A_NS4A_5 - Muscle

--- EXPERIMENT NOTES




 --- EXPERIMENT PROPERTIES

#Wed Jun 06 06:39:30 WEST 2018
codeml.models=0 1 2 3 7 8
mrbayes.mpich=
mrbayes.ngen=1000000
tcoffee.alignMethod=MUSCLE
tcoffee.params=
tcoffee.maxSeqs=0
codeml.bin=codeml
mrbayes.tburnin=2500
codeml.dir=
input.sequences=
mrbayes.pburnin=2500
mrbayes.bin=mb_adops
tcoffee.bin=t_coffee_ADOPS
mrbayes.dir=/usr/bin/
tcoffee.dir=
tcoffee.minScore=3
input.fasta=/opt/ADOPS1/DNG_A2/NS4A_5/input.fasta
input.names=
mrbayes.params=
codeml.params=



 --- PSRF SUMMARY

      Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)

(Values are saved to the file /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1      -4199.36         -4240.41
2      -4197.50         -4244.43
--------------------------------------
TOTAL    -4198.04         -4243.76
--------------------------------------


Model parameter summaries over the runs sampled in files
"/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         7.764362    0.310361    6.717556    8.902902    7.735326   1006.27   1149.29    1.003
r(A<->C){all}   0.042299    0.000080    0.025496    0.059154    0.041914    725.37    872.11    1.000
r(A<->G){all}   0.219197    0.000516    0.177559    0.263306    0.218269    534.82    615.87    1.002
r(A<->T){all}   0.057318    0.000114    0.037177    0.078997    0.056936    825.85    919.19    1.000
r(C<->G){all}   0.030973    0.000070    0.015135    0.046944    0.030301    746.24    760.67    1.002
r(C<->T){all}   0.610259    0.000805    0.557076    0.664697    0.610838    516.75    586.39    1.001
r(G<->T){all}   0.039955    0.000089    0.022357    0.058293    0.039240    858.03    933.58    1.001
pi(A){all}      0.304337    0.000243    0.273248    0.334181    0.304511    787.68    788.67    1.001
pi(C){all}      0.238327    0.000206    0.209992    0.265187    0.237820    778.89    850.42    1.000
pi(G){all}      0.239077    0.000218    0.211503    0.269449    0.238938    859.17    912.96    1.000
pi(T){all}      0.218259    0.000186    0.191953    0.244496    0.218567    685.71    700.46    1.002
alpha{1,2}      0.289034    0.000822    0.235654    0.345959    0.286655   1332.68   1360.78    1.000
alpha{3}        4.496912    0.962501    2.745290    6.471351    4.387735   1295.13   1398.07    1.001
pinvar{all}     0.030159    0.000494    0.000014    0.073195    0.025915   1092.85   1264.29    1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.


Setting sumt conformat to Simple



 --- CODEML SUMMARY

Model 1: NearlyNeutral	-4045.346287
Model 2: PositiveSelection	-4045.346287
Model 0: one-ratio	-4063.96119
Model 3: discrete	-4013.296025
Model 7: beta	-4014.539928
Model 8: beta&w>1	-4014.541198


Model 0 vs 1	37.22980600000028

Model 2 vs 1	0.0

Model 8 vs 7	0.002539999999498832

>C1
SVLGDLKLEIGKLPQHLTIKARNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMRLGLIAVMTGGVTLFFLSGKGLGKTSNGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C2
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGIRKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C3
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGTFLFFMQGKGIGKLSMGLITIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C4
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTSGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C5
SISGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C6
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>C7
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C8
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C9
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C10
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASSLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C11
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGATLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C12
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGMGKMTLGTCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C13
SMTLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR
>C14
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGVGKTSIGLICVVASSSMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C15
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSARGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C16
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEVGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C17
SVSSDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETIMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVTSSSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C18
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAALTGGVTLFFLSGKGLGKTSIGLLCVMASSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C19
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGRMPLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C20
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPE
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C21
SIALDLVTEIGRVPSHLAYRTRSALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVVASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C22
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C23
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>C24
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEVGGRAYTHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C25
SLTLNLITEMGKLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C26
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYKHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C27
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMSWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C28
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAVEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C29
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWHAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C30
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGVGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLMVLLIPEPEKQR
>C31
SVSGDLISEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C32
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGMGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMALLIPEPEKQR
>C33
SITLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGALTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C34
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIIIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C35
SLTLSLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C36
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHALEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C37
SLTLNLITEMGRLPTFMTHKAINALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C38
STTLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C39
SIALDLVTEIGRVPSHLAHKTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C40
SIALDLVTEIGRVPSHLAHTVRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C41
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C42
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLKELLIPDADGQR
>C43
SIALDLVTEIGRVPSHLVHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C44
SLTLNLITEMGRLPTFMTQKARNALDDLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C45
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMVLLTGGALLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C46
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C47
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIADSIILEFFLIVLLIPEPEKQR
>C48
SISGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C49
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSGLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C50
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR

PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
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-pdb_blast_server	W_F	[0] 	EBI
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-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
-email         	S	[0] 
-clean_overaln 	D	[0] 	0 
-overaln_param 	S	[0] 
-overaln_mode  	S	[0] 
-overaln_model 	S	[0] 
-overaln_threshold	D	[0] 	0 
-overaln_target	D	[0] 	0 
-overaln_P1    	D	[0] 	0 
-overaln_P2    	D	[0] 	0 
-overaln_P3    	D	[0] 	0 
-overaln_P4    	D	[0] 	0 
-exon_boundaries	S	[0] 
-dump          	S	[0] 	no
-display       	D	[0] 	100 

INPUT FILES
	Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln  Format clustal_aln
	Input File (M) proba_pair 

Identify Master Sequences [no]:

Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES  [PROTEIN]
	Multi Core Mode: 72 processors:

	--- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	--- Process Method/Library/Aln Mproba_pair
	xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
	xxx Retrieved Mproba_pair

	All Methods Retrieved

MANUAL PENALTIES: gapopen=0 gapext=0

	Library Total Size: [311198]

Library Relaxation: Multi_proc [72]
 
Relaxation Summary: [311198]--->[311150]



UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1


OUTPUT RESULTS
	#### File Type= MSA             Format= score_ascii     Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii
	#### File Type= MSA             Format= html            Name= input.prot.fasta.muscle_rs_0_0.fasta.html
	#### File Type= MSA             Format= score_ascii     Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii

# Command Line: t_coffee_ADOPS -infile input.prot.fasta.muscle_rs_0_0.fasta.aln -output score_ascii -special_mode evaluate -evaluate_mode t_coffee_fast  [PROGRAM:T-COFFEE]
# T-COFFEE Memory Usage: Current= 31.640 Mb, Max= 39.966 Mb
# Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:04 - Revision 1613 - Build 427)
# T-COFFEE is available from http://www.tcoffee.org
# Register on: https://groups.google.com/group/tcoffee/

FORMAT of file input.prot.fasta.muscle_rs_0_0.fasta.ipi_i.fasta Not Supported[FATAL:T-COFFEE]
CLUSTAL W (1.83) multiple sequence alignment

C1              SVLGDLKLEIGKLPQHLTIKARNALDNLVMLHNSEQGGKAYRHAMEELPD
C2              SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C3              SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
C4              SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C5              SISGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
C6              SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C7              SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
C8              SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
C9              SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
C10             SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
C11             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C12             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
C13             SMTLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
C14             SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C15             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
C16             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEVGGKAYNHALSELPE
C17             SVSSDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C18             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C19             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
C20             SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPE
C21             SIALDLVTEIGRVPSHLAYRTRSALDNLVMLHTSEHGGRAYRHAVEELPE
C22             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C23             SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
C24             SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEVGGRAYTHALSELPE
C25             SLTLNLITEMGKLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
C26             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYKHALSELPE
C27             SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C28             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAVEELPD
C29             SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
C30             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
C31             SVSGDLISEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
C32             SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
C33             SITLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
C34             SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
C35             SLTLSLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGKAYNHALSELPE
C36             SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHALEELPD
C37             SLTLNLITEMGRLPTFMTHKAINALDNLAVLHTAEAGGRAYNHALSELPE
C38             STTLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
C39             SIALDLVTEIGRVPSHLAHKTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C40             SIALDLVTEIGRVPSHLAHTVRNALDNLVMLHTSEHGGRAYRHAVEELPE
C41             SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C42             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C43             SIALDLVTEIGRVPSHLVHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C44             SLTLNLITEMGRLPTFMTQKARNALDDLAVLHTAEAGGRAYNHALSELPE
C45             SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
C46             SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
C47             SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
C48             SISGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
C49             SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
C50             SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
                *   .:  *:. :* .:   .  ***::.:**.:* **:** **:.***:

