--- 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 -10863.39 -10892.20
2 -10861.38 -10892.46
--------------------------------------
TOTAL -10861.95 -10892.34
--------------------------------------
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} 0.221631 0.000124 0.200833 0.243802 0.221514 1472.06 1486.53 1.000
r(A<->C){all} 0.105812 0.000166 0.081765 0.130940 0.105430 841.12 908.28 1.000
r(A<->G){all} 0.191472 0.000311 0.159233 0.227779 0.190914 693.45 805.28 1.000
r(A<->T){all} 0.064463 0.000071 0.048787 0.081535 0.064345 1022.18 1062.67 1.000
r(C<->G){all} 0.055158 0.000110 0.036230 0.076152 0.054548 877.17 1011.85 1.000
r(C<->T){all} 0.478488 0.000469 0.435654 0.520865 0.478772 643.44 701.03 1.000
r(G<->T){all} 0.104607 0.000121 0.082553 0.125228 0.104067 977.17 1066.92 1.000
pi(A){all} 0.243118 0.000041 0.230395 0.255933 0.242907 912.39 933.04 1.000
pi(C){all} 0.200908 0.000034 0.189587 0.212207 0.200790 710.94 858.44 1.002
pi(G){all} 0.209141 0.000036 0.197535 0.220944 0.209117 945.27 1110.62 1.000
pi(T){all} 0.346832 0.000049 0.333281 0.360648 0.346916 1059.05 1076.17 1.000
alpha{1,2} 0.513821 0.025468 0.271067 0.856914 0.490031 850.55 885.88 1.000
alpha{3} 1.511286 0.432833 0.493280 2.825928 1.375057 690.31 692.88 1.000
pinvar{all} 0.594763 0.002806 0.491365 0.692067 0.600224 507.83 572.21 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
--- CODEML SUMMARY
Model 1: NearlyNeutral -10600.199588
Model 2: PositiveSelection -10587.333497
Model 7: beta -10603.287698
Model 8: beta&w>1 -10588.210083
Model 2 vs 1 25.732182
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.715 2.833
28 S 0.507 2.299
65 T 0.670 2.716
82 D 0.661 2.695
126 N 0.971* 3.489
135 N 0.577 2.480
153 Q 0.804 3.060
155 G 0.977* 3.504
193 K 0.564 2.446
306 A 0.878 3.250
361 T 0.810 3.076
484 R 0.600 2.537
514 S 0.829 3.123
560 K 0.978* 3.507
716 S 0.922 3.362
1193 T 0.736 2.886
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.754 2.549 +- 1.007
28 S 0.627 2.266 +- 1.072
65 T 0.723 2.484 +- 1.033
66 G 0.589 2.197 +- 1.094
82 D 0.733 2.496 +- 1.020
83 A 0.561 2.124 +- 1.079
113 H 0.537 2.073 +- 1.079
126 N 0.964* 2.957 +- 0.657
135 N 0.695 2.402 +- 1.038
153 Q 0.842 2.715 +- 0.899
155 G 0.971* 2.969 +- 0.638
193 K 0.671 2.359 +- 1.056
306 A 0.880 2.799 +- 0.841
361 T 0.834 2.705 +- 0.913
484 R 0.675 2.381 +- 1.063
514 S 0.846 2.730 +- 0.896
560 K 0.970* 2.969 +- 0.640
716 S 0.920 2.875 +- 0.762
1155 G 0.500 1.992 +- 1.069
1193 T 0.771 2.583 +- 0.990
1261 P 0.559 2.120 +- 1.079
Model 8 vs 7 30.155230
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.883 2.463
28 S 0.842 2.387
29 T 0.680 2.059
62 Y 0.574 1.827
64 G 0.555 1.809
65 T 0.865 2.429
66 G 0.766 2.228
68 E 0.575 1.830
82 D 0.893 2.485
83 A 0.803 2.311
113 H 0.784 2.273
114 N 0.735 2.176
126 N 0.993** 2.680
131 G 0.553 1.784
135 N 0.901 2.503
153 Q 0.953* 2.604
155 G 0.995** 2.683
158 V 0.506 1.687
189 R 0.533 1.742
193 K 0.869 2.439
208 M 0.655 2.009
240 S 0.520 1.716
306 A 0.959* 2.615
351 L 0.573 1.825
355 T 0.573 1.825
361 T 0.941 2.579
484 R 0.835 2.370
493 I 0.733 2.172
514 S 0.945 2.588
560 K 0.994** 2.682
716 S 0.979* 2.653
760 P 0.617 1.917
769 A 0.545 1.767
992 L 0.551 1.780
1058 S 0.557 1.812
1155 G 0.763 2.232
1159 D 0.691 2.090
1193 T 0.896 2.489
1261 P 0.804 2.312
1286 L 0.561 1.801
1355 C 0.555 1.809
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.894 2.326 +- 0.569
28 S 0.864 2.277 +- 0.616
29 T 0.734 2.041 +- 0.799
56 M 0.540 1.671 +- 0.919
57 N 0.534 1.643 +- 0.946
62 Y 0.636 1.840 +- 0.907
64 G 0.634 1.858 +- 0.870
65 T 0.880 2.302 +- 0.598
66 G 0.800 2.157 +- 0.734
68 E 0.637 1.842 +- 0.907
82 D 0.904 2.345 +- 0.541
83 A 0.834 2.224 +- 0.664
94 E 0.549 1.672 +- 0.943
113 H 0.819 2.198 +- 0.686
114 N 0.782 2.131 +- 0.733
116 I 0.524 1.656 +- 0.903
126 N 0.991** 2.495 +- 0.254
131 G 0.619 1.806 +- 0.917
134 V 0.557 1.715 +- 0.897
135 N 0.911 2.360 +- 0.516
153 Q 0.954* 2.433 +- 0.402
155 G 0.993** 2.498 +- 0.243
158 V 0.578 1.728 +- 0.934
189 R 0.601 1.773 +- 0.925
193 K 0.885 2.314 +- 0.577
203 T 0.566 1.706 +- 0.938
208 M 0.715 2.005 +- 0.816
240 S 0.590 1.752 +- 0.930
297 M 0.519 1.613 +- 0.948
306 A 0.959* 2.441 +- 0.390
351 L 0.635 1.839 +- 0.908
355 T 0.635 1.839 +- 0.908
361 T 0.943 2.413 +- 0.440
484 R 0.857 2.260 +- 0.641
493 I 0.780 2.129 +- 0.735
514 S 0.947 2.420 +- 0.428
560 K 0.992** 2.497 +- 0.246
602 E 0.533 1.641 +- 0.946
716 S 0.977* 2.471 +- 0.320
760 P 0.673 1.910 +- 0.884
769 A 0.611 1.793 +- 0.920
952 I 0.553 1.680 +- 0.942
962 S 0.567 1.735 +- 0.895
992 L 0.617 1.803 +- 0.918
1058 S 0.635 1.859 +- 0.869
1155 G 0.804 2.170 +- 0.707
1159 D 0.748 2.071 +- 0.768
1193 T 0.905 2.346 +- 0.545
1203 F 0.537 1.680 +- 0.901
1211 S 0.516 1.641 +- 0.903
1261 P 0.835 2.225 +- 0.663
1286 L 0.625 1.819 +- 0.913
1355 C 0.634 1.857 +- 0.870
-- Starting log on Thu Nov 17 16:37:05 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result--
-- Starting log on Thu Nov 17 16:50:07 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result--
-- Starting log on Fri Nov 18 00:02:28 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result/gapped_alignment/codeml,LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.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 4194 characters
Missing data coded as ?
Data matrix is interleaved
Data is Dna
Gaps coded as -
Matching characters coded as .
Taxon 1 -> C321
Taxon 2 -> C66
Taxon 3 -> C166
Taxon 4 -> C236
Taxon 5 -> C327
Taxon 6 -> C72
Taxon 7 -> C476
Taxon 8 -> C223
Taxon 9 -> C78
Taxon 10 -> C284
Taxon 11 -> C191
Taxon 12 -> C562
Taxon 13 -> C316
Taxon 14 -> C363
Taxon 15 -> C554
Taxon 16 -> C370
Taxon 17 -> C34
Taxon 18 -> C112
Taxon 19 -> C538
Taxon 20 -> C552
Taxon 21 -> C139
Taxon 22 -> C578
Taxon 23 -> C425
Taxon 24 -> C590
Taxon 25 -> C388
Taxon 26 -> C130
Taxon 27 -> C266
Taxon 28 -> C212
Taxon 29 -> C136
Taxon 30 -> C49
Successfully read matrix
Setting default partition (does not divide up characters)
Setting model defaults
Seed (for generating default start values) = 1668729750
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) = 805361112
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 = 0349826245
Seed = 1202688809
Swapseed = 1668729750
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 126 unique site patterns
Division 2 has 109 unique site patterns
Division 3 has 203 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 -- -17234.321933 -- 82.122948
Chain 2 -- -17366.017874 -- 82.122948
Chain 3 -- -17366.700780 -- 82.122948
Chain 4 -- -17404.335037 -- 82.122948
Initial log likelihoods and log prior probs for run 2:
Chain 1 -- -17283.857125 -- 82.122948
Chain 2 -- -16676.084350 -- 82.122948
Chain 3 -- -17326.330490 -- 82.122948
Chain 4 -- -17175.626148 -- 82.122948
Using a relative burnin of 25.0 % for diagnostics
Chain results (1000000 generations requested):
0 -- [-17234.322] (-17366.018) (-17366.701) (-17404.335) * [-17283.857] (-16676.084) (-17326.330) (-17175.626)
1000 -- (-11257.823) [-11228.816] (-11803.409) (-11356.570) * (-11279.076) [-11256.429] (-11312.468) (-11281.736) -- 0:49:57
2000 -- [-10987.097] (-11011.870) (-11069.029) (-11099.771) * (-10983.585) [-10958.393] (-11075.526) (-11036.767) -- 0:41:35
3000 -- [-10929.063] (-10927.821) (-10958.500) (-10978.120) * [-10893.277] (-10885.612) (-10992.736) (-10920.487) -- 0:44:18
4000 -- (-10891.891) [-10890.332] (-10954.490) (-10950.200) * [-10878.138] (-10885.456) (-10941.299) (-10898.664) -- 0:41:30
5000 -- (-10878.189) [-10869.764] (-10908.026) (-10914.297) * (-10884.677) (-10880.416) (-10905.518) [-10883.916] -- 0:43:07
Average standard deviation of split frequencies: 0.101563
6000 -- [-10874.451] (-10865.729) (-10894.218) (-10908.826) * (-10894.405) (-10892.402) [-10882.103] (-10881.133) -- 0:41:25
7000 -- (-10881.888) [-10873.945] (-10883.102) (-10886.822) * (-10888.632) (-10877.541) (-10888.212) [-10876.267] -- 0:42:33
8000 -- (-10871.933) [-10876.340] (-10891.235) (-10880.214) * (-10873.298) (-10888.155) (-10895.393) [-10874.560] -- 0:43:24
9000 -- (-10885.373) [-10866.024] (-10885.766) (-10875.623) * (-10868.748) [-10867.875] (-10888.070) (-10877.110) -- 0:42:12
10000 -- (-10891.794) (-10877.222) (-10871.589) [-10874.900] * (-10874.720) (-10882.560) [-10876.938] (-10885.859) -- 0:42:54
Average standard deviation of split frequencies: 0.065917
11000 -- [-10876.218] (-10876.547) (-10883.248) (-10889.220) * (-10890.220) (-10876.473) [-10876.769] (-10878.082) -- 0:43:27
12000 -- [-10886.117] (-10875.191) (-10883.300) (-10876.587) * (-10898.262) (-10880.164) (-10877.016) [-10884.243] -- 0:42:32
13000 -- (-10872.698) (-10893.607) (-10888.453) [-10868.217] * (-10887.175) (-10870.888) (-10883.551) [-10873.972] -- 0:43:01
14000 -- (-10891.630) (-10875.752) (-10878.661) [-10884.780] * (-10869.232) [-10868.431] (-10866.714) (-10889.432) -- 0:42:15
15000 -- (-10871.610) [-10881.887] (-10874.224) (-10893.531) * [-10864.709] (-10876.268) (-10871.314) (-10876.429) -- 0:42:41
Average standard deviation of split frequencies: 0.065889
16000 -- (-10888.371) [-10875.967] (-10897.882) (-10876.600) * [-10864.944] (-10883.389) (-10888.522) (-10886.791) -- 0:43:03
17000 -- (-10884.151) (-10880.476) (-10889.831) [-10876.181] * (-10869.400) [-10874.800] (-10884.212) (-10880.325) -- 0:42:24
18000 -- (-10878.826) (-10874.399) (-10872.550) [-10872.194] * (-10873.355) (-10885.801) [-10880.078] (-10876.723) -- 0:42:44
19000 -- (-10883.793) [-10875.192] (-10887.320) (-10879.629) * (-10877.313) (-10883.346) (-10879.963) [-10876.126] -- 0:42:09
20000 -- (-10884.029) [-10868.604] (-10881.760) (-10880.021) * (-10874.674) (-10879.084) (-10888.210) [-10868.040] -- 0:42:28
Average standard deviation of split frequencies: 0.056586
21000 -- [-10868.948] (-10872.916) (-10885.343) (-10875.614) * (-10886.257) (-10894.396) (-10867.922) [-10882.434] -- 0:41:57
22000 -- [-10870.660] (-10889.403) (-10891.416) (-10880.216) * (-10906.026) (-10897.132) [-10867.564] (-10873.531) -- 0:42:13
23000 -- (-10895.330) (-10877.783) (-10887.700) [-10869.169] * (-10897.153) (-10889.438) [-10871.851] (-10873.740) -- 0:42:28
24000 -- [-10874.437] (-10886.402) (-10877.656) (-10877.908) * [-10894.006] (-10882.960) (-10878.328) (-10879.656) -- 0:42:01
25000 -- (-10891.372) [-10866.367] (-10885.913) (-10877.411) * (-10889.074) (-10880.812) (-10872.138) [-10868.288] -- 0:42:15
Average standard deviation of split frequencies: 0.054722
26000 -- [-10869.656] (-10878.835) (-10889.515) (-10891.230) * (-10887.642) [-10867.738] (-10880.101) (-10880.382) -- 0:41:49
27000 -- (-10875.846) (-10861.089) [-10876.942] (-10895.157) * (-10872.514) (-10869.638) (-10877.399) [-10874.010] -- 0:42:38
28000 -- (-10882.821) [-10870.683] (-10878.675) (-10885.648) * (-10864.769) [-10875.566] (-10897.137) (-10877.463) -- 0:43:23
29000 -- (-10880.794) (-10866.654) (-10879.230) [-10875.019] * [-10867.007] (-10883.986) (-10888.030) (-10881.262) -- 0:44:05
30000 -- (-10885.869) [-10858.800] (-10890.677) (-10892.590) * [-10867.035] (-10880.580) (-10880.751) (-10875.986) -- 0:44:43
Average standard deviation of split frequencies: 0.036893
31000 -- (-10884.865) [-10869.241] (-10876.324) (-10896.651) * (-10879.715) (-10879.530) [-10876.051] (-10900.053) -- 0:45:19
32000 -- (-10871.761) [-10884.365] (-10887.048) (-10887.662) * (-10864.837) (-10878.993) [-10867.343] (-10879.460) -- 0:45:52
33000 -- [-10872.053] (-10874.144) (-10889.493) (-10897.949) * (-10880.087) (-10871.201) [-10868.917] (-10885.629) -- 0:45:25
34000 -- (-10878.292) (-10881.176) (-10887.829) [-10861.005] * [-10863.848] (-10876.450) (-10872.220) (-10891.109) -- 0:45:27
35000 -- [-10867.809] (-10892.442) (-10882.361) (-10867.148) * [-10866.383] (-10895.330) (-10871.590) (-10874.618) -- 0:45:29
Average standard deviation of split frequencies: 0.031130
36000 -- (-10886.245) (-10878.958) (-10883.397) [-10866.809] * (-10878.743) [-10880.985] (-10873.684) (-10884.400) -- 0:45:04
37000 -- [-10884.941] (-10881.340) (-10881.646) (-10874.571) * (-10874.569) (-10873.728) [-10862.916] (-10881.416) -- 0:45:06
38000 -- (-10870.324) (-10894.689) [-10878.061] (-10875.732) * [-10877.616] (-10886.378) (-10885.552) (-10888.731) -- 0:44:43
39000 -- (-10871.690) [-10865.830] (-10889.053) (-10878.326) * (-10865.536) [-10874.608] (-10885.749) (-10897.779) -- 0:44:45
40000 -- [-10879.116] (-10871.066) (-10893.172) (-10876.121) * (-10892.521) (-10907.723) (-10876.895) [-10893.509] -- 0:44:48
Average standard deviation of split frequencies: 0.031276
41000 -- (-10872.308) (-10876.766) [-10871.688] (-10869.247) * (-10885.431) (-10903.749) (-10880.332) [-10874.666] -- 0:44:26
42000 -- (-10879.714) (-10880.775) [-10863.847] (-10875.099) * (-10881.366) (-10897.687) (-10882.057) [-10876.337] -- 0:44:28
43000 -- (-10899.006) (-10878.756) [-10871.832] (-10880.007) * (-10879.865) (-10878.477) (-10884.485) [-10867.202] -- 0:44:08
44000 -- (-10898.211) (-10879.483) (-10882.948) [-10868.026] * (-10886.696) (-10886.918) (-10883.626) [-10883.900] -- 0:44:10
45000 -- (-10907.745) [-10872.665] (-10872.090) (-10885.765) * (-10884.423) (-10883.054) [-10869.914] (-10878.645) -- 0:43:51
Average standard deviation of split frequencies: 0.025999
46000 -- (-10885.499) (-10887.043) [-10880.468] (-10886.084) * (-10895.423) (-10887.363) (-10873.341) [-10878.075] -- 0:43:53
47000 -- (-10884.017) (-10872.684) [-10871.715] (-10888.074) * (-10885.163) (-10879.736) [-10868.567] (-10888.764) -- 0:43:35
48000 -- (-10892.847) [-10876.846] (-10878.380) (-10901.855) * [-10879.265] (-10883.776) (-10875.698) (-10889.530) -- 0:43:38
49000 -- (-10894.966) (-10867.927) (-10875.434) [-10885.974] * (-10888.243) (-10873.923) (-10879.526) [-10875.080] -- 0:43:40
50000 -- (-10874.784) [-10862.622] (-10884.261) (-10881.768) * (-10881.558) (-10878.627) (-10887.051) [-10873.596] -- 0:43:23
Average standard deviation of split frequencies: 0.028774
51000 -- (-10880.396) (-10879.649) (-10873.969) [-10872.390] * (-10881.453) (-10900.771) [-10874.151] (-10891.960) -- 0:43:25
52000 -- (-10885.058) (-10889.556) (-10886.466) [-10876.449] * (-10888.797) (-10882.941) [-10864.954] (-10877.872) -- 0:43:08
53000 -- (-10877.155) (-10881.810) (-10897.655) [-10873.029] * (-10890.265) (-10870.885) [-10865.083] (-10900.157) -- 0:43:10
54000 -- (-10888.017) (-10867.213) [-10872.395] (-10880.537) * (-10887.293) (-10874.095) [-10858.669] (-10884.170) -- 0:42:55
55000 -- (-10879.929) (-10877.525) (-10884.451) [-10871.534] * (-10876.704) (-10872.377) [-10879.608] (-10874.193) -- 0:42:57
Average standard deviation of split frequencies: 0.023666
56000 -- (-10888.508) [-10871.696] (-10889.871) (-10873.533) * [-10867.819] (-10867.330) (-10872.823) (-10870.712) -- 0:42:59
57000 -- (-10878.943) (-10883.510) [-10870.021] (-10883.744) * (-10873.051) [-10863.746] (-10886.898) (-10875.982) -- 0:43:00
58000 -- (-10883.059) [-10874.015] (-10889.551) (-10889.672) * [-10865.166] (-10858.269) (-10883.338) (-10902.820) -- 0:43:02
59000 -- (-10881.853) [-10880.430] (-10882.738) (-10870.095) * (-10873.210) [-10864.035] (-10882.391) (-10900.379) -- 0:43:03
60000 -- (-10877.829) [-10882.342] (-10886.917) (-10873.602) * (-10874.630) [-10869.335] (-10878.789) (-10879.052) -- 0:43:05
Average standard deviation of split frequencies: 0.021518
61000 -- (-10882.730) (-10891.589) (-10899.977) [-10880.924] * (-10878.767) [-10876.368] (-10890.638) (-10891.513) -- 0:42:50
62000 -- (-10862.124) [-10877.897] (-10873.225) (-10895.541) * (-10881.331) [-10864.883] (-10877.191) (-10883.628) -- 0:42:51
63000 -- [-10870.282] (-10878.200) (-10869.131) (-10882.339) * (-10885.911) (-10880.165) (-10864.383) [-10882.580] -- 0:42:38
64000 -- [-10879.304] (-10867.365) (-10879.929) (-10893.688) * (-10868.311) [-10875.916] (-10870.205) (-10876.187) -- 0:42:39
65000 -- (-10871.966) [-10877.517] (-10880.231) (-10876.077) * (-10883.955) [-10864.757] (-10889.736) (-10873.284) -- 0:42:40
Average standard deviation of split frequencies: 0.021158
66000 -- (-10875.321) (-10868.462) [-10864.815] (-10892.033) * [-10876.835] (-10882.237) (-10880.032) (-10870.087) -- 0:42:27
67000 -- [-10876.446] (-10880.637) (-10875.698) (-10885.411) * [-10873.051] (-10865.454) (-10884.112) (-10880.595) -- 0:42:28
68000 -- (-10881.882) (-10881.308) [-10879.203] (-10874.289) * (-10891.998) (-10881.103) [-10883.245] (-10889.850) -- 0:42:29
69000 -- (-10877.718) [-10872.771] (-10891.419) (-10886.672) * (-10884.912) (-10890.643) (-10895.368) [-10868.763] -- 0:42:16
70000 -- (-10886.734) [-10882.539] (-10887.350) (-10893.052) * (-10883.635) (-10881.751) (-10879.016) [-10876.958] -- 0:42:17
Average standard deviation of split frequencies: 0.017243
71000 -- (-10871.407) [-10878.914] (-10876.808) (-10875.896) * (-10895.580) (-10879.239) [-10868.520] (-10872.142) -- 0:42:18
72000 -- (-10878.305) (-10886.437) [-10867.567] (-10891.575) * [-10883.529] (-10896.699) (-10877.306) (-10869.842) -- 0:42:06
73000 -- [-10879.169] (-10878.483) (-10871.909) (-10888.677) * [-10865.520] (-10876.808) (-10887.300) (-10870.930) -- 0:42:07
74000 -- (-10883.773) [-10879.278] (-10875.086) (-10877.634) * [-10876.368] (-10878.349) (-10878.852) (-10889.992) -- 0:41:55
75000 -- (-10876.036) [-10866.358] (-10863.134) (-10874.378) * (-10866.527) (-10890.357) [-10861.676] (-10880.406) -- 0:41:56
Average standard deviation of split frequencies: 0.015214
76000 -- (-10883.480) (-10870.880) [-10872.144] (-10890.644) * (-10868.917) (-10888.792) [-10870.596] (-10887.106) -- 0:41:56
77000 -- [-10866.269] (-10871.957) (-10859.124) (-10879.426) * (-10878.048) [-10867.400] (-10882.623) (-10880.508) -- 0:41:45
78000 -- (-10875.392) (-10885.680) [-10876.874] (-10881.433) * (-10894.079) [-10878.322] (-10883.846) (-10876.355) -- 0:41:45
79000 -- (-10879.565) (-10877.485) [-10882.591] (-10895.292) * [-10874.096] (-10884.642) (-10869.308) (-10871.379) -- 0:41:46
80000 -- [-10881.214] (-10893.192) (-10880.351) (-10895.041) * (-10889.096) (-10878.086) [-10876.262] (-10876.418) -- 0:41:35
Average standard deviation of split frequencies: 0.016208
81000 -- (-10882.131) [-10875.555] (-10867.596) (-10885.548) * (-10872.820) (-10874.185) (-10892.949) [-10878.341] -- 0:41:47
82000 -- (-10883.985) [-10873.855] (-10874.558) (-10885.688) * (-10882.461) [-10876.110] (-10879.863) (-10865.983) -- 0:42:10
83000 -- (-10906.856) (-10880.871) [-10867.903] (-10875.691) * (-10884.874) (-10884.770) [-10879.412] (-10879.565) -- 0:42:21
84000 -- (-10885.098) (-10883.846) (-10886.234) [-10876.686] * (-10887.648) (-10886.985) (-10880.947) [-10870.099] -- 0:42:31
85000 -- (-10875.686) [-10872.745] (-10880.409) (-10891.513) * (-10884.077) [-10867.785] (-10879.772) (-10877.669) -- 0:42:42
Average standard deviation of split frequencies: 0.015410
86000 -- (-10885.413) (-10875.536) [-10880.937] (-10890.246) * [-10875.170] (-10879.572) (-10879.317) (-10884.601) -- 0:42:51
87000 -- (-10891.554) (-10874.715) [-10866.848] (-10873.156) * (-10878.441) (-10885.600) (-10875.476) [-10891.764] -- 0:43:01
88000 -- (-10890.432) [-10875.231] (-10870.157) (-10876.702) * [-10888.167] (-10870.686) (-10878.041) (-10894.980) -- 0:43:10
89000 -- (-10891.285) (-10881.630) [-10866.120] (-10875.067) * (-10885.345) [-10871.596] (-10888.748) (-10885.300) -- 0:43:30
90000 -- [-10863.842] (-10887.174) (-10887.878) (-10880.345) * (-10890.006) [-10884.593] (-10893.525) (-10883.399) -- 0:43:38
Average standard deviation of split frequencies: 0.016383
91000 -- [-10872.287] (-10877.134) (-10874.611) (-10875.576) * (-10867.124) (-10897.138) (-10903.780) [-10882.712] -- 0:43:47
92000 -- (-10886.972) (-10908.864) (-10881.786) [-10869.081] * [-10878.921] (-10885.200) (-10895.702) (-10873.860) -- 0:43:45
93000 -- [-10872.908] (-10867.819) (-10876.545) (-10885.804) * (-10876.170) [-10880.122] (-10897.520) (-10874.909) -- 0:43:43
94000 -- (-10883.083) (-10881.152) (-10877.026) [-10876.934] * [-10871.615] (-10868.403) (-10881.367) (-10887.369) -- 0:43:41
95000 -- [-10874.542] (-10891.783) (-10871.468) (-10908.418) * (-10874.267) (-10874.612) [-10883.106] (-10893.857) -- 0:43:30
Average standard deviation of split frequencies: 0.014824
96000 -- (-10881.668) (-10883.095) [-10865.951] (-10889.230) * (-10880.336) (-10864.731) (-10885.665) [-10866.528] -- 0:43:28
97000 -- (-10883.501) (-10875.739) (-10874.992) [-10880.521] * (-10891.359) (-10873.460) (-10888.946) [-10864.046] -- 0:43:17
98000 -- (-10873.636) [-10866.807] (-10893.561) (-10882.483) * (-10898.763) (-10884.895) (-10905.097) [-10877.588] -- 0:43:15
99000 -- [-10863.002] (-10887.908) (-10882.341) (-10872.479) * (-10881.247) (-10877.698) [-10886.302] (-10880.172) -- 0:43:13
100000 -- (-10887.230) (-10886.914) [-10872.346] (-10875.952) * (-10879.927) [-10859.957] (-10871.976) (-10876.969) -- 0:43:03
Average standard deviation of split frequencies: 0.015727
101000 -- (-10874.718) (-10885.391) [-10868.573] (-10874.394) * (-10888.669) (-10878.673) (-10877.793) [-10870.309] -- 0:43:01
102000 -- [-10879.494] (-10884.584) (-10884.187) (-10868.421) * (-10886.237) (-10880.511) (-10877.547) [-10874.376] -- 0:42:50
103000 -- (-10879.756) (-10884.077) (-10903.407) [-10868.940] * (-10869.655) [-10875.574] (-10902.601) (-10879.876) -- 0:42:49
104000 -- [-10867.493] (-10887.986) (-10885.141) (-10878.978) * (-10878.474) (-10876.009) (-10869.520) [-10874.468] -- 0:42:47
105000 -- [-10858.402] (-10903.002) (-10876.564) (-10877.781) * (-10872.563) [-10872.393] (-10877.882) (-10892.035) -- 0:42:37
Average standard deviation of split frequencies: 0.015104
106000 -- [-10869.169] (-10890.228) (-10884.092) (-10872.252) * [-10870.808] (-10884.646) (-10887.196) (-10889.187) -- 0:42:35
107000 -- (-10875.236) [-10879.736] (-10884.747) (-10877.200) * (-10894.003) (-10866.653) (-10886.024) [-10891.167] -- 0:42:33
108000 -- [-10870.802] (-10883.731) (-10874.638) (-10880.119) * (-10893.376) (-10876.935) [-10870.946] (-10884.868) -- 0:42:23
109000 -- (-10866.991) [-10864.297] (-10874.634) (-10881.930) * (-10874.524) [-10876.116] (-10882.563) (-10877.261) -- 0:42:22
110000 -- [-10859.273] (-10890.787) (-10865.178) (-10887.336) * (-10865.986) [-10864.941] (-10879.811) (-10893.377) -- 0:42:20
Average standard deviation of split frequencies: 0.015400
111000 -- (-10872.490) (-10883.507) [-10873.101] (-10871.004) * [-10877.880] (-10880.435) (-10886.860) (-10900.082) -- 0:42:10
112000 -- (-10879.236) (-10881.384) (-10896.449) [-10866.880] * (-10874.359) (-10875.529) [-10877.574] (-10885.410) -- 0:42:09
113000 -- [-10866.519] (-10887.731) (-10883.842) (-10873.245) * (-10888.104) (-10877.954) (-10884.325) [-10877.950] -- 0:41:59
114000 -- (-10882.918) (-10890.576) (-10882.615) [-10882.925] * (-10882.108) [-10870.969] (-10876.290) (-10884.517) -- 0:41:58
115000 -- (-10896.525) (-10884.813) (-10864.406) [-10877.916] * (-10883.444) (-10891.855) (-10883.846) [-10873.685] -- 0:41:56
Average standard deviation of split frequencies: 0.014849
116000 -- (-10878.432) (-10890.671) (-10874.536) [-10878.075] * (-10893.673) (-10896.315) (-10894.046) [-10872.563] -- 0:41:47
117000 -- (-10863.558) (-10886.523) (-10880.463) [-10883.475] * (-10881.846) (-10880.659) (-10890.036) [-10874.770] -- 0:41:45
118000 -- (-10899.791) (-10875.734) [-10876.251] (-10895.607) * (-10871.446) (-10878.855) (-10885.376) [-10876.156] -- 0:41:36
119000 -- (-10890.490) (-10876.995) [-10879.169] (-10898.903) * (-10896.101) [-10872.495] (-10867.371) (-10875.868) -- 0:41:34
120000 -- [-10868.838] (-10885.651) (-10881.285) (-10891.328) * [-10877.991] (-10890.353) (-10875.860) (-10877.486) -- 0:41:33
Average standard deviation of split frequencies: 0.015852
121000 -- [-10874.591] (-10881.492) (-10892.779) (-10875.175) * (-10898.648) [-10882.220] (-10883.094) (-10886.123) -- 0:41:24
122000 -- (-10869.700) (-10882.659) [-10871.469] (-10883.777) * (-10883.900) (-10881.982) (-10883.686) [-10879.959] -- 0:41:22
123000 -- (-10882.958) (-10899.972) (-10878.624) [-10869.840] * (-10887.676) [-10881.118] (-10892.496) (-10873.101) -- 0:41:21
124000 -- (-10900.307) [-10870.394] (-10882.410) (-10873.186) * (-10888.679) (-10871.725) [-10879.221] (-10874.305) -- 0:41:12
125000 -- (-10890.492) [-10876.008] (-10883.638) (-10871.842) * (-10878.812) [-10864.095] (-10907.020) (-10875.665) -- 0:41:11
Average standard deviation of split frequencies: 0.014534
126000 -- (-10889.743) [-10872.688] (-10890.633) (-10876.952) * [-10870.679] (-10879.878) (-10907.883) (-10875.391) -- 0:41:02
127000 -- [-10878.562] (-10883.163) (-10873.870) (-10878.701) * (-10892.459) [-10871.957] (-10906.584) (-10885.593) -- 0:41:00
128000 -- (-10886.286) (-10886.302) (-10872.282) [-10873.330] * [-10865.726] (-10896.462) (-10891.525) (-10876.794) -- 0:40:59
129000 -- (-10879.531) (-10879.808) (-10875.728) [-10880.714] * [-10871.696] (-10885.059) (-10888.321) (-10877.727) -- 0:40:50
130000 -- (-10878.363) [-10876.545] (-10890.737) (-10874.915) * [-10885.297] (-10879.550) (-10876.004) (-10895.134) -- 0:40:49
Average standard deviation of split frequencies: 0.014570
131000 -- (-10867.727) (-10891.271) [-10881.667] (-10877.344) * [-10876.937] (-10882.419) (-10882.319) (-10889.420) -- 0:40:41
132000 -- (-10894.774) [-10877.175] (-10878.720) (-10882.352) * (-10871.153) [-10873.455] (-10884.077) (-10895.897) -- 0:40:39
133000 -- (-10880.395) (-10882.973) [-10874.820] (-10886.784) * [-10871.169] (-10907.456) (-10872.347) (-10894.896) -- 0:40:31
134000 -- [-10868.624] (-10878.161) (-10871.704) (-10887.942) * (-10886.709) [-10883.992] (-10883.518) (-10874.130) -- 0:40:29
135000 -- (-10884.221) (-10878.732) (-10877.882) [-10875.140] * (-10887.780) (-10890.913) [-10874.177] (-10888.578) -- 0:40:22
Average standard deviation of split frequencies: 0.015398
136000 -- (-10888.279) [-10878.485] (-10872.750) (-10880.313) * (-10890.474) (-10888.695) (-10883.753) [-10878.613] -- 0:40:20
137000 -- [-10884.094] (-10888.082) (-10882.460) (-10879.516) * (-10892.245) [-10881.940] (-10875.791) (-10877.433) -- 0:40:18
138000 -- (-10881.354) [-10867.719] (-10883.740) (-10884.156) * (-10882.969) [-10875.805] (-10899.128) (-10880.031) -- 0:40:11
139000 -- [-10871.266] (-10875.363) (-10883.190) (-10875.345) * (-10880.442) (-10872.213) (-10904.518) [-10875.663] -- 0:40:15
140000 -- (-10876.332) [-10877.776] (-10878.437) (-10885.242) * (-10876.771) (-10892.707) (-10898.778) [-10871.610] -- 0:40:14
Average standard deviation of split frequencies: 0.015145
141000 -- (-10880.900) (-10880.854) [-10882.729] (-10905.252) * (-10878.047) (-10881.445) (-10882.976) [-10866.470] -- 0:40:06
142000 -- [-10871.704] (-10881.977) (-10897.544) (-10912.238) * (-10877.057) (-10878.042) [-10876.811] (-10870.275) -- 0:40:04
143000 -- [-10871.703] (-10865.994) (-10889.077) (-10887.417) * [-10873.600] (-10867.478) (-10898.189) (-10882.891) -- 0:40:03
144000 -- (-10868.869) (-10868.493) [-10875.611] (-10898.996) * (-10882.074) (-10868.940) (-10893.615) [-10874.227] -- 0:39:55
145000 -- (-10881.041) (-10865.501) (-10868.281) [-10872.949] * (-10906.385) (-10880.952) [-10885.115] (-10872.439) -- 0:39:54
Average standard deviation of split frequencies: 0.013474
146000 -- [-10874.177] (-10866.681) (-10878.675) (-10899.539) * (-10884.011) (-10879.831) [-10882.601] (-10876.735) -- 0:39:46
147000 -- (-10899.598) [-10871.300] (-10872.482) (-10881.766) * (-10889.194) (-10884.662) (-10867.160) [-10866.105] -- 0:39:44
148000 -- [-10870.327] (-10872.987) (-10881.070) (-10890.353) * (-10886.799) (-10875.276) (-10879.078) [-10869.685] -- 0:39:43
149000 -- [-10870.474] (-10872.732) (-10888.700) (-10892.124) * (-10891.390) [-10885.548] (-10873.487) (-10884.813) -- 0:39:41
150000 -- (-10865.999) (-10881.859) [-10880.646] (-10880.417) * (-10879.126) (-10888.209) (-10873.815) [-10872.088] -- 0:39:34
Average standard deviation of split frequencies: 0.014080
151000 -- (-10885.735) [-10884.153] (-10878.745) (-10882.929) * (-10886.200) (-10896.796) [-10871.243] (-10866.079) -- 0:39:32
152000 -- (-10877.774) [-10872.971] (-10879.665) (-10876.366) * (-10871.843) (-10895.245) (-10889.070) [-10866.297] -- 0:39:25
153000 -- (-10874.879) (-10865.716) [-10895.266] (-10886.416) * (-10869.747) [-10872.607] (-10891.231) (-10891.455) -- 0:39:23
154000 -- [-10872.237] (-10866.465) (-10886.738) (-10884.039) * (-10874.553) [-10876.165] (-10897.874) (-10878.097) -- 0:39:16
155000 -- (-10872.314) (-10880.195) [-10886.777] (-10895.671) * [-10874.097] (-10893.874) (-10886.246) (-10875.223) -- 0:39:15
Average standard deviation of split frequencies: 0.014586
156000 -- (-10891.658) (-10886.837) [-10881.445] (-10894.225) * [-10862.939] (-10883.965) (-10894.167) (-10873.761) -- 0:39:08
157000 -- (-10895.893) (-10876.982) [-10873.174] (-10879.283) * (-10862.904) (-10881.549) [-10865.803] (-10866.538) -- 0:39:06
158000 -- (-10893.463) [-10875.839] (-10873.144) (-10894.223) * (-10884.539) (-10885.690) (-10878.809) [-10873.572] -- 0:38:59
159000 -- (-10883.763) [-10869.908] (-10889.182) (-10875.790) * (-10875.437) [-10877.959] (-10892.054) (-10883.751) -- 0:38:57
160000 -- (-10886.099) (-10892.436) (-10867.933) [-10885.374] * (-10880.048) (-10868.753) [-10877.423] (-10887.066) -- 0:38:51
Average standard deviation of split frequencies: 0.013937
161000 -- (-10882.481) (-10882.856) [-10882.875] (-10884.029) * (-10880.639) (-10873.566) (-10865.577) [-10884.983] -- 0:38:49
162000 -- [-10888.099] (-10865.377) (-10884.215) (-10878.178) * (-10894.679) [-10869.105] (-10879.569) (-10884.720) -- 0:38:47
163000 -- (-10880.347) [-10865.365] (-10871.726) (-10884.495) * (-10891.127) (-10870.284) [-10874.568] (-10873.581) -- 0:38:41
164000 -- (-10885.260) [-10873.565] (-10888.086) (-10885.148) * (-10891.020) [-10881.160] (-10875.994) (-10880.441) -- 0:38:39
165000 -- (-10874.602) [-10876.227] (-10886.421) (-10886.862) * (-10888.921) (-10876.983) (-10884.029) [-10874.997] -- 0:38:32
Average standard deviation of split frequencies: 0.014681
166000 -- [-10879.370] (-10879.669) (-10877.718) (-10885.387) * (-10870.526) (-10871.904) (-10889.118) [-10857.856] -- 0:38:31
167000 -- (-10880.411) (-10906.738) (-10892.590) [-10901.482] * (-10862.804) (-10874.337) (-10889.895) [-10865.530] -- 0:38:24
168000 -- (-10887.990) (-10876.365) [-10880.295] (-10888.272) * (-10875.232) (-10875.077) (-10877.350) [-10867.625] -- 0:38:22
169000 -- [-10880.159] (-10885.519) (-10893.019) (-10897.103) * (-10874.452) (-10870.026) [-10881.531] (-10881.933) -- 0:38:16
170000 -- (-10880.695) [-10876.614] (-10893.030) (-10890.522) * (-10874.479) (-10880.703) [-10858.381] (-10886.453) -- 0:38:14
Average standard deviation of split frequencies: 0.013120
171000 -- [-10872.894] (-10876.639) (-10893.706) (-10868.419) * (-10870.134) [-10870.973] (-10877.462) (-10880.618) -- 0:38:13
172000 -- (-10886.907) [-10888.016] (-10887.313) (-10876.203) * (-10882.647) (-10895.200) [-10865.489] (-10873.115) -- 0:38:06
173000 -- [-10875.257] (-10882.779) (-10875.294) (-10875.584) * (-10871.809) (-10882.860) (-10881.575) [-10866.388] -- 0:38:05
174000 -- (-10879.803) (-10891.002) (-10874.284) [-10870.489] * (-10876.144) (-10893.639) (-10872.382) [-10863.716] -- 0:38:03
175000 -- [-10872.480] (-10897.551) (-10869.572) (-10887.995) * (-10885.482) (-10875.112) [-10876.052] (-10860.439) -- 0:37:57
Average standard deviation of split frequencies: 0.013650
176000 -- (-10894.870) [-10877.091] (-10875.664) (-10890.529) * (-10889.058) [-10868.872] (-10876.718) (-10885.979) -- 0:37:55
177000 -- (-10892.110) [-10892.835] (-10883.126) (-10888.525) * [-10866.583] (-10881.982) (-10883.331) (-10856.961) -- 0:37:49
178000 -- (-10902.352) (-10876.440) [-10873.656] (-10896.722) * (-10891.391) [-10877.958] (-10888.147) (-10861.067) -- 0:37:47
179000 -- [-10884.739] (-10887.763) (-10876.327) (-10884.942) * (-10878.457) (-10875.924) (-10875.069) [-10868.949] -- 0:37:45
180000 -- (-10885.341) (-10883.330) (-10876.619) [-10868.782] * [-10880.537] (-10877.777) (-10875.078) (-10881.113) -- 0:37:44
Average standard deviation of split frequencies: 0.013849
181000 -- (-10879.194) (-10882.484) [-10892.790] (-10867.921) * (-10881.190) (-10871.495) [-10863.710] (-10890.476) -- 0:37:46
182000 -- [-10873.205] (-10873.358) (-10869.746) (-10882.074) * (-10880.326) (-10884.898) [-10879.070] (-10891.291) -- 0:37:49
183000 -- [-10872.303] (-10878.993) (-10864.671) (-10869.956) * (-10882.575) (-10888.021) [-10871.379] (-10887.581) -- 0:37:52
184000 -- (-10882.188) (-10885.833) (-10896.040) [-10859.720] * (-10880.908) [-10873.967] (-10882.387) (-10886.582) -- 0:37:55
185000 -- (-10880.308) (-10884.136) (-10887.937) [-10867.903] * (-10885.360) (-10881.595) (-10878.599) [-10885.413] -- 0:37:57
Average standard deviation of split frequencies: 0.014059
186000 -- (-10883.803) (-10890.224) [-10883.966] (-10885.917) * (-10879.554) (-10870.275) [-10870.539] (-10913.968) -- 0:38:04
187000 -- [-10871.051] (-10881.591) (-10885.386) (-10873.706) * [-10858.611] (-10869.209) (-10869.390) (-10888.811) -- 0:38:06
188000 -- (-10871.264) (-10886.518) [-10870.351] (-10878.340) * (-10897.279) (-10876.378) (-10869.005) [-10870.278] -- 0:38:09
189000 -- [-10880.535] (-10878.730) (-10870.299) (-10890.874) * (-10876.100) (-10869.945) [-10870.391] (-10881.938) -- 0:38:11
190000 -- (-10885.170) (-10881.890) (-10882.202) [-10877.665] * (-10885.465) [-10866.812] (-10886.656) (-10878.840) -- 0:38:13
Average standard deviation of split frequencies: 0.013646
191000 -- (-10884.034) (-10884.162) (-10897.763) [-10881.376] * [-10874.176] (-10883.645) (-10877.390) (-10888.196) -- 0:38:15
192000 -- (-10896.210) [-10879.736] (-10879.746) (-10907.448) * (-10877.480) [-10868.826] (-10884.198) (-10885.021) -- 0:38:17
193000 -- (-10876.337) (-10882.892) [-10871.781] (-10884.079) * (-10866.835) [-10865.326] (-10872.766) (-10881.021) -- 0:38:19
194000 -- (-10904.167) (-10884.708) (-10884.089) [-10868.117] * (-10882.877) (-10900.169) [-10879.171] (-10883.328) -- 0:38:21
195000 -- (-10884.265) (-10884.324) (-10890.108) [-10874.669] * (-10877.203) (-10882.539) [-10878.449] (-10874.252) -- 0:38:27
Average standard deviation of split frequencies: 0.013691
196000 -- (-10874.130) (-10882.514) (-10882.703) [-10868.828] * (-10868.559) (-10879.552) [-10869.105] (-10887.162) -- 0:38:29
197000 -- (-10873.773) (-10883.849) (-10876.838) [-10872.333] * [-10890.268] (-10896.401) (-10883.623) (-10883.004) -- 0:38:31
198000 -- [-10876.697] (-10874.692) (-10870.204) (-10872.115) * [-10870.876] (-10892.691) (-10886.877) (-10871.144) -- 0:38:24
199000 -- [-10863.901] (-10887.918) (-10886.898) (-10894.892) * (-10881.660) [-10875.712] (-10874.632) (-10877.216) -- 0:38:22
200000 -- [-10877.936] (-10872.405) (-10887.737) (-10883.998) * (-10882.170) [-10879.874] (-10893.642) (-10882.759) -- 0:38:16
Average standard deviation of split frequencies: 0.012604
201000 -- [-10864.196] (-10893.537) (-10867.117) (-10879.540) * (-10884.733) (-10889.197) (-10879.191) [-10875.107] -- 0:38:13
202000 -- (-10875.855) (-10887.122) (-10893.255) [-10869.048] * (-10888.714) (-10884.815) [-10874.884] (-10883.265) -- 0:38:07
203000 -- (-10876.611) [-10867.876] (-10889.167) (-10882.126) * (-10874.579) (-10882.548) (-10881.809) [-10879.874] -- 0:38:04
204000 -- (-10890.585) [-10874.193] (-10873.888) (-10886.618) * (-10863.090) (-10877.582) (-10881.799) [-10875.907] -- 0:38:02
205000 -- (-10882.957) (-10872.554) (-10880.924) [-10881.893] * (-10883.693) (-10878.707) (-10887.017) [-10868.051] -- 0:37:56
Average standard deviation of split frequencies: 0.012366
206000 -- [-10872.408] (-10878.960) (-10872.938) (-10886.561) * (-10878.374) (-10879.742) [-10877.055] (-10873.348) -- 0:37:54
207000 -- (-10875.774) (-10901.987) [-10876.280] (-10873.833) * [-10877.549] (-10894.882) (-10897.790) (-10867.160) -- 0:37:47
208000 -- (-10887.575) (-10881.140) [-10886.885] (-10884.228) * (-10884.480) (-10898.836) [-10874.397] (-10884.292) -- 0:37:45
209000 -- [-10876.465] (-10896.501) (-10885.301) (-10880.455) * [-10871.534] (-10891.252) (-10874.620) (-10880.818) -- 0:37:47
210000 -- (-10881.640) (-10897.308) [-10877.159] (-10878.171) * (-10885.173) [-10874.831] (-10883.094) (-10884.520) -- 0:37:48
Average standard deviation of split frequencies: 0.013555
211000 -- (-10880.675) (-10884.009) [-10872.277] (-10874.667) * (-10885.855) (-10882.101) [-10875.545] (-10879.353) -- 0:37:49
212000 -- (-10870.903) (-10881.613) [-10875.638] (-10885.520) * (-10890.811) [-10867.589] (-10871.593) (-10868.877) -- 0:37:47
213000 -- (-10873.721) (-10888.328) (-10877.895) [-10876.615] * [-10864.514] (-10881.898) (-10872.014) (-10885.158) -- 0:37:44
214000 -- (-10885.309) (-10879.163) (-10887.201) [-10879.530] * (-10875.741) [-10880.643] (-10873.519) (-10878.772) -- 0:37:42
215000 -- (-10865.575) (-10885.288) [-10887.612] (-10893.959) * (-10875.529) [-10881.432] (-10876.911) (-10878.272) -- 0:37:36
Average standard deviation of split frequencies: 0.014480
216000 -- (-10877.911) [-10870.445] (-10871.317) (-10895.049) * (-10885.165) (-10894.483) (-10869.983) [-10870.999] -- 0:37:34
217000 -- [-10878.536] (-10871.412) (-10910.948) (-10868.486) * (-10875.968) [-10869.252] (-10878.433) (-10876.253) -- 0:37:27
218000 -- [-10876.956] (-10870.376) (-10905.265) (-10891.446) * [-10872.794] (-10887.760) (-10871.678) (-10876.351) -- 0:37:25
219000 -- [-10877.369] (-10882.216) (-10877.793) (-10882.939) * (-10871.985) (-10871.778) [-10874.371] (-10895.338) -- 0:37:19
220000 -- (-10889.459) (-10873.860) [-10879.685] (-10875.622) * [-10872.625] (-10876.717) (-10875.795) (-10878.290) -- 0:37:17
Average standard deviation of split frequencies: 0.014214
221000 -- (-10900.256) (-10880.050) [-10883.428] (-10881.447) * (-10875.648) (-10879.633) (-10888.237) [-10868.552] -- 0:37:14
222000 -- (-10899.118) [-10872.192] (-10883.589) (-10869.855) * (-10878.752) [-10874.693] (-10871.697) (-10872.047) -- 0:37:08
223000 -- (-10894.994) [-10862.628] (-10875.509) (-10869.246) * (-10879.673) [-10882.397] (-10878.411) (-10876.229) -- 0:37:06
224000 -- (-10882.589) (-10880.976) (-10874.017) [-10865.806] * (-10884.629) (-10874.501) (-10884.405) [-10877.626] -- 0:37:00
225000 -- [-10877.166] (-10887.152) (-10860.411) (-10887.392) * [-10891.522] (-10876.452) (-10884.380) (-10871.525) -- 0:36:58
Average standard deviation of split frequencies: 0.014441
226000 -- [-10873.892] (-10884.536) (-10871.529) (-10884.432) * (-10882.320) (-10872.924) (-10889.784) [-10876.739] -- 0:36:55
227000 -- [-10882.209] (-10879.636) (-10870.977) (-10889.605) * (-10886.016) [-10859.824] (-10879.769) (-10883.043) -- 0:36:53
228000 -- (-10868.583) (-10888.408) [-10876.009] (-10885.921) * (-10886.709) [-10874.154] (-10870.645) (-10891.934) -- 0:36:54
229000 -- (-10872.275) (-10889.733) (-10879.231) [-10871.904] * (-10869.098) [-10871.324] (-10871.357) (-10902.328) -- 0:36:58
230000 -- [-10876.355] (-10875.695) (-10875.253) (-10880.196) * (-10879.595) [-10872.025] (-10895.046) (-10885.738) -- 0:36:59
Average standard deviation of split frequencies: 0.013834
231000 -- [-10875.525] (-10865.499) (-10877.300) (-10872.523) * (-10893.030) [-10877.103] (-10884.288) (-10892.752) -- 0:37:00
232000 -- [-10876.207] (-10887.540) (-10869.959) (-10883.572) * (-10881.035) (-10882.570) [-10878.944] (-10899.799) -- 0:37:01
233000 -- (-10879.197) (-10874.281) (-10884.071) [-10881.407] * (-10885.348) [-10874.841] (-10884.627) (-10876.158) -- 0:37:01
234000 -- (-10881.803) [-10873.839] (-10885.124) (-10882.364) * [-10869.309] (-10879.792) (-10878.548) (-10878.961) -- 0:37:02
235000 -- (-10884.778) [-10873.293] (-10896.812) (-10881.913) * (-10909.695) [-10880.050] (-10884.956) (-10875.549) -- 0:37:03
Average standard deviation of split frequencies: 0.012984
236000 -- (-10883.243) [-10868.412] (-10894.449) (-10870.856) * (-10872.793) [-10874.179] (-10907.650) (-10873.003) -- 0:37:04
237000 -- (-10869.449) [-10875.718] (-10887.658) (-10879.016) * (-10894.203) [-10874.202] (-10883.445) (-10878.868) -- 0:37:04
238000 -- [-10869.531] (-10879.471) (-10878.821) (-10880.948) * (-10874.102) [-10868.706] (-10881.939) (-10889.944) -- 0:37:08
239000 -- (-10895.394) (-10877.745) (-10888.568) [-10874.839] * (-10879.987) (-10881.428) [-10882.572] (-10877.752) -- 0:37:08
240000 -- [-10873.078] (-10868.866) (-10872.640) (-10887.005) * (-10873.143) (-10888.235) [-10881.880] (-10882.789) -- 0:37:09
Average standard deviation of split frequencies: 0.012468
241000 -- (-10880.999) (-10905.004) [-10863.593] (-10871.078) * [-10871.601] (-10901.775) (-10894.311) (-10906.740) -- 0:37:09
242000 -- (-10886.239) (-10876.729) [-10878.220] (-10874.903) * [-10882.319] (-10882.759) (-10902.102) (-10893.051) -- 0:37:10
243000 -- (-10886.199) [-10879.908] (-10888.022) (-10893.235) * (-10898.285) (-10876.895) (-10898.878) [-10888.925] -- 0:37:10
244000 -- (-10908.501) (-10878.318) (-10887.408) [-10876.744] * (-10874.863) [-10872.573] (-10887.325) (-10885.131) -- 0:37:10
245000 -- (-10884.309) [-10867.128] (-10887.697) (-10883.516) * (-10893.853) [-10885.297] (-10897.799) (-10883.624) -- 0:37:08
Average standard deviation of split frequencies: 0.012493
246000 -- (-10879.232) (-10885.823) (-10885.703) [-10871.306] * (-10887.522) (-10878.324) (-10896.346) [-10878.873] -- 0:37:08
