 6 0.0000 1367 | 4/56
13 h-m-p 0.0000 0.0000 120141.3589 ++ 8037.250090 m 0.0000 1478 | 4/56
14 h-m-p 0.0000 0.0000 51973.4553 ++ 8022.163603 m 0.0000 1589 | 4/56
15 h-m-p 0.0000 0.0000 77761.4799 +CYYCCCCC 7979.244006 7 0.0000 1713 | 4/56
16 h-m-p 0.0000 0.0000 481941.7075 ++ 7950.633779 m 0.0000 1824 | 4/56
17 h-m-p 0.0000 0.0000 62571.8860 +CCCC 7928.887606 3 0.0000 1943 | 4/56
18 h-m-p 0.0000 0.0000 446176.2621 +CYYYYC 7902.466780 5 0.0000 2061 | 4/56
19 h-m-p 0.0000 0.0000 20807.3478 ++ 7890.715150 m 0.0000 2172 | 5/56
20 h-m-p 0.0000 0.0000 62385.3665 +YYCYCC 7882.626935 5 0.0000 2291 | 5/56
21 h-m-p 0.0000 0.0000 27514.9910 +YYCYYC 7863.377401 5 0.0000 2409 | 5/56
22 h-m-p 0.0000 0.0000 57998.9730 +YCYCCC 7859.345201 5 0.0000 2528 | 4/56
23 h-m-p 0.0000 0.0000 98674.0264 ++ 7850.202870 m 0.0000 2638 | 4/56
24 h-m-p 0.0000 0.0000 1080517.2744
h-m-p: 5.92626717e-26 2.96313359e-25 1.08051727e+06 7850.202870
.. | 4/56
25 h-m-p 0.0000 0.0000 560646.0882 -CYYYYC 7818.457071 5 0.0000 2864 | 4/56
26 h-m-p 0.0000 0.0000 15429.4994 YYYCCC 7778.206319 5 0.0000 2982 | 4/56
27 h-m-p 0.0000 0.0000 4436.5261 ++ 7744.268373 m 0.0000 3093 | 5/56
28 h-m-p 0.0000 0.0000 25407.2972 ++ 7712.775286 m 0.0000 3204 | 6/56
29 h-m-p 0.0000 0.0000 42989.0159 ++ 7673.315693 m 0.0000 3314 | 7/56
30 h-m-p 0.0000 0.0000 70107.7284 ++ 7668.433266 m 0.0000 3423 | 8/56
31 h-m-p 0.0000 0.0000 11112.2186 +YCYCCC 7644.896966 5 0.0000 3541 | 8/56
32 h-m-p 0.0000 0.0000 7743.3387 +YYYYYCCCC 7634.383310 8 0.0000 3660 | 8/56
33 h-m-p 0.0000 0.0000 3195.4798 +YYCCC 7623.165684 4 0.0000 3774 | 8/56
34 h-m-p 0.0000 0.0000 7805.7421 YCYCCC 7620.459681 5 0.0000 3889 | 8/56
35 h-m-p 0.0000 0.0000 1869.0190 +YCYCC 7617.678039 4 0.0000 4003 | 8/56
36 h-m-p 0.0000 0.0000 1696.9167 +YYYCC 7608.173639 4 0.0000 4116 | 8/56
37 h-m-p 0.0000 0.0000 16965.0422 +YYCCC 7605.587493 4 0.0000 4230 | 8/56
38 h-m-p 0.0000 0.0000 23777.6605 YCYC 7604.170913 3 0.0000 4341 | 8/56
39 h-m-p 0.0000 0.0000 6416.2477 YCC 7602.985675 2 0.0000 4451 | 8/56
40 h-m-p 0.0000 0.0000 1108.5542 CCCC 7601.914732 3 0.0000 4564 | 8/56
41 h-m-p 0.0000 0.0000 1093.6340 +YCYC 7600.839805 3 0.0000 4676 | 8/56
42 h-m-p 0.0000 0.0000 2074.8703 YCCC 7599.541976 3 0.0000 4788 | 8/56
43 h-m-p 0.0000 0.0000 2851.8658 CCC 7597.977530 2 0.0000 4899 | 8/56
44 h-m-p 0.0000 0.0000 3252.3832 +YYCCC 7596.034033 4 0.0000 5013 | 8/56
45 h-m-p 0.0000 0.0000 3206.1639 YCCC 7592.127922 3 0.0000 5125 | 8/56
46 h-m-p 0.0000 0.0000 6123.4714 CCC 7589.780353 2 0.0000 5236 | 8/56
47 h-m-p 0.0000 0.0000 3372.9528 +YYYYYY 7585.093678 5 0.0000 5349 | 8/56
48 h-m-p 0.0000 0.0000 17066.6739 YCYCC 7581.247615 4 0.0000 5462 | 8/56
49 h-m-p 0.0000 0.0000 24868.2332 YCYCCC 7576.793222 5 0.0000 5577 | 8/56
50 h-m-p 0.0000 0.0000 12735.8338 +YCYCC 7573.486499 4 0.0000 5691 | 8/56
51 h-m-p 0.0000 0.0000 15688.5221 YCYCCC 7570.388762 5 0.0000 5806 | 8/56
52 h-m-p 0.0000 0.0000 11659.1787 YCYCCC 7568.455167 5 0.0000 5921 | 8/56
53 h-m-p 0.0000 0.0000 18091.7599 +YYCCC 7565.852137 4 0.0000 6035 | 8/56
54 h-m-p 0.0000 0.0000 59120.6176 YCYCCC 7563.363394 5 0.0000 6150 | 8/56
55 h-m-p 0.0000 0.0000 30689.2022 YCYCCC 7559.787674 5 0.0000 6265 | 8/56
56 h-m-p 0.0000 0.0000 131720.8176 +YYYYC 7554.860069 4 0.0000 6377 | 8/56
57 h-m-p 0.0000 0.0000 156789.3870 +YYYYYC 7544.627479 5 0.0000 6490 | 8/56
58 h-m-p 0.0000 0.0000 555949.5820 +CCC 7541.469953 2 0.0000 6602 | 8/56
59 h-m-p 0.0000 0.0000 74204.7411 ++ 7539.959330 m 0.0000 6709 | 9/56
60 h-m-p 0.0000 0.0000 9472.3845 YCCC 7537.675893 3 0.0000 6821 | 9/56
61 h-m-p 0.0000 0.0000 1274.2662 YYC 7537.225017 2 0.0000 6929 | 9/56
62 h-m-p 0.0000 0.0000 937.6410 YCC 7536.868177 2 0.0000 7038 | 9/56
63 h-m-p 0.0000 0.0000 848.8063 CCC 7536.409499 2 0.0000 7148 | 9/56
64 h-m-p 0.0000 0.0001 326.7733 CYC 7535.969039 2 0.0000 7257 | 9/56
65 h-m-p 0.0000 0.0001 143.0629 YYYC 7535.831043 3 0.0000 7366 | 9/56
66 h-m-p 0.0000 0.0003 325.2375 +CCC 7535.092084 2 0.0000 7477 | 9/56
67 h-m-p 0.0000 0.0002 846.3626 +YYYYC 7532.562317 4 0.0001 7588 | 9/56
68 h-m-p 0.0000 0.0001 4040.4785 +YYYYC 7521.051389 4 0.0000 7699 | 9/56
69 h-m-p 0.0000 0.0001 733.4193 CYCCC 7518.778609 4 0.0000 7812 | 9/56
70 h-m-p 0.0000 0.0001 574.0665 +YCCC 7516.218548 3 0.0001 7924 | 9/56
71 h-m-p 0.0000 0.0006 677.7082 +YCYCCC 7497.664210 5 0.0005 8040 | 9/56
72 h-m-p 0.0021 0.0105 11.6144 +YYYYC 7492.940950 4 0.0082 8151 | 9/56
73 h-m-p 0.0068 0.0398 13.9598 +YYYC 7479.905829 3 0.0259 8261 | 9/56
74 h-m-p 0.0142 0.0708 17.0416 +CYCCC 7453.103454 4 0.0597 8375 | 8/56
75 h-m-p 0.0000 0.0001 3847.4004 +YCCC 7451.354480 3 0.0000 8487 | 8/56
76 h-m-p 0.0006 0.0053 181.8165 CYCC 7450.064423 3 0.0009 8599 | 8/56
77 h-m-p 0.0183 0.1994 8.6093 ++ 7431.521369 m 0.1994 8706 | 8/56
78 h-m-p 0.0208 0.1038 15.8522 YCCC 7426.435056 3 0.0417 8818 | 8/56
79 h-m-p 0.1729 0.8647 1.0937 YCCC 7418.372561 3 0.3575 8930 | 8/56
80 h-m-p 0.0518 0.2589 5.5206 +YCCC 7412.934945 3 0.1431 9043 | 8/56
81 h-m-p 0.1636 0.8180 1.6862 +YYCCC 7406.876625 4 0.5394 9157 | 8/56
82 h-m-p 0.3682 1.8411 1.3340 +YCCC 7399.771767 3 1.0456 9270 | 8/56
83 h-m-p 0.3658 1.8289 1.4185 YCC 7395.163246 2 0.8052 9380 | 8/56
84 h-m-p 0.3323 1.6614 0.5261 +YYCCC 7390.624433 4 1.1515 9494 | 8/56
85 h-m-p 0.8763 4.3813 0.1832 YCCC 7386.795693 3 1.6271 9606 | 8/56
86 h-m-p 0.8814 5.3695 0.3382 YCC 7384.017416 2 1.4468 9716 | 8/56
87 h-m-p 0.9305 4.6526 0.1571 YC 7380.823689 1 2.0557 9824 | 8/56
88 h-m-p 0.9203 4.6014 0.1786 CCC 7379.505217 2 1.4251 9935 | 8/56
89 h-m-p 1.6000 8.0000 0.1012 CCC 7378.911931 2 1.8353 10046 | 8/56
90 h-m-p 1.2270 8.0000 0.1513 CCC 7378.522619 2 1.8266 10157 | 8/56
91 h-m-p 1.6000 8.0000 0.0784 CC 7378.244478 1 1.5318 10266 | 8/56
92 h-m-p 1.6000 8.0000 0.0490 YC 7377.951305 1 3.3040 10374 | 8/56
93 h-m-p 1.6000 8.0000 0.0770 CCCC 7377.650005 3 2.1008 10487 | 8/56
94 h-m-p 1.6000 8.0000 0.0617 CCC 7377.354711 2 2.0030 10598 | 8/56
95 h-m-p 1.1073 8.0000 0.1117 YC 7377.076990 1 2.4570 10706 | 8/56
96 h-m-p 1.3274 8.0000 0.2068 YCCC 7376.616701 3 2.6491 10818 | 8/56
97 h-m-p 1.6000 8.0000 0.2350 CCCC 7375.599588 3 2.7217 10931 | 8/56
98 h-m-p 1.2156 6.6351 0.5261 CCC 7374.990186 2 1.3556 11042 | 8/56
99 h-m-p 1.3832 6.9162 0.1782 CCC 7374.613233 2 1.4317 11153 | 8/56
100 h-m-p 0.6907 8.0000 0.3693 +YYC 7373.849919 2 2.3707 11263 | 8/56
101 h-m-p 1.0825 5.4126 0.2687 CCC 7373.192385 2 1.1973 11374 | 8/56
102 h-m-p 0.7153 8.0000 0.4498 CYC 7372.871028 2 0.8449 11484 | 8/56
103 h-m-p 1.6000 8.0000 0.0681 CYC 7372.667890 2 1.4495 11594 | 8/56
104 h-m-p 0.7470 8.0000 0.1321 +YC 7372.412485 1 2.3599 11703 | 8/56
105 h-m-p 1.6000 8.0000 0.0985 CCC 7372.084005 2 2.3272 11814 | 8/56
106 h-m-p 0.8119 6.9242 0.2824 YCCC 7371.805664 3 1.4135 11926 | 8/56
107 h-m-p 1.6000 8.0000 0.0760 CC 7371.632697 1 1.5355 12035 | 8/56
108 h-m-p 1.6000 8.0000 0.0483 CC 7371.520635 1 2.2492 12144 | 8/56
109 h-m-p 1.6000 8.0000 0.0269 CCC 7371.442254 2 1.7910 12255 | 8/56
110 h-m-p 1.1907 8.0000 0.0404 YC 7371.386115 1 2.2507 12363 | 8/56
111 h-m-p 1.6000 8.0000 0.0141 YC 7371.308314 1 3.6780 12471 | 8/56
112 h-m-p 1.6000 8.0000 0.0130 YC 7371.225307 1 2.7783 12579 | 8/56
113 h-m-p 0.9984 8.0000 0.0362 YC 7371.165599 1 2.2751 12687 | 8/56
114 h-m-p 1.6000 8.0000 0.0095 CC 7371.129120 1 1.9999 12796 | 8/56
115 h-m-p 0.8643 8.0000 0.0220 +YC 7371.098452 1 2.6169 12905 | 8/56
116 h-m-p 1.6000 8.0000 0.0126 CC 7371.072942 1 2.1463 13014 | 8/56
117 h-m-p 1.6000 8.0000 0.0108 CC 7371.051685 1 2.1223 13123 | 8/56
118 h-m-p 1.2520 8.0000 0.0183 YC 7371.033025 1 2.0497 13231 | 8/56
119 h-m-p 1.6000 8.0000 0.0166 YC 7371.013566 1 3.2442 13339 | 8/56
120 h-m-p 1.6000 8.0000 0.0213 +YC 7370.965372 1 4.0188 13448 | 8/56
121 h-m-p 1.6000 8.0000 0.0275 CC 7370.904442 1 2.3598 13557 | 8/56
122 h-m-p 1.6000 8.0000 0.0098 CC 7370.878333 1 1.7534 13666 | 8/56
123 h-m-p 1.2567 8.0000 0.0137 YC 7370.856279 1 3.0955 13774 | 8/56
124 h-m-p 1.6000 8.0000 0.0174 CC 7370.840487 1 2.2987 13883 | 8/56
125 h-m-p 1.6000 8.0000 0.0087 YC 7370.825351 1 3.7994 13991 | 8/56
126 h-m-p 1.6000 8.0000 0.0107 YC 7370.806370 1 2.9711 14099 | 8/56
127 h-m-p 1.6000 8.0000 0.0123 +YC 7370.774740 1 4.4904 14208 | 8/56
128 h-m-p 1.6000 8.0000 0.0255 +C 7370.668480 0 6.5121 14316 | 8/56
129 h-m-p 1.6000 8.0000 0.0583 YC 7370.481014 1 3.9536 14424 | 8/56
130 h-m-p 1.6000 8.0000 0.0909 CC 7370.395146 1 2.0628 14533 | 8/56
131 h-m-p 1.6000 8.0000 0.0518 CC 7370.354194 1 1.8310 14642 | 8/56
132 h-m-p 1.6000 8.0000 0.0257 YC 7370.324137 1 3.5190 14750 | 8/56
133 h-m-p 1.6000 8.0000 0.0356 CC 7370.308365 1 2.0202 14859 | 8/56
134 h-m-p 1.6000 8.0000 0.0134 ++ 7370.286813 m 8.0000 14966 | 8/56
135 h-m-p 1.6000 8.0000 0.0447 YC 7370.230864 1 3.9820 15074 | 8/56
136 h-m-p 1.6000 8.0000 0.0819 YC 7370.218325 1 1.3188 15182 | 8/56
137 h-m-p 1.6000 8.0000 0.0069 C 7370.216323 0 1.7154 15289 | 8/56
138 h-m-p 1.2549 8.0000 0.0094 YC 7370.214544 1 3.0132 15397 | 8/56
139 h-m-p 1.6000 8.0000 0.0095 +YC 7370.211631 1 4.3879 15506 | 8/56
140 h-m-p 1.6000 8.0000 0.0023 +Y 7370.200711 0 6.7964 15614 | 8/56
141 h-m-p 0.4416 8.0000 0.0350 +CC 7370.191361 1 2.2383 15724 | 8/56
142 h-m-p 1.6000 8.0000 0.0238 C 7370.190307 0 1.2898 15831 | 8/56
143 h-m-p 1.6000 8.0000 0.0037 +Y 7370.189748 0 5.1913 15939 | 8/56
144 h-m-p 1.6000 8.0000 0.0024 ++ 7370.183845 m 8.0000 16046 | 8/56
145 h-m-p 0.3801 8.0000 0.0502 +CC 7370.160837 1 1.6954 16156 | 8/56
146 h-m-p 1.6000 8.0000 0.0205 YC 7370.142620 1 2.8291 16264 | 8/56
147 h-m-p 1.6000 8.0000 0.0121 Y 7370.142432 0 1.0331 16371 | 8/56
148 h-m-p 1.6000 8.0000 0.0015 C 7370.142419 0 2.4174 16478 | 8/56
149 h-m-p 1.6000 8.0000 0.0001 ++ 7370.142344 m 8.0000 16585 | 8/56
150 h-m-p 0.1875 8.0000 0.0042 ++Y 7370.141842 0 2.3191 16694 | 8/56
151 h-m-p 1.6000 8.0000 0.0057 +YC 7370.140675 1 4.9885 16803 | 8/56
152 h-m-p 1.6000 8.0000 0.0015 Y 7370.140668 0 1.0308 16910 | 8/56
153 h-m-p 1.6000 8.0000 0.0004 C 7370.140668 0 0.4668 17017 | 8/56
154 h-m-p 0.4590 8.0000 0.0004 C 7370.140668 0 0.5314 17124 | 8/56
155 h-m-p 0.3720 8.0000 0.0005 Y 7370.140668 0 0.8351 17231 | 8/56
156 h-m-p 0.5302 8.0000 0.0008 +Y 7370.140668 0 1.5379 17339 | 8/56
157 h-m-p 0.7710 8.0000 0.0016 +C 7370.140664 0 3.9160 17447 | 8/56
158 h-m-p 1.1138 8.0000 0.0058 ++ 7370.140615 m 8.0000 17554 | 8/56
159 h-m-p 0.2506 8.0000 0.1847 ++Y 7370.139997 0 4.0095 17663 | 8/56
160 h-m-p 0.6463 8.0000 1.1459 YC 7370.139541 1 0.3462 17771 | 8/56
161 h-m-p 0.3069 8.0000 1.2926 YY 7370.138955 1 0.2438 17879 | 8/56
162 h-m-p 0.6358 8.0000 0.4957 CYC 7370.136432 2 0.8815 17989 | 8/56
163 h-m-p 1.6000 8.0000 0.2414 YC 7370.129976 1 1.0227 18097 | 8/56
164 h-m-p 0.7630 8.0000 0.3236 YC 7370.128417 1 0.7630 18205 | 8/56
165 h-m-p 0.5933 8.0000 0.4161 CYC 7370.122759 2 1.0300 18315 | 8/56
166 h-m-p 1.6000 8.0000 0.0705 CC 7370.118997 1 0.5642 18424 | 8/56
167 h-m-p 0.0956 8.0000 0.4161 +YCYC 7370.113859 3 0.9906 18536 | 8/56
168 h-m-p 1.6000 8.0000 0.1529 CC 7370.110123 1 1.6501 18645 | 8/56
169 h-m-p 1.6000 8.0000 0.0221 YC 7370.109372 1 0.7343 18753 | 8/56
170 h-m-p 0.0558 8.0000 0.2914 +YC 7370.108416 1 0.4935 18862 | 8/56
171 h-m-p 1.6000 8.0000 0.0493 C 7370.108273 0 1.3205 18969 | 8/56
172 h-m-p 1.6000 8.0000 0.0045 Y 7370.108259 0 0.7515 19076 | 8/56
173 h-m-p 0.6239 8.0000 0.0054 C 7370.108258 0 0.6991 19183 | 8/56
174 h-m-p 1.6000 8.0000 0.0013 -Y 7370.108258 0 0.1677 19291 | 8/56
175 h-m-p 0.2058 8.0000 0.0011 -C 7370.108258 0 0.0129 19399 | 8/56
176 h-m-p 0.0160 8.0000 0.0016 ----------C 7370.108258 0 0.0000 19516 | 8/56
177 h-m-p 0.0160 8.0000 0.5096 -------------.. | 8/56
178 h-m-p 0.0000 0.0138 0.1444 Y 7370.108258 0 0.0000 19741 | 8/56
179 h-m-p 0.0001 0.0620 0.0706 ---Y 7370.108258 0 0.0000 19851 | 8/56
180 h-m-p 0.0005 0.2584 0.0283 -----------.. | 8/56
181 h-m-p 0.0000 0.0036 0.6467 --------
Out..
lnL = -7370.108258
20081 lfun, 80324 eigenQcodon, 3072393 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) = -7394.871175 S = -7177.025513 -253.364884
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 276 patterns 40:25
did 20 / 276 patterns 40:25
did 30 / 276 patterns 40:25
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did 276 / 276 patterns 40:26end of tree file.