C1              TIETLMRLGLIAVMTGGVTLFFLSGKGLGKTSNGLLCVMASSVLLWMASV
C2              TMETLLLLGLMILLTGGVMLFLISGKGIRKTSIGLICVIVSSGMLWMADV
C3              SLETLMLVALLGAMTAGTFLFFMQGKGIGKLSMGLITIAVASGLLWVAEI
C4              TMETLLLLGLMILLTSGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
C5              TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
C6              TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
C7              TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
C8              TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIVTASILLWYAQI
C9              TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
C10             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASSLLWYAQI
C11             TIETLMLLALIAVLTGGATLFFLSGKGLGKTSIGLLCVTASSALLWMASV
C12             TLETLLLLTLLATVTGGIFLFLMSGRGMGKMTLGTCCIITASILLWYAQI
C13             SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
C14             TMETLLLLGLMILLTGGVMLFLISGKGVGKTSIGLICVVASSSMLWMADI
C15             TLETLLLLTLLATVTGGIFLFLMSARGIGKMTLGMCCIITASILLWYAQI
C16             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
C17             TIETIMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVTSSSALLWMANV
C18             TIETLMLLALIAALTGGVTLFFLSGKGLGKTSIGLLCVMASSALLWMANV
C19             TLETLLLLTLLATVTGGIFLFLMSGRGIGRMPLGMCCIITASILLWYAQI
C20             TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
C21             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVVASSGMLWMADV
C22             TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
C23             TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
C24             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
C25             TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
C26             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
C27             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMSWMAEI
C28             TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
C29             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWHAQI
C30             TLETLLLLTLLATVTGGIFLFLMSGKGVGKMTLGMCCIITASILLWYAQI
C31             TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
C32             SLETLMLVALLGAMTAGIFLFFMQGKGMGKLSMGLIAIAVASGLLWVAEI
C33             SLETLMLVALLGALTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
C34             SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIIIAVASGLLWVAEI
C35             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIVTASILLWYAQI
C36             TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
C37             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
C38             SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
C39             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMAEI
C40             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMADV
C41             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADI
C42             TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
C43             TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
C44             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
C45             TMETLLLLGLMVLLTGGALLFLISGKGIGKTSIGLICVIVSSGMLWMADV
C46             TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
C47             TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
C48             TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
C49             TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSGLLWMASV
C50             SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
                ::**:: : *:  :*.*  **::..:*: : . *   :  :* : * *.:

C1              EPHWIAASIILEFFLMVLLIPEPDRQR
C2              PLQWIASAIVLEFFMMVLLIPEPEKQR
C3              QPQWIAASIILEFFLMVLLIPEPEKQR
C4              PLQWIASAIVLEFFMMVLLIPEPEKQR
C5              EPHWIAASIILEFFLMVLLIPEPDRQR
C6              EPHWIAASITLEFFLMVLLIPEPDRQR
C7              QPHWIAASIILEFFLIVLLIPEPEKQR
C8              QPHWIAASIILEFFLIVLLIPEPEKQR
C9              QPHWIAASIILEFFLIVLLIPEPEKQR
C10             QPHWIAASIILEFFLIVLLIPEPEKQR
C11             EPHWIAASIILEFFLMVLLIPEPDRQR
C12             QPHWIAASIILEFFLIVLLIPEPEKQR
C13             QPQWIAASIILEFFLMVLLVPEPEKQR
C14             PLQWIASAIVLEFFMMVLLIPEPEKQR
C15             QPHWIAASIILEFFLIVLLIPEPEKQR
C16             QPHWIAASIILEFFLIVLLIPEPEKQR
C17             EPHWIAASIILEFFLMVLLIPEPDRQR
C18             EPHWIAASIILEFFLMVLLIPEPDRQR
C19             QPHWIAASIILEFFLIVLLIPEPEKQR
C20             EPHWIAASIILEFFLMVLLIPEPDRQR
C21             PLQWIASAIVLEFFMMVLLIPEPEKQR
C22             EPHWIAASIILEFFLMVLLIPEPDRQR
C23             EPHWIAASITLEFFLMVLLIPEPDRQR
C24             QPHWIAASIILEFFLIVLLIPEPEKQR
C25             QPHWIAASIILEFFLIVLLIPEPEKQR
C26             QPHWIAASIILEFFLIVLLIPEPEKQR
C27             PLQWIASAIVLEFFMMVLLIPEPEKQR
C28             EPHWIAASIILEFFLMVLLIPEPDRQR
C29             QPHWIAASIILEFFLIVLLIPEPEKQR
C30             QPHWIAASIILEFFLMVLLIPEPEKQR
C31             EPHWIAASIILEFFLMVLLIPEPDRQR
C32             QPQWIAASIILEFFLMALLIPEPEKQR
C33             QPQWIAASIILEFFLMVLLIPEPEKQR
C34             QPQWIAASIILEFFLMVLLIPEPEKQR
C35             QPHWIAASIILEFFLIVLLIPEPEKQR
C36             EPHWIAASIILEFFLMVLLIPEPDRQR
C37             QPHWIAASIILEFFLIVLLIPEPEKQR
C38             QPQWIAASIILEFFLMVLLIPEPEKQR
C39             PLQWIASAIVLEFFMMVLLIPEPEKQR
C40             PLQWIASAIVLEFFMMVLLIPEPEKQR
C41             PLQWIASAIVLEFFMMVLLIPEPEKQR
C42             EPHWIAASIILEFFLKELLIPDADGQR
C43             PLQWIASAIVLEFFMMVLLIPEPEKQR
C44             QPHWIAASIILEFFLIVLLIPEPEKQR
C45             PLQWIASAIVLEFFMMVLLIPEPEKQR
C46             EPHWIAASIILEFFLMVLLIPEPDRQR
C47             QPHWIADSIILEFFLIVLLIPEPEKQR
C48             EPHWIAASIILEFFLMVLLIPEPDRQR
C49             EPHWIAASIILEFFLMVLLIPEPDRQR
C50             QPQWIAASIILEFFLMVLLVPEPEKQR
                  :*** :* ****:  **:*:.: **