247000 -- (-10876.288) (-10871.224) (-10879.158) [-10869.699] * (-10876.874) (-10881.600) (-10882.128) [-10873.735] -- 0:37:08
248000 -- (-10882.886) [-10872.211] (-10881.697) (-10877.059) * (-10882.533) (-10881.472) (-10898.038) [-10877.135] -- 0:37:08
249000 -- [-10880.945] (-10892.060) (-10883.173) (-10881.278) * (-10871.074) [-10867.395] (-10885.428) (-10903.079) -- 0:37:08
250000 -- (-10881.699) (-10896.516) (-10873.121) [-10873.999] * (-10864.042) [-10877.037] (-10871.564) (-10886.655) -- 0:37:09
Average standard deviation of split frequencies: 0.012694
251000 -- (-10881.434) (-10887.183) [-10865.844] (-10880.012) * (-10876.487) (-10908.871) [-10878.257] (-10872.705) -- 0:37:09
252000 -- (-10873.049) (-10882.253) (-10879.261) [-10875.036] * (-10876.311) (-10888.054) (-10863.993) [-10870.174] -- 0:37:09
253000 -- (-10888.022) (-10884.750) [-10862.010] (-10876.501) * (-10876.068) (-10877.023) (-10885.107) [-10855.195] -- 0:37:09
254000 -- (-10884.578) (-10879.958) [-10866.956] (-10876.252) * (-10885.446) (-10875.693) (-10887.800) [-10864.394] -- 0:37:06
255000 -- (-10870.880) [-10886.007] (-10878.464) (-10883.609) * (-10880.423) (-10894.369) (-10882.215) [-10883.621] -- 0:37:03
Average standard deviation of split frequencies: 0.012961
256000 -- (-10882.627) (-10881.399) [-10873.905] (-10888.579) * (-10882.051) (-10886.242) [-10895.134] (-10887.950) -- 0:36:57
257000 -- (-10881.885) [-10888.403] (-10881.578) (-10878.140) * (-10881.346) (-10877.520) [-10894.652] (-10886.850) -- 0:36:54
258000 -- [-10871.663] (-10897.332) (-10882.899) (-10878.885) * [-10881.317] (-10876.985) (-10883.010) (-10878.921) -- 0:36:51
259000 -- [-10863.187] (-10888.427) (-10880.611) (-10878.309) * [-10864.043] (-10884.476) (-10898.518) (-10879.343) -- 0:36:48
260000 -- (-10878.418) (-10881.841) (-10884.143) [-10876.907] * [-10870.138] (-10894.816) (-10891.891) (-10890.852) -- 0:36:48
Average standard deviation of split frequencies: 0.012485
261000 -- [-10877.588] (-10878.992) (-10899.443) (-10865.629) * (-10866.431) (-10875.554) (-10880.502) [-10871.775] -- 0:36:48
262000 -- (-10882.563) (-10890.242) (-10890.764) [-10867.741] * [-10865.964] (-10889.030) (-10895.001) (-10881.790) -- 0:36:45
263000 -- [-10873.023] (-10899.288) (-10885.603) (-10870.138) * [-10874.940] (-10871.893) (-10892.404) (-10898.343) -- 0:36:42
264000 -- (-10882.289) (-10894.024) [-10875.649] (-10880.591) * [-10878.782] (-10882.015) (-10891.229) (-10879.159) -- 0:36:36
265000 -- (-10871.405) (-10893.166) (-10876.869) [-10871.684] * [-10871.117] (-10870.371) (-10886.941) (-10880.320) -- 0:36:33
Average standard deviation of split frequencies: 0.011656
266000 -- (-10876.190) (-10875.554) (-10885.057) [-10869.290] * (-10883.749) [-10871.657] (-10886.222) (-10879.781) -- 0:36:30
267000 -- (-10891.942) [-10868.075] (-10887.100) (-10875.421) * (-10866.415) [-10870.589] (-10871.819) (-10878.439) -- 0:36:25
268000 -- (-10887.420) (-10868.271) (-10899.794) [-10860.811] * [-10868.776] (-10875.974) (-10893.292) (-10892.478) -- 0:36:22
269000 -- [-10877.898] (-10875.505) (-10883.405) (-10880.626) * (-10878.521) (-10885.408) (-10893.276) [-10878.379] -- 0:36:16
270000 -- [-10874.765] (-10876.976) (-10874.125) (-10869.907) * [-10878.757] (-10873.105) (-10877.799) (-10884.293) -- 0:36:13
Average standard deviation of split frequencies: 0.011790
271000 -- [-10878.139] (-10882.605) (-10879.643) (-10878.420) * (-10886.008) [-10867.053] (-10887.350) (-10902.434) -- 0:36:10
272000 -- [-10868.496] (-10876.151) (-10898.007) (-10887.717) * (-10894.122) (-10868.229) [-10872.437] (-10893.023) -- 0:36:05
273000 -- (-10863.004) [-10869.073] (-10892.639) (-10885.943) * (-10903.271) [-10865.823] (-10878.095) (-10874.718) -- 0:36:02
274000 -- (-10898.224) (-10874.179) (-10878.045) [-10882.604] * (-10895.773) (-10877.777) (-10892.348) [-10869.909] -- 0:35:59
275000 -- (-10884.124) [-10882.422] (-10891.814) (-10861.816) * (-10874.282) (-10879.144) [-10884.713] (-10888.925) -- 0:35:53
Average standard deviation of split frequencies: 0.011463
276000 -- (-10881.333) (-10878.820) [-10867.141] (-10872.450) * (-10884.469) (-10881.520) [-10874.644] (-10867.305) -- 0:35:51
277000 -- (-10882.632) (-10879.465) (-10882.893) [-10880.979] * [-10865.764] (-10889.697) (-10876.548) (-10880.586) -- 0:35:45
278000 -- [-10877.983] (-10879.608) (-10877.366) (-10885.864) * (-10896.900) [-10869.325] (-10881.615) (-10881.813) -- 0:35:42
279000 -- (-10895.496) [-10878.987] (-10874.284) (-10882.692) * (-10876.441) (-10885.245) (-10885.641) [-10873.098] -- 0:35:39
280000 -- (-10892.433) [-10872.441] (-10888.706) (-10887.311) * [-10869.203] (-10875.298) (-10889.739) (-10889.968) -- 0:35:34
Average standard deviation of split frequencies: 0.011822
281000 -- (-10892.794) (-10869.461) (-10877.715) [-10879.269] * (-10881.563) (-10891.665) (-10879.902) [-10871.718] -- 0:35:31
282000 -- (-10888.110) (-10879.611) [-10873.473] (-10884.422) * (-10884.326) [-10867.762] (-10890.391) (-10873.816) -- 0:35:25
283000 -- (-10885.590) (-10881.964) [-10879.227] (-10865.466) * (-10887.415) (-10874.667) (-10888.430) [-10878.575] -- 0:35:23
284000 -- (-10889.486) (-10891.626) [-10880.709] (-10898.286) * (-10879.641) (-10875.031) [-10880.326] (-10880.938) -- 0:35:20
285000 -- [-10887.803] (-10890.161) (-10880.071) (-10872.103) * (-10885.313) (-10880.186) [-10870.636] (-10871.426) -- 0:35:14
Average standard deviation of split frequencies: 0.011823
286000 -- [-10899.459] (-10882.267) (-10885.201) (-10886.958) * (-10877.007) (-10891.627) (-10875.559) [-10870.544] -- 0:35:12
287000 -- (-10877.808) [-10866.062] (-10880.671) (-10891.516) * (-10886.653) (-10882.206) (-10887.419) [-10871.160] -- 0:35:09
288000 -- (-10895.914) (-10889.753) [-10874.549] (-10883.607) * (-10882.771) (-10892.762) (-10876.383) [-10862.222] -- 0:35:03
289000 -- (-10898.920) (-10875.986) [-10860.233] (-10886.893) * (-10887.524) (-10893.820) (-10872.141) [-10874.159] -- 0:35:01
290000 -- (-10879.681) (-10862.481) [-10885.931] (-10878.657) * (-10872.671) [-10886.953] (-10874.592) (-10875.622) -- 0:34:55
Average standard deviation of split frequencies: 0.011965
291000 -- (-10886.110) [-10862.272] (-10880.638) (-10906.841) * (-10887.340) (-10885.202) [-10869.446] (-10891.796) -- 0:34:52
292000 -- (-10874.980) (-10887.365) [-10867.752] (-10879.099) * (-10892.986) (-10883.825) [-10870.611] (-10891.667) -- 0:34:47
293000 -- (-10898.831) (-10877.950) [-10872.821] (-10902.953) * [-10875.832] (-10879.929) (-10880.781) (-10887.470) -- 0:34:44
294000 -- (-10891.345) [-10873.127] (-10873.740) (-10890.505) * (-10889.334) [-10874.352] (-10883.019) (-10893.816) -- 0:34:41
295000 -- (-10881.801) (-10874.619) (-10888.064) [-10884.512] * (-10898.321) (-10876.752) [-10867.707] (-10892.476) -- 0:34:36
Average standard deviation of split frequencies: 0.011509
296000 -- [-10876.595] (-10888.662) (-10886.000) (-10882.431) * (-10907.756) (-10884.177) (-10876.307) [-10867.571] -- 0:34:33
297000 -- (-10893.602) [-10871.154] (-10899.995) (-10886.775) * (-10890.425) (-10886.407) (-10884.885) [-10866.673] -- 0:34:28
298000 -- (-10885.119) [-10872.198] (-10866.769) (-10888.905) * [-10882.437] (-10898.684) (-10884.252) (-10871.998) -- 0:34:25
299000 -- [-10868.802] (-10884.223) (-10884.496) (-10901.624) * [-10873.449] (-10884.600) (-10888.594) (-10881.949) -- 0:34:23
300000 -- (-10882.221) [-10873.615] (-10876.911) (-10890.810) * [-10874.267] (-10885.320) (-10879.008) (-10889.716) -- 0:34:18
Average standard deviation of split frequencies: 0.011478
301000 -- (-10873.990) (-10871.786) [-10865.417] (-10900.914) * (-10882.566) (-10878.692) (-10881.393) [-10876.209] -- 0:34:15
302000 -- [-10873.461] (-10875.710) (-10903.918) (-10888.646) * (-10874.872) [-10879.783] (-10885.003) (-10873.726) -- 0:34:10
303000 -- (-10882.421) [-10866.996] (-10882.834) (-10884.448) * (-10877.794) (-10886.287) (-10884.889) [-10862.721] -- 0:34:07
304000 -- (-10883.839) [-10872.582] (-10876.119) (-10895.933) * (-10889.991) [-10880.626] (-10876.862) (-10872.074) -- 0:34:02
305000 -- (-10890.079) [-10876.761] (-10871.420) (-10873.364) * (-10883.280) (-10882.857) (-10894.517) [-10868.711] -- 0:33:59
Average standard deviation of split frequencies: 0.010871
306000 -- [-10870.010] (-10885.489) (-10870.130) (-10873.938) * (-10890.750) (-10892.744) (-10882.105) [-10866.977] -- 0:33:54
307000 -- (-10879.824) (-10890.412) [-10870.056] (-10864.225) * (-10886.682) (-10867.974) (-10880.536) [-10867.033] -- 0:33:51
308000 -- [-10872.390] (-10873.932) (-10884.425) (-10885.248) * (-10893.966) (-10880.108) (-10882.515) [-10869.777] -- 0:33:48
309000 -- (-10871.708) (-10874.622) (-10875.445) [-10876.147] * (-10875.145) [-10876.389] (-10878.507) (-10874.677) -- 0:33:43
310000 -- (-10875.328) (-10893.048) [-10870.724] (-10866.745) * (-10880.672) (-10875.850) (-10893.423) [-10873.541] -- 0:33:41
Average standard deviation of split frequencies: 0.010126
311000 -- (-10875.456) (-10883.537) (-10871.931) [-10867.946] * (-10884.291) (-10891.899) [-10878.313] (-10873.493) -- 0:33:38
312000 -- (-10884.008) [-10876.988] (-10885.895) (-10878.832) * (-10868.144) (-10900.959) (-10874.679) [-10863.001] -- 0:33:33
313000 -- (-10880.101) (-10892.376) (-10885.024) [-10875.872] * (-10881.369) [-10881.409] (-10875.000) (-10871.394) -- 0:33:30
314000 -- (-10889.123) (-10879.354) [-10869.634] (-10879.826) * (-10896.581) (-10897.276) (-10869.545) [-10866.339] -- 0:33:25
315000 -- (-10888.899) (-10914.390) (-10872.228) [-10861.678] * (-10878.071) (-10894.219) [-10870.488] (-10878.387) -- 0:33:22
Average standard deviation of split frequencies: 0.009668
316000 -- [-10878.801] (-10886.222) (-10881.613) (-10883.993) * (-10880.667) [-10873.877] (-10866.816) (-10882.496) -- 0:33:20
317000 -- [-10874.408] (-10884.784) (-10907.316) (-10878.600) * [-10882.691] (-10890.423) (-10871.751) (-10878.540) -- 0:33:15
318000 -- [-10878.424] (-10877.305) (-10901.366) (-10889.610) * [-10866.021] (-10893.272) (-10876.927) (-10879.056) -- 0:33:12
319000 -- (-10879.364) (-10900.159) (-10890.692) [-10874.880] * (-10877.759) (-10875.306) [-10868.984] (-10896.549) -- 0:33:07
320000 -- (-10878.008) (-10897.070) (-10889.954) [-10877.372] * [-10879.232] (-10872.357) (-10875.357) (-10887.581) -- 0:33:04
Average standard deviation of split frequencies: 0.009584
321000 -- [-10876.256] (-10888.894) (-10891.776) (-10870.650) * (-10880.058) (-10882.916) (-10878.368) [-10873.619] -- 0:33:02
322000 -- [-10866.658] (-10883.632) (-10885.455) (-10874.913) * (-10896.274) [-10870.217] (-10889.157) (-10879.969) -- 0:32:57
323000 -- (-10882.392) (-10883.115) [-10882.990] (-10883.941) * (-10891.213) (-10881.365) (-10873.536) [-10875.284] -- 0:32:54
324000 -- (-10883.601) (-10883.023) (-10897.526) [-10882.365] * [-10881.129] (-10868.705) (-10874.837) (-10881.391) -- 0:32:49
325000 -- (-10878.169) (-10869.604) (-10902.442) [-10871.483] * (-10882.634) [-10871.921] (-10880.103) (-10875.064) -- 0:32:46
Average standard deviation of split frequencies: 0.010428
326000 -- (-10877.250) (-10883.179) (-10893.138) [-10873.980] * (-10882.151) (-10864.988) [-10871.591] (-10873.594) -- 0:32:42
327000 -- (-10879.760) [-10884.955] (-10882.082) (-10890.565) * (-10885.404) [-10879.643] (-10899.240) (-10881.150) -- 0:32:39
328000 -- (-10884.317) (-10887.706) (-10880.153) [-10879.933] * (-10880.884) [-10871.601] (-10885.608) (-10878.011) -- 0:32:34
329000 -- (-10876.709) (-10889.039) [-10873.084] (-10876.857) * (-10893.952) [-10864.561] (-10899.470) (-10873.857) -- 0:32:31
330000 -- [-10874.993] (-10880.813) (-10889.165) (-10894.259) * (-10892.251) (-10887.403) (-10907.975) [-10877.071] -- 0:32:29
Average standard deviation of split frequencies: 0.010911
331000 -- [-10871.933] (-10877.439) (-10880.426) (-10884.326) * (-10889.424) (-10880.179) (-10898.092) [-10871.957] -- 0:32:24
332000 -- (-10878.332) [-10865.274] (-10875.855) (-10876.338) * (-10873.834) [-10880.019] (-10885.977) (-10867.101) -- 0:32:21
333000 -- (-10879.549) (-10875.255) (-10880.272) [-10875.142] * (-10882.780) [-10873.963] (-10888.036) (-10874.640) -- 0:32:18
334000 -- (-10878.463) (-10892.267) (-10881.839) [-10869.720] * (-10873.307) (-10886.907) (-10887.048) [-10877.551] -- 0:32:14
335000 -- (-10883.741) (-10881.159) (-10900.343) [-10880.150] * [-10873.424] (-10888.662) (-10881.674) (-10889.180) -- 0:32:11
Average standard deviation of split frequencies: 0.010468
336000 -- [-10886.979] (-10883.859) (-10891.908) (-10872.858) * [-10877.728] (-10887.308) (-10877.584) (-10877.934) -- 0:32:08
337000 -- (-10875.255) (-10883.805) (-10894.110) [-10869.803] * [-10870.669] (-10888.769) (-10886.992) (-10877.073) -- 0:32:04
338000 -- [-10873.182] (-10889.764) (-10878.848) (-10873.079) * (-10866.612) [-10859.674] (-10894.065) (-10886.753) -- 0:32:01
339000 -- (-10885.601) [-10875.781] (-10882.640) (-10878.353) * (-10881.450) [-10863.819] (-10869.404) (-10877.410) -- 0:31:58
340000 -- [-10872.751] (-10890.352) (-10865.632) (-10877.563) * (-10873.562) [-10876.025] (-10881.044) (-10888.591) -- 0:31:53
Average standard deviation of split frequencies: 0.009740
341000 -- (-10889.237) (-10877.264) [-10869.752] (-10868.444) * (-10889.362) (-10876.995) (-10884.835) [-10865.115] -- 0:31:51
342000 -- (-10882.171) (-10885.455) (-10882.197) [-10877.030] * (-10887.460) (-10883.912) [-10886.121] (-10881.061) -- 0:31:48
343000 -- [-10879.006] (-10885.581) (-10880.840) (-10870.998) * [-10875.976] (-10881.917) (-10894.782) (-10873.563) -- 0:31:43
344000 -- (-10879.192) (-10889.755) [-10895.419] (-10885.740) * [-10868.073] (-10885.034) (-10869.935) (-10884.154) -- 0:31:41
345000 -- (-10882.014) (-10899.309) (-10881.113) [-10873.478] * (-10869.659) [-10873.579] (-10888.795) (-10895.373) -- 0:31:38
Average standard deviation of split frequencies: 0.009851
346000 -- (-10881.264) (-10878.872) (-10879.729) [-10880.045] * [-10867.386] (-10899.577) (-10889.514) (-10887.509) -- 0:31:33
347000 -- (-10879.393) (-10876.994) (-10890.995) [-10860.671] * (-10871.029) (-10892.608) (-10888.220) [-10878.294] -- 0:31:31
348000 -- (-10898.075) (-10883.345) (-10895.812) [-10873.032] * [-10873.497] (-10884.245) (-10877.437) (-10873.467) -- 0:31:30
349000 -- [-10876.326] (-10882.938) (-10883.969) (-10872.279) * [-10869.648] (-10904.181) (-10879.828) (-10878.514) -- 0:31:29
350000 -- (-10877.461) (-10896.966) (-10868.915) [-10877.399] * [-10872.278] (-10897.639) (-10893.227) (-10880.201) -- 0:31:28
Average standard deviation of split frequencies: 0.009152
351000 -- (-10870.540) (-10879.335) (-10869.654) [-10877.778] * (-10872.459) (-10896.336) [-10882.778] (-10881.837) -- 0:31:27
352000 -- [-10879.623] (-10879.623) (-10876.284) (-10886.294) * (-10870.428) (-10898.316) (-10868.876) [-10874.934] -- 0:31:25
353000 -- [-10868.574] (-10888.722) (-10876.094) (-10890.862) * (-10875.094) [-10868.056] (-10893.017) (-10885.073) -- 0:31:24
354000 -- (-10892.666) (-10878.900) [-10864.961] (-10899.613) * [-10873.395] (-10885.627) (-10874.662) (-10885.487) -- 0:31:23
355000 -- [-10873.132] (-10876.039) (-10874.207) (-10882.175) * (-10892.773) (-10867.266) [-10878.303] (-10879.163) -- 0:31:22
Average standard deviation of split frequencies: 0.008531
356000 -- [-10873.843] (-10882.144) (-10876.843) (-10879.596) * (-10897.376) [-10866.502] (-10882.271) (-10877.960) -- 0:31:21
357000 -- (-10896.944) (-10881.387) (-10883.974) [-10875.672] * (-10884.106) [-10876.986] (-10903.758) (-10875.518) -- 0:31:20
358000 -- (-10879.388) (-10889.287) (-10882.376) [-10876.902] * (-10874.807) (-10884.368) (-10907.652) [-10872.472] -- 0:31:19
359000 -- (-10874.671) (-10874.155) [-10877.202] (-10886.150) * (-10879.336) (-10886.909) (-10890.987) [-10874.736] -- 0:31:16
360000 -- (-10885.830) (-10879.189) [-10869.204] (-10874.451) * (-10877.897) (-10885.390) (-10875.593) [-10879.754] -- 0:31:12
Average standard deviation of split frequencies: 0.008395
361000 -- [-10876.491] (-10869.816) (-10864.752) (-10891.183) * (-10893.080) (-10899.742) (-10898.158) [-10879.967] -- 0:31:09
362000 -- [-10862.159] (-10885.227) (-10879.079) (-10884.198) * (-10876.602) (-10885.387) (-10874.054) [-10882.094] -- 0:31:06
363000 -- (-10883.092) (-10879.659) [-10873.629] (-10892.989) * [-10869.689] (-10877.319) (-10897.746) (-10874.094) -- 0:31:01
364000 -- [-10874.628] (-10890.592) (-10878.495) (-10907.799) * (-10884.248) [-10873.896] (-10873.682) (-10873.985) -- 0:30:59
365000 -- [-10869.100] (-10889.136) (-10877.720) (-10891.336) * (-10879.353) [-10886.730] (-10878.427) (-10881.890) -- 0:30:56
Average standard deviation of split frequencies: 0.008892
366000 -- [-10881.408] (-10886.991) (-10873.689) (-10879.123) * (-10893.751) (-10899.406) (-10881.076) [-10882.466] -- 0:30:51
367000 -- [-10881.714] (-10875.461) (-10891.618) (-10878.594) * (-10882.894) [-10881.057] (-10873.163) (-10872.945) -- 0:30:48
368000 -- (-10869.406) [-10876.005] (-10889.705) (-10878.239) * (-10901.886) (-10886.004) (-10873.668) [-10870.803] -- 0:30:44
369000 -- (-10896.706) [-10870.390] (-10876.813) (-10883.905) * (-10886.040) [-10868.264] (-10891.339) (-10892.782) -- 0:30:41
370000 -- (-10887.119) [-10867.592] (-10871.874) (-10876.262) * [-10881.284] (-10878.734) (-10878.916) (-10884.234) -- 0:30:38
Average standard deviation of split frequencies: 0.009074
371000 -- (-10879.505) (-10876.431) [-10866.241] (-10873.241) * (-10874.181) (-10883.418) [-10882.856] (-10889.056) -- 0:30:34
372000 -- (-10876.480) (-10890.570) [-10871.129] (-10881.660) * (-10886.922) (-10862.821) (-10893.704) [-10880.566] -- 0:30:31
373000 -- (-10877.432) [-10867.545] (-10883.811) (-10879.363) * (-10877.281) [-10865.800] (-10890.852) (-10886.621) -- 0:30:28
374000 -- (-10877.300) (-10876.635) [-10873.842] (-10878.588) * [-10881.012] (-10880.500) (-10898.533) (-10884.907) -- 0:30:24
375000 -- (-10885.773) (-10877.232) (-10881.955) [-10868.112] * (-10857.489) [-10887.155] (-10879.666) (-10890.767) -- 0:30:21
Average standard deviation of split frequencies: 0.009548
376000 -- (-10875.969) (-10872.260) (-10875.105) [-10874.108] * [-10868.711] (-10882.294) (-10875.493) (-10893.844) -- 0:30:18
377000 -- (-10871.219) (-10874.831) (-10871.874) [-10872.658] * (-10886.843) [-10875.973] (-10874.297) (-10899.012) -- 0:30:14
378000 -- [-10864.801] (-10877.932) (-10881.745) (-10885.813) * (-10877.357) (-10869.977) [-10877.645] (-10899.064) -- 0:30:11
379000 -- (-10876.391) (-10870.398) (-10869.339) [-10875.910] * [-10870.932] (-10867.098) (-10892.985) (-10899.561) -- 0:30:07
380000 -- (-10885.446) (-10876.152) (-10870.629) [-10879.804] * [-10871.804] (-10880.336) (-10880.335) (-10914.752) -- 0:30:04
Average standard deviation of split frequencies: 0.010121
381000 -- (-10880.852) (-10877.697) [-10875.194] (-10886.228) * (-10883.572) (-10884.003) [-10869.147] (-10914.388) -- 0:30:01
382000 -- (-10890.633) (-10878.786) (-10879.348) [-10877.909] * (-10871.029) (-10887.720) [-10879.998] (-10904.096) -- 0:29:57
383000 -- (-10890.434) [-10870.079] (-10898.343) (-10878.830) * (-10867.853) [-10869.753] (-10878.769) (-10892.651) -- 0:29:54
384000 -- [-10878.899] (-10879.024) (-10894.420) (-10895.128) * [-10871.509] (-10874.352) (-10891.100) (-10893.667) -- 0:29:50
385000 -- (-10878.388) (-10890.906) [-10873.671] (-10887.144) * (-10901.195) [-10875.917] (-10871.343) (-10864.495) -- 0:29:47
Average standard deviation of split frequencies: 0.010968
386000 -- (-10869.550) (-10881.186) (-10878.073) [-10871.549] * (-10897.590) (-10867.844) (-10886.875) [-10869.709] -- 0:29:43
387000 -- [-10871.464] (-10871.953) (-10881.082) (-10883.446) * (-10883.674) (-10888.252) (-10876.570) [-10884.498] -- 0:29:40
388000 -- (-10874.805) [-10883.863] (-10893.503) (-10889.281) * (-10878.033) (-10880.619) (-10872.988) [-10866.422] -- 0:29:37
389000 -- (-10877.395) (-10884.934) [-10868.671] (-10883.790) * [-10872.283] (-10885.153) (-10886.782) (-10870.830) -- 0:29:33
390000 -- (-10878.974) (-10871.560) [-10882.991] (-10893.425) * (-10869.507) (-10881.923) [-10873.162] (-10884.424) -- 0:29:30
Average standard deviation of split frequencies: 0.010025
391000 -- (-10876.741) [-10882.169] (-10896.844) (-10895.607) * [-10873.730] (-10878.356) (-10884.111) (-10891.329) -- 0:29:26
392000 -- [-10869.127] (-10885.156) (-10876.923) (-10881.097) * [-10866.046] (-10867.922) (-10881.220) (-10892.435) -- 0:29:23
393000 -- [-10879.951] (-10879.192) (-10882.100) (-10869.394) * (-10869.183) [-10870.312] (-10877.652) (-10876.680) -- 0:29:19
394000 -- (-10885.137) (-10865.906) (-10878.802) [-10880.038] * (-10876.646) (-10885.691) [-10880.061] (-10869.991) -- 0:29:16
395000 -- (-10884.929) (-10875.904) [-10878.649] (-10886.724) * [-10889.973] (-10878.560) (-10884.805) (-10873.356) -- 0:29:13
Average standard deviation of split frequencies: 0.008859
396000 -- (-10884.682) [-10866.640] (-10875.709) (-10900.772) * (-10889.891) (-10880.208) [-10867.979] (-10878.844) -- 0:29:09
397000 -- [-10886.547] (-10871.728) (-10873.001) (-10895.248) * (-10891.910) [-10866.850] (-10866.456) (-10874.048) -- 0:29:06
398000 -- (-10888.028) (-10877.140) [-10875.140] (-10893.020) * (-10884.427) [-10882.010] (-10879.435) (-10881.409) -- 0:29:03
399000 -- (-10886.834) (-10907.030) (-10875.708) [-10877.288] * (-10877.349) [-10862.597] (-10884.780) (-10880.195) -- 0:28:59
400000 -- (-10883.772) (-10881.863) (-10875.870) [-10875.911] * (-10880.633) [-10870.627] (-10886.156) (-10888.124) -- 0:28:57
Average standard deviation of split frequencies: 0.009571
401000 -- (-10877.303) (-10891.887) [-10868.448] (-10888.117) * [-10880.016] (-10872.059) (-10888.640) (-10885.258) -- 0:28:52
402000 -- (-10876.498) (-10874.782) (-10877.552) [-10882.531] * (-10876.912) [-10872.399] (-10874.653) (-10890.749) -- 0:28:50
403000 -- (-10882.710) (-10884.364) [-10864.343] (-10882.757) * (-10871.308) (-10871.971) [-10883.442] (-10891.904) -- 0:28:47
404000 -- [-10873.820] (-10883.501) (-10869.329) (-10888.619) * [-10868.400] (-10895.197) (-10884.354) (-10867.578) -- 0:28:43
405000 -- (-10878.127) (-10877.902) [-10871.558] (-10885.008) * (-10873.387) (-10886.157) [-10881.151] (-10885.160) -- 0:28:40
Average standard deviation of split frequencies: 0.009110
406000 -- [-10870.451] (-10884.700) (-10869.018) (-10888.076) * (-10872.688) (-10881.504) (-10890.962) [-10880.474] -- 0:28:36
407000 -- (-10894.622) (-10871.900) [-10861.096] (-10873.966) * [-10862.305] (-10882.545) (-10885.913) (-10876.855) -- 0:28:33
408000 -- (-10883.843) [-10869.183] (-10883.601) (-10894.349) * [-10859.879] (-10872.907) (-10873.845) (-10881.594) -- 0:28:30
409000 -- (-10879.335) (-10882.254) [-10869.612] (-10895.219) * [-10877.195] (-10881.488) (-10876.525) (-10875.436) -- 0:28:26
410000 -- (-10875.834) [-10881.653] (-10906.069) (-10877.951) * (-10873.840) [-10867.403] (-10884.610) (-10885.824) -- 0:28:23
Average standard deviation of split frequencies: 0.008786
411000 -- (-10868.214) [-10872.804] (-10884.006) (-10880.715) * (-10888.740) (-10889.588) (-10879.147) [-10878.586] -- 0:28:21
412000 -- (-10873.203) [-10876.761] (-10887.996) (-10888.567) * (-10882.095) (-10877.792) [-10868.587] (-10884.698) -- 0:28:16
413000 -- (-10875.142) (-10875.907) [-10876.650] (-10882.564) * (-10880.775) [-10866.581] (-10870.795) (-10893.421) -- 0:28:14
414000 -- (-10869.880) (-10889.046) [-10869.996] (-10887.151) * [-10878.810] (-10868.979) (-10877.606) (-10892.114) -- 0:28:10
415000 -- (-10877.454) (-10859.491) [-10867.877] (-10884.340) * (-10896.878) [-10874.935] (-10888.416) (-10886.500) -- 0:28:07
Average standard deviation of split frequencies: 0.008935
416000 -- (-10882.059) [-10869.000] (-10880.395) (-10883.389) * (-10884.203) [-10876.278] (-10880.416) (-10883.806) -- 0:28:04
417000 -- [-10873.256] (-10883.126) (-10884.648) (-10880.175) * (-10872.032) [-10865.906] (-10892.666) (-10876.795) -- 0:28:00
418000 -- (-10894.204) [-10876.542] (-10880.124) (-10893.379) * [-10883.286] (-10884.380) (-10871.808) (-10889.442) -- 0:27:57
419000 -- [-10868.445] (-10880.180) (-10880.409) (-10891.471) * (-10886.100) [-10878.115] (-10878.860) (-10885.605) -- 0:27:55
420000 -- (-10877.218) (-10881.020) (-10883.637) [-10871.734] * (-10880.058) (-10889.747) [-10867.731] (-10869.849) -- 0:27:50
Average standard deviation of split frequencies: 0.009224
421000 -- (-10883.473) (-10865.750) [-10864.795] (-10873.994) * (-10877.294) (-10867.847) [-10888.358] (-10891.465) -- 0:27:48
422000 -- (-10900.856) [-10870.743] (-10884.362) (-10872.942) * (-10880.969) (-10875.483) (-10874.727) [-10877.760] -- 0:27:45
423000 -- [-10874.099] (-10884.971) (-10884.096) (-10885.479) * (-10891.731) [-10874.907] (-10885.685) (-10871.061) -- 0:27:41
424000 -- [-10876.082] (-10871.681) (-10874.837) (-10874.487) * (-10885.305) (-10870.593) (-10877.890) [-10884.382] -- 0:27:38
425000 -- (-10884.566) (-10865.757) (-10878.394) [-10879.522] * (-10880.610) (-10866.165) (-10881.659) [-10880.157] -- 0:27:36
Average standard deviation of split frequencies: 0.009129
426000 -- [-10876.539] (-10872.270) (-10899.177) (-10884.504) * (-10890.585) (-10884.390) [-10883.570] (-10876.035) -- 0:27:31
427000 -- (-10874.171) (-10876.508) [-10876.821] (-10895.239) * (-10899.755) (-10877.126) (-10886.683) [-10873.397] -- 0:27:29
428000 -- (-10871.750) [-10879.413] (-10886.634) (-10887.725) * [-10874.600] (-10892.375) (-10899.454) (-10870.910) -- 0:27:25
429000 -- (-10888.295) (-10887.850) [-10869.827] (-10877.091) * (-10875.960) (-10882.363) (-10888.494) [-10867.137] -- 0:27:22
430000 -- (-10876.895) (-10903.445) (-10869.085) [-10877.241] * (-10889.289) [-10879.026] (-10882.139) (-10869.359) -- 0:27:19
Average standard deviation of split frequencies: 0.009451
431000 -- [-10864.769] (-10881.749) (-10878.563) (-10898.315) * (-10894.412) (-10873.450) (-10895.297) [-10880.080] -- 0:27:15
432000 -- (-10880.858) [-10883.920] (-10870.396) (-10900.743) * (-10877.882) (-10881.057) (-10894.880) [-10882.149] -- 0:27:13
433000 -- (-10877.821) [-10881.112] (-10886.047) (-10887.711) * [-10873.682] (-10879.539) (-10884.220) (-10888.350) -- 0:27:10
434000 -- [-10868.073] (-10888.367) (-10883.229) (-10896.917) * (-10880.780) [-10871.867] (-10892.349) (-10879.249) -- 0:27:06
435000 -- (-10882.190) (-10873.762) [-10874.872] (-10874.275) * (-10868.821) (-10876.563) [-10874.352] (-10887.167) -- 0:27:03
Average standard deviation of split frequencies: 0.009065
436000 -- [-10876.858] (-10884.257) (-10891.493) (-10875.174) * (-10876.133) (-10882.447) (-10872.916) [-10874.609] -- 0:27:00
437000 -- (-10889.474) [-10870.030] (-10870.763) (-10882.225) * [-10871.368] (-10898.885) (-10882.490) (-10869.950) -- 0:26:56
438000 -- (-10868.670) (-10875.383) (-10870.332) [-10870.612] * (-10876.483) [-10868.387] (-10869.645) (-10874.343) -- 0:26:54
439000 -- [-10867.052] (-10881.578) (-10870.787) (-10883.092) * (-10889.751) [-10871.557] (-10876.062) (-10881.846) -- 0:26:51
440000 -- [-10864.679] (-10885.961) (-10879.362) (-10880.522) * (-10890.567) [-10869.095] (-10890.549) (-10907.694) -- 0:26:47
Average standard deviation of split frequencies: 0.008620
441000 -- (-10891.980) (-10875.213) (-10872.293) [-10867.860] * (-10882.993) (-10892.833) [-10873.124] (-10894.684) -- 0:26:44
442000 -- [-10874.283] (-10874.585) (-10883.978) (-10879.406) * [-10867.947] (-10892.646) (-10883.325) (-10881.281) -- 0:26:40
443000 -- (-10872.708) (-10893.244) (-10871.448) [-10872.945] * (-10885.767) (-10889.862) (-10881.516) [-10878.581] -- 0:26:38
444000 -- (-10875.528) (-10876.821) [-10874.372] (-10901.561) * (-10882.299) (-10886.366) [-10876.472] (-10871.692) -- 0:26:35
445000 -- (-10877.234) [-10879.969] (-10878.064) (-10888.071) * (-10908.831) (-10881.352) (-10882.226) [-10868.815] -- 0:26:31
Average standard deviation of split frequencies: 0.008435
446000 -- (-10866.257) (-10889.489) [-10870.873] (-10881.222) * (-10900.293) [-10878.189] (-10876.336) (-10884.517) -- 0:26:28
447000 -- [-10868.743] (-10874.941) (-10880.793) (-10879.807) * (-10883.762) (-10872.168) [-10873.164] (-10889.561) -- 0:26:24
448000 -- (-10870.932) (-10889.115) [-10878.348] (-10878.613) * (-10873.850) [-10866.938] (-10874.191) (-10890.180) -- 0:26:22
449000 -- (-10882.347) (-10883.962) (-10885.171) [-10876.810] * (-10892.860) (-10863.571) [-10880.718] (-10884.322) -- 0:26:19
450000 -- [-10873.167] (-10875.440) (-10880.920) (-10889.160) * (-10885.907) [-10862.392] (-10884.350) (-10879.622) -- 0:26:15
Average standard deviation of split frequencies: 0.008167
451000 -- (-10882.606) [-10873.487] (-10880.625) (-10886.974) * (-10868.259) [-10869.392] (-10873.751) (-10885.560) -- 0:26:12
452000 -- (-10898.963) (-10873.045) [-10868.588] (-10889.053) * (-10874.385) [-10876.238] (-10887.150) (-10880.444) -- 0:26:08
453000 -- (-10890.793) [-10878.236] (-10890.457) (-10893.296) * (-10882.437) [-10864.085] (-10879.726) (-10885.319) -- 0:26:06
454000 -- (-10886.099) [-10876.951] (-10878.127) (-10882.631) * [-10893.907] (-10898.793) (-10885.470) (-10876.490) -- 0:26:03
455000 -- (-10896.490) (-10873.091) [-10878.488] (-10874.521) * (-10877.174) (-10872.631) (-10876.692) [-10876.365] -- 0:25:59
Average standard deviation of split frequencies: 0.008012
456000 -- [-10877.988] (-10876.760) (-10883.344) (-10876.651) * [-10870.429] (-10900.170) (-10890.878) (-10872.792) -- 0:25:56
457000 -- (-10882.357) (-10884.211) [-10872.187] (-10878.025) * [-10869.416] (-10894.568) (-10883.857) (-10868.514) -- 0:25:54
458000 -- [-10875.361] (-10884.475) (-10872.270) (-10875.914) * (-10886.596) [-10875.303] (-10877.961) (-10880.018) -- 0:25:50
459000 -- [-10890.748] (-10887.833) (-10868.029) (-10891.270) * (-10882.404) (-10874.561) (-10891.033) [-10873.634] -- 0:25:47
460000 -- (-10883.691) [-10875.045] (-10867.721) (-10888.848) * [-10871.931] (-10881.370) (-10878.197) (-10883.812) -- 0:25:43
Average standard deviation of split frequencies: 0.008068
461000 -- (-10880.363) (-10881.587) [-10873.660] (-10894.235) * [-10863.049] (-10872.944) (-10881.686) (-10889.114) -- 0:25:41
462000 -- (-10876.555) (-10875.162) (-10883.075) [-10881.405] * [-10883.005] (-10874.858) (-10892.474) (-10883.133) -- 0:25:38
463000 -- (-10875.848) (-10895.656) [-10874.397] (-10885.905) * [-10879.726] (-10891.382) (-10874.198) (-10880.640) -- 0:25:34
464000 -- (-10867.945) (-10894.916) [-10868.203] (-10885.185) * (-10881.793) [-10884.346] (-10899.732) (-10891.434) -- 0:25:31
465000 -- (-10872.402) [-10867.711] (-10887.233) (-10887.883) * (-10895.311) (-10877.755) [-10879.142] (-10886.659) -- 0:25:27
Average standard deviation of split frequencies: 0.008307
466000 -- (-10878.638) [-10876.823] (-10877.425) (-10879.372) * (-10895.764) (-10885.700) [-10872.093] (-10877.240) -- 0:25:25
467000 -- [-10868.440] (-10875.126) (-10907.948) (-10882.863) * (-10890.407) (-10891.956) [-10876.061] (-10880.122) -- 0:25:22
468000 -- (-10870.466) (-10877.232) [-10861.161] (-10889.298) * (-10878.829) [-10872.169] (-10886.524) (-10879.552) -- 0:25:18
469000 -- (-10890.078) (-10908.687) [-10870.175] (-10879.418) * (-10885.442) [-10867.107] (-10892.654) (-10874.976) -- 0:25:16
470000 -- [-10879.443] (-10896.609) (-10876.329) (-10871.478) * (-10882.746) [-10857.577] (-10889.796) (-10873.410) -- 0:25:12
Average standard deviation of split frequencies: 0.008378
471000 -- (-10900.014) (-10878.494) [-10870.899] (-10895.012) * (-10895.232) (-10884.725) [-10868.914] (-10876.225) -- 0:25:09
472000 -- (-10898.379) [-10880.506] (-10869.311) (-10876.285) * [-10871.251] (-10883.799) (-10886.304) (-10890.752) -- 0:25:05
473000 -- (-10893.571) (-10880.531) (-10888.139) [-10870.857] * (-10884.127) (-10878.881) (-10884.878) [-10872.420] -- 0:25:03
474000 -- (-10873.899) (-10875.578) (-10887.409) [-10875.070] * (-10874.565) [-10865.737] (-10877.257) (-10876.454) -- 0:25:00
475000 -- (-10897.038) [-10868.361] (-10886.000) (-10877.161) * (-10884.062) (-10870.536) (-10886.374) [-10875.356] -- 0:24:56
Average standard deviation of split frequencies: 0.008761
476000 -- (-10895.817) (-10892.700) (-10873.702) [-10874.724] * (-10873.304) [-10872.900] (-10885.755) (-10892.253) -- 0:24:53
477000 -- (-10882.011) (-10883.298) [-10887.451] (-10881.111) * (-10876.625) (-10868.891) (-10889.354) [-10859.661] -- 0:24:50
478000 -- (-10878.679) [-10867.054] (-10900.764) (-10888.184) * (-10870.248) [-10860.039] (-10890.292) (-10868.606) -- 0:24:47
479000 -- [-10870.850] (-10866.972) (-10883.057) (-10880.531) * (-10884.047) [-10866.579] (-10890.400) (-10884.044) -- 0:24:44
480000 -- [-10865.960] (-10871.929) (-10876.791) (-10893.550) * (-10879.343) (-10877.424) [-10876.334] (-10881.746) -- 0:24:42
Average standard deviation of split frequencies: 0.008770
481000 -- (-10878.294) [-10872.601] (-10874.091) (-10879.547) * (-10869.559) [-10870.097] (-10880.230) (-10876.167) -- 0:24:38
482000 -- (-10869.790) (-10876.861) (-10889.036) [-10873.934] * (-10860.407) (-10877.770) [-10862.597] (-10868.681) -- 0:24:35
483000 -- (-10865.633) [-10869.475] (-10881.680) (-10886.410) * (-10873.118) (-10883.318) (-10879.628) [-10871.194] -- 0:24:31
484000 -- (-10876.395) (-10876.544) (-10886.370) [-10873.346] * [-10856.818] (-10883.785) (-10865.924) (-10884.710) -- 0:24:29
485000 -- (-10875.100) (-10875.021) (-10876.562) [-10874.094] * [-10866.623] (-10889.469) (-10878.449) (-10885.946) -- 0:24:26
Average standard deviation of split frequencies: 0.008674
486000 -- (-10878.495) (-10889.505) (-10872.894) [-10887.525] * (-10888.400) (-10885.120) (-10880.554) [-10866.618] -- 0:24:22
487000 -- [-10878.826] (-10885.197) (-10868.869) (-10877.025) * (-10897.312) [-10875.278] (-10882.599) (-10882.966) -- 0:24:19
488000 -- [-10872.484] (-10883.441) (-10880.744) (-10889.634) * (-10885.809) (-10881.284) (-10900.685) [-10867.389] -- 0:24:17
489000 -- (-10882.180) [-10876.366] (-10882.203) (-10873.050) * [-10871.970] (-10882.191) (-10895.429) (-10875.627) -- 0:24:13
490000 -- (-10879.626) [-10866.686] (-10879.597) (-10882.880) * (-10883.371) (-10875.215) (-10890.844) [-10870.866] -- 0:24:10
Average standard deviation of split frequencies: 0.008166
491000 -- (-10882.681) (-10888.627) (-10879.946) [-10871.096] * (-10880.200) (-10875.286) (-10877.940) [-10879.616] -- 0:24:08
492000 -- (-10898.306) [-10885.710] (-10889.465) (-10891.108) * [-10878.823] (-10876.014) (-10879.853) (-10879.654) -- 0:24:04
493000 -- (-10883.777) [-10870.058] (-10887.566) (-10891.129) * (-10887.493) (-10869.008) (-10896.153) [-10871.617] -- 0:24:01
494000 -- [-10871.644] (-10891.884) (-10890.308) (-10884.485) * (-10874.877) [-10882.520] (-10879.667) (-10886.124) -- 0:23:59
495000 -- [-10874.466] (-10879.721) (-10876.977) (-10876.276) * (-10882.209) (-10875.986) (-10880.753) [-10870.999] -- 0:23:55
Average standard deviation of split frequencies: 0.008115
496000 -- (-10884.666) (-10892.739) (-10875.011) [-10869.402] * (-10890.522) (-10883.164) [-10869.442] (-10884.703) -- 0:23:52
497000 -- (-10868.300) [-10876.893] (-10886.921) (-10867.848) * (-10881.163) (-10894.723) (-10880.031) [-10877.917] -- 0:23:50
498000 -- [-10866.035] (-10877.731) (-10877.404) (-10894.684) * (-10878.934) (-10891.802) (-10880.592) [-10874.925] -- 0:23:46
499000 -- [-10870.623] (-10882.985) (-10884.941) (-10887.983) * (-10874.313) (-10885.174) (-10877.056) [-10883.128] -- 0:23:43
500000 -- (-10881.939) [-10874.707] (-10881.497) (-10877.087) * [-10885.085] (-10873.485) (-10889.155) (-10883.331) -- 0:23:42
Average standard deviation of split frequencies: 0.008293
501000 -- (-10881.314) [-10872.091] (-10882.852) (-10892.452) * (-10888.399) (-10865.880) (-10881.202) [-10873.440] -- 0:23:40
502000 -- [-10866.179] (-10874.739) (-10876.165) (-10876.899) * [-10879.245] (-10876.903) (-10887.223) (-10882.311) -- 0:23:36
503000 -- (-10882.483) (-10872.534) (-10874.790) [-10869.844] * [-10871.963] (-10870.387) (-10877.087) (-10891.326) -- 0:23:33
504000 -- (-10906.875) (-10884.285) (-10870.890) [-10872.821] * (-10894.731) [-10874.651] (-10877.360) (-10876.731) -- 0:23:32
505000 -- (-10889.194) [-10861.743] (-10879.517) (-10872.283) * [-10878.331] (-10880.263) (-10875.941) (-10872.664) -- 0:23:29
Average standard deviation of split frequencies: 0.008152
506000 -- (-10870.207) (-10880.642) (-10886.228) [-10868.852] * (-10889.508) (-10879.535) [-10874.773] (-10878.478) -- 0:23:25
507000 -- (-10892.789) (-10890.687) [-10879.410] (-10885.592) * (-10888.534) (-10892.911) [-10872.180] (-10872.620) -- 0:23:23
508000 -- [-10876.852] (-10875.676) (-10901.242) (-10872.966) * (-10888.855) (-10877.554) (-10875.857) [-10878.189] -- 0:23:19
509000 -- (-10872.939) (-10898.863) (-10876.847) [-10868.798] * (-10889.639) (-10906.279) (-10876.494) [-10872.395] -- 0:23:16
510000 -- (-10874.620) (-10884.811) (-10876.293) [-10876.631] * (-10890.549) (-10893.529) (-10882.231) [-10873.775] -- 0:23:14
Average standard deviation of split frequencies: 0.007616
511000 -- (-10870.999) [-10869.313] (-10878.251) (-10880.072) * [-10889.040] (-10881.819) (-10885.531) (-10897.572) -- 0:23:10
512000 -- (-10879.756) (-10894.162) [-10866.690] (-10892.242) * (-10884.045) [-10865.004] (-10886.370) (-10890.209) -- 0:23:07
513000 -- (-10885.289) (-10892.697) [-10876.961] (-10894.600) * [-10869.553] (-10877.160) (-10882.521) (-10884.606) -- 0:23:04
514000 -- (-10893.034) (-10885.137) [-10866.243] (-10886.751) * (-10891.546) [-10870.414] (-10880.944) (-10882.336) -- 0:23:01
515000 -- (-10888.624) (-10867.693) [-10876.679] (-10896.991) * (-10896.440) [-10877.351] (-10876.809) (-10885.199) -- 0:22:58
Average standard deviation of split frequencies: 0.007695
516000 -- (-10895.592) (-10873.717) (-10881.051) [-10873.664] * (-10885.349) (-10881.419) [-10871.387] (-10894.956) -- 0:22:55
517000 -- (-10881.198) (-10863.656) (-10878.633) [-10871.337] * (-10893.746) (-10889.242) [-10862.009] (-10884.224) -- 0:22:52
518000 -- (-10893.031) [-10867.785] (-10878.976) (-10885.114) * (-10888.188) (-10885.944) (-10875.606) [-10874.683] -- 0:22:49
519000 -- [-10868.000] (-10875.083) (-10867.062) (-10894.389) * (-10882.429) (-10869.769) (-10872.515) [-10865.993] -- 0:22:46
520000 -- (-10877.346) (-10898.846) (-10877.443) [-10877.300] * (-10886.784) (-10865.618) (-10878.307) [-10875.506] -- 0:22:43
Average standard deviation of split frequencies: 0.007783
521000 -- [-10870.107] (-10882.075) (-10887.643) (-10865.580) * (-10887.332) [-10883.127] (-10894.552) (-10876.588) -- 0:22:39
522000 -- (-10881.617) (-10870.528) [-10878.572] (-10869.758) * [-10878.298] (-10886.049) (-10896.748) (-10881.600) -- 0:22:37
523000 -- (-10914.830) [-10878.326] (-10875.812) (-10865.983) * (-10886.612) [-10880.834] (-10884.680) (-10871.014) -- 0:22:36
524000 -- (-10888.915) [-10876.973] (-10865.500) (-10881.559) * [-10871.942] (-10881.178) (-10882.575) (-10892.518) -- 0:22:34
525000 -- (-10894.443) (-10886.208) (-10876.912) [-10864.505] * (-10883.682) (-10888.469) (-10875.025) [-10877.005] -- 0:22:32
Average standard deviation of split frequencies: 0.007652
526000 -- (-10892.930) (-10876.010) (-10879.171) [-10884.677] * [-10864.548] (-10873.952) (-10879.996) (-10894.557) -- 0:22:29
527000 -- (-10902.529) (-10863.499) (-10892.935) [-10870.127] * (-10876.335) [-10876.186] (-10889.296) (-10895.101) -- 0:22:27
528000 -- (-10868.435) (-10893.692) (-10896.839) [-10871.798] * (-10892.558) [-10865.116] (-10874.884) (-10880.278) -- 0:22:23
529000 -- [-10874.404] (-10889.916) (-10896.324) (-10884.961) * (-10890.710) [-10871.041] (-10886.937) (-10876.726) -- 0:22:20
530000 -- (-10880.844) (-10878.402) (-10911.838) [-10875.240] * [-10887.483] (-10869.057) (-10887.933) (-10889.226) -- 0:22:17
Average standard deviation of split frequencies: 0.007687
531000 -- (-10872.843) (-10888.793) (-10899.193) [-10875.831] * (-10884.009) [-10874.956] (-10890.512) (-10882.976) -- 0:22:14
532000 -- (-10869.844) [-10870.716] (-10884.330) (-10898.380) * (-10890.065) (-10873.795) [-10868.404] (-10891.393) -- 0:22:11
533000 -- (-10890.078) (-10870.960) [-10883.617] (-10878.023) * (-10885.512) (-10877.823) (-10866.898) [-10869.232] -- 0:22:08
534000 -- (-10872.994) (-10886.657) [-10874.380] (-10886.182) * [-10876.456] (-10895.001) (-10885.495) (-10868.918) -- 0:22:05
535000 -- [-10862.342] (-10898.993) (-10877.472) (-10881.789) * (-10872.052) (-10898.864) (-10871.051) [-10871.238] -- 0:22:01
Average standard deviation of split frequencies: 0.007239
536000 -- (-10883.921) [-10881.608] (-10875.821) (-10875.665) * (-10874.356) [-10876.390] (-10882.031) (-10877.226) -- 0:21:59
537000 -- (-10880.415) (-10877.460) (-10893.033) [-10873.940] * [-10870.995] (-10902.738) (-10880.684) (-10881.633) -- 0:21:55
538000 -- (-10889.935) [-10869.868] (-10894.419) (-10882.353) * [-10864.089] (-10896.080) (-10875.610) (-10881.415) -- 0:21:53
539000 -- (-10885.556) [-10874.743] (-10881.653) (-10881.642) * [-10864.596] (-10896.546) (-10869.621) (-10868.124) -- 0:21:50
540000 -- (-10875.688) (-10889.753) [-10878.141] (-10879.780) * (-10872.876) (-10871.768) [-10873.442] (-10883.064) -- 0:21:47
Average standard deviation of split frequencies: 0.007227
541000 -- (-10896.775) [-10881.255] (-10869.980) (-10878.818) * (-10893.997) (-10876.841) (-10866.588) [-10862.479] -- 0:21:44