Time used: 40:26
Model 7: beta
TREE # 1
(4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.098310 0.020579 0.065518 0.076240 0.017474 0.016490 0.086878 0.029687 0.100384 0.039481 0.035689 0.109465 0.092615 0.044924 0.094463 0.066802 0.069045 0.094660 0.066129 0.051832 0.018299 0.091069 0.064281 0.076336 0.096232 0.039961 0.084198 0.107630 0.040647 0.040702 0.034301 0.029546 0.014427 0.077028 0.082756 0.081437 0.019275 0.056985 0.048901 0.061156 0.097246 0.025418 0.044179 0.052922 0.012258 0.047463 0.042277 0.016043 0.078772 0.036470 0.033141 7.534146 0.554004 1.698326
ntime & nrate & np: 51 1 54
Bounds (np=54):
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 0.000004 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 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 = 4.109356
np = 54
lnL0 = -9637.216599
Iterating by ming2
Initial: fx= 9637.216599
x= 0.09831 0.02058 0.06552 0.07624 0.01747 0.01649 0.08688 0.02969 0.10038 0.03948 0.03569 0.10947 0.09261 0.04492 0.09446 0.06680 0.06905 0.09466 0.06613 0.05183 0.01830 0.09107 0.06428 0.07634 0.09623 0.03996 0.08420 0.10763 0.04065 0.04070 0.03430 0.02955 0.01443 0.07703 0.08276 0.08144 0.01928 0.05699 0.04890 0.06116 0.09725 0.02542 0.04418 0.05292 0.01226 0.04746 0.04228 0.01604 0.07877 0.03647 0.03314 7.53415 0.55400 1.69833
1 h-m-p 0.0000 0.0000 5821.9173 ++ 9088.223468 m 0.0000 113 | 1/54
2 h-m-p 0.0000 0.0000 23573.6183 ++ 9076.811547 m 0.0000 224 | 2/54
3 h-m-p 0.0000 0.0000 1495036.9980 ++ 8942.846184 m 0.0000 334 | 3/54
4 h-m-p 0.0000 0.0000 1972067.6008 ++ 8775.153587 m 0.0000 443 | 3/54
5 h-m-p 0.0000 0.0000 144174.2012 ++ 8752.436344 m 0.0000 551 | 3/54
6 h-m-p 0.0000 0.0000 139451.3001 ++ 8678.888474 m 0.0000 659 | 3/54
7 h-m-p 0.0000 0.0000 146784.2589 ++ 8638.866928 m 0.0000 767 | 3/54
8 h-m-p 0.0000 0.0000 30982.1301 +YYCYCCC 8603.304758 6 0.0000 886 | 3/54
9 h-m-p 0.0000 0.0000 373146.0664 ++ 8580.853832 m 0.0000 994 | 3/54
10 h-m-p 0.0000 0.0000 8385.9093
h-m-p: 4.73418933e-24 2.36709467e-23 8.38590927e+03 8580.853832
.. | 3/54
11 h-m-p 0.0000 0.0000 56321.8733 YYCCYCC 8562.319137 6 0.0000 1217 | 3/54
12 h-m-p 0.0000 0.0000 5598.4227 ++ 8493.568632 m 0.0000 1325 | 4/54
13 h-m-p 0.0000 0.0000 18530.5699 ++ 8356.334642 m 0.0000 1433 | 5/54
14 h-m-p 0.0000 0.0000 364155.5787 ++ 8340.817019 m 0.0000 1540 | 4/54
15 h-m-p -0.0000 -0.0000 2420857.1691
h-m-p: -6.50100664e-27 -3.25050332e-26 2.42085717e+06 8340.817019
.. | 4/54
16 h-m-p 0.0000 0.0000 34874.5775 CCYYYCYCCC 8336.276813 9 0.0000 1764 | 4/54
17 h-m-p 0.0000 0.0000 4904.2101 ++ 8262.558060 m 0.0000 1871 | 3/54
18 h-m-p 0.0000 0.0000 258797.9149
h-m-p: 7.09213695e-25 3.54606847e-24 2.58797915e+05 8262.558060
.. | 3/54
19 h-m-p 0.0000 0.0000 133982.1268 YYYYYYC 8256.982074 6 0.0000 2089 | 3/54
20 h-m-p 0.0000 0.0000 5894.7857 ++ 8255.080813 m 0.0000 2197 | 4/54
21 h-m-p 0.0000 0.0000 13615.2320 ++ 8174.469603 m 0.0000 2305 | 3/54
22 h-m-p 0.0000 0.0000 4227198.3738
h-m-p: 6.56855023e-26 3.28427511e-25 4.22719837e+06 8174.469603
.. | 3/54
23 h-m-p 0.0000 0.0000 35312.3284 CCYYCYCCC 8170.062493 8 0.0000 2530 | 3/54
24 h-m-p 0.0000 0.0000 4693.5533 ++ 8124.193078 m 0.0000 2638 | 4/54
25 h-m-p 0.0000 0.0000 100456.0661 ++ 8046.835998 m 0.0000 2746 | 4/54
26 h-m-p 0.0000 0.0000 164229.2424
h-m-p: 3.49789310e-24 1.74894655e-23 1.64229242e+05 8046.835998
.. | 4/54
27 h-m-p 0.0000 0.0000 4828.0200 ++ 7984.433655 m 0.0000 2957 | 3/54
28 h-m-p 0.0000 0.0000 929229.9263
h-m-p: 2.29252697e-25 1.14626348e-24 9.29229926e+05 7984.433655
.. | 3/54
29 h-m-p 0.0000 0.0000 36653.0538 CCYYYCYCCC 7979.727094 9 0.0000 3183 | 3/54
30 h-m-p 0.0000 0.0000 5191.6479 ++ 7951.531728 m 0.0000 3291 | 4/54
31 h-m-p 0.0000 0.0000 24939.8283 ++ 7870.642457 m 0.0000 3399 | 4/54
32 h-m-p 0.0000 0.0000 55412.4694 ++ 7850.282720 m 0.0000 3506 | 5/54
33 h-m-p 0.0000 0.0000 226002.1867 ++ 7830.351782 m 0.0000 3613 | 5/54
34 h-m-p 0.0000 0.0000 172575.6246 ++ 7805.053068 m 0.0000 3719 | 5/54
35 h-m-p 0.0000 0.0000 164079.8620 ++ 7656.887565 m 0.0000 3825 | 5/54
36 h-m-p 0.0000 0.0000 71068.8186 +YYCYCYC 7644.458399 6 0.0000 3941 | 5/54
37 h-m-p 0.0000 0.0000 58169.8099 ++ 7621.527115 m 0.0000 4047 | 5/54
38 h-m-p 0.0000 0.0000 108093.6439 ++ 7607.648448 m 0.0000 4153 | 6/54
39 h-m-p 0.0000 0.0000 29977.0316 +YCYYCCC 7590.172753 6 0.0000 4269 | 6/54
40 h-m-p 0.0000 0.0000 99561.8877 +CYYCCCC 7569.103283 6 0.0000 4385 | 6/54
41 h-m-p 0.0000 0.0000 71869.0501 ++ 7560.003226 m 0.0000 4490 | 7/54
42 h-m-p 0.0000 0.0000 28097.8690 ++ 7559.029443 m 0.0000 4595 | 7/54
43 h-m-p -0.0000 -0.0000 7416.7653
h-m-p: -0.00000000e+00 -0.00000000e+00 7.41676531e+03 7559.029443
.. | 7/54
44 h-m-p 0.0000 0.0000 88780.4834 CYYYYYC 7548.043688 6 0.0000 4807 | 7/54
45 h-m-p 0.0000 0.0000 6535.7011 +YYCCC 7524.038956 4 0.0000 4918 | 7/54
46 h-m-p 0.0000 0.0000 3822.1045 ++ 7508.152373 m 0.0000 5022 | 8/54
47 h-m-p 0.0000 0.0000 12446.4737 +CYYYYC 7501.371273 5 0.0000 5133 | 8/54
48 h-m-p 0.0000 0.0000 35591.0617 +YYYCYCCC 7491.168786 7 0.0000 5247 | 8/54
49 h-m-p 0.0000 0.0000 19504.8268 +YYYCCC 7489.675686 5 0.0000 5358 | 8/54
50 h-m-p 0.0000 0.0000 10564.7033 +YYYCCC 7477.968950 5 0.0000 5469 | 8/54
51 h-m-p 0.0000 0.0000 9607.8829 +YYYYY 7475.016094 4 0.0000 5577 | 8/54
52 h-m-p 0.0000 0.0000 2344.5283 +YCYCC 7470.912576 4 0.0000 5687 | 8/54
53 h-m-p 0.0000 0.0000 3336.8439 YCYCCC 7468.999276 5 0.0000 5798 | 8/54
54 h-m-p 0.0000 0.0000 1555.4608 CYCCC 7468.393764 4 0.0000 5908 | 8/54
55 h-m-p 0.0000 0.0000 796.6878 YCCC 7468.022204 3 0.0000 6016 | 8/54
56 h-m-p 0.0000 0.0000 2776.6749 YCCC 7466.379550 3 0.0000 6124 | 8/54
57 h-m-p 0.0000 0.0000 3706.0297 YCYC 7465.110028 3 0.0000 6231 | 8/54
58 h-m-p 0.0000 0.0000 1364.7363 YCYCC 7464.812462 4 0.0000 6340 | 8/54
59 h-m-p 0.0000 0.0000 1640.2600 CCCC 7464.477487 3 0.0000 6449 | 8/54
60 h-m-p 0.0000 0.0000 726.3278 CCCC 7464.117098 3 0.0000 6558 | 8/54
61 h-m-p 0.0000 0.0000 1087.0381 CCC 7463.918076 2 0.0000 6665 | 8/54
62 h-m-p 0.0000 0.0000 836.0335 CYC 7463.577322 2 0.0000 6771 | 8/54
63 h-m-p 0.0000 0.0000 1626.4444 CCCC 7462.094308 3 0.0000 6880 | 8/54
64 h-m-p 0.0000 0.0001 2523.4643 CCC 7459.651315 2 0.0000 6987 | 8/54
65 h-m-p 0.0000 0.0000 3083.0586 +YCCC 7454.558200 3 0.0000 7096 | 8/54
66 h-m-p 0.0000 0.0000 10267.6944 +YYCCC 7447.702442 4 0.0000 7206 | 8/54
67 h-m-p 0.0000 0.0000 26819.3449 +YYCCC 7441.261804 4 0.0000 7316 | 8/54
68 h-m-p 0.0000 0.0000 50885.5242 YCYCCC 7432.387013 5 0.0000 7427 | 8/54
69 h-m-p 0.0000 0.0000 40107.3248 CYCCCC 7427.203940 5 0.0000 7539 | 8/54
70 h-m-p 0.0000 0.0000 2686.5600 CCCC 7426.412070 3 0.0000 7648 | 8/54
71 h-m-p 0.0000 0.0000 1282.0392 YCC 7426.118707 2 0.0000 7754 | 8/54
72 h-m-p 0.0000 0.0000 484.5431 YCC 7426.024673 2 0.0000 7860 | 8/54
73 h-m-p 0.0000 0.0001 132.4535 YC 7426.001803 1 0.0000 7964 | 8/54
74 h-m-p 0.0000 0.0002 92.1807 CC 7425.993058 1 0.0000 8069 | 8/54
75 h-m-p 0.0000 0.0001 53.4105 YC 7425.988353 1 0.0000 8173 | 8/54
76 h-m-p 0.0000 0.0005 90.4355 CC 7425.970803 1 0.0000 8278 | 8/54
77 h-m-p 0.0000 0.0003 268.4252 CC 7425.916362 1 0.0000 8383 | 8/54
78 h-m-p 0.0000 0.0010 528.7444 +YCC 7425.393096 2 0.0001 8490 | 8/54
79 h-m-p 0.0000 0.0001 4038.2984 YCCCC 7424.057223 4 0.0000 8600 | 8/54
80 h-m-p 0.0000 0.0000 21691.2065 YC 7419.357606 1 0.0000 8704 | 8/54
81 h-m-p 0.0000 0.0000 18024.0804 YCYCCC 7415.780588 5 0.0000 8815 | 8/54
82 h-m-p 0.0000 0.0000 27806.6913 CCC 7414.530187 2 0.0000 8922 | 8/54
83 h-m-p 0.0000 0.0000 14004.1263 CCCC 7412.623992 3 0.0000 9031 | 8/54
84 h-m-p 0.0000 0.0001 1421.9948 YC 7412.466967 1 0.0000 9135 | 7/54
85 h-m-p 0.0000 0.0002 617.8345 --YYC 7412.408968 2 0.0000 9242 | 7/54
86 h-m-p 0.0000 0.0001 104.0723 CC 7412.404543 1 0.0000 9348 | 7/54
87 h-m-p 0.0001 0.0012 6.3953 YC 7412.404200 1 0.0000 9453 | 7/54
88 h-m-p 0.0000 0.0025 5.4494 C 7412.403744 0 0.0000 9557 | 7/54
89 h-m-p 0.0001 0.0327 1.5113 ++YC 7412.292846 1 0.0017 9664 | 7/54
90 h-m-p 0.0000 0.0003 223.0895 +++ 7407.147365 m 0.0003 9769 | 8/54
91 h-m-p 0.1940 1.1152 0.3449 +YYYCC 7400.458582 4 0.7179 9879 | 8/54
92 h-m-p 0.3507 1.7533 0.2382 YCCCC 7397.830895 4 0.7137 9989 | 8/54
93 h-m-p 0.5999 2.9996 0.2493 CCCC 7396.376477 3 1.0824 10098 | 8/54
94 h-m-p 0.4172 2.0862 0.4354 YCCCC 7395.084189 4 0.9950 10208 | 8/54
95 h-m-p 0.2487 1.2746 1.7417 +YYYYYYYCYC 7387.150706 10 1.0368 10323 | 8/54
96 h-m-p 0.0105 0.0524 7.8757 YYC 7386.984793 2 0.0089 10428 | 8/54
97 h-m-p 0.1644 0.8218 0.2779 YCYYYC 7384.411378 5 0.5309 10538 | 8/54
98 h-m-p 0.1987 0.9935 0.5391 CYC 7381.796227 2 0.1741 10644 | 8/54
99 h-m-p 0.6534 3.2671 0.1167 CCC 7380.209345 2 0.9093 10751 | 8/54
100 h-m-p 0.6874 3.4372 0.1276 CCC 7379.573915 2 0.7785 10858 | 8/54
101 h-m-p 0.8606 4.3032 0.0559 CYC 7379.269298 2 1.0752 10964 | 8/54
102 h-m-p 1.6000 8.0000 0.0294 CC 7379.062943 1 1.4581 11069 | 8/54
103 h-m-p 1.2200 8.0000 0.0351 C 7378.811795 0 1.2200 11172 | 8/54
104 h-m-p 0.7065 3.8971 0.0606 CCC 7378.331099 2 1.1612 11279 | 8/54
105 h-m-p 0.7776 3.8879 0.0345 YCCC 7377.725718 3 1.6829 11387 | 8/54
106 h-m-p 0.8698 8.0000 0.0668 YCC 7377.290539 2 1.6386 11493 | 8/54
107 h-m-p 0.6491 3.2456 0.0241 CYCC 7377.122118 3 1.0841 11601 | 8/54
108 h-m-p 0.5191 8.0000 0.0504 CYC 7377.067940 2 0.5884 11707 | 8/54
109 h-m-p 1.2274 8.0000 0.0241 YC 7377.044390 1 0.9057 11811 | 8/54
110 h-m-p 1.6000 8.0000 0.0038 YC 7377.037257 1 1.2686 11915 | 8/54
111 h-m-p 1.4546 8.0000 0.0033 CC 7377.035069 1 1.8595 12020 | 8/54
112 h-m-p 1.6000 8.0000 0.0014 CC 7377.033968 1 2.4692 12125 | 8/54
113 h-m-p 1.6000 8.0000 0.0006 C 7377.033640 0 1.5947 12228 | 8/54
114 h-m-p 1.6000 8.0000 0.0004 C 7377.033489 0 1.4217 12331 | 8/54
115 h-m-p 1.1072 8.0000 0.0005 C 7377.033429 0 1.3118 12434 | 8/54
116 h-m-p 1.6000 8.0000 0.0001 C 7377.033405 0 1.4394 12537 | 8/54
117 h-m-p 1.4128 8.0000 0.0001 Y 7377.033401 0 0.9581 12640 | 8/54
118 h-m-p 1.2964 8.0000 0.0001 Y 7377.033400 0 0.7321 12743 | 8/54
119 h-m-p 1.6000 8.0000 0.0000 Y 7377.033400 0 0.6702 12846 | 8/54
120 h-m-p 0.8699 8.0000 0.0000 Y 7377.033399 0 0.5061 12949 | 8/54
121 h-m-p 0.3936 8.0000 0.0000 Y 7377.033399 0 0.6976 13052 | 8/54
122 h-m-p 1.3554 8.0000 0.0000 C 7377.033399 0 1.3077 13155 | 8/54
123 h-m-p 1.6000 8.0000 0.0000 ++ 7377.033398 m 8.0000 13258 | 8/54
124 h-m-p 1.6000 8.0000 0.0000 -----C 7377.033398 0 0.0004 13366
Out..
lnL = -7377.033398
13367 lfun, 147037 eigenQcodon, 6817170 P(t)
end of tree file.