FORMAT of file input.prot.fasta.muscle_rs_0_0.fasta.ipi_bs.fasta Not Supported[FATAL:T-COFFEE]
input.prot.fasta.muscle_rs_0_0.fasta.aln I:93 S:100 BS:94
# TC_SIMILARITY_MATRIX_FORMAT_01
# SEQ_INDEX C1 0
# SEQ_INDEX C2 1
# SEQ_INDEX C3 2
# SEQ_INDEX C4 3
# SEQ_INDEX C5 4
# SEQ_INDEX C6 5
# SEQ_INDEX C7 6
# SEQ_INDEX C8 7
# SEQ_INDEX C9 8
# SEQ_INDEX C10 9
# SEQ_INDEX C11 10
# SEQ_INDEX C12 11
# SEQ_INDEX C13 12
# SEQ_INDEX C14 13
# SEQ_INDEX C15 14
# SEQ_INDEX C16 15
# SEQ_INDEX C17 16
# SEQ_INDEX C18 17
# SEQ_INDEX C19 18
# SEQ_INDEX C20 19
# SEQ_INDEX C21 20
# SEQ_INDEX C22 21
# SEQ_INDEX C23 22
# SEQ_INDEX C24 23
# SEQ_INDEX C25 24
# SEQ_INDEX C26 25
# SEQ_INDEX C27 26
# SEQ_INDEX C28 27
# SEQ_INDEX C29 28
# SEQ_INDEX C30 29
# SEQ_INDEX C31 30
# SEQ_INDEX C32 31
# SEQ_INDEX C33 32
# SEQ_INDEX C34 33
# SEQ_INDEX C35 34
# SEQ_INDEX C36 35
# SEQ_INDEX C37 36
# SEQ_INDEX C38 37
# SEQ_INDEX C39 38
# SEQ_INDEX C40 39
# SEQ_INDEX C41 40
# SEQ_INDEX C42 41
# SEQ_INDEX C43 42
# SEQ_INDEX C44 43
# SEQ_INDEX C45 44
# SEQ_INDEX C46 45
# SEQ_INDEX C47 46
# SEQ_INDEX C48 47
# SEQ_INDEX C49 48
# SEQ_INDEX C50 49
# PW_SEQ_DISTANCES 
BOT	    0    1	 64.57  C1	  C2	 64.57
TOP	    1    0	 64.57  C2	  C1	 64.57
BOT	    0    2	 57.48  C1	  C3	 57.48
TOP	    2    0	 57.48  C3	  C1	 57.48
BOT	    0    3	 63.78  C1	  C4	 63.78
TOP	    3    0	 63.78  C4	  C1	 63.78
BOT	    0    4	 91.34  C1	  C5	 91.34
TOP	    4    0	 91.34  C5	  C1	 91.34
BOT	    0    5	 90.55  C1	  C6	 90.55
TOP	    5    0	 90.55  C6	  C1	 90.55
BOT	    0    6	 57.48  C1	  C7	 57.48
TOP	    6    0	 57.48  C7	  C1	 57.48
BOT	    0    7	 57.48  C1	  C8	 57.48
TOP	    7    0	 57.48  C8	  C1	 57.48
BOT	    0    8	 59.84  C1	  C9	 59.84
TOP	    8    0	 59.84  C9	  C1	 59.84
BOT	    0    9	 59.84  C1	 C10	 59.84
TOP	    9    0	 59.84 C10	  C1	 59.84
BOT	    0   10	 90.55  C1	 C11	 90.55
TOP	   10    0	 90.55 C11	  C1	 90.55
BOT	    0   11	 59.06  C1	 C12	 59.06
TOP	   11    0	 59.06 C12	  C1	 59.06
BOT	    0   12	 57.48  C1	 C13	 57.48
TOP	   12    0	 57.48 C13	  C1	 57.48
BOT	    0   13	 65.35  C1	 C14	 65.35
TOP	   13    0	 65.35 C14	  C1	 65.35
BOT	    0   14	 57.48  C1	 C15	 57.48
TOP	   14    0	 57.48 C15	  C1	 57.48
BOT	    0   15	 59.84  C1	 C16	 59.84
TOP	   15    0	 59.84 C16	  C1	 59.84
BOT	    0   16	 87.40  C1	 C17	 87.40
TOP	   16    0	 87.40 C17	  C1	 87.40
BOT	    0   17	 90.55  C1	 C18	 90.55
TOP	   17    0	 90.55 C18	  C1	 90.55
BOT	    0   18	 57.48  C1	 C19	 57.48
TOP	   18    0	 57.48 C19	  C1	 57.48
BOT	    0   19	 89.76  C1	 C20	 89.76
TOP	   19    0	 89.76 C20	  C1	 89.76
BOT	    0   20	 64.57  C1	 C21	 64.57
TOP	   20    0	 64.57 C21	  C1	 64.57
BOT	    0   21	 92.91  C1	 C22	 92.91
TOP	   21    0	 92.91 C22	  C1	 92.91
BOT	    0   22	 90.55  C1	 C23	 90.55
TOP	   22    0	 90.55 C23	  C1	 90.55
BOT	    0   23	 59.84  C1	 C24	 59.84
TOP	   23    0	 59.84 C24	  C1	 59.84
BOT	    0   24	 58.27  C1	 C25	 58.27
TOP	   24    0	 58.27 C25	  C1	 58.27
BOT	    0   25	 59.06  C1	 C26	 59.06
TOP	   25    0	 59.06 C26	  C1	 59.06
BOT	    0   26	 63.78  C1	 C27	 63.78
TOP	   26    0	 63.78 C27	  C1	 63.78
BOT	    0   27	 90.55  C1	 C28	 90.55
TOP	   27    0	 90.55 C28	  C1	 90.55
BOT	    0   28	 60.63  C1	 C29	 60.63
TOP	   28    0	 60.63 C29	  C1	 60.63
BOT	    0   29	 59.84  C1	 C30	 59.84
TOP	   29    0	 59.84 C30	  C1	 59.84
BOT	    0   30	 90.55  C1	 C31	 90.55
TOP	   30    0	 90.55 C31	  C1	 90.55
BOT	    0   31	 57.48  C1	 C32	 57.48
TOP	   31    0	 57.48 C32	  C1	 57.48
BOT	    0   32	 57.48  C1	 C33	 57.48
TOP	   32    0	 57.48 C33	  C1	 57.48
BOT	    0   33	 57.48  C1	 C34	 57.48
TOP	   33    0	 57.48 C34	  C1	 57.48
BOT	    0   34	 60.63  C1	 C35	 60.63
TOP	   34    0	 60.63 C35	  C1	 60.63
BOT	    0   35	 90.55  C1	 C36	 90.55
TOP	   35    0	 90.55 C36	  C1	 90.55
BOT	    0   36	 59.06  C1	 C37	 59.06
TOP	   36    0	 59.06 C37	  C1	 59.06
BOT	    0   37	 58.27  C1	 C38	 58.27
TOP	   37    0	 58.27 C38	  C1	 58.27
BOT	    0   38	 65.35  C1	 C39	 65.35
TOP	   38    0	 65.35 C39	  C1	 65.35
BOT	    0   39	 65.35  C1	 C40	 65.35
TOP	   39    0	 65.35 C40	  C1	 65.35
BOT	    0   40	 63.78  C1	 C41	 63.78
TOP	   40    0	 63.78 C41	  C1	 63.78
BOT	    0   41	 88.98  C1	 C42	 88.98
TOP	   41    0	 88.98 C42	  C1	 88.98
BOT	    0   42	 64.57  C1	 C43	 64.57
TOP	   42    0	 64.57 C43	  C1	 64.57
BOT	    0   43	 59.84  C1	 C44	 59.84
TOP	   43    0	 59.84 C44	  C1	 59.84
BOT	    0   44	 64.57  C1	 C45	 64.57
TOP	   44    0	 64.57 C45	  C1	 64.57
BOT	    0   45	 90.55  C1	 C46	 90.55
TOP	   45    0	 90.55 C46	  C1	 90.55
BOT	    0   46	 59.84  C1	 C47	 59.84
TOP	   46    0	 59.84 C47	  C1	 59.84
BOT	    0   47	 90.55  C1	 C48	 90.55
TOP	   47    0	 90.55 C48	  C1	 90.55
BOT	    0   48	 89.76  C1	 C49	 89.76
TOP	   48    0	 89.76 C49	  C1	 89.76
BOT	    0   49	 57.48  C1	 C50	 57.48
TOP	   49    0	 57.48 C50	  C1	 57.48
BOT	    1    2	 59.84  C2	  C3	 59.84
TOP	    2    1	 59.84  C3	  C2	 59.84
BOT	    1    3	 97.64  C2	  C4	 97.64
TOP	    3    1	 97.64  C4	  C2	 97.64
BOT	    1    4	 67.72  C2	  C5	 67.72
TOP	    4    1	 67.72  C5	  C2	 67.72
BOT	    1    5	 65.35  C2	  C6	 65.35
TOP	    5    1	 65.35  C6	  C2	 65.35
BOT	    1    6	 59.06  C2	  C7	 59.06
TOP	    6    1	 59.06  C7	  C2	 59.06
BOT	    1    7	 58.27  C2	  C8	 58.27
TOP	    7    1	 58.27  C8	  C2	 58.27
BOT	    1    8	 58.27  C2	  C9	 58.27
TOP	    8    1	 58.27  C9	  C2	 58.27
BOT	    1    9	 59.84  C2	 C10	 59.84
TOP	    9    1	 59.84 C10	  C2	 59.84