542000 -- (-10884.323) [-10870.840] (-10885.267) (-10887.259) * (-10882.650) [-10874.458] (-10872.403) (-10870.672) -- 0:21:41
543000 -- [-10874.459] (-10881.332) (-10879.548) (-10883.077) * (-10878.654) (-10868.566) (-10863.976) [-10870.895] -- 0:21:38
544000 -- [-10867.386] (-10877.526) (-10884.417) (-10867.366) * (-10891.635) (-10881.880) [-10862.767] (-10873.991) -- 0:21:35
545000 -- (-10884.241) (-10868.585) [-10882.199] (-10872.152) * (-10874.334) [-10866.898] (-10860.606) (-10878.116) -- 0:21:32
Average standard deviation of split frequencies: 0.006957
546000 -- (-10899.888) (-10880.221) (-10884.537) [-10875.325] * (-10882.704) (-10874.669) [-10876.382] (-10880.480) -- 0:21:29
547000 -- (-10884.730) (-10891.065) (-10880.586) [-10865.829] * (-10880.206) (-10868.496) [-10874.193] (-10872.511) -- 0:21:26
548000 -- [-10870.616] (-10878.644) (-10887.761) (-10896.251) * (-10889.949) [-10866.626] (-10884.084) (-10898.835) -- 0:21:23
549000 -- (-10878.333) (-10875.773) [-10872.687] (-10875.576) * (-10889.636) (-10872.210) [-10874.024] (-10880.908) -- 0:21:20
550000 -- (-10874.824) (-10877.247) [-10869.182] (-10874.892) * (-10880.351) (-10873.687) [-10872.266] (-10896.925) -- 0:21:17
Average standard deviation of split frequencies: 0.006865
551000 -- (-10871.617) (-10882.510) (-10873.278) [-10870.619] * (-10863.831) [-10870.580] (-10873.017) (-10880.052) -- 0:21:14
552000 -- (-10887.394) [-10870.829] (-10868.137) (-10874.874) * [-10874.422] (-10886.756) (-10883.237) (-10883.663) -- 0:21:11
553000 -- [-10872.305] (-10888.880) (-10887.668) (-10877.914) * (-10880.180) [-10870.601] (-10871.308) (-10879.428) -- 0:21:08
554000 -- (-10884.415) (-10872.447) [-10867.118] (-10878.644) * (-10885.216) [-10880.427] (-10883.656) (-10873.886) -- 0:21:05
555000 -- (-10871.260) (-10897.598) (-10874.155) [-10870.876] * (-10878.694) [-10876.965] (-10872.803) (-10877.555) -- 0:21:02
Average standard deviation of split frequencies: 0.006995
556000 -- (-10886.384) (-10901.924) (-10880.925) [-10871.242] * (-10883.359) (-10878.837) (-10883.181) [-10873.888] -- 0:20:59
557000 -- (-10873.456) (-10878.271) (-10873.109) [-10876.192] * (-10887.902) (-10888.147) (-10908.928) [-10869.522] -- 0:20:56
558000 -- (-10884.859) (-10895.461) [-10862.816] (-10886.873) * [-10877.717] (-10882.986) (-10882.248) (-10893.979) -- 0:20:53
559000 -- (-10871.780) (-10884.053) (-10898.962) [-10873.223] * (-10885.173) (-10875.545) [-10864.395] (-10902.624) -- 0:20:50
560000 -- (-10892.564) (-10869.602) (-10885.302) [-10872.495] * (-10880.362) [-10865.705] (-10884.036) (-10882.336) -- 0:20:47
Average standard deviation of split frequencies: 0.006937
561000 -- (-10891.883) [-10880.799] (-10885.859) (-10871.665) * [-10871.093] (-10889.704) (-10896.484) (-10876.132) -- 0:20:44
562000 -- (-10892.464) (-10877.383) (-10895.850) [-10872.793] * (-10880.876) [-10881.700] (-10904.024) (-10885.300) -- 0:20:41
563000 -- (-10891.488) (-10874.203) [-10878.119] (-10890.789) * (-10888.177) (-10876.643) (-10882.178) [-10877.392] -- 0:20:38
564000 -- (-10878.250) (-10888.119) [-10873.145] (-10893.677) * (-10885.021) [-10872.852] (-10886.071) (-10889.999) -- 0:20:35
565000 -- (-10889.776) (-10877.298) (-10889.429) [-10869.921] * (-10882.647) (-10889.306) [-10876.483] (-10874.915) -- 0:20:31
Average standard deviation of split frequencies: 0.006919
566000 -- [-10867.304] (-10879.281) (-10895.911) (-10885.725) * (-10876.173) [-10887.964] (-10879.070) (-10895.251) -- 0:20:29
567000 -- (-10878.050) (-10873.284) [-10881.610] (-10878.624) * (-10870.116) (-10897.199) [-10882.899] (-10888.881) -- 0:20:25
568000 -- (-10878.995) (-10880.584) [-10880.767] (-10875.799) * (-10881.987) (-10875.614) [-10872.288] (-10879.316) -- 0:20:22
569000 -- (-10889.614) (-10870.550) [-10874.886] (-10870.794) * [-10869.962] (-10872.463) (-10882.663) (-10878.713) -- 0:20:20
570000 -- [-10877.209] (-10877.525) (-10879.200) (-10897.143) * (-10890.083) (-10879.208) [-10872.987] (-10885.317) -- 0:20:16
Average standard deviation of split frequencies: 0.006990
571000 -- [-10874.609] (-10884.003) (-10874.094) (-10884.156) * (-10897.271) (-10872.400) (-10889.759) [-10880.996] -- 0:20:14
572000 -- [-10872.460] (-10881.433) (-10883.632) (-10884.519) * [-10877.000] (-10875.126) (-10887.050) (-10883.382) -- 0:20:10
573000 -- (-10890.673) [-10882.781] (-10896.485) (-10883.712) * (-10895.411) [-10881.519] (-10892.472) (-10877.568) -- 0:20:07
574000 -- (-10877.842) (-10870.755) [-10870.882] (-10893.469) * [-10878.585] (-10891.217) (-10893.547) (-10882.855) -- 0:20:05
575000 -- (-10872.237) (-10865.027) (-10879.177) [-10865.899] * [-10871.594] (-10877.309) (-10896.915) (-10886.737) -- 0:20:01
Average standard deviation of split frequencies: 0.007130
576000 -- (-10878.697) [-10878.073] (-10873.883) (-10876.495) * (-10872.340) [-10877.494] (-10871.993) (-10881.081) -- 0:19:59
577000 -- (-10892.595) (-10902.143) (-10875.174) [-10874.099] * (-10897.576) (-10871.384) [-10870.632] (-10881.774) -- 0:19:56
578000 -- (-10883.035) (-10886.618) [-10880.793] (-10871.566) * [-10875.589] (-10865.856) (-10874.173) (-10883.204) -- 0:19:52
579000 -- (-10882.559) (-10874.063) (-10879.072) [-10871.859] * (-10895.988) (-10874.498) [-10872.237] (-10880.785) -- 0:19:50
580000 -- (-10878.503) (-10895.701) (-10887.125) [-10884.110] * [-10877.101] (-10870.674) (-10884.123) (-10880.742) -- 0:19:46
Average standard deviation of split frequencies: 0.007182
581000 -- [-10866.304] (-10882.992) (-10877.386) (-10886.710) * (-10880.184) (-10875.094) (-10894.731) [-10884.853] -- 0:19:44
582000 -- [-10871.942] (-10866.982) (-10868.888) (-10899.022) * (-10890.225) [-10882.426] (-10887.561) (-10880.625) -- 0:19:41
583000 -- (-10883.974) (-10884.741) (-10889.708) [-10872.691] * (-10877.890) (-10875.334) [-10881.760] (-10905.487) -- 0:19:38
584000 -- (-10867.738) [-10876.122] (-10884.039) (-10881.029) * [-10871.927] (-10878.792) (-10884.601) (-10883.530) -- 0:19:35
585000 -- (-10873.857) (-10872.892) (-10882.659) [-10879.991] * [-10873.292] (-10879.328) (-10887.920) (-10880.562) -- 0:19:32
Average standard deviation of split frequencies: 0.006869
586000 -- [-10880.166] (-10889.127) (-10884.056) (-10874.235) * (-10889.458) (-10874.441) [-10869.942] (-10882.580) -- 0:19:29
587000 -- (-10879.761) (-10872.294) [-10866.025] (-10885.130) * (-10879.665) (-10882.260) [-10880.126] (-10887.017) -- 0:19:26
588000 -- (-10877.531) (-10883.904) [-10878.980] (-10880.002) * (-10867.894) (-10882.291) [-10870.945] (-10895.089) -- 0:19:23
589000 -- [-10879.093] (-10887.575) (-10876.055) (-10883.788) * (-10883.872) [-10872.461] (-10891.876) (-10873.152) -- 0:19:20
590000 -- (-10891.054) (-10873.440) [-10876.689] (-10890.749) * (-10888.046) [-10877.535] (-10898.105) (-10872.859) -- 0:19:17
Average standard deviation of split frequencies: 0.007137
591000 -- (-10894.725) (-10874.769) (-10899.168) [-10866.066] * [-10872.806] (-10876.213) (-10886.067) (-10890.148) -- 0:19:14
592000 -- (-10894.283) (-10889.205) (-10890.513) [-10863.931] * (-10887.991) [-10880.495] (-10867.696) (-10883.919) -- 0:19:11
593000 -- (-10898.206) (-10887.800) (-10872.844) [-10873.429] * (-10884.802) (-10890.494) [-10887.097] (-10880.609) -- 0:19:08
594000 -- (-10883.858) (-10873.906) [-10873.633] (-10875.615) * [-10873.521] (-10893.112) (-10898.265) (-10880.644) -- 0:19:05
595000 -- (-10884.135) [-10882.157] (-10882.237) (-10886.754) * (-10869.465) (-10884.536) (-10896.399) [-10879.730] -- 0:19:02
Average standard deviation of split frequencies: 0.007286
596000 -- [-10877.325] (-10889.101) (-10875.624) (-10887.944) * [-10864.851] (-10883.979) (-10886.954) (-10889.135) -- 0:18:59
597000 -- [-10875.668] (-10895.903) (-10880.592) (-10882.505) * (-10873.604) (-10872.181) (-10876.690) [-10874.484] -- 0:18:56
598000 -- (-10875.556) [-10878.606] (-10886.712) (-10898.068) * [-10869.417] (-10887.346) (-10860.152) (-10880.402) -- 0:18:53
599000 -- (-10874.676) [-10873.703] (-10878.421) (-10877.469) * (-10873.777) (-10884.484) [-10872.431] (-10865.040) -- 0:18:50
600000 -- (-10882.491) (-10873.456) [-10876.324] (-10876.218) * (-10880.114) [-10870.680] (-10871.975) (-10881.795) -- 0:18:48
Average standard deviation of split frequencies: 0.007184
601000 -- (-10870.097) [-10871.630] (-10880.314) (-10878.001) * [-10868.314] (-10882.677) (-10875.801) (-10900.809) -- 0:18:44
602000 -- [-10875.600] (-10881.298) (-10893.009) (-10883.768) * (-10888.986) [-10866.589] (-10884.217) (-10893.027) -- 0:18:41
603000 -- [-10869.273] (-10887.789) (-10883.375) (-10904.295) * (-10890.987) [-10868.835] (-10866.190) (-10871.892) -- 0:18:39
604000 -- (-10874.985) (-10872.329) [-10869.127] (-10892.968) * (-10873.038) (-10875.668) [-10879.127] (-10899.088) -- 0:18:35
605000 -- (-10870.467) [-10875.749] (-10884.430) (-10895.258) * (-10888.649) [-10873.344] (-10879.433) (-10897.390) -- 0:18:33
Average standard deviation of split frequencies: 0.007181
606000 -- (-10870.432) (-10872.420) [-10877.643] (-10901.526) * [-10871.964] (-10879.827) (-10896.324) (-10876.724) -- 0:18:30
607000 -- (-10877.034) (-10880.934) [-10872.706] (-10886.186) * (-10870.417) (-10869.161) [-10866.474] (-10882.450) -- 0:18:27
608000 -- (-10876.421) (-10885.772) (-10871.727) [-10884.235] * (-10886.537) [-10868.098] (-10879.249) (-10882.791) -- 0:18:24
609000 -- (-10880.492) (-10887.634) [-10874.909] (-10898.668) * (-10882.009) [-10869.710] (-10898.106) (-10875.800) -- 0:18:21
610000 -- (-10875.302) (-10889.082) (-10869.236) [-10878.658] * (-10888.548) (-10881.725) (-10884.923) [-10861.213] -- 0:18:18
Average standard deviation of split frequencies: 0.006769
611000 -- (-10882.962) (-10890.273) (-10873.544) [-10867.826] * [-10892.103] (-10876.134) (-10879.829) (-10869.939) -- 0:18:15
612000 -- (-10870.315) [-10880.899] (-10869.852) (-10882.246) * [-10864.335] (-10872.105) (-10888.833) (-10891.604) -- 0:18:12
613000 -- [-10866.261] (-10864.955) (-10867.642) (-10877.441) * [-10866.542] (-10877.010) (-10894.873) (-10892.401) -- 0:18:09
614000 -- [-10860.751] (-10887.521) (-10876.388) (-10896.082) * [-10876.536] (-10878.189) (-10873.861) (-10882.337) -- 0:18:06
615000 -- (-10871.154) (-10891.769) (-10883.724) [-10880.761] * [-10871.565] (-10886.666) (-10881.505) (-10888.132) -- 0:18:03
Average standard deviation of split frequencies: 0.006784
616000 -- (-10870.651) [-10873.652] (-10887.209) (-10896.780) * (-10889.556) (-10882.300) [-10869.427] (-10875.880) -- 0:18:00
617000 -- (-10880.833) (-10888.871) (-10885.482) [-10882.736] * (-10879.080) (-10882.920) [-10875.385] (-10872.944) -- 0:17:58
618000 -- (-10895.363) [-10879.575] (-10875.771) (-10882.432) * (-10871.492) (-10886.869) (-10887.089) [-10873.984] -- 0:17:54
619000 -- (-10885.330) (-10893.348) (-10890.968) [-10880.710] * [-10873.142] (-10879.365) (-10884.769) (-10876.406) -- 0:17:52
620000 -- (-10883.255) (-10879.800) [-10878.247] (-10876.016) * [-10870.395] (-10881.386) (-10898.288) (-10879.802) -- 0:17:49
Average standard deviation of split frequencies: 0.006704
621000 -- (-10881.972) [-10877.312] (-10883.406) (-10880.364) * (-10871.192) (-10894.322) (-10897.744) [-10873.003] -- 0:17:46
622000 -- (-10886.720) [-10873.991] (-10878.073) (-10872.497) * (-10879.512) [-10872.213] (-10881.816) (-10894.621) -- 0:17:43
623000 -- (-10871.440) [-10877.503] (-10899.542) (-10884.070) * [-10867.766] (-10878.907) (-10895.429) (-10897.314) -- 0:17:40
624000 -- (-10873.725) [-10886.840] (-10896.084) (-10895.496) * (-10883.555) [-10869.550] (-10882.509) (-10881.132) -- 0:17:37
625000 -- [-10876.003] (-10887.129) (-10883.437) (-10888.319) * (-10882.884) [-10874.170] (-10879.983) (-10878.003) -- 0:17:34
Average standard deviation of split frequencies: 0.006488
626000 -- [-10869.003] (-10895.212) (-10871.656) (-10881.105) * (-10883.072) (-10886.229) [-10874.499] (-10869.368) -- 0:17:31
627000 -- (-10873.450) [-10875.024] (-10878.110) (-10872.289) * [-10878.755] (-10906.110) (-10884.403) (-10884.891) -- 0:17:28
628000 -- (-10879.488) (-10902.240) [-10872.294] (-10883.566) * (-10883.385) (-10880.686) (-10878.243) [-10888.378] -- 0:17:25
629000 -- [-10874.934] (-10885.696) (-10892.888) (-10888.179) * (-10871.789) (-10885.321) (-10891.043) [-10867.774] -- 0:17:22
630000 -- (-10875.006) [-10883.297] (-10893.251) (-10891.835) * (-10878.564) (-10887.331) (-10884.930) [-10877.305] -- 0:17:20
Average standard deviation of split frequencies: 0.006684
631000 -- (-10873.365) [-10878.737] (-10894.422) (-10876.036) * (-10871.409) [-10867.653] (-10871.877) (-10874.263) -- 0:17:16
632000 -- (-10877.675) (-10882.476) (-10886.584) [-10876.160] * (-10870.803) (-10880.088) (-10885.897) [-10878.878] -- 0:17:14
633000 -- [-10866.076] (-10873.457) (-10887.860) (-10875.546) * (-10880.596) [-10859.848] (-10881.507) (-10886.010) -- 0:17:10
634000 -- (-10874.139) (-10879.155) [-10886.151] (-10907.343) * (-10888.851) (-10883.625) (-10883.845) [-10866.003] -- 0:17:08
635000 -- [-10874.350] (-10878.222) (-10883.585) (-10884.539) * (-10898.147) (-10869.978) [-10888.342] (-10888.004) -- 0:17:05
Average standard deviation of split frequencies: 0.006642
636000 -- [-10873.966] (-10893.960) (-10878.153) (-10870.712) * [-10872.257] (-10871.754) (-10874.402) (-10899.034) -- 0:17:02
637000 -- (-10886.600) [-10874.010] (-10882.962) (-10883.885) * [-10874.764] (-10871.931) (-10883.446) (-10885.022) -- 0:16:59
638000 -- (-10875.686) (-10899.249) (-10888.919) [-10873.439] * (-10894.778) (-10868.206) (-10887.250) [-10875.475] -- 0:16:56
639000 -- (-10892.335) [-10874.601] (-10879.937) (-10890.007) * (-10878.662) [-10873.380] (-10868.309) (-10874.696) -- 0:16:54
640000 -- (-10886.165) (-10892.769) (-10883.131) [-10874.451] * (-10880.548) (-10879.508) (-10887.990) [-10866.846] -- 0:16:52
Average standard deviation of split frequencies: 0.006735
641000 -- (-10872.388) (-10885.409) [-10875.716] (-10880.222) * (-10882.581) (-10889.623) (-10882.730) [-10868.600] -- 0:16:50
642000 -- [-10872.523] (-10877.391) (-10882.673) (-10876.318) * (-10886.239) (-10900.392) (-10878.753) [-10871.590] -- 0:16:48
643000 -- [-10868.261] (-10880.563) (-10895.634) (-10879.970) * (-10884.030) (-10867.419) (-10891.714) [-10873.877] -- 0:16:46
644000 -- (-10885.319) (-10887.723) [-10883.313] (-10867.948) * (-10888.402) (-10877.559) [-10877.007] (-10873.965) -- 0:16:43
645000 -- (-10881.179) (-10875.542) (-10879.498) [-10878.632] * (-10900.532) [-10878.309] (-10875.664) (-10875.190) -- 0:16:41
Average standard deviation of split frequencies: 0.006539
646000 -- [-10869.670] (-10877.496) (-10890.156) (-10876.640) * (-10889.577) (-10878.897) (-10876.279) [-10889.383] -- 0:16:38
647000 -- [-10878.550] (-10885.755) (-10879.985) (-10878.979) * (-10901.713) (-10876.708) (-10876.379) [-10871.362] -- 0:16:36
648000 -- (-10884.855) [-10872.361] (-10897.353) (-10872.122) * (-10881.489) [-10880.431] (-10881.788) (-10881.498) -- 0:16:34
649000 -- (-10885.960) [-10889.110] (-10890.720) (-10872.775) * [-10872.003] (-10892.157) (-10885.365) (-10876.461) -- 0:16:32
650000 -- (-10885.517) (-10881.313) [-10878.353] (-10886.817) * (-10872.273) [-10871.024] (-10881.057) (-10888.004) -- 0:16:30
Average standard deviation of split frequencies: 0.006479
651000 -- (-10877.154) (-10883.881) (-10887.380) [-10878.105] * (-10889.894) [-10875.759] (-10876.139) (-10876.385) -- 0:16:28
652000 -- (-10879.508) (-10892.587) (-10877.654) [-10871.184] * (-10889.909) (-10874.825) [-10874.298] (-10890.598) -- 0:16:25
653000 -- (-10875.325) (-10885.377) (-10882.635) [-10863.641] * (-10878.803) [-10873.957] (-10875.215) (-10877.311) -- 0:16:23
654000 -- (-10879.948) (-10877.468) (-10895.099) [-10871.521] * (-10890.459) [-10871.969] (-10891.125) (-10879.242) -- 0:16:21
655000 -- (-10886.507) (-10882.336) (-10889.974) [-10876.644] * (-10872.883) [-10866.472] (-10892.092) (-10867.870) -- 0:16:19
Average standard deviation of split frequencies: 0.006274
656000 -- (-10890.546) [-10876.896] (-10882.161) (-10883.913) * (-10875.612) (-10876.202) (-10892.573) [-10873.850] -- 0:16:16
657000 -- (-10884.780) [-10865.202] (-10880.345) (-10875.999) * (-10876.330) [-10876.317] (-10894.213) (-10890.298) -- 0:16:14
658000 -- [-10869.747] (-10879.364) (-10887.243) (-10874.387) * [-10877.631] (-10878.483) (-10895.681) (-10867.874) -- 0:16:11
659000 -- (-10873.535) (-10879.195) (-10866.957) [-10876.840] * [-10874.058] (-10886.484) (-10907.994) (-10870.653) -- 0:16:09
660000 -- [-10859.569] (-10869.308) (-10876.717) (-10880.941) * [-10873.455] (-10876.641) (-10882.847) (-10880.171) -- 0:16:07
Average standard deviation of split frequencies: 0.006532
661000 -- (-10871.433) (-10888.804) [-10858.481] (-10885.126) * (-10881.888) [-10873.836] (-10899.323) (-10882.294) -- 0:16:05
662000 -- (-10863.911) (-10895.338) [-10878.064] (-10908.072) * [-10866.359] (-10896.928) (-10886.832) (-10893.690) -- 0:16:02
663000 -- (-10879.089) [-10881.950] (-10873.216) (-10893.399) * (-10869.625) [-10874.864] (-10873.525) (-10871.140) -- 0:16:00
664000 -- (-10874.364) (-10872.927) [-10866.691] (-10897.652) * (-10875.303) (-10880.806) (-10878.125) [-10876.271] -- 0:15:57
665000 -- (-10870.250) [-10889.116] (-10901.616) (-10895.517) * [-10877.376] (-10877.454) (-10881.962) (-10867.131) -- 0:15:54
Average standard deviation of split frequencies: 0.006316
666000 -- (-10880.927) [-10872.589] (-10879.733) (-10885.112) * [-10871.665] (-10881.754) (-10879.935) (-10886.695) -- 0:15:51
667000 -- (-10878.252) (-10880.204) [-10877.504] (-10887.619) * (-10887.843) (-10880.369) (-10892.262) [-10871.137] -- 0:15:49
668000 -- (-10876.353) [-10879.762] (-10881.054) (-10888.958) * [-10880.433] (-10883.121) (-10890.656) (-10891.064) -- 0:15:45
669000 -- (-10887.397) (-10888.471) [-10870.381] (-10888.759) * (-10877.423) [-10878.291] (-10893.894) (-10884.522) -- 0:15:43
670000 -- (-10886.746) [-10870.979] (-10873.591) (-10890.554) * [-10871.818] (-10884.770) (-10899.518) (-10876.157) -- 0:15:39
Average standard deviation of split frequencies: 0.006285
671000 -- (-10884.053) [-10874.653] (-10887.305) (-10876.286) * (-10869.921) (-10887.958) (-10883.071) [-10872.770] -- 0:15:36
672000 -- (-10875.246) (-10878.948) [-10872.004] (-10889.137) * (-10872.376) (-10886.068) [-10872.572] (-10879.680) -- 0:15:34
673000 -- (-10878.655) [-10876.449] (-10877.367) (-10888.826) * (-10878.525) (-10878.419) (-10873.133) [-10881.365] -- 0:15:31
674000 -- (-10885.451) (-10887.845) [-10871.205] (-10885.119) * (-10875.688) [-10869.079] (-10868.748) (-10886.610) -- 0:15:29
675000 -- (-10883.369) (-10879.030) [-10875.680] (-10885.242) * [-10866.036] (-10877.399) (-10887.118) (-10882.508) -- 0:15:27
Average standard deviation of split frequencies: 0.006263
676000 -- (-10883.258) (-10886.521) [-10873.485] (-10888.821) * [-10868.499] (-10884.800) (-10878.571) (-10892.409) -- 0:15:25
677000 -- (-10879.630) (-10876.506) (-10882.949) [-10882.330] * [-10871.380] (-10880.026) (-10877.489) (-10878.942) -- 0:15:22
678000 -- (-10882.033) (-10881.669) (-10880.190) [-10878.899] * (-10890.980) [-10866.902] (-10894.453) (-10883.618) -- 0:15:20
679000 -- (-10890.754) (-10871.265) (-10879.818) [-10872.427] * (-10872.505) [-10877.200] (-10893.836) (-10884.926) -- 0:15:18
680000 -- (-10883.333) (-10884.927) (-10863.609) [-10876.383] * [-10879.273] (-10866.379) (-10883.526) (-10880.065) -- 0:15:15
Average standard deviation of split frequencies: 0.006220
681000 -- (-10888.163) [-10872.674] (-10878.723) (-10873.176) * (-10884.632) (-10868.354) [-10892.020] (-10878.661) -- 0:15:13
682000 -- (-10869.540) (-10889.701) [-10869.593] (-10879.851) * (-10878.190) (-10880.457) [-10874.775] (-10904.183) -- 0:15:11
683000 -- (-10876.310) (-10873.477) (-10877.115) [-10881.401] * (-10878.515) (-10875.494) [-10872.001] (-10885.395) -- 0:15:08
684000 -- (-10885.928) [-10885.375] (-10867.748) (-10880.741) * (-10881.444) (-10891.197) (-10884.756) [-10899.728] -- 0:15:06
685000 -- (-10882.959) (-10879.968) (-10868.853) [-10873.496] * (-10880.673) (-10901.369) (-10882.684) [-10871.259] -- 0:15:04
Average standard deviation of split frequencies: 0.006264
686000 -- (-10879.560) (-10884.607) [-10873.150] (-10866.862) * [-10879.300] (-10883.136) (-10890.372) (-10872.502) -- 0:15:01
687000 -- (-10883.583) (-10893.785) (-10876.490) [-10881.399] * (-10872.495) (-10881.295) (-10884.986) [-10876.037] -- 0:14:59
688000 -- (-10878.007) (-10891.069) [-10877.561] (-10866.073) * (-10887.605) (-10863.115) [-10886.088] (-10882.850) -- 0:14:57
689000 -- (-10885.921) (-10878.860) (-10870.790) [-10868.600] * (-10884.041) [-10874.241] (-10883.408) (-10880.347) -- 0:14:54
690000 -- (-10873.905) [-10871.886] (-10890.126) (-10876.898) * (-10884.714) [-10875.277] (-10874.882) (-10880.393) -- 0:14:52
Average standard deviation of split frequencies: 0.006458
691000 -- [-10878.643] (-10873.921) (-10895.474) (-10884.012) * (-10886.595) (-10884.969) (-10890.134) [-10876.829] -- 0:14:49
692000 -- (-10902.225) [-10876.641] (-10885.554) (-10884.344) * (-10892.547) (-10874.779) (-10883.171) [-10875.539] -- 0:14:47
693000 -- (-10890.096) (-10876.064) (-10900.951) [-10885.038] * (-10880.224) (-10877.965) [-10869.360] (-10884.370) -- 0:14:44
694000 -- (-10884.614) (-10882.634) [-10872.120] (-10873.605) * (-10894.341) (-10895.077) [-10874.351] (-10873.307) -- 0:14:42
695000 -- (-10888.133) (-10888.844) (-10872.164) [-10864.245] * (-10891.697) (-10884.527) [-10877.841] (-10874.650) -- 0:14:39
Average standard deviation of split frequencies: 0.006109
696000 -- [-10872.743] (-10879.859) (-10865.852) (-10878.198) * (-10888.821) (-10880.447) [-10875.694] (-10873.829) -- 0:14:37
697000 -- [-10882.802] (-10873.215) (-10882.969) (-10885.175) * (-10874.508) (-10895.832) (-10887.555) [-10867.875] -- 0:14:35
698000 -- [-10878.949] (-10893.156) (-10880.550) (-10879.480) * [-10868.397] (-10884.972) (-10889.691) (-10874.146) -- 0:14:32
699000 -- (-10895.728) (-10871.498) (-10875.715) [-10872.567] * (-10881.087) (-10867.369) (-10872.918) [-10880.352] -- 0:14:30
700000 -- (-10869.917) (-10882.737) (-10878.864) [-10874.745] * (-10875.433) [-10884.544] (-10870.476) (-10883.102) -- 0:14:27
Average standard deviation of split frequencies: 0.005887
701000 -- [-10863.307] (-10878.289) (-10901.724) (-10879.431) * (-10871.376) (-10875.444) [-10870.219] (-10875.842) -- 0:14:25
702000 -- [-10874.775] (-10894.497) (-10874.080) (-10867.497) * (-10893.879) [-10868.679] (-10898.578) (-10882.645) -- 0:14:23
703000 -- (-10875.159) (-10881.812) [-10878.578] (-10873.586) * (-10885.797) (-10887.686) [-10882.066] (-10880.791) -- 0:14:20
704000 -- (-10872.254) (-10895.590) [-10873.149] (-10884.163) * [-10878.934] (-10895.232) (-10890.312) (-10878.845) -- 0:14:18
705000 -- [-10875.560] (-10883.948) (-10887.121) (-10867.852) * (-10868.520) [-10885.892] (-10896.848) (-10878.520) -- 0:14:15
Average standard deviation of split frequencies: 0.005804
706000 -- (-10887.619) (-10887.773) (-10885.535) [-10864.617] * [-10870.925] (-10881.295) (-10872.857) (-10878.521) -- 0:14:13
707000 -- (-10881.126) (-10879.453) (-10886.838) [-10871.788] * [-10864.036] (-10912.158) (-10879.682) (-10870.891) -- 0:14:10
708000 -- (-10872.369) (-10886.066) [-10875.737] (-10870.907) * [-10869.992] (-10886.574) (-10890.791) (-10869.423) -- 0:14:07
709000 -- (-10886.218) [-10883.034] (-10886.297) (-10875.516) * (-10890.687) (-10873.577) (-10879.090) [-10876.062] -- 0:14:05
710000 -- (-10893.013) [-10873.686] (-10897.919) (-10866.838) * (-10887.728) [-10874.618] (-10882.901) (-10886.024) -- 0:14:03
Average standard deviation of split frequencies: 0.005702
711000 -- (-10895.106) (-10881.538) (-10884.243) [-10870.293] * (-10896.485) (-10875.984) [-10877.687] (-10885.024) -- 0:14:00
712000 -- (-10900.990) (-10889.196) (-10897.625) [-10879.126] * (-10901.162) (-10878.859) (-10874.382) [-10873.282] -- 0:13:58
713000 -- (-10893.578) (-10892.999) (-10887.319) [-10864.310] * (-10884.780) [-10879.202] (-10894.737) (-10879.829) -- 0:13:55
714000 -- [-10872.253] (-10877.115) (-10888.129) (-10886.028) * (-10873.616) [-10874.665] (-10894.988) (-10881.729) -- 0:13:52
715000 -- (-10878.738) (-10877.647) (-10880.618) [-10873.784] * (-10879.493) (-10868.724) (-10881.091) [-10870.664] -- 0:13:49
Average standard deviation of split frequencies: 0.005406
716000 -- (-10885.259) [-10881.440] (-10873.236) (-10881.773) * (-10894.530) [-10875.276] (-10885.593) (-10866.323) -- 0:13:46
717000 -- (-10897.443) (-10880.576) [-10869.066] (-10884.796) * (-10896.249) (-10886.526) [-10874.749] (-10877.711) -- 0:13:43
718000 -- (-10882.665) [-10874.298] (-10875.453) (-10882.273) * (-10887.345) (-10890.408) (-10888.502) [-10870.565] -- 0:13:40
719000 -- (-10884.416) [-10868.517] (-10881.094) (-10887.623) * (-10873.909) (-10886.984) (-10891.855) [-10888.904] -- 0:13:37
720000 -- (-10876.463) [-10864.391] (-10883.584) (-10871.871) * (-10886.708) [-10871.279] (-10885.061) (-10872.875) -- 0:13:34
Average standard deviation of split frequencies: 0.005220
721000 -- (-10880.061) (-10871.552) (-10882.178) [-10874.722] * (-10903.714) [-10875.307] (-10874.507) (-10886.473) -- 0:13:31
722000 -- [-10875.239] (-10876.577) (-10889.381) (-10887.659) * (-10894.771) [-10876.123] (-10874.100) (-10868.025) -- 0:13:28
723000 -- [-10879.590] (-10884.331) (-10882.210) (-10873.574) * (-10884.126) [-10876.845] (-10872.648) (-10890.633) -- 0:13:25
724000 -- [-10875.961] (-10874.676) (-10869.321) (-10879.854) * (-10874.043) [-10875.543] (-10871.171) (-10891.848) -- 0:13:22
725000 -- (-10892.372) (-10887.908) (-10897.732) [-10887.242] * (-10891.888) [-10876.345] (-10880.663) (-10895.952) -- 0:13:19
Average standard deviation of split frequencies: 0.005407
726000 -- (-10885.241) [-10875.040] (-10895.614) (-10884.255) * (-10880.972) [-10866.984] (-10863.552) (-10889.014) -- 0:13:16
727000 -- [-10872.034] (-10879.736) (-10890.087) (-10865.334) * (-10883.806) (-10878.372) [-10863.542] (-10880.096) -- 0:13:13
728000 -- (-10880.998) (-10878.919) (-10879.675) [-10862.132] * (-10893.920) (-10881.986) [-10871.174] (-10885.122) -- 0:13:10
729000 -- (-10905.504) (-10878.185) (-10896.682) [-10869.276] * (-10867.291) (-10879.478) (-10879.904) [-10872.850] -- 0:13:07
730000 -- (-10895.295) (-10894.722) (-10885.232) [-10875.233] * (-10877.503) [-10865.141] (-10880.919) (-10886.012) -- 0:13:04
Average standard deviation of split frequencies: 0.005447
731000 -- (-10883.078) [-10881.330] (-10883.679) (-10882.871) * (-10875.236) (-10895.441) [-10876.171] (-10877.365) -- 0:13:01
732000 -- (-10892.922) [-10878.886] (-10877.794) (-10878.076) * (-10886.379) (-10895.686) [-10868.503] (-10870.942) -- 0:12:58
733000 -- (-10894.195) (-10896.952) (-10883.468) [-10869.028] * (-10882.739) (-10876.392) [-10868.841] (-10884.719) -- 0:12:55
734000 -- (-10894.484) [-10884.019] (-10889.270) (-10871.098) * (-10891.303) [-10872.414] (-10883.528) (-10882.077) -- 0:12:52
735000 -- (-10884.760) (-10884.202) (-10890.940) [-10864.881] * (-10882.282) (-10877.494) (-10881.305) [-10877.033] -- 0:12:49
Average standard deviation of split frequencies: 0.005235
736000 -- (-10890.084) (-10873.668) (-10875.218) [-10869.211] * [-10879.646] (-10897.824) (-10865.697) (-10877.802) -- 0:12:46
737000 -- [-10863.005] (-10892.694) (-10876.570) (-10877.253) * (-10907.846) (-10877.395) (-10874.664) [-10883.181] -- 0:12:43
738000 -- [-10870.658] (-10908.590) (-10866.669) (-10867.650) * (-10892.281) (-10880.788) [-10868.298] (-10877.888) -- 0:12:40
739000 -- (-10875.344) (-10892.956) [-10877.903] (-10882.223) * (-10880.148) (-10889.567) [-10860.091] (-10873.376) -- 0:12:37
740000 -- (-10884.641) (-10886.677) [-10884.752] (-10877.415) * (-10882.483) (-10874.356) [-10872.654] (-10868.567) -- 0:12:34
Average standard deviation of split frequencies: 0.005128
741000 -- (-10889.042) [-10882.150] (-10891.548) (-10875.388) * (-10904.121) [-10874.696] (-10882.798) (-10870.394) -- 0:12:31
742000 -- (-10872.527) (-10875.708) (-10890.225) [-10870.522] * (-10888.351) (-10890.970) (-10873.493) [-10873.297] -- 0:12:28
743000 -- (-10900.991) (-10885.902) [-10864.004] (-10864.807) * (-10882.793) (-10895.347) (-10879.682) [-10865.726] -- 0:12:25
744000 -- (-10873.673) (-10872.115) [-10868.843] (-10883.650) * (-10880.347) (-10892.770) (-10877.691) [-10875.847] -- 0:12:22
745000 -- [-10882.491] (-10886.748) (-10885.026) (-10890.108) * (-10882.413) (-10888.225) [-10866.587] (-10883.648) -- 0:12:19
Average standard deviation of split frequencies: 0.005310
746000 -- [-10882.824] (-10896.747) (-10881.779) (-10883.284) * (-10880.777) [-10883.790] (-10876.526) (-10897.108) -- 0:12:16
747000 -- [-10863.362] (-10876.398) (-10885.590) (-10881.856) * (-10870.507) (-10884.569) (-10874.146) [-10873.117] -- 0:12:13
748000 -- (-10883.474) [-10869.983] (-10883.588) (-10876.995) * (-10880.544) (-10888.844) (-10868.753) [-10874.151] -- 0:12:10
749000 -- [-10871.841] (-10910.290) (-10875.286) (-10881.974) * (-10880.131) (-10880.901) [-10873.385] (-10886.411) -- 0:12:07
750000 -- [-10869.271] (-10876.360) (-10894.322) (-10876.906) * [-10872.919] (-10880.779) (-10882.316) (-10877.837) -- 0:12:04
Average standard deviation of split frequencies: 0.005193
751000 -- (-10881.198) (-10889.375) (-10870.501) [-10864.729] * (-10875.239) (-10880.918) [-10874.869] (-10877.542) -- 0:12:01
752000 -- (-10884.062) [-10872.494] (-10878.685) (-10872.433) * [-10879.705] (-10875.739) (-10893.825) (-10882.597) -- 0:11:58
753000 -- (-10898.465) (-10870.697) (-10876.261) [-10871.180] * (-10881.008) [-10870.068] (-10873.309) (-10885.080) -- 0:11:55
754000 -- (-10886.562) [-10868.521] (-10884.029) (-10889.268) * (-10878.228) (-10880.639) [-10875.159] (-10881.830) -- 0:11:52
755000 -- (-10889.374) (-10883.450) [-10876.669] (-10878.350) * [-10874.981] (-10888.318) (-10877.429) (-10883.937) -- 0:11:49
Average standard deviation of split frequencies: 0.005252
756000 -- [-10882.414] (-10866.405) (-10890.358) (-10867.983) * [-10873.728] (-10875.840) (-10901.723) (-10879.223) -- 0:11:46
757000 -- (-10887.872) [-10862.685] (-10892.855) (-10882.922) * [-10869.422] (-10867.054) (-10869.653) (-10881.787) -- 0:11:43
758000 -- (-10888.410) (-10875.052) (-10888.732) [-10869.687] * [-10872.295] (-10871.468) (-10880.220) (-10877.810) -- 0:11:40
759000 -- (-10883.925) (-10879.907) (-10894.349) [-10878.090] * (-10885.455) (-10888.905) [-10869.165] (-10889.070) -- 0:11:37
760000 -- (-10883.967) (-10879.011) (-10888.158) [-10871.417] * (-10881.362) (-10874.908) [-10865.265] (-10888.651) -- 0:11:34
Average standard deviation of split frequencies: 0.005256
761000 -- [-10869.380] (-10877.199) (-10891.167) (-10879.216) * (-10888.983) (-10877.780) [-10871.883] (-10882.735) -- 0:11:31
762000 -- (-10875.022) [-10872.472] (-10885.296) (-10886.586) * [-10886.700] (-10868.096) (-10886.905) (-10886.188) -- 0:11:28
763000 -- (-10876.324) [-10871.148] (-10893.610) (-10877.138) * (-10885.279) (-10873.197) (-10875.522) [-10879.369] -- 0:11:25
764000 -- (-10887.484) [-10872.969] (-10893.951) (-10880.836) * (-10882.446) [-10874.306] (-10882.951) (-10886.936) -- 0:11:22
765000 -- (-10887.281) (-10859.653) [-10876.249] (-10872.206) * (-10900.192) [-10866.902] (-10872.037) (-10886.178) -- 0:11:19
Average standard deviation of split frequencies: 0.005113
766000 -- (-10878.406) [-10867.409] (-10884.711) (-10875.332) * (-10886.531) (-10873.324) [-10875.250] (-10871.369) -- 0:11:16
767000 -- (-10880.712) [-10869.004] (-10879.643) (-10878.463) * (-10874.067) (-10882.718) (-10877.764) [-10873.798] -- 0:11:13
768000 -- (-10899.125) (-10882.439) [-10885.343] (-10877.013) * (-10891.112) (-10883.016) [-10867.539] (-10880.478) -- 0:11:10
769000 -- (-10874.930) [-10869.315] (-10888.682) (-10889.821) * [-10881.215] (-10882.008) (-10884.997) (-10889.337) -- 0:11:07
770000 -- (-10884.626) [-10877.692] (-10879.351) (-10876.395) * (-10894.135) (-10895.525) (-10877.656) [-10871.989] -- 0:11:04
Average standard deviation of split frequencies: 0.005140
771000 -- (-10879.070) (-10882.874) (-10887.352) [-10867.870] * (-10878.412) (-10873.190) (-10881.503) [-10867.149] -- 0:11:01
772000 -- [-10886.979] (-10898.684) (-10893.824) (-10865.123) * (-10877.874) [-10863.725] (-10880.051) (-10881.639) -- 0:10:58
773000 -- (-10900.811) (-10881.563) (-10891.589) [-10870.527] * (-10869.387) (-10883.151) [-10867.190] (-10884.665) -- 0:10:55
774000 -- [-10881.809] (-10880.234) (-10878.148) (-10891.840) * (-10870.517) (-10881.742) [-10864.445] (-10877.873) -- 0:10:52
775000 -- (-10890.686) (-10890.339) [-10869.558] (-10881.865) * [-10871.847] (-10878.822) (-10875.168) (-10890.448) -- 0:10:49
Average standard deviation of split frequencies: 0.005245
776000 -- [-10878.691] (-10881.345) (-10899.496) (-10895.510) * (-10882.512) [-10873.979] (-10877.530) (-10886.762) -- 0:10:46
777000 -- [-10866.041] (-10869.777) (-10888.886) (-10904.011) * [-10876.782] (-10886.421) (-10885.452) (-10884.611) -- 0:10:44
778000 -- (-10885.739) (-10886.886) (-10869.345) [-10884.022] * [-10883.529] (-10873.641) (-10874.950) (-10873.306) -- 0:10:40
779000 -- (-10896.357) (-10884.446) [-10879.469] (-10880.262) * (-10895.049) [-10878.515] (-10883.469) (-10880.603) -- 0:10:38
780000 -- (-10880.921) (-10888.291) (-10884.541) [-10875.517] * (-10889.487) [-10871.094] (-10879.133) (-10885.132) -- 0:10:34
Average standard deviation of split frequencies: 0.005400
781000 -- (-10891.436) (-10878.438) (-10877.296) [-10871.176] * (-10905.043) [-10865.637] (-10878.761) (-10879.142) -- 0:10:32
782000 -- (-10870.992) (-10881.721) [-10875.854] (-10910.540) * (-10871.116) (-10864.020) [-10867.770] (-10878.057) -- 0:10:29
783000 -- (-10886.968) [-10874.918] (-10888.874) (-10901.437) * (-10882.347) (-10876.484) [-10872.132] (-10879.585) -- 0:10:26
784000 -- (-10893.802) (-10875.230) [-10871.894] (-10884.798) * (-10876.221) (-10880.831) (-10874.059) [-10869.156] -- 0:10:23
785000 -- (-10889.195) [-10875.493] (-10887.592) (-10881.775) * [-10867.016] (-10887.563) (-10871.514) (-10883.331) -- 0:10:20
Average standard deviation of split frequencies: 0.005294
786000 -- (-10890.355) [-10878.749] (-10887.890) (-10884.326) * (-10870.044) (-10890.233) [-10883.724] (-10876.140) -- 0:10:17
787000 -- (-10894.398) (-10876.851) [-10867.546] (-10883.163) * (-10871.738) [-10877.627] (-10871.585) (-10878.571) -- 0:10:14
788000 -- [-10866.934] (-10885.158) (-10873.209) (-10884.665) * [-10859.356] (-10881.058) (-10874.397) (-10896.552) -- 0:10:11
789000 -- [-10876.778] (-10898.035) (-10865.370) (-10887.625) * (-10867.914) [-10870.060] (-10890.872) (-10889.235) -- 0:10:08
790000 -- (-10861.388) [-10871.945] (-10878.096) (-10881.742) * (-10872.384) (-10884.581) (-10877.836) [-10871.209] -- 0:10:05
Average standard deviation of split frequencies: 0.005515
791000 -- (-10871.972) (-10883.997) [-10877.498] (-10887.220) * (-10875.200) [-10876.640] (-10878.466) (-10874.731) -- 0:10:02
792000 -- [-10868.388] (-10873.514) (-10877.601) (-10874.014) * (-10881.923) (-10891.808) (-10870.700) [-10876.228] -- 0:09:59
793000 -- [-10873.546] (-10883.018) (-10885.064) (-10869.321) * [-10865.115] (-10876.568) (-10882.451) (-10896.848) -- 0:09:56
794000 -- (-10883.771) [-10867.520] (-10906.257) (-10876.097) * (-10880.306) [-10875.374] (-10892.114) (-10873.277) -- 0:09:53
795000 -- (-10867.767) (-10885.312) [-10880.898] (-10876.262) * [-10881.235] (-10880.543) (-10880.939) (-10892.789) -- 0:09:50
Average standard deviation of split frequencies: 0.005763
796000 -- (-10881.818) (-10872.559) [-10876.966] (-10880.363) * (-10880.010) (-10900.465) [-10879.737] (-10883.765) -- 0:09:47
797000 -- (-10887.142) (-10867.922) (-10879.828) [-10865.182] * (-10867.831) [-10874.235] (-10894.526) (-10893.191) -- 0:09:44
798000 -- (-10876.641) (-10881.296) [-10880.967] (-10887.391) * (-10895.192) [-10877.770] (-10894.652) (-10884.986) -- 0:09:41
799000 -- (-10873.101) [-10868.444] (-10886.511) (-10868.600) * [-10876.737] (-10876.019) (-10888.327) (-10884.638) -- 0:09:38
800000 -- (-10877.901) (-10876.830) [-10881.337] (-10875.094) * (-10884.845) (-10874.026) (-10886.607) [-10867.879] -- 0:09:36
Average standard deviation of split frequencies: 0.005673
801000 -- (-10879.840) [-10873.946] (-10894.096) (-10870.928) * (-10871.617) [-10862.242] (-10895.035) (-10872.487) -- 0:09:33
802000 -- [-10872.885] (-10877.245) (-10869.630) (-10873.050) * (-10873.843) [-10870.292] (-10889.158) (-10879.337) -- 0:09:30
803000 -- (-10900.760) (-10883.916) [-10866.845] (-10877.581) * [-10874.852] (-10885.798) (-10880.925) (-10881.239) -- 0:09:27
804000 -- (-10872.877) (-10886.503) [-10873.459] (-10879.784) * [-10870.143] (-10899.945) (-10878.995) (-10878.203) -- 0:09:24
805000 -- (-10875.370) (-10885.449) [-10867.612] (-10879.321) * (-10864.424) (-10898.318) (-10892.420) [-10879.296] -- 0:09:21
Average standard deviation of split frequencies: 0.005579
806000 -- (-10884.316) (-10873.675) [-10875.399] (-10890.493) * (-10877.115) (-10884.985) (-10893.674) [-10867.102] -- 0:09:18
807000 -- (-10889.440) [-10865.884] (-10902.400) (-10889.870) * [-10874.889] (-10887.191) (-10877.162) (-10874.497) -- 0:09:15
808000 -- (-10879.678) (-10875.556) (-10889.986) [-10872.231] * [-10881.006] (-10880.162) (-10887.096) (-10888.410) -- 0:09:12
809000 -- (-10901.217) (-10871.576) (-10881.504) [-10868.831] * (-10889.777) [-10873.381] (-10884.152) (-10889.742) -- 0:09:09
810000 -- (-10893.854) (-10872.345) [-10878.857] (-10883.398) * [-10865.827] (-10889.233) (-10884.635) (-10898.622) -- 0:09:06
Average standard deviation of split frequencies: 0.005603
811000 -- [-10873.077] (-10877.893) (-10886.365) (-10875.385) * (-10869.694) (-10874.795) [-10870.738] (-10885.730) -- 0:09:03
812000 -- [-10871.397] (-10882.042) (-10885.789) (-10868.795) * (-10879.200) [-10875.614] (-10880.122) (-10892.701) -- 0:09:00
813000 -- (-10886.551) [-10857.768] (-10881.848) (-10892.084) * (-10871.559) (-10889.701) [-10873.257] (-10890.629) -- 0:08:57
814000 -- (-10893.515) [-10866.995] (-10887.635) (-10873.860) * (-10883.506) (-10884.776) (-10876.813) [-10877.219] -- 0:08:54
815000 -- (-10886.488) (-10887.188) (-10890.439) [-10873.602] * [-10866.448] (-10884.440) (-10882.927) (-10881.620) -- 0:08:51
Average standard deviation of split frequencies: 0.005555
816000 -- (-10898.577) [-10868.036] (-10890.396) (-10878.425) * [-10864.535] (-10872.863) (-10876.892) (-10871.040) -- 0:08:48
817000 -- (-10882.761) [-10863.731] (-10873.905) (-10893.010) * (-10876.925) (-10873.317) [-10866.606] (-10879.103) -- 0:08:45
818000 -- (-10873.050) [-10878.304] (-10879.216) (-10878.338) * (-10879.390) (-10864.796) [-10864.911] (-10875.462) -- 0:08:43
819000 -- [-10883.841] (-10884.569) (-10873.218) (-10885.538) * (-10887.649) [-10872.554] (-10880.502) (-10888.104) -- 0:08:40
820000 -- (-10906.492) [-10871.401] (-10881.244) (-10878.795) * (-10884.011) (-10865.114) [-10873.699] (-10887.272) -- 0:08:37
Average standard deviation of split frequencies: 0.005258
821000 -- (-10894.082) (-10882.860) [-10876.912] (-10884.454) * (-10889.633) [-10886.591] (-10894.877) (-10879.892) -- 0:08:34
822000 -- (-10895.185) [-10870.524] (-10885.849) (-10879.253) * (-10877.244) (-10887.390) (-10896.962) [-10868.168] -- 0:08:31
823000 -- (-10884.572) (-10880.497) [-10877.583] (-10888.492) * (-10886.046) [-10863.550] (-10889.327) (-10879.705) -- 0:08:28
824000 -- (-10893.766) (-10871.938) (-10884.388) [-10884.385] * (-10879.762) (-10901.734) (-10874.983) [-10878.189] -- 0:08:25
825000 -- (-10893.893) (-10879.620) (-10883.587) [-10885.189] * [-10883.661] (-10884.942) (-10885.580) (-10873.871) -- 0:08:22
Average standard deviation of split frequencies: 0.005586
826000 -- [-10871.183] (-10892.687) (-10865.722) (-10881.188) * (-10879.427) (-10892.489) [-10870.641] (-10868.109) -- 0:08:19
827000 -- [-10857.798] (-10885.008) (-10880.069) (-10873.981) * (-10883.182) (-10895.774) [-10879.886] (-10868.634) -- 0:08:16
828000 -- (-10881.546) (-10880.239) (-10878.905) [-10858.843] * (-10885.748) (-10883.040) (-10887.569) [-10874.959] -- 0:08:13
829000 -- (-10878.355) (-10892.534) (-10865.807) [-10869.300] * (-10880.648) (-10889.215) [-10873.258] (-10891.323) -- 0:08:10
830000 -- (-10877.716) (-10877.009) [-10867.786] (-10904.145) * (-10891.830) (-10880.632) [-10873.805] (-10879.101) -- 0:08:07
Average standard deviation of split frequencies: 0.005664
831000 -- [-10873.684] (-10902.322) (-10866.761) (-10882.493) * (-10867.336) (-10875.364) [-10869.011] (-10898.514) -- 0:08:05
832000 -- [-10875.477] (-10887.389) (-10879.274) (-10892.412) * (-10874.451) (-10878.013) [-10876.933] (-10883.086) -- 0:08:01
833000 -- (-10882.011) (-10895.199) (-10867.428) [-10874.358] * [-10872.105] (-10878.997) (-10873.237) (-10878.725) -- 0:07:59
834000 -- (-10882.098) (-10884.541) (-10883.479) [-10876.025] * (-10877.086) [-10887.201] (-10884.032) (-10884.684) -- 0:07:56
835000 -- (-10887.298) (-10878.144) (-10888.724) [-10873.451] * (-10872.841) [-10874.253] (-10876.821) (-10886.444) -- 0:07:53
Average standard deviation of split frequencies: 0.005736
836000 -- (-10878.216) (-10885.364) [-10871.328] (-10882.869) * [-10869.334] (-10873.057) (-10881.103) (-10881.559) -- 0:07:50