Time used: 1:45:54
Model 8: beta&w>1
TREE # 1
(4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.074797 0.090583 0.089662 0.091641 0.050918 0.058130 0.088138 0.106867 0.011264 0.032836 0.062229 0.023877 0.100265 0.101725 0.072406 0.044066 0.036995 0.060560 0.026648 0.094483 0.051894 0.019621 0.101288 0.067936 0.081970 0.076186 0.010193 0.047769 0.097941 0.108398 0.033230 0.059491 0.011755 0.020201 0.089935 0.066446 0.087905 0.042048 0.019349 0.101719 0.057002 0.067046 0.101925 0.103456 0.105022 0.077248 0.034485 0.095789 0.086684 0.089763 0.044121 7.360193 0.900000 0.425597 1.763775 1.300000
ntime & nrate & np: 51 2 56
Bounds (np=56):
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 0.000004 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 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 = 3.714592
np = 56
lnL0 = -9611.888991
Iterating by ming2
Initial: fx= 9611.888991
x= 0.07480 0.09058 0.08966 0.09164 0.05092 0.05813 0.08814 0.10687 0.01126 0.03284 0.06223 0.02388 0.10026 0.10173 0.07241 0.04407 0.03700 0.06056 0.02665 0.09448 0.05189 0.01962 0.10129 0.06794 0.08197 0.07619 0.01019 0.04777 0.09794 0.10840 0.03323 0.05949 0.01175 0.02020 0.08994 0.06645 0.08791 0.04205 0.01935 0.10172 0.05700 0.06705 0.10193 0.10346 0.10502 0.07725 0.03449 0.09579 0.08668 0.08976 0.04412 7.36019 0.90000 0.42560 1.76377 1.30000
1 h-m-p 0.0000 0.0000 6448.6168 ++ 9123.143497 m 0.0000 117 | 0/56
2 h-m-p 0.0000 0.0000 7527.2970 ++ 8572.204435 m 0.0000 232 | 1/56
3 h-m-p 0.0000 0.0000 95373.3833 ++ 8543.831452 m 0.0000 347 | 2/56
4 h-m-p 0.0000 0.0000 39418.6653 ++ 8382.125367 m 0.0000 461 | 2/56
5 h-m-p 0.0000 0.0000 35108.6635 ++ 8316.404746 m 0.0000 574 | 2/56
6 h-m-p 0.0000 0.0000 584051.9589 ++ 8274.344321 m 0.0000 687 | 2/56
7 h-m-p 0.0000 0.0000 152626.2081 ++ 8194.194191 m 0.0000 800 | 2/56
8 h-m-p 0.0000 0.0000 116300.2269 ++ 8156.712369 m 0.0000 913 | 3/56
9 h-m-p 0.0000 0.0000 254555.0868 ++ 8144.581523 m 0.0000 1026 | 4/56
10 h-m-p 0.0000 0.0000 301511.6306 ++ 7950.150275 m 0.0000 1138 | 4/56
11 h-m-p 0.0000 0.0000 89719.5558 ++ 7933.186021 m 0.0000 1249 | 4/56
12 h-m-p 0.0000 0.0000 121845.2720 +YCYYC 7893.652810 4 0.0000 1367 | 4/56
13 h-m-p 0.0000 0.0000 30935.5077 ++ 7884.676927 m 0.0000 1478 | 4/56
14 h-m-p 0.0000 0.0000 915133.9381 ++ 7834.092793 m 0.0000 1589 | 4/56
15 h-m-p 0.0000 0.0000 132072.7844
h-m-p: 1.14590262e-22 5.72951309e-22 1.32072784e+05 7834.092793
.. | 4/56
16 h-m-p 0.0000 0.0000 146435.2864 -CYYYCCCCC 7814.676152 8 0.0000 1822 | 4/56
17 h-m-p 0.0000 0.0000 6323.8440 +CCCC 7766.248465 3 0.0000 1941 | 4/56
18 h-m-p 0.0000 0.0000 7450.2956 +CYCYYCC 7750.340411 6 0.0000 2063 | 4/56
19 h-m-p 0.0000 0.0000 10042.6073 ++ 7735.420702 m 0.0000 2174 | 5/56
20 h-m-p 0.0000 0.0000 42870.5753 ++ 7677.060224 m 0.0000 2285 | 4/56
21 h-m-p -0.0000 -0.0000 10270335.8778
h-m-p: -3.01558608e-26 -1.50779304e-25 1.02703359e+07 7677.060224
.. | 4/56
22 h-m-p 0.0000 0.0000 34941.7169 CYYCYCCC 7672.220585 7 0.0000 2515 | 4/56
23 h-m-p 0.0000 0.0000 4131.3219 ++ 7661.660127 m 0.0000 2626 | 5/56
24 h-m-p 0.0000 0.0000 12386.0924 ++ 7642.020031 m 0.0000 2737 | 6/56
25 h-m-p 0.0000 0.0000 55700.5479 ++ 7594.030388 m 0.0000 2847 | 7/56
26 h-m-p 0.0000 0.0000 29460.3371 ++ 7575.299051 m 0.0000 2956 | 8/56
27 h-m-p 0.0000 0.0000 13663.9692 ++ 7547.728918 m 0.0000 3064 | 8/56
28 h-m-p 0.0000 0.0000 52395.2005 +YYYCCC 7545.979058 5 0.0000 3179 | 8/56
29 h-m-p 0.0000 0.0000 23171.1844 +YYCYYCC 7539.859098 6 0.0000 3296 | 8/56
30 h-m-p 0.0000 0.0000 10224.3219 +YYYYC 7533.418010 4 0.0000 3408 | 8/56
31 h-m-p 0.0000 0.0000 14183.8259 +YYCCC 7529.773215 4 0.0000 3522 | 8/56
32 h-m-p 0.0000 0.0000 7577.0657 +YYCCCC 7525.772069 5 0.0000 3638 | 8/56
33 h-m-p 0.0000 0.0000 8122.7888 +YCYCC 7521.997836 4 0.0000 3752 | 8/56
34 h-m-p 0.0000 0.0000 6634.5626 YCCCC 7518.074458 4 0.0000 3866 | 8/56
35 h-m-p 0.0000 0.0000 7741.8379 YCCCC 7514.257024 4 0.0000 3980 | 8/56
36 h-m-p 0.0000 0.0000 3397.2143 YCCCC 7510.126658 4 0.0000 4094 | 8/56
37 h-m-p 0.0000 0.0000 2200.2409 YCCC 7507.524698 3 0.0000 4206 | 8/56
38 h-m-p 0.0000 0.0000 4606.5990 YCCC 7505.900631 3 0.0000 4318 | 8/56
39 h-m-p 0.0000 0.0000 1613.0780 +YYCCC 7503.698518 4 0.0000 4432 | 8/56
40 h-m-p 0.0000 0.0000 7078.6924 CYCCC 7499.678710 4 0.0000 4546 | 8/56
41 h-m-p 0.0000 0.0000 3629.6985 +YYYYCC 7494.306365 5 0.0000 4660 | 8/56
42 h-m-p 0.0000 0.0000 19164.3285 +YYYYYC 7488.096367 5 0.0000 4773 | 8/56
43 h-m-p 0.0000 0.0000 56078.0200 YCC 7486.093879 2 0.0000 4883 | 8/56
44 h-m-p 0.0000 0.0000 4094.5542 +YYYCCC 7478.730080 5 0.0000 4998 | 8/56
45 h-m-p 0.0000 0.0000 13171.6686 +YCCCC 7458.700020 4 0.0000 5113 | 8/56
46 h-m-p 0.0000 0.0000 9011.1778 +CYC 7447.750359 2 0.0000 5224 | 8/56
47 h-m-p 0.0000 0.0000 4962.4282 ++ 7443.870281 m 0.0000 5331 | 8/56
48 h-m-p 0.0000 0.0000 499.3019
h-m-p: 0.00000000e+00 0.00000000e+00 4.99301878e+02 7443.870281
.. | 8/56
49 h-m-p 0.0000 0.0000 28730.9115 CYCYC 7441.589892 4 0.0000 5548 | 8/56
50 h-m-p 0.0000 0.0000 3346.3580 +YYCCC 7434.991436 4 0.0000 5662 | 8/56
51 h-m-p 0.0000 0.0000 3394.3761 +YYCYCYC 7430.106368 6 0.0000 5779 | 8/56
52 h-m-p 0.0000 0.0000 14188.3257 +YYCYCYC 7424.597559 6 0.0000 5895 | 8/56
53 h-m-p 0.0000 0.0000 2948.7082 +YYYYC 7419.172003 4 0.0000 6007 | 8/56
54 h-m-p 0.0000 0.0000 6060.5282 YCCC 7415.844500 3 0.0000 6119 | 8/56
55 h-m-p 0.0000 0.0000 6923.5857 YCCC 7414.031201 3 0.0000 6231 | 8/56
56 h-m-p 0.0000 0.0000 2059.8950 YC 7411.047153 1 0.0000 6339 | 8/56
57 h-m-p 0.0000 0.0000 1510.7985 YCYC 7410.148429 3 0.0000 6450 | 8/56
58 h-m-p 0.0000 0.0000 1258.7031 YCCC 7407.987981 3 0.0000 6562 | 8/56
59 h-m-p 0.0000 0.0000 2763.7542 YCC 7407.109405 2 0.0000 6672 | 8/56
60 h-m-p 0.0000 0.0000 2692.8860 +YCCC 7404.306321 3 0.0000 6785 | 8/56
61 h-m-p 0.0000 0.0000 2644.1759 YCCCC 7401.834805 4 0.0000 6899 | 8/56
62 h-m-p 0.0000 0.0000 1714.4406 C 7401.233145 0 0.0000 7006 | 8/56
63 h-m-p 0.0000 0.0000 686.8224 CYC 7400.812075 2 0.0000 7116 | 8/56
64 h-m-p 0.0000 0.0001 607.8886 YCCC 7400.452670 3 0.0000 7228 | 8/56
65 h-m-p 0.0000 0.0000 1267.9866 YCCCC 7399.349979 4 0.0000 7342 | 8/56
66 h-m-p 0.0000 0.0000 2857.8685 YCCC 7397.170485 3 0.0000 7454 | 8/56
67 h-m-p 0.0000 0.0000 9462.4784 +YYCCC 7395.017015 4 0.0000 7568 | 8/56
68 h-m-p 0.0000 0.0000 11345.4587 CCCC 7391.532986 3 0.0000 7681 | 8/56
69 h-m-p 0.0000 0.0000 6212.3549 CCCC 7388.091595 3 0.0000 7794 | 8/56
70 h-m-p 0.0000 0.0000 3693.1198 CCCC 7386.851474 3 0.0000 7907 | 8/56
71 h-m-p 0.0000 0.0000 2465.0083 CCCC 7385.767151 3 0.0000 8020 | 8/56
72 h-m-p 0.0000 0.0000 1954.0717 YC 7385.034602 1 0.0000 8128 | 8/56
73 h-m-p 0.0000 0.0000 505.6317 YC 7384.894939 1 0.0000 8236 | 8/56
74 h-m-p 0.0000 0.0000 222.2951 YC 7384.859373 1 0.0000 8344 | 8/56
75 h-m-p 0.0000 0.0001 97.0241 CC 7384.850255 1 0.0000 8453 | 8/56
76 h-m-p 0.0000 0.0007 30.0920 YC 7384.847660 1 0.0000 8561 | 8/56
77 h-m-p 0.0000 0.0006 32.3462 C 7384.844286 0 0.0000 8668 | 8/56
78 h-m-p 0.0000 0.0007 75.5497 +CC 7384.810922 1 0.0001 8778 | 8/56
79 h-m-p 0.0000 0.0001 1852.5043 CCC 7384.586908 2 0.0000 8889 | 8/56
80 h-m-p 0.0000 0.0000 8325.7026 YCCC 7383.774580 3 0.0000 9001 | 8/56
81 h-m-p 0.0000 0.0000 32231.6543 CCC 7382.577068 2 0.0000 9112 | 8/56
82 h-m-p 0.0000 0.0001 19636.1292 CC 7380.557169 1 0.0000 9221 | 8/56
83 h-m-p 0.0000 0.0000 21840.7865 CCCC 7379.100351 3 0.0000 9334 | 8/56
84 h-m-p 0.0000 0.0000 28760.9928 CYC 7377.281989 2 0.0000 9444 | 8/56
85 h-m-p 0.0000 0.0000 41144.7747 CCCC 7375.792588 3 0.0000 9557 | 8/56
86 h-m-p 0.0000 0.0001 4042.2336 YCC 7375.563872 2 0.0000 9667 | 8/56
87 h-m-p 0.0000 0.0001 742.5951 CC 7375.528349 1 0.0000 9776 | 8/56
88 h-m-p 0.0000 0.0002 321.2011 YC 7375.507143 1 0.0000 9884 | 8/56
89 h-m-p 0.0000 0.0004 140.0612 CC 7375.499347 1 0.0000 9993 | 8/56
90 h-m-p 0.0000 0.0003 52.2917 C 7375.497716 0 0.0000 10100 | 8/56
91 h-m-p 0.0001 0.0033 1.9740 -C 7375.497652 0 0.0000 10208 | 8/56
92 h-m-p 0.0000 0.0180 2.5969 ++C 7375.489673 0 0.0006 10317 | 8/56
93 h-m-p 0.0000 0.0006 319.9774 +C 7375.417466 0 0.0000 10425 | 8/56
94 h-m-p 0.0000 0.0004 1937.1300 ++CCCC 7373.426859 3 0.0002 10540 | 8/56
95 h-m-p 0.0000 0.0001 324.5673 YC 7373.420529 1 0.0000 10648 | 8/56
96 h-m-p 0.0008 0.3947 2.1352 ++++YYYYC 7372.096972 4 0.2022 10763 | 8/56
97 h-m-p 0.1732 0.8662 0.7330 YCCC 7371.582919 3 0.2859 10875 | 8/56
98 h-m-p 0.7884 4.5882 0.2658 CCC 7371.266206 2 0.6639 10986 | 8/56
99 h-m-p 0.6834 3.4171 0.2186 CCC 7370.795343 2 1.1235 11097 | 8/56
100 h-m-p 0.4926 2.4631 0.1658 CYCC 7370.556531 3 0.8923 11209 | 8/56
101 h-m-p 0.5988 3.8409 0.2471 CC 7370.390585 1 0.7745 11318 | 8/56
102 h-m-p 0.9681 8.0000 0.1977 CCC 7370.305917 2 0.8925 11429 | 8/56
103 h-m-p 1.6000 8.0000 0.0809 YC 7370.273635 1 1.1562 11537 | 8/56
104 h-m-p 0.9701 8.0000 0.0964 YC 7370.262568 1 0.6496 11645 | 8/56
105 h-m-p 1.6000 8.0000 0.0243 C 7370.251640 0 1.6560 11752 | 8/56
106 h-m-p 1.6000 8.0000 0.0127 YC 7370.235788 1 2.9598 11860 | 8/56
107 h-m-p 1.0981 8.0000 0.0342 YC 7370.222265 1 2.0862 11968 | 8/56
108 h-m-p 1.6000 8.0000 0.0236 C 7370.217700 0 1.7184 12075 | 8/56
109 h-m-p 1.6000 8.0000 0.0097 CC 7370.215640 1 2.3070 12184 | 8/56
110 h-m-p 1.6000 8.0000 0.0104 CC 7370.214021 1 2.4399 12293 | 8/56
111 h-m-p 1.6000 8.0000 0.0148 YC 7370.212748 1 2.6367 12401 | 8/56
112 h-m-p 1.3867 8.0000 0.0282 ++ 7370.206347 m 8.0000 12508 | 8/56
113 h-m-p 1.5240 8.0000 0.1480 +CC 7370.186289 1 5.5700 12618 | 8/56
114 h-m-p 1.6000 8.0000 0.2342 YC 7370.168627 1 2.7972 12726 | 8/56
115 h-m-p 1.6000 8.0000 0.3829 YC 7370.154097 1 2.5647 12834 | 8/56
116 h-m-p 1.6000 8.0000 0.3673 CY 7370.145783 1 2.1649 12943 | 8/56
117 h-m-p 1.2714 8.0000 0.6254 CC 7370.140232 1 1.7491 13052 | 8/56
118 h-m-p 1.6000 8.0000 0.5015 CY 7370.136011 1 2.0394 13161 | 8/56
119 h-m-p 1.3368 8.0000 0.7651 CC 7370.132925 1 1.9324 13270 | 8/56
120 h-m-p 1.6000 8.0000 0.4875 YC 7370.131072 1 2.5380 13378 | 8/56
121 h-m-p 1.2903 8.0000 0.9589 C 7370.130264 0 1.2903 13485 | 8/56
122 h-m-p 1.6000 8.0000 0.3760 C 7370.129957 0 2.1787 13592 | 8/56
123 h-m-p 1.2566 8.0000 0.6519 C 7370.129724 0 1.6739 13699 | 8/56
124 h-m-p 1.6000 8.0000 0.2403 C 7370.129682 0 1.3322 13806 | 8/56
125 h-m-p 1.3570 8.0000 0.2359 Y 7370.129676 0 1.0024 13913 | 8/56
126 h-m-p 1.6000 8.0000 0.1031 C 7370.129674 0 1.5908 14020 | 8/56
127 h-m-p 1.6000 8.0000 0.0234 Y 7370.129673 0 3.6258 14127 | 8/56
128 h-m-p 1.5812 8.0000 0.0536 Y 7370.129673 0 0.2828 14234 | 8/56
129 h-m-p 0.4918 8.0000 0.0308 Y 7370.129673 0 0.0950 14341 | 8/56
130 h-m-p 0.0454 8.0000 0.0645 +Y 7370.129673 0 0.1219 14449 | 8/56
131 h-m-p 0.4750 8.0000 0.0165 ---C 7370.129673 0 0.0019 14559 | 8/56
132 h-m-p 0.0160 8.0000 0.0335 -------C 7370.129673 0 0.0000 14673 | 8/56
133 h-m-p 0.0160 8.0000 0.0012 C 7370.129673 0 0.0189 14780 | 8/56
134 h-m-p 0.1944 8.0000 0.0001 ----Y 7370.129673 0 0.0003 14891
Out..
lnL = -7370.129673
14892 lfun, 178704 eigenQcodon, 8354412 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) = -7408.974344 S = -7177.037329 -247.787993
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 276 patterns 3:06:08
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did 276 / 276 patterns 3:06:13end of tree file.