BOT	    1   10	 65.35  C2	 C11	 65.35
TOP	   10    1	 65.35 C11	  C2	 65.35
BOT	    1   11	 56.69  C2	 C12	 56.69
TOP	   11    1	 56.69 C12	  C2	 56.69
BOT	    1   12	 57.48  C2	 C13	 57.48
TOP	   12    1	 57.48 C13	  C2	 57.48
BOT	    1   13	 95.28  C2	 C14	 95.28
TOP	   13    1	 95.28 C14	  C2	 95.28
BOT	    1   14	 57.48  C2	 C15	 57.48
TOP	   14    1	 57.48 C15	  C2	 57.48
BOT	    1   15	 58.27  C2	 C16	 58.27
TOP	   15    1	 58.27 C16	  C2	 58.27
BOT	    1   16	 64.57  C2	 C17	 64.57
TOP	   16    1	 64.57 C17	  C2	 64.57
BOT	    1   17	 66.14  C2	 C18	 66.14
TOP	   17    1	 66.14 C18	  C2	 66.14
BOT	    1   18	 57.48  C2	 C19	 57.48
TOP	   18    1	 57.48 C19	  C2	 57.48
BOT	    1   19	 66.93  C2	 C20	 66.93
TOP	   19    1	 66.93 C20	  C2	 66.93
BOT	    1   20	 95.28  C2	 C21	 95.28
TOP	   20    1	 95.28 C21	  C2	 95.28
BOT	    1   21	 66.14  C2	 C22	 66.14
TOP	   21    1	 66.14 C22	  C2	 66.14
BOT	    1   22	 66.14  C2	 C23	 66.14
TOP	   22    1	 66.14 C23	  C2	 66.14
BOT	    1   23	 59.84  C2	 C24	 59.84
TOP	   23    1	 59.84 C24	  C2	 59.84
BOT	    1   24	 58.27  C2	 C25	 58.27
TOP	   24    1	 58.27 C25	  C2	 58.27
BOT	    1   25	 59.06  C2	 C26	 59.06
TOP	   25    1	 59.06 C26	  C2	 59.06
BOT	    1   26	 95.28  C2	 C27	 95.28
TOP	   26    1	 95.28 C27	  C2	 95.28
BOT	    1   27	 66.93  C2	 C28	 66.93
TOP	   27    1	 66.93 C28	  C2	 66.93
BOT	    1   28	 59.84  C2	 C29	 59.84
TOP	   28    1	 59.84 C29	  C2	 59.84
BOT	    1   29	 59.06  C2	 C30	 59.06
TOP	   29    1	 59.06 C30	  C2	 59.06
BOT	    1   30	 66.14  C2	 C31	 66.14
TOP	   30    1	 66.14 C31	  C2	 66.14
BOT	    1   31	 57.48  C2	 C32	 57.48
TOP	   31    1	 57.48 C32	  C2	 57.48
BOT	    1   32	 59.84  C2	 C33	 59.84
TOP	   32    1	 59.84 C33	  C2	 59.84
BOT	    1   33	 59.84  C2	 C34	 59.84
TOP	   33    1	 59.84 C34	  C2	 59.84
BOT	    1   34	 58.27  C2	 C35	 58.27
TOP	   34    1	 58.27 C35	  C2	 58.27
BOT	    1   35	 66.14  C2	 C36	 66.14
TOP	   35    1	 66.14 C36	  C2	 66.14
BOT	    1   36	 59.84  C2	 C37	 59.84
TOP	   36    1	 59.84 C37	  C2	 59.84
BOT	    1   37	 58.27  C2	 C38	 58.27
TOP	   37    1	 58.27 C38	  C2	 58.27
BOT	    1   38	 95.28  C2	 C39	 95.28
TOP	   38    1	 95.28 C39	  C2	 95.28
BOT	    1   39	 96.06  C2	 C40	 96.06
TOP	   39    1	 96.06 C40	  C2	 96.06
BOT	    1   40	 97.64  C2	 C41	 97.64
TOP	   40    1	 97.64 C41	  C2	 97.64
BOT	    1   41	 62.99  C2	 C42	 62.99
TOP	   41    1	 62.99 C42	  C2	 62.99
BOT	    1   42	 97.64  C2	 C43	 97.64
TOP	   42    1	 97.64 C43	  C2	 97.64
BOT	    1   43	 59.06  C2	 C44	 59.06
TOP	   43    1	 59.06 C44	  C2	 59.06
BOT	    1   44	 96.85  C2	 C45	 96.85
TOP	   44    1	 96.85 C45	  C2	 96.85
BOT	    1   45	 66.93  C2	 C46	 66.93
TOP	   45    1	 66.93 C46	  C2	 66.93
BOT	    1   46	 59.84  C2	 C47	 59.84
TOP	   46    1	 59.84 C47	  C2	 59.84
BOT	    1   47	 66.93  C2	 C48	 66.93
TOP	   47    1	 66.93 C48	  C2	 66.93
BOT	    1   48	 67.72  C2	 C49	 67.72
TOP	   48    1	 67.72 C49	  C2	 67.72
BOT	    1   49	 58.27  C2	 C50	 58.27
TOP	   49    1	 58.27 C50	  C2	 58.27
BOT	    2    3	 60.63  C3	  C4	 60.63
TOP	    3    2	 60.63  C4	  C3	 60.63
BOT	    2    4	 60.63  C3	  C5	 60.63
TOP	    4    2	 60.63  C5	  C3	 60.63
BOT	    2    5	 57.48  C3	  C6	 57.48
TOP	    5    2	 57.48  C6	  C3	 57.48
BOT	    2    6	 62.99  C3	  C7	 62.99
TOP	    6    2	 62.99  C7	  C3	 62.99
BOT	    2    7	 62.99  C3	  C8	 62.99
TOP	    7    2	 62.99  C8	  C3	 62.99
BOT	    2    8	 63.78  C3	  C9	 63.78
TOP	    8    2	 63.78  C9	  C3	 63.78
BOT	    2    9	 64.57  C3	 C10	 64.57
TOP	    9    2	 64.57 C10	  C3	 64.57
BOT	    2   10	 59.06  C3	 C11	 59.06
TOP	   10    2	 59.06 C11	  C3	 59.06
BOT	    2   11	 62.20  C3	 C12	 62.20
TOP	   11    2	 62.20 C12	  C3	 62.20
BOT	    2   12	 96.06  C3	 C13	 96.06
TOP	   12    2	 96.06 C13	  C3	 96.06
BOT	    2   13	 59.06  C3	 C14	 59.06
TOP	   13    2	 59.06 C14	  C3	 59.06
BOT	    2   14	 62.99  C3	 C15	 62.99
TOP	   14    2	 62.99 C15	  C3	 62.99
BOT	    2   15	 63.78  C3	 C16	 63.78
TOP	   15    2	 63.78 C16	  C3	 63.78
BOT	    2   16	 57.48  C3	 C17	 57.48
TOP	   16    2	 57.48 C17	  C3	 57.48
BOT	    2   17	 59.84  C3	 C18	 59.84
TOP	   17    2	 59.84 C18	  C3	 59.84
BOT	    2   18	 62.99  C3	 C19	 62.99
TOP	   18    2	 62.99 C19	  C3	 62.99
BOT	    2   19	 59.84  C3	 C20	 59.84
TOP	   19    2	 59.84 C20	  C3	 59.84
BOT	    2   20	 59.84  C3	 C21	 59.84
TOP	   20    2	 59.84 C21	  C3	 59.84
BOT	    2   21	 59.06  C3	 C22	 59.06
TOP	   21    2	 59.06 C22	  C3	 59.06
BOT	    2   22	 58.27  C3	 C23	 58.27
TOP	   22    2	 58.27 C23	  C3	 58.27
BOT	    2   23	 64.57  C3	 C24	 64.57
TOP	   23    2	 64.57 C24	  C3	 64.57
BOT	    2   24	 62.99  C3	 C25	 62.99
TOP	   24    2	 62.99 C25	  C3	 62.99
BOT	    2   25	 64.57  C3	 C26	 64.57
TOP	   25    2	 64.57 C26	  C3	 64.57
BOT	    2   26	 60.63  C3	 C27	 60.63
TOP	   26    2	 60.63 C27	  C3	 60.63
BOT	    2   27	 59.06  C3	 C28	 59.06
TOP	   27    2	 59.06 C28	  C3	 59.06
BOT	    2   28	 64.57  C3	 C29	 64.57
TOP	   28    2	 64.57 C29	  C3	 64.57
BOT	    2   29	 64.57  C3	 C30	 64.57
TOP	   29    2	 64.57 C30	  C3	 64.57
BOT	    2   30	 59.06  C3	 C31	 59.06
TOP	   30    2	 59.06 C31	  C3	 59.06
BOT	    2   31	 96.06  C3	 C32	 96.06
TOP	   31    2	 96.06 C32	  C3	 96.06
BOT	    2   32	 95.28  C3	 C33	 95.28
TOP	   32    2	 95.28 C33	  C3	 95.28
BOT	    2   33	 98.43  C3	 C34	 98.43
TOP	   33    2	 98.43 C34	  C3	 98.43
BOT	    2   34	 63.78  C3	 C35	 63.78