837000 -- (-10871.094) (-10887.953) [-10867.693] (-10883.029) * [-10869.294] (-10881.648) (-10884.501) (-10888.644) -- 0:07:47
838000 -- [-10880.193] (-10886.756) (-10876.158) (-10884.631) * [-10882.118] (-10879.031) (-10883.671) (-10887.497) -- 0:07:44
839000 -- (-10883.804) (-10877.446) (-10878.929) [-10875.987] * (-10892.881) [-10872.916] (-10892.358) (-10873.737) -- 0:07:41
840000 -- (-10877.391) (-10893.295) [-10879.800] (-10881.391) * [-10873.458] (-10881.818) (-10879.117) (-10884.934) -- 0:07:38
Average standard deviation of split frequencies: 0.005856
841000 -- [-10882.759] (-10883.893) (-10906.952) (-10870.974) * (-10869.714) (-10887.598) (-10880.614) [-10881.850] -- 0:07:35
842000 -- [-10871.656] (-10867.774) (-10879.968) (-10889.047) * [-10871.415] (-10888.680) (-10883.635) (-10886.060) -- 0:07:32
843000 -- [-10869.146] (-10878.807) (-10899.355) (-10878.736) * (-10886.195) (-10888.634) (-10872.505) [-10879.651] -- 0:07:29
844000 -- [-10875.761] (-10873.654) (-10886.444) (-10873.963) * [-10870.001] (-10901.138) (-10879.598) (-10880.726) -- 0:07:26
845000 -- (-10879.572) (-10884.887) (-10888.211) [-10871.367] * (-10885.366) [-10866.493] (-10875.956) (-10886.349) -- 0:07:24
Average standard deviation of split frequencies: 0.005690
846000 -- (-10867.361) (-10885.673) (-10886.727) [-10873.186] * (-10894.268) (-10875.954) (-10884.511) [-10880.091] -- 0:07:21
847000 -- (-10892.608) (-10886.236) [-10870.571] (-10878.395) * (-10878.614) (-10890.369) (-10874.787) [-10873.014] -- 0:07:18
848000 -- [-10873.449] (-10880.486) (-10880.515) (-10892.029) * (-10866.658) [-10874.046] (-10871.750) (-10871.262) -- 0:07:15
849000 -- (-10870.544) (-10886.968) [-10866.209] (-10889.272) * [-10872.681] (-10892.761) (-10894.433) (-10872.671) -- 0:07:12
850000 -- (-10885.678) (-10885.813) [-10875.410] (-10899.010) * [-10867.724] (-10904.253) (-10886.990) (-10868.880) -- 0:07:09
Average standard deviation of split frequencies: 0.005669
851000 -- (-10887.475) (-10883.774) [-10867.165] (-10878.528) * (-10874.387) [-10862.508] (-10892.641) (-10872.428) -- 0:07:06
852000 -- [-10879.545] (-10876.925) (-10870.083) (-10886.628) * (-10872.985) (-10875.165) (-10895.595) [-10873.570] -- 0:07:03
853000 -- [-10873.386] (-10883.406) (-10873.038) (-10913.645) * [-10868.618] (-10890.205) (-10875.455) (-10876.046) -- 0:07:00
854000 -- (-10877.028) (-10877.346) [-10866.324] (-10903.090) * (-10894.247) (-10878.419) [-10860.657] (-10863.442) -- 0:06:57
855000 -- [-10867.877] (-10879.512) (-10883.546) (-10888.708) * (-10874.716) (-10881.320) [-10859.444] (-10881.811) -- 0:06:54
Average standard deviation of split frequencies: 0.005645
856000 -- [-10873.024] (-10890.486) (-10877.792) (-10890.190) * (-10872.066) (-10871.364) [-10866.377] (-10873.376) -- 0:06:52
857000 -- (-10885.879) [-10882.706] (-10889.449) (-10879.949) * (-10883.981) [-10862.538] (-10881.142) (-10877.823) -- 0:06:49
858000 -- (-10889.319) (-10866.841) [-10878.685] (-10877.710) * [-10863.710] (-10881.610) (-10884.147) (-10886.507) -- 0:06:46
859000 -- (-10892.713) [-10877.012] (-10875.820) (-10889.585) * (-10873.117) [-10874.097] (-10889.354) (-10877.919) -- 0:06:43
860000 -- [-10874.073] (-10879.512) (-10878.745) (-10885.064) * [-10871.941] (-10889.765) (-10889.477) (-10865.232) -- 0:06:40
Average standard deviation of split frequencies: 0.005561
861000 -- (-10875.664) [-10869.474] (-10889.523) (-10876.262) * [-10878.557] (-10882.299) (-10882.248) (-10897.663) -- 0:06:38
862000 -- [-10863.121] (-10872.009) (-10884.988) (-10872.400) * (-10890.883) [-10874.479] (-10889.653) (-10875.331) -- 0:06:35
863000 -- (-10884.045) [-10877.619] (-10878.830) (-10879.555) * [-10862.951] (-10879.435) (-10870.229) (-10884.633) -- 0:06:33
864000 -- (-10889.828) (-10885.788) [-10877.553] (-10874.860) * [-10869.142] (-10896.381) (-10873.967) (-10894.360) -- 0:06:30
865000 -- [-10873.526] (-10880.329) (-10891.595) (-10875.386) * (-10891.930) (-10897.571) [-10867.687] (-10877.863) -- 0:06:27
Average standard deviation of split frequencies: 0.005464
866000 -- (-10870.960) (-10894.856) [-10874.704] (-10882.556) * (-10894.127) (-10886.121) [-10865.288] (-10896.948) -- 0:06:24
867000 -- (-10881.094) (-10883.545) [-10871.646] (-10873.879) * (-10877.038) [-10863.251] (-10879.334) (-10873.737) -- 0:06:21
868000 -- (-10873.680) [-10878.089] (-10890.594) (-10887.357) * (-10881.433) [-10867.923] (-10872.760) (-10880.849) -- 0:06:19
869000 -- [-10872.254] (-10878.767) (-10881.328) (-10885.775) * (-10871.731) (-10885.753) [-10873.374] (-10890.345) -- 0:06:16
870000 -- [-10871.493] (-10882.449) (-10885.246) (-10889.398) * (-10869.617) (-10889.147) (-10899.487) [-10873.035] -- 0:06:13
Average standard deviation of split frequencies: 0.005383
871000 -- (-10873.753) (-10883.961) (-10882.345) [-10873.132] * (-10876.684) (-10894.377) (-10876.072) [-10866.654] -- 0:06:11
872000 -- [-10878.153] (-10877.763) (-10892.761) (-10880.600) * (-10883.986) (-10875.057) (-10875.592) [-10870.283] -- 0:06:08
873000 -- (-10876.080) (-10873.288) [-10869.975] (-10893.191) * (-10887.427) (-10875.213) (-10864.952) [-10867.087] -- 0:06:05
874000 -- (-10878.918) [-10864.469] (-10872.816) (-10899.310) * [-10876.149] (-10878.259) (-10877.100) (-10875.050) -- 0:06:03
875000 -- (-10873.950) (-10877.292) [-10871.733] (-10884.013) * (-10890.580) [-10869.917] (-10887.879) (-10867.521) -- 0:06:00
Average standard deviation of split frequencies: 0.005278
876000 -- (-10881.504) (-10876.644) [-10870.589] (-10888.068) * (-10882.110) (-10880.192) (-10863.943) [-10864.664] -- 0:05:57
877000 -- (-10882.449) (-10893.817) (-10880.355) [-10870.056] * (-10878.713) (-10886.563) (-10884.174) [-10873.460] -- 0:05:54
878000 -- (-10875.973) [-10869.928] (-10893.753) (-10868.730) * (-10879.937) (-10883.699) (-10876.649) [-10868.831] -- 0:05:52
879000 -- (-10878.026) (-10885.784) (-10887.561) [-10870.477] * (-10887.573) (-10895.337) [-10870.437] (-10868.424) -- 0:05:49
880000 -- (-10870.881) [-10871.603] (-10886.128) (-10882.329) * (-10888.058) (-10902.307) [-10864.763] (-10867.267) -- 0:05:46
Average standard deviation of split frequencies: 0.005250
881000 -- [-10870.033] (-10877.466) (-10881.976) (-10867.896) * [-10876.746] (-10884.120) (-10891.233) (-10872.095) -- 0:05:44
882000 -- (-10876.608) (-10875.678) (-10884.798) [-10876.159] * (-10886.401) [-10872.788] (-10883.329) (-10894.380) -- 0:05:41
883000 -- [-10884.812] (-10878.273) (-10888.098) (-10866.500) * (-10891.899) (-10865.549) (-10875.296) [-10874.584] -- 0:05:38
884000 -- (-10878.422) [-10868.244] (-10877.273) (-10865.700) * (-10879.614) (-10873.457) [-10872.800] (-10871.459) -- 0:05:35
885000 -- (-10880.397) (-10890.304) [-10878.808] (-10877.672) * [-10879.092] (-10888.529) (-10869.640) (-10878.784) -- 0:05:33
Average standard deviation of split frequencies: 0.005044
886000 -- (-10891.517) (-10882.439) (-10882.930) [-10866.036] * (-10888.034) [-10874.910] (-10881.378) (-10877.981) -- 0:05:30
887000 -- (-10877.861) (-10883.679) [-10883.087] (-10877.886) * [-10872.810] (-10882.686) (-10883.987) (-10892.841) -- 0:05:27
888000 -- (-10876.503) (-10884.949) (-10877.540) [-10874.648] * [-10872.671] (-10883.033) (-10912.289) (-10872.697) -- 0:05:25
889000 -- (-10878.086) (-10890.653) [-10879.676] (-10892.607) * (-10861.184) [-10884.845] (-10884.270) (-10900.816) -- 0:05:22
890000 -- (-10893.220) (-10881.535) (-10881.805) [-10872.901] * (-10879.898) [-10880.169] (-10882.187) (-10886.389) -- 0:05:19
Average standard deviation of split frequencies: 0.004906
891000 -- (-10879.595) [-10879.204] (-10898.740) (-10878.017) * [-10880.390] (-10879.851) (-10899.182) (-10880.978) -- 0:05:16
892000 -- (-10873.830) (-10886.092) (-10874.009) [-10875.259] * (-10913.622) (-10891.852) (-10876.546) [-10869.228] -- 0:05:13
893000 -- [-10871.739] (-10879.860) (-10883.767) (-10874.424) * (-10870.656) (-10877.664) [-10877.035] (-10880.022) -- 0:05:11
894000 -- (-10875.331) [-10878.539] (-10875.674) (-10894.037) * [-10878.416] (-10888.715) (-10884.645) (-10877.158) -- 0:05:08
895000 -- (-10874.362) [-10878.739] (-10889.399) (-10881.840) * [-10876.942] (-10883.720) (-10872.240) (-10877.930) -- 0:05:05
Average standard deviation of split frequencies: 0.005018
896000 -- (-10863.016) [-10871.970] (-10872.155) (-10892.218) * (-10870.819) (-10879.691) [-10872.677] (-10881.513) -- 0:05:02
897000 -- [-10874.377] (-10873.322) (-10877.718) (-10896.673) * (-10873.418) (-10892.416) (-10887.343) [-10885.860] -- 0:05:00
898000 -- (-10886.709) (-10883.230) (-10877.131) [-10878.010] * (-10881.778) (-10874.828) (-10892.635) [-10881.054] -- 0:04:57
899000 -- (-10871.012) (-10889.977) [-10872.122] (-10873.723) * (-10891.155) (-10890.974) [-10868.627] (-10882.525) -- 0:04:54
900000 -- (-10882.286) (-10896.334) [-10883.177] (-10877.805) * (-10908.094) (-10891.552) (-10891.825) [-10872.610] -- 0:04:51
Average standard deviation of split frequencies: 0.004771
901000 -- [-10872.825] (-10877.331) (-10890.310) (-10878.788) * [-10882.675] (-10885.573) (-10889.552) (-10883.015) -- 0:04:48
902000 -- (-10891.042) (-10880.108) (-10876.471) [-10867.153] * (-10888.658) [-10878.098] (-10889.183) (-10876.919) -- 0:04:45
903000 -- (-10885.110) (-10891.909) [-10874.555] (-10867.453) * (-10892.364) (-10882.108) (-10884.674) [-10868.219] -- 0:04:42
904000 -- (-10878.479) (-10876.818) (-10897.132) [-10864.136] * (-10874.310) [-10878.271] (-10879.187) (-10884.393) -- 0:04:39
905000 -- [-10873.408] (-10889.690) (-10864.076) (-10881.274) * [-10877.024] (-10880.895) (-10884.048) (-10882.117) -- 0:04:36
Average standard deviation of split frequencies: 0.005013
906000 -- (-10881.384) (-10907.050) [-10875.715] (-10868.159) * (-10874.856) [-10867.932] (-10882.094) (-10883.055) -- 0:04:33
907000 -- (-10889.138) (-10900.810) (-10889.990) [-10872.263] * [-10875.338] (-10882.967) (-10881.591) (-10877.498) -- 0:04:31
908000 -- [-10872.585] (-10872.508) (-10901.522) (-10876.893) * (-10899.297) (-10877.945) (-10880.766) [-10873.810] -- 0:04:27
909000 -- (-10886.903) (-10871.854) [-10871.820] (-10890.625) * (-10891.693) [-10874.909] (-10889.632) (-10878.332) -- 0:04:25
910000 -- [-10880.594] (-10884.595) (-10876.162) (-10878.766) * (-10875.686) [-10873.739] (-10880.068) (-10890.066) -- 0:04:22
Average standard deviation of split frequencies: 0.005067
911000 -- (-10886.579) [-10877.228] (-10888.587) (-10893.394) * (-10897.703) (-10888.953) [-10869.129] (-10874.121) -- 0:04:19
912000 -- [-10869.795] (-10877.661) (-10887.715) (-10882.030) * (-10885.922) (-10891.818) (-10887.048) [-10864.982] -- 0:04:16
913000 -- (-10868.898) [-10875.630] (-10900.453) (-10875.825) * (-10877.710) (-10869.937) [-10873.882] (-10886.837) -- 0:04:13
914000 -- (-10867.703) [-10869.306] (-10865.297) (-10890.254) * (-10882.584) (-10866.290) [-10871.263] (-10875.921) -- 0:04:10
915000 -- [-10880.189] (-10895.869) (-10878.796) (-10885.137) * [-10880.898] (-10875.492) (-10890.737) (-10874.572) -- 0:04:07
Average standard deviation of split frequencies: 0.005344
916000 -- [-10873.559] (-10881.289) (-10880.849) (-10882.583) * (-10886.417) [-10877.030] (-10900.622) (-10872.559) -- 0:04:04
917000 -- [-10869.687] (-10870.798) (-10870.963) (-10881.191) * (-10885.261) [-10875.292] (-10886.897) (-10877.590) -- 0:04:01
918000 -- (-10876.967) [-10865.716] (-10871.337) (-10904.704) * (-10887.239) (-10886.123) (-10888.655) [-10866.020] -- 0:03:58
919000 -- (-10885.458) (-10871.332) [-10870.506] (-10896.807) * [-10871.046] (-10882.812) (-10885.276) (-10871.556) -- 0:03:55
920000 -- (-10891.591) [-10877.413] (-10874.603) (-10898.862) * (-10879.249) (-10884.807) [-10869.555] (-10882.746) -- 0:03:52
Average standard deviation of split frequencies: 0.005563
921000 -- (-10885.552) [-10883.337] (-10884.100) (-10905.964) * (-10878.091) [-10883.805] (-10869.364) (-10889.795) -- 0:03:49
922000 -- [-10882.105] (-10885.480) (-10893.373) (-10890.993) * (-10887.588) (-10880.905) (-10885.332) [-10872.761] -- 0:03:46
923000 -- (-10886.372) [-10874.454] (-10875.228) (-10896.364) * (-10876.294) [-10877.860] (-10876.601) (-10883.683) -- 0:03:43
924000 -- (-10882.863) [-10867.102] (-10869.777) (-10878.521) * (-10890.390) (-10875.753) (-10875.950) [-10878.198] -- 0:03:41
925000 -- (-10870.677) (-10883.011) [-10872.650] (-10876.072) * (-10883.453) (-10886.365) [-10879.892] (-10884.127) -- 0:03:38
Average standard deviation of split frequencies: 0.005414
926000 -- (-10878.341) (-10894.478) [-10888.447] (-10884.712) * (-10892.314) [-10870.764] (-10890.255) (-10875.727) -- 0:03:35
927000 -- (-10874.728) (-10879.966) [-10879.995] (-10889.364) * [-10873.121] (-10888.723) (-10877.391) (-10883.757) -- 0:03:32
928000 -- (-10877.340) (-10870.006) [-10877.493] (-10892.822) * [-10861.121] (-10892.613) (-10878.761) (-10885.082) -- 0:03:29
929000 -- (-10897.490) (-10875.367) [-10878.009] (-10881.570) * (-10876.218) (-10890.285) [-10871.979] (-10878.928) -- 0:03:26
930000 -- [-10870.490] (-10876.346) (-10882.823) (-10876.308) * (-10883.226) (-10890.493) [-10876.683] (-10896.952) -- 0:03:23
Average standard deviation of split frequencies: 0.005396
931000 -- (-10879.935) (-10879.283) [-10870.558] (-10888.617) * (-10871.774) (-10882.842) (-10880.051) [-10871.827] -- 0:03:20
932000 -- (-10880.103) (-10878.313) (-10880.918) [-10875.068] * (-10881.311) (-10882.715) [-10876.849] (-10875.609) -- 0:03:17
933000 -- [-10877.228] (-10874.140) (-10885.320) (-10875.999) * (-10898.885) (-10881.526) (-10880.677) [-10878.644] -- 0:03:14
934000 -- (-10898.285) (-10898.242) (-10888.489) [-10880.379] * [-10871.037] (-10884.741) (-10870.144) (-10880.288) -- 0:03:11
935000 -- [-10881.087] (-10884.665) (-10877.674) (-10898.251) * [-10872.537] (-10887.626) (-10881.263) (-10869.915) -- 0:03:08
Average standard deviation of split frequencies: 0.005424
936000 -- [-10883.518] (-10873.525) (-10876.470) (-10896.344) * (-10871.861) (-10876.768) (-10877.847) [-10875.509] -- 0:03:05
937000 -- (-10881.940) (-10895.125) [-10864.054] (-10892.128) * [-10873.114] (-10890.661) (-10895.246) (-10888.323) -- 0:03:02
938000 -- (-10899.388) (-10881.445) [-10866.927] (-10892.454) * (-10886.366) [-10878.675] (-10874.483) (-10883.521) -- 0:03:00
939000 -- (-10871.880) [-10869.934] (-10891.118) (-10890.914) * (-10881.110) (-10872.626) (-10879.146) [-10862.537] -- 0:02:57
940000 -- (-10878.662) [-10871.420] (-10874.908) (-10890.182) * (-10877.012) [-10872.040] (-10873.121) (-10867.987) -- 0:02:54
Average standard deviation of split frequencies: 0.005233
941000 -- (-10871.433) (-10886.864) (-10886.129) [-10869.952] * (-10890.153) (-10883.278) (-10908.430) [-10869.279] -- 0:02:51
942000 -- (-10879.200) (-10874.787) (-10881.620) [-10867.465] * (-10872.270) (-10896.702) (-10886.982) [-10868.360] -- 0:02:48
943000 -- (-10869.511) (-10877.067) [-10873.084] (-10886.959) * (-10869.786) [-10881.328] (-10889.885) (-10885.956) -- 0:02:45
944000 -- (-10870.712) (-10877.885) [-10865.998] (-10902.499) * [-10862.787] (-10877.987) (-10905.307) (-10875.993) -- 0:02:42
945000 -- (-10863.568) (-10888.433) [-10879.953] (-10876.637) * (-10879.095) (-10893.861) (-10871.448) [-10880.453] -- 0:02:39
Average standard deviation of split frequencies: 0.005117
946000 -- [-10866.488] (-10887.429) (-10881.327) (-10880.620) * (-10884.222) (-10881.880) [-10876.755] (-10880.087) -- 0:02:36
947000 -- (-10865.791) (-10883.572) (-10880.217) [-10873.992] * (-10877.660) [-10875.017] (-10890.992) (-10870.815) -- 0:02:33
948000 -- (-10884.295) [-10876.029] (-10862.547) (-10884.688) * [-10886.995] (-10874.530) (-10885.304) (-10904.007) -- 0:02:30
949000 -- (-10880.963) (-10887.289) [-10862.357] (-10865.695) * [-10876.571] (-10889.514) (-10870.717) (-10874.480) -- 0:02:27
950000 -- [-10876.986] (-10886.095) (-10871.942) (-10867.427) * (-10900.663) (-10894.997) [-10877.127] (-10878.025) -- 0:02:25
Average standard deviation of split frequencies: 0.005235
951000 -- (-10884.069) [-10882.191] (-10873.809) (-10889.797) * [-10880.237] (-10891.430) (-10874.625) (-10884.813) -- 0:02:22
952000 -- (-10895.289) (-10897.572) [-10866.193] (-10886.390) * (-10892.359) (-10883.842) [-10867.569] (-10880.571) -- 0:02:19
953000 -- (-10879.225) (-10890.444) [-10875.509] (-10882.638) * (-10891.401) (-10897.397) (-10873.285) [-10870.807] -- 0:02:16
954000 -- [-10874.658] (-10881.641) (-10877.832) (-10886.160) * [-10874.567] (-10873.641) (-10889.462) (-10876.346) -- 0:02:13
955000 -- [-10879.401] (-10880.512) (-10884.447) (-10894.253) * (-10878.591) (-10873.556) (-10885.233) [-10873.872] -- 0:02:10
Average standard deviation of split frequencies: 0.005149
956000 -- (-10874.971) (-10885.325) (-10883.712) [-10873.241] * (-10884.353) (-10876.559) [-10877.690] (-10877.226) -- 0:02:07
957000 -- [-10870.629] (-10877.456) (-10881.981) (-10880.683) * (-10889.918) [-10875.228] (-10897.555) (-10885.857) -- 0:02:04
958000 -- (-10872.825) [-10874.394] (-10882.524) (-10884.895) * (-10876.853) (-10879.337) [-10875.625] (-10886.718) -- 0:02:01
959000 -- (-10880.806) (-10881.033) (-10880.622) [-10879.127] * (-10878.561) [-10876.948] (-10890.464) (-10879.853) -- 0:01:58
960000 -- [-10879.676] (-10909.821) (-10876.430) (-10876.801) * [-10874.398] (-10875.236) (-10893.972) (-10882.410) -- 0:01:55
Average standard deviation of split frequencies: 0.005237
961000 -- (-10880.378) (-10892.097) (-10880.229) [-10864.254] * (-10886.252) [-10879.109] (-10880.252) (-10880.101) -- 0:01:52
962000 -- (-10883.180) [-10874.499] (-10882.720) (-10882.079) * (-10886.772) (-10875.975) [-10871.273] (-10871.473) -- 0:01:50
963000 -- (-10882.303) (-10876.065) [-10872.410] (-10897.209) * (-10884.748) (-10878.063) [-10858.510] (-10879.140) -- 0:01:47
964000 -- (-10876.553) [-10881.744] (-10877.584) (-10894.247) * (-10901.180) [-10874.224] (-10863.221) (-10882.815) -- 0:01:44
965000 -- (-10885.051) (-10896.319) [-10866.620] (-10897.788) * (-10877.489) (-10868.756) [-10880.540] (-10873.711) -- 0:01:41
Average standard deviation of split frequencies: 0.005396
966000 -- (-10897.462) (-10876.107) [-10874.903] (-10888.002) * (-10893.471) (-10883.486) [-10870.319] (-10871.460) -- 0:01:38
967000 -- (-10886.140) (-10876.711) (-10883.582) [-10874.457] * (-10886.476) (-10888.471) [-10875.872] (-10869.829) -- 0:01:35
968000 -- [-10878.249] (-10876.729) (-10909.257) (-10872.004) * [-10883.496] (-10895.425) (-10888.773) (-10879.450) -- 0:01:32
969000 -- (-10875.299) (-10900.379) (-10890.112) [-10859.863] * (-10880.910) [-10867.710] (-10879.080) (-10875.085) -- 0:01:29
970000 -- (-10882.677) (-10885.150) (-10887.051) [-10880.855] * [-10886.454] (-10871.245) (-10891.243) (-10883.093) -- 0:01:26
Average standard deviation of split frequencies: 0.005370
971000 -- (-10888.859) (-10892.030) (-10900.392) [-10870.524] * (-10881.943) [-10869.384] (-10885.117) (-10882.460) -- 0:01:23
972000 -- [-10886.283] (-10885.388) (-10889.390) (-10880.677) * [-10870.979] (-10873.283) (-10878.965) (-10889.845) -- 0:01:21
973000 -- (-10876.710) [-10880.011] (-10884.152) (-10872.477) * [-10874.498] (-10900.062) (-10875.298) (-10905.829) -- 0:01:18
974000 -- [-10874.344] (-10889.068) (-10882.117) (-10888.704) * (-10869.063) (-10895.834) [-10870.175] (-10877.975) -- 0:01:15
975000 -- (-10875.575) [-10874.494] (-10886.784) (-10882.738) * (-10877.534) [-10868.507] (-10874.044) (-10875.511) -- 0:01:12
Average standard deviation of split frequencies: 0.005229
976000 -- [-10882.597] (-10876.995) (-10879.374) (-10896.340) * [-10877.683] (-10871.944) (-10884.958) (-10872.548) -- 0:01:09
977000 -- [-10870.223] (-10880.052) (-10884.472) (-10912.723) * [-10876.315] (-10884.120) (-10878.975) (-10879.702) -- 0:01:06
978000 -- [-10873.531] (-10879.382) (-10886.059) (-10876.631) * (-10873.546) (-10876.023) (-10882.547) [-10866.708] -- 0:01:03
979000 -- (-10887.946) (-10884.518) (-10887.879) [-10871.075] * (-10860.905) (-10873.591) [-10890.947] (-10883.899) -- 0:01:00
980000 -- (-10877.059) (-10883.346) (-10887.900) [-10877.902] * (-10870.735) [-10865.255] (-10889.516) (-10887.922) -- 0:00:57
Average standard deviation of split frequencies: 0.005583
981000 -- (-10876.485) (-10892.948) (-10887.132) [-10865.581] * [-10867.662] (-10889.689) (-10883.555) (-10881.318) -- 0:00:54
982000 -- (-10881.596) (-10894.068) (-10889.366) [-10876.729] * (-10877.705) [-10864.450] (-10880.189) (-10885.652) -- 0:00:52
983000 -- [-10877.862] (-10873.752) (-10881.333) (-10889.797) * [-10864.000] (-10878.387) (-10880.485) (-10877.069) -- 0:00:49
984000 -- (-10904.469) [-10866.962] (-10874.905) (-10873.027) * (-10887.319) [-10874.703] (-10881.654) (-10865.270) -- 0:00:46
985000 -- [-10873.029] (-10880.328) (-10880.867) (-10885.029) * (-10876.159) (-10879.435) [-10874.619] (-10878.218) -- 0:00:43
Average standard deviation of split frequencies: 0.005645
986000 -- (-10872.726) [-10871.586] (-10871.695) (-10876.207) * (-10890.934) (-10873.885) [-10876.757] (-10864.897) -- 0:00:40
987000 -- [-10884.881] (-10885.595) (-10871.643) (-10888.586) * (-10875.279) [-10867.492] (-10878.638) (-10876.042) -- 0:00:37
988000 -- [-10874.312] (-10878.810) (-10885.839) (-10892.631) * (-10877.209) (-10877.823) [-10872.299] (-10874.691) -- 0:00:34
989000 -- (-10893.425) (-10874.282) [-10889.678] (-10888.939) * (-10876.081) [-10868.388] (-10888.994) (-10882.227) -- 0:00:31
990000 -- (-10882.650) [-10870.204] (-10890.838) (-10866.592) * (-10864.404) (-10888.373) (-10881.986) [-10872.228] -- 0:00:28
Average standard deviation of split frequencies: 0.005674
991000 -- [-10874.568] (-10883.536) (-10882.626) (-10889.576) * [-10873.702] (-10886.028) (-10882.039) (-10888.817) -- 0:00:26
992000 -- (-10894.234) (-10873.409) [-10874.373] (-10878.513) * [-10863.408] (-10899.272) (-10884.257) (-10872.344) -- 0:00:23
993000 -- (-10895.064) (-10893.177) [-10869.611] (-10879.680) * (-10887.737) (-10906.387) [-10872.642] (-10880.430) -- 0:00:20
994000 -- (-10881.055) (-10876.963) (-10885.095) [-10878.828] * (-10886.868) [-10879.632] (-10878.122) (-10877.801) -- 0:00:17
995000 -- (-10895.775) (-10876.153) (-10890.709) [-10876.544] * (-10898.526) [-10865.618] (-10880.947) (-10871.552) -- 0:00:14
Average standard deviation of split frequencies: 0.005680
996000 -- (-10897.963) [-10873.268] (-10880.598) (-10876.713) * [-10870.934] (-10888.669) (-10878.660) (-10868.824) -- 0:00:11
997000 -- (-10889.270) [-10867.392] (-10869.332) (-10888.943) * [-10870.999] (-10881.607) (-10892.022) (-10868.354) -- 0:00:08
998000 -- (-10889.815) [-10869.857] (-10883.109) (-10881.276) * (-10883.728) [-10866.354] (-10902.711) (-10871.503) -- 0:00:05
999000 -- (-10884.576) [-10874.716] (-10876.094) (-10882.302) * [-10878.123] (-10872.248) (-10889.851) (-10862.724) -- 0:00:02
1000000 -- (-10875.293) (-10882.513) (-10876.510) [-10879.140] * (-10868.309) (-10878.104) (-10896.967) [-10878.547] -- 0:00:00
Average standard deviation of split frequencies: 0.005544
Analysis completed in 48 mins 7 seconds
Analysis used 2883.34 seconds of CPU time
Likelihood of best state for "cold" chain of run 1 was -10851.42
Likelihood of best state for "cold" chain of run 2 was -10852.08
Acceptance rates for the moves in the "cold" chain of run 1:
With prob. (last 100) chain accepted proposals by move
27.1 % ( 32 %) Dirichlet(Revmat{all})
42.1 % ( 34 %) Slider(Revmat{all})
9.0 % ( 16 %) Dirichlet(Pi{all})
22.4 % ( 24 %) Slider(Pi{all})
34.3 % ( 26 %) Multiplier(Alpha{1,2})
40.2 % ( 26 %) Multiplier(Alpha{3})
35.2 % ( 30 %) Slider(Pinvar{all})
21.6 % ( 14 %) ExtSPR(Tau{all},V{all})
14.5 % ( 13 %) ExtTBR(Tau{all},V{all})
24.9 % ( 29 %) NNI(Tau{all},V{all})
17.7 % ( 22 %) ParsSPR(Tau{all},V{all})
26.3 % ( 22 %) Multiplier(V{all})
37.3 % ( 34 %) Nodeslider(V{all})
24.0 % ( 33 %) TLMultiplier(V{all})
Acceptance rates for the moves in the "cold" chain of run 2:
With prob. (last 100) chain accepted proposals by move
26.9 % ( 21 %) Dirichlet(Revmat{all})
42.5 % ( 22 %) Slider(Revmat{all})
9.5 % ( 23 %) Dirichlet(Pi{all})
21.8 % ( 33 %) Slider(Pi{all})
34.4 % ( 30 %) Multiplier(Alpha{1,2})
39.9 % ( 17 %) Multiplier(Alpha{3})
35.5 % ( 27 %) Slider(Pinvar{all})
21.9 % ( 22 %) ExtSPR(Tau{all},V{all})
14.8 % ( 9 %) ExtTBR(Tau{all},V{all})
25.2 % ( 26 %) NNI(Tau{all},V{all})
17.6 % ( 18 %) ParsSPR(Tau{all},V{all})
26.3 % ( 19 %) Multiplier(V{all})
37.2 % ( 37 %) Nodeslider(V{all})
24.3 % ( 30 %) TLMultiplier(V{all})
Chain swap information for run 1:
1 2 3 4
----------------------------------
1 | 0.63 0.36 0.19
2 | 166755 0.66 0.40
3 | 166169 166415 0.68
4 | 166901 166647 167113
Chain swap information for run 2:
1 2 3 4
----------------------------------
1 | 0.63 0.36 0.18
2 | 166567 0.65 0.39
3 | 166870 166657 0.68
4 | 166712 166256 166938
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)
+------------------------------------------------------------+ -10867.72
| 2 |
| 2 |
| 1 |
| 2 |
| 2 |
|1 1 1 2 11 2 1 2 1 2|
|22 2* 2 1 2 1 1 2 2 221 121 1 2 2 |
| 1 1 1 2* 1 1 1 212 2 * 1 21 2 |
| 2 * 2 2 1 1 2 1211 12 11 2 1 2 |
| 2 11 2 21 222 12 21 1 2 12 2 2 1 21 11|
| 11 2 2 1 1 12 1 2 21 |
| 1 2 1 *1 |
| |
| 1 2 |
| 2 |
+------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -10878.92
^ ^
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 -10863.39 -10892.20
2 -10861.38 -10892.46
--------------------------------------
TOTAL -10861.95 -10892.34
--------------------------------------
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} 0.221631 0.000124 0.200833 0.243802 0.221514 1472.06 1486.53 1.000
r(A<->C){all} 0.105812 0.000166 0.081765 0.130940 0.105430 841.12 908.28 1.000
r(A<->G){all} 0.191472 0.000311 0.159233 0.227779 0.190914 693.45 805.28 1.000
r(A<->T){all} 0.064463 0.000071 0.048787 0.081535 0.064345 1022.18 1062.67 1.000
r(C<->G){all} 0.055158 0.000110 0.036230 0.076152 0.054548 877.17 1011.85 1.000
r(C<->T){all} 0.478488 0.000469 0.435654 0.520865 0.478772 643.44 701.03 1.000
r(G<->T){all} 0.104607 0.000121 0.082553 0.125228 0.104067 977.17 1066.92 1.000
pi(A){all} 0.243118 0.000041 0.230395 0.255933 0.242907 912.39 933.04 1.000
pi(C){all} 0.200908 0.000034 0.189587 0.212207 0.200790 710.94 858.44 1.002
pi(G){all} 0.209141 0.000036 0.197535 0.220944 0.209117 945.27 1110.62 1.000
pi(T){all} 0.346832 0.000049 0.333281 0.360648 0.346916 1059.05 1076.17 1.000
alpha{1,2} 0.513821 0.025468 0.271067 0.856914 0.490031 850.55 885.88 1.000
alpha{3} 1.511286 0.432833 0.493280 2.825928 1.375057 690.31 692.88 1.000
pinvar{all} 0.594763 0.002806 0.491365 0.692067 0.600224 507.83 572.21 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
Setting urn-in to 2500
Summarizing trees in files "/data/mrbayes_input.nex.run1.t" and "/data/mrbayes_input.nex.run2.t"
Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees
Writing statistics to files /data/mrbayes_input.nex.<parts|tstat|vstat|trprobs|con>
Examining first file ...
Found one tree block in file "/data/mrbayes_input.nex.run1.t" with 2001 trees in last block
Expecting the same number of trees in the last tree block of all files
Tree reading status:
0 10 20 30 40 50 60 70 80 90 100
v-------v-------v-------v-------v-------v-------v-------v-------v-------v-------v
*********************************************************************************
Read a total of 4002 trees in 2 files (sampling 3002 of them)
(Each file contained 2001 trees of which 1501 were sampled)
General explanation:
In an unrooted tree, a taxon bipartition (split) is specified by removing a
branch, thereby dividing the species into those to the left and those to the
right of the branch. Here, taxa to one side of the removed branch are denoted
'.' and those to the other side are denoted '*'. Specifically, the '.' symbol
is used for the taxa on the same side as the outgroup.
In a rooted or clock tree, the tree is rooted using the model and not by
reference to an outgroup. Each bipartition therefore corresponds to a clade,
that is, a group that includes all the descendants of a particular branch in
the tree. Taxa that are included in each clade are denoted using '*', and
taxa that are not included are denoted using the '.' symbol.
The output first includes a key to all the bipartitions with frequency larger
or equual to (Minpartfreq) in at least one run. Minpartfreq is a parameter to
sumt command and currently it is set to 0.10. This is followed by a table
with statistics for the informative bipartitions (those including at least
two taxa), sorted from highest to lowest probability. For each bipartition,
the table gives the number of times the partition or split was observed in all
runs (#obs) and the posterior probability of the bipartition (Probab.), which
is the same as the split frequency. If several runs are summarized, this is
followed by the minimum split frequency (Min(s)), the maximum frequency
(Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs.
The latter value should approach 0 for all bipartitions as MCMC runs converge.
This is followed by a table summarizing branch lengths, node heights (if a
clock model was used) and relaxed clock parameters (if a relaxed clock model
was used). The mean, variance, and 95 % credible interval are given for each
of these parameters. If several runs are summarized, the potential scale
reduction factor (PSRF) is also given; it should approach 1 as runs converge.
Node heights will take calibration points into account, if such points were
used in the analysis.
Note that Stddev may be unreliable if the partition is not present in all
runs (the last column indicates the number of runs that sampled the partition
if more than one run is summarized). The PSRF is not calculated at all if
the partition is not present in all runs.The PSRF is also sensitive to small
sample sizes and it should only be considered a rough guide to convergence
since some of the assumptions allowing one to interpret it as a true potential
scale reduction factor are violated in MrBayes.
List of taxa in bipartitions:
1 -- C321
2 -- C66
3 -- C166
4 -- C236
5 -- C327
6 -- C72
7 -- C476
8 -- C223
9 -- C78
10 -- C284
11 -- C191
12 -- C562
13 -- C316
14 -- C363
15 -- C554
16 -- C370
17 -- C34
18 -- C112
19 -- C538
20 -- C552
21 -- C139
22 -- C578
23 -- C425
24 -- C590
25 -- C388
26 -- C130
27 -- C266
28 -- C212
29 -- C136
30 -- C49
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 -- ..**..*......*................
79 -- ...........*..*....*.*..*..*..
80 -- ...........*..*......*..*..*..
81 -- ........*....................*
82 -- ..................**.......*..
------------------------------------
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 2998 0.998668 0.001884 0.997335 1.000000 2
41 2998 0.998668 0.001884 0.997335 1.000000 2
42 2984 0.994004 0.000942 0.993338 0.994670 2
43 2888 0.962025 0.005653 0.958028 0.966023 2
44 2867 0.955030 0.000471 0.954697 0.955363 2
45 2802 0.933378 0.008480 0.927382 0.939374 2
46 2594 0.864091 0.010364 0.856762 0.871419 2
47 2522 0.840107 0.004711 0.836775 0.843438 2
48 2327 0.775150 0.016488 0.763491 0.786809 2
49 2274 0.757495 0.010364 0.750167 0.764823 2
50 2253 0.750500 0.002355 0.748834 0.752165 2
51 1581 0.526649 0.008009 0.520986 0.532312 2
52 1342 0.447035 0.025439 0.429047 0.465023 2
53 1248 0.415723 0.000942 0.415057 0.416389 2
54 1173 0.390740 0.002355 0.389074 0.392405 2
55 1045 0.348101 0.005182 0.344437 0.351765 2
56 781 0.260160 0.024968 0.242505 0.277815 2
57 718 0.239174 0.005653 0.235177 0.243171 2
58 676 0.225183 0.000942 0.224517 0.225849 2
59 629 0.209527 0.000471 0.209194 0.209860 2
60 620 0.206529 0.012248 0.197868 0.215190 2
61 615 0.204863 0.002355 0.203198 0.206529 2
62 613 0.204197 0.003298 0.201865 0.206529 2
63 609 0.202865 0.009893 0.195869 0.209860 2
64 609 0.202865 0.016488 0.191206 0.214524 2
65 603 0.200866 0.010835 0.193205 0.208528 2
66 591 0.196869 0.012719 0.187875 0.205863 2
67 590 0.196536 0.004711 0.193205 0.199867 2
68 588 0.195869 0.007537 0.190540 0.201199 2
69 574 0.191206 0.001884 0.189873 0.192538 2
70 573 0.190873 0.007066 0.185876 0.195869 2
71 511 0.170220 0.002355 0.168554 0.171885 2
72 483 0.160893 0.004240 0.157895 0.163891 2
73 477 0.158894 0.000471 0.158561 0.159227 2
74 470 0.156562 0.003769 0.153897 0.159227 2
75 467 0.155563 0.008009 0.149900 0.161226 2
76 438 0.145903 0.007537 0.140573 0.151233 2
77 417 0.138907 0.009893 0.131912 0.145903 2
78 408 0.135909 0.010364 0.128581 0.143238 2
79 404 0.134577 0.003769 0.131912 0.137242 2
80 384 0.127915 0.001884 0.126582 0.129247 2
81 375 0.124917 0.002355 0.123251 0.126582 2
82 353 0.117588 0.007066 0.112592 0.122585 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] 0.003587 0.000001 0.001859 0.005648 0.003479 1.001 2
length{all}[2] 0.002894 0.000001 0.001326 0.004686 0.002804 1.001 2
length{all}[3] 0.000940 0.000000 0.000133 0.001848 0.000870 1.000 2
length{all}[4] 0.004154 0.000001 0.002215 0.006129 0.004057 1.000 2
length{all}[5] 0.012498 0.000004 0.008437 0.016358 0.012419 1.000 2
length{all}[6] 0.021827 0.000008 0.016227 0.026935 0.021722 1.001 2
length{all}[7] 0.001447 0.000000 0.000411 0.002705 0.001364 1.000 2
length{all}[8] 0.000725 0.000000 0.000078 0.001543 0.000637 1.000 2
length{all}[9] 0.015957 0.000005 0.011921 0.020296 0.015821 1.000 2
length{all}[10] 0.000962 0.000000 0.000195 0.001874 0.000879 1.001 2
length{all}[11] 0.000953 0.000000 0.000163 0.001881 0.000880 1.000 2
length{all}[12] 0.001196 0.000000 0.000298 0.002303 0.001112 1.000 2
length{all}[13] 0.007141 0.000002 0.004490 0.009836 0.007069 1.001 2
length{all}[14] 0.000378 0.000000 0.000000 0.001295 0.000231 1.000 2
length{all}[15] 0.000719 0.000000 0.000083 0.001517 0.000660 1.001 2
length{all}[16] 0.008385 0.000003 0.005373 0.011689 0.008294 1.000 2
length{all}[17] 0.013377 0.000004 0.009693 0.017145 0.013277 1.001 2
length{all}[18] 0.002884 0.000001 0.001311 0.004581 0.002793 1.003 2
length{all}[19] 0.001883 0.000000 0.000711 0.003229 0.001800 1.000 2
length{all}[20] 0.000958 0.000000 0.000217 0.001943 0.000883 1.000 2
length{all}[21] 0.005611 0.000001 0.003377 0.008123 0.005522 1.000 2
length{all}[22] 0.000968 0.000000 0.000191 0.001966 0.000891 1.000 2
length{all}[23] 0.002730 0.000001 0.001194 0.004451 0.002629 1.000 2
length{all}[24] 0.000475 0.000000 0.000015 0.001152 0.000397 1.000 2
length{all}[25] 0.003850 0.000001 0.002063 0.005854 0.003788 1.000 2
length{all}[26] 0.003264 0.000001 0.001502 0.005116 0.003175 1.002 2
length{all}[27] 0.001668 0.000000 0.000562 0.002939 0.001586 1.000 2
length{all}[28] 0.004535 0.000001 0.002593 0.006588 0.004451 1.000 2
length{all}[29] 0.007044 0.000002 0.004513 0.009923 0.006961 1.000 2
length{all}[30] 0.005938 0.000002 0.003695 0.008608 0.005846 1.000 2
length{all}[31] 0.001788 0.000000 0.000670 0.003223 0.001703 1.000 2
length{all}[32] 0.001434 0.000000 0.000348 0.002642 0.001341 1.001 2
length{all}[33] 0.011359 0.000004 0.007858 0.014975 0.011236 1.000 2
length{all}[34] 0.007173 0.000003 0.003808 0.010591 0.007094 1.000 2
length{all}[35] 0.012690 0.000004 0.009078 0.016602 0.012556 1.000 2
length{all}[36] 0.002439 0.000001 0.000779 0.004138 0.002366 1.000 2
length{all}[37] 0.026055 0.000009 0.020248 0.032049 0.025909 1.002 2
length{all}[38] 0.001040 0.000000 0.000168 0.002061 0.000956 1.001 2
length{all}[39] 0.000935 0.000000 0.000109 0.001917 0.000843 1.000 2
length{all}[40] 0.003187 0.000001 0.001183 0.005303 0.003074 1.000 2
length{all}[41] 0.003120 0.000001 0.001335 0.005015 0.003005 1.001 2
length{all}[42] 0.002183 0.000001 0.000446 0.004248 0.002066 1.000 2
length{all}[43] 0.001631 0.000001 0.000428 0.003131 0.001566 1.000 2
length{all}[44] 0.000484 0.000000 0.000002 0.001165 0.000407 1.000 2
length{all}[45] 0.000914 0.000000 0.000107 0.001867 0.000843 1.000 2
length{all}[46] 0.001190 0.000000 0.000270 0.002243 0.001114 1.001 2
length{all}[47] 0.000813 0.000000 0.000003 0.001720 0.000745 1.000 2
length{all}[48] 0.000892 0.000000 0.000000 0.001939 0.000792 1.000 2
length{all}[49] 0.000466 0.000000 0.000001 0.001145 0.000381 1.000 2
length{all}[50] 0.000514 0.000000 0.000002 0.001251 0.000445 1.000 2
length{all}[51] 0.000756 0.000000 0.000001 0.001828 0.000635 1.000 2
length{all}[52] 0.000340 0.000000 0.000000 0.000964 0.000253 1.007 2
length{all}[53] 0.000692 0.000000 0.000000 0.001965 0.000491 1.003 2
length{all}[54] 0.000506 0.000000 0.000000 0.001370 0.000394 1.000 2
length{all}[55] 0.000638 0.000000 0.000003 0.001508 0.000554 1.000 2
length{all}[56] 0.000257 0.000000 0.000000 0.000777 0.000169 0.999 2
length{all}[57] 0.000252 0.000000 0.000000 0.000756 0.000167 0.999 2
length{all}[58] 0.000279 0.000000 0.000000 0.000848 0.000199 1.003 2
length{all}[59] 0.000254 0.000000 0.000001 0.000775 0.000169 0.999 2
length{all}[60] 0.000252 0.000000 0.000000 0.000821 0.000171 1.000 2
length{all}[61] 0.000237 0.000000 0.000001 0.000699 0.000165 1.000 2
length{all}[62] 0.000235 0.000000 0.000001 0.000670 0.000171 0.998 2
length{all}[63] 0.000242 0.000000 0.000000 0.000816 0.000165 1.003 2
length{all}[64] 0.000243 0.000000 0.000000 0.000743 0.000150 0.999 2
length{all}[65] 0.000236 0.000000 0.000001 0.000715 0.000163 1.000 2
length{all}[66] 0.000257 0.000000 0.000000 0.000835 0.000176 1.000 2
length{all}[67] 0.000465 0.000000 0.000011 0.001149 0.000371 0.998 2
length{all}[68] 0.000235 0.000000 0.000000 0.000721 0.000166 0.998 2
length{all}[69] 0.000225 0.000000 0.000000 0.000705 0.000141 1.000 2
length{all}[70] 0.000238 0.000000 0.000001 0.000706 0.000159 1.002 2
length{all}[71] 0.000248 0.000000 0.000000 0.000733 0.000167 1.002 2
length{all}[72] 0.000238 0.000000 0.000000 0.000684 0.000155 1.006 2
length{all}[73] 0.000264 0.000000 0.000000 0.000777 0.000194 1.000 2
length{all}[74] 0.000455 0.000000 0.000002 0.001094 0.000375 0.998 2
length{all}[75] 0.000245 0.000000 0.000001 0.000769 0.000169 1.011 2
length{all}[76] 0.000254 0.000000 0.000002 0.000733 0.000169 1.003 2
length{all}[77] 0.000240 0.000000 0.000000 0.000728 0.000157 0.998 2
length{all}[78] 0.002430 0.000001 0.000554 0.004073 0.002318 0.999 2
length{all}[79] 0.000244 0.000000 0.000000 0.000777 0.000166 0.998 2
length{all}[80] 0.000256 0.000000 0.000000 0.000781 0.000190 0.998 2
length{all}[81] 0.000472 0.000000 0.000007 0.001276 0.000352 0.999 2
length{all}[82] 0.000246 0.000000 0.000001 0.000720 0.000174 1.005 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 = 0.005544
Maximum standard deviation of split frequencies = 0.025439
Average PSRF for parameter values (excluding NA and >10.0) = 1.000
Maximum PSRF for parameter values = 1.011
Clade credibility values:
/--------------------------------------------------------------------- C321 (1)
|
|--------------------------------------------------------------------- C425 (23)
|
| /------ C66 (2)
| /-53-+
| | \------ C78 (9)
| /-------------99-------------+
| | \----------- C49 (30)
| |
| | /------ C327 (5)
| | /----------100---------+
| | | \------ C370 (16)
| | |
| | | /------ C223 (8)
| | | |
| | | |------ C284 (10)
| | | /-------100------+
| | | | |------ C191 (11)
| | | | |
| | | | \------ C590 (24)
| | | |
| | | | /------ C562 (12)
| /-100-+ | | /-96-+
| | | |-100-+ | \------ C554 (15)
| | | | | |
| | | | | /--76-+----------- C578 (22)
| | | /-84-+ | | |
+ | | | | | | \----------- C388 (25)
| | | | | | |
| | | | | \--75-+----------------- C538 (19)
| | | | | |
| | | | | |----------------- C552 (20)
| | | | | |
| | | | | \----------------- C212 (28)
| | | | |
| | | | | /------ C316 (13)
| /-100-+ | | | /-93-+
| | | \-100-+ | | \------ C136 (29)
| | | | | /-100-+
| | | | | | \----------- C112 (18)
| | | | | /-100-+
| | | | | | \----------------- C266 (27)
| | | | \--96-+
| | | | | /------ C34 (17)
| /-78-+ | | \-------100------+
| | | | | \------ C130 (26)
| | | | |
| | | | \---------------------------------- C139 (21)
| | | |
| | | \---------------------------------------------- C72 (6)
| /--86-+ |
| | | | /------ C236 (4)
| | | \---------------------100---------------------+
| | | \------ C476 (7)
\-100-+ |
| \--------------------------------------------------------- C166 (3)
|
\--------------------------------------------------------------- C363 (14)
Phylogram (based on average branch lengths):
/--- C321 (1)
|
|-- C425 (23)
|
| /-- C66 (2)
| /+
| |\--------------- C78 (9)
| /-+
| | \------ C49 (30)
| |
| | /------------ C327 (5)
| | /---------+
| | | \-------- C370 (16)
| | |
| | | /- C223 (8)
| | | |
| | | |- C284 (10)
| | |/+
| | |||- C191 (11)
| | |||
| | ||\- C590 (24)
| | ||
| | || /- C562 (12)
| /-----------------------+ ||/+
| | | |+|\ C554 (15)
| | | |||
| | | |||- C578 (22)
| | | /+||
+ | | ||||---- C388 (25)
| | | ||||
| | | ||\+-- C538 (19)
| | | || |
| | | || |- C552 (20)
| | | || |
| | | || \---- C212 (28)
| | | ||
| | | || /------- C316 (13)
| /-----+ | || |
| | | \--+| |------- C136 (29)
| | | || /-+
| | | || | \-- C112 (18)
| | | ||/+
| | | |||\-- C266 (27)
| | | |\+
| | | | | /------------- C34 (17)
| /+ | | \--+
| || | | \--- C130 (26)
| || | |
| || | \----- C139 (21)
| || |
| || \-------------------- C72 (6)
| /+|
| ||| /---- C236 (4)
| ||\-+
| || \- C476 (7)
\-----------+|
|\- C166 (3)
|
\ C363 (14)
|--------| 0.010 expected changes per site
Calculating tree probabilities...