Time used: 3:06:13
The loglikelihoods for models M1, M2, M7 and M8 are -7374.864266 -7370.108258 -7377.033398 -7370.129673 respectively
The loglikelihood for model M2a is significantly different from that for M1a. Twice the difference is 9.512016
The loglikelihood for model M8 is significantly different from that for M7. Twice the difference is 13.807450
CLUSTAL W (1.8) multiple sequence alignment (ALTER 1.3.3)
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPA
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSTYPA
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 MKLFLILFVLPLASCFSTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPA
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPA
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPA
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSA
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSA
*******::***.*** ******.:********************.**:******* *.*
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 NGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNV
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 NGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNNISLNAPVTLKICKFG-NTSFDFLSNV
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFG-NTTFDFLSNS
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFG-NTTFDFLSNS
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 KGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNA
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 KGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNA
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 NGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNV
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNS
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNS
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 NGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNV
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 KGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNA
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 NGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNV
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNS
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNS
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 KGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNA
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 NGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNA
:********:********:****.******:**:* ***.******** **:******
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 STSHDCIVNLSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSES
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 STSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSES
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 STSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSES
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 STSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSES
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 STSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSES
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYS
*:*..**** ******.*****************.*********************. *
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 CVFSVVNATITVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTN
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTN
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTN
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTN
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 CVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTN
*********:****** ***:*****************************.*********
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNL
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSFADVMRYNL
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNL
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 DSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 DSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNL
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNL
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 DSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNL
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNL
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 DSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNL
.************************************************:*..*******
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 NLSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 NFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 NFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 NFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 NFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 NFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 NFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 NFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 NFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTT
*:*:**:*****************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 HVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 HVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATF
*******:*** ************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYY
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYY
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYY
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYY
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 VDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYY
**********:***************************************:*********
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNLSLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNLSLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 QHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSS
**********************:***:*********************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTW
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 WHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTW
******************************* ****************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGN
************************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 LLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNG
************************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 GNNCTTAVMIYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 GNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQI
.******** **************** *********************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 TSIPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 TSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAF
** *********************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGL
**********************:*************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNY
************************************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITHTAEAIHTVTIALNKIQDVVNQ
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 VALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQ
**************************************:*********************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIHAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 QGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNK
***********************:************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 YTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKN
*****.********:*********************************************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 VKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 VKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 VKAWSGVCVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRIMFQPRLPVLSDFVQIYNCNVTFV
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRIMFQPRLPVLSDFVQIYNCNVTFV
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 VKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFV
******:***.*************************:***********************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 NISRVKLHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEVKTA
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYFNLSSELKQLEAKTA
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 NISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTA
*****:***************************************:**********.***
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISAVFVVLLSLLVFCCLS
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 SLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLS
********************************************.***************
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 TGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
**********************************:*
>UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTATTTTGCCCCTGGTTTCTTGCTTTTCTACATGTAACAGTAATGCTAGTATTTCTATGTTACAATTAGGTGTTCCTGATAACTCTTCAACTATTGTCACAGGTTTGTTGCCAGTCCATTGGATTTGTGCTAATCAGAGTACATCTAGTTACCCAGCCAACGGCTTTTTCTATATTGATGTTGGTAAACACCGTAGTGCCTTTGCACTCCATAGTGGTTATTATGATGCTAACCAGTATTATATTTATCTCACTAATAAAATACATTTAAATGCTCCTGTCACTCTGAAGATTTGTAAGTTTGGA---AACACTTCTTTTGATTTTTTAAGTAATGTTTCTACTTCTCATGATTGTATAGTTAATTTGTCATTCACAGAACAGTTAGGTGTGCCTTTGGGCATAACTATATCGGGTGAAACTGTACGTTTGCATTTATATAATGCAACTCGTACTTTTTATGTGCCGGCCGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAGTGAATCCTGTGTTTTTAGTGTTGTCAATGCCACCATTACTGTTAATGTCACCACACTTAATGGCCGTATAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACATTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACCTCAGTGCTAATTCTGTGGACAATCTTAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCATATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCTGTTATGATTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGTTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACATACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCATGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTATGAATTTGAAAAGGTCCACGTTCAA >ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTATTTTGCCCCTGGTTTCTTGCTTTTCTACATGTAACAGTAATGCTAGTATTTCTATGTTACAATTAGGTGTTCCTGATAACTCTTCAACTATTGTCACAGGTTTGTTGCCAGTCCATTGGATTTGTGCTAATCAGAGCACATCTACTTACCCAGCCAATGGCTTTTTCTATATTGATGTCGGTAAACACCGTAGTGCTTTTGCACTCCATAGTGGTTATTATGATGCTAACCAGTATTATATTTATCTCACTAATAATATAAGTTTAAATGCTCCTGTCACTCTGAAGATTTGTAAGTTTGGA---AACACTTCTTTTGATTTTTTAAGTAATGTTTCTACTTCTCATCATTGTATAGTTAACTCGTCATTCACAGAACAGTTAGGTGTGCCTTTGGGCATAACTATATCGGGTGAAACTGTACGTTTGCATTTATATAATGCAACTCGCACCTTTTATGTGCCAGCCGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAGTGAATCCTGTGTTTTTAGTGTTGTCAATGCTACCGTTACTGTTAATGTCACCACACTTAATGGCCGTATAGTTAATTACACTGTTTGTGATGATTGTAATGGTTACACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTTTCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCTACATTAGTGGACGGTGTCTCTAGACTTTACCAACCACTTCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCGACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAATGGTTATCAACATCATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTTCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCTTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCATTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACGACAGCTAGTGCTACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGACACTTATGTTGCACTTCCTATTTATTATCAACATACTGATATAAATTTTACTGCGACTGCTTCTTTTGGTGGTTCTTGTTATGTTTGCAAACCACATCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATTACTGCTAATTTGTCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCCCGTTGTAAGAATTTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTTGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAATCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTATAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTTGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATTGTCAATTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCATGGTCGGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCAAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAATTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGTTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAACCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGT---AACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACCTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTTAAGAGTGGTGTTATAGTTTTCAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCTTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTTAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAACACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATTTATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTCTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTTTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGCAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGTATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAACCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGT---AACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACCTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTTAAGAGTGGTGTTATAGTTTTCAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCTTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTTAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAACACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATTTATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTCTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTTTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGCAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCTTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGACATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTACAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGGTTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCATGGTCGGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAATTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTAGACGGGGTCTCTAGACTTTACCAACCACTCCGTCTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAACTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCGCTTGAAGCCACCTGGCATTATACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATTGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGACTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCAAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTTGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCTTCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACATTCAA >NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATATCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAAAGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGA---AACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTACGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAATTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTCAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGATGGAGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTACCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGTGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGGTTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACAGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCACGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCTATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTATCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGTATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTTTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTTTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTAGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTATACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATCTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTCCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATACCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCTACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGGTTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCATGGTCGGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAATTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATATCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAAAGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGA---AACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTACGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAATTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTCAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGATGGAGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTACCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGTGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGGTTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACAGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCACGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCTATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTATCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGTATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGACATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCTACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGGTTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCATGGTCGGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAATTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTACCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTCTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAACTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCGCTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGACTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCAAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTGTCTGTGTTGATGGTATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTTGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCTTCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACATTCAA >NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTATTTTGCCCCTGGTTTCTTGCTTTTCTACATGTAACAGTAATGCTAGTATTTCTATGTTACAATTAGGTGTTCCTGATAACTCTTCAACTATTGTCACAGGTTTGTTGCCAGTCCATTGGATTTGTGCTAATCAGAGCACATCTAGTTACCCAGCCAATGGCTTTTTCTATATTGATGTCGGTAAACACCGTAGTGCTTTTGCACTCCATAGTGGTTATTATGATGCTAACCAGTATTATATTTATCTCACTAATAAAATACATTTAAATGCTCCTGTCACTCTGAAGATTTGTAAGTTTGGA---AACACTTCTTTTGATTTTTTAAGTAATGTTTCTACTTCTCATCATTGTATAGTTAATTCGTCATTCACAGAACAGTTAGGTGTGCCTTTGGGCATAACTATATCGGGTGAAACTGTACGTTTGCATTTATATAATGCAACTCGCACCTTTTATGTGCCAGCCGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAGTGAATCCTGTGTTTTTAGTGTTGTCAATGCTACCGTTACTGTTAATGTCACCACACTTAATGGCCGTATAGTTAATTACACTGTTTGTGATGATTGTAATGGTTACACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTTTCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCTACACTAGTGGACGGTGTCTCTAGACTTTACCAACCACTTCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCGACTGGTTTTGTTTATTTTAACGCCACTGGTTCTGATGTTAATTGTAATGGTTATCAACATCATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTTCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCTTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCATTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACGACAGCTAGTGCTACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGATACTTATGTTGCACTTCCTATTTATTATCAACATACTGATATAAATTTTACTGCGACTGCATCTTTTGGTGGTTCTTGTTATGTTTGCAAACCACATCAGGTTAATATATCTCTTAATGGTAATACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAATTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAATCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGTAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACCTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTACAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATCTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACAGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGTCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTACGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTATTATAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTCTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGCTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTCTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAACTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCGCTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGACTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCAAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGATCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTTGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCTTCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACATTCAA >N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGATTCCACACTAGTGGACGGGGTTTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTATCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGACATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGATTCCACACTAGTGGACGGGGTTTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGACATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCTCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCTACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTAGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCTGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGGTTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCATGGTCGGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAATTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGACTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTCGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTTCACGTTCAA >Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGTTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTTTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCGTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGCCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGCGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCGCTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCTTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCAAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTTGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTACAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATCTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACAGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGTCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTCAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTACGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTATTATAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTCTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGCTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGCTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTAGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGTTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTTTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCGTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCGCTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCTTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCAAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGATCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTTGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGATTCCACACTAGTGGACGGGGTTTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTATTTTGCCCCTGGTTTCTTGCTTTTCTACATGTAACAGTAATGCTAGTATTTCTATGTTACAATTAGGTGTTCCTGATAACTCTTCAACTATTGTCACAGGTTTGTTGCCAGTCCATTGGATTTGTGCTAATCAGAGCACATCTAGTTACCCAGCCAATGGCTTTTTCTATATTGATGTCGGTAAACACCGTAGTGCTTTTGCACTCCATAGTGGTTATTATGATGCTAACCAGTATTATATTTATCTCACTAATAAAATACATTTAAATGCTCCTGTCACTCTGAAGATTTGTAAGTTTGGA---AACACTTCTTTTGATTTTTTAAGTAATGTTTCTACTTCTCATCATTGTATAGTTAATTCGTCATTCACAGAACAGTTAGGTGTGCCTTTGGGCATAACTATATCGGGTGAAACTGTACGTTTGCATTTATATAATGCAACTCGCACCTTTTATGTGCCAGCCGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAGTGAATCCTGTGTTTTTAGTGTTGTCAATGCTACCGTTACTGTTAATGTCACCACACTTAATGGCCGTATAGTTAATTACACTGTTTGTGATGATTGTAATGGTTACACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTTTCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCTACACTAGTGGACGGTGTCTCTAGACTTTACCAACCACTTCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCGACTGGTTTTGTTTATTTTAACGCCACTGGTTCTGATGTTAATTGTAATGGTTATCAACATCATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTTCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCTTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCATTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACGACAGCTAGTGCTACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGATACTTATGTTGCACTTCCTATTTATTATCAACATACTGATATAAATTTTACTGCGACTGCATCTTTTGGTGGTTCTTGTTATGTTTGCAAACCACATCAGGTTAATATATCTCTTAATGGTAATACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTTTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCGCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATCTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATATCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAAAGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGA---AACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTACGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAATTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTCAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGATGGAGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTACCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGTGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGGTTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACAGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCACGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCTATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTATCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGTATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAACTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATATCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTACGTCTACATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTCAATTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACATTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGTCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCATATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTATTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGTTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTATTTTGCCCCTGGTTTCTTGCTTTTCTACATGTAACAGTAATGCTAGTATTTCTATGTTACAATTAGGTGTTCCTGATAACTCTTCAACTATTGTCACAGGTTTGTTGCCAGTCCATTGGATTTGTGCTAATCAGAGCACATCTAGTTACCCAGCCAATGGCTTTTTCTATATTGATGTCGGTAAACACCGTAGTGCTTTTGCACTCCATAGTGGTTATTATGATGCTAACCAGTATTATATTTATCTCACTAATAAAATACATTTAAATGCTCCTGTCACTCTGAAGATTTGTAAGTTTGGA---AACACTTCTTTTGATTTTTTAAGTAATGTTTCTACTTCTCATCATTGTATAGTTAATTCGTCATTCACAGAACAGTTAGGTGTGCCTTTGGGCATAACTATATCGGGTGAAACTGTACGTTTGCATTTATATAATGCAACTCGCACCTTTTATGTGCCAGCCGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAGTGAATCCTGTGTTTTTAGTGTTGTCAATGCTACCGTTACTGTTAATGTCACCACACTTAATGGCCGTATAGTTAATTACACTGTTTGTGATGATTGTAATGGTTACACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTTTCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCTACACTAGTGGACGGTGTCTCTAGACTTTACCAACCACTTCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCGACTGGTTTTGTTTATTTTAACGCCACTGGTTCTGATGTTAATTGTAATGGTTATCAACATCATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTTCTAATTCTGTGGATAATCTCAAGAGTGGCGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCTTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCATTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACGACAGCTAGTGCTACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGATACTTATGTTGCACTTCCTATTTATTATCAACATACTGATATAAATTTTACTGCGACTGCATCTTTTGGTGGTTCTTGTTATGTTTGCAAACCACATCAGGTTAATATATCTCTTAATGGTAATACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATCCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTACACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATCTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTATAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGCTAACTAATGATTCCACACTAGTGGACGGGGTTTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGATAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTCTACAGTACGATGTTTTGTTTTACTGTAGTAATTCCTCTTCGGGCGTTCTAGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAATAGTACCATCAACACCACTCATGTTAGCACTTTTGTGGGTGTCCTACCACCCACTGTGCGTGAGATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTTGATTTGGGTTTTATCGAAGCTGTCAATTTTAATGTCACAACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAAGATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGCAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACTGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAACATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAAGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTAGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAATCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACCCATATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACCGACTACAAGAATGTAAAGGCGTGGTCGGGTATTTGTGTTGATGGCATTTACGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTTTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGTTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATTTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTCCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGTTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCTTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTCACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGTTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTGGTACAAACACTACTTTTGATTTTTTAAGTAATTCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCCTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATCTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACAGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGTCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCCATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTACGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTATTATAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTCTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATTAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGCTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTCCACATGTAATAGTAATGCTAATATCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGATTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAAAGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGA---AACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTACGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAATTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTCAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAGGATGGCCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGATGGAGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTACCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGTACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGTGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGGTTGCAAGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACATACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACGCCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTTAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGATCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACAGCTGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTAATTCCTGTTCGTCCACGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCTATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTATCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCTACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCATTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGTATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCCGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGCATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA >NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 ATGAAACTTTTCTTGATTTTGCTTGTTTTGCCCCTGGCCTCTTGCTTTTTCACATGTAATAGTAATGCTAATCTCTCTATGTTACAATTAGGTGTTCCTGACAATTCTTCAACTATTGTTACGGGTTTATTGCCAACTCATTGGTTTTGTGCTAATCAGAGTACATCTGTTTACTCAGCCAATGGTTTCTTTTATATTGATGTTGGTAATCACCGTAGTGCTTTTGCGCTCCATACTGGTTATTATGATGCTAATCAGTATTATATTTATGTTACTAATGAAATAGGCTTAAATGCTTCTGTTACTCTTAAGATTTGTAAGTTTAGTAGAAACACTACTTTTGATTTTTTAAGTAATGCTTCTAGTTCTTTTGACTGTATAGTTAATTTGTTATTTACAGAACAGTTAGGTGCGCCTTTGGGCATAACTATATCTGGTGAAACTGTGCGTCTGCATTTATATAATGTAACTCGTACTTTTTATGTGCCAGCAGCTTATAAACTTACTAAACTTAGTGTTAAATGTTACTTTAACTATTCCTGTGTTTTTAGTGTTGTCAACGCCACCGTTACTGTGAATGTCACCACACATAATGGCCGTGTAGTTAACTACACTGTTTGTGATGATTGTAATGGTTATACTGATAACATATTTTCTGTTCAACAAGATGGTCGCATTCCTAATGGTTTCCCTTTTAATAATTGGTTTTTGTTAACTAATGGTTCCACACTAGTGGACGGGGTCTCTAGACTTTATCAACCACTCCGTTTAACTTGTTTATGGCCTGTACCTGGTCTTAAATCTTCAACTGGTTTTGTTTATTTTAATGCCACTGGTTCTGATGTTAATTGTAACGGCTATCAACATAATTCTGTTGCTGATGTTATGCGTTACAATCTTAACTTCAGTGCTAATTCTGTGGACAATCTCAAGAGTGGTGTTATAGTTTTTAAAACTTTACAGTACGATGTTTTGTTTTATTGTAGTAATTCTTCTTCAGGTGTTCTTGACACCACAATACCTTTTGGCCCTTCCTCTCAACCTTATTACTGTTTTATAAACAGCACTATCAACACTACTCATGTTAGCACTTTTGTGGGTATTTTACCACCCACTGTGCGTGAAATTGTTGTTGCTAGAACTGGTCAGTTTTATATTAATGGTTTTAAGTATTTCGATTTGGGTTTCATAGAAGCTGTCAATTTTAATGTCACGACTGCTAGTGCCACAGATTTTTGGACGGTTGCATTTGCTACTTTTGTTGATGTTTTGGTTAATGTTAGTGCAACTAACATTCAAAACTTACTTTATTGCGATTCTCCATTTGAAAAGTTGCAGTGTGAGCACTTGCAGTTTGGATTGCAGGATGGTTTTTATTCTGCAAATTTTCTTGATGATAATGTTTTGCCTGAGACTTATGTTGCACTCCCCATTTATTATCAACACACGGACATAAATTTTACTGCAACTGCATCTTTTGGTGGTTCTTGTTATGTTTGTAAACCACACCAGGTTAATATATCTCTTAATGGTAACACTTCAGTGTGTGTTAGAACATCTCATTTTTCAATTAGGTATATTTATAACCGCGTTAAGAGTGGTTCACCAGGTGACTCTTCATGGCACATTTATTTAAAGAGTGGCACTTGTCCATTTTCTTTTTCTAAGTTAAATAATTTTCAAAAGTTCAAGACTATTTGTTTCTCAACCGTCGAAGTGCCTGGTAGTTGTAATTTTCCACTTGAAGCCACCTGGCATTACACTTCTTATACTATTGTTGGTGCTTTGTATGTTACTTGGTCTGAAGGTAATTCTATTACTGGTGTACCTTATCCTGTCTCTGGTATTCGTGAGTTTAGTAATTTAGTTTTAAATAATTGTACCAAATATAATATTTATGATTATGTTGGTACTGGAATTATACGTTCTTCAAACCAGTCACTTGCTGGTGGTATTACATATGTTTCTAACTCTGGTAATTTACTTGGTTTTAAAAATGTTTCCACTGGTAACATTTTTATTGTGACACCATGTAACCAACCAGACCAAGTAGCTGTTTATCAACAAAGCATTATTGGTGCCATGACCGCTGTTAATGAGTCTAGATATGGCTTGCAAAACTTACTACAGTTACCTAACTTTTATTATGTTAGTAATGGTGGTAACAATTGCACTACGGCCGTTATGACTTATTCTAATTTTGGTATTTGTGCTGATGGTTCTTTGATTCCTGTTCGTCCGCGTAATTCTAGTGATAATGGTATTTCAGCCATAATCACTGCTAATTTATCCATTCCCTCTAACTGGACTACTTCAGTTCAAGTTGAGTACCTCCAAATTACTAGTACTCCAATAGTTGTTGATTGTGCCACTTATGTGTGTAATGGTAACCCTCGCTGTAAGAATCTACTTAAGCAGTATACTTCTGCTTGTAAAACTATTGAAGATGCCTTACGACTTAGTGCTCATTTGGAAACTAATGATGTTAGTAGTATGCTAACTTTCGATAGCAATGCTTTTAGTTTGGCTAATGTTACTAGTTTTGGAGATTATAACCTTTCTAGTGTTTTACCTCAGAGAAACATTCGTTCAAGCCGTATAGCAGGACGTAGTGCTTTGGAAGATTTGTTGTTTAGCAAAGTTGTTACATCTGGTTTGGGTACTGTTGATGTTGACTATAAGTCTTGTACTAAAGGTCTTTCTATTGCTGACCTTGCTTGTGCTCAGTACTACAATGGCATAATGGTTTTGCCAGGTGTTGCTGATGCTGAACGTATGGCCATGTACACAGGTTCTCTTATAGGTGGCATGGTGCTCGGAGGTCTTACATCAGCAGCTGCCATACCTTTTTCTTTGGCACTGCAAGCACGACTTAACTATGTTGCTTTACAAACTGATGTGCTTCAAGAAAATCAGAAAATTTTGGCTGCATCATTTAATAAGGCTATTAATAATATTGTTGCTTCTTTTAGTAGCGTTAATGATGCTATTACACAAACTGCAGAGGCTATACATACTGTTACTATTGCACTTAATAAGATTCAGGATGTTGTTAATCAACAGGGTAGTGCTCTTAACCATCTCACTTCACAATTGAGACATAATTTTCAGGCCATTTCTAATTCAATTCAGGCTATTTATGACCGGCTTGATTCAATTCAAGCCGATCAACAAGTTGACAGATTAATTACTGGACGGCTTGCAGCTTTGAATGCATTTGTTTCCCAAGTTTTGAATAAATATACTGAAGTTCGTGGTTCCAGACGCTTAGCACAGCAGAAGATTAATGAATGTGTCAAGTCACAATCTAATAGATATGGTTTTTGTGGCAATGGCACTCACATCTTTTCAATCGTCAACTCAGCTCCAGATGGTTTGCTTTTTCTTCATACTGTTTTGCTGCCAACTGATTACAAGAATGTAAAGGCGTGGTCTGGTATCTGTGTTGATGGTATTTATGGCTATGTTCTGCGTCAACCTAACTTGGTTCTTTATTCTGATAATGGTGTCTTTCGTGTAACTTCCAGGGTCATGTTTCAACCTCGCTTACCTGTTTTGTCTGATTTTGTGCAAATATATAATTGTAATGTTACTTTTGTTAACATATCTCGTGTCGAGTTACATACTGTCATACCTGACTACGTTGATGTTAATAAAACATTACAAGAGTTTGCACAAAACTTACCAAAGTATGTTAAGCCTAATTTTGACTTGACTCCTTTTAATTTAACATATCTTAATTTGAGTTCTGAGTTGAAGCAACTCGAAGCTAAAACTGCTAGTCTTTTTCAAACTACTGTTGAATTACAAGGTCTTATTGATCAGATTAACAGTACATATGTTGATTTGAAGTTGCTTAATAGGTTTGAAAATTATATCAAATGGCCTTGGTGGGTTTGGCTCATTATTTCTGTTGTTTTTGTTGTATTGTTGAGTCTTCTTGTGTTTTGTTGTCTTTCTACAGGTTGTTGTGGTTGTTGCAATTGTTTAACTTCATCAATGCGAGGCTGTTGTGATTGTGGTTCAACTAAACTTCCTTATTACGAATTTGAAAAGGTCCACGTTCAA
>UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPANGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNVSTSHDCIVNLSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSESCVFSVVNATITVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNLSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMIYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITHTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIHAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSTYPANGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNNISLNAPVTLKICKFG-NTSFDFLSNVSTSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSESCVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNLNFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVKLHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63 MKLFLILFVLPLASCFSTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFG-NTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNLSLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFG-NTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNLSLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ >NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSAKGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSFADVMRYNLNFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSAKGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGVCVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ >NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPANGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNVSTSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSESCVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNLNFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRIMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHIQ >N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNDSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNDSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDDIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGSNNCTTAVMTYSNFGICADGSLIPVRLRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKVNECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNLNFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISAVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNLNFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRIMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNDSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPANGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNVSTSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSESCVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNLNFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSAKGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSIPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEVKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63 MKLFLILLILPLVSCFSTCNSNASISMLQLGVPDNSSTIVTGLLPVHWICANQSTSSYPANGFFYIDVGKHRSAFALHSGYYDANQYYIYLTNKIHLNAPVTLKICKFG-NTSFDFLSNVSTSHHCIVNSSFTEQLGVPLGITISGETVRLHLYNATRTFYVPAAYKLTKLSVKCYFSESCVFSVVNATVTVNVTTLNGRIVNYTVCDDCNGYTDNIFSVQQDGRIPNGFSFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHHSVADVMRYNLNFSSNSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPIVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPDTYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGINTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNDSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGVLPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATKIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVAVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRSSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYFNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDVNQYYIYVTNEIGLNASVTLKICKFGTNTTFDFLSNSSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFSTCNSNANISMLQLGVPDNSSTIVTGLLPTHWICANQSTSVYSAKGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFR-NTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPRQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIHSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ >NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63 MKLFLILLVLPLASCFFTCNSNANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRNTTFDFLSNASSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVADVMRYNLNFSANSVDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEFAQNLPKYVKPNFDLTPFNLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINSTYVDLKLLNRFENYIKWPWWVWLIISVVFVVLLSLLVFCCLSTGCCGCCNCLTSSMRGCCDCGSTKLPYYEFEKVHVQ
Reading sequence file /data//pss_subsets/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result/original_alignment/codeml/fasta/NL63_human_USA_012_31_2001_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1
Found 30 sequences of length 4068
Alignment looks like a valid DNA alignment.
Estimated diversity is (pairwise deletion - ignoring missing/ambig): 1.7%
Found 201 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% 74.9%100.0%100.0%
Using a window size of 80 with k as 4
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 169 polymorphic sites
**p-Value(s)**
----------
NSS: 0.00e+00 (1000 permutations)
Max Chi^2: 0.00e+00 (1000 permutations)
PHI (Permutation): 0.00e+00 (1000 permutations)
PHI (Normal): 0.00e+00
#NEXUS
[ID: 4301062295]
begin taxa;
dimensions ntax=30;
taxlabels
ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63
Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63
Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63
Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63
N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63
Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63
N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63
N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63
N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63
N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63
N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63
NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63
NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63
NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63
CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63
NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63
NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63
NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63
NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63
NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63
UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63
NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63
ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63
ChinaGD02_S_QED88012_1_2018_08_15_China_Human_Human_coronavirus_NL63
;
end;
begin trees;
translate
1 ChinaGD03_S_QED88019_1_2018_07_13_China_Human_Human_coronavirus_NL63,
2 Kilifi_HH_0522_21_May_2010_NA_AWK59967_1_2010_05_21_Kenya_Human_Human_coronavirus_NL63,
3 Kilifi_HH_3808_24_May_2010_NA_AWK59973_1_2010_05_24_Kenya_Human_Human_coronavirus_NL63,
4 Kilifi_HH_5709_19_May_2010_NA_AWK59931_1_2010_05_19_Kenya_Human_Human_coronavirus_NL63,
5 N06_1144B_NA_ARE29961_1_2016_USA_Human_Human_coronavirus_NL63,
6 Amsterdam_I_NA_YP_003767_1_NA_NA_Unknown_Human_coronavirus_NL63,
7 N07_185B_NA_ARE29967_1_2016_USA_Human_Human_coronavirus_NL63,
8 N07_196B_NA_ARE29973_1_2016_USA_Human_Human_coronavirus_NL63,