TOP	   34    2	 63.78 C35	  C3	 63.78
BOT	    2   35	 59.84  C3	 C36	 59.84
TOP	   35    2	 59.84 C36	  C3	 59.84
BOT	    2   36	 64.57  C3	 C37	 64.57
TOP	   36    2	 64.57 C37	  C3	 64.57
BOT	    2   37	 95.28  C3	 C38	 95.28
TOP	   37    2	 95.28 C38	  C3	 95.28
BOT	    2   38	 60.63  C3	 C39	 60.63
TOP	   38    2	 60.63 C39	  C3	 60.63
BOT	    2   39	 59.06  C3	 C40	 59.06
TOP	   39    2	 59.06 C40	  C3	 59.06
BOT	    2   40	 61.42  C3	 C41	 61.42
TOP	   40    2	 61.42 C41	  C3	 61.42
BOT	    2   41	 55.91  C3	 C42	 55.91
TOP	   41    2	 55.91 C42	  C3	 55.91
BOT	    2   42	 60.63  C3	 C43	 60.63
TOP	   42    2	 60.63 C43	  C3	 60.63
BOT	    2   43	 63.78  C3	 C44	 63.78
TOP	   43    2	 63.78 C44	  C3	 63.78
BOT	    2   44	 60.63  C3	 C45	 60.63
TOP	   44    2	 60.63 C45	  C3	 60.63
BOT	    2   45	 59.06  C3	 C46	 59.06
TOP	   45    2	 59.06 C46	  C3	 59.06
BOT	    2   46	 63.78  C3	 C47	 63.78
TOP	   46    2	 63.78 C47	  C3	 63.78
BOT	    2   47	 59.84  C3	 C48	 59.84
TOP	   47    2	 59.84 C48	  C3	 59.84
BOT	    2   48	 59.84  C3	 C49	 59.84
TOP	   48    2	 59.84 C49	  C3	 59.84
BOT	    2   49	 96.85  C3	 C50	 96.85
TOP	   49    2	 96.85 C50	  C3	 96.85
BOT	    3    4	 66.93  C4	  C5	 66.93
TOP	    4    3	 66.93  C5	  C4	 66.93
BOT	    3    5	 64.57  C4	  C6	 64.57
TOP	    5    3	 64.57  C6	  C4	 64.57
BOT	    3    6	 59.06  C4	  C7	 59.06
TOP	    6    3	 59.06  C7	  C4	 59.06
BOT	    3    7	 58.27  C4	  C8	 58.27
TOP	    7    3	 58.27  C8	  C4	 58.27
BOT	    3    8	 58.27  C4	  C9	 58.27
TOP	    8    3	 58.27  C9	  C4	 58.27
BOT	    3    9	 59.84  C4	 C10	 59.84
TOP	    9    3	 59.84 C10	  C4	 59.84
BOT	    3   10	 66.14  C4	 C11	 66.14
TOP	   10    3	 66.14 C11	  C4	 66.14
BOT	    3   11	 56.69  C4	 C12	 56.69
TOP	   11    3	 56.69 C12	  C4	 56.69
BOT	    3   12	 58.27  C4	 C13	 58.27
TOP	   12    3	 58.27 C13	  C4	 58.27
BOT	    3   13	 94.49  C4	 C14	 94.49
TOP	   13    3	 94.49 C14	  C4	 94.49
BOT	    3   14	 57.48  C4	 C15	 57.48
TOP	   14    3	 57.48 C15	  C4	 57.48
BOT	    3   15	 58.27  C4	 C16	 58.27
TOP	   15    3	 58.27 C16	  C4	 58.27
BOT	    3   16	 63.78  C4	 C17	 63.78
TOP	   16    3	 63.78 C17	  C4	 63.78
BOT	    3   17	 65.35  C4	 C18	 65.35
TOP	   17    3	 65.35 C18	  C4	 65.35
BOT	    3   18	 57.48  C4	 C19	 57.48
TOP	   18    3	 57.48 C19	  C4	 57.48
BOT	    3   19	 66.14  C4	 C20	 66.14
TOP	   19    3	 66.14 C20	  C4	 66.14
BOT	    3   20	 96.06  C4	 C21	 96.06
TOP	   20    3	 96.06 C21	  C4	 96.06
BOT	    3   21	 65.35  C4	 C22	 65.35
TOP	   21    3	 65.35 C22	  C4	 65.35
BOT	    3   22	 65.35  C4	 C23	 65.35
TOP	   22    3	 65.35 C23	  C4	 65.35
BOT	    3   23	 59.84  C4	 C24	 59.84
TOP	   23    3	 59.84 C24	  C4	 59.84
BOT	    3   24	 58.27  C4	 C25	 58.27
TOP	   24    3	 58.27 C25	  C4	 58.27
BOT	    3   25	 59.06  C4	 C26	 59.06
TOP	   25    3	 59.06 C26	  C4	 59.06
BOT	    3   26	 96.06  C4	 C27	 96.06
TOP	   26    3	 96.06 C27	  C4	 96.06
BOT	    3   27	 66.14  C4	 C28	 66.14
TOP	   27    3	 66.14 C28	  C4	 66.14
BOT	    3   28	 59.84  C4	 C29	 59.84
TOP	   28    3	 59.84 C29	  C4	 59.84
BOT	    3   29	 59.06  C4	 C30	 59.06
TOP	   29    3	 59.06 C30	  C4	 59.06
BOT	    3   30	 65.35  C4	 C31	 65.35
TOP	   30    3	 65.35 C31	  C4	 65.35
BOT	    3   31	 58.27  C4	 C32	 58.27
TOP	   31    3	 58.27 C32	  C4	 58.27
BOT	    3   32	 60.63  C4	 C33	 60.63
TOP	   32    3	 60.63 C33	  C4	 60.63
BOT	    3   33	 60.63  C4	 C34	 60.63
TOP	   33    3	 60.63 C34	  C4	 60.63
BOT	    3   34	 58.27  C4	 C35	 58.27
TOP	   34    3	 58.27 C35	  C4	 58.27
BOT	    3   35	 65.35  C4	 C36	 65.35
TOP	   35    3	 65.35 C36	  C4	 65.35
BOT	    3   36	 59.84  C4	 C37	 59.84
TOP	   36    3	 59.84 C37	  C4	 59.84
BOT	    3   37	 59.06  C4	 C38	 59.06
TOP	   37    3	 59.06 C38	  C4	 59.06
BOT	    3   38	 96.06  C4	 C39	 96.06
TOP	   38    3	 96.06 C39	  C4	 96.06
BOT	    3   39	 96.85  C4	 C40	 96.85
TOP	   39    3	 96.85 C40	  C4	 96.85
BOT	    3   40	 98.43  C4	 C41	 98.43
TOP	   40    3	 98.43 C41	  C4	 98.43
BOT	    3   41	 62.20  C4	 C42	 62.20
TOP	   41    3	 62.20 C42	  C4	 62.20
BOT	    3   42	 98.43  C4	 C43	 98.43
TOP	   42    3	 98.43 C43	  C4	 98.43
BOT	    3   43	 59.06  C4	 C44	 59.06
TOP	   43    3	 59.06 C44	  C4	 59.06
BOT	    3   44	 97.64  C4	 C45	 97.64
TOP	   44    3	 97.64 C45	  C4	 97.64
BOT	    3   45	 66.14  C4	 C46	 66.14
TOP	   45    3	 66.14 C46	  C4	 66.14
BOT	    3   46	 59.84  C4	 C47	 59.84
TOP	   46    3	 59.84 C47	  C4	 59.84
BOT	    3   47	 66.14  C4	 C48	 66.14
TOP	   47    3	 66.14 C48	  C4	 66.14
BOT	    3   48	 66.93  C4	 C49	 66.93
TOP	   48    3	 66.93 C49	  C4	 66.93
BOT	    3   49	 59.06  C4	 C50	 59.06
TOP	   49    3	 59.06 C50	  C4	 59.06
BOT	    4    5	 96.06  C5	  C6	 96.06
TOP	    5    4	 96.06  C6	  C5	 96.06
BOT	    4    6	 59.06  C5	  C7	 59.06
TOP	    6    4	 59.06  C7	  C5	 59.06
BOT	    4    7	 59.06  C5	  C8	 59.06
TOP	    7    4	 59.06  C8	  C5	 59.06
BOT	    4    8	 59.84  C5	  C9	 59.84
TOP	    8    4	 59.84  C9	  C5	 59.84
BOT	    4    9	 61.42  C5	 C10	 61.42
TOP	    9    4	 61.42 C10	  C5	 61.42
BOT	    4   10	 95.28  C5	 C11	 95.28
TOP	   10    4	 95.28 C11	  C5	 95.28
BOT	    4   11	 59.06  C5	 C12	 59.06
TOP	   11    4	 59.06 C12	  C5	 59.06
BOT	    4   12	 58.27  C5	 C13	 58.27
TOP	   12    4	 58.27 C13	  C5	 58.27
BOT	    4   13	 68.50  C5	 C14	 68.50
TOP	   13    4	 68.50 C14	  C5	 68.50
BOT	    4   14	 59.06  C5	 C15	 59.06
TOP	   14    4	 59.06 C15	  C5	 59.06
BOT	    4   15	 59.84  C5	 C16	 59.84