Credible sets of trees (2867 trees sampled):
50 % credible set contains 1366 trees
90 % credible set contains 2567 trees
95 % credible set contains 2717 trees
99 % credible set contains 2837 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 Thu Nov 17 16:37:05 GMT 2022 --
-- Iteration: /working_dir/input/2_modified/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result--
-- Starting log on Fri Nov 18 05:34:45 GMT 2022 --
-- Iteration: /working_dir/pss_subsets/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result/original_alignment/codeml,LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.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 C363 4194 sites
reading seq# 2 C370 4194 sites
reading seq# 3 C554 4194 sites
reading seq# 4 C191 4194 sites
reading seq# 5 C112 4194 sites
reading seq# 6 C34 4194 sites
reading seq# 7 C538 4194 sites
reading seq# 8 C316 4194 sites
reading seq# 9 C212 4194 sites
reading seq#10 C552 4194 sites
reading seq#11 C66 4194 sites
reading seq#12 C321 4194 sites
reading seq#13 C166 4194 sites
reading seq#14 C139 4194 sites
reading seq#15 C578 4194 sites
reading seq#16 C327 4194 sites
reading seq#17 C236 4194 sites
reading seq#18 C72 4194 sites
reading seq#19 C590 4194 sites
reading seq#20 C425 4194 sites
reading seq#21 C223 4194 sites
reading seq#22 C476 4194 sites
reading seq#23 C130 4194 sites
reading seq#24 C266 4194 sites
reading seq#25 C388 4194 sites
reading seq#26 C284 4194 sites
reading seq#27 C78 4194 sites
reading seq#28 C49 4194 sites
reading seq#29 C136 4194 sites
reading seq#30 C562 4194 sitesns = 30 ls = 4194
Reading sequences, sequential format..
Reading seq # 1: C363
Reading seq # 2: C370
Reading seq # 3: C554
Reading seq # 4: C191
Reading seq # 5: C112
Reading seq # 6: C34
Reading seq # 7: C538
Reading seq # 8: C316
Reading seq # 9: C212
Reading seq #10: C552
Reading seq #11: C66
Reading seq #12: C321
Reading seq #13: C166
Reading seq #14: C139
Reading seq #15: C578
Reading seq #16: C327
Reading seq #17: C236
Reading seq #18: C72
Reading seq #19: C590
Reading seq #20: C425
Reading seq #21: C223
Reading seq #22: C476
Reading seq #23: C130
Reading seq #24: C266
Reading seq #25: C388
Reading seq #26: C284
Reading seq #27: C78
Reading seq #28: C49
Reading seq #29: C136
Reading seq #30: C562
Sites with gaps or missing data are removed.
45 ambiguity characters in seq. 1
36 ambiguity characters in seq. 2
36 ambiguity characters in seq. 3
36 ambiguity characters in seq. 4
36 ambiguity characters in seq. 5
39 ambiguity characters in seq. 6
36 ambiguity characters in seq. 7
36 ambiguity characters in seq. 8
36 ambiguity characters in seq. 9
36 ambiguity characters in seq. 10
36 ambiguity characters in seq. 11
45 ambiguity characters in seq. 12
45 ambiguity characters in seq. 13
63 ambiguity characters in seq. 14
36 ambiguity characters in seq. 15
36 ambiguity characters in seq. 16
45 ambiguity characters in seq. 17
51 ambiguity characters in seq. 18
36 ambiguity characters in seq. 19
45 ambiguity characters in seq. 20
36 ambiguity characters in seq. 21
45 ambiguity characters in seq. 22
36 ambiguity characters in seq. 23
36 ambiguity characters in seq. 24
36 ambiguity characters in seq. 25
36 ambiguity characters in seq. 26
39 ambiguity characters in seq. 27
36 ambiguity characters in seq. 28
36 ambiguity characters in seq. 29
36 ambiguity characters in seq. 30
28 sites are removed. 58 59 60 61 140 141 163 164 360 361 362 363 390 391 392 393 394 477 1209 1390 1391 1392 1393 1394 1395 1396 1397 1398
Sequences read..
Counting site patterns.. 0:00
Compressing, 483 patterns at 1370 / 1370 sites (100.0%), 0:00
Collecting fpatt[] & pose[], 483 patterns at 1370 / 1370 sites (100.0%), 0:00
Counting codons..
3480 bytes for distance
471408 bytes for conP
42504 bytes for fhK
5000000 bytes for space
Model 1: NearlyNeutral
TREE # 1
(12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
5185488 bytes for conP, adjusted
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.011669 0.087544 0.077536 0.042478 0.014341 0.068765 0.028830 0.090817 0.038177 0.050863 0.081453 0.108617 0.078536 0.050351 0.034883 0.043946 0.058856 0.045118 0.107025 0.024790 0.020801 0.092149 0.033694 0.026131 0.031118 0.043579 0.102762 0.018970 0.059883 0.072037 0.065166 0.049715 0.059806 0.091189 0.039949 0.073373 0.051318 0.032443 0.105547 0.039001 0.093091 0.013743 0.044477 0.100825 0.092701 0.011390 0.083644 0.103492 0.087120 0.020822 0.047431 0.300000 0.719502 0.538544
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 = 10.382251
np = 54
lnL0 = -13678.198323
Iterating by ming2
Initial: fx= 13678.198323
x= 0.01167 0.08754 0.07754 0.04248 0.01434 0.06876 0.02883 0.09082 0.03818 0.05086 0.08145 0.10862 0.07854 0.05035 0.03488 0.04395 0.05886 0.04512 0.10702 0.02479 0.02080 0.09215 0.03369 0.02613 0.03112 0.04358 0.10276 0.01897 0.05988 0.07204 0.06517 0.04971 0.05981 0.09119 0.03995 0.07337 0.05132 0.03244 0.10555 0.03900 0.09309 0.01374 0.04448 0.10082 0.09270 0.01139 0.08364 0.10349 0.08712 0.02082 0.04743 0.30000 0.71950 0.53854
1 h-m-p 0.0000 0.0000 8883.8512 ++ 12878.224142 m 0.0000 59 | 0/54
2 h-m-p 0.0000 0.0000 20693.6261 ++ 12701.225753 m 0.0000 116 | 0/54
3 h-m-p 0.0000 0.0000 123006.6792 ++ 12592.914350 m 0.0000 173 | 0/54
4 h-m-p 0.0000 0.0000 441025.7518 +CYCYCCC 12563.001315 6 0.0000 241 | 0/54
5 h-m-p 0.0000 0.0000 620406.6639 ++ 12545.108472 m 0.0000 298 | 0/54
6 h-m-p 0.0000 0.0000 130819.3027 +YYCYCCC 12526.085338 6 0.0000 366 | 0/54
7 h-m-p 0.0000 0.0000 988048.9698 ++ 12396.651502 m 0.0000 423 | 0/54
8 h-m-p 0.0000 0.0000 216347.0608 ++ 12324.198284 m 0.0000 480 | 0/54
9 h-m-p 0.0000 0.0000 202230.0947 ++ 12121.741300 m 0.0000 537 | 0/54
10 h-m-p 0.0000 0.0000 37811.8957 ++ 12058.720661 m 0.0000 594 | 0/54
11 h-m-p 0.0000 0.0000 46985.9490 ++ 11972.413750 m 0.0000 651 | 1/54
12 h-m-p 0.0000 0.0000 58927.9759 ++ 11879.175948 m 0.0000 708 | 1/54
13 h-m-p 0.0000 0.0000 186493.8122 ++ 11876.603322 m 0.0000 765 | 1/54
14 h-m-p 0.0000 0.0000 84608.1608 ++ 11837.321788 m 0.0000 822 | 1/54
15 h-m-p 0.0000 0.0000 130468.5285 +YYCYCYC 11742.723619 6 0.0000 889 | 1/54
16 h-m-p 0.0000 0.0000 539220.7866 +YYYCCC 11737.482926 5 0.0000 954 | 1/54
17 h-m-p 0.0000 0.0000 98860.6696 ++ 11615.132085 m 0.0000 1011 | 1/54
18 h-m-p 0.0000 0.0000 240733.7030 +YYYYCC 11600.209934 5 0.0000 1075 | 1/54
19 h-m-p 0.0000 0.0000 84118.1921 ++ 11527.829081 m 0.0000 1132 | 1/54
20 h-m-p 0.0000 0.0000 86229.0698 +YCYCCC 11432.258460 5 0.0000 1198 | 1/54
21 h-m-p 0.0000 0.0000 12388.1101 +YCYYYCC 11401.957646 6 0.0000 1264 | 1/54
22 h-m-p 0.0000 0.0000 18602.3221 +YYCCC 11378.747679 4 0.0000 1328 | 1/54
23 h-m-p 0.0000 0.0000 14320.2914 +YYCCC 11362.667212 4 0.0000 1392 | 1/54
24 h-m-p 0.0000 0.0000 24737.7181 +YYCCC 11353.199166 4 0.0000 1456 | 1/54
25 h-m-p 0.0000 0.0000 9447.7292 +YYYYCCCCC 11342.480738 8 0.0000 1526 | 1/54
26 h-m-p 0.0000 0.0000 9241.0281 +YYCCCC 11322.098170 5 0.0000 1592 | 1/54
27 h-m-p 0.0000 0.0000 5695.6251 +YYYCCC 11304.617185 5 0.0000 1657 | 1/54
28 h-m-p 0.0000 0.0000 9538.0964 YCCCC 11288.047039 4 0.0000 1721 | 1/54
29 h-m-p 0.0000 0.0000 6578.7154 +YYCCC 11258.192488 4 0.0000 1785 | 1/54
30 h-m-p 0.0000 0.0000 11883.6228 +CYYYYYC 11228.695951 6 0.0000 1850 | 1/54
31 h-m-p 0.0000 0.0000 50519.7413 +CYYCC 11204.513002 4 0.0000 1914 | 1/54
32 h-m-p 0.0000 0.0000 105284.8791 ++ 11147.530023 m 0.0000 1971 | 1/54
33 h-m-p 0.0000 0.0000 18832.7304 YCYCC 11144.080939 4 0.0000 2034 | 0/54
34 h-m-p 0.0000 0.0000 13781.8846 YYCCC 11135.502561 4 0.0000 2097 | 0/54
35 h-m-p 0.0000 0.0000 7410.6904 ++ 11115.113304 m 0.0000 2154 | 0/54
36 h-m-p 0.0000 0.0000 21056.2989 +YYYYYY 11098.514098 5 0.0000 2217 | 0/54
37 h-m-p 0.0000 0.0000 18862.3937 +CYCC 11081.073804 3 0.0000 2280 | 0/54
38 h-m-p 0.0000 0.0000 73785.6213 YC 11071.571321 1 0.0000 2338 | 0/54
39 h-m-p 0.0000 0.0000 33602.4599 YCCCC 11030.199852 4 0.0000 2402 | 0/54
40 h-m-p 0.0000 0.0000 16763.4420 YCYCCC 10977.815965 5 0.0000 2467 | 0/54
41 h-m-p 0.0000 0.0000 4240.4896 +YYCCC 10917.506866 4 0.0000 2531 | 0/54
42 h-m-p 0.0000 0.0000 10159.6245 YCCC 10894.511419 3 0.0000 2593 | 0/54
43 h-m-p 0.0000 0.0000 3283.8729 YCCCC 10878.106338 4 0.0000 2657 | 0/54
44 h-m-p 0.0000 0.0001 1227.9402 YCYCCC 10866.080529 5 0.0000 2722 | 0/54
45 h-m-p 0.0000 0.0000 2232.4553 YCCCC 10856.544628 4 0.0000 2786 | 0/54
46 h-m-p 0.0000 0.0001 1421.8566 CYCCC 10850.947106 4 0.0000 2850 | 0/54
47 h-m-p 0.0000 0.0001 575.5417 YCCC 10847.563521 3 0.0000 2912 | 0/54
48 h-m-p 0.0000 0.0000 386.9236 +YCCC 10846.339292 3 0.0000 2975 | 0/54
49 h-m-p 0.0000 0.0001 103.3706 CC 10846.072901 1 0.0000 3034 | 0/54
50 h-m-p 0.0001 0.0021 39.9904 +YCCC 10839.891294 3 0.0006 3097 | 0/54
51 h-m-p 0.0000 0.0001 864.9797 ++ 10796.216989 m 0.0001 3154 | 0/54
52 h-m-p 0.0000 0.0001 1604.7978 CCCCC 10784.630631 4 0.0000 3219 | 0/54
53 h-m-p 0.0000 0.0000 343.4982 ++ 10783.408576 m 0.0000 3276 | 0/54
54 h-m-p -0.0000 -0.0000 112.4647
h-m-p: -6.30030608e-22 -3.15015304e-21 1.12464679e+02 10783.408576
.. | 0/54
55 h-m-p 0.0000 0.0000 55255.7373 CYCCC 10753.123627 4 0.0000 3395 | 0/54
56 h-m-p 0.0000 0.0000 4845.5356 ++ 10752.427187 m 0.0000 3452 | 1/54
57 h-m-p 0.0000 0.0000 4584.3890 +CYC 10739.340345 2 0.0000 3513 | 1/54
58 h-m-p 0.0000 0.0000 16236.6577 +YYYCC 10731.969038 4 0.0000 3576 | 1/54
59 h-m-p 0.0000 0.0000 12345.5469 YCCCC 10727.255329 4 0.0000 3640 | 1/54
60 h-m-p 0.0000 0.0000 8006.2810 YC 10722.936671 1 0.0000 3698 | 1/54
61 h-m-p 0.0000 0.0000 7532.4376 +YYCCC 10714.477560 4 0.0000 3762 | 1/54
62 h-m-p 0.0000 0.0000 12640.4909 CCCC 10706.818080 3 0.0000 3825 | 1/54
63 h-m-p 0.0000 0.0000 3723.6278 YCCC 10702.346664 3 0.0000 3887 | 1/54
64 h-m-p 0.0000 0.0000 4415.1461 YCCCC 10701.224883 4 0.0000 3951 | 1/54
65 h-m-p 0.0000 0.0000 2361.2658 CCCC 10700.395733 3 0.0000 4014 | 1/54
66 h-m-p 0.0000 0.0000 3338.4715 CCC 10698.701141 2 0.0000 4075 | 1/54
67 h-m-p 0.0000 0.0000 2334.5066 YCC 10696.362227 2 0.0000 4135 | 1/54
68 h-m-p 0.0000 0.0000 1940.7581 CCC 10695.040577 2 0.0000 4196 | 1/54
69 h-m-p 0.0000 0.0000 2463.6516 CCC 10694.291986 2 0.0000 4257 | 1/54
70 h-m-p 0.0000 0.0000 2665.4749 CCCC 10693.447627 3 0.0000 4320 | 1/54
71 h-m-p 0.0000 0.0000 2860.8719 YCCC 10691.756932 3 0.0000 4382 | 1/54
72 h-m-p 0.0000 0.0000 2066.8279 CCC 10690.688724 2 0.0000 4443 | 1/54
73 h-m-p 0.0000 0.0000 2218.1891 YCCC 10688.008300 3 0.0000 4505 | 1/54
74 h-m-p 0.0000 0.0000 3952.9150 CYC 10686.563985 2 0.0000 4565 | 1/54
75 h-m-p 0.0000 0.0000 1379.8840 YCCC 10685.487745 3 0.0000 4627 | 1/54
76 h-m-p 0.0000 0.0000 2000.8128 YCCC 10683.746362 3 0.0000 4689 | 1/54
77 h-m-p 0.0000 0.0000 4187.2526 YCCC 10682.869061 3 0.0000 4751 | 1/54
78 h-m-p 0.0000 0.0000 1885.9516 CCCC 10682.081753 3 0.0000 4814 | 1/54
79 h-m-p 0.0000 0.0000 953.6489 CYC 10681.183554 2 0.0000 4874 | 1/54
80 h-m-p 0.0000 0.0000 1383.4612 CC 10680.417181 1 0.0000 4933 | 1/54
81 h-m-p 0.0000 0.0000 1082.9792 CCC 10679.887849 2 0.0000 4994 | 1/54
82 h-m-p 0.0000 0.0001 685.7649 CC 10679.219779 1 0.0000 5053 | 1/54
83 h-m-p 0.0000 0.0001 619.2258 CC 10678.657554 1 0.0000 5112 | 1/54
84 h-m-p 0.0000 0.0000 1736.9524 CCC 10677.780661 2 0.0000 5173 | 1/54
85 h-m-p 0.0000 0.0001 1201.5601 CCC 10676.773605 2 0.0000 5234 | 1/54
86 h-m-p 0.0000 0.0000 3018.9257 YCCC 10675.411506 3 0.0000 5296 | 1/54
87 h-m-p 0.0000 0.0000 3029.8793 +YYCCC 10673.248745 4 0.0000 5360 | 1/54
88 h-m-p 0.0000 0.0000 15828.4181 YCCC 10671.124606 3 0.0000 5422 | 1/54
89 h-m-p 0.0000 0.0000 7592.8073 +YCYC 10667.919531 3 0.0000 5484 | 1/54
90 h-m-p 0.0000 0.0000 16537.9992 +YYCCC 10660.731493 4 0.0000 5548 | 1/54
91 h-m-p 0.0000 0.0000 12360.0526 +YYYCCC 10644.997482 5 0.0000 5613 | 1/54
92 h-m-p 0.0000 0.0000 52477.8829 YCC 10636.577827 2 0.0000 5673 | 1/54
93 h-m-p 0.0000 0.0000 8051.3750 +YCYCCC 10632.456304 5 0.0000 5739 | 1/54
94 h-m-p 0.0000 0.0000 10676.7180 CCC 10629.101480 2 0.0000 5800 | 1/54
95 h-m-p 0.0000 0.0000 2411.0080 CCC 10627.357088 2 0.0000 5861 | 1/54
96 h-m-p 0.0001 0.0004 302.9554 CYC 10627.038774 2 0.0000 5921 | 1/54
97 h-m-p 0.0000 0.0003 258.2916 CCC 10626.803149 2 0.0000 5982 | 1/54
98 h-m-p 0.0001 0.0008 46.2170 -YC 10626.788736 1 0.0000 6041 | 1/54
99 h-m-p 0.0000 0.0011 33.3539 CC 10626.779791 1 0.0000 6100 | 1/54
100 h-m-p 0.0001 0.0043 9.0088 YC 10626.772430 1 0.0000 6158 | 1/54
101 h-m-p 0.0000 0.0021 16.5823 +CC 10626.714654 1 0.0001 6218 | 1/54
102 h-m-p 0.0001 0.0012 21.4079 +YYC 10626.021262 2 0.0002 6278 | 1/54
103 h-m-p 0.0000 0.0001 227.4898 YCYCC 10624.463216 4 0.0000 6341 | 1/54
104 h-m-p 0.0000 0.0000 225.4768 YCYCCC 10623.717255 5 0.0000 6406 | 1/54
105 h-m-p 0.0001 0.0006 54.2146 YC 10623.665181 1 0.0000 6464 | 1/54
106 h-m-p 0.0001 0.0022 31.2024 YC 10623.648222 1 0.0000 6522 | 1/54
107 h-m-p 0.0004 0.0110 2.9302 C 10623.644757 0 0.0001 6579 | 1/54
108 h-m-p 0.0001 0.0259 2.8644 ++CC 10623.323721 1 0.0020 6640 | 1/54
109 h-m-p 0.0000 0.0009 141.7393 ++CCC 10612.968573 2 0.0008 6704 | 1/54
110 h-m-p 0.0612 0.3062 0.5950 +YYCCC 10608.670747 4 0.2060 6768 | 1/54
111 h-m-p 0.0589 0.2946 1.2054 YYCC 10606.377436 3 0.0848 6882 | 1/54
112 h-m-p 0.4372 3.2992 0.2338 CYCC 10603.933604 3 0.5169 6944 | 1/54
113 h-m-p 0.8313 4.1567 0.1243 CCCC 10601.857713 3 1.3460 7060 | 1/54
114 h-m-p 1.0389 5.1944 0.0823 CCC 10600.710537 2 1.5268 7174 | 1/54
115 h-m-p 0.8857 4.4285 0.0263 CCCC 10600.344766 3 1.4981 7290 | 1/54
116 h-m-p 1.6000 8.0000 0.0093 CYC 10600.268760 2 1.4323 7403 | 1/54
117 h-m-p 1.0889 8.0000 0.0122 CC 10600.240700 1 1.3274 7515 | 1/54
118 h-m-p 1.4491 8.0000 0.0112 CC 10600.220756 1 1.9455 7627 | 1/54
119 h-m-p 1.6000 8.0000 0.0013 C 10600.207042 0 1.6180 7737 | 1/54
120 h-m-p 1.6000 8.0000 0.0013 CC 10600.202064 1 1.2807 7849 | 1/54
121 h-m-p 0.6905 8.0000 0.0024 +YC 10600.200546 1 1.7948 7961 | 1/54
122 h-m-p 1.6000 8.0000 0.0005 C 10600.200012 0 2.0920 8071 | 1/54
123 h-m-p 1.6000 8.0000 0.0002 C 10600.199720 0 2.1137 8181 | 1/54
124 h-m-p 1.6000 8.0000 0.0001 C 10600.199608 0 1.7583 8291 | 1/54
125 h-m-p 0.6932 8.0000 0.0002 Y 10600.199595 0 1.3561 8401 | 1/54
126 h-m-p 1.6000 8.0000 0.0001 C 10600.199592 0 1.4949 8511 | 1/54
127 h-m-p 1.6000 8.0000 0.0000 C 10600.199590 0 2.3851 8621 | 1/54
128 h-m-p 0.3775 8.0000 0.0000 +Y 10600.199589 0 2.5176 8732 | 1/54
129 h-m-p 1.6000 8.0000 0.0000 C 10600.199588 0 1.7712 8842 | 1/54
130 h-m-p 1.6000 8.0000 0.0000 +Y 10600.199588 0 4.5824 8953 | 1/54
131 h-m-p 1.6000 8.0000 0.0000 ---Y 10600.199588 0 0.0063 9066 | 1/54
132 h-m-p 0.0160 8.0000 0.0001 Y 10600.199588 0 0.0160 9176 | 1/54
133 h-m-p 0.0563 8.0000 0.0000 --------------.. | 1/54
134 h-m-p 0.0000 0.0081 0.5365 -------- | 1/54
135 h-m-p 0.0000 0.0081 0.5365 --------
Out..
lnL = -10600.199588
9531 lfun, 28593 eigenQcodon, 972162 P(t)
end of tree file.
Time used: 15:15
Model 2: PositiveSelection
TREE # 1
(12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.067307 0.015780 0.054879 0.039418 0.102466 0.054429 0.043670 0.038874 0.097581 0.059511 0.067788 0.091034 0.019611 0.033700 0.037563 0.059109 0.050865 0.086079 0.084272 0.097437 0.088263 0.022929 0.020489 0.051982 0.033126 0.071629 0.062049 0.068170 0.057429 0.054838 0.035075 0.010733 0.107456 0.107169 0.066498 0.075244 0.080799 0.101522 0.031512 0.046055 0.087626 0.027278 0.106401 0.030289 0.082173 0.037535 0.050171 0.072614 0.025385 0.057571 0.013433 2.849806 1.004506 0.123217 0.146918 1.398715
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 = 5.006456
np = 56
lnL0 = -12192.542371
Iterating by ming2
Initial: fx= 12192.542371
x= 0.06731 0.01578 0.05488 0.03942 0.10247 0.05443 0.04367 0.03887 0.09758 0.05951 0.06779 0.09103 0.01961 0.03370 0.03756 0.05911 0.05086 0.08608 0.08427 0.09744 0.08826 0.02293 0.02049 0.05198 0.03313 0.07163 0.06205 0.06817 0.05743 0.05484 0.03507 0.01073 0.10746 0.10717 0.06650 0.07524 0.08080 0.10152 0.03151 0.04605 0.08763 0.02728 0.10640 0.03029 0.08217 0.03754 0.05017 0.07261 0.02539 0.05757 0.01343 2.84981 1.00451 0.12322 0.14692 1.39871
1 h-m-p 0.0000 0.0000 4940.6526 ++ 11781.583420 m 0.0000 117 | 1/56
2 h-m-p 0.0000 0.0000 23997.0915 ++ 11606.700378 m 0.0000 232 | 1/56
3 h-m-p 0.0000 0.0000 179006.7361 ++ 11465.815488 m 0.0000 346 | 1/56
4 h-m-p 0.0000 0.0000 293845.9753 ++ 11391.997168 m 0.0000 460 | 1/56
5 h-m-p 0.0000 0.0000 85654.6819 ++ 11313.829918 m 0.0000 574 | 1/56
6 h-m-p -0.0000 -0.0000 117826.8593
h-m-p: -4.99547689e-24 -2.49773845e-23 1.17826859e+05 11313.829918
.. | 1/56
7 h-m-p 0.0000 0.0000 26936.7733 CYYYC 11290.889607 4 0.0000 805 | 1/56
8 h-m-p 0.0000 0.0000 3627.0344 ++ 11163.445881 m 0.0000 919 | 1/56
9 h-m-p 0.0000 0.0000 1540393.3522 ++ 11093.936950 m 0.0000 1033 | 1/56
10 h-m-p 0.0000 0.0000 33464.9371 ++ 10975.422097 m 0.0000 1147 | 1/56
11 h-m-p 0.0000 0.0000 90377.8142 +CCYC 10967.444534 3 0.0000 1267 | 1/56
12 h-m-p 0.0000 0.0000 97465.4800 +YCYYYCCCCC 10914.714914 9 0.0000 1396 | 1/56
13 h-m-p 0.0000 0.0000 27005.1324 +YYCYCCC 10906.621580 6 0.0000 1520 | 0/56
14 h-m-p 0.0000 0.0000 123999.0593 +YCYYCC 10901.924660 5 0.0000 1642 | 0/56
15 h-m-p 0.0000 0.0000 43218.9641 ++ 10884.799414 m 0.0000 1757 | 0/56
16 h-m-p 0.0000 0.0000 34604.5381 +CCYYYYYY 10811.687386 7 0.0000 1882 | 0/56
17 h-m-p 0.0000 0.0000 18449.2371 +YYYYCCCC 10787.507236 7 0.0000 2008 | 0/56
18 h-m-p 0.0000 0.0000 8896.7035 +YYCYYCCC 10767.066442 7 0.0000 2134 | 0/56
19 h-m-p 0.0000 0.0000 12997.8404 +YYYYYC 10749.217115 5 0.0000 2255 | 0/56
20 h-m-p 0.0000 0.0000 5390.2438 +YYYYYYC 10743.725501 6 0.0000 2377 | 0/56
21 h-m-p 0.0000 0.0000 32998.0479 ++ 10737.590146 m 0.0000 2492 | 1/56
22 h-m-p 0.0000 0.0000 5865.2807 +YYC 10727.421517 2 0.0000 2610 | 1/56
23 h-m-p 0.0000 0.0000 3461.2399 +YYYC 10723.598044 3 0.0000 2728 | 1/56
24 h-m-p 0.0000 0.0000 4988.4049 +YYCCCC 10718.486558 5 0.0000 2851 | 1/56
25 h-m-p 0.0000 0.0000 1670.3044 +YYYCCCC 10713.160115 6 0.0000 2975 | 1/56
26 h-m-p 0.0000 0.0000 7735.2493 CCC 10711.083614 2 0.0000 3093 | 1/56
27 h-m-p 0.0000 0.0000 1003.6603 CCC 10709.608811 2 0.0000 3211 | 1/56
28 h-m-p 0.0000 0.0000 1196.4633 CCCC 10704.217838 3 0.0000 3331 | 1/56
29 h-m-p 0.0000 0.0000 1588.9437 CCC 10702.227651 2 0.0000 3449 | 1/56
30 h-m-p 0.0000 0.0000 946.3660 YCCC 10697.215428 3 0.0000 3568 | 1/56
31 h-m-p 0.0000 0.0000 1104.9474 YCCC 10694.725909 3 0.0000 3687 | 1/56
32 h-m-p 0.0000 0.0000 1154.4449 CCC 10692.757896 2 0.0000 3805 | 1/56
33 h-m-p 0.0000 0.0000 953.9270 +YCYCC 10689.432853 4 0.0000 3926 | 1/56
34 h-m-p 0.0000 0.0000 1143.5318 YCCC 10687.461651 3 0.0000 4045 | 1/56
35 h-m-p 0.0000 0.0000 684.0410 CCC 10686.842312 2 0.0000 4163 | 1/56
36 h-m-p 0.0000 0.0001 864.9367 YCCC 10686.193602 3 0.0000 4282 | 1/56
37 h-m-p 0.0000 0.0000 737.9013 CCCC 10685.474156 3 0.0000 4402 | 1/56
38 h-m-p 0.0000 0.0001 871.4109 YCCC 10684.061699 3 0.0000 4521 | 1/56
39 h-m-p 0.0000 0.0001 603.5770 CYC 10683.162368 2 0.0000 4638 | 1/56
40 h-m-p 0.0000 0.0003 463.5091 CC 10682.431265 1 0.0000 4754 | 1/56
41 h-m-p 0.0000 0.0001 839.3307 YCCC 10680.870207 3 0.0000 4873 | 1/56
42 h-m-p 0.0000 0.0002 1479.3339 +YCCC 10676.797717 3 0.0000 4993 | 1/56
43 h-m-p 0.0000 0.0000 5218.4944 +YCYCC 10668.151967 4 0.0000 5114 | 1/56
44 h-m-p 0.0000 0.0000 10696.9407 YCCC 10661.252599 3 0.0000 5233 | 1/56
45 h-m-p 0.0000 0.0001 9486.4793 CCCC 10652.208129 3 0.0000 5353 | 1/56
46 h-m-p 0.0000 0.0001 3412.1283 CYC 10648.600482 2 0.0000 5470 | 1/56
47 h-m-p 0.0000 0.0002 699.2732 YC 10647.781422 1 0.0000 5585 | 0/56
48 h-m-p 0.0000 0.0002 966.5397 YCC 10643.782594 2 0.0000 5702 | 0/56
49 h-m-p 0.0000 0.0001 488.0555 CCC 10642.733138 2 0.0000 5821 | 0/56
50 h-m-p 0.0000 0.0001 244.9833 YC 10642.566321 1 0.0000 5937 | 0/56
51 h-m-p 0.0000 0.0005 71.8963 YC 10642.535737 1 0.0000 6053 | 0/56
52 h-m-p 0.0001 0.0030 22.9901 CC 10642.528940 1 0.0000 6170 | 0/56
53 h-m-p 0.0000 0.0030 37.7362 +CC 10642.499823 1 0.0001 6288 | 0/56
54 h-m-p 0.0000 0.0019 135.3242 YC 10642.429825 1 0.0001 6404 | 0/56
55 h-m-p 0.0000 0.0026 371.5581 ++CCC 10640.911785 2 0.0004 6525 | 0/56
56 h-m-p 0.0000 0.0001 9236.7600 YCC 10638.049321 2 0.0000 6643 | 0/56
57 h-m-p 0.0000 0.0001 10046.5324 +YCCC 10635.594068 3 0.0000 6764 | 0/56
58 h-m-p 0.0001 0.0006 364.2261 CC 10635.495870 1 0.0000 6881 | 0/56
59 h-m-p 0.0003 0.0014 24.0926 -C 10635.492451 0 0.0000 6997 | 0/56
60 h-m-p 0.0000 0.0060 18.5218 +YC 10635.461227 1 0.0003 7114 | 0/56
61 h-m-p 0.0000 0.0019 223.8647 +++YYYCYCCC 10632.845363 7 0.0014 7242 | 0/56
62 h-m-p 0.0000 0.0001 2234.0325 YCCC 10632.474824 3 0.0000 7362 | 0/56
63 h-m-p 0.0014 0.0896 35.7199 ++CCCC 10624.340805 3 0.0357 7485 | 0/56
64 h-m-p 0.0567 0.2837 3.5759 +YCCC 10618.473802 3 0.1917 7606 | 0/56
65 h-m-p 0.0099 0.0496 2.9121 ++ 10614.252840 m 0.0496 7721 | 1/56
66 h-m-p 0.1387 0.9256 1.0408 +YCCC 10603.693722 3 0.6804 7842 | 1/56
67 h-m-p 0.8825 4.4126 0.3855 CCCC 10599.865900 3 0.7919 7962 | 1/56
68 h-m-p 0.8728 4.3641 0.1551 CCCC 10597.167070 3 1.1786 8082 | 1/56
69 h-m-p 0.5848 2.9238 0.3024 YCCC 10595.006641 3 1.3060 8201 | 1/56
70 h-m-p 0.5549 2.7746 0.1992 YCCCC 10592.720281 4 1.3233 8322 | 1/56
71 h-m-p 0.3134 1.5668 0.2985 CYCCC 10591.794769 4 0.5852 8443 | 1/56
72 h-m-p 0.2431 1.2157 0.6654 YCCCC 10590.780690 4 0.5170 8564 | 1/56
73 h-m-p 1.6000 8.0000 0.1443 YCC 10590.278971 2 1.2329 8681 | 1/56
74 h-m-p 1.6000 8.0000 0.0881 YYC 10589.990102 2 1.2710 8797 | 1/56
75 h-m-p 0.4399 8.0000 0.2546 +YC 10589.670081 1 1.4513 8913 | 1/56
76 h-m-p 1.6000 8.0000 0.1250 CCC 10589.391938 2 1.8938 9031 | 1/56
77 h-m-p 1.2811 8.0000 0.1848 YC 10588.926040 1 2.8359 9146 | 1/56
78 h-m-p 1.6000 8.0000 0.1725 CYC 10588.631243 2 1.8244 9263 | 1/56
79 h-m-p 1.6000 8.0000 0.0844 CC 10588.456930 1 2.1219 9379 | 1/56
80 h-m-p 1.6000 8.0000 0.0731 YC 10588.381548 1 1.0148 9494 | 1/56
81 h-m-p 1.1645 8.0000 0.0637 CC 10588.307880 1 1.2421 9610 | 1/56
82 h-m-p 1.5540 8.0000 0.0509 YC 10588.173875 1 3.2667 9725 | 1/56
83 h-m-p 1.6000 8.0000 0.0274 CC 10588.029758 1 2.2766 9841 | 1/56
84 h-m-p 1.6000 8.0000 0.0374 YC 10587.894689 1 3.2013 9956 | 1/56
85 h-m-p 1.2857 8.0000 0.0932 +YC 10587.666155 1 3.2248 10072 | 1/56
86 h-m-p 1.5917 8.0000 0.1889 CYC 10587.586008 2 1.3912 10189 | 1/56
87 h-m-p 1.6000 8.0000 0.0673 CC 10587.556035 1 1.9430 10305 | 1/56
88 h-m-p 1.6000 8.0000 0.0421 YC 10587.515468 1 3.1319 10420 | 1/56
89 h-m-p 1.6000 8.0000 0.0394 C 10587.493793 0 1.6964 10534 | 1/56
90 h-m-p 1.6000 8.0000 0.0371 YC 10587.481364 1 2.8112 10649 | 1/56
91 h-m-p 1.6000 8.0000 0.0184 +YC 10587.455508 1 4.0389 10765 | 1/56
92 h-m-p 1.6000 8.0000 0.0069 CC 10587.425944 1 2.4171 10881 | 1/56
93 h-m-p 1.0295 8.0000 0.0163 YC 10587.402298 1 1.8892 10996 | 1/56
94 h-m-p 1.6000 8.0000 0.0027 CC 10587.387264 1 2.2618 11112 | 1/56
95 h-m-p 0.1550 8.0000 0.0392 ++YC 10587.376347 1 1.9652 11229 | 1/56
96 h-m-p 1.6000 8.0000 0.0253 C 10587.371980 0 1.7339 11343 | 1/56
97 h-m-p 1.6000 8.0000 0.0015 YC 10587.367886 1 3.3202 11458 | 1/56
98 h-m-p 1.6000 8.0000 0.0022 YC 10587.359331 1 3.9819 11573 | 1/56
99 h-m-p 0.9318 8.0000 0.0096 YC 10587.352164 1 2.0750 11688 | 1/56
100 h-m-p 1.6000 8.0000 0.0055 C 10587.349465 0 1.9680 11802 | 1/56
101 h-m-p 1.6000 8.0000 0.0044 YC 10587.346934 1 3.3023 11917 | 1/56
102 h-m-p 1.6000 8.0000 0.0017 YC 10587.343615 1 3.0802 12032 | 1/56
103 h-m-p 1.0181 8.0000 0.0053 +YC 10587.340005 1 3.1035 12148 | 1/56
104 h-m-p 1.6000 8.0000 0.0022 C 10587.338834 0 1.6837 12262 | 1/56
105 h-m-p 1.6000 8.0000 0.0004 YC 10587.338214 1 2.9245 12377 | 1/56
106 h-m-p 0.6055 8.0000 0.0021 +C 10587.337681 0 2.7122 12492 | 1/56
107 h-m-p 1.6000 8.0000 0.0026 +YC 10587.336622 1 4.8098 12608 | 1/56
108 h-m-p 1.6000 8.0000 0.0047 YC 10587.334784 1 3.3953 12723 | 1/56
109 h-m-p 1.6000 8.0000 0.0065 C 10587.334200 0 1.6616 12837 | 1/56
110 h-m-p 1.6000 8.0000 0.0006 C 10587.334090 0 2.0440 12951 | 1/56
111 h-m-p 1.4037 8.0000 0.0008 ++ 10587.333716 m 8.0000 13065 | 1/56
112 h-m-p 1.6000 8.0000 0.0005 C 10587.333508 0 1.7084 13179 | 1/56
113 h-m-p 1.6000 8.0000 0.0002 Y 10587.333499 0 1.0877 13293 | 1/56
114 h-m-p 1.6000 8.0000 0.0001 C 10587.333497 0 2.4251 13407 | 1/56
115 h-m-p 1.6000 8.0000 0.0001 -C 10587.333497 0 0.1143 13522 | 1/56
116 h-m-p 0.1911 8.0000 0.0000 ---------------.. | 1/56
117 h-m-p 0.0000 0.0111 0.6059 --------
Out..
lnL = -10587.333497
13770 lfun, 55080 eigenQcodon, 2106810 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) = -10597.206858 S = -10026.815599 -561.964441
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 483 patterns 50:22
did 20 / 483 patterns 50:22
did 30 / 483 patterns 50:22
did 40 / 483 patterns 50:22
did 50 / 483 patterns 50:22
did 60 / 483 patterns 50:22
did 70 / 483 patterns 50:22
did 80 / 483 patterns 50:22
did 90 / 483 patterns 50:22
did 100 / 483 patterns 50:22
did 110 / 483 patterns 50:23
did 120 / 483 patterns 50:23
did 130 / 483 patterns 50:23
did 140 / 483 patterns 50:23
did 150 / 483 patterns 50:23
did 160 / 483 patterns 50:23
did 170 / 483 patterns 50:23
did 180 / 483 patterns 50:23
did 190 / 483 patterns 50:23
did 200 / 483 patterns 50:23
did 210 / 483 patterns 50:23
did 220 / 483 patterns 50:23
did 230 / 483 patterns 50:23
did 240 / 483 patterns 50:23
did 250 / 483 patterns 50:23
did 260 / 483 patterns 50:23
did 270 / 483 patterns 50:23
did 280 / 483 patterns 50:23
did 290 / 483 patterns 50:23
did 300 / 483 patterns 50:23
did 310 / 483 patterns 50:24
did 320 / 483 patterns 50:24
did 330 / 483 patterns 50:24
did 340 / 483 patterns 50:24
did 350 / 483 patterns 50:24
did 360 / 483 patterns 50:24
did 370 / 483 patterns 50:24
did 380 / 483 patterns 50:24
did 390 / 483 patterns 50:24
did 400 / 483 patterns 50:24
did 410 / 483 patterns 50:24
did 420 / 483 patterns 50:24
did 430 / 483 patterns 50:24
did 440 / 483 patterns 50:24
did 450 / 483 patterns 50:24
did 460 / 483 patterns 50:24
did 470 / 483 patterns 50:24
did 480 / 483 patterns 50:24
did 483 / 483 patterns 50:24end of tree file.