9 N07_324B_182X_NA_ARE29979_1_2016_USA_Human_Human_coronavirus_NL63,
10 N07_468B_176X_NA_ARE29985_1_2016_USA_Human_Human_coronavirus_NL63,
11 N07_64B_NA_ARB07406_1_2016_USA_Human_Human_coronavirus_NL63,
12 NL63_DEN_2005_1062_S_AFD98820_1_2005_04_12_USA_Human_Human_coronavirus_NL63,
13 NL63_DEN_2005_1862_S_AFD98827_1_2005_11_USA_Human_Human_coronavirus_NL63,
14 NL63_DEN_2005_1876_S_AFD98834_1_2005_11_21_USA_Human_Human_coronavirus_NL63,
15 NL63_DEN_2005_193_S_AFD98785_1_2005_01_11_USA_Human_Human_coronavirus_NL63,
16 NL63_DEN_2005_235_S_AFD98799_1_2005_01_19_USA_Human_Human_coronavirus_NL63,
17 NL63_DEN_2005_347_S_AFD98813_1_2005_02_01_USA_Human_Human_coronavirus_NL63,
18 NL63_DEN_2009_14_S_AFD98757_1_2009_03_01_USA_Human_Human_coronavirus_NL63,
19 NL63_DEN_2009_15_S_AFD98764_1_2009_02_13_USA_Human_Human_coronavirus_NL63,
20 NL63_RPTEC_2004_S_AFV53148_1_2004_USA_Human_Human_coronavirus_NL63,
21 CBJ123_S_AFQ55884_1_2009_01_24_China_Human_Human_coronavirus_NL63,
22 NL63_UF_1_2015_S_ALJ53431_1_2015_USA_Human_Human_coronavirus_NL63,
23 NL63_human_USA_838_9_1983_S_AGT51366_1_1983_08_16_USA_Human_Human_coronavirus_NL63,
24 NL63_human_USA_891_6_1989_S_AGT51352_1_1989_01_05_USA_Human_Human_coronavirus_NL63,
25 NL63_human_USA_903_28_1990_S_AGT51359_1_1990_03_21_USA_Human_Human_coronavirus_NL63,
26 NL63_human_USA_904_20_1990_S_AGT51324_1_1990_04_26_USA_Human_Human_coronavirus_NL63,
27 UNKNOWN_AY518894_NA_AAS89767_1_NA_Netherlands_Unknown_Human_coronavirus_NL63,
28 NL63_human_USA_911_56_1991_S_AGT51345_1_1991_01_24_USA_Human_Human_coronavirus_NL63,
29 ChinaGD01_S_QED88033_1_2018_09_01_China_Human_Human_coronavirus_NL63,
30 ChinaGD02_S_QED88012_1_2018_08_15_China_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 = (1:1.510538e-03,30:1.998486e-03,(((2:1.844285e-04,3:1.735426e-04,4:4.432142e-04)0.947:4.470363e-04,21:4.544982e-04)1.000:1.773986e-03,(((5:1.813546e-04,7:4.495315e-04,(9:4.471181e-04,11:1.808364e-04)0.978:4.215758e-04)0.999:1.252476e-03,(((((6:7.207801e-04,20:7.200630e-04)1.000:1.308776e-03,(12:9.717557e-04,14:1.239960e-03,15:4.225175e-04)1.000:1.528544e-03)1.000:1.187981e-03,17:1.594186e-03)1.000:2.030828e-03,(((((16:6.699551e-04,18:9.355447e-04,19:1.468348e-03)0.660:1.008919e-03,29:8.480425e-03)1.000:2.220621e-02,27:2.423904e-03)1.000:2.005613e-02,(24:1.872191e-04,25:4.540911e-04,26:1.853945e-04,28:4.460755e-04)1.000:4.323958e-03)0.822:8.243323e-04,23:2.459616e-03)1.000:2.702609e-03)0.981:2.010121e-03,((8:1.898068e-04,13:6.857944e-04)0.607:3.643759e-04,10:3.154574e-04)1.000:2.936660e-03)1.000:1.183908e-02)0.896:7.472200e-04,22:1.821536e-03)0.995:1.424160e-03)1.000:3.760868e-03);
[Note: This tree contains information only on the topology
and branch lengths (median of the posterior probability density).]
tree con_50_majrule = (1:1.510538e-03,30:1.998486e-03,(((2:1.844285e-04,3:1.735426e-04,4:4.432142e-04):4.470363e-04,21:4.544982e-04):1.773986e-03,(((5:1.813546e-04,7:4.495315e-04,(9:4.471181e-04,11:1.808364e-04):4.215758e-04):1.252476e-03,(((((6:7.207801e-04,20:7.200630e-04):1.308776e-03,(12:9.717557e-04,14:1.239960e-03,15:4.225175e-04):1.528544e-03):1.187981e-03,17:1.594186e-03):2.030828e-03,(((((16:6.699551e-04,18:9.355447e-04,19:1.468348e-03):1.008919e-03,29:8.480425e-03):2.220621e-02,27:2.423904e-03):2.005613e-02,(24:1.872191e-04,25:4.540911e-04,26:1.853945e-04,28:4.460755e-04):4.323958e-03):8.243323e-04,23:2.459616e-03):2.702609e-03):2.010121e-03,((8:1.898068e-04,13:6.857944e-04):3.643759e-04,10:3.154574e-04):2.936660e-03):1.183908e-02):7.472200e-04,22:1.821536e-03):1.424160e-03):3.760868e-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 -7677.84 -7705.06
2 -7679.76 -7708.77
--------------------------------------
TOTAL -7678.40 -7708.10
--------------------------------------
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} 0.123095 0.000099 0.103792 0.142459 0.122697 1377.83 1394.54 1.000
r(A<->C){all} 0.031487 0.000140 0.010165 0.054689 0.030384 787.36 854.78 1.000
r(A<->G){all} 0.231355 0.000915 0.170910 0.287500 0.229645 712.67 750.20 1.000
r(A<->T){all} 0.031070 0.000060 0.016330 0.045789 0.030543 1150.37 1176.92 1.000
r(C<->G){all} 0.038147 0.000226 0.011190 0.068639 0.036373 925.43 960.67 1.000
r(C<->T){all} 0.622071 0.001220 0.553790 0.688455 0.623510 672.85 774.25 1.000
r(G<->T){all} 0.045869 0.000122 0.026668 0.068196 0.044763 1015.68 1027.17 1.000
pi(A){all} 0.256256 0.000046 0.242931 0.269660 0.256159 981.62 1046.26 1.000
pi(C){all} 0.172737 0.000032 0.161889 0.183956 0.172705 1036.22 1048.54 1.000
pi(G){all} 0.181161 0.000035 0.170074 0.192880 0.181173 1243.40 1277.88 1.000
pi(T){all} 0.389846 0.000055 0.375919 0.404971 0.389690 965.34 1030.94 1.000
alpha{1,2} 0.158299 0.001910 0.072643 0.248872 0.157162 1027.47 1076.39 1.001
alpha{3} 3.260599 1.861587 1.092911 6.103093 3.000510 1404.40 1422.26 1.000
pinvar{all} 0.756429 0.000836 0.696120 0.807321 0.759070 698.28 977.77 1.001
------------------------------------------------------------------------------------------------------
* 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_S_AGT51331_1_2001_02_23_USA_Human_Human_coronavirus_NL63.result.1
Model: One dN/dS ratio,
Codon frequency model: F3x4
Site-class models:
ns = 30 ls = 1355
Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 64 68 68 67 68 67 | Ser TCT 54 56 55 54 53 55 | Tyr TAT 56 53 55 54 55 56 | Cys TGT 41 40 41 41 41 41
TTC 9 6 8 8 8 10 | TCC 9 8 10 10 10 8 | TAC 13 16 15 16 15 14 | TGC 4 5 4 4 4 4
Leu TTA 34 32 34 34 33 33 | TCA 25 23 24 24 24 25 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 41 41 39 39 38 40 | TCG 1 5 1 2 2 0 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 40 41 38 39 38 39 | Pro CCT 27 26 26 27 26 26 | His CAT 20 19 16 16 16 14 | Arg CGT 20 20 17 18 19 19
CTC 10 7 9 9 10 10 | CCC 4 4 4 3 4 4 | CAC 4 4 6 6 6 7 | CGC 4 4 6 5 4 5
CTA 3 5 7 7 8 5 | CCA 16 17 16 16 16 15 | Gln CAA 35 37 37 37 37 35 | CGA 3 3 3 3 3 3
CTG 5 5 6 6 6 5 | CCG 2 1 0 0 0 2 | CAG 21 21 21 21 21 23 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 55 56 51 52 50 52 | Thr ACT 72 70 72 71 73 75 | Asn AAT 79 85 83 83 85 83 | Ser AGT 36 36 35 35 35 33
ATC 6 4 6 5 6 6 | ACC 7 10 10 11 9 7 | AAC 33 27 31 31 29 32 | AGC 6 7 6 6 6 7
ATA 23 22 20 20 21 21 | ACA 19 20 19 19 19 18 | Lys AAA 20 20 19 19 19 18 | Arg AGA 9 9 9 9 9 9
Met ATG 12 12 12 12 12 12 | ACG 4 3 4 4 4 5 | AAG 24 24 24 24 24 24 | AGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 85 85 89 90 89 88 | Ala GCT 41 43 41 41 41 42 | Asp GAT 45 44 42 42 42 41 | Gly GGT 59 60 60 59 59 60
GTC 17 19 15 14 16 13 | GCC 15 13 15 15 15 15 | GAC 11 12 14 15 14 15 | GGC 15 14 14 14 15 15
GTA 7 7 8 8 8 9 | GCA 19 19 19 19 20 18 | Glu GAA 21 19 20 20 19 21 | GGA 7 7 6 6 6 6
GTG 14 14 15 15 15 14 | GCG 1 1 2 2 1 3 | GAG 9 8 9 9 10 9 | GGG 1 0 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 67 68 68 67 68 67 | Ser TCT 56 53 53 56 54 55 | Tyr TAT 56 54 55 56 55 56 | Cys TGT 42 41 41 42 41 41
TTC 8 9 8 8 8 10 | TCC 8 10 10 8 9 8 | TAC 14 16 15 14 15 14 | TGC 3 4 4 3 4 4
Leu TTA 35 33 32 35 32 33 | TCA 25 24 24 25 24 25 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 39 39 39 39 39 40 | TCG 0 2 2 0 2 0 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 39 38 38 39 38 39 | Pro CCT 26 26 26 26 26 26 | His CAT 16 16 16 16 16 14 | Arg CGT 18 19 19 18 19 19
CTC 9 10 10 9 10 10 | CCC 4 4 4 4 4 4 | CAC 5 6 6 5 6 7 | CGC 6 4 4 6 4 5
CTA 4 8 8 4 8 5 | CCA 17 16 16 17 16 15 | Gln CAA 36 37 37 36 37 35 | CGA 3 3 3 3 3 3
CTG 5 6 6 5 6 5 | CCG 0 0 0 0 0 2 | CAG 22 21 21 22 21 23 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 51 51 50 51 50 51 | Thr ACT 75 72 73 75 73 75 | Asn AAT 84 84 85 84 85 83 | Ser AGT 33 34 35 33 35 33
ATC 7 6 6 7 6 5 | ACC 7 10 9 7 9 7 | AAC 30 30 29 30 29 32 | AGC 6 6 6 6 6 7
ATA 22 21 21 22 21 22 | ACA 19 19 19 19 19 18 | Lys AAA 19 19 19 19 19 18 | Arg AGA 10 9 9 10 9 9
Met ATG 12 12 12 12 12 12 | ACG 4 4 4 4 4 5 | AAG 24 24 24 24 24 24 | AGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 88 88 89 88 89 88 | Ala GCT 43 41 42 43 42 42 | Asp GAT 44 42 42 44 42 41 | Gly GGT 61 60 59 61 59 61
GTC 15 15 16 15 16 14 | GCC 14 15 14 14 14 15 | GAC 12 14 14 13 14 15 | GGC 14 15 15 13 15 14
GTA 9 8 8 9 8 9 | GCA 18 19 20 18 20 18 | Glu GAA 21 19 19 21 19 21 | GGA 6 6 6 6 6 6
GTG 13 14 15 13 15 14 | GCG 3 2 1 3 1 3 | GAG 9 10 10 9 10 9 | GGG 1 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 67 66 67 68 68 68 | Ser TCT 56 54 55 53 53 53 | Tyr TAT 51 57 56 54 54 55 | Cys TGT 40 41 41 41 41 41
TTC 7 10 10 8 8 8 | TCC 8 10 8 10 10 10 | TAC 18 13 14 16 16 15 | TGC 5 4 4 4 4 4
Leu TTA 31 34 33 32 32 32 | TCA 23 25 25 24 24 24 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 40 39 40 40 40 39 | TCG 5 0 0 2 2 2 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 40 39 39 38 38 38 | Pro CCT 27 26 26 26 26 26 | His CAT 21 14 14 16 16 16 | Arg CGT 18 20 19 19 19 19
CTC 8 10 10 10 10 10 | CCC 3 4 4 4 4 4 | CAC 4 6 7 6 6 6 | CGC 5 5 5 4 4 4
CTA 7 5 5 8 8 8 | CCA 17 16 15 16 16 16 | Gln CAA 37 36 35 37 37 37 | CGA 3 3 3 3 3 3
CTG 5 5 5 4 4 6 | CCG 1 1 2 1 1 0 | CAG 21 22 23 21 21 21 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 55 51 51 52 52 50 | Thr ACT 67 75 75 72 72 73 | Asn AAT 83 84 83 84 84 85 | Ser AGT 36 32 33 34 34 35
ATC 5 6 7 6 5 6 | ACC 12 7 7 10 10 9 | AAC 28 31 32 30 30 29 | AGC 7 7 7 6 6 6
ATA 22 22 22 21 21 21 | ACA 20 19 18 19 19 19 | Lys AAA 21 18 18 19 19 19 | Arg AGA 9 9 9 9 9 9
Met ATG 12 12 12 12 12 12 | ACG 3 4 5 4 4 4 | AAG 23 24 24 24 24 24 | AGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 85 88 88 90 90 89 | Ala GCT 42 41 42 40 40 42 | Asp GAT 45 42 41 43 43 42 | Gly GGT 61 60 60 59 59 59
GTC 19 15 12 13 14 16 | GCC 13 14 15 15 15 14 | GAC 11 14 15 15 15 14 | GGC 13 16 15 14 14 15
GTA 7 8 8 8 8 8 | GCA 19 18 18 19 19 20 | Glu GAA 19 21 21 19 19 19 | GGA 7 6 6 6 6 6
GTG 14 15 15 15 15 15 | GCG 2 3 3 3 3 1 | GAG 9 9 9 10 10 10 | GGG 0 1 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 67 66 67 68 68 67 | Ser TCT 54 54 54 53 56 56 | Tyr TAT 56 57 56 54 51 56 | Cys TGT 41 41 41 41 40 42
TTC 10 10 10 8 6 8 | TCC 8 10 8 10 8 8 | TAC 14 13 14 16 18 14 | TGC 4 4 4 4 5 3
Leu TTA 34 34 34 32 31 35 | TCA 26 25 26 24 23 25 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 41 39 41 40 40 39 | TCG 0 0 0 2 5 0 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 39 39 39 38 40 39 | Pro CCT 26 26 26 26 27 26 | His CAT 14 14 14 16 21 16 | Arg CGT 19 20 19 19 18 18
CTC 10 10 10 10 8 9 | CCC 3 4 3 4 3 4 | CAC 7 6 7 6 4 5 | CGC 5 5 5 4 5 6
CTA 4 5 4 8 7 4 | CCA 15 16 15 16 17 17 | Gln CAA 35 36 35 37 37 36 | CGA 3 3 3 3 3 3
CTG 5 5 5 4 5 5 | CCG 3 1 3 1 1 0 | CAG 23 22 23 21 21 22 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 50 51 50 52 54 51 | Thr ACT 75 75 75 72 68 75 | Asn AAT 84 84 84 84 81 83 | Ser AGT 32 32 33 34 36 33
ATC 6 6 7 5 6 7 | ACC 7 7 7 10 11 7 | AAC 31 31 31 30 30 31 | AGC 8 7 7 6 7 6
ATA 22 22 22 21 22 22 | ACA 18 19 18 19 20 19 | Lys AAA 18 18 18 19 21 19 | Arg AGA 9 9 9 9 9 10
Met ATG 12 12 12 12 12 12 | ACG 5 4 5 4 3 4 | AAG 24 24 24 24 23 24 | AGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 90 86 90 90 85 88 | Ala GCT 41 42 41 40 41 43 | Asp GAT 42 42 42 43 45 44 | Gly GGT 59 60 60 59 60 61
GTC 13 16 12 14 19 15 | GCC 15 14 15 15 13 14 | GAC 14 14 14 14 11 12 | GGC 16 16 15 15 14 14
GTA 8 8 9 8 7 9 | GCA 18 18 18 19 19 18 | Glu GAA 21 21 21 19 19 21 | GGA 6 6 6 6 7 6
GTG 14 15 13 15 14 13 | GCG 3 3 3 3 3 3 | GAG 9 9 9 10 9 9 | GGG 1 1 1 1 0 1
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 65 67 69 66 67 67 | Ser TCT 54 56 53 54 56 55 | Tyr TAT 56 50 54 57 56 56 | Cys TGT 41 40 41 41 42 41
TTC 11 7 8 10 8 10 | TCC 9 8 10 10 8 8 | TAC 14 19 16 13 14 14 | TGC 4 5 4 4 3 4
Leu TTA 36 31 32 35 35 34 | TCA 25 23 24 25 25 25 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 39 40 40 39 39 40 | TCG 0 5 2 0 0 0 | TAG 0 0 0 0 0 0 | Trp TGG 13 13 13 13 13 13
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 39 40 37 39 39 39 | Pro CCT 26 27 26 26 26 26 | His CAT 17 21 16 14 16 14 | Arg CGT 19 18 19 20 18 19
CTC 9 8 10 10 9 10 | CCC 4 3 4 4 4 4 | CAC 4 4 6 6 5 7 | CGC 5 5 4 5 6 5
CTA 4 7 8 4 4 4 | CCA 16 17 16 16 17 16 | Gln CAA 36 37 37 36 36 36 | CGA 3 3 3 3 3 3
CTG 4 5 4 5 5 5 | CCG 1 1 1 1 0 1 | CAG 22 21 21 22 22 22 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 52 53 52 51 51 50 | Thr ACT 74 68 72 75 75 75 | Asn AAT 85 81 84 84 84 84 | Ser AGT 34 36 34 32 33 33
ATC 7 7 5 6 7 6 | ACC 7 11 10 7 7 7 | AAC 30 30 30 31 30 31 | AGC 6 7 6 7 6 7
ATA 22 22 21 22 22 22 | ACA 18 20 19 19 19 18 | Lys AAA 18 21 19 18 19 18 | Arg AGA 9 9 9 9 10 9
Met ATG 12 12 12 12 12 12 | ACG 5 3 4 4 4 5 | AAG 24 23 24 24 24 24 | AGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 88 85 90 88 88 88 | Ala GCT 42 42 40 41 43 42 | Asp GAT 43 45 43 42 44 42 | Gly GGT 61 59 59 60 61 62
GTC 15 19 14 15 15 14 | GCC 14 13 15 14 14 15 | GAC 13 11 14 14 12 14 | GGC 14 15 15 16 14 13
GTA 9 7 8 8 9 8 | GCA 18 19 19 18 18 18 | Glu GAA 21 19 19 21 21 21 | GGA 6 7 6 6 6 6
GTG 14 14 15 15 13 15 | GCG 3 2 3 3 3 3 | GAG 9 9 10 9 9 9 | GGG 1 0 1 1 1 1
--------------------------------------------------------------------------------------------------------------------------------------
Codon position x base (3x4) table for each sequence.
#1: C52
position 1: T:0.26863 C:0.15941 A:0.30111 G:0.27085
position 2: T:0.31365 C:0.23321 A:0.28856 G:0.16458
position 3: T:0.58598 C:0.12325 A:0.17786 G:0.11292
Average T:0.38942 C:0.17196 A:0.25584 G:0.18278
#2: C7
position 1: T:0.27011 C:0.15941 A:0.30111 G:0.26937
position 2: T:0.31292 C:0.23542 A:0.28708 G:0.16458
position 3: T:0.59188 C:0.11808 A:0.17712 G:0.11292
Average T:0.39164 C:0.17097 A:0.25510 G:0.18229
#3: C8
position 1: T:0.27085 C:0.15793 A:0.29815 G:0.27306
position 2: T:0.31365 C:0.23469 A:0.28930 G:0.16236
position 3: T:0.58229 C:0.12768 A:0.17786 G:0.11218
Average T:0.38893 C:0.17343 A:0.25510 G:0.18253
#4: C10
position 1: T:0.27011 C:0.15867 A:0.29815 G:0.27306
position 2: T:0.31365 C:0.23469 A:0.29004 G:0.16162
position 3: T:0.58229 C:0.12694 A:0.17786 G:0.11292
Average T:0.38868 C:0.17343 A:0.25535 G:0.18253
#5: C4
position 1: T:0.26863 C:0.15941 A:0.29815 G:0.27380
position 2: T:0.31439 C:0.23395 A:0.28930 G:0.16236
position 3: T:0.58303 C:0.12620 A:0.17860 G:0.11218
Average T:0.38868 C:0.17319 A:0.25535 G:0.18278
#6: C29
position 1: T:0.27011 C:0.15793 A:0.29889 G:0.27306
position 2: T:0.31292 C:0.23469 A:0.28930 G:0.16310
position 3: T:0.58376 C:0.12694 A:0.17417 G:0.11513
Average T:0.38893 C:0.17319 A:0.25412 G:0.18376
#7: C47
position 1: T:0.27011 C:0.15646 A:0.29963 G:0.27380
position 2: T:0.31218 C:0.23542 A:0.28930 G:0.16310
position 3: T:0.58967 C:0.11956 A:0.18007 G:0.11070
Average T:0.39065 C:0.17048 A:0.25633 G:0.18253
#8: C41
position 1: T:0.27011 C:0.15941 A:0.29815 G:0.27232
position 2: T:0.31439 C:0.23395 A:0.28930 G:0.16236
position 3: T:0.58081 C:0.12841 A:0.17786 G:0.11292
Average T:0.38844 C:0.17392 A:0.25510 G:0.18253
#9: C16
position 1: T:0.26863 C:0.15941 A:0.29815 G:0.27380
position 2: T:0.31439 C:0.23395 A:0.28930 G:0.16236
position 3: T:0.58376 C:0.12546 A:0.17786 G:0.11292
Average T:0.38893 C:0.17294 A:0.25510 G:0.18303
#10: C53
position 1: T:0.27011 C:0.15646 A:0.29963 G:0.27380
position 2: T:0.31218 C:0.23542 A:0.29004 G:0.16236
position 3: T:0.58967 C:0.11956 A:0.18007 G:0.11070
Average T:0.39065 C:0.17048 A:0.25658 G:0.18229
#11: C17
position 1: T:0.26863 C:0.15941 A:0.29815 G:0.27380
position 2: T:0.31439 C:0.23395 A:0.28930 G:0.16236
position 3: T:0.58450 C:0.12472 A:0.17786 G:0.11292
Average T:0.38918 C:0.17269 A:0.25510 G:0.18303
#12: C27
position 1: T:0.27011 C:0.15793 A:0.29815 G:0.27380
position 2: T:0.31292 C:0.23469 A:0.28930 G:0.16310
position 3: T:0.58376 C:0.12620 A:0.17491 G:0.11513
Average T:0.38893 C:0.17294 A:0.25412 G:0.18401
#13: C37
position 1: T:0.26863 C:0.16162 A:0.29963 G:0.27011
position 2: T:0.31292 C:0.23469 A:0.28856 G:0.16384
position 3: T:0.58598 C:0.12251 A:0.17860 G:0.11292
Average T:0.38918 C:0.17294 A:0.25560 G:0.18229
#14: C21
position 1: T:0.27011 C:0.15793 A:0.29815 G:0.27380
position 2: T:0.31365 C:0.23395 A:0.28856 G:0.16384
position 3: T:0.58303 C:0.12694 A:0.17712 G:0.11292
Average T:0.38893 C:0.17294 A:0.25461 G:0.18352
#15: C30
position 1: T:0.27011 C:0.15793 A:0.29963 G:0.27232
position 2: T:0.31292 C:0.23469 A:0.28930 G:0.16310
position 3: T:0.58303 C:0.12694 A:0.17417 G:0.11587
Average T:0.38868 C:0.17319 A:0.25437 G:0.18376
#16: C23
position 1: T:0.26937 C:0.15867 A:0.29889 G:0.27306
position 2: T:0.31365 C:0.23469 A:0.29077 G:0.16089
position 3: T:0.58229 C:0.12620 A:0.17712 G:0.11439
Average T:0.38844 C:0.17319 A:0.25560 G:0.18278
#17: C25
position 1: T:0.26937 C:0.15867 A:0.29815 G:0.27380
position 2: T:0.31365 C:0.23469 A:0.29077 G:0.16089
position 3: T:0.58229 C:0.12620 A:0.17712 G:0.11439
Average T:0.38844 C:0.17319 A:0.25535 G:0.18303
#18: C13
position 1: T:0.26863 C:0.15941 A:0.29815 G:0.27380
position 2: T:0.31439 C:0.23395 A:0.28930 G:0.16236
position 3: T:0.58376 C:0.12546 A:0.17786 G:0.11292
Average T:0.38893 C:0.17294 A:0.25510 G:0.18303
#19: C2
position 1: T:0.27159 C:0.15720 A:0.29815 G:0.27306
position 2: T:0.31365 C:0.23395 A:0.28930 G:0.16310
position 3: T:0.58229 C:0.12620 A:0.17491 G:0.11661
Average T:0.38918 C:0.17245 A:0.25412 G:0.18426
#20: C28
position 1: T:0.27011 C:0.15793 A:0.29815 G:0.27380
position 2: T:0.31292 C:0.23469 A:0.28856 G:0.16384
position 3: T:0.58229 C:0.12768 A:0.17712 G:0.11292
Average T:0.38844 C:0.17343 A:0.25461 G:0.18352
#21: C39
position 1: T:0.27159 C:0.15720 A:0.29889 G:0.27232
position 2: T:0.31365 C:0.23395 A:0.28930 G:0.16310
position 3: T:0.58376 C:0.12472 A:0.17565 G:0.11587
Average T:0.38967 C:0.17196 A:0.25461 G:0.18376
#22: C19
position 1: T:0.26937 C:0.15867 A:0.29815 G:0.27380
position 2: T:0.31365 C:0.23469 A:0.29004 G:0.16162
position 3: T:0.58229 C:0.12620 A:0.17712 G:0.11439
Average T:0.38844 C:0.17319 A:0.25510 G:0.18327
#23: C32
position 1: T:0.26863 C:0.16162 A:0.29963 G:0.27011
position 2: T:0.31292 C:0.23469 A:0.28856 G:0.16384
position 3: T:0.58376 C:0.12399 A:0.17860 G:0.11365
Average T:0.38844 C:0.17343 A:0.25560 G:0.18253
#24: C49
position 1: T:0.27011 C:0.15646 A:0.29963 G:0.27380
position 2: T:0.31218 C:0.23542 A:0.28930 G:0.16310
position 3: T:0.58893 C:0.12030 A:0.18007 G:0.11070
Average T:0.39041 C:0.17073 A:0.25633 G:0.18253
#25: C45
position 1: T:0.27085 C:0.15572 A:0.29963 G:0.27380
position 2: T:0.31439 C:0.23321 A:0.28930 G:0.16310
position 3: T:0.58745 C:0.12251 A:0.17786 G:0.11218
Average T:0.39090 C:0.17048 A:0.25560 G:0.18303
#26: C36
position 1: T:0.26863 C:0.16162 A:0.29963 G:0.27011
position 2: T:0.31292 C:0.23469 A:0.28856 G:0.16384
position 3: T:0.58155 C:0.12694 A:0.17860 G:0.11292
Average T:0.38770 C:0.17442 A:0.25560 G:0.18229
#27: C20
position 1: T:0.27011 C:0.15793 A:0.29815 G:0.27380
position 2: T:0.31365 C:0.23469 A:0.29004 G:0.16162
position 3: T:0.58229 C:0.12620 A:0.17712 G:0.11439
Average T:0.38868 C:0.17294 A:0.25510 G:0.18327
#28: C24
position 1: T:0.27085 C:0.15720 A:0.29815 G:0.27380
position 2: T:0.31365 C:0.23395 A:0.28856 G:0.16384
position 3: T:0.58303 C:0.12694 A:0.17712 G:0.11292
Average T:0.38918 C:0.17269 A:0.25461 G:0.18352
#29: C50
position 1: T:0.27011 C:0.15646 A:0.29963 G:0.27380
position 2: T:0.31218 C:0.23542 A:0.28930 G:0.16310
position 3: T:0.58967 C:0.11956 A:0.18007 G:0.11070
Average T:0.39065 C:0.17048 A:0.25633 G:0.18253
#30: C34
position 1: T:0.27085 C:0.15720 A:0.29815 G:0.27380
position 2: T:0.31292 C:0.23469 A:0.28930 G:0.16310
position 3: T:0.58524 C:0.12472 A:0.17565 G:0.11439
Average T:0.38967 C:0.17220 A:0.25437 G:0.18376
Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT 2015 | Ser S TCT 1633 | Tyr Y TAT 1647 | Cys C TGT 1230
TTC 257 | TCC 269 | TAC 448 | TGC 120
Leu L TTA 997 | TCA 733 | *** * TAA 0 | *** * TGA 0
TTG 1188 | TCG 42 | TAG 0 | Trp W TGG 390
------------------------------------------------------------------------------
Leu L CTT 1165 | Pro P CCT 785 | His H CAT 485 | Arg R CGT 565
CTC 284 | CCC 114 | CAC 170 | CGC 144
CTA 176 | CCA 483 | Gln Q CAA 1089 | CGA 90
CTG 152 | CCG 27 | CAG 649 | CGG 60
------------------------------------------------------------------------------
Ile I ATT 1548 | Thr T ACT 2189 | Asn N AAT 2508 | Ser S AGT 1019
ATC 180 | ACC 256 | AAC 909 | AGC 194
ATA 647 | ACA 567 | Lys K AAA 568 | Arg R AGA 274
Met M ATG 360 | ACG 123 | AAG 717 | AGG 90
------------------------------------------------------------------------------
Val V GTT 2642 | Ala A GCT 1247 | Asp D GAT 1284 | Gly G GGT 1797
GTC 455 | GCC 431 | GAC 404 | GGC 437
GTA 243 | GCA 560 | Glu E GAA 602 | GGA 185
GTG 430 | GCG 73 | GAG 278 | GGG 26
------------------------------------------------------------------------------
Codon position x base (3x4) table, overall
position 1: T:0.26984 C:0.15838 A:0.29887 G:0.27292
position 2: T:0.31338 C:0.23449 A:0.28925 G:0.16288
position 3: T:0.58448 C:0.12477 A:0.17747 G:0.11328
Average T:0.38923 C:0.17255 A:0.25519 G:0.18303
Model 1: NearlyNeutral (2 categories)
TREE # 1: (4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
check convergence..