TOP	   15    4	 59.84 C16	  C5	 59.84
BOT	    4   16	 92.91  C5	 C17	 92.91
TOP	   16    4	 92.91 C17	  C5	 92.91
BOT	    4   17	 95.28  C5	 C18	 95.28
TOP	   17    4	 95.28 C18	  C5	 95.28
BOT	    4   18	 59.06  C5	 C19	 59.06
TOP	   18    4	 59.06 C19	  C5	 59.06
BOT	    4   19	 96.85  C5	 C20	 96.85
TOP	   19    4	 96.85 C20	  C5	 96.85
BOT	    4   20	 67.72  C5	 C21	 67.72
TOP	   20    4	 67.72 C21	  C5	 67.72
BOT	    4   21	 97.64  C5	 C22	 97.64
TOP	   21    4	 97.64 C22	  C5	 97.64
BOT	    4   22	 97.64  C5	 C23	 97.64
TOP	   22    4	 97.64 C23	  C5	 97.64
BOT	    4   23	 61.42  C5	 C24	 61.42
TOP	   23    4	 61.42 C24	  C5	 61.42
BOT	    4   24	 59.84  C5	 C25	 59.84
TOP	   24    4	 59.84 C25	  C5	 59.84
BOT	    4   25	 60.63  C5	 C26	 60.63
TOP	   25    4	 60.63 C26	  C5	 60.63
BOT	    4   26	 66.93  C5	 C27	 66.93
TOP	   26    4	 66.93 C27	  C5	 66.93
BOT	    4   27	 95.28  C5	 C28	 95.28
TOP	   27    4	 95.28 C28	  C5	 95.28
BOT	    4   28	 62.20  C5	 C29	 62.20
TOP	   28    4	 62.20 C29	  C5	 62.20
BOT	    4   29	 61.42  C5	 C30	 61.42
TOP	   29    4	 61.42 C30	  C5	 61.42
BOT	    4   30	 97.64  C5	 C31	 97.64
TOP	   30    4	 97.64 C31	  C5	 97.64
BOT	    4   31	 59.06  C5	 C32	 59.06
TOP	   31    4	 59.06 C32	  C5	 59.06
BOT	    4   32	 60.63  C5	 C33	 60.63
TOP	   32    4	 60.63 C33	  C5	 60.63
BOT	    4   33	 60.63  C5	 C34	 60.63
TOP	   33    4	 60.63 C34	  C5	 60.63
BOT	    4   34	 60.63  C5	 C35	 60.63
TOP	   34    4	 60.63 C35	  C5	 60.63
BOT	    4   35	 97.64  C5	 C36	 97.64
TOP	   35    4	 97.64 C36	  C5	 97.64
BOT	    4   36	 60.63  C5	 C37	 60.63
TOP	   36    4	 60.63 C37	  C5	 60.63
BOT	    4   37	 59.06  C5	 C38	 59.06
TOP	   37    4	 59.06 C38	  C5	 59.06
BOT	    4   38	 66.93  C5	 C39	 66.93
TOP	   38    4	 66.93 C39	  C5	 66.93
BOT	    4   39	 67.72  C5	 C40	 67.72
TOP	   39    4	 67.72 C40	  C5	 67.72
BOT	    4   40	 66.93  C5	 C41	 66.93
TOP	   40    4	 66.93 C41	  C5	 66.93
BOT	    4   41	 93.70  C5	 C42	 93.70
TOP	   41    4	 93.70 C42	  C5	 93.70
BOT	    4   42	 67.72  C5	 C43	 67.72
TOP	   42    4	 67.72 C43	  C5	 67.72
BOT	    4   43	 61.42  C5	 C44	 61.42
TOP	   43    4	 61.42 C44	  C5	 61.42
BOT	    4   44	 67.72  C5	 C45	 67.72
TOP	   44    4	 67.72 C45	  C5	 67.72
BOT	    4   45	 97.64  C5	 C46	 97.64
TOP	   45    4	 97.64 C46	  C5	 97.64
BOT	    4   46	 61.42  C5	 C47	 61.42
TOP	   46    4	 61.42 C47	  C5	 61.42
BOT	    4   47	 96.85  C5	 C48	 96.85
TOP	   47    4	 96.85 C48	  C5	 96.85
BOT	    4   48	 96.85  C5	 C49	 96.85
TOP	   48    4	 96.85 C49	  C5	 96.85
BOT	    4   49	 59.06  C5	 C50	 59.06
TOP	   49    4	 59.06 C50	  C5	 59.06
BOT	    5    6	 58.27  C6	  C7	 58.27
TOP	    6    5	 58.27  C7	  C6	 58.27
BOT	    5    7	 58.27  C6	  C8	 58.27
TOP	    7    5	 58.27  C8	  C6	 58.27
BOT	    5    8	 59.06  C6	  C9	 59.06
TOP	    8    5	 59.06  C9	  C6	 59.06
BOT	    5    9	 59.06  C6	 C10	 59.06
TOP	    9    5	 59.06 C10	  C6	 59.06
BOT	    5   10	 96.06  C6	 C11	 96.06
TOP	   10    5	 96.06 C11	  C6	 96.06
BOT	    5   11	 59.84  C6	 C12	 59.84
TOP	   11    5	 59.84 C12	  C6	 59.84
BOT	    5   12	 57.48  C6	 C13	 57.48
TOP	   12    5	 57.48 C13	  C6	 57.48
BOT	    5   13	 66.14  C6	 C14	 66.14
TOP	   13    5	 66.14 C14	  C6	 66.14
BOT	    5   14	 58.27  C6	 C15	 58.27
TOP	   14    5	 58.27 C15	  C6	 58.27
BOT	    5   15	 59.06  C6	 C16	 59.06
TOP	   15    5	 59.06 C16	  C6	 59.06
BOT	    5   16	 95.28  C6	 C17	 95.28
TOP	   16    5	 95.28 C17	  C6	 95.28
BOT	    5   17	 96.06  C6	 C18	 96.06
TOP	   17    5	 96.06 C18	  C6	 96.06
BOT	    5   18	 58.27  C6	 C19	 58.27
TOP	   18    5	 58.27 C19	  C6	 58.27
BOT	    5   19	 97.64  C6	 C20	 97.64
TOP	   19    5	 97.64 C20	  C6	 97.64
BOT	    5   20	 65.35  C6	 C21	 65.35
TOP	   20    5	 65.35 C21	  C6	 65.35
BOT	    5   21	 96.85  C6	 C22	 96.85
TOP	   21    5	 96.85 C22	  C6	 96.85
BOT	    5   22	 98.43  C6	 C23	 98.43
TOP	   22    5	 98.43 C23	  C6	 98.43
BOT	    5   23	 59.06  C6	 C24	 59.06
TOP	   23    5	 59.06 C24	  C6	 59.06
BOT	    5   24	 59.06  C6	 C25	 59.06
TOP	   24    5	 59.06 C25	  C6	 59.06
BOT	    5   25	 58.27  C6	 C26	 58.27
TOP	   25    5	 58.27 C26	  C6	 58.27
BOT	    5   26	 64.57  C6	 C27	 64.57
TOP	   26    5	 64.57 C27	  C6	 64.57
BOT	    5   27	 96.06  C6	 C28	 96.06
TOP	   27    5	 96.06 C28	  C6	 96.06
BOT	    5   28	 59.06  C6	 C29	 59.06
TOP	   28    5	 59.06 C29	  C6	 59.06
BOT	    5   29	 59.06  C6	 C30	 59.06
TOP	   29    5	 59.06 C30	  C6	 59.06
BOT	    5   30	 96.85  C6	 C31	 96.85
TOP	   30    5	 96.85 C31	  C6	 96.85
BOT	    5   31	 57.48  C6	 C32	 57.48
TOP	   31    5	 57.48 C32	  C6	 57.48
BOT	    5   32	 57.48  C6	 C33	 57.48
TOP	   32    5	 57.48 C33	  C6	 57.48
BOT	    5   33	 57.48  C6	 C34	 57.48
TOP	   33    5	 57.48 C34	  C6	 57.48
BOT	    5   34	 59.84  C6	 C35	 59.84
TOP	   34    5	 59.84 C35	  C6	 59.84
BOT	    5   35	 96.85  C6	 C36	 96.85
TOP	   35    5	 96.85 C36	  C6	 96.85
BOT	    5   36	 58.27  C6	 C37	 58.27
TOP	   36    5	 58.27 C37	  C6	 58.27
BOT	    5   37	 56.69  C6	 C38	 56.69
TOP	   37    5	 56.69 C38	  C6	 56.69
BOT	    5   38	 64.57  C6	 C39	 64.57
TOP	   38    5	 64.57 C39	  C6	 64.57
BOT	    5   39	 65.35  C6	 C40	 65.35
TOP	   39    5	 65.35 C40	  C6	 65.35
BOT	    5   40	 64.57  C6	 C41	 64.57
TOP	   40    5	 64.57 C41	  C6	 64.57
BOT	    5   41	 92.91  C6	 C42	 92.91
TOP	   41    5	 92.91 C42	  C6	 92.91
BOT	    5   42	 65.35  C6	 C43	 65.35
TOP	   42    5	 65.35 C43	  C6	 65.35