Time used: 50:25
Model 7: beta
TREE # 1
(12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.064324 0.091524 0.080907 0.065406 0.073038 0.013521 0.097836 0.068482 0.078366 0.050671 0.022349 0.053262 0.038927 0.043018 0.013806 0.055826 0.047967 0.029853 0.052880 0.091810 0.044700 0.036675 0.059891 0.012259 0.043921 0.080797 0.011858 0.074226 0.063555 0.031545 0.025484 0.099557 0.104862 0.035986 0.048232 0.070291 0.014946 0.096118 0.074704 0.084126 0.036289 0.058463 0.080498 0.068379 0.022982 0.052002 0.040730 0.025875 0.078337 0.085385 0.075415 2.972352 0.712101 1.335806
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 = 6.876748
np = 54
lnL0 = -12466.483497
Iterating by ming2
Initial: fx= 12466.483497
x= 0.06432 0.09152 0.08091 0.06541 0.07304 0.01352 0.09784 0.06848 0.07837 0.05067 0.02235 0.05326 0.03893 0.04302 0.01381 0.05583 0.04797 0.02985 0.05288 0.09181 0.04470 0.03668 0.05989 0.01226 0.04392 0.08080 0.01186 0.07423 0.06356 0.03155 0.02548 0.09956 0.10486 0.03599 0.04823 0.07029 0.01495 0.09612 0.07470 0.08413 0.03629 0.05846 0.08050 0.06838 0.02298 0.05200 0.04073 0.02587 0.07834 0.08538 0.07542 2.97235 0.71210 1.33581
1 h-m-p 0.0000 0.0000 5839.8301 ++ 12054.844092 m 0.0000 113 | 0/54
2 h-m-p 0.0000 0.0000 33812.1867 ++ 11880.425248 m 0.0000 224 | 0/54
3 h-m-p 0.0000 0.0000 57955.7451 ++ 11420.196700 m 0.0000 335 | 0/54
4 h-m-p 0.0000 0.0000 159519.4327 +YCYCCC 11412.065409 5 0.0000 455 | 0/54
5 h-m-p 0.0000 0.0000 345944.9178 +CYCCC 11401.483237 4 0.0000 574 | 0/54
6 h-m-p 0.0000 0.0000 400910.1552 ++ 11357.450705 m 0.0000 685 | 0/54
7 h-m-p 0.0000 0.0000 62270.0494 +YYYCC 11341.894150 4 0.0000 802 | 0/54
8 h-m-p 0.0000 0.0000 160199.3442 ++ 11313.989877 m 0.0000 913 | 0/54
9 h-m-p 0.0000 0.0000 189383.5506
h-m-p: 9.51364080e-25 4.75682040e-24 1.89383551e+05 11313.989877
.. | 0/54
10 h-m-p 0.0000 0.0000 54829.9265 CYYCYCCCC 11252.340240 8 0.0000 1145 | 0/54
11 h-m-p 0.0000 0.0000 4983.8248 ++ 11046.336549 m 0.0000 1256 | 0/54
12 h-m-p 0.0000 0.0000 133950.0827 ++ 11024.150584 m 0.0000 1367 | 0/54
13 h-m-p 0.0000 0.0000 97509.3960 ++ 11002.308657 m 0.0000 1478 | 0/54
14 h-m-p 0.0000 0.0000 62310.2932 ++ 10986.318257 m 0.0000 1589 | 0/54
15 h-m-p 0.0000 0.0000 36251.8968 +CYCYCCC 10931.653777 6 0.0000 1711 | 0/54
16 h-m-p 0.0000 0.0000 93941.3672 +YYYCCC 10926.206915 5 0.0000 1830 | 0/54
17 h-m-p 0.0000 0.0000 237098.4640 +YYCYCCC 10885.405100 6 0.0000 1951 | 0/54
18 h-m-p 0.0000 0.0000 218675.3875 +YYC 10883.074634 2 0.0000 2065 | 0/54
19 h-m-p 0.0000 0.0000 89632.2374 ++ 10848.329026 m 0.0000 2176 | 1/54
20 h-m-p 0.0000 0.0000 18819.9232 +YCYCCC 10823.258353 5 0.0000 2296 | 1/54
21 h-m-p 0.0000 0.0000 22608.2041 +CYYC 10816.693053 3 0.0000 2411 | 1/54
22 h-m-p 0.0000 0.0000 17839.7285 +YCYCCC 10793.693399 5 0.0000 2530 | 1/54
23 h-m-p 0.0000 0.0000 9709.2865 +YYYYCYCCC 10780.501344 8 0.0000 2652 | 1/54
24 h-m-p 0.0000 0.0000 11821.3311 +YYCYYCCC 10767.330171 7 0.0000 2773 | 1/54
25 h-m-p 0.0000 0.0000 5938.6564 +YYYYCYCCC 10750.488802 8 0.0000 2895 | 1/54
26 h-m-p 0.0000 0.0000 2672.3651 +YYCCC 10744.609615 4 0.0000 3012 | 1/54
27 h-m-p 0.0000 0.0000 7616.3344 +YCCC 10740.182418 3 0.0000 3128 | 1/54
28 h-m-p 0.0000 0.0000 3318.1304 +YYCCC 10736.771069 4 0.0000 3245 | 1/54
29 h-m-p 0.0000 0.0000 6118.7229 CCC 10734.316383 2 0.0000 3359 | 1/54
30 h-m-p 0.0000 0.0000 1575.5806 CCCC 10733.194895 3 0.0000 3475 | 1/54
31 h-m-p 0.0000 0.0000 1135.3455 CCC 10732.366796 2 0.0000 3589 | 1/54
32 h-m-p 0.0000 0.0001 1008.6812 YC 10730.628354 1 0.0000 3700 | 1/54
33 h-m-p 0.0000 0.0000 1574.2508 YCCCC 10729.848622 4 0.0000 3817 | 1/54
34 h-m-p 0.0000 0.0001 556.0714 CCCC 10728.399405 3 0.0000 3933 | 1/54
35 h-m-p 0.0000 0.0000 1619.6559 CC 10727.807895 1 0.0000 4045 | 1/54
36 h-m-p 0.0000 0.0000 1304.1708 YC 10726.272987 1 0.0000 4156 | 1/54
37 h-m-p 0.0000 0.0001 857.2617 YC 10723.108589 1 0.0000 4267 | 1/54
38 h-m-p 0.0000 0.0000 2059.6893 CCCC 10720.766031 3 0.0000 4383 | 1/54
39 h-m-p 0.0000 0.0001 1139.7277 YCCC 10716.103087 3 0.0000 4498 | 1/54
40 h-m-p 0.0000 0.0000 3771.1684 YC 10709.439995 1 0.0000 4609 | 1/54
41 h-m-p 0.0000 0.0000 1576.1780 YCCC 10706.624475 3 0.0000 4724 | 1/54
42 h-m-p 0.0000 0.0001 1137.6901 CYC 10705.703093 2 0.0000 4837 | 1/54
43 h-m-p 0.0000 0.0000 1169.6621 YCCC 10704.011577 3 0.0000 4952 | 1/54
44 h-m-p 0.0000 0.0001 1272.5472 YCCC 10701.803635 3 0.0000 5067 | 1/54
45 h-m-p 0.0000 0.0001 2195.2759 YCCCC 10697.822717 4 0.0000 5184 | 1/54
46 h-m-p 0.0000 0.0000 2566.9421 CCCC 10695.127597 3 0.0000 5300 | 1/54
47 h-m-p 0.0000 0.0001 2514.3223 CCCC 10691.860413 3 0.0000 5416 | 1/54
48 h-m-p 0.0000 0.0001 1140.7122 CCC 10691.022972 2 0.0000 5530 | 1/54
49 h-m-p 0.0000 0.0002 315.7488 YC 10690.752257 1 0.0000 5641 | 1/54
50 h-m-p 0.0001 0.0004 102.7002 CC 10690.696529 1 0.0000 5753 | 1/54
51 h-m-p 0.0000 0.0009 50.9938 YC 10690.671548 1 0.0000 5864 | 1/54
52 h-m-p 0.0000 0.0026 49.6150 +CC 10690.557316 1 0.0001 5977 | 1/54
53 h-m-p 0.0000 0.0009 349.0535 +YCCC 10689.717378 3 0.0001 6093 | 1/54
54 h-m-p 0.0000 0.0002 2766.2040 +YYYC 10686.588122 3 0.0001 6207 | 1/54
55 h-m-p 0.0000 0.0001 4389.8967 CYCCC 10682.677852 4 0.0000 6324 | 1/54
56 h-m-p 0.0000 0.0001 4588.5558 CCC 10681.457798 2 0.0000 6438 | 1/54
57 h-m-p 0.0000 0.0002 1250.8491 CC 10681.104337 1 0.0000 6550 | 1/54
58 h-m-p 0.0001 0.0009 170.6268 YC 10681.045628 1 0.0000 6661 | 1/54
59 h-m-p 0.0004 0.0052 9.2826 YC 10680.986540 1 0.0002 6772 | 1/54
60 h-m-p 0.0001 0.0024 29.6500 +CC 10680.460016 1 0.0002 6885 | 1/54
61 h-m-p 0.0000 0.0005 266.2462 ++YCYCC 10671.333135 4 0.0003 7003 | 1/54
62 h-m-p 0.0000 0.0000 1222.5748 +YCYCCC 10666.596227 5 0.0000 7122 | 1/54
63 h-m-p 0.0002 0.0009 46.9728 YC 10666.566653 1 0.0000 7233 | 1/54
64 h-m-p 0.0007 0.2329 1.7446 ++++YYCCC 10657.898465 4 0.1481 7353 | 1/54
65 h-m-p 0.0729 0.3643 2.4001 YCYCYC 10639.407406 5 0.1881 7471 | 1/54
66 h-m-p 0.0930 0.4649 1.4613 CCCCC 10635.954868 4 0.1199 7589 | 1/54
67 h-m-p 0.0347 0.3803 5.0442 CYCC 10632.225814 3 0.0451 7704 | 1/54
68 h-m-p 0.0807 0.7912 2.8178 YCCC 10627.980250 3 0.1623 7819 | 1/54
69 h-m-p 0.2688 1.3439 0.6455 YCCC 10623.739569 3 0.5403 7934 | 1/54
70 h-m-p 0.4415 2.2073 0.0886 CCCCC 10621.635200 4 0.5425 8052 | 1/54
71 h-m-p 0.3267 2.2657 0.1471 CCCC 10619.534262 3 0.5823 8168 | 1/54
72 h-m-p 0.4058 2.0288 0.0734 YCYCCC 10616.561167 5 1.0529 8286 | 1/54
73 h-m-p 0.3452 1.7261 0.0431 CCCCC 10614.912275 4 0.3817 8404 | 1/54
74 h-m-p 0.1245 1.2655 0.1323 +YYYC 10612.488677 3 0.4772 8518 | 1/54
75 h-m-p 0.5595 2.7977 0.0407 YCCC 10609.162784 3 1.2004 8633 | 1/54
76 h-m-p 0.8631 4.3157 0.0459 CCY 10608.723075 2 0.8426 8747 | 1/54
77 h-m-p 0.9362 5.2526 0.0413 YC 10608.542380 1 0.5489 8858 | 1/54
78 h-m-p 1.6000 8.0000 0.0079 CYC 10608.363596 2 1.4473 8971 | 1/54
79 h-m-p 1.6000 8.0000 0.0026 CCC 10608.029926 2 2.0750 9085 | 1/54
80 h-m-p 0.5293 7.6289 0.0101 YC 10607.748225 1 1.2836 9196 | 1/54
81 h-m-p 1.0177 5.0885 0.0103 CCC 10607.384962 2 1.4091 9310 | 1/54
82 h-m-p 0.8019 7.4980 0.0181 YCC 10606.968545 2 1.6685 9423 | 1/54
83 h-m-p 1.1664 5.8318 0.0139 YYC 10606.591005 2 1.0493 9535 | 1/54
84 h-m-p 0.3314 5.4096 0.0439 +YC 10606.316287 1 0.8598 9647 | 1/54
85 h-m-p 0.9044 4.5221 0.0338 CCC 10606.032836 2 0.7684 9761 | 1/54
86 h-m-p 1.6000 8.0000 0.0162 CC 10605.772746 1 1.3898 9873 | 1/54
87 h-m-p 1.6000 8.0000 0.0140 CC 10605.629999 1 1.6886 9985 | 1/54
88 h-m-p 1.6000 8.0000 0.0040 CC 10605.442600 1 2.1683 10097 | 1/54
89 h-m-p 0.5275 8.0000 0.0165 +YYYY 10605.237900 3 2.1099 10211 | 1/54
90 h-m-p 1.6000 8.0000 0.0143 CC 10605.042887 1 2.2821 10323 | 1/54
91 h-m-p 1.6000 8.0000 0.0048 YCCC 10604.766567 3 2.8955 10438 | 1/54
92 h-m-p 1.3154 8.0000 0.0106 CCC 10604.544252 2 2.0678 10552 | 1/54
93 h-m-p 1.4680 8.0000 0.0149 CCC 10604.437256 2 1.7947 10666 | 1/54
94 h-m-p 1.6000 8.0000 0.0106 CCC 10604.320411 2 2.0490 10780 | 1/54
95 h-m-p 1.6000 8.0000 0.0058 CCC 10604.223077 2 2.2160 10894 | 1/54
96 h-m-p 1.6000 8.0000 0.0033 YC 10604.096113 1 2.7549 11005 | 1/54
97 h-m-p 1.3961 8.0000 0.0066 CC 10604.017552 1 1.6916 11117 | 1/54
98 h-m-p 1.6000 8.0000 0.0067 CC 10603.988126 1 1.7754 11229 | 1/54
99 h-m-p 1.6000 8.0000 0.0073 CYC 10603.964680 2 1.9953 11342 | 1/54
100 h-m-p 1.6000 8.0000 0.0019 CC 10603.955027 1 1.8435 11454 | 1/54
101 h-m-p 1.6000 8.0000 0.0005 +YC 10603.939759 1 5.1279 11566 | 1/54
102 h-m-p 1.2459 8.0000 0.0022 +YC 10603.913128 1 3.3966 11678 | 1/54
103 h-m-p 1.6000 8.0000 0.0006 CC 10603.900926 1 1.3268 11790 | 1/54
104 h-m-p 0.0819 8.0000 0.0104 ++C 10603.890097 0 1.3109 11902 | 1/54
105 h-m-p 1.6000 8.0000 0.0041 CC 10603.878766 1 1.9121 12014 | 1/54
106 h-m-p 1.6000 8.0000 0.0012 YC 10603.863662 1 3.9713 12125 | 1/54
107 h-m-p 0.6632 8.0000 0.0072 +YC 10603.816671 1 4.0545 12237 | 1/54
108 h-m-p 1.6000 8.0000 0.0011 YCC 10603.680768 2 2.9390 12350 | 1/54
109 h-m-p 0.1586 8.0000 0.0209 +YC 10603.598706 1 1.2511 12462 | 1/54
110 h-m-p 1.6000 8.0000 0.0116 YYC 10603.558756 2 1.0831 12574 | 1/54
111 h-m-p 1.6000 8.0000 0.0036 +YC 10603.493757 1 4.4083 12686 | 1/54
112 h-m-p 1.6000 8.0000 0.0074 YCCC 10603.379206 3 3.8343 12801 | 1/54
113 h-m-p 1.6000 8.0000 0.0110 YYC 10603.343611 2 1.2679 12913 | 1/54
114 h-m-p 1.6000 8.0000 0.0032 YC 10603.332192 1 0.6651 13024 | 1/54
115 h-m-p 0.4042 8.0000 0.0053 +YY 10603.319318 1 1.6167 13136 | 1/54
116 h-m-p 1.6000 8.0000 0.0009 C 10603.314011 0 1.6189 13246 | 1/54
117 h-m-p 1.0887 8.0000 0.0013 C 10603.312881 0 1.1666 13356 | 1/54
118 h-m-p 1.6000 8.0000 0.0006 C 10603.312022 0 2.2752 13466 | 1/54
119 h-m-p 1.6000 8.0000 0.0006 YC 10603.310029 1 3.7583 13577 | 1/54
120 h-m-p 1.6000 8.0000 0.0006 C 10603.308922 0 2.0537 13687 | 1/54
121 h-m-p 1.6000 8.0000 0.0003 C 10603.308231 0 2.4600 13797 | 1/54
122 h-m-p 1.6000 8.0000 0.0003 YC 10603.307552 1 3.4471 13908 | 1/54
123 h-m-p 1.6000 8.0000 0.0002 Y 10603.306988 0 2.8174 14018 | 1/54
124 h-m-p 1.6000 8.0000 0.0001 +C 10603.305772 0 6.4933 14129 | 1/54
125 h-m-p 1.6000 8.0000 0.0005 ++ 10603.297930 m 8.0000 14239 | 1/54
126 h-m-p 1.3739 8.0000 0.0028 C 10603.291463 0 1.4625 14349 | 1/54
127 h-m-p 1.6000 8.0000 0.0017 C 10603.289060 0 1.8632 14459 | 1/54
128 h-m-p 1.6000 8.0000 0.0008 C 10603.288369 0 2.4032 14569 | 1/54
129 h-m-p 1.6000 8.0000 0.0007 C 10603.287982 0 2.5179 14679 | 1/54
130 h-m-p 1.6000 8.0000 0.0001 C 10603.287902 0 1.3676 14789 | 1/54
131 h-m-p 0.9620 8.0000 0.0002 ++ 10603.287745 m 8.0000 14899 | 1/54
132 h-m-p 1.5306 8.0000 0.0008 Y 10603.287743 0 0.1966 15009 | 1/54
133 h-m-p 0.1390 8.0000 0.0011 ---------C 10603.287743 0 0.0000 15128 | 1/54
134 h-m-p 0.0160 8.0000 0.0006 ++Y 10603.287702 0 0.4271 15240 | 1/54
135 h-m-p 1.6000 8.0000 0.0000 C 10603.287698 0 1.8905 15350 | 1/54
136 h-m-p 1.6000 8.0000 0.0000 Y 10603.287698 0 0.7358 15460 | 1/54
137 h-m-p 1.0556 8.0000 0.0000 C 10603.287698 0 1.6327 15570 | 1/54
138 h-m-p 1.6000 8.0000 0.0000 Y 10603.287698 0 1.0450 15680 | 1/54
139 h-m-p 1.6000 8.0000 0.0000 +C 10603.287698 0 6.4000 15791 | 1/54
140 h-m-p 0.8086 8.0000 0.0000 -----Y 10603.287698 0 0.0002 15906
Out..
lnL = -10603.287698
15907 lfun, 174977 eigenQcodon, 8112570 P(t)
end of tree file.
Time used: 3:01:15
Model 8: beta&w>1
TREE # 1
(12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
1 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
40
0.089356 0.038889 0.010827 0.042303 0.065331 0.045461 0.075331 0.060362 0.076066 0.098489 0.027491 0.015918 0.089352 0.065048 0.044365 0.049299 0.060675 0.013409 0.086977 0.037371 0.015780 0.105482 0.026000 0.012115 0.069067 0.011434 0.086863 0.038082 0.088779 0.088670 0.062734 0.078431 0.094889 0.042339 0.018812 0.054224 0.050653 0.059588 0.086364 0.076669 0.083739 0.084724 0.019942 0.107002 0.047898 0.077486 0.066230 0.073694 0.011088 0.071604 0.067940 2.872595 0.900000 0.616688 1.210082 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 = 6.175773
np = 56
lnL0 = -12391.347642
Iterating by ming2
Initial: fx= 12391.347642
x= 0.08936 0.03889 0.01083 0.04230 0.06533 0.04546 0.07533 0.06036 0.07607 0.09849 0.02749 0.01592 0.08935 0.06505 0.04436 0.04930 0.06068 0.01341 0.08698 0.03737 0.01578 0.10548 0.02600 0.01211 0.06907 0.01143 0.08686 0.03808 0.08878 0.08867 0.06273 0.07843 0.09489 0.04234 0.01881 0.05422 0.05065 0.05959 0.08636 0.07667 0.08374 0.08472 0.01994 0.10700 0.04790 0.07749 0.06623 0.07369 0.01109 0.07160 0.06794 2.87260 0.90000 0.61669 1.21008 1.30000
1 h-m-p 0.0000 0.0000 5744.2700 ++ 12019.396825 m 0.0000 117 | 1/56
2 h-m-p 0.0000 0.0000 11797.6328 ++ 11710.743066 m 0.0000 232 | 1/56
3 h-m-p 0.0000 0.0000 639344.0320 +YCCYY 11696.547070 4 0.0000 354 | 1/56
4 h-m-p 0.0000 0.0000 134642.8060 ++ 11685.087225 m 0.0000 468 | 1/56
5 h-m-p -0.0000 -0.0000 1647412.1808
h-m-p: -1.98416025e-26 -9.92080126e-26 1.64741218e+06 11685.087225
.. | 1/56
6 h-m-p 0.0000 0.0000 376264.8494 --YYCYYYC 11669.210697 6 0.0000 703 | 1/56
7 h-m-p 0.0000 0.0000 4865.2043 ++ 11569.779300 m 0.0000 817 | 0/56
8 h-m-p 0.0000 0.0000 56433.7704 ++ 11415.797291 m 0.0000 931 | 0/56
9 h-m-p 0.0000 0.0000 177130.9958 ++ 11365.044871 m 0.0000 1046 | 0/56
10 h-m-p 0.0000 0.0000 131977.9160 ++ 11245.812109 m 0.0000 1161 | 0/56
11 h-m-p 0.0000 0.0000 37501.2474 ++ 11158.685273 m 0.0000 1276 | 0/56
12 h-m-p 0.0000 0.0000 62835.5232 ++ 11042.064928 m 0.0000 1391 | 0/56
13 h-m-p 0.0000 0.0000 44978.0213 ++ 10991.441787 m 0.0000 1506 | 0/56
14 h-m-p 0.0000 0.0000 60178.1224 ++ 10981.212988 m 0.0000 1621 | 1/56
15 h-m-p 0.0000 0.0000 20766.5290 ++ 10946.834435 m 0.0000 1736 | 1/56
16 h-m-p 0.0000 0.0000 37280.4041 +CCYCYC 10910.510854 5 0.0000 1859 | 1/56
17 h-m-p 0.0000 0.0000 70786.7352 ++ 10880.984992 m 0.0000 1973 | 1/56
18 h-m-p 0.0000 0.0000 113404.9709 +YYYYCC 10872.945063 5 0.0000 2094 | 1/56
19 h-m-p 0.0000 0.0000 25575.9598 ++ 10852.216985 m 0.0000 2208 | 1/56
20 h-m-p 0.0000 0.0000 31790.3397
h-m-p: 3.58055327e-24 1.79027664e-23 3.17903397e+04 10852.216985
.. | 1/56
21 h-m-p 0.0000 0.0000 9536.5711 YYCCCCC 10835.893664 6 0.0000 2443 | 1/56
22 h-m-p 0.0000 0.0000 3233.6776 ++ 10806.388546 m 0.0000 2557 | 1/56
23 h-m-p 0.0000 0.0000 274752.3151 +YYYYC 10793.658720 4 0.0000 2676 | 1/56
24 h-m-p 0.0000 0.0000 33717.3133 +YYCCC 10787.669094 4 0.0000 2797 | 1/56
25 h-m-p 0.0000 0.0000 26371.3948 +YYYCCC 10775.273372 5 0.0000 2919 | 1/56
26 h-m-p 0.0000 0.0000 22105.3203 +CYYYC 10753.091525 4 0.0000 3040 | 1/56
27 h-m-p 0.0000 0.0000 6094.2524 +YYYCCC 10745.974598 5 0.0000 3162 | 1/56
28 h-m-p 0.0000 0.0000 6061.4066 +CYCYCCC 10733.881734 6 0.0000 3287 | 1/56
29 h-m-p 0.0000 0.0000 58679.4191 YCCCC 10725.776393 4 0.0000 3408 | 1/56
30 h-m-p 0.0000 0.0000 3843.1332 +YYCYC 10717.555040 4 0.0000 3528 | 1/56
31 h-m-p 0.0000 0.0000 14241.7335 YCYCCC 10708.639578 5 0.0000 3650 | 1/56
32 h-m-p 0.0000 0.0000 7760.3951 +YYCCC 10703.536605 4 0.0000 3771 | 1/56
33 h-m-p 0.0000 0.0000 4012.5112 +YCYC 10701.919064 3 0.0000 3890 | 1/56
34 h-m-p 0.0000 0.0000 604.3584 YCCC 10700.878368 3 0.0000 4009 | 1/56
35 h-m-p 0.0000 0.0000 4096.2160 CCCC 10698.187263 3 0.0000 4129 | 1/56
36 h-m-p 0.0000 0.0000 3208.8671 CYC 10697.207335 2 0.0000 4246 | 1/56
37 h-m-p 0.0000 0.0000 1883.4786 YCCC 10696.194494 3 0.0000 4365 | 1/56
38 h-m-p 0.0000 0.0000 3645.6372 YCCC 10694.712219 3 0.0000 4484 | 1/56
39 h-m-p 0.0000 0.0000 4465.2666 CCC 10692.949926 2 0.0000 4602 | 1/56
40 h-m-p 0.0000 0.0000 3609.6652 YCCC 10691.119076 3 0.0000 4721 | 1/56
41 h-m-p 0.0000 0.0000 5509.5279 +YCCC 10688.964979 3 0.0000 4841 | 1/56
42 h-m-p 0.0000 0.0000 3910.2300 YCCC 10686.454268 3 0.0000 4960 | 1/56
43 h-m-p 0.0000 0.0000 8630.7020 YCCCC 10682.208140 4 0.0000 5081 | 1/56
44 h-m-p 0.0000 0.0000 6916.3039 +YYCCC 10677.475470 4 0.0000 5202 | 1/56
45 h-m-p 0.0000 0.0000 10681.9257 YCCC 10673.211146 3 0.0000 5321 | 1/56
46 h-m-p 0.0000 0.0000 1911.1790 +YCYC 10669.774217 3 0.0000 5440 | 1/56
47 h-m-p 0.0000 0.0000 3611.9565 YCC 10667.648486 2 0.0000 5557 | 1/56
48 h-m-p 0.0000 0.0000 1161.5894 CCCC 10666.540506 3 0.0000 5677 | 1/56
49 h-m-p 0.0000 0.0000 1167.3669 YCCCC 10664.448793 4 0.0000 5798 | 1/56
50 h-m-p 0.0000 0.0000 4120.0891 CC 10662.846299 1 0.0000 5914 | 1/56
51 h-m-p 0.0000 0.0001 3563.1597 YCCC 10655.325012 3 0.0000 6033 | 1/56
52 h-m-p 0.0000 0.0000 5275.3657 YCCCC 10647.830923 4 0.0000 6154 | 1/56
53 h-m-p 0.0000 0.0000 7103.9716 CCCC 10642.083599 3 0.0000 6274 | 1/56
54 h-m-p 0.0000 0.0000 1423.0063 CCCC 10641.242316 3 0.0000 6394 | 1/56
55 h-m-p 0.0000 0.0001 609.0528 YCC 10640.894759 2 0.0000 6511 | 1/56
56 h-m-p 0.0000 0.0002 414.0675 C 10640.607104 0 0.0000 6625 | 1/56
57 h-m-p 0.0000 0.0004 165.2292 CC 10640.535308 1 0.0000 6741 | 1/56
58 h-m-p 0.0000 0.0005 198.5646 YC 10640.364609 1 0.0000 6856 | 1/56
59 h-m-p 0.0000 0.0001 339.8193 YC 10640.255130 1 0.0000 6971 | 1/56
60 h-m-p 0.0000 0.0002 314.4644 +YCC 10639.974134 2 0.0000 7089 | 1/56
61 h-m-p 0.0000 0.0002 1000.4519 +YYC 10638.963421 2 0.0000 7206 | 1/56
62 h-m-p 0.0000 0.0000 2705.1922 YCYCCC 10637.412498 5 0.0000 7328 | 1/56
63 h-m-p 0.0000 0.0001 13134.1026 YCCCC 10628.143452 4 0.0000 7449 | 1/56
64 h-m-p 0.0000 0.0000 43943.0819 CCC 10617.744130 2 0.0000 7567 | 1/56
65 h-m-p 0.0000 0.0001 7381.1696 CCCC 10612.906483 3 0.0000 7687 | 1/56
66 h-m-p 0.0000 0.0001 1198.1071 YC 10612.642069 1 0.0000 7802 | 1/56
67 h-m-p 0.0001 0.0003 165.9666 C 10612.590550 0 0.0000 7916 | 1/56
68 h-m-p 0.0001 0.0013 20.9595 C 10612.585290 0 0.0000 8030 | 1/56
69 h-m-p 0.0000 0.0020 15.3211 YC 10612.577081 1 0.0001 8145 | 1/56
70 h-m-p 0.0000 0.0126 71.8953 ++YC 10612.136595 1 0.0008 8262 | 1/56
71 h-m-p 0.0000 0.0008 1989.0221 +CCC 10609.551134 2 0.0002 8381 | 1/56
72 h-m-p 0.0002 0.0009 183.7709 YC 10609.518561 1 0.0000 8496 | 1/56
73 h-m-p 0.0031 0.0553 1.4438 YC 10609.478532 1 0.0013 8611 | 1/56
74 h-m-p 0.0000 0.0067 50.8963 +++YYCCCC 10605.377772 5 0.0026 8736 | 1/56
75 h-m-p 0.0000 0.0002 1059.6752 CYC 10604.527908 2 0.0000 8853 | 1/56
76 h-m-p 0.0600 0.8222 0.4864 +YCY 10595.410110 2 0.4023 8971 | 1/56
77 h-m-p 0.1852 2.9421 1.0566 CCC 10594.414646 2 0.2480 9089 | 1/56
78 h-m-p 0.1786 1.1820 1.4670 CCC 10591.977891 2 0.2542 9207 | 1/56
79 h-m-p 0.5022 2.5108 0.1965 YCCCC 10590.129745 4 0.9536 9328 | 1/56
80 h-m-p 0.8633 4.3163 0.0548 CCCC 10589.450889 3 1.2107 9448 | 1/56
81 h-m-p 1.3641 7.4282 0.0486 YCC 10589.267108 2 1.0217 9565 | 1/56
82 h-m-p 1.0939 8.0000 0.0454 CC 10589.120245 1 1.2849 9681 | 1/56
83 h-m-p 1.6000 8.0000 0.0294 CC 10589.010711 1 1.8291 9797 | 1/56
84 h-m-p 1.3198 8.0000 0.0407 C 10588.928972 0 1.3198 9911 | 1/56
85 h-m-p 1.6000 8.0000 0.0233 CC 10588.871449 1 1.4460 10027 | 1/56
86 h-m-p 1.2771 8.0000 0.0264 CC 10588.827520 1 1.8815 10143 | 1/56
87 h-m-p 1.6000 8.0000 0.0241 YC 10588.764417 1 2.6282 10258 | 1/56
88 h-m-p 1.5201 8.0000 0.0416 CY 10588.688197 1 1.6957 10374 | 1/56
89 h-m-p 1.3857 8.0000 0.0509 CC 10588.593031 1 2.1637 10490 | 1/56
90 h-m-p 1.6000 8.0000 0.0266 CC 10588.536102 1 2.4995 10606 | 1/56
91 h-m-p 1.1447 8.0000 0.0580 YC 10588.454283 1 2.7837 10721 | 1/56
92 h-m-p 1.6000 8.0000 0.0931 CCC 10588.355420 2 2.3255 10839 | 1/56
93 h-m-p 1.6000 8.0000 0.1322 YYYC 10588.283078 3 1.4570 10956 | 1/56
94 h-m-p 1.6000 8.0000 0.0317 YC 10588.256090 1 0.6799 11071 | 1/56
95 h-m-p 0.1679 8.0000 0.1284 +CCC 10588.231820 2 1.0492 11190 | 1/56
96 h-m-p 1.6000 8.0000 0.0350 CC 10588.218028 1 1.8721 11306 | 1/56
97 h-m-p 1.1575 8.0000 0.0566 Y 10588.213720 0 1.1575 11420 | 1/56
98 h-m-p 1.6000 8.0000 0.0106 YC 10588.211965 1 0.9703 11535 | 1/56
99 h-m-p 0.5620 8.0000 0.0184 YC 10588.210890 1 1.2195 11650 | 1/56
100 h-m-p 1.6000 8.0000 0.0062 Y 10588.210419 0 1.1703 11764 | 1/56
101 h-m-p 1.6000 8.0000 0.0032 Y 10588.210293 0 1.1430 11878 | 1/56
102 h-m-p 1.6000 8.0000 0.0010 C 10588.210229 0 1.7961 11992 | 1/56
103 h-m-p 1.6000 8.0000 0.0002 C 10588.210200 0 1.9873 12106 | 1/56
104 h-m-p 0.7707 8.0000 0.0005 +Y 10588.210174 0 2.5703 12221 | 1/56
105 h-m-p 1.1272 8.0000 0.0011 Y 10588.210153 0 2.4761 12335 | 1/56
106 h-m-p 1.6000 8.0000 0.0005 C 10588.210139 0 1.9118 12449 | 1/56
107 h-m-p 1.6000 8.0000 0.0004 C 10588.210132 0 1.7733 12563 | 1/56
108 h-m-p 1.6000 8.0000 0.0003 Y 10588.210123 0 3.0124 12677 | 1/56
109 h-m-p 1.6000 8.0000 0.0005 C 10588.210115 0 2.4396 12791 | 1/56
110 h-m-p 1.6000 8.0000 0.0002 Y 10588.210104 0 2.8621 12905 | 1/56
111 h-m-p 1.6000 8.0000 0.0002 C 10588.210092 0 2.1338 13019 | 1/56
112 h-m-p 0.7657 8.0000 0.0005 +Y 10588.210086 0 2.2053 13134 | 1/56
113 h-m-p 1.6000 8.0000 0.0001 Y 10588.210085 0 0.9104 13248 | 1/56
114 h-m-p 0.4610 8.0000 0.0002 Y 10588.210085 0 0.8432 13362 | 1/56
115 h-m-p 1.1938 8.0000 0.0002 C 10588.210085 0 1.6091 13476 | 1/56
116 h-m-p 1.6000 8.0000 0.0000 ++ 10588.210083 m 8.0000 13590 | 1/56
117 h-m-p 1.6000 8.0000 0.0002 --Y 10588.210083 0 0.0160 13706 | 1/56
118 h-m-p 0.0160 8.0000 0.0004 -------------.. | 1/56
119 h-m-p 0.0000 0.0077 0.5539 --------
Out..
lnL = -10588.210083
13952 lfun, 167424 eigenQcodon, 7827072 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) = -10597.447223 S = -10026.571648 -571.420092
Calculating f(w|X), posterior probabilities of site classes.
did 10 / 483 patterns 4:54:09
did 20 / 483 patterns 4:54:09
did 30 / 483 patterns 4:54:10
did 40 / 483 patterns 4:54:10
did 50 / 483 patterns 4:54:10
did 60 / 483 patterns 4:54:10
did 70 / 483 patterns 4:54:10
did 80 / 483 patterns 4:54:10
did 90 / 483 patterns 4:54:11
did 100 / 483 patterns 4:54:11
did 110 / 483 patterns 4:54:11
did 120 / 483 patterns 4:54:11
did 130 / 483 patterns 4:54:11
did 140 / 483 patterns 4:54:12
did 150 / 483 patterns 4:54:12
did 160 / 483 patterns 4:54:12
did 170 / 483 patterns 4:54:12
did 180 / 483 patterns 4:54:12
did 190 / 483 patterns 4:54:13
did 200 / 483 patterns 4:54:13
did 210 / 483 patterns 4:54:13
did 220 / 483 patterns 4:54:13
did 230 / 483 patterns 4:54:13
did 240 / 483 patterns 4:54:13
did 250 / 483 patterns 4:54:14
did 260 / 483 patterns 4:54:14
did 270 / 483 patterns 4:54:14
did 280 / 483 patterns 4:54:14
did 290 / 483 patterns 4:54:14
did 300 / 483 patterns 4:54:15
did 310 / 483 patterns 4:54:15
did 320 / 483 patterns 4:54:15
did 330 / 483 patterns 4:54:15
did 340 / 483 patterns 4:54:15
did 350 / 483 patterns 4:54:16
did 360 / 483 patterns 4:54:16
did 370 / 483 patterns 4:54:16
did 380 / 483 patterns 4:54:16
did 390 / 483 patterns 4:54:16
did 400 / 483 patterns 4:54:16
did 410 / 483 patterns 4:54:17
did 420 / 483 patterns 4:54:17
did 430 / 483 patterns 4:54:17
did 440 / 483 patterns 4:54:17
did 450 / 483 patterns 4:54:17
did 460 / 483 patterns 4:54:18
did 470 / 483 patterns 4:54:18
did 480 / 483 patterns 4:54:18
did 483 / 483 patterns 4:54:18end of tree file.
Time used: 4:54:19
The loglikelihoods for models M1, M2, M7 and M8 are -10600.199588 -10587.333497 -10603.287698 -10588.210083 respectively
The loglikelihood for model M2a is significantly different from that for M1a. Twice the difference is 25.732182
The loglikelihood for model M8 is significantly different from that for M7. Twice the difference is 30.155230
CLUSTAL W (1.8) multiple sequence alignment (ALTER 1.3.3)
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV MKSLTYFWLFLPVLSTLTQPQNVTRGPPNTNFRRFFSKLKVQAPAFVERGGYLPIGENQG
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV MRSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSAKTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV MKSLTYFWLFLPVLSTLTQPQNVTRGSPNTNFRRFFSKLKVQAPAFVERGGYLPIGENQG
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCQLTTNFRRFFSKFNVQAPAVVVLGGYLPSMN---
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN---
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV MKSLTYFWLFLPLLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSASTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQG
*:**.*******:****: **:*** . ********::*****.* ***** :
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV -SSSWYCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAI
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV VNSTWNCAGQHPTARGVQGIFVTHIKGGQGFKIGISQNPFDPRGYHLYLHKATNGNTKAT
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV -SSSWYCGTGIETASGVHGIFLSYIDSGQGFEIGIAQEPFDPSGYQLYLHKDTNGNTGAT
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV -SSSWYCGTGLETASGVHGIFLSYIDSGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAI
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV VNSTWNCAGQHPTARGVQGIFVTHIKGGQGFKIGISQNPFDPRGYHLYLHKATNGNTKAT
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV -SSSWHCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAI
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV -SSSWYCGIGLETASGVHGIFLSYIDSGQGFEIGISQEPFDPSGYQLYLHKATNGNTDAV
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV -SSSWYCGTGLETASGVHGIFISYIDSGQGFEIGIAQEPFDPSGYQLYLYKATNGNTGAT
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV -SSSWYCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAI
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV VNSTWYCYGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV VNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNAT
.*:* * ** **:***:::* .*:**:***:*:**** **:***:* **** *
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV ARLRICQFPNNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFAD
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV ARLPICQFPTIKTLAPTANNDVTTGRNCLFNKPIPPHMIEHS--VAGITWNNDRVTAFSD
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDATTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV ARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV ARLRICQFPPNKTLGPSVG-HVTTGRNCLVNKAIPAYLRDRKNIVVGLTWDNDRVTVFAD
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV ARLRICQFPNNNTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFAD
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV ARLPICHFPTIKTLGPTANNDVTTGRNCLFNKPIPPHMIEHS--VAGITWDNDRVTVFSD
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV ARLRICQFPDNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFAD
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV ARLRICQFPDNKTLGPSSG--VTSGRNCLFNKAIPAHMQDRKNIVIGITWDNDRVTVFAD
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV ARLRICQFPPNKTLGPSVG-HVTTGRNCLVNKAIPAHLQDNKNIVVGLTWDNDRVTVFAD
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV ARLRICQFPDNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFAD
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV ARLRICQFPSIKTLSPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV ARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV ARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV ARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSD
*** **:** :**.*: . .*:*****.**.**.:: : . * *:**:*****.*:*
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV KIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV KIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYTLNVTSAGEDGISYQPCTANCIGYA
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYILNVTSAGEDGISYQPCTANCIGYA
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV KIHYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV KIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCLGYA
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV KIYHFYLKNEWSRVATRCYNSRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV KIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQLCTANCIGYA
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCTGYA
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV KIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV KIYHFYLKNDWSRVATICYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCIGYA
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV KIYHFYLKNEWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV KIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYA
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPIYYMLNVTSAGEDGISYQPCTANCIGYA
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYS
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCIANCIGYA
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV KIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV KIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTAKCIGYA
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV KIYYFYFKNEWSRVATKCYNSGGCAMQYVYEPTYYILNVTSAGEDGISYQPCTANCIGYS
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV KIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYA
**::**:**:****** ***. .******* * ** *********** *: * *:* **:
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV VNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSSQPLLVNCLLAIPKIYGLGQFFS
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV ANVFATEPNGHIPEGFSFNDWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV ANVFATELNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFS
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV VNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV ANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV ANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV VNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV ANVFATEPNGHIPEGFSFTNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV ANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFS
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFS
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV ANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFS
.*****: **********.:**********:******.**********:***********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV FNQTIDGVCNGAASQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILVEGSIVLHTALGTNFSFVCSNSSDPHSA
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLA
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSTDPHLA
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDISVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGAIVLHTALGTNLSFVCSNSSDPHLA
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV FNQTTDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLA
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFFFVCSNSSDPHLA
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTAFGTNLSFVCSNSSNPHLA
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV FNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFACSNSSDPHLA
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLA
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLA
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPRLA
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV FNQTIDGVCNGASAQRAPEALRVNINDTSIILAEGSIVLHTALGTNLSFVCSNSSDPHLA
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLA
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGANFSFVCSNSTEPHSA
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV FNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLA
**** *******: ********.**** *:**.**:******:*:*: *.****::*: *
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV TFAIPLGATQAPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGLGYLHLGL
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV TFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV TFAIPLGANQVPYYCFLKLDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV TFAIPLGATQVPYYCFFKVDTYNSTVYKFLAVSPPTVREIVITKYGDVYVNGFGYLHLGL
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGLGYLHLGL
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV TFAIPLGAIQVPYYCFFKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHIGL
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGS
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV TFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV TFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV TFAIPLGATQVPYYCFLKVDIHNSTVYKFLAVLPPTVREIVITKYGDVHVNGFGYLHLGL
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV TFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV TFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV TFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGL
**:***** *.*****:*:* :********** ***************:***:****:*
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSF
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTTIQRILYCDDPVSQLKCSQVAF
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSF
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQNAF
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSF
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV LDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAF
**************************************:****************** :*
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV DLDDGFYPISSTNLLSHEQPTSFVTLPAFNDHSFVNITVSAVFGGHSGANLIASDTTING
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPSSFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV DLDDGFYTISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPTSFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV DLDDGFYPIYSTNLLSHEQPTSFVTLPSFNDHSFVNITVSAAFGGHSGANLIASDTTING
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGPSGANIIASDTTING
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV DLDDGFYPISFTNLLSHEQPTSFVTLPAFNDHSFVNITVSAVFGGHSGANLIASDTTING
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGDHSGANLIASDTTING
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTING
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV DLDDGFYPISSTNLLSHEQPTSFVTLPSFNDHSFVNITVSAAFGGHSGANLIASDTTING
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVALPSFNDHSFVNITVSASFGDHSGANLIASDTTING
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVALPSFIDHSFVNITVSASFGGHSGANLIASDTTING
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV DLDDGFYPISSRNLLSHEQPISFVTPPSFNDHSFVNITVSASFGGHSGANLIASDTTING
*******.* ******** ***: *:* *********** **. ****:*********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV FSSFCVETKQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV FSSFCVDTRQFTISLFYNVTNIYGYVSYSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV FSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASA
******:*:************ ***** ********************************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTMDVCTKYTIYGFK
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTTYTIYGFK
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLVGVTDVSFMTLDVCTKYTIYGFK
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV CTIDLVGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV CTIDLFGYPEFGSDVKFTSLYFQFTKGELITGTPKPFEGVTDVSFMTLDVCTKYTIYGFK
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV CTIDLFGYPEFGGGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSSMTLDVCTKYTIYGFK
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVMDVSFMTLDVCTKYTIYGFR
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV CTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV CTIDLFGYPDFGSGVKLTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV CTIDLFGYPDFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFK
*****.***:**..**:*******************: ** *** **:****.******:
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV GEGVITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVMPCSFSEQAAYVDDDIVGVIS
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV GEGIITLTNSSFLAGFYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV GEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVIS
***:***********.*********************** ********************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV SLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV SLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIPPTV
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV SLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPMV
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV SLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVLSQSGQVKIAPTV
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVLSQSGQVKIAPTV
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIVPTV
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV SLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV SLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTV
***.******************************************* ******** * *
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYSAACKTIESALQ
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTHYTAACKTIESALQ
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV TGNISMPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLITQYTAACKTIESALQ
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCVTYVCNGNSRCKQLLTQYTAACKTIESALQ
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPFSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV TGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQ
*****:*******************.****.*************:*:*:***********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPAIGRVVQKRSFIE
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV LSARLESVEVNSMLTISDEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV LSARLESAEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV LSARLESAEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIE
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV LSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGWVVQKRSFIE
*******.*********:****************************** * *********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLT
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV DLLFNKVVTYGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCTNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLV
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVRPGVVDAEKLHMYSASLI
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV DLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLI
********* ************:******************* ****************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV GGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV GGMVLGGFTSAAALPFSDAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV GGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQMLAESFNSAIGNITSAFESVK
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV GGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV GGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQMLAESFNSAIGNITSAFESVK
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV GGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVK
*********:******* *********************:********************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAIFSSIDDIYSRLDILS
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALNQLTVQLQHNFQAISSSIDDIYSRLDILS
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHKFQAISSSIDDIYSRLDILS
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNIQTISSSIDDIYSRLDILS
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV EAISQTSKGLSTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAIASSIDDIYSRLDILS
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAICSSIDDIYSRLDILS
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILL
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV EAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILS
**********.********************.********::*:* *************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQSSRKLAQQKVNDCVKSQSQRYGFCGGDGE
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSHRYGFCGGDGE
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV ADAQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV ADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV ADVQVDRLINGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV ADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV ADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGE
**.******.**********:**********:**********:******:**********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV HIFSLVQAVPQGLLFLHTVLEPLDFVNVIAISGLCVNDEIALTLREPGLVLFTHELQNHT
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-T
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDENALTLREPGLVLFTHELQNHT
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGGFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-T
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-T
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV HIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHT
********.*********** * .*::****:******* *****************: *
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV ATEYLVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV ATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILAS
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV ATGYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTPDEILAS
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLYEILAS
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV AMEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV APEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLTDVIPEYIDVNKTLDEILAS
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV AIEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV ATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILAS
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLGEILAS
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV ATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILAS
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV ATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILAS
* *:******:*******.********************.:***:******* *****
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV LPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNITEELQSLIYNINNTLVDLEWLN
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV LPHRNGPSLSLDVFNATYFNLPGEIADLEQRSESFRNTTEELQSFIYNINNPLVDLEWLN
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV LPNRAGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLINNINNTLVDLEWLN
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV LPNRTGSSLPLDVFNASYFNLTGENADLEQRSESFRNTTEELQSFIYNINNTLVDLEWLN
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEDLKSLIYNINNTLVDLEWLN
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV LPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV LPNRTGPSLPLDVFNAIYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV LPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV LPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLN
**:* *.**.****** *:**.** *********:** **:*:*:* ****.********
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV LVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV RVETYIMWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYE
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV RVETYIKWPWWGWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPY-
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV RVETYIKWPWWVWLIIFIVLILVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV RVETYIKCPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYE
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYE
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV RVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYE
***** *** *********:********************* ***************
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV VFEKVHVQ
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV VFEKVHVQ
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV VFEKVHVQ
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV VFEKVHVQ
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV VFEKVHVQ
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV AFEKVHVQ
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV VFEKVHVQ
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV VFEKVHVQ
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV VFEKVHVQ
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV VFEKVHVQ
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV VFEKVHVQ
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV VFEKVHVQ
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV VFEKVHVQ
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV --------
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV VFEKVHVQ
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV VFEKVHVQ
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV VFEKVHVQ
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV AFEKVHVQ
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV VFEKVHVQ
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV VFEKVHVQ
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV VFEKVHVQ
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV VFEKVHVQ
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV VFEKVHVQ
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV VFEKVHVQ
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV VFEKVHVQ
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV VFEKVHVQ
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV AFEKVHVQ
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV VFEKVHVQ
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV VFEKVHVQ
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV VFEKVHVQ
>PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGTACTGTGGCACAGGTCTTGAAACTGCTAGTGGCGTGCATGGTATTTTCCTCAGTTACATCGATGCTGGTCAGGGCTTTGAGATTGGCATTTCACAGGAGCCGTTTGATCCTAGTGGTTACCAGCTTTATTTACATAAGGCCACTAATGGTAACCATAATGCTATTGCACGACTGCGCATTTGCCAGTTTCCAAATAATAAAACATTGGGCCCTACTGTTAAT---GATGTTACAACAGGTCGTAACTGCCTATTCAACAAAGCCATTCCAGCTTATATGCAGGATGGAAAAAACATCGTTGTCGGCATAACATGGGACAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTCAAAAATGATTGGTCCCGTGTTGCGACAAGATGTTACAATAAAAGAAGTTGTGCTATGCAATATGTTTATACACCTACCTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGTCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATCAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTATAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTACCCAACCACAAAATGTCACCAGGGGCCCACCTAACACAAATTTTAGGCGGTTCTTTTCAAAATTAAAGGTTCAGGCCCCGGCATTTGTTGAACGGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTTAATTCAACTTGGAACTGTGCTGGCCAACATCCAACTGCTAGGGGCGTTCAGGGAATCTTTGTTACCCATATAAAAGGGGGTCAGGGCTTTAAAATTGGCATTTCCCAAAACCCTTTTGACCCTAGGGGTTACCACCTTTATTTACATAAGGCTACAAACGGAAACACTAAGGCTACGGCGCGACTGCCCATTTGCCAGTTTCCAACCATTAAAACATTGGCCCCCACTGCAAATAATGATGTTACAACAGGTCGAAATTGCCTATTCAACAAACCCATCCCACCTCATATGATTGAACATAGT------GTTGCCGGCATAACATGGAACAATGATCGTGTCACTGCCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGCGTTTGTAATGGAGCTGCTTCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCACTTA------------GCTACCTTCGCCATACCTCTGGGTGCTACCCAAGCACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTTAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCAACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTATGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATTATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGCGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCCGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCAAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTTACTAAGTATACTGAGGTTCAGTCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGATTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGTACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGAACCGCTTGATTTTGTAAATGTTATTGCCATCTCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTTCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTTGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCTAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGCTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAATTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTAGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCTAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATAATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATCTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGTTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAGATCCTCACTCA------------GCCACCTTCGCCATACCTCTGGGTGCTATCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTATTTGCATCTCGGTTTGTTGGACGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCAGGTTTCTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTCTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCGTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGTAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCACGTATACTATCTATGGCTTTAAAGGTGAGGGTGTCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAACTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCTAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTTTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCATCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGACTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAACTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACTGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV ATGAGGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGCATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCCGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATCATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATCTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAGATCCTCACTTA------------GCCACCTTCGCCATACCTCTAGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATCTCGGTCTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTCCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTTCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTACAAACCTTCTGAGTCATGAACAGCCAACTTCTTTTGTTACTTTGCCAGCATTTAATGATCATTCTTTTGTTAATATTACTGTCTCTGCTGTTTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCCTTTAGCAAATTTTGTGTTTCTACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTGGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAACTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTATGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGACTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAACTACTCACCCAGTACAGTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCCAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACCATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGCACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGTTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCATATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTCACTGCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTAGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCTAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAATTCGCAGGGTGCAGCTTTGACCCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCCCGACTTGACATTCTTTCAGCCGATGTTCAGGTAGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTTACTAAGTATACTGAGGTTCAGGCTAGCAGGAAACTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCCGCACCTCAAGGCCTGCTGTTTTTACACACAGTACTTGTACCGGGTGACTTTGTAAATGTTATTGCCATCGCTGGCTTATGTGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAGAT---ACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTATGAACCTAGAAAACCTACCGTTGGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGAAGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTTCTCTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATCTAGAGCAGCGTTCAGAGTCTCTCCGTAATATTACAGAAGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCATGTGGCCGTGGTGGGTTTGGTTGATTATTTTTATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGTGGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGCTTTTGAAAAGGTCCACGTGCAG >USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAAGACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAGCCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCTACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAAGTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGTTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGGATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV ATGAAGTCTTTAACCTATTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGCTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACACGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCACAGATCCTCATTTA------------GCCACCTTCGCCATACCTCTGGGTGCTAACCAAGTACCCTATTATTGTTTTCTTAAATTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTATTTGCATCTCGGTTTGTTGGACGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCAGGTTTCTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTCTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCGTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGCAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGTAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGTAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAGTTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCCGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTTACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCCGATTACATCGATGTTAACAAAACACCTGATGAGATTTTAGCCTCTTTGCCCCATAGAAATGGTCCAAGTCTTTCTTTAGATGTTTTTAATGCCACTTATTTTAATCTCCCTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTTTCCGTAATACTACAGAGGAGCTCCAAAGTTTTATATATAATATCAACAACCCCCTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGGTTGGTTGATTATTTTTATTGTTCTCATCTTTGTTGTGTCATTATTAGTGTTCTGCTGCATTTCCACTGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >JSX2014_S_AZN28593_1_2014_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATTCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATGATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACATCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCTTATTATTGTTTTTTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTCACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCACCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACACTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTCCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCATTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGATGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCACCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCGATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGCTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCACAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAAATGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTTATGAGATTTTAGCTTCTCTGCCCAATAGAGCTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCCATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATGCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTTCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV ATGAAGTCTTTAACTTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTTAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTCTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAATGGTAACACTAATGCTACTGCGCGATTGCGCATTTGCCAGTTTCCCAGCATTAAAACATTGGGCCCCACTGCTGATAACGATGTTACAACAGGTCGTAACTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATCATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACTTACTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCCTTGGTTATGCTGCCAATGTATTTGCTACTGAGCTCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATGCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTCAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCGCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGCTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAACTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAATATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTCAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCTTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCCAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTTTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATCAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGCTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTTCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCCCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGTACTGTGGCACAGGCATTGAAACTGCTAGTGGCGTGCATGGTATTTTTCTCAGTTACATTGATTCCGGCCAGGGCTTTGAAATTGGCATTGCGCAAGAGCCATTTGACCCTAGTGGTTACCAGCTTTATCTACATAAGGATACTAATGGTAACACTGGTGCTACTGCACGACTGCGTATTTGCCAGTTTCCCCCTAATAAAACATTGGGCCCCAGTGTTGGT---CACGTTACAACAGGTCGTAACTGCCTAGTCAACAAAGCCATTCCAGCTTACCTGCGAGATAGAAAAAACATTGTTGTCGGCTTAACATGGGATAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTTAAAAATGAATGGTCTCGTGTTGCGACAAGATGTTATAATAGCCGAAGTTGTGCTATGCAATATGTTTACACACCCACTTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGTCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGATTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACTTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GACCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGCTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGTTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATCAGTATTCCCACCAATTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAGGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTGCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGAACCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGCTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTATAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATTAATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTTATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGTACTGTGGCACAGGTCTTGAAACTGCTAGTGGCGTGCATGGTATTTTCCTCAGTTACATCGATTCTGGTCAGGGCTTTGAGATTGGCATTTCACAGGAGCCGTTTGATCCTAGTGGTTACCAGCTTTATTTACATAAGGCCACTAATGGTAACCATAATGCTATTGCACGACTGCGCATTTGCCAGTTTCCAAATAATAATACATTGGGCCCTACTGTTAAT---GATGTTACAACAGGTCGTAACTGCCTATTCAACAAAGCCATTCCAGCTTATATGCAGGATGGAAAAAACATCGTTGTCGGCATAACATGGGACAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTCAAAAATGATTGGTCCCGTGTTGCGACAAGATGTTACAATAAAAGAAGTTGTGCTATGCAATATGTTTATACACCTACCTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGCCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGACGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCAGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCCTATCAACTCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGACCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACTTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGACACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTTAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGATGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGAAACTAAACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTGTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCCCAGTCTGGCCAAGTCAAGATTGCACCCACAGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTAATCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACCATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGCGTTGTTGACGCAGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAAATTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGGTTTTGTAGATGTTATTGCCATCGCTGGTTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGATGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTAC--------------------------- >USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCACTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCTAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGATGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCATTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTACCCAACCACAAAATGTCACCAGGGGCTCACCTAACACAAATTTTAGGCGGTTCTTTTCAAAATTAAAGGTTCAGGCCCCGGCATTTGTTGAACGGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGAACTGTGCTGGCCAACATCCAACTGCTAGGGGCGTTCAGGGAATCTTTGTTACCCATATAAAAGGTGGTCAGGGCTTTAAAATTGGCATTTCCCAAAACCCTTTTGACCCTAGGGGTTACCACCTTTATTTACATAAGGCTACAAACGGAAACACTAAGGCTACGGCGCGACTGCCCATTTGCCATTTTCCAACCATTAAAACATTGGGCCCCACTGCAAATAATGATGTTACAACAGGTCGTAATTGCTTATTTAACAAACCCATCCCACCTCATATGATTGAACATAGT------GTTGCCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTTTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTTTTTTGTTTGCAGTAATTCCTCAGATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTATCCAAGTACCCTATTATTGTTTTTTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTTCTTTTGACCTTGATGATGGTTTTTACCCTATTTACTCTACAAACCTTCTGAGTCATGAACAGCCAACTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAATATTACTGTCTCTGCTGCTTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCTACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTGGTGGTGTTAAGTTCACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTTACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTATACATCTGATTCTGGACAGTTGTTAGCTTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAATTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTATGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCATGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCTACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTTATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACATCCAAACCATATCAAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGCCGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTAACAGATGTAATCCCAGAATACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTTCAAGTCTTCCTTTAGATGTTTTTAATGCCAGTTATTTTAATCTCACTGGTGAAAATGCAGATTTAGAGCAGCGTTCAGAGTCTTTCCGTAATACTACAGAGGAGCTCCAAAGTTTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTTTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCCTACGAAGTTTTTGAAAAGGTCCACGTGCAG >KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGCACTGTGGCACAGGTCTTGAAACTGCTAGTGGCGTGCATGGTATTTTCCTCAGTTACATCGATGCTGGTCAGGGCTTTGAGATTGGCATTTCACAGGAGCCGTTTGATCCTAGTGGTTACCAGCTTTATTTACATAAGGCCACTAATGGTAACCATAATGCTATTGCACGACTGCGCATTTGCCAGTTTCCAGATAATAAAACATTGGGCCCTACTGTTAAT---GATGTTACAACAGGTCGTAACTGCCTATTCAACAAAGCCATTCCAGCTTATATGCAGGATGGAAAAAATATCGTTGTCGGCATAACATGGGACAATGATCGTGTCACTGTTTTTGCAGACAAGATCTATCATTTTTATCTTAAAAATGATTGGTCCCGTGTTGCGACAAGATGTTACAATAAAAGAAGTTGTGCTATGCAATATGTTTATACACCTACCTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGCCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATCTA------------GCTACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTATGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGCACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGTCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTACTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAACTATCTTGCTCTACAGACGGATGTTCTACAGCGGAATCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAGCACTGTGGCCCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCTCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGATTGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGATCTCAAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTGGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV ATGAAGTCTTTAACTTACTTCTGGTTGTTCTTACCAGTACTATCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGCTCACTACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTTTTGGGTGGCTATTTACCTAGTATGAAC------------TCTTCTAGCTGGTACTGTGGCATAGGCCTTGAAACTGCTAGTGGCGTTCATGGCATTTTTCTTAGTTACATTGATTCTGGTCAAGGCTTTGAGATTGGTATTTCACAGGAGCCGTTTGATCCTAGTGGTTACCAGCTTTATCTACATAAGGCCACTAATGGTAACACTGATGCTGTTGCACGACTGCGTATTTGCCAGTTTCCAGATAATAAAACATTGGGCCCTTCTAGCGGT------GTTACATCAGGTCGTAACTGCCTATTCAACAAAGCTATCCCAGCTCATATGCAGGATAGGAAAAATATTGTTATCGGCATAACATGGGACAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTTAAAAATGACTGGTCCCGTGTTGCGACAATATGTTATAATAAAAGAAGTTGTGCTATGCAATATGTTTATACACCTACCTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTTGGAACAAATCTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCATTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCCACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATATCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGAATGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCCTAGTGGTGCCAACATTATTGCATCTGATACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGACCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTATACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAATTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCTATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGTTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAAATGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATCAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAAGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGATTGGACATTCTTTCAGCTGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTTACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGACGGCGAGCACATTTTCTCTCTGGTACAGGCCGCACCTCAAGGCCTGCTGTTTTTACACACAGTACTTGTACCGGGTGACTTTGTAAATGTTATTGCCATCGCTGGCTTATGTGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAGAT---ACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTATGAACCTAGAAAACCTACCGTTGGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGAAGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTTCTCTAGATGTTTTTAATGCCACTTATCTTAATCTCACCGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAAGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGTCCGTGGTGGGTTTGGTTGATTATTTTTATTGTTCTCATTTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGTTGCGGCTGCTGTGGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGCTTTTGAAAAGGTCCACGTGCAG >USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGTCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGTACTGTGGCACAGGTCTTGAAACTGCTAGTGGCGTGCATGGTATTTTCATCAGTTACATTGATTCCGGCCAGGGCTTTGAAATTGGCATTGCGCAAGAGCCATTTGACCCTAGTGGTTACCAGCTTTATCTATATAAGGCTACTAATGGTAACACTGGTGCTACTGCACGACTGCGTATTTGCCAGTTTCCCCCTAATAAGACATTGGGCCCCAGCGTTGGT---CACGTTACAACAGGTCGTAACTGCCTAGTCAACAAAGCCATTCCAGCTCACCTGCAGGATAACAAAAACATTGTTGTCGGCTTAACATGGGATAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTTAAAAATGAATGGTCTCGTGTTGCGACAAGATGTTATAATAAGCGAAGTTGTGCTATGCAATATGTTTACACACCCACTTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGTCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGATTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACTTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTCGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GACCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGCTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGTTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTTTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATCAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAGGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTGCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGCTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTATAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACTGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTACTAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTACATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV ATGAAGTCTTTAAATTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTCAGCCTACCACAAGATGTCACTAGGTGCCAGTCCACTATTAACTTCAGGCGGTTCTTTTCAAAATTTAATGTGCAGGCACCTGCTGTCGTTGTGTTGGGTGGTTATCTACCTAGTATGAAC------------TCCTCTAGCTGGTACTGTGGCACAGGTCTTGAAACTGCTAGTGGCGTGCATGGTATTTTCCTCAGTTACATCGATGCTGGTCAGGGCTTTGAGATTGGCATTTCACAGGAGCCGTTTGATCCTAGTGGTTACCAGCTTTATTTACATAAGGCCACTAATGGTAACCATAATGCTATTGCACGACTGCGCATTTGCCAGTTTCCAGATAATAAAACATTGGGCCCTACTGTTAAT---GATGTTACAACAGGTCGTAACTGCCTATTCAACAAAGCCATTCCAGCTTATATGCAGGATGGAAAAAATATCGTTGTCGGCATAACATGGGACAATGATCGTGTCACTGTTTTTGCTGACAAGATCTATCATTTTTATCTTAAAAATGATTGGTCCCGTGTTGCGACAAGATGTTACAATAAAAGAAGTTGTGCTATGCAATATGTTTATACACCTACCTACTACATGCTTAATGTTACTAGTGCAGGTGAGGATGGCATTTATTATGAACCATGTACAGCTAATTGCAGTGGTTACGCTGCCAATGTGTTTGCCACTGATTCTAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGTTGCATGGTAAGGTGGTTTCCAACCAACCTTTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCATTCAATCAAACGATGGATGGCGTTTGTAATGGAGCTGCTGCGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATCTTTCTTTTGCTTGCAGTAATTCTTCAGATCCTCATCTA------------GCTACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTCTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGTCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCATTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTTCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCATTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCATCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAGATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTATCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTTCTTTCGACCTTGACGATGGTTTTTACCCTATTTCCTTTACAAACCTTCTGAGTCATGAACAGCCAACTTCTTTTGTTACTTTGCCAGCATTTAATGATCATTCTTTTGTTAATATTACTGTCTCTGCTGTTTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCTACCAGCCTTTTGGCTAGTGCCTGCACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGCTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCGTCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTGCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCAACGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGACTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGGTGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACTGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATTCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAGATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTATCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTCTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCGTCCTTTGGTGATCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGTAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTTTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAGGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGTTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAATGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGAGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTATAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCTAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCGCTTA------------GCCACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATATTCACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTCATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTTTGCCATCATTTAATGACCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAATGTTACAAACAGTTATGGTTATGTGTCTAACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCATGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAGAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGTTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTGCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACGTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTTTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTATCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGACCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACCGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV ATGAAGTCTTTAACTTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTTAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTCTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAATGGTAACACTAATGCTACTGCGCGATTGCGCATTTGCCAGTTTCCCAGCATTAAAACATTGGGCCCCACTGCTGATAACGATGTTACAACAGGTCGTAACTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGACCGTGTCACTGTCTTTTCTGACAAGATCTATCATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACTTACTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATGCCTAAGATTTATGGACTAGGCCAATTTTTTTCCTTCAATCAAACGATTGATGGTGTTTGTAATGGAGCTTCTGCGCAGCGTGCACCAGAGGCTCTGAGGGTTAATATTAATGATACCTCTATCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTACGGTGATGTTTATGTCAATGGGTTTGGCTACTTGCATCTCGGTTTGTTGGATGCTGTTACAATTAATTTCACTGGTCATGGCACTGACGATGACGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATTGAAGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTTAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCCTCTACAAACCTTCTGAGTCATGAACAGCCAACTTCTTTTGTTACTTTGCCATCATTTAATGATCATTCTTTTGTTAATATTACTGTCTCTGCTGCTTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGATACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTACGTGTCTAAATCACAGGACAGTAATTGCCCTTTTACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCTACCAGCCTTTTGGCTAGTGCTTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTCACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTTACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATTATTACCCTTACAAATTCTAGTTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCTTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTATGTCCTATCTCAGTCTGGTCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCTACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGCTGAAGTCAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATCAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCCGTGTATGACCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAAATGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCTAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTGTAGTTCTATTGATGACATTTACTCTCGGCTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCCGCACCTCAAGGCCTGCTGTTTTTACACACAGTACTTGTACCGGGTGACTTTGTAAATGTTATTGCCATCGCTGGCTTATGTGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAGAT---ACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTATGAACCTAGAAAACCTACCGTTGGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGAAGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTTCTCTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAAGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTTATTGTTCTCATTTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGTGGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGCTTTTGAAAAGGTCCACGTGCAG >CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV ATGAAGTCTTTAACTTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAGTACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTTAATTCAACTTGGTACTGTTATGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTCTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAATGGTAACACTAATGCTACTGCGCGATTGCGCATTTGCCAGTTTCCCAGCATTAAAACATTGGGCCCCACTGCTGATAACGATGTTACAACAGGTCGTAACTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATCATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACTTACTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAAGTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATGCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTCAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCACACTGCTTTAGGAACAAATCTTTCTTTTGTTTGCAGTAATTCTTCAGATCCTCATTTA------------GCTACCTTCACCATACCTCTGGGTGCTACCCAAGTACCCTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTCTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAAGTTCAAGGAACTGCCATTCAGCGCATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTCGACGATGGTTTCTATCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTGCTTTGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTCTCTGCGTCCTTTGGTGATCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGAGTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTAGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTTTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGTACCCACGGTTACTGGGAATATCAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTTTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACGACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTACAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTTAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGACTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTAGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGTTGCTGTGCTTGTTTTTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTCTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTCGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGAGTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATTCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATTCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCCAACCAACCATTGTTGGTCAATTGTCTCTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAGCAAATTTTTCTTTTGTTTGCAGTAATTCCACAGAGCCTCATTCA------------GCCACCTTCGCCATACCTCTGGGTGCTATTCAAGTACCCTATTACTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTCTTGGCTGTTTTACCTCCAACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGCTATTTGCATCTCGGTTTGTTGGACGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGACGACGTTTCAGGTTTCTGGACCATAGCATCGACTAATTTTGTTGATGCACTTATCGAGGTTCAAGGAACTGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTCTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTGCTTTGCCATCATTTATTGATCATTCTTTTGTTAACATTACTGTCTCTGCGTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACATTTATGGTTATGTGTCTTACTCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGTAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGATTTCGGTAGTGGTGTTAAGCTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTTTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAACTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTATGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTTTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCAGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTTCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGCTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCCCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGGGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGCTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG >USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV ATGAAGTCTTTAACCTACTTCTGGTTGTTCTTACCAGTACTTTCAACACTTAGCCTACCACAAGATGTCACCAGGTGCTCAGCTAACACTAATTTTAGGCGGTTCTTTTCAAAATTTAATGTTCAGGCGCCTGCAGTTGTTGTACTGGGCGGTTATCTACCTATTGGTGAAAACCAGGGTGTCAATTCAACTTGGTACTGTGCTGGCCAACATCCAACTGCTAGTGGCGTTCATGGTATCTTTGTTAGCCATATTAGAGGTGGTCATGGCTTTGAGATTGGCATTTCGCAAGAGCCTTTTGACCCTAGTGGTTACCAGCTTTATTTACATAAGGCTACTAACGGTAACACTAATGCTACTGCGCGACTGCGCATTTGCCAGTTTCCTAGCATTAAAACATTGGGCCCCACTGCTAATAATGATGTTACAACAGGTCGTAATTGCCTATTTAACAAAGCCATCCCAGCTCATATGAGTGAACATAGT------GTTGTTGGCATAACATGGGATAATGATCGTGTCACTGTCTTTTCTGACAAGATCTATTATTTTTATTTTAAAAATGATTGGTCCCGTGTTGCGACAAAGTGTTACAACAGTGGAGGTTGTGCTATGCAATATGTTTACGAACCCACCTATTACATGCTTAATGTTACTAGTGCTGGTGAGGATGGTATTTCTTATCAACCCTGTACAGCTAATTGCATTGGTTATGCTGCCAATGTATTTGCTACTGAGCCCAATGGCCACATACCAGAAGGTTTTAGTTTTAATAATTGGTTTCTTTTGTCCAATGATTCCACTTTGGTGCATGGTAAGGTGGTTTCTAACCAACCATTGTTGGTCAATTGTCTTTTGGCCATTCCTAAGATTTATGGACTAGGCCAATTTTTCTCCTTTAATCAAACGATCGATGGTGTTTGTAATGGAGCTGCTGTGCAGCGTGCACCAGAGGCTCTGAGGTTTAATATTAATGACACCTCTGTCATTCTTGCTGAAGGCTCAATTGTACTTCATACTGCTTTAGGAACAAATTTTTCTTTTGTTTGCAGTAATTCCTCAAATCCTCACTTA------------GCCACCTTCGCCATACCTCTGGGTGCTACCCAAGTACCTTATTATTGTTTTCTTAAAGTGGATACTTACAACTCCACT---------------GTTTATAAATTTTTGGCTGTTTTACCTCCTACCGTCAGGGAAATTGTCATCACCAAGTATGGTGATGTTTATGTCAATGGGTTTGGATACTTGCATCTCGGTTTGTTGGATGCTGTCACAATTAATTTCACTGGTCATGGCACTGACGATGATGTTTCTGGTTTTTGGACCATAGCATCGACTAATTTTGTTGATGCACTCATCGAAGTTCAAGGAACCGCCATTCAGCGTATTCTTTATTGTGAT---GATCCTGTTAGCCAACTCAAGTGTTCTCAGGTTGCTTTTGACCTTGACGATGGTTTTTACCCTATTTCTTCTAGAAACCTTCTGAGTCATGAACAGCCAATTTCTTTTGTTACTCCGCCATCATTTAATGATCATTCTTTTGTTAACATTACTGTATCTGCTTCCTTTGGTGGTCATAGTGGTGCCAACCTTATTGCATCTGACACTACTATCAATGGGTTTAGTTCTTTCTGTGTTGACACTAGACAATTTACCATTTCACTGTTTTATAACGTTACAAACAGTTATGGTTATGTGTCTAAATCACAGGACAGTAATTGCCCTTTCACCTTGCAATCTGTTAATGATTACCTGTCTTTTAGCAAATTTTGTGTTTCCACCAGCCTTTTGGCTAGTGCCTGTACCATAGATCTTTTTGGTTACCCTGATTTTGGTAGTGGTGTTAAGTTTACGTCCCTTTACTTTCAATTCACAAAGGGTGAGTTGATTACTGGCACGCCTAAACCACTTGAAGGTGTCACGGACGTTTCTTTTATGACTCTGGATGTGTGTACCAAGTATACTATCTATGGCTTTAAAGGTGAGGGTATCATTACCCTTACAAATTCTAGCTTTTTGGCAGGTGTTTATTACACATCTGATTCTGGACAGTTGTTAGCCTTTAAGAATGTCACTAGTGGTGCTGTTTATTCTGTTACGCCATGTTCTTTTTCAGAGCAGGCTGCATATGTTGATGATGATATAGTGGGTGTTATTTCTAGTTTGTCTAGCTCCACTTTTAACAGTACTAGGGAGTTGCCTGGTTTCTTCTACCATTCTAATGATGGCTCTAATTGTACAGAGCCTGTGTTGGTGTATAGTAACATAGGTGTTTGTAAATCTGGCAGTATTGGCTACGTCCCATCTCAGTCTGGCCAAGTCAAGATTGCACCCACGGTTACTGGGAATATTAGTATTCCCACCAACTTTAGTATGAGTATTAGGACAGAATATTTACAGCTTTACAACACGCCTGTTAGTGTTGATTGTGCCACATATGTTTGTAATGGTAACTCTCGTTGTAAACAATTACTCACCCAGTACACTGCAGCATGTAAGACCATAGAGTCAGCATTACAACTCAGCGCTAGGCTTGAGTCTGTTGAAGTTAACTCTATGCTTACTATTTCTGAAGAGGCTCTACAGTTAGCTACCATTAGTTCGTTTAATGGTGATGGATATAATTTTACTAATGTGCTGGGTGTTTCTGTGTATGATCCTGCAAGTGGCTGGGTGGTACAAAAAAGGTCTTTTATTGAAGACCTGCTTTTTAATAAAGTGGTTACTAATGGCCTTGGTACTGTTGATGAAGACTATAAGCGCTGTTCTAATGGTCGCTCTGTGGCAGATCTAGTCTGTGCACAGTATTACTCTGGTGTCATGGTACTACCTGGTGTTGTTGACGCTGAGAAGCTTCACATGTATAGTGCGTCTCTCATCGGTGGTATGGTGCTAGGAGGTTTTACTTCTGCAGCGGCATTGCCTTTTAGCTATGCTGTTCAAGCTAGACTCAATTATCTTGCTCTACAGACGGATGTTCTACAGCGGAACCAGCAATTGCTTGCTGAGTCTTTTAACTCTGCTATTGGTAATATAACTTCAGCCTTTGAGAGTGTTAAAGAGGCTATTAGTCAAACTTCCAAGGGTTTGAACACTGTGGCTCATGCGCTTACTAAGGTTCAAGAGGTTGTTAACTCGCAGGGTGCAGCTTTGACTCAACTTACCGTACAGCTGCAACACAACTTCCAAGCCATTTCTAGTTCTATTGATGACATTTACTCTCGACTGGACATTCTTTCAGCCGATGTTCAGGTTGACCGTCTCATCACCGGCAGATTATCAGCACTTAATGCTTTTGTTGCTCAAACCCTCACTAAGTATACTGAGGTTCAGGCTAGCAGGAAGTTAGCACAGCAAAAGGTTAATGAGTGCGTTAAATCGCAATCTCAGCGTTATGGTTTTTGTGGTGGTGATGGCGAGCACATTTTCTCTCTGGTACAGGCAGCACCTCAGGGCCTGCTGTTTTTACATACAGTACTTGTACCGAGTGATTTTGTAGATGTTATTGCCATCGCTGGCTTATGCGTTAACGATGAAATTGCCTTGACTCTACGTGAGCCTGGCTTAGTCTTGTTTACGCATGAACTTCAAAATCATACTGCGACGGAATATTTTGTTTCATCGCGACGTATGTTTGAACCTAGAAAACCTACCGTTAGTGATTTTGTTCAAATTGAGAGTTGTGTGGTCACCTATGTCAATTTGACTAGAGACCAACTACCAGATGTAATCCCAGATTACATCGATGTTAACAAAACACTTGATGAGATTTTAGCTTCTCTGCCCAATAGAACTGGTCCAAGTCTTCCTTTAGATGTTTTTAATGCCACTTATCTTAATCTCACTGGTGAAATTGCAGATTTAGAGCAGCGTTCAGAGTCTCTCCGTAATACTACAGAGGAGCTCCAAAGTCTTATATATAATATCAACAACACACTAGTTGACCTTGAGTGGCTCAACCGAGTTGAGACATATATCAAGTGGCCGTGGTGGGTTTGGTTGATTATTTTCATTGTTCTCATCTTTGTTGTGTCATTACTAGTGTTCTGCTGCATTTCCACGGGTTGTTGTGGATGCTGCGGCTGCTGTTGTGCTTGTTTCTCAGGTTGTTGTAGGGGTCCTAGACTTCAACCTTACGAAGTTTTTGAAAAGGTCCACGTGCAG
>PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAIARLRICQFPNNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFADKIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAVNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV MKSLTYFWLFLPVLSTLTQPQNVTRGPPNTNFRRFFSKLKVQAPAFVERGGYLPIGENQGVNSTWNCAGQHPTARGVQGIFVTHIKGGQGFKIGISQNPFDPRGYHLYLHKATNGNTKATARLPICQFPTIKTLAPTANNDVTTGRNCLFNKPIPPHMIEHS--VAGITWNNDRVTAFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAASQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFAIPLGATQAPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTMDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQSSRKLAQQKVNDCVKSQSQRYGFCGGDGEHIFSLVQAVPQGLLFLHTVLEPLDFVNVIAISGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGLGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPAIGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYLVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNLVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILVEGSIVLHTALGTNFSFVCSNSSDPHSATFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTTYTIYGFKGEGVITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAIFSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSHRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV MRSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSFDLDDGFYPISSTNLLSHEQPTSFVTLPAFNDHSFVNITVSAVFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYSAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-TATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILASLPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNITEELQSLIYNINNTLVDLEWLNRVETYIMWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYEAFEKVHVQ >USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSAKTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSSQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPSSFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATGYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDATTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYTLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSTDPHLATFAIPLGANQVPYYCFLKLDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLVGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTPDEILASLPHRNGPSLSLDVFNATYFNLPGEIADLEQRSESFRNTTEELQSFIYNINNPLVDLEWLNRVETYIKWPWWGWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >JSX2014_S_AZN28593_1_2014_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYILNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNDWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDISVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFFKVDTYNSTVYKFLAVSPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTTIQRILYCDDPVSQLKCSQVAFDLDDGFYTISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIPPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTHYTAACKTIESALQLSARLESVEVNSMLTISDEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLTGGMVLGGFTSAAALPFSDAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADAQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDENALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLYEILASLPNRAGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIHYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISMPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCLGYAANVFATELNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGAIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGLGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPTSFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGTGIETASGVHGIFLSYIDSGQGFEIGIAQEPFDPSGYQLYLHKDTNGNTGATARLRICQFPPNKTLGPSVG-HVTTGRNCLVNKAIPAYLRDRKNIVVGLTWDNDRVTVFADKIYHFYLKNEWSRVATRCYNSRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAVNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALNQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLINNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGTGLETASGVHGIFLSYIDSGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAIARLRICQFPNNNTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFADKIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQLCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTTDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVETKQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLVGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLITQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHKFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGGFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTAMEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPY--------- >USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCTGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSDVKFTSLYFQFTKGELITGTPKPFEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV MKSLTYFWLFLPVLSTLTQPQNVTRGSPNTNFRRFFSKLKVQAPAFVERGGYLPIGENQGVNSTWNCAGQHPTARGVQGIFVTHIKGGQGFKIGISQNPFDPRGYHLYLHKATNGNTKATARLPICHFPTIKTLGPTANNDVTTGRNCLFNKPIPPHMIEHS--VAGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFFFVCSNSSDPHLATFAIPLGAIQVPYYCFFKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSFDLDDGFYPIYSTNLLSHEQPTSFVTLPSFNDHSFVNITVSAAFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGGGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPMVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTYGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNIQTISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTAPEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLTDVIPEYIDVNKTLDEILASLPNRTGSSLPLDVFNASYFNLTGENADLEQRSESFRNTTEELQSFIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWHCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAIARLRICQFPDNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFADKIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVMPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCVTYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCTNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLSTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTAIEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEDLKSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLILVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCQLTTNFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGIGLETASGVHGIFLSYIDSGQGFEIGISQEPFDPSGYQLYLHKATNGNTDAVARLRICQFPDNKTLGPSSG--VTSGRNCLFNKAIPAHMQDRKNIVIGITWDNDRVTVFADKIYHFYLKNDWSRVATICYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTAFGTNLSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHIGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQNAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGPSGANIIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVLSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQMLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-TATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILASLPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKCPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYEAFEKVHVQ >USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGTGLETASGVHGIFISYIDSGQGFEIGIAQEPFDPSGYQLYLYKATNGNTGATARLRICQFPPNKTLGPSVG-HVTTGRNCLVNKAIPAHLQDNKNIVVGLTWDNDRVTVFADKIYHFYLKNEWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAVNVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGSLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFIDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFTNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV MKSLNYFWLFLPVLSTLSLPQDVTRCQSTINFRRFFSKFNVQAPAVVVLGGYLPSMN----SSSWYCGTGLETASGVHGIFLSYIDAGQGFEIGISQEPFDPSGYQLYLHKATNGNHNAIARLRICQFPDNKTLGPTVN-DVTTGRNCLFNKAIPAYMQDGKNIVVGITWDNDRVTVFADKIYHFYLKNDWSRVATRCYNKRSCAMQYVYTPTYYMLNVTSAGEDGIYYEPCTANCSGYAANVFATDSNGHIPEGFSFNNWFLLSNDSTLLHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTMDGVCNGAAAQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFACSNSSDPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSSMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNAIYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV MKSLTYFWLFLPLLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPIYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLATFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVSFDLDDGFYPISFTNLLSHEQPTSFVTLPAFNDHSFVNITVSAVFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESAEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLVGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAIASSIDDIYSRLDILSADVQVDRLINGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLGEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYSANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSDPHLATFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGDHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGFYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLSPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCIANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPRLATFAIPLGATQVPYYCFLKVDIHNSTVYKFLAVLPPTVREIVITKYGDVHVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSNSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVMDVSFMTLDVCTKYTIYGFRGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTAAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTLPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFSFNQTIDGVCNGASAQRAPEALRVNINDTSIILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSTNLLSHEQPTSFVTLPSFNDHSFVNITVSAAFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVLSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESAEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQMLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAICSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVNVIAIAGLCVNDEIALTLREPGLVLFTHELQD-TATEYFVSSRRMYEPRKPTVGDFVQIESCVVTYVNLTRDQLPEVIPDYIDVNKTLDEILASLPNRTGPSLSLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCGACFSGCCRGPRLQPYEAFEKVHVQ >CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSASTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCYGQHPTASGVHGIFLSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTADNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYHFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTAKCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAMPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNLSFVCSNSSDPHLATFTIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVALPSFNDHSFVNITVSASFGDHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPEFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIVPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVRPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILLADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNEWSRVATKCYNSGGCAMQYVYEPTYYILNVTSAGEDGISYQPCTANCIGYSANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGANFSFVCSNSTEPHSATFAIPLGAIQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVALPSFIDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNIYGYVSYSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPDFGSGVKLTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSNSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPFSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGRVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVSQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPGDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ >USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV MKSLTYFWLFLPVLSTLSLPQDVTRCSANTNFRRFFSKFNVQAPAVVVLGGYLPIGENQGVNSTWYCAGQHPTASGVHGIFVSHIRGGHGFEIGISQEPFDPSGYQLYLHKATNGNTNATARLRICQFPSIKTLGPTANNDVTTGRNCLFNKAIPAHMSEHS--VVGITWDNDRVTVFSDKIYYFYFKNDWSRVATKCYNSGGCAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYGLGQFFSFNQTIDGVCNGAAVQRAPEALRFNINDTSVILAEGSIVLHTALGTNFSFVCSNSSNPHLATFAIPLGATQVPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGHGTDDDVSGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYPISSRNLLSHEQPISFVTPPSFNDHSFVNITVSASFGGHSGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNSYGYVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPDFGSGVKFTSLYFQFTKGELITGTPKPLEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISEEALQLATISSFNGDGYNFTNVLGVSVYDPASGWVVQKRSFIEDLLFNKVVTNGLGTVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADVQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHELQNHTATEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDEILASLPNRTGPSLPLDVFNATYLNLTGEIADLEQRSESLRNTTEELQSLIYNINNTLVDLEWLNRVETYIKWPWWVWLIIFIVLIFVVSLLVFCCISTGCCGCCGCCCACFSGCCRGPRLQPYEVFEKVHVQ
Reading sequence file /data//pss_subsets/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result/original_alignment/codeml/fasta/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result.1
Found 30 sequences of length 4194
Alignment looks like a valid DNA alignment.
Estimated diversity is (pairwise deletion - ignoring missing/ambig): 2.4%
Found 299 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% 55.8% 89.1%100.0%
Using a window size of 80 with k as 6
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 362 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: 0349826245]
begin taxa;
dimensions ntax=30;
taxlabels
PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV
CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV
GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV
KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV
PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV
CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV
USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV
KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV
CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV
OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV
IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV
USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV
PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV
PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV
USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV
PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV
CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV
GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV
USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV
USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV
GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV
USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV
S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV
USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV
PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV
GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV
LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV
JSX2014_S_AZN28593_1_2014_China_Swine_PEDV
GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV
CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV
;
end;
begin trees;
translate
1 PEDV_1931_2_Valladolid_Fompedraza_S_QKV43805_1_2017_01_19_Spain_Swine_PEDV,
2 CH_SCZY103_2017_S_AZL47216_1_2017_12_01_China_Swine_PEDV,
3 GER_L00721_2014_S_CDW77205_1_NA_Germany_Unknown_PEDV,
4 KNU_1702_S_AWM11456_1_2017_03_South_Korea_Swine_PEDV,
5 PEDV_8C_S_AJP67408_1_NA_China_Swine_PEDV,
6 CH_TP_3_1_2018_S_QCC26588_1_2018_China_Swine_PEDV,
7 USA_IL20697_2014_P5_S_AMD11124_1_2013_12_31_USA_Swine_PEDV,
8 KGS_4_JPN_2014_S_BAT33209_1_2014_04_Japan_Pig_PEDV,
9 CH_hubei_2016_NA_ART84250_1_2016_03_China_Swine_PEDV,
10 OH15962_S_AIA61014_1_2013_06_14_USA_Swine_PEDV,
11 IBR_4_JPN_2014_S_BAT33305_1_2014_04_Japan_Pig_PEDV,
12 USA_Minnesota79_2013_NA_AID56901_1_2013_11_30_USA_Swine_PEDV,
13 PEDV_15F_S_AJP67426_1_2012_03_China_Swine_PEDV,
14 PEDV_GER_L01060_K07_15_02_2015_S_SNQ27911_1_NA_NA_Unknown_PEDV,
15 USA_Minnesota65_2013_NA_AID56823_1_2013_11_20_USA_Swine_PEDV,
16 PEDV_LS_S_AJP67444_1_2014_01_China_Swine_PEDV,
17 CHSD2014_S_AQX36342_1_2014_05_12_China_Swine_PEDV,
18 GDS05_S_QCQ19798_1_2012_02_08_China_Swine_PEDV,
19 USA_Minnesota309_2014_NA_AKJ22121_1_2014_04_17_USA_Swine_PEDV,
20 USA_Minnesota61_2013_NA_AID57087_1_2013_11_18_USA_Swine_PEDV,
21 GDS33_S_QCQ19900_1_2014_07_28_China_Swine_PEDV,
22 USA_NC_2013_35140_S_AKP80589_1_2013_09_12_USA_Swine_PEDV,
23 S236_S_QAY31031_1_2018_03_20_Hungary_Swine_PEDV,
24 USA_Ohio120_2014_NA_AID57045_1_2014_01_01_USA_Swine_PEDV,
25 PEDV_MEX_PUE_01_2015_NA_AVU05403_1_2015_11_05_Mexico_Swine_PEDV,
26 GDS24_S_QCQ19822_1_2012_06_04_China_Swine_PEDV,
27 LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV,
28 JSX2014_S_AZN28593_1_2014_China_Swine_PEDV,
29 GDS30_S_QCQ19840_1_2014_08_21_China_Swine_PEDV,
30 CH_HNAY_2015_S_AKV62619_1_2015_03_18_China_Swine_PEDV
;
[Note: This tree contains information on the topology,
branch lengths (if present), and the probability
of the partition indicated by the branch.]
tree con_50_majrule = (1:3.478976e-03,23:2.629485e-03,(((((((2:2.803908e-03,9:1.582104e-02)0.527:6.345799e-04,30:5.845784e-03)0.994:2.066379e-03,(((5:1.241855e-02,16:8.293711e-03)1.000:1.123590e-02,((8:6.370757e-04,10:8.785617e-04,11:8.800578e-04,24:3.965840e-04)1.000:8.432904e-04,(((12:1.112462e-03,15:6.599099e-04)0.955:4.073118e-04,22:8.906590e-04,25:3.788006e-03)0.757:3.806296e-04,19:1.799945e-03,20:8.825754e-04,28:4.451289e-03)0.750:4.447045e-04)1.000:1.703358e-03,((((13:7.068657e-03,29:6.961449e-03)0.933:8.434784e-04,18:2.792520e-03)1.000:1.341113e-03,27:1.585709e-03)1.000:9.558850e-04,(17:1.327701e-02,26:3.174973e-03)0.999:3.005106e-03)0.962:1.565791e-03)0.840:7.452956e-04,21:5.521737e-03)0.999:3.074155e-03)1.000:2.590937e-02,6:2.172152e-02)1.000:7.093655e-03,(4:4.056726e-03,7:1.363623e-03)1.000:2.365931e-03)0.775:7.921514e-04,3:8.700572e-04)0.864:1.114104e-03,14:2.308393e-04)1.000:1.255588e-02);
[Note: This tree contains information only on the topology
and branch lengths (median of the posterior probability density).]
tree con_50_majrule = (1:3.478976e-03,23:2.629485e-03,(((((((2:2.803908e-03,9:1.582104e-02):6.345799e-04,30:5.845784e-03):2.066379e-03,(((5:1.241855e-02,16:8.293711e-03):1.123590e-02,((8:6.370757e-04,10:8.785617e-04,11:8.800578e-04,24:3.965840e-04):8.432904e-04,(((12:1.112462e-03,15:6.599099e-04):4.073118e-04,22:8.906590e-04,25:3.788006e-03):3.806296e-04,19:1.799945e-03,20:8.825754e-04,28:4.451289e-03):4.447045e-04):1.703358e-03,((((13:7.068657e-03,29:6.961449e-03):8.434784e-04,18:2.792520e-03):1.341113e-03,27:1.585709e-03):9.558850e-04,(17:1.327701e-02,26:3.174973e-03):3.005106e-03):1.565791e-03):7.452956e-04,21:5.521737e-03):3.074155e-03):2.590937e-02,6:2.172152e-02):7.093655e-03,(4:4.056726e-03,7:1.363623e-03):2.365931e-03):7.921514e-04,3:8.700572e-04):1.114104e-03,14:2.308393e-04):1.255588e-02);
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 -10863.39 -10892.20
2 -10861.38 -10892.46
--------------------------------------
TOTAL -10861.95 -10892.34
--------------------------------------
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} 0.221631 0.000124 0.200833 0.243802 0.221514 1472.06 1486.53 1.000
r(A<->C){all} 0.105812 0.000166 0.081765 0.130940 0.105430 841.12 908.28 1.000
r(A<->G){all} 0.191472 0.000311 0.159233 0.227779 0.190914 693.45 805.28 1.000
r(A<->T){all} 0.064463 0.000071 0.048787 0.081535 0.064345 1022.18 1062.67 1.000
r(C<->G){all} 0.055158 0.000110 0.036230 0.076152 0.054548 877.17 1011.85 1.000
r(C<->T){all} 0.478488 0.000469 0.435654 0.520865 0.478772 643.44 701.03 1.000
r(G<->T){all} 0.104607 0.000121 0.082553 0.125228 0.104067 977.17 1066.92 1.000
pi(A){all} 0.243118 0.000041 0.230395 0.255933 0.242907 912.39 933.04 1.000
pi(C){all} 0.200908 0.000034 0.189587 0.212207 0.200790 710.94 858.44 1.002
pi(G){all} 0.209141 0.000036 0.197535 0.220944 0.209117 945.27 1110.62 1.000
pi(T){all} 0.346832 0.000049 0.333281 0.360648 0.346916 1059.05 1076.17 1.000
alpha{1,2} 0.513821 0.025468 0.271067 0.856914 0.490031 850.55 885.88 1.000
alpha{3} 1.511286 0.432833 0.493280 2.825928 1.375057 690.31 692.88 1.000
pinvar{all} 0.594763 0.002806 0.491365 0.692067 0.600224 507.83 572.21 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
CODONML (in paml version 4.9h, March 2018) /data/fasta_checked/LZW_S_AIJ01335_1_2012_02_China_Swine_PEDV.result.1
Model: One dN/dS ratio,
Codon frequency model: F3x4
Site-class models:
ns = 30 ls = 1370
Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 60 64 64 63 64 65 | Ser TCT 51 52 51 50 49 51 | Tyr TAT 41 41 41 41 42 42 | Cys TGT 30 30 30 30 30 31
TTC 19 16 16 17 18 15 | TCC 13 12 12 13 12 12 | TAC 23 20 21 21 20 20 | TGC 14 13 14 14 14 12
Leu TTA 19 20 20 21 18 15 | TCA 18 19 18 18 20 17 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 29 27 27 28 28 28 | TCG 5 6 6 6 6 6 | TAG 0 0 0 0 0 0 | Trp TGG 11 11 11 11 11 11
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 39 42 39 38 39 40 | Pro CCT 29 29 29 27 28 27 | His CAT 15 16 18 18 19 19 | Arg CGT 12 11 12 12 12 13
CTC 17 12 14 14 13 12 | CCC 4 9 7 8 8 9 | CAC 5 6 5 5 5 5 | CGC 3 2 3 3 3 2
CTA 15 14 14 15 15 20 | CCA 15 17 15 16 15 14 | Gln CAA 30 34 33 33 33 34 | CGA 4 5 4 3 4 4
CTG 16 15 17 16 16 15 | CCG 3 3 2 2 2 2 | CAG 31 28 27 27 26 26 | CGG 2 3 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 48 50 50 48 47 47 | Thr ACT 48 47 49 49 51 47 | Asn AAT 55 52 53 53 51 55 | Ser AGT 35 30 34 35 35 34
ATC 16 16 17 17 19 19 | ACC 23 27 25 25 23 26 | AAC 27 31 28 28 30 27 | AGC 10 9 11 11 9 10
ATA 11 11 10 11 10 10 | ACA 23 23 21 21 21 22 | Lys AAA 20 20 18 18 18 18 | Arg AGA 10 8 9 9 9 8
Met ATG 13 12 11 11 11 12 | ACG 11 12 11 11 11 11 | AAG 21 24 22 22 21 19 | AGG 11 13 11 11 11 12
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 68 70 71 70 71 69 | Ala GCT 41 38 43 43 41 42 | Asp GAT 48 43 44 44 42 41 | Gly GGT 56 54 58 58 59 59
GTC 21 17 18 19 21 21 | GCC 15 19 16 16 16 18 | GAC 18 18 18 18 21 21 | GGC 26 26 25 25 26 28
GTA 10 11 14 14 13 14 | GCA 24 23 22 22 22 22 | Glu GAA 18 21 19 19 19 21 | GGA 10 12 10 10 9 9
GTG 21 18 19 19 19 19 | GCG 6 6 7 7 8 7 | GAG 30 28 31 31 31 30 | GGG 3 4 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 65 66 66 65 64 62 | Ser TCT 50 50 50 51 50 51 | Tyr TAT 41 43 41 40 39 39 | Cys TGT 30 30 30 30 30 30
TTC 16 18 16 16 15 16 | TCC 13 13 13 13 14 13 | TAC 21 19 21 21 22 24 | TGC 14 14 14 14 14 14
Leu TTA 20 20 19 20 19 20 | TCA 18 18 20 18 17 17 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 27 30 28 27 29 29 | TCG 6 6 5 6 6 5 | TAG 0 0 0 0 0 0 | Trp TGG 11 11 11 11 11 11
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 38 37 37 38 42 39 | Pro CCT 29 28 28 29 27 28 | His CAT 18 20 19 19 19 14 | Arg CGT 13 12 12 12 12 12
CTC 14 11 14 14 15 16 | CCC 7 10 7 7 8 7 | CAC 5 4 5 5 5 5 | CGC 2 3 3 3 3 3
CTA 14 14 14 14 15 15 | CCA 15 15 16 15 15 15 | Gln CAA 33 32 33 33 33 31 | CGA 4 4 4 4 4 6
CTG 17 15 16 17 15 17 | CCG 2 2 2 2 2 2 | CAG 27 28 26 27 27 29 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 48 48 49 48 45 50 | Thr ACT 49 49 49 49 53 50 | Asn AAT 53 52 53 53 52 54 | Ser AGT 36 34 35 35 34 37
ATC 17 18 17 17 18 15 | ACC 25 23 26 25 23 21 | AAC 27 29 28 28 27 27 | AGC 12 11 11 11 11 10
ATA 10 10 10 10 10 9 | ACA 21 21 21 21 21 23 | Lys AAA 17 18 18 18 18 19 | Arg AGA 9 9 9 9 9 10
Met ATG 11 10 10 12 12 12 | ACG 11 11 11 11 11 11 | AAG 23 22 22 22 22 21 | AGG 11 11 11 11 11 11
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 70 68 69 70 68 68 | Ala GCT 44 41 45 42 44 41 | Asp GAT 44 43 46 44 46 47 | Gly GGT 58 60 58 58 58 55
GTC 19 20 19 19 21 22 | GCC 15 18 15 16 13 14 | GAC 18 20 18 18 18 19 | GGC 25 26 25 25 26 29
GTA 14 14 14 14 13 10 | GCA 22 22 21 22 23 24 | Glu GAA 18 18 18 19 19 19 | GGA 11 9 10 10 10 9
GTG 19 18 19 19 19 21 | GCG 7 8 7 7 7 7 | GAG 31 31 31 31 31 30 | GGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 60 65 66 70 58 63 | Ser TCT 52 48 51 49 51 53 | Tyr TAT 41 41 41 44 41 44 | Cys TGT 30 30 30 30 29 33
TTC 19 15 16 15 20 16 | TCC 13 14 12 12 13 13 | TAC 23 21 21 19 22 20 | TGC 14 14 14 13 15 11
Leu TTA 19 19 20 21 19 17 | TCA 18 19 18 20 18 18 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 29 27 27 30 30 30 | TCG 5 6 6 5 4 5 | TAG 0 0 0 0 0 0 | Trp TGG 11 11 11 11 11 10
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 39 38 37 36 40 40 | Pro CCT 29 28 29 27 30 27 | His CAT 15 19 18 17 16 14 | Arg CGT 12 12 12 12 12 14
CTC 17 14 14 12 16 14 | CCC 4 7 7 11 3 6 | CAC 5 4 5 6 5 5 | CGC 3 3 3 2 3 1
CTA 15 15 14 13 15 18 | CCA 15 15 15 14 15 15 | Gln CAA 30 33 33 34 29 32 | CGA 4 4 4 4 4 4
CTG 16 17 17 13 16 13 | CCG 3 2 2 4 3 3 | CAG 31 27 27 27 31 29 | CGG 2 2 2 3 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 49 49 48 45 50 48 | Thr ACT 48 50 50 47 48 49 | Asn AAT 55 52 53 54 53 54 | Ser AGT 35 34 35 31 36 33
ATC 15 17 17 20 15 19 | ACC 23 25 25 27 23 23 | AAC 28 27 28 29 27 27 | AGC 10 11 11 7 11 10
ATA 10 10 10 12 10 12 | ACA 23 22 21 25 23 21 | Lys AAA 19 20 18 19 21 20 | Arg AGA 10 8 9 7 10 9
Met ATG 13 12 11 12 14 13 | ACG 11 9 11 10 9 11 | AAG 21 22 22 24 21 21 | AGG 11 11 11 13 11 12
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 68 72 70 70 68 69 | Ala GCT 40 43 43 42 39 42 | Asp GAT 47 44 45 43 50 44 | Gly GGT 56 60 57 58 55 58
GTC 20 19 19 18 20 19 | GCC 16 15 16 14 17 16 | GAC 19 17 18 18 18 21 | GGC 26 25 25 27 26 28
GTA 11 13 14 12 12 12 | GCA 24 23 22 23 25 23 | Glu GAA 18 20 19 21 18 21 | GGA 10 10 10 11 10 8
GTG 21 19 19 19 21 20 | GCG 6 7 7 6 6 5 | GAG 30 31 31 29 29 29 | GGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 64 60 64 58 65 65 | Ser TCT 50 51 50 52 49 51 | Tyr TAT 41 41 41 41 41 41 | Cys TGT 30 30 30 30 29 30
TTC 17 18 17 20 17 17 | TCC 13 13 13 13 12 13 | TAC 21 23 21 23 21 21 | TGC 14 14 14 14 15 14
Leu TTA 20 20 20 19 20 19 | TCA 18 17 18 18 17 18 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 28 28 28 29 28 28 | TCG 6 6 6 5 6 6 | TAG 0 0 0 0 0 0 | Trp TGG 11 11 11 11 11 11
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 38 40 38 41 39 39 | Pro CCT 27 28 27 30 28 28 | His CAT 18 13 18 16 18 18 | Arg CGT 12 12 12 12 12 12
CTC 14 15 14 15 13 13 | CCC 8 7 8 3 8 8 | CAC 5 6 5 4 5 5 | CGC 3 3 3 3 3 3
CTA 14 15 14 15 15 15 | CCA 16 15 16 15 15 15 | Gln CAA 33 31 33 30 33 33 | CGA 4 5 4 4 4 4
CTG 16 17 16 16 16 16 | CCG 2 2 2 3 2 2 | CAG 27 30 27 31 27 27 | CGG 2 2 2 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 49 48 49 50 47 48 | Thr ACT 49 52 50 46 52 50 | Asn AAT 53 52 52 53 54 52 | Ser AGT 35 36 35 36 34 35
ATC 17 16 17 15 19 19 | ACC 25 21 25 23 21 23 | AAC 28 28 28 28 28 28 | AGC 11 10 11 10 11 10
ATA 10 10 10 10 10 10 | ACA 21 23 21 23 22 21 | Lys AAA 18 18 18 20 17 17 | Arg AGA 9 9 9 10 8 9
Met ATG 11 12 11 13 11 11 | ACG 11 10 11 11 10 11 | AAG 22 23 22 21 22 23 | AGG 11 11 11 11 11 11
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 70 69 70 67 70 69 | Ala GCT 43 42 43 42 44 41 | Asp GAT 44 46 44 49 42 45 | Gly GGT 59 56 58 56 60 59
GTC 19 22 19 19 21 20 | GCC 16 14 16 17 16 16 | GAC 18 19 18 18 20 19 | GGC 24 28 25 25 26 25
GTA 14 10 15 12 12 13 | GCA 22 24 22 24 23 22 | Glu GAA 19 19 19 18 19 20 | GGA 10 9 10 10 9 9
GTG 19 20 18 21 19 19 | GCG 7 7 7 6 7 8 | GAG 31 30 31 30 31 30 | GGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT 65 64 63 63 60 65 | Ser TCT 50 50 52 51 50 51 | Tyr TAT 40 41 39 40 42 41 | Cys TGT 30 30 32 31 30 31
TTC 16 17 15 17 21 16 | TCC 12 13 11 12 14 12 | TAC 20 21 23 22 21 21 | TGC 14 14 12 13 14 13
Leu TTA 20 21 18 21 18 20 | TCA 18 18 18 17 19 18 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0
TTG 28 27 28 29 29 27 | TCG 6 6 6 6 6 6 | TAG 0 0 0 0 0 0 | Trp TGG 11 11 11 11 11 12
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT 38 38 42 40 39 38 | Pro CCT 29 27 26 27 27 29 | His CAT 19 18 18 19 19 18 | Arg CGT 13 12 12 11 12 12
CTC 14 14 12 14 14 14 | CCC 7 8 9 9 8 7 | CAC 5 5 6 5 4 5 | CGC 3 3 3 4 3 3
CTA 14 14 17 14 15 14 | CCA 15 16 14 15 16 15 | Gln CAA 33 33 34 33 33 33 | CGA 4 4 3 5 4 4
CTG 16 16 15 14 15 16 | CCG 2 2 2 2 2 3 | CAG 27 27 26 27 27 27 | CGG 2 2 3 2 2 2
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT 50 49 50 47 53 49 | Thr ACT 47 48 53 51 49 49 | Asn AAT 54 53 52 50 51 53 | Ser AGT 35 35 34 35 34 35
ATC 17 17 15 18 17 17 | ACC 25 26 23 23 23 25 | AAC 28 28 27 27 29 28 | AGC 12 11 10 11 9 11
ATA 11 10 10 10 10 10 | ACA 20 21 22 21 21 21 | Lys AAA 16 18 18 18 17 18 | Arg AGA 10 9 8 9 9 9
Met ATG 12 11 13 12 10 11 | ACG 11 11 11 11 11 11 | AAG 22 22 22 23 22 22 | AGG 11 11 11 11 11 10
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT 70 70 70 69 69 71 | Ala GCT 44 43 48 43 41 43 | Asp GAT 43 43 43 46 41 45 | Gly GGT 58 58 62 58 59 58
GTC 19 19 18 20 20 18 | GCC 16 16 12 14 16 16 | GAC 19 19 20 19 21 18 | GGC 24 25 25 25 26 25
GTA 14 14 13 15 13 14 | GCA 22 22 21 21 23 22 | Glu GAA 19 19 21 19 18 19 | GGA 10 10 9 10 9 10
GTG 19 19 18 18 19 19 | GCG 7 7 8 8 8 7 | GAG 31 31 30 31 33 30 | GGG 3 3 3 3 3 3
--------------------------------------------------------------------------------------------------------------------------------------
Codon position x base (3x4) table for each sequence.