lnL(ntime: 51 np: 54): -7374.864266 +0.000000
31..4 31..3 31..32 32..33 33..34 34..18 34..9 34..11 33..5 32..35 35..36 36..37 37..22 37..27 37..38 38..16 38..17 36..39 39..40 40..41 41..42 42..43 43..19 43..21 42..44 44..12 44..6 44..15 41..30 40..45 45..46 46..47 47..48 48..49 49..23 49..26 49..13 48..2 47..1 46..50 50..7 50..24 50..29 50..10 45..25 39..51 51..52 52..14 52..20 51..28 35..8
0.003640 0.005648 0.010165 0.004898 0.000774 0.000004 0.000004 0.000773 0.000772 0.003373 0.001666 0.003228 0.000004 0.000770 0.000770 0.000769 0.000004 0.030935 0.003732 0.004916 0.002922 0.003123 0.001542 0.001551 0.003868 0.002310 0.003085 0.000770 0.004066 0.007610 0.001828 0.047747 0.052032 0.003713 0.001540 0.002304 0.003855 0.021736 0.008830 0.011539 0.000004 0.000779 0.000004 0.000779 0.006390 0.008247 0.000772 0.000004 0.001543 0.000004 0.004893 7.229493 0.939693 0.015630
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.286238
(4: 0.003640, 3: 0.005648, (((18: 0.000004, 9: 0.000004, 11: 0.000773): 0.000774, 5: 0.000772): 0.004898, (((22: 0.000004, 27: 0.000770, (16: 0.000769, 17: 0.000004): 0.000770): 0.003228, (((((19: 0.001542, 21: 0.001551): 0.003123, (12: 0.002310, 6: 0.003085, 15: 0.000770): 0.003868): 0.002922, 30: 0.004066): 0.004916, (((((23: 0.001540, 26: 0.002304, 13: 0.003855): 0.003713, 2: 0.021736): 0.052032, 1: 0.008830): 0.047747, (7: 0.000004, 24: 0.000779, 29: 0.000004, 10: 0.000779): 0.011539): 0.001828, 25: 0.006390): 0.007610): 0.003732, ((14: 0.000004, 20: 0.001543): 0.000772, 28: 0.000004): 0.008247): 0.030935): 0.001666, 8: 0.004893): 0.003373): 0.010165);
(C10: 0.003640, C8: 0.005648, (((C13: 0.000004, C16: 0.000004, C17: 0.000773): 0.000774, C4: 0.000772): 0.004898, (((C19: 0.000004, C20: 0.000770, (C23: 0.000769, C25: 0.000004): 0.000770): 0.003228, (((((C2: 0.001542, C39: 0.001551): 0.003123, (C27: 0.002310, C29: 0.003085, C30: 0.000770): 0.003868): 0.002922, C34: 0.004066): 0.004916, (((((C32: 0.001540, C36: 0.002304, C37: 0.003855): 0.003713, C7: 0.021736): 0.052032, C52: 0.008830): 0.047747, (C47: 0.000004, C49: 0.000779, C50: 0.000004, C53: 0.000779): 0.011539): 0.001828, C45: 0.006390): 0.007610): 0.003732, ((C21: 0.000004, C28: 0.001543): 0.000772, C24: 0.000004): 0.008247): 0.030935): 0.001666, C41: 0.004893): 0.003373): 0.010165);
Detailed output identifying parameters
kappa (ts/tv) = 7.22949
MLEs of dN/dS (w) for site classes (K=2)
p: 0.93969 0.06031
w: 0.01563 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..4 0.004 3343.1 721.9 0.0750 0.0004 0.0051 1.3 3.7
31..3 0.006 3343.1 721.9 0.0750 0.0006 0.0079 2.0 5.7
31..32 0.010 3343.1 721.9 0.0750 0.0011 0.0142 3.6 10.2
32..33 0.005 3343.1 721.9 0.0750 0.0005 0.0068 1.7 4.9
33..34 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
34..18 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
34..9 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
34..11 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
33..5 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
32..35 0.003 3343.1 721.9 0.0750 0.0004 0.0047 1.2 3.4
35..36 0.002 3343.1 721.9 0.0750 0.0002 0.0023 0.6 1.7
36..37 0.003 3343.1 721.9 0.0750 0.0003 0.0045 1.1 3.2
37..22 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
37..27 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
37..38 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
38..16 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
38..17 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
36..39 0.031 3343.1 721.9 0.0750 0.0032 0.0431 10.8 31.1
39..40 0.004 3343.1 721.9 0.0750 0.0004 0.0052 1.3 3.8
40..41 0.005 3343.1 721.9 0.0750 0.0005 0.0068 1.7 4.9
41..42 0.003 3343.1 721.9 0.0750 0.0003 0.0041 1.0 2.9
42..43 0.003 3343.1 721.9 0.0750 0.0003 0.0044 1.1 3.1
43..19 0.002 3343.1 721.9 0.0750 0.0002 0.0021 0.5 1.6
43..21 0.002 3343.1 721.9 0.0750 0.0002 0.0022 0.5 1.6
42..44 0.004 3343.1 721.9 0.0750 0.0004 0.0054 1.4 3.9
44..12 0.002 3343.1 721.9 0.0750 0.0002 0.0032 0.8 2.3
44..6 0.003 3343.1 721.9 0.0750 0.0003 0.0043 1.1 3.1
44..15 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
41..30 0.004 3343.1 721.9 0.0750 0.0004 0.0057 1.4 4.1
40..45 0.008 3343.1 721.9 0.0750 0.0008 0.0106 2.7 7.7
45..46 0.002 3343.1 721.9 0.0750 0.0002 0.0025 0.6 1.8
46..47 0.048 3343.1 721.9 0.0750 0.0050 0.0665 16.7 48.0
47..48 0.052 3343.1 721.9 0.0750 0.0054 0.0725 18.2 52.3
48..49 0.004 3343.1 721.9 0.0750 0.0004 0.0052 1.3 3.7
49..23 0.002 3343.1 721.9 0.0750 0.0002 0.0021 0.5 1.5
49..26 0.002 3343.1 721.9 0.0750 0.0002 0.0032 0.8 2.3
49..13 0.004 3343.1 721.9 0.0750 0.0004 0.0054 1.3 3.9
48..2 0.022 3343.1 721.9 0.0750 0.0023 0.0303 7.6 21.9
47..1 0.009 3343.1 721.9 0.0750 0.0009 0.0123 3.1 8.9
46..50 0.012 3343.1 721.9 0.0750 0.0012 0.0161 4.0 11.6
50..7 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
50..24 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
50..29 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
50..10 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
45..25 0.006 3343.1 721.9 0.0750 0.0007 0.0089 2.2 6.4
39..51 0.008 3343.1 721.9 0.0750 0.0009 0.0115 2.9 8.3
51..52 0.001 3343.1 721.9 0.0750 0.0001 0.0011 0.3 0.8
52..14 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
52..20 0.002 3343.1 721.9 0.0750 0.0002 0.0022 0.5 1.6
51..28 0.000 3343.1 721.9 0.0750 0.0000 0.0000 0.0 0.0
35..8 0.005 3343.1 721.9 0.0750 0.0005 0.0068 1.7 4.9
Time used: 10:51
Model 2: PositiveSelection (3 categories)
TREE # 1: (4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
check convergence..
lnL(ntime: 51 np: 56): -7370.108258 +0.000000
31..4 31..3 31..32 32..33 33..34 34..18 34..9 34..11 33..5 32..35 35..36 36..37 37..22 37..27 37..38 38..16 38..17 36..39 39..40 40..41 41..42 42..43 43..19 43..21 42..44 44..12 44..6 44..15 41..30 40..45 45..46 46..47 47..48 48..49 49..23 49..26 49..13 48..2 47..1 46..50 50..7 50..24 50..29 50..10 45..25 39..51 51..52 52..14 52..20 51..28 35..8
0.003734 0.005895 0.010577 0.005096 0.000802 0.000004 0.000004 0.000802 0.000801 0.003496 0.001711 0.003363 0.000004 0.000798 0.000797 0.000797 0.000004 0.032345 0.003792 0.005093 0.003017 0.003224 0.001592 0.001597 0.003990 0.002376 0.003183 0.000794 0.004179 0.007877 0.001616 0.049700 0.053953 0.004007 0.001589 0.002379 0.003979 0.022453 0.009517 0.012245 0.000004 0.000806 0.000004 0.000806 0.006618 0.008627 0.000798 0.000004 0.001597 0.000004 0.005078 7.534146 0.969703 0.012213 0.029252 3.066257
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.297529
(4: 0.003734, 3: 0.005895, (((18: 0.000004, 9: 0.000004, 11: 0.000802): 0.000802, 5: 0.000801): 0.005096, (((22: 0.000004, 27: 0.000798, (16: 0.000797, 17: 0.000004): 0.000797): 0.003363, (((((19: 0.001592, 21: 0.001597): 0.003224, (12: 0.002376, 6: 0.003183, 15: 0.000794): 0.003990): 0.003017, 30: 0.004179): 0.005093, (((((23: 0.001589, 26: 0.002379, 13: 0.003979): 0.004007, 2: 0.022453): 0.053953, 1: 0.009517): 0.049700, (7: 0.000004, 24: 0.000806, 29: 0.000004, 10: 0.000806): 0.012245): 0.001616, 25: 0.006618): 0.007877): 0.003792, ((14: 0.000004, 20: 0.001597): 0.000798, 28: 0.000004): 0.008627): 0.032345): 0.001711, 8: 0.005078): 0.003496): 0.010577);
(C10: 0.003734, C8: 0.005895, (((C13: 0.000004, C16: 0.000004, C17: 0.000802): 0.000802, C4: 0.000801): 0.005096, (((C19: 0.000004, C20: 0.000798, (C23: 0.000797, C25: 0.000004): 0.000797): 0.003363, (((((C2: 0.001592, C39: 0.001597): 0.003224, (C27: 0.002376, C29: 0.003183, C30: 0.000794): 0.003990): 0.003017, C34: 0.004179): 0.005093, (((((C32: 0.001589, C36: 0.002379, C37: 0.003979): 0.004007, C7: 0.022453): 0.053953, C52: 0.009517): 0.049700, (C47: 0.000004, C49: 0.000806, C50: 0.000004, C53: 0.000806): 0.012245): 0.001616, C45: 0.006618): 0.007877): 0.003792, ((C21: 0.000004, C28: 0.001597): 0.000798, C24: 0.000004): 0.008627): 0.032345): 0.001711, C41: 0.005078): 0.003496): 0.010577);
Detailed output identifying parameters
kappa (ts/tv) = 7.53415
MLEs of dN/dS (w) for site classes (K=3)
p: 0.96970 0.01221 0.01808
w: 0.02925 1.00000 3.06626
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..4 0.004 3340.6 724.4 0.0960 0.0005 0.0048 1.6 3.5
31..3 0.006 3340.6 724.4 0.0960 0.0007 0.0076 2.5 5.5
31..32 0.011 3340.6 724.4 0.0960 0.0013 0.0137 4.4 9.9
32..33 0.005 3340.6 724.4 0.0960 0.0006 0.0066 2.1 4.8
33..34 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.8
34..18 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
34..9 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
34..11 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.8
33..5 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.8
32..35 0.003 3340.6 724.4 0.0960 0.0004 0.0045 1.5 3.3
35..36 0.002 3340.6 724.4 0.0960 0.0002 0.0022 0.7 1.6
36..37 0.003 3340.6 724.4 0.0960 0.0004 0.0044 1.4 3.2
37..22 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
37..27 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.7
37..38 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.7
38..16 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.7
38..17 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
36..39 0.032 3340.6 724.4 0.0960 0.0040 0.0419 13.5 30.4
39..40 0.004 3340.6 724.4 0.0960 0.0005 0.0049 1.6 3.6
40..41 0.005 3340.6 724.4 0.0960 0.0006 0.0066 2.1 4.8
41..42 0.003 3340.6 724.4 0.0960 0.0004 0.0039 1.3 2.8
42..43 0.003 3340.6 724.4 0.0960 0.0004 0.0042 1.3 3.0
43..19 0.002 3340.6 724.4 0.0960 0.0002 0.0021 0.7 1.5
43..21 0.002 3340.6 724.4 0.0960 0.0002 0.0021 0.7 1.5
42..44 0.004 3340.6 724.4 0.0960 0.0005 0.0052 1.7 3.7
44..12 0.002 3340.6 724.4 0.0960 0.0003 0.0031 1.0 2.2
44..6 0.003 3340.6 724.4 0.0960 0.0004 0.0041 1.3 3.0
44..15 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.7
41..30 0.004 3340.6 724.4 0.0960 0.0005 0.0054 1.7 3.9
40..45 0.008 3340.6 724.4 0.0960 0.0010 0.0102 3.3 7.4
45..46 0.002 3340.6 724.4 0.0960 0.0002 0.0021 0.7 1.5
46..47 0.050 3340.6 724.4 0.0960 0.0062 0.0644 20.7 46.7
47..48 0.054 3340.6 724.4 0.0960 0.0067 0.0699 22.4 50.7
48..49 0.004 3340.6 724.4 0.0960 0.0005 0.0052 1.7 3.8
49..23 0.002 3340.6 724.4 0.0960 0.0002 0.0021 0.7 1.5
49..26 0.002 3340.6 724.4 0.0960 0.0003 0.0031 1.0 2.2
49..13 0.004 3340.6 724.4 0.0960 0.0005 0.0052 1.7 3.7
48..2 0.022 3340.6 724.4 0.0960 0.0028 0.0291 9.3 21.1
47..1 0.010 3340.6 724.4 0.0960 0.0012 0.0123 4.0 8.9
46..50 0.012 3340.6 724.4 0.0960 0.0015 0.0159 5.1 11.5
50..7 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
50..24 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.8
50..29 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
50..10 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.8
45..25 0.007 3340.6 724.4 0.0960 0.0008 0.0086 2.8 6.2
39..51 0.009 3340.6 724.4 0.0960 0.0011 0.0112 3.6 8.1
51..52 0.001 3340.6 724.4 0.0960 0.0001 0.0010 0.3 0.7
52..14 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
52..20 0.002 3340.6 724.4 0.0960 0.0002 0.0021 0.7 1.5
51..28 0.000 3340.6 724.4 0.0960 0.0000 0.0000 0.0 0.0
35..8 0.005 3340.6 724.4 0.0960 0.0006 0.0066 2.1 4.8
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.855 2.756
46 V 0.581 2.135
57 S 0.774 2.599
94 K 0.815 2.665
96 H 0.979* 3.024
109 G 0.911 2.883
123 H 0.550 2.061
178 E 0.718 2.449
306 V 0.874 2.796
367 I 0.881 2.819
502 R 0.947 2.957
571 E 0.841 2.723
862 H 0.839 2.734
1043 H 0.554 1.848
1150 G 0.960* 2.984
1176 V 0.867 2.779
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.730 2.006 +- 0.931
46 V 0.509 1.581 +- 0.914
57 S 0.678 1.912 +- 0.876
94 K 0.689 1.934 +- 0.945
96 H 0.901 2.258 +- 0.824
109 G 0.803 2.125 +- 0.876
178 E 0.609 1.780 +- 0.944
306 V 0.745 2.034 +- 0.932
367 I 0.770 2.074 +- 0.885
502 R 0.844 2.188 +- 0.861
571 E 0.713 1.977 +- 0.941
862 H 0.733 2.009 +- 0.885
1150 G 0.861 2.213 +- 0.851
1176 V 0.738 2.021 +- 0.934
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: 0.348 0.489 0.141 0.020 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 0.000 1.000
sum of density on p0-p1 = 1.000000
Time used: 40:26
Model 7: beta (10 categories)
TREE # 1: (4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
lnL(ntime: 51 np: 54): -7377.033398 +0.000000
31..4 31..3 31..32 32..33 33..34 34..18 34..9 34..11 33..5 32..35 35..36 36..37 37..22 37..27 37..38 38..16 38..17 36..39 39..40 40..41 41..42 42..43 43..19 43..21 42..44 44..12 44..6 44..15 41..30 40..45 45..46 46..47 47..48 48..49 49..23 49..26 49..13 48..2 47..1 46..50 50..7 50..24 50..29 50..10 45..25 39..51 51..52 52..14 52..20 51..28 35..8
0.003677 0.005691 0.010257 0.004936 0.000780 0.000004 0.000004 0.000780 0.000779 0.003405 0.001683 0.003253 0.000004 0.000777 0.000776 0.000776 0.000004 0.031209 0.003742 0.004965 0.002957 0.003151 0.001557 0.001566 0.003903 0.002333 0.003115 0.000778 0.004101 0.007678 0.001896 0.048371 0.052681 0.003793 0.001552 0.002323 0.003886 0.021846 0.008666 0.011586 0.000004 0.000786 0.000004 0.000786 0.006439 0.008345 0.000779 0.000004 0.001557 0.000004 0.004939 7.360193 0.022757 0.266239
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.288885
(4: 0.003677, 3: 0.005691, (((18: 0.000004, 9: 0.000004, 11: 0.000780): 0.000780, 5: 0.000779): 0.004936, (((22: 0.000004, 27: 0.000777, (16: 0.000776, 17: 0.000004): 0.000776): 0.003253, (((((19: 0.001557, 21: 0.001566): 0.003151, (12: 0.002333, 6: 0.003115, 15: 0.000778): 0.003903): 0.002957, 30: 0.004101): 0.004965, (((((23: 0.001552, 26: 0.002323, 13: 0.003886): 0.003793, 2: 0.021846): 0.052681, 1: 0.008666): 0.048371, (7: 0.000004, 24: 0.000786, 29: 0.000004, 10: 0.000786): 0.011586): 0.001896, 25: 0.006439): 0.007678): 0.003742, ((14: 0.000004, 20: 0.001557): 0.000779, 28: 0.000004): 0.008345): 0.031209): 0.001683, 8: 0.004939): 0.003405): 0.010257);