BOT	    5   43	 58.27  C6	 C44	 58.27
TOP	   43    5	 58.27 C44	  C6	 58.27
BOT	    5   44	 65.35  C6	 C45	 65.35
TOP	   44    5	 65.35 C45	  C6	 65.35
BOT	    5   45	 96.85  C6	 C46	 96.85
TOP	   45    5	 96.85 C46	  C6	 96.85
BOT	    5   46	 58.27  C6	 C47	 58.27
TOP	   46    5	 58.27 C47	  C6	 58.27
BOT	    5   47	 96.06  C6	 C48	 96.06
TOP	   47    5	 96.06 C48	  C6	 96.06
BOT	    5   48	 96.85  C6	 C49	 96.85
TOP	   48    5	 96.85 C49	  C6	 96.85
BOT	    5   49	 57.48  C6	 C50	 57.48
TOP	   49    5	 57.48 C50	  C6	 57.48
BOT	    6    7	 99.21  C7	  C8	 99.21
TOP	    7    6	 99.21  C8	  C7	 99.21
BOT	    6    8	 97.64  C7	  C9	 97.64
TOP	    8    6	 97.64  C9	  C7	 97.64
BOT	    6    9	 96.85  C7	 C10	 96.85
TOP	    9    6	 96.85 C10	  C7	 96.85
BOT	    6   10	 57.48  C7	 C11	 57.48
TOP	   10    6	 57.48 C11	  C7	 57.48
BOT	    6   11	 96.85  C7	 C12	 96.85
TOP	   11    6	 96.85 C12	  C7	 96.85
BOT	    6   12	 62.20  C7	 C13	 62.20
TOP	   12    6	 62.20 C13	  C7	 62.20
BOT	    6   13	 59.06  C7	 C14	 59.06
TOP	   13    6	 59.06 C14	  C7	 59.06
BOT	    6   14	 98.43  C7	 C15	 98.43
TOP	   14    6	 98.43 C15	  C7	 98.43
BOT	    6   15	 96.85  C7	 C16	 96.85
TOP	   15    6	 96.85 C16	  C7	 96.85
BOT	    6   16	 58.27  C7	 C17	 58.27
TOP	   16    6	 58.27 C17	  C7	 58.27
BOT	    6   17	 57.48  C7	 C18	 57.48
TOP	   17    6	 57.48 C18	  C7	 57.48
BOT	    6   18	 97.64  C7	 C19	 97.64
TOP	   18    6	 97.64 C19	  C7	 97.64
BOT	    6   19	 60.63  C7	 C20	 60.63
TOP	   19    6	 60.63 C20	  C7	 60.63
BOT	    6   20	 59.06  C7	 C21	 59.06
TOP	   20    6	 59.06 C21	  C7	 59.06
BOT	    6   21	 57.48  C7	 C22	 57.48
TOP	   21    6	 57.48 C22	  C7	 57.48
BOT	    6   22	 59.06  C7	 C23	 59.06
TOP	   22    6	 59.06 C23	  C7	 59.06
BOT	    6   23	 96.06  C7	 C24	 96.06
TOP	   23    6	 96.06 C24	  C7	 96.06
BOT	    6   24	 99.21  C7	 C25	 99.21
TOP	   24    6	 99.21 C25	  C7	 99.21
BOT	    6   25	 97.64  C7	 C26	 97.64
TOP	   25    6	 97.64 C26	  C7	 97.64
BOT	    6   26	 59.84  C7	 C27	 59.84
TOP	   26    6	 59.84 C27	  C7	 59.84
BOT	    6   27	 57.48  C7	 C28	 57.48
TOP	   27    6	 57.48 C28	  C7	 57.48
BOT	    6   28	 96.06  C7	 C29	 96.06
TOP	   28    6	 96.06 C29	  C7	 96.06
BOT	    6   29	 96.85  C7	 C30	 96.85
TOP	   29    6	 96.85 C30	  C7	 96.85
BOT	    6   30	 59.84  C7	 C31	 59.84
TOP	   30    6	 59.84 C31	  C7	 59.84
BOT	    6   31	 61.42  C7	 C32	 61.42
TOP	   31    6	 61.42 C32	  C7	 61.42
BOT	    6   32	 64.57  C7	 C33	 64.57
TOP	   32    6	 64.57 C33	  C7	 64.57
BOT	    6   33	 63.78  C7	 C34	 63.78
TOP	   33    6	 63.78 C34	  C7	 63.78
BOT	    6   34	 95.28  C7	 C35	 95.28
TOP	   34    6	 95.28 C35	  C7	 95.28
BOT	    6   35	 60.63  C7	 C36	 60.63
TOP	   35    6	 60.63 C36	  C7	 60.63
BOT	    6   36	 96.06  C7	 C37	 96.06
TOP	   36    6	 96.06 C37	  C7	 96.06
BOT	    6   37	 64.57  C7	 C38	 64.57
TOP	   37    6	 64.57 C38	  C7	 64.57
BOT	    6   38	 61.42  C7	 C39	 61.42
TOP	   38    6	 61.42 C39	  C7	 61.42
BOT	    6   39	 59.06  C7	 C40	 59.06
TOP	   39    6	 59.06 C40	  C7	 59.06
BOT	    6   40	 60.63  C7	 C41	 60.63
TOP	   40    6	 60.63 C41	  C7	 60.63
BOT	    6   41	 55.12  C7	 C42	 55.12
TOP	   41    6	 55.12 C42	  C7	 55.12
BOT	    6   42	 59.84  C7	 C43	 59.84
TOP	   42    6	 59.84 C43	  C7	 59.84
BOT	    6   43	 96.06  C7	 C44	 96.06
TOP	   43    6	 96.06 C44	  C7	 96.06
BOT	    6   44	 59.84  C7	 C45	 59.84
TOP	   44    6	 59.84 C45	  C7	 59.84
BOT	    6   45	 59.84  C7	 C46	 59.84
TOP	   45    6	 59.84 C46	  C7	 59.84
BOT	    6   46	 96.06  C7	 C47	 96.06
TOP	   46    6	 96.06 C47	  C7	 96.06
BOT	    6   47	 57.48  C7	 C48	 57.48
TOP	   47    6	 57.48 C48	  C7	 57.48
BOT	    6   48	 59.84  C7	 C49	 59.84
TOP	   48    6	 59.84 C49	  C7	 59.84
BOT	    6   49	 62.20  C7	 C50	 62.20
TOP	   49    6	 62.20 C50	  C7	 62.20
BOT	    7    8	 96.85  C8	  C9	 96.85
TOP	    8    7	 96.85  C9	  C8	 96.85
BOT	    7    9	 96.06  C8	 C10	 96.06
TOP	    9    7	 96.06 C10	  C8	 96.06
BOT	    7   10	 57.48  C8	 C11	 57.48
TOP	   10    7	 57.48 C11	  C8	 57.48
BOT	    7   11	 96.06  C8	 C12	 96.06
TOP	   11    7	 96.06 C12	  C8	 96.06
BOT	    7   12	 62.20  C8	 C13	 62.20
TOP	   12    7	 62.20 C13	  C8	 62.20
BOT	    7   13	 59.84  C8	 C14	 59.84
TOP	   13    7	 59.84 C14	  C8	 59.84
BOT	    7   14	 97.64  C8	 C15	 97.64
TOP	   14    7	 97.64 C15	  C8	 97.64
BOT	    7   15	 96.06  C8	 C16	 96.06
TOP	   15    7	 96.06 C16	  C8	 96.06
BOT	    7   16	 58.27  C8	 C17	 58.27
TOP	   16    7	 58.27 C17	  C8	 58.27
BOT	    7   17	 57.48  C8	 C18	 57.48
TOP	   17    7	 57.48 C18	  C8	 57.48
BOT	    7   18	 96.85  C8	 C19	 96.85
TOP	   18    7	 96.85 C19	  C8	 96.85
BOT	    7   19	 60.63  C8	 C20	 60.63
TOP	   19    7	 60.63 C20	  C8	 60.63
BOT	    7   20	 59.84  C8	 C21	 59.84
TOP	   20    7	 59.84 C21	  C8	 59.84
BOT	    7   21	 57.48  C8	 C22	 57.48
TOP	   21    7	 57.48 C22	  C8	 57.48
BOT	    7   22	 59.06  C8	 C23	 59.06
TOP	   22    7	 59.06 C23	  C8	 59.06
BOT	    7   23	 95.28  C8	 C24	 95.28
TOP	   23    7	 95.28 C24	  C8	 95.28
BOT	    7   24	 98.43  C8	 C25	 98.43
TOP	   24    7	 98.43 C25	  C8	 98.43
BOT	    7   25	 96.85  C8	 C26	 96.85
TOP	   25    7	 96.85 C26	  C8	 96.85
BOT	    7   26	 59.06  C8	 C27	 59.06
TOP	   26    7	 59.06 C27	  C8	 59.06
BOT	    7   27	 57.48  C8	 C28	 57.48
TOP	   27    7	 57.48 C28	  C8	 57.48
BOT	    7   28	 95.28  C8	 C29	 95.28
TOP	   28    7	 95.28 C29	  C8	 95.28
BOT	    7   29	 96.06  C8	 C30	 96.06
TOP	   29    7	 96.06 C30	  C8	 96.06