#1: C363
position 1: T:0.24307 C:0.17518 A:0.27883 G:0.30292
position 2: T:0.30803 C:0.24015 A:0.27883 G:0.17299
position 3: T:0.49343 C:0.18540 A:0.16569 G:0.15547
Average T:0.34818 C:0.20024 A:0.24112 G:0.21046
#2: C370
position 1: T:0.24161 C:0.17956 A:0.28102 G:0.29781
position 2: T:0.30292 C:0.24964 A:0.27883 G:0.16861
position 3: T:0.48832 C:0.18467 A:0.17372 G:0.15328
Average T:0.34428 C:0.20462 A:0.24453 G:0.20657
#3: C554
position 1: T:0.24161 C:0.17591 A:0.27737 G:0.30511
position 2: T:0.30730 C:0.24380 A:0.27591 G:0.17299
position 3: T:0.50073 C:0.18248 A:0.16569 G:0.15109
Average T:0.34988 C:0.20073 A:0.23966 G:0.20973
#4: C191
position 1: T:0.24307 C:0.17445 A:0.27737 G:0.30511
position 2: T:0.30730 C:0.24380 A:0.27591 G:0.17299
position 3: T:0.49562 C:0.18540 A:0.16788 G:0.15109
Average T:0.34866 C:0.20122 A:0.24039 G:0.20973
#5: C112
position 1: T:0.24234 C:0.17518 A:0.27518 G:0.30730
position 2: T:0.30803 C:0.24307 A:0.27591 G:0.17299
position 3: T:0.49635 C:0.18832 A:0.16496 G:0.15036
Average T:0.34891 C:0.20219 A:0.23869 G:0.21022
#6: C34
position 1: T:0.23723 C:0.17810 A:0.27518 G:0.30949
position 2: T:0.30730 C:0.24307 A:0.27591 G:0.17372
position 3: T:0.49781 C:0.18759 A:0.16642 G:0.14818
Average T:0.34745 C:0.20292 A:0.23917 G:0.21046
#7: C538
position 1: T:0.24234 C:0.17518 A:0.27737 G:0.30511
position 2: T:0.30584 C:0.24380 A:0.27445 G:0.17591
position 3: T:0.50073 C:0.18248 A:0.16496 G:0.15182
Average T:0.34964 C:0.20049 A:0.23893 G:0.21095
#8: C316
position 1: T:0.24672 C:0.17299 A:0.27445 G:0.30584
position 2: T:0.30438 C:0.24453 A:0.27664 G:0.17445
position 3: T:0.49708 C:0.18759 A:0.16350 G:0.15182
Average T:0.34939 C:0.20170 A:0.23820 G:0.21071
#9: C212
position 1: T:0.24380 C:0.17372 A:0.27737 G:0.30511
position 2: T:0.30438 C:0.24526 A:0.27664 G:0.17372
position 3: T:0.50146 C:0.18394 A:0.16569 G:0.14891
Average T:0.34988 C:0.20097 A:0.23990 G:0.20925
#10: C552
position 1: T:0.24234 C:0.17591 A:0.27737 G:0.30438
position 2: T:0.30657 C:0.24380 A:0.27591 G:0.17372
position 3: T:0.49854 C:0.18394 A:0.16569 G:0.15182
Average T:0.34915 C:0.20122 A:0.23966 G:0.20998
#11: C66
position 1: T:0.24088 C:0.17810 A:0.27518 G:0.30584
position 2: T:0.30657 C:0.24380 A:0.27591 G:0.17372
position 3: T:0.49854 C:0.18467 A:0.16496 G:0.15182
Average T:0.34866 C:0.20219 A:0.23869 G:0.21046
#12: C321
position 1: T:0.24161 C:0.17591 A:0.27737 G:0.30511
position 2: T:0.30730 C:0.24015 A:0.27591 G:0.17664
position 3: T:0.49416 C:0.18613 A:0.16569 G:0.15401
Average T:0.34769 C:0.20073 A:0.23966 G:0.21192
#13: C166
position 1: T:0.24380 C:0.17518 A:0.27810 G:0.30292
position 2: T:0.30730 C:0.24088 A:0.27883 G:0.17299
position 3: T:0.49343 C:0.18613 A:0.16496 G:0.15547
Average T:0.34818 C:0.20073 A:0.24063 G:0.21046
#14: C139
position 1: T:0.24088 C:0.17518 A:0.27664 G:0.30730
position 2: T:0.30730 C:0.24307 A:0.27591 G:0.17372
position 3: T:0.50000 C:0.18102 A:0.16861 G:0.15036
Average T:0.34939 C:0.19976 A:0.24039 G:0.21046
#15: C578
position 1: T:0.24307 C:0.17445 A:0.27737 G:0.30511
position 2: T:0.30584 C:0.24453 A:0.27664 G:0.17299
position 3: T:0.50000 C:0.18321 A:0.16569 G:0.15109
Average T:0.34964 C:0.20073 A:0.23990 G:0.20973
#16: C327
position 1: T:0.24745 C:0.17153 A:0.27883 G:0.30219
position 2: T:0.30511 C:0.24526 A:0.28029 G:0.16934
position 3: T:0.49270 C:0.18248 A:0.17226 G:0.15255
Average T:0.34842 C:0.19976 A:0.24380 G:0.20803
#17: C236
position 1: T:0.24161 C:0.17518 A:0.27883 G:0.30438
position 2: T:0.30949 C:0.23869 A:0.27810 G:0.17372
position 3: T:0.49343 C:0.18540 A:0.16715 G:0.15401
Average T:0.34818 C:0.19976 A:0.24136 G:0.21071
#18: C72
position 1: T:0.24307 C:0.17299 A:0.27883 G:0.30511
position 2: T:0.30876 C:0.24088 A:0.27810 G:0.17226
position 3: T:0.50000 C:0.18175 A:0.16788 G:0.15036
Average T:0.35061 C:0.19854 A:0.24161 G:0.20925
#19: C590
position 1: T:0.24307 C:0.17445 A:0.27737 G:0.30511
position 2: T:0.30657 C:0.24380 A:0.27591 G:0.17372
position 3: T:0.49781 C:0.18467 A:0.16642 G:0.15109
Average T:0.34915 C:0.20097 A:0.23990 G:0.20998
#20: C425
position 1: T:0.24234 C:0.17591 A:0.27664 G:0.30511
position 2: T:0.30657 C:0.24234 A:0.27664 G:0.17445
position 3: T:0.49343 C:0.18759 A:0.16423 G:0.15474
Average T:0.34745 C:0.20195 A:0.23917 G:0.21144
#21: C223
position 1: T:0.24307 C:0.17445 A:0.27737 G:0.30511
position 2: T:0.30657 C:0.24453 A:0.27518 G:0.17372
position 3: T:0.49708 C:0.18540 A:0.16715 G:0.15036
Average T:0.34891 C:0.20146 A:0.23990 G:0.20973
#22: C476
position 1: T:0.24307 C:0.17518 A:0.27737 G:0.30438
position 2: T:0.30657 C:0.24161 A:0.27883 G:0.17299
position 3: T:0.49562 C:0.18248 A:0.16642 G:0.15547
Average T:0.34842 C:0.19976 A:0.24088 G:0.21095
#23: C130
position 1: T:0.24161 C:0.17518 A:0.27518 G:0.30803
position 2: T:0.30803 C:0.24234 A:0.27591 G:0.17372
position 3: T:0.49927 C:0.18686 A:0.16350 G:0.15036
Average T:0.34964 C:0.20146 A:0.23820 G:0.21071
#24: C266
position 1: T:0.24380 C:0.17518 A:0.27591 G:0.30511
position 2: T:0.30730 C:0.24307 A:0.27664 G:0.17299
position 3: T:0.49854 C:0.18540 A:0.16423 G:0.15182
Average T:0.34988 C:0.20122 A:0.23893 G:0.20998
#25: C388
position 1: T:0.24088 C:0.17591 A:0.27810 G:0.30511
position 2: T:0.30876 C:0.24161 A:0.27445 G:0.17518
position 3: T:0.50000 C:0.18321 A:0.16496 G:0.15182
Average T:0.34988 C:0.20024 A:0.23917 G:0.21071
#26: C284
position 1: T:0.24307 C:0.17445 A:0.27737 G:0.30511
position 2: T:0.30657 C:0.24380 A:0.27591 G:0.17372
position 3: T:0.49562 C:0.18686 A:0.16715 G:0.15036
Average T:0.34842 C:0.20170 A:0.24015 G:0.20973
#27: C78
position 1: T:0.23942 C:0.17664 A:0.27664 G:0.30730
position 2: T:0.30438 C:0.24526 A:0.27664 G:0.17372
position 3: T:0.50803 C:0.17591 A:0.16496 G:0.15109
Average T:0.35061 C:0.19927 A:0.23942 G:0.21071
#28: C49
position 1: T:0.24307 C:0.17591 A:0.27518 G:0.30584
position 2: T:0.30730 C:0.24161 A:0.27664 G:0.17445
position 3: T:0.49708 C:0.18467 A:0.16642 G:0.15182
Average T:0.34915 C:0.20073 A:0.23942 G:0.21071
#29: C136
position 1: T:0.24453 C:0.17518 A:0.27445 G:0.30584
position 2: T:0.30803 C:0.24380 A:0.27591 G:0.17226
position 3: T:0.49343 C:0.18978 A:0.16423 G:0.15255
Average T:0.34866 C:0.20292 A:0.23820 G:0.21022
#30: C562
position 1: T:0.24307 C:0.17518 A:0.27664 G:0.30511
position 2: T:0.30584 C:0.24453 A:0.27591 G:0.17372
position 3: T:0.50219 C:0.18175 A:0.16569 G:0.15036
Average T:0.35036 C:0.20049 A:0.23942 G:0.20973
Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT 1906 | Ser S TCT 1517 | Tyr Y TAT 1232 | Cys C TGT 906
TTC 507 | TCC 381 | TAC 637 | TGC 411
Leu L TTA 582 | TCA 543 | *** * TAA 0 | *** * TGA 0
TTG 847 | TCG 171 | TAG 0 | Trp W TGG 330
------------------------------------------------------------------------------
Leu L CTT 1168 | Pro P CCT 841 | His H CAT 525 | Arg R CGT 363
CTC 419 | CCC 219 | CAC 150 | CGC 85
CTA 445 | CCA 455 | Gln Q CAA 975 | CGA 123
CTG 473 | CCG 69 | CAG 831 | CGG 63
------------------------------------------------------------------------------
Ile I ATT 1456 | Thr T ACT 1478 | Asn N AAT 1586 | Ser S AGT 1037
ATC 513 | ACC 721 | AAC 838 | AGC 313
ATA 307 | ACA 651 | Lys K AAA 550 | Arg R AGA 269
Met M ATG 350 | ACG 324 | AAG 658 | AGG 335
------------------------------------------------------------------------------
Val V GTT 2083 | Ala A GCT 1271 | Asp D GAT 1336 | Gly G GGT 1736
GTC 586 | GCC 470 | GAC 564 | GGC 772
GTA 388 | GCA 677 | Glu E GAA 574 | GGA 293
GTG 577 | GCG 208 | GAG 914 | GGG 91
------------------------------------------------------------------------------
Codon position x base (3x4) table, overall
position 1: T:0.24258 C:0.17528 A:0.27703 G:0.30511
position 2: T:0.30674 C:0.24321 A:0.27664 G:0.17341
position 3: T:0.49735 C:0.18457 A:0.16623 G:0.15185
Average T:0.34889 C:0.20102 A:0.23997 G:0.21012
Model 1: NearlyNeutral (2 categories)
TREE # 1: (12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
check convergence..
lnL(ntime: 51 np: 54): -10600.199588 +0.000000
31..12 31..20 31..32 32..33 33..34 34..35 35..36 36..37 37..38 38..11 38..27 37..28 36..39 39..40 40..41 41..16 41..2 40..42 42..43 43..21 43..26 43..4 43..19 42..44 44..45 45..46 46..30 46..3 45..15 45..25 44..7 44..10 44..9 40..47 47..48 48..49 49..50 50..8 50..29 49..5 48..24 47..51 51..6 51..23 39..14 35..18 34..52 52..17 52..22 33..13 32..1
0.010736 0.008023 0.037843 0.003091 0.002156 0.022559 0.074274 0.006319 0.001982 0.007980 0.047537 0.018189 0.007334 0.002198 0.033467 0.038716 0.025094 0.004730 0.002292 0.001534 0.002300 0.002302 0.000767 0.000778 0.000767 0.000763 0.003073 0.001538 0.002301 0.011564 0.005388 0.002304 0.013892 0.005144 0.002417 0.003567 0.002231 0.021356 0.021425 0.008707 0.004612 0.009256 0.040032 0.009421 0.016517 0.064424 0.006385 0.012449 0.003849 0.002313 0.000004 2.849806 0.801934 0.039070
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.637900
(12: 0.010736, 20: 0.008023, (((((((11: 0.007980, 27: 0.047537): 0.001982, 28: 0.018189): 0.006319, (((16: 0.038716, 2: 0.025094): 0.033467, ((21: 0.001534, 26: 0.002300, 4: 0.002302, 19: 0.000767): 0.002292, (((30: 0.003073, 3: 0.001538): 0.000763, 15: 0.002301, 25: 0.011564): 0.000767, 7: 0.005388, 10: 0.002304, 9: 0.013892): 0.000778): 0.004730, ((((8: 0.021356, 29: 0.021425): 0.002231, 5: 0.008707): 0.003567, 24: 0.004612): 0.002417, (6: 0.040032, 23: 0.009421): 0.009256): 0.005144): 0.002198, 14: 0.016517): 0.007334): 0.074274, 18: 0.064424): 0.022559, (17: 0.012449, 22: 0.003849): 0.006385): 0.002156, 13: 0.002313): 0.003091, 1: 0.000004): 0.037843);
(C321: 0.010736, C425: 0.008023, (((((((C66: 0.007980, C78: 0.047537): 0.001982, C49: 0.018189): 0.006319, (((C327: 0.038716, C370: 0.025094): 0.033467, ((C223: 0.001534, C284: 0.002300, C191: 0.002302, C590: 0.000767): 0.002292, (((C562: 0.003073, C554: 0.001538): 0.000763, C578: 0.002301, C388: 0.011564): 0.000767, C538: 0.005388, C552: 0.002304, C212: 0.013892): 0.000778): 0.004730, ((((C316: 0.021356, C136: 0.021425): 0.002231, C112: 0.008707): 0.003567, C266: 0.004612): 0.002417, (C34: 0.040032, C130: 0.009421): 0.009256): 0.005144): 0.002198, C139: 0.016517): 0.007334): 0.074274, C72: 0.064424): 0.022559, (C236: 0.012449, C476: 0.003849): 0.006385): 0.002156, C166: 0.002313): 0.003091, C363: 0.000004): 0.037843);
Detailed output identifying parameters
kappa (ts/tv) = 2.84981
MLEs of dN/dS (w) for site classes (K=2)
p: 0.80193 0.19807
w: 0.03907 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..12 0.011 3219.8 890.2 0.2294 0.0021 0.0090 6.7 8.0
31..20 0.008 3219.8 890.2 0.2294 0.0015 0.0067 5.0 6.0
31..32 0.038 3219.8 890.2 0.2294 0.0073 0.0318 23.5 28.3
32..33 0.003 3219.8 890.2 0.2294 0.0006 0.0026 1.9 2.3
33..34 0.002 3219.8 890.2 0.2294 0.0004 0.0018 1.3 1.6
34..35 0.023 3219.8 890.2 0.2294 0.0044 0.0190 14.0 16.9
35..36 0.074 3219.8 890.2 0.2294 0.0143 0.0625 46.1 55.6
36..37 0.006 3219.8 890.2 0.2294 0.0012 0.0053 3.9 4.7
37..38 0.002 3219.8 890.2 0.2294 0.0004 0.0017 1.2 1.5
38..11 0.008 3219.8 890.2 0.2294 0.0015 0.0067 5.0 6.0
38..27 0.048 3219.8 890.2 0.2294 0.0092 0.0400 29.5 35.6
37..28 0.018 3219.8 890.2 0.2294 0.0035 0.0153 11.3 13.6
36..39 0.007 3219.8 890.2 0.2294 0.0014 0.0062 4.6 5.5
39..40 0.002 3219.8 890.2 0.2294 0.0004 0.0018 1.4 1.6
40..41 0.033 3219.8 890.2 0.2294 0.0065 0.0281 20.8 25.1
41..16 0.039 3219.8 890.2 0.2294 0.0075 0.0326 24.1 29.0
41..2 0.025 3219.8 890.2 0.2294 0.0048 0.0211 15.6 18.8
40..42 0.005 3219.8 890.2 0.2294 0.0009 0.0040 2.9 3.5
42..43 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
43..21 0.002 3219.8 890.2 0.2294 0.0003 0.0013 1.0 1.1
43..26 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
43..4 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
43..19 0.001 3219.8 890.2 0.2294 0.0001 0.0006 0.5 0.6
42..44 0.001 3219.8 890.2 0.2294 0.0002 0.0007 0.5 0.6
44..45 0.001 3219.8 890.2 0.2294 0.0001 0.0006 0.5 0.6
45..46 0.001 3219.8 890.2 0.2294 0.0001 0.0006 0.5 0.6
46..30 0.003 3219.8 890.2 0.2294 0.0006 0.0026 1.9 2.3
46..3 0.002 3219.8 890.2 0.2294 0.0003 0.0013 1.0 1.2
45..15 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
45..25 0.012 3219.8 890.2 0.2294 0.0022 0.0097 7.2 8.7
44..7 0.005 3219.8 890.2 0.2294 0.0010 0.0045 3.3 4.0
44..10 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
44..9 0.014 3219.8 890.2 0.2294 0.0027 0.0117 8.6 10.4
40..47 0.005 3219.8 890.2 0.2294 0.0010 0.0043 3.2 3.9
47..48 0.002 3219.8 890.2 0.2294 0.0005 0.0020 1.5 1.8
48..49 0.004 3219.8 890.2 0.2294 0.0007 0.0030 2.2 2.7
49..50 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
50..8 0.021 3219.8 890.2 0.2294 0.0041 0.0180 13.3 16.0
50..29 0.021 3219.8 890.2 0.2294 0.0041 0.0180 13.3 16.0
49..5 0.009 3219.8 890.2 0.2294 0.0017 0.0073 5.4 6.5
48..24 0.005 3219.8 890.2 0.2294 0.0009 0.0039 2.9 3.5
47..51 0.009 3219.8 890.2 0.2294 0.0018 0.0078 5.8 6.9
51..6 0.040 3219.8 890.2 0.2294 0.0077 0.0337 24.9 30.0
51..23 0.009 3219.8 890.2 0.2294 0.0018 0.0079 5.9 7.1
39..14 0.017 3219.8 890.2 0.2294 0.0032 0.0139 10.3 12.4
35..18 0.064 3219.8 890.2 0.2294 0.0124 0.0542 40.0 48.2
34..52 0.006 3219.8 890.2 0.2294 0.0012 0.0054 4.0 4.8
52..17 0.012 3219.8 890.2 0.2294 0.0024 0.0105 7.7 9.3
52..22 0.004 3219.8 890.2 0.2294 0.0007 0.0032 2.4 2.9
33..13 0.002 3219.8 890.2 0.2294 0.0004 0.0019 1.4 1.7
32..1 0.000 3219.8 890.2 0.2294 0.0000 0.0000 0.0 0.0
Time used: 15:15
Model 2: PositiveSelection (3 categories)
TREE # 1: (12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
check convergence..
lnL(ntime: 51 np: 56): -10587.333497 +0.000000
31..12 31..20 31..32 32..33 33..34 34..35 35..36 36..37 37..38 38..11 38..27 37..28 36..39 39..40 40..41 41..16 41..2 40..42 42..43 43..21 43..26 43..4 43..19 42..44 44..45 45..46 46..30 46..3 45..15 45..25 44..7 44..10 44..9 40..47 47..48 48..49 49..50 50..8 50..29 49..5 48..24 47..51 51..6 51..23 39..14 35..18 34..52 52..17 52..22 33..13 32..1
0.010840 0.008238 0.038807 0.003147 0.002157 0.023414 0.076311 0.006344 0.001962 0.008154 0.048490 0.018538 0.007543 0.002244 0.034239 0.039521 0.025632 0.004805 0.002329 0.001558 0.002337 0.002339 0.000779 0.000790 0.000780 0.000775 0.003118 0.001560 0.002338 0.011757 0.005478 0.002342 0.014120 0.005224 0.002463 0.003625 0.002273 0.021729 0.021775 0.008847 0.004686 0.009259 0.040838 0.009703 0.016778 0.066033 0.006518 0.012657 0.003934 0.002352 0.000004 2.972352 0.821407 0.155648 0.053484 3.562888
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.651485
(12: 0.010840, 20: 0.008238, (((((((11: 0.008154, 27: 0.048490): 0.001962, 28: 0.018538): 0.006344, (((16: 0.039521, 2: 0.025632): 0.034239, ((21: 0.001558, 26: 0.002337, 4: 0.002339, 19: 0.000779): 0.002329, (((30: 0.003118, 3: 0.001560): 0.000775, 15: 0.002338, 25: 0.011757): 0.000780, 7: 0.005478, 10: 0.002342, 9: 0.014120): 0.000790): 0.004805, ((((8: 0.021729, 29: 0.021775): 0.002273, 5: 0.008847): 0.003625, 24: 0.004686): 0.002463, (6: 0.040838, 23: 0.009703): 0.009259): 0.005224): 0.002244, 14: 0.016778): 0.007543): 0.076311, 18: 0.066033): 0.023414, (17: 0.012657, 22: 0.003934): 0.006518): 0.002157, 13: 0.002352): 0.003147, 1: 0.000004): 0.038807);
(C321: 0.010840, C425: 0.008238, (((((((C66: 0.008154, C78: 0.048490): 0.001962, C49: 0.018538): 0.006344, (((C327: 0.039521, C370: 0.025632): 0.034239, ((C223: 0.001558, C284: 0.002337, C191: 0.002339, C590: 0.000779): 0.002329, (((C562: 0.003118, C554: 0.001560): 0.000775, C578: 0.002338, C388: 0.011757): 0.000780, C538: 0.005478, C552: 0.002342, C212: 0.014120): 0.000790): 0.004805, ((((C316: 0.021729, C136: 0.021775): 0.002273, C112: 0.008847): 0.003625, C266: 0.004686): 0.002463, (C34: 0.040838, C130: 0.009703): 0.009259): 0.005224): 0.002244, C139: 0.016778): 0.007543): 0.076311, C72: 0.066033): 0.023414, (C236: 0.012657, C476: 0.003934): 0.006518): 0.002157, C166: 0.002352): 0.003147, C363: 0.000004): 0.038807);
Detailed output identifying parameters
kappa (ts/tv) = 2.97235
MLEs of dN/dS (w) for site classes (K=3)
p: 0.82141 0.15565 0.02295
w: 0.05348 1.00000 3.56289
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..12 0.011 3214.5 895.5 0.2813 0.0023 0.0083 7.5 7.4
31..20 0.008 3214.5 895.5 0.2813 0.0018 0.0063 5.7 5.6
31..32 0.039 3214.5 895.5 0.2813 0.0083 0.0295 26.7 26.5
32..33 0.003 3214.5 895.5 0.2813 0.0007 0.0024 2.2 2.1
33..34 0.002 3214.5 895.5 0.2813 0.0005 0.0016 1.5 1.5
34..35 0.023 3214.5 895.5 0.2813 0.0050 0.0178 16.1 16.0
35..36 0.076 3214.5 895.5 0.2813 0.0163 0.0581 52.5 52.0
36..37 0.006 3214.5 895.5 0.2813 0.0014 0.0048 4.4 4.3
37..38 0.002 3214.5 895.5 0.2813 0.0004 0.0015 1.4 1.3
38..11 0.008 3214.5 895.5 0.2813 0.0017 0.0062 5.6 5.6
38..27 0.048 3214.5 895.5 0.2813 0.0104 0.0369 33.4 33.1
37..28 0.019 3214.5 895.5 0.2813 0.0040 0.0141 12.8 12.6
36..39 0.008 3214.5 895.5 0.2813 0.0016 0.0057 5.2 5.1
39..40 0.002 3214.5 895.5 0.2813 0.0005 0.0017 1.5 1.5
40..41 0.034 3214.5 895.5 0.2813 0.0073 0.0261 23.6 23.3
41..16 0.040 3214.5 895.5 0.2813 0.0085 0.0301 27.2 26.9
41..2 0.026 3214.5 895.5 0.2813 0.0055 0.0195 17.6 17.5
40..42 0.005 3214.5 895.5 0.2813 0.0010 0.0037 3.3 3.3
42..43 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
43..21 0.002 3214.5 895.5 0.2813 0.0003 0.0012 1.1 1.1
43..26 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
43..4 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
43..19 0.001 3214.5 895.5 0.2813 0.0002 0.0006 0.5 0.5
42..44 0.001 3214.5 895.5 0.2813 0.0002 0.0006 0.5 0.5
44..45 0.001 3214.5 895.5 0.2813 0.0002 0.0006 0.5 0.5
45..46 0.001 3214.5 895.5 0.2813 0.0002 0.0006 0.5 0.5
46..30 0.003 3214.5 895.5 0.2813 0.0007 0.0024 2.1 2.1
46..3 0.002 3214.5 895.5 0.2813 0.0003 0.0012 1.1 1.1
45..15 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
45..25 0.012 3214.5 895.5 0.2813 0.0025 0.0089 8.1 8.0
44..7 0.005 3214.5 895.5 0.2813 0.0012 0.0042 3.8 3.7
44..10 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
44..9 0.014 3214.5 895.5 0.2813 0.0030 0.0107 9.7 9.6
40..47 0.005 3214.5 895.5 0.2813 0.0011 0.0040 3.6 3.6
47..48 0.002 3214.5 895.5 0.2813 0.0005 0.0019 1.7 1.7
48..49 0.004 3214.5 895.5 0.2813 0.0008 0.0028 2.5 2.5
49..50 0.002 3214.5 895.5 0.2813 0.0005 0.0017 1.6 1.5
50..8 0.022 3214.5 895.5 0.2813 0.0047 0.0165 15.0 14.8
50..29 0.022 3214.5 895.5 0.2813 0.0047 0.0166 15.0 14.8
49..5 0.009 3214.5 895.5 0.2813 0.0019 0.0067 6.1 6.0
48..24 0.005 3214.5 895.5 0.2813 0.0010 0.0036 3.2 3.2
47..51 0.009 3214.5 895.5 0.2813 0.0020 0.0070 6.4 6.3
51..6 0.041 3214.5 895.5 0.2813 0.0087 0.0311 28.1 27.8
51..23 0.010 3214.5 895.5 0.2813 0.0021 0.0074 6.7 6.6
39..14 0.017 3214.5 895.5 0.2813 0.0036 0.0128 11.5 11.4
35..18 0.066 3214.5 895.5 0.2813 0.0141 0.0503 45.5 45.0
34..52 0.007 3214.5 895.5 0.2813 0.0014 0.0050 4.5 4.4
52..17 0.013 3214.5 895.5 0.2813 0.0027 0.0096 8.7 8.6
52..22 0.004 3214.5 895.5 0.2813 0.0008 0.0030 2.7 2.7
33..13 0.002 3214.5 895.5 0.2813 0.0005 0.0018 1.6 1.6
32..1 0.000 3214.5 895.5 0.2813 0.0000 0.0000 0.0 0.0
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.715 2.833
28 S 0.507 2.299
65 T 0.670 2.716
82 D 0.661 2.695
126 N 0.971* 3.489
135 N 0.577 2.480
153 Q 0.804 3.060
155 G 0.977* 3.504
193 K 0.564 2.446
306 A 0.878 3.250
361 T 0.810 3.076
484 R 0.600 2.537
514 S 0.829 3.123
560 K 0.978* 3.507
716 S 0.922 3.362
1193 T 0.736 2.886
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.754 2.549 +- 1.007
28 S 0.627 2.266 +- 1.072
65 T 0.723 2.484 +- 1.033
66 G 0.589 2.197 +- 1.094
82 D 0.733 2.496 +- 1.020
83 A 0.561 2.124 +- 1.079
113 H 0.537 2.073 +- 1.079
126 N 0.964* 2.957 +- 0.657
135 N 0.695 2.402 +- 1.038
153 Q 0.842 2.715 +- 0.899
155 G 0.971* 2.969 +- 0.638
193 K 0.671 2.359 +- 1.056
306 A 0.880 2.799 +- 0.841
361 T 0.834 2.705 +- 0.913
484 R 0.675 2.381 +- 1.063
514 S 0.846 2.730 +- 0.896
560 K 0.970* 2.969 +- 0.640
716 S 0.920 2.875 +- 0.762
1155 G 0.500 1.992 +- 1.069
1193 T 0.771 2.583 +- 0.990
1261 P 0.559 2.120 +- 1.079
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: 0.014 0.463 0.512 0.011 0.000 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 0.980
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 0.014 0.006 0.000
sum of density on p0-p1 = 1.000000
Time used: 50:25
Model 7: beta (10 categories)
TREE # 1: (12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
lnL(ntime: 51 np: 54): -10603.287698 +0.000000
31..12 31..20 31..32 32..33 33..34 34..35 35..36 36..37 37..38 38..11 38..27 37..28 36..39 39..40 40..41 41..16 41..2 40..42 42..43 43..21 43..26 43..4 43..19 42..44 44..45 45..46 46..30 46..3 45..15 45..25 44..7 44..10 44..9 40..47 47..48 48..49 49..50 50..8 50..29 49..5 48..24 47..51 51..6 51..23 39..14 35..18 34..52 52..17 52..22 33..13 32..1
0.010604 0.007917 0.037390 0.003054 0.002137 0.022272 0.073438 0.006235 0.001963 0.007884 0.046979 0.017968 0.007257 0.002173 0.033122 0.038359 0.024844 0.004673 0.002265 0.001516 0.002272 0.002275 0.000758 0.000769 0.000759 0.000754 0.003037 0.001520 0.002274 0.011427 0.005325 0.002277 0.013731 0.005084 0.002389 0.003525 0.002205 0.021114 0.021175 0.008605 0.004558 0.009150 0.039580 0.009310 0.016323 0.063713 0.006309 0.012311 0.003797 0.002286 0.000004 2.872595 0.022121 0.070725
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.630665
(12: 0.010604, 20: 0.007917, (((((((11: 0.007884, 27: 0.046979): 0.001963, 28: 0.017968): 0.006235, (((16: 0.038359, 2: 0.024844): 0.033122, ((21: 0.001516, 26: 0.002272, 4: 0.002275, 19: 0.000758): 0.002265, (((30: 0.003037, 3: 0.001520): 0.000754, 15: 0.002274, 25: 0.011427): 0.000759, 7: 0.005325, 10: 0.002277, 9: 0.013731): 0.000769): 0.004673, ((((8: 0.021114, 29: 0.021175): 0.002205, 5: 0.008605): 0.003525, 24: 0.004558): 0.002389, (6: 0.039580, 23: 0.009310): 0.009150): 0.005084): 0.002173, 14: 0.016323): 0.007257): 0.073438, 18: 0.063713): 0.022272, (17: 0.012311, 22: 0.003797): 0.006309): 0.002137, 13: 0.002286): 0.003054, 1: 0.000004): 0.037390);
(C321: 0.010604, C425: 0.007917, (((((((C66: 0.007884, C78: 0.046979): 0.001963, C49: 0.017968): 0.006235, (((C327: 0.038359, C370: 0.024844): 0.033122, ((C223: 0.001516, C284: 0.002272, C191: 0.002275, C590: 0.000758): 0.002265, (((C562: 0.003037, C554: 0.001520): 0.000754, C578: 0.002274, C388: 0.011427): 0.000759, C538: 0.005325, C552: 0.002277, C212: 0.013731): 0.000769): 0.004673, ((((C316: 0.021114, C136: 0.021175): 0.002205, C112: 0.008605): 0.003525, C266: 0.004558): 0.002389, (C34: 0.039580, C130: 0.009310): 0.009150): 0.005084): 0.002173, C139: 0.016323): 0.007257): 0.073438, C72: 0.063713): 0.022272, (C236: 0.012311, C476: 0.003797): 0.006309): 0.002137, C166: 0.002286): 0.003054, C363: 0.000004): 0.037390);
Detailed output identifying parameters
kappa (ts/tv) = 2.87260
Parameters in M7 (beta):
p = 0.02212 q = 0.07072
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 0.00069 0.31563 0.99861 1.00000
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..12 0.011 3218.8 891.2 0.2315 0.0021 0.0089 6.6 7.9
31..20 0.008 3218.8 891.2 0.2315 0.0015 0.0066 4.9 5.9
31..32 0.037 3218.8 891.2 0.2315 0.0072 0.0313 23.3 27.9
32..33 0.003 3218.8 891.2 0.2315 0.0006 0.0026 1.9 2.3
33..34 0.002 3218.8 891.2 0.2315 0.0004 0.0018 1.3 1.6
34..35 0.022 3218.8 891.2 0.2315 0.0043 0.0186 13.9 16.6
35..36 0.073 3218.8 891.2 0.2315 0.0142 0.0615 45.8 54.8
36..37 0.006 3218.8 891.2 0.2315 0.0012 0.0052 3.9 4.7
37..38 0.002 3218.8 891.2 0.2315 0.0004 0.0016 1.2 1.5
38..11 0.008 3218.8 891.2 0.2315 0.0015 0.0066 4.9 5.9
38..27 0.047 3218.8 891.2 0.2315 0.0091 0.0393 29.3 35.1
37..28 0.018 3218.8 891.2 0.2315 0.0035 0.0150 11.2 13.4
36..39 0.007 3218.8 891.2 0.2315 0.0014 0.0061 4.5 5.4
39..40 0.002 3218.8 891.2 0.2315 0.0004 0.0018 1.4 1.6
40..41 0.033 3218.8 891.2 0.2315 0.0064 0.0277 20.7 24.7
41..16 0.038 3218.8 891.2 0.2315 0.0074 0.0321 23.9 28.6
41..2 0.025 3218.8 891.2 0.2315 0.0048 0.0208 15.5 18.5
40..42 0.005 3218.8 891.2 0.2315 0.0009 0.0039 2.9 3.5
42..43 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
43..21 0.002 3218.8 891.2 0.2315 0.0003 0.0013 0.9 1.1
43..26 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
43..4 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
43..19 0.001 3218.8 891.2 0.2315 0.0001 0.0006 0.5 0.6
42..44 0.001 3218.8 891.2 0.2315 0.0001 0.0006 0.5 0.6
44..45 0.001 3218.8 891.2 0.2315 0.0001 0.0006 0.5 0.6
45..46 0.001 3218.8 891.2 0.2315 0.0001 0.0006 0.5 0.6
46..30 0.003 3218.8 891.2 0.2315 0.0006 0.0025 1.9 2.3
46..3 0.002 3218.8 891.2 0.2315 0.0003 0.0013 0.9 1.1
45..15 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
45..25 0.011 3218.8 891.2 0.2315 0.0022 0.0096 7.1 8.5
44..7 0.005 3218.8 891.2 0.2315 0.0010 0.0045 3.3 4.0
44..10 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
44..9 0.014 3218.8 891.2 0.2315 0.0027 0.0115 8.6 10.2
40..47 0.005 3218.8 891.2 0.2315 0.0010 0.0043 3.2 3.8
47..48 0.002 3218.8 891.2 0.2315 0.0005 0.0020 1.5 1.8
48..49 0.004 3218.8 891.2 0.2315 0.0007 0.0030 2.2 2.6
49..50 0.002 3218.8 891.2 0.2315 0.0004 0.0018 1.4 1.6
50..8 0.021 3218.8 891.2 0.2315 0.0041 0.0177 13.2 15.8
50..29 0.021 3218.8 891.2 0.2315 0.0041 0.0177 13.2 15.8
49..5 0.009 3218.8 891.2 0.2315 0.0017 0.0072 5.4 6.4
48..24 0.005 3218.8 891.2 0.2315 0.0009 0.0038 2.8 3.4
47..51 0.009 3218.8 891.2 0.2315 0.0018 0.0077 5.7 6.8
51..6 0.040 3218.8 891.2 0.2315 0.0077 0.0331 24.7 29.5
51..23 0.009 3218.8 891.2 0.2315 0.0018 0.0078 5.8 6.9
39..14 0.016 3218.8 891.2 0.2315 0.0032 0.0137 10.2 12.2
35..18 0.064 3218.8 891.2 0.2315 0.0123 0.0533 39.7 47.5
34..52 0.006 3218.8 891.2 0.2315 0.0012 0.0053 3.9 4.7
52..17 0.012 3218.8 891.2 0.2315 0.0024 0.0103 7.7 9.2
52..22 0.004 3218.8 891.2 0.2315 0.0007 0.0032 2.4 2.8
33..13 0.002 3218.8 891.2 0.2315 0.0004 0.0019 1.4 1.7
32..1 0.000 3218.8 891.2 0.2315 0.0000 0.0000 0.0 0.0
Time used: 3:01:15
Model 8: beta&w>1 (11 categories)
TREE # 1: (12, 20, (((((((11, 27), 28), (((16, 2), ((21, 26, 4, 19), (((30, 3), 15, 25), 7, 10, 9)), ((((8, 29), 5), 24), (6, 23))), 14)), 18), (17, 22)), 13), 1)); MP score: 743
check convergence..
lnL(ntime: 51 np: 56): -10588.210083 +0.000000
31..12 31..20 31..32 32..33 33..34 34..35 35..36 36..37 37..38 38..11 38..27 37..28 36..39 39..40 40..41 41..16 41..2 40..42 42..43 43..21 43..26 43..4 43..19 42..44 44..45 45..46 46..30 46..3 45..15 45..25 44..7 44..10 44..9 40..47 47..48 48..49 49..50 50..8 50..29 49..5 48..24 47..51 51..6 51..23 39..14 35..18 34..52 52..17 52..22 33..13 32..1
0.010784 0.008240 0.038659 0.003137 0.002147 0.023314 0.076194 0.006318 0.001900 0.008171 0.048395 0.018498 0.007538 0.002236 0.034153 0.039475 0.025588 0.004788 0.002321 0.001553 0.002329 0.002331 0.000777 0.000787 0.000777 0.000772 0.003107 0.001555 0.002331 0.011718 0.005462 0.002333 0.014070 0.005208 0.002453 0.003613 0.002264 0.021658 0.021700 0.008818 0.004670 0.009247 0.040712 0.009661 0.016723 0.065848 0.006501 0.012614 0.003919 0.002343 0.000004 2.980191 0.952394 0.172514 0.877766 2.693606
Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).
tree length = 0.649712
(12: 0.010784, 20: 0.008240, (((((((11: 0.008171, 27: 0.048395): 0.001900, 28: 0.018498): 0.006318, (((16: 0.039475, 2: 0.025588): 0.034153, ((21: 0.001553, 26: 0.002329, 4: 0.002331, 19: 0.000777): 0.002321, (((30: 0.003107, 3: 0.001555): 0.000772, 15: 0.002331, 25: 0.011718): 0.000777, 7: 0.005462, 10: 0.002333, 9: 0.014070): 0.000787): 0.004788, ((((8: 0.021658, 29: 0.021700): 0.002264, 5: 0.008818): 0.003613, 24: 0.004670): 0.002453, (6: 0.040712, 23: 0.009661): 0.009247): 0.005208): 0.002236, 14: 0.016723): 0.007538): 0.076194, 18: 0.065848): 0.023314, (17: 0.012614, 22: 0.003919): 0.006501): 0.002147, 13: 0.002343): 0.003137, 1: 0.000004): 0.038659);
(C321: 0.010784, C425: 0.008240, (((((((C66: 0.008171, C78: 0.048395): 0.001900, C49: 0.018498): 0.006318, (((C327: 0.039475, C370: 0.025588): 0.034153, ((C223: 0.001553, C284: 0.002329, C191: 0.002331, C590: 0.000777): 0.002321, (((C562: 0.003107, C554: 0.001555): 0.000772, C578: 0.002331, C388: 0.011718): 0.000777, C538: 0.005462, C552: 0.002333, C212: 0.014070): 0.000787): 0.004788, ((((C316: 0.021658, C136: 0.021700): 0.002264, C112: 0.008818): 0.003613, C266: 0.004670): 0.002453, (C34: 0.040712, C130: 0.009661): 0.009247): 0.005208): 0.002236, C139: 0.016723): 0.007538): 0.076194, C72: 0.065848): 0.023314, (C236: 0.012614, C476: 0.003919): 0.006501): 0.002147, C166: 0.002343): 0.003137, C363: 0.000004): 0.038659);
Detailed output identifying parameters
kappa (ts/tv) = 2.98019
Parameters in M8 (beta&w>1):
p0 = 0.95239 p = 0.17251 q = 0.87777
(p1 = 0.04761) w = 2.69361
MLEs of dN/dS (w) for site classes (K=11)
p: 0.09524 0.09524 0.09524 0.09524 0.09524 0.09524 0.09524 0.09524 0.09524 0.09524 0.04761
w: 0.00000 0.00002 0.00039 0.00277 0.01186 0.03785 0.09902 0.22372 0.44863 0.80141 2.69361
dN & dS for each branch
branch t N S dN/dS dN dS N*dN S*dS
31..12 0.011 3214.2 895.8 0.2831 0.0023 0.0082 7.4 7.3
31..20 0.008 3214.2 895.8 0.2831 0.0018 0.0063 5.7 5.6
31..32 0.039 3214.2 895.8 0.2831 0.0083 0.0293 26.7 26.3
32..33 0.003 3214.2 895.8 0.2831 0.0007 0.0024 2.2 2.1
33..34 0.002 3214.2 895.8 0.2831 0.0005 0.0016 1.5 1.5
34..35 0.023 3214.2 895.8 0.2831 0.0050 0.0177 16.1 15.8
35..36 0.076 3214.2 895.8 0.2831 0.0164 0.0578 52.6 51.8
36..37 0.006 3214.2 895.8 0.2831 0.0014 0.0048 4.4 4.3
37..38 0.002 3214.2 895.8 0.2831 0.0004 0.0014 1.3 1.3
38..11 0.008 3214.2 895.8 0.2831 0.0018 0.0062 5.6 5.6
38..27 0.048 3214.2 895.8 0.2831 0.0104 0.0367 33.4 32.9
37..28 0.018 3214.2 895.8 0.2831 0.0040 0.0140 12.8 12.6
36..39 0.008 3214.2 895.8 0.2831 0.0016 0.0057 5.2 5.1
39..40 0.002 3214.2 895.8 0.2831 0.0005 0.0017 1.5 1.5
40..41 0.034 3214.2 895.8 0.2831 0.0073 0.0259 23.6 23.2
41..16 0.039 3214.2 895.8 0.2831 0.0085 0.0300 27.2 26.8
41..2 0.026 3214.2 895.8 0.2831 0.0055 0.0194 17.7 17.4
40..42 0.005 3214.2 895.8 0.2831 0.0010 0.0036 3.3 3.3
42..43 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
43..21 0.002 3214.2 895.8 0.2831 0.0003 0.0012 1.1 1.1
43..26 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
43..4 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
43..19 0.001 3214.2 895.8 0.2831 0.0002 0.0006 0.5 0.5
42..44 0.001 3214.2 895.8 0.2831 0.0002 0.0006 0.5 0.5
44..45 0.001 3214.2 895.8 0.2831 0.0002 0.0006 0.5 0.5
45..46 0.001 3214.2 895.8 0.2831 0.0002 0.0006 0.5 0.5
46..30 0.003 3214.2 895.8 0.2831 0.0007 0.0024 2.1 2.1
46..3 0.002 3214.2 895.8 0.2831 0.0003 0.0012 1.1 1.1
45..15 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
45..25 0.012 3214.2 895.8 0.2831 0.0025 0.0089 8.1 8.0
44..7 0.005 3214.2 895.8 0.2831 0.0012 0.0041 3.8 3.7
44..10 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
44..9 0.014 3214.2 895.8 0.2831 0.0030 0.0107 9.7 9.6
40..47 0.005 3214.2 895.8 0.2831 0.0011 0.0040 3.6 3.5
47..48 0.002 3214.2 895.8 0.2831 0.0005 0.0019 1.7 1.7
48..49 0.004 3214.2 895.8 0.2831 0.0008 0.0027 2.5 2.5
49..50 0.002 3214.2 895.8 0.2831 0.0005 0.0017 1.6 1.5
50..8 0.022 3214.2 895.8 0.2831 0.0047 0.0164 15.0 14.7
50..29 0.022 3214.2 895.8 0.2831 0.0047 0.0165 15.0 14.7
49..5 0.009 3214.2 895.8 0.2831 0.0019 0.0067 6.1 6.0
48..24 0.005 3214.2 895.8 0.2831 0.0010 0.0035 3.2 3.2
47..51 0.009 3214.2 895.8 0.2831 0.0020 0.0070 6.4 6.3
51..6 0.041 3214.2 895.8 0.2831 0.0087 0.0309 28.1 27.7
51..23 0.010 3214.2 895.8 0.2831 0.0021 0.0073 6.7 6.6
39..14 0.017 3214.2 895.8 0.2831 0.0036 0.0127 11.5 11.4
35..18 0.066 3214.2 895.8 0.2831 0.0141 0.0500 45.5 44.8
34..52 0.007 3214.2 895.8 0.2831 0.0014 0.0049 4.5 4.4
52..17 0.013 3214.2 895.8 0.2831 0.0027 0.0096 8.7 8.6
52..22 0.004 3214.2 895.8 0.2831 0.0008 0.0030 2.7 2.7
33..13 0.002 3214.2 895.8 0.2831 0.0005 0.0018 1.6 1.6
32..1 0.000 3214.2 895.8 0.2831 0.0000 0.0000 0.0 0.0
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.883 2.463
28 S 0.842 2.387
29 T 0.680 2.059
62 Y 0.574 1.827
64 G 0.555 1.809
65 T 0.865 2.429
66 G 0.766 2.228
68 E 0.575 1.830
82 D 0.893 2.485
83 A 0.803 2.311
113 H 0.784 2.273
114 N 0.735 2.176
126 N 0.993** 2.680
131 G 0.553 1.784
135 N 0.901 2.503
153 Q 0.953* 2.604
155 G 0.995** 2.683
158 V 0.506 1.687
189 R 0.533 1.742
193 K 0.869 2.439
208 M 0.655 2.009
240 S 0.520 1.716
306 A 0.959* 2.615
351 L 0.573 1.825
355 T 0.573 1.825
361 T 0.941 2.579
484 R 0.835 2.370
493 I 0.733 2.172
514 S 0.945 2.588
560 K 0.994** 2.682
716 S 0.979* 2.653
760 P 0.617 1.917
769 A 0.545 1.767
992 L 0.551 1.780
1058 S 0.557 1.812
1155 G 0.763 2.232
1159 D 0.691 2.090
1193 T 0.896 2.489
1261 P 0.804 2.312
1286 L 0.561 1.801
1355 C 0.555 1.809
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.894 2.326 +- 0.569
28 S 0.864 2.277 +- 0.616
29 T 0.734 2.041 +- 0.799
56 M 0.540 1.671 +- 0.919
57 N 0.534 1.643 +- 0.946
62 Y 0.636 1.840 +- 0.907
64 G 0.634 1.858 +- 0.870
65 T 0.880 2.302 +- 0.598
66 G 0.800 2.157 +- 0.734
68 E 0.637 1.842 +- 0.907
82 D 0.904 2.345 +- 0.541
83 A 0.834 2.224 +- 0.664
94 E 0.549 1.672 +- 0.943
113 H 0.819 2.198 +- 0.686
114 N 0.782 2.131 +- 0.733
116 I 0.524 1.656 +- 0.903
126 N 0.991** 2.495 +- 0.254
131 G 0.619 1.806 +- 0.917
134 V 0.557 1.715 +- 0.897
135 N 0.911 2.360 +- 0.516
153 Q 0.954* 2.433 +- 0.402
155 G 0.993** 2.498 +- 0.243
158 V 0.578 1.728 +- 0.934
189 R 0.601 1.773 +- 0.925
193 K 0.885 2.314 +- 0.577
203 T 0.566 1.706 +- 0.938
208 M 0.715 2.005 +- 0.816
240 S 0.590 1.752 +- 0.930
297 M 0.519 1.613 +- 0.948
306 A 0.959* 2.441 +- 0.390
351 L 0.635 1.839 +- 0.908
355 T 0.635 1.839 +- 0.908
361 T 0.943 2.413 +- 0.440
484 R 0.857 2.260 +- 0.641
493 I 0.780 2.129 +- 0.735
514 S 0.947 2.420 +- 0.428
560 K 0.992** 2.497 +- 0.246
602 E 0.533 1.641 +- 0.946
716 S 0.977* 2.471 +- 0.320
760 P 0.673 1.910 +- 0.884
769 A 0.611 1.793 +- 0.920
952 I 0.553 1.680 +- 0.942
962 S 0.567 1.735 +- 0.895
992 L 0.617 1.803 +- 0.918
1058 S 0.635 1.859 +- 0.869
1155 G 0.804 2.170 +- 0.707
1159 D 0.748 2.071 +- 0.768
1193 T 0.905 2.346 +- 0.545
1203 F 0.537 1.680 +- 0.901
1211 S 0.516 1.641 +- 0.903
1261 P 0.835 2.225 +- 0.663
1286 L 0.625 1.819 +- 0.913
1355 C 0.634 1.857 +- 0.870
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 0.015 0.985
p : 0.946 0.054 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000
q : 0.000 0.000 0.039 0.689 0.187 0.015 0.001 0.003 0.018 0.047
ws: 0.015 0.960 0.025 0.000 0.000 0.000 0.000 0.000 0.000 0.000
Time used: 4:54:19
Model 1: NearlyNeutral -10600.199588
Model 2: PositiveSelection -10587.333497
Model 7: beta -10603.287698
Model 8: beta&w>1 -10588.210083
Model 2 vs 1 25.732182
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.715 2.833
28 S 0.507 2.299
65 T 0.670 2.716
82 D 0.661 2.695
126 N 0.971* 3.489
135 N 0.577 2.480
153 Q 0.804 3.060
155 G 0.977* 3.504
193 K 0.564 2.446
306 A 0.878 3.250
361 T 0.810 3.076
484 R 0.600 2.537
514 S 0.829 3.123
560 K 0.978* 3.507
716 S 0.922 3.362
1193 T 0.736 2.886
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.754 2.549 +- 1.007
28 S 0.627 2.266 +- 1.072
65 T 0.723 2.484 +- 1.033
66 G 0.589 2.197 +- 1.094
82 D 0.733 2.496 +- 1.020
83 A 0.561 2.124 +- 1.079
113 H 0.537 2.073 +- 1.079
126 N 0.964* 2.957 +- 0.657
135 N 0.695 2.402 +- 1.038
153 Q 0.842 2.715 +- 0.899
155 G 0.971* 2.969 +- 0.638
193 K 0.671 2.359 +- 1.056
306 A 0.880 2.799 +- 0.841
361 T 0.834 2.705 +- 0.913
484 R 0.675 2.381 +- 1.063
514 S 0.846 2.730 +- 0.896
560 K 0.970* 2.969 +- 0.640
716 S 0.920 2.875 +- 0.762
1155 G 0.500 1.992 +- 1.069
1193 T 0.771 2.583 +- 0.990
1261 P 0.559 2.120 +- 1.079
Model 8 vs 7 30.155230
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.883 2.463
28 S 0.842 2.387
29 T 0.680 2.059
62 Y 0.574 1.827
64 G 0.555 1.809
65 T 0.865 2.429
66 G 0.766 2.228
68 E 0.575 1.830
82 D 0.893 2.485
83 A 0.803 2.311
113 H 0.784 2.273
114 N 0.735 2.176
126 N 0.993** 2.680
131 G 0.553 1.784
135 N 0.901 2.503
153 Q 0.953* 2.604
155 G 0.995** 2.683
158 V 0.506 1.687
189 R 0.533 1.742
193 K 0.869 2.439
208 M 0.655 2.009
240 S 0.520 1.716
306 A 0.959* 2.615
351 L 0.573 1.825
355 T 0.573 1.825
361 T 0.941 2.579
484 R 0.835 2.370
493 I 0.733 2.172
514 S 0.945 2.588
560 K 0.994** 2.682
716 S 0.979* 2.653
760 P 0.617 1.917
769 A 0.545 1.767
992 L 0.551 1.780
1058 S 0.557 1.812
1155 G 0.763 2.232
1159 D 0.691 2.090
1193 T 0.896 2.489
1261 P 0.804 2.312
1286 L 0.561 1.801
1355 C 0.555 1.809
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: C363)
Pr(w>1) post mean +- SE for w
27 Q 0.894 2.326 +- 0.569
28 S 0.864 2.277 +- 0.616
29 T 0.734 2.041 +- 0.799
56 M 0.540 1.671 +- 0.919
57 N 0.534 1.643 +- 0.946
62 Y 0.636 1.840 +- 0.907
64 G 0.634 1.858 +- 0.870
65 T 0.880 2.302 +- 0.598
66 G 0.800 2.157 +- 0.734
68 E 0.637 1.842 +- 0.907
82 D 0.904 2.345 +- 0.541
83 A 0.834 2.224 +- 0.664
94 E 0.549 1.672 +- 0.943
113 H 0.819 2.198 +- 0.686
114 N 0.782 2.131 +- 0.733
116 I 0.524 1.656 +- 0.903
126 N 0.991** 2.495 +- 0.254
131 G 0.619 1.806 +- 0.917
134 V 0.557 1.715 +- 0.897
135 N 0.911 2.360 +- 0.516
153 Q 0.954* 2.433 +- 0.402
155 G 0.993** 2.498 +- 0.243
158 V 0.578 1.728 +- 0.934
189 R 0.601 1.773 +- 0.925
193 K 0.885 2.314 +- 0.577
203 T 0.566 1.706 +- 0.938
208 M 0.715 2.005 +- 0.816
240 S 0.590 1.752 +- 0.930
297 M 0.519 1.613 +- 0.948
306 A 0.959* 2.441 +- 0.390
351 L 0.635 1.839 +- 0.908
355 T 0.635 1.839 +- 0.908
361 T 0.943 2.413 +- 0.440
484 R 0.857 2.260 +- 0.641
493 I 0.780 2.129 +- 0.735
514 S 0.947 2.420 +- 0.428
560 K 0.992** 2.497 +- 0.246
602 E 0.533 1.641 +- 0.946
716 S 0.977* 2.471 +- 0.320
760 P 0.673 1.910 +- 0.884
769 A 0.611 1.793 +- 0.920
952 I 0.553 1.680 +- 0.942
962 S 0.567 1.735 +- 0.895
992 L 0.617 1.803 +- 0.918
1058 S 0.635 1.859 +- 0.869
1155 G 0.804 2.170 +- 0.707
1159 D 0.748 2.071 +- 0.768
1193 T 0.905 2.346 +- 0.545
1203 F 0.537 1.680 +- 0.901
1211 S 0.516 1.641 +- 0.903
1261 P 0.835 2.225 +- 0.663
1286 L 0.625 1.819 +- 0.913
1355 C 0.634 1.857 +- 0.870
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