(C10: 0.003677, C8: 0.005691, (((C13: 0.000004, C16: 0.000004, C17: 0.000780): 0.000780, C4: 0.000779): 0.004936, (((C19: 0.000004, C20: 0.000777, (C23: 0.000776, C25: 0.000004): 0.000776): 0.003253, (((((C2: 0.001557, C39: 0.001566): 0.003151, (C27: 0.002333, C29: 0.003115, C30: 0.000778): 0.003903): 0.002957, C34: 0.004101): 0.004965, (((((C32: 0.001552, C36: 0.002323, C37: 0.003886): 0.003793, C7: 0.021846): 0.052681, C52: 0.008666): 0.048371, (C47: 0.000004, C49: 0.000786, C50: 0.000004, C53: 0.000786): 0.011586): 0.001896, C45: 0.006439): 0.007678): 0.003742, ((C21: 0.000004, C28: 0.001557): 0.000779, C24: 0.000004): 0.008345): 0.031209): 0.001683, C41: 0.004939): 0.003405): 0.010257);
Detailed output identifying parameters
kappa (ts/tv) = 7.36019
Parameters in M7 (beta):
p = 0.02276 q = 0.26624
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 0.00008 0.01993 0.84522
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..4 0.004 3342.0 723.0 0.0865 0.0004 0.0049 1.4 3.6
31..3 0.006 3342.0 723.0 0.0865 0.0007 0.0076 2.2 5.5
31..32 0.010 3342.0 723.0 0.0865 0.0012 0.0137 4.0 9.9
32..33 0.005 3342.0 723.0 0.0865 0.0006 0.0066 1.9 4.8
33..34 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
34..18 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
34..9 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
34..11 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
33..5 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
32..35 0.003 3342.0 723.0 0.0865 0.0004 0.0046 1.3 3.3
35..36 0.002 3342.0 723.0 0.0865 0.0002 0.0023 0.7 1.6
36..37 0.003 3342.0 723.0 0.0865 0.0004 0.0044 1.3 3.1
37..22 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
37..27 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
37..38 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
38..16 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
38..17 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
36..39 0.031 3342.0 723.0 0.0865 0.0036 0.0418 12.1 30.2
39..40 0.004 3342.0 723.0 0.0865 0.0004 0.0050 1.4 3.6
40..41 0.005 3342.0 723.0 0.0865 0.0006 0.0066 1.9 4.8
41..42 0.003 3342.0 723.0 0.0865 0.0003 0.0040 1.1 2.9
42..43 0.003 3342.0 723.0 0.0865 0.0004 0.0042 1.2 3.0
43..19 0.002 3342.0 723.0 0.0865 0.0002 0.0021 0.6 1.5
43..21 0.002 3342.0 723.0 0.0865 0.0002 0.0021 0.6 1.5
42..44 0.004 3342.0 723.0 0.0865 0.0005 0.0052 1.5 3.8
44..12 0.002 3342.0 723.0 0.0865 0.0003 0.0031 0.9 2.3
44..6 0.003 3342.0 723.0 0.0865 0.0004 0.0042 1.2 3.0
44..15 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
41..30 0.004 3342.0 723.0 0.0865 0.0005 0.0055 1.6 4.0
40..45 0.008 3342.0 723.0 0.0865 0.0009 0.0103 3.0 7.4
45..46 0.002 3342.0 723.0 0.0865 0.0002 0.0025 0.7 1.8
46..47 0.048 3342.0 723.0 0.0865 0.0056 0.0648 18.7 46.8
47..48 0.053 3342.0 723.0 0.0865 0.0061 0.0705 20.4 51.0
48..49 0.004 3342.0 723.0 0.0865 0.0004 0.0051 1.5 3.7
49..23 0.002 3342.0 723.0 0.0865 0.0002 0.0021 0.6 1.5
49..26 0.002 3342.0 723.0 0.0865 0.0003 0.0031 0.9 2.2
49..13 0.004 3342.0 723.0 0.0865 0.0005 0.0052 1.5 3.8
48..2 0.022 3342.0 723.0 0.0865 0.0025 0.0292 8.5 21.1
47..1 0.009 3342.0 723.0 0.0865 0.0010 0.0116 3.4 8.4
46..50 0.012 3342.0 723.0 0.0865 0.0013 0.0155 4.5 11.2
50..7 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
50..24 0.001 3342.0 723.0 0.0865 0.0001 0.0011 0.3 0.8
50..29 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
50..10 0.001 3342.0 723.0 0.0865 0.0001 0.0011 0.3 0.8
45..25 0.006 3342.0 723.0 0.0865 0.0007 0.0086 2.5 6.2
39..51 0.008 3342.0 723.0 0.0865 0.0010 0.0112 3.2 8.1
51..52 0.001 3342.0 723.0 0.0865 0.0001 0.0010 0.3 0.8
52..14 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
52..20 0.002 3342.0 723.0 0.0865 0.0002 0.0021 0.6 1.5
51..28 0.000 3342.0 723.0 0.0865 0.0000 0.0000 0.0 0.0
35..8 0.005 3342.0 723.0 0.0865 0.0006 0.0066 1.9 4.8
Time used: 1:45:54
Model 8: beta&w>1 (11 categories)
TREE # 1: (4, 3, (((18, 9, 11), 5), (((22, 27, (16, 17)), (((((19, 21), (12, 6, 15)), 30), (((((23, 26, 13), 2), 1), (7, 24, 29, 10)), 25)), ((14, 20), 28))), 8))); MP score: 341
lnL(ntime: 51 np: 56): -7370.129673 +0.000000
31..4 31..3 31..32 32..33 33..34 34..18 34..9 34..11 33..5 32..35 35..36 36..37 37..22 37..27 37..38 38..16 38..17 36..39 39..40 40..41 41..42 42..43 43..19 43..21 42..44 44..12 44..6 44..15 41..30 40..45 45..46 46..47 47..48 48..49 49..23 49..26 49..13 48..2 47..1 46..50 50..7 50..24 50..29 50..10 45..25 39..51 51..52 52..14 52..20 51..28 35..8
0.003731 0.005881 0.010554 0.005086 0.000801 0.000004 0.000004 0.000800 0.000800 0.003490 0.001708 0.003356 0.000004 0.000796 0.000796 0.000795 0.000004 0.032283 0.003790 0.005084 0.003011 0.003219 0.001590 0.001595 0.003983 0.002373 0.003177 0.000793 0.004173 0.007862 0.001614 0.049616 0.053891 0.003997 0.001588 0.002378 0.003976 0.022445 0.009517 0.012221 0.000004 0.000804 0.000004 0.000805 0.006606 0.008610 0.000797 0.000004 0.001594 0.000004 0.005068 7.533134 0.977580 0.558787 15.149385 2.785231
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.297084
(4: 0.003731, 3: 0.005881, (((18: 0.000004, 9: 0.000004, 11: 0.000800): 0.000801, 5: 0.000800): 0.005086, (((22: 0.000004, 27: 0.000796, (16: 0.000795, 17: 0.000004): 0.000796): 0.003356, (((((19: 0.001590, 21: 0.001595): 0.003219, (12: 0.002373, 6: 0.003177, 15: 0.000793): 0.003983): 0.003011, 30: 0.004173): 0.005084, (((((23: 0.001588, 26: 0.002378, 13: 0.003976): 0.003997, 2: 0.022445): 0.053891, 1: 0.009517): 0.049616, (7: 0.000004, 24: 0.000804, 29: 0.000004, 10: 0.000805): 0.012221): 0.001614, 25: 0.006606): 0.007862): 0.003790, ((14: 0.000004, 20: 0.001594): 0.000797, 28: 0.000004): 0.008610): 0.032283): 0.001708, 8: 0.005068): 0.003490): 0.010554);
(C10: 0.003731, C8: 0.005881, (((C13: 0.000004, C16: 0.000004, C17: 0.000800): 0.000801, C4: 0.000800): 0.005086, (((C19: 0.000004, C20: 0.000796, (C23: 0.000795, C25: 0.000004): 0.000796): 0.003356, (((((C2: 0.001590, C39: 0.001595): 0.003219, (C27: 0.002373, C29: 0.003177, C30: 0.000793): 0.003983): 0.003011, C34: 0.004173): 0.005084, (((((C32: 0.001588, C36: 0.002378, C37: 0.003976): 0.003997, C7: 0.022445): 0.053891, C52: 0.009517): 0.049616, (C47: 0.000004, C49: 0.000804, C50: 0.000004, C53: 0.000805): 0.012221): 0.001614, C45: 0.006606): 0.007862): 0.003790, ((C21: 0.000004, C28: 0.001594): 0.000797, C24: 0.000004): 0.008610): 0.032283): 0.001708, C41: 0.005068): 0.003490): 0.010554);
Detailed output identifying parameters
kappa (ts/tv) = 7.53313
Parameters in M8 (beta&w>1):
p0 = 0.97758 p = 0.55879 q = 15.14939
(p1 = 0.02242) w = 2.78523
MLEs of dN/dS (w) for site classes (K=11)
p: 0.09776 0.09776 0.09776 0.09776 0.09776 0.09776 0.09776 0.09776 0.09776 0.09776 0.02242
w: 0.00026 0.00185 0.00474 0.00900 0.01485 0.02275 0.03357 0.04909 0.07391 0.12902 2.78523
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..4 0.004 3340.6 724.4 0.0956 0.0005 0.0048 1.5 3.5
31..3 0.006 3340.6 724.4 0.0956 0.0007 0.0076 2.4 5.5
31..32 0.011 3340.6 724.4 0.0956 0.0013 0.0137 4.4 9.9
32..33 0.005 3340.6 724.4 0.0956 0.0006 0.0066 2.1 4.8
33..34 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.8
34..18 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
34..9 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
34..11 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.8
33..5 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.8
32..35 0.003 3340.6 724.4 0.0956 0.0004 0.0045 1.4 3.3
35..36 0.002 3340.6 724.4 0.0956 0.0002 0.0022 0.7 1.6
36..37 0.003 3340.6 724.4 0.0956 0.0004 0.0044 1.4 3.2
37..22 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
37..27 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.7
37..38 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.7
38..16 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.7
38..17 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
36..39 0.032 3340.6 724.4 0.0956 0.0040 0.0419 13.4 30.4
39..40 0.004 3340.6 724.4 0.0956 0.0005 0.0049 1.6 3.6
40..41 0.005 3340.6 724.4 0.0956 0.0006 0.0066 2.1 4.8
41..42 0.003 3340.6 724.4 0.0956 0.0004 0.0039 1.2 2.8
42..43 0.003 3340.6 724.4 0.0956 0.0004 0.0042 1.3 3.0
43..19 0.002 3340.6 724.4 0.0956 0.0002 0.0021 0.7 1.5
43..21 0.002 3340.6 724.4 0.0956 0.0002 0.0021 0.7 1.5
42..44 0.004 3340.6 724.4 0.0956 0.0005 0.0052 1.7 3.7
44..12 0.002 3340.6 724.4 0.0956 0.0003 0.0031 1.0 2.2
44..6 0.003 3340.6 724.4 0.0956 0.0004 0.0041 1.3 3.0
44..15 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.7
41..30 0.004 3340.6 724.4 0.0956 0.0005 0.0054 1.7 3.9
40..45 0.008 3340.6 724.4 0.0956 0.0010 0.0102 3.3 7.4
45..46 0.002 3340.6 724.4 0.0956 0.0002 0.0021 0.7 1.5
46..47 0.050 3340.6 724.4 0.0956 0.0062 0.0644 20.6 46.7
47..48 0.054 3340.6 724.4 0.0956 0.0067 0.0700 22.3 50.7
48..49 0.004 3340.6 724.4 0.0956 0.0005 0.0052 1.7 3.8
49..23 0.002 3340.6 724.4 0.0956 0.0002 0.0021 0.7 1.5
49..26 0.002 3340.6 724.4 0.0956 0.0003 0.0031 1.0 2.2
49..13 0.004 3340.6 724.4 0.0956 0.0005 0.0052 1.6 3.7
48..2 0.022 3340.6 724.4 0.0956 0.0028 0.0291 9.3 21.1
47..1 0.010 3340.6 724.4 0.0956 0.0012 0.0124 3.9 9.0
46..50 0.012 3340.6 724.4 0.0956 0.0015 0.0159 5.1 11.5
50..7 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
50..24 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.8
50..29 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
50..10 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.8
45..25 0.007 3340.6 724.4 0.0956 0.0008 0.0086 2.7 6.2
39..51 0.009 3340.6 724.4 0.0956 0.0011 0.0112 3.6 8.1
51..52 0.001 3340.6 724.4 0.0956 0.0001 0.0010 0.3 0.7
52..14 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
52..20 0.002 3340.6 724.4 0.0956 0.0002 0.0021 0.7 1.5
51..28 0.000 3340.6 724.4 0.0956 0.0000 0.0000 0.0 0.0
35..8 0.005 3340.6 724.4 0.0956 0.0006 0.0066 2.1 4.8
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.964* 2.690
46 V 0.802 2.255
57 S 0.985* 2.745
94 K 0.945 2.637
96 H 1.000** 2.785
109 G 0.997** 2.776
119 V 0.664 1.884
123 H 0.775 2.181
178 E 0.896 2.506
301 L 0.535 1.525
306 V 0.968* 2.700
367 I 0.994** 2.770
502 R 0.998** 2.781
571 E 0.956* 2.666
746 P 0.526 1.503
862 H 0.991** 2.762
998 H 0.515 1.472
1043 H 0.642 1.815
1085 G 0.705 1.994
1150 G 0.999** 2.782
1176 V 0.965* 2.692
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.819 1.457 +- 0.600
46 V 0.654 1.228 +- 0.684
57 S 0.855 1.506 +- 0.539
94 K 0.784 1.411 +- 0.628
96 H 0.970* 1.635 +- 0.423
109 G 0.914 1.575 +- 0.489
119 V 0.569 1.105 +- 0.695
123 H 0.635 1.202 +- 0.688
178 E 0.728 1.334 +- 0.659
306 V 0.823 1.462 +- 0.599
367 I 0.896 1.555 +- 0.506
502 R 0.932 1.595 +- 0.471
571 E 0.801 1.433 +- 0.616
862 H 0.881 1.537 +- 0.519
1043 H 0.503 0.972 +- 0.801
1085 G 0.595 1.143 +- 0.692
1150 G 0.940 1.604 +- 0.461
1176 V 0.818 1.455 +- 0.603
The grid
p0: 0.050 0.150 0.250 0.350 0.450 0.550 0.650 0.750 0.850 0.950
p : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
q : 0.100 0.300 0.500 0.700 0.900 1.100 1.300 1.500 1.700 1.900
ws: 1.500 2.500 3.500 4.500 5.500 6.500 7.500 8.500 9.500 10.500
Posterior on the grid
p0: 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 1.000
p : 1.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
q : 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.002 0.067 0.930
ws: 0.847 0.146 0.007 0.000 0.000 0.000 0.000 0.000 0.000 0.000
Time used: 3:06:13
Model 1: NearlyNeutral -7374.864266
Model 2: PositiveSelection -7370.108258
Model 7: beta -7377.033398
Model 8: beta&w>1 -7370.129673
Model 2 vs 1 9.512016
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.855 2.756
46 V 0.581 2.135
57 S 0.774 2.599
94 K 0.815 2.665
96 H 0.979* 3.024
109 G 0.911 2.883
123 H 0.550 2.061
178 E 0.718 2.449
306 V 0.874 2.796
367 I 0.881 2.819
502 R 0.947 2.957
571 E 0.841 2.723
862 H 0.839 2.734
1043 H 0.554 1.848
1150 G 0.960* 2.984
1176 V 0.867 2.779
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.730 2.006 +- 0.931
46 V 0.509 1.581 +- 0.914
57 S 0.678 1.912 +- 0.876
94 K 0.689 1.934 +- 0.945
96 H 0.901 2.258 +- 0.824
109 G 0.803 2.125 +- 0.876
178 E 0.609 1.780 +- 0.944
306 V 0.745 2.034 +- 0.932
367 I 0.770 2.074 +- 0.885
502 R 0.844 2.188 +- 0.861
571 E 0.713 1.977 +- 0.941
862 H 0.733 2.009 +- 0.885
1150 G 0.861 2.213 +- 0.851
1176 V 0.738 2.021 +- 0.934
Model 8 vs 7 13.807450
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C52)
Pr(w>1) post mean +- SE for w
17 S 0.964* 2.690
46 V 0.802 2.255
57 S 0.985* 2.745
94 K 0.945 2.637
96 H 1.000** 2.785
109 G 0.997** 2.776
119 V 0.664 1.884
123 H 0.775 2.181
178 E 0.896 2.506
301 L 0.535 1.525
306 V 0.968* 2.700
367 I 0.994** 2.770
502 R 0.998** 2.781
571 E 0.956* 2.666
746 P 0.526 1.503
862 H 0.991** 2.762
998 H 0.515 1.472
1043 H 0.642 1.815
1085 G 0.705 1.994
1150 G 0.999** 2.782
1176 V 0.965* 2.692
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: C52)
Pr(w>1) post mean +- SE for w
17 S 0.819 1.457 +- 0.600
46 V 0.654 1.228 +- 0.684
57 S 0.855 1.506 +- 0.539
94 K 0.784 1.411 +- 0.628
96 H 0.970* 1.635 +- 0.423
109 G 0.914 1.575 +- 0.489
119 V 0.569 1.105 +- 0.695
123 H 0.635 1.202 +- 0.688
178 E 0.728 1.334 +- 0.659
306 V 0.823 1.462 +- 0.599
367 I 0.896 1.555 +- 0.506
502 R 0.932 1.595 +- 0.471
571 E 0.801 1.433 +- 0.616
862 H 0.881 1.537 +- 0.519
1043 H 0.503 0.972 +- 0.801
1085 G 0.595 1.143 +- 0.692
1150 G 0.940 1.604 +- 0.461
1176 V 0.818 1.455 +- 0.603
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