BOT	    7   30	 59.84  C8	 C31	 59.84
TOP	   30    7	 59.84 C31	  C8	 59.84
BOT	    7   31	 61.42  C8	 C32	 61.42
TOP	   31    7	 61.42 C32	  C8	 61.42
BOT	    7   32	 64.57  C8	 C33	 64.57
TOP	   32    7	 64.57 C33	  C8	 64.57
BOT	    7   33	 63.78  C8	 C34	 63.78
TOP	   33    7	 63.78 C34	  C8	 63.78
BOT	    7   34	 96.06  C8	 C35	 96.06
TOP	   34    7	 96.06 C35	  C8	 96.06
BOT	    7   35	 60.63  C8	 C36	 60.63
TOP	   35    7	 60.63 C36	  C8	 60.63
BOT	    7   36	 95.28  C8	 C37	 95.28
TOP	   36    7	 95.28 C37	  C8	 95.28
BOT	    7   37	 64.57  C8	 C38	 64.57
TOP	   37    7	 64.57 C38	  C8	 64.57
BOT	    7   38	 60.63  C8	 C39	 60.63
TOP	   38    7	 60.63 C39	  C8	 60.63
BOT	    7   39	 58.27  C8	 C40	 58.27
TOP	   39    7	 58.27 C40	  C8	 58.27
BOT	    7   40	 59.84  C8	 C41	 59.84
TOP	   40    7	 59.84 C41	  C8	 59.84
BOT	    7   41	 55.12  C8	 C42	 55.12
TOP	   41    7	 55.12 C42	  C8	 55.12
BOT	    7   42	 59.06  C8	 C43	 59.06
TOP	   42    7	 59.06 C43	  C8	 59.06
BOT	    7   43	 95.28  C8	 C44	 95.28
TOP	   43    7	 95.28 C44	  C8	 95.28
BOT	    7   44	 59.06  C8	 C45	 59.06
TOP	   44    7	 59.06 C45	  C8	 59.06
BOT	    7   45	 59.84  C8	 C46	 59.84
TOP	   45    7	 59.84 C46	  C8	 59.84
BOT	    7   46	 95.28  C8	 C47	 95.28
TOP	   46    7	 95.28 C47	  C8	 95.28
BOT	    7   47	 57.48  C8	 C48	 57.48
TOP	   47    7	 57.48 C48	  C8	 57.48
BOT	    7   48	 59.84  C8	 C49	 59.84
TOP	   48    7	 59.84 C49	  C8	 59.84
BOT	    7   49	 62.20  C8	 C50	 62.20
TOP	   49    7	 62.20 C50	  C8	 62.20
BOT	    8    9	 97.64  C9	 C10	 97.64
TOP	    9    8	 97.64 C10	  C9	 97.64
BOT	    8   10	 59.84  C9	 C11	 59.84
TOP	   10    8	 59.84 C11	  C9	 59.84
BOT	    8   11	 97.64  C9	 C12	 97.64
TOP	   11    8	 97.64 C12	  C9	 97.64
BOT	    8   12	 64.57  C9	 C13	 64.57
TOP	   12    8	 64.57 C13	  C9	 64.57
BOT	    8   13	 58.27  C9	 C14	 58.27
TOP	   13    8	 58.27 C14	  C9	 58.27
BOT	    8   14	 97.64  C9	 C15	 97.64
TOP	   14    8	 97.64 C15	  C9	 97.64
BOT	    8   15	 99.21  C9	 C16	 99.21
TOP	   15    8	 99.21 C16	  C9	 99.21
BOT	    8   16	 59.06  C9	 C17	 59.06
TOP	   16    8	 59.06 C17	  C9	 59.06
BOT	    8   17	 59.84  C9	 C18	 59.84
TOP	   17    8	 59.84 C18	  C9	 59.84
BOT	    8   18	 96.85  C9	 C19	 96.85
TOP	   18    8	 96.85 C19	  C9	 96.85
BOT	    8   19	 59.84  C9	 C20	 59.84
TOP	   19    8	 59.84 C20	  C9	 59.84
BOT	    8   20	 58.27  C9	 C21	 58.27
TOP	   20    8	 58.27 C21	  C9	 58.27
BOT	    8   21	 59.84  C9	 C22	 59.84
TOP	   21    8	 59.84 C22	  C9	 59.84
BOT	    8   22	 58.27  C9	 C23	 58.27
TOP	   22    8	 58.27 C23	  C9	 58.27
BOT	    8   23	 96.85  C9	 C24	 96.85
TOP	   23    8	 96.85 C24	  C9	 96.85
BOT	    8   24	 96.85  C9	 C25	 96.85
TOP	   24    8	 96.85 C25	  C9	 96.85
BOT	    8   25	 98.43  C9	 C26	 98.43
TOP	   25    8	 98.43 C26	  C9	 98.43
BOT	    8   26	 59.06  C9	 C27	 59.06
TOP	   26    8	 59.06 C27	  C9	 59.06
BOT	    8   27	 59.84  C9	 C28	 59.84
TOP	   27    8	 59.84 C28	  C9	 59.84
BOT	    8   28	 96.85  C9	 C29	 96.85
TOP	   28    8	 96.85 C29	  C9	 96.85
BOT	    8   29	 97.64  C9	 C30	 97.64
TOP	   29    8	 97.64 C30	  C9	 97.64
BOT	    8   30	 59.06  C9	 C31	 59.06
TOP	   30    8	 59.06 C31	  C9	 59.06
BOT	    8   31	 63.78  C9	 C32	 63.78
TOP	   31    8	 63.78 C32	  C9	 63.78
BOT	    8   32	 65.35  C9	 C33	 65.35
TOP	   32    8	 65.35 C33	  C9	 65.35
BOT	    8   33	 64.57  C9	 C34	 64.57
TOP	   33    8	 64.57 C34	  C9	 64.57
BOT	    8   34	 97.64  C9	 C35	 97.64
TOP	   34    8	 97.64 C35	  C9	 97.64
BOT	    8   35	 59.84  C9	 C36	 59.84
TOP	   35    8	 59.84 C36	  C9	 59.84
BOT	    8   36	 96.85  C9	 C37	 96.85
TOP	   36    8	 96.85 C37	  C9	 96.85
BOT	    8   37	 65.35  C9	 C38	 65.35
TOP	   37    8	 65.35 C38	  C9	 65.35
BOT	    8   38	 60.63  C9	 C39	 60.63
TOP	   38    8	 60.63 C39	  C9	 60.63
BOT	    8   39	 59.06  C9	 C40	 59.06
TOP	   39    8	 59.06 C40	  C9	 59.06
BOT	    8   40	 59.84  C9	 C41	 59.84
TOP	   40    8	 59.84 C41	  C9	 59.84
BOT	    8   41	 57.48  C9	 C42	 57.48
TOP	   41    8	 57.48 C42	  C9	 57.48
BOT	    8   42	 59.06  C9	 C43	 59.06
TOP	   42    8	 59.06 C43	  C9	 59.06
BOT	    8   43	 96.85  C9	 C44	 96.85
TOP	   43    8	 96.85 C44	  C9	 96.85
BOT	    8   44	 59.06  C9	 C45	 59.06
TOP	   44    8	 59.06 C45	  C9	 59.06
BOT	    8   45	 59.06  C9	 C46	 59.06
TOP	   45    8	 59.06 C46	  C9	 59.06
BOT	    8   46	 96.85  C9	 C47	 96.85
TOP	   46    8	 96.85 C47	  C9	 96.85
BOT	    8   47	 59.84  C9	 C48	 59.84
TOP	   47    8	 59.84 C48	  C9	 59.84
BOT	    8   48	 59.06  C9	 C49	 59.06
TOP	   48    8	 59.06 C49	  C9	 59.06
BOT	    8   49	 64.57  C9	 C50	 64.57
TOP	   49    8	 64.57 C50	  C9	 64.57
BOT	    9   10	 59.84 C10	 C11	 59.84
TOP	   10    9	 59.84 C11	 C10	 59.84
BOT	    9   11	 95.28 C10	 C12	 95.28
TOP	   11    9	 95.28 C12	 C10	 95.28
BOT	    9   12	 63.78 C10	 C13	 63.78
TOP	   12    9	 63.78 C13	 C10	 63.78
BOT	    9   13	 60.63 C10	 C14	 60.63
TOP	   13    9	 60.63 C14	 C10	 60.63
BOT	    9   14	 96.85 C10	 C15	 96.85
TOP	   14    9	 96.85 C15	 C10	 96.85
BOT	    9   15	 96.85 C10	 C16	 96.85
TOP	   15    9	 96.85 C16	 C10	 96.85
BOT	    9   16	 59.06 C10	 C17	 59.06
TOP	   16    9	 59.06 C17	 C10	 59.06
BOT	    9   17	 59.84 C10	 C18	 59.84
TOP	   17    9	 59.84 C18	 C10	 59.84
BOT	    9   18	 96.06 C10	 C19	 96.06
TOP	   18    9	 96.06 C19	 C10	 96.06
BOT	    9   19	 61.42 C10	 C20	 61.42
TOP	   19    9	 61.42 C20	 C10	 61.42
BOT	    9   20	 59.06 C10	 C21	 59.06
TOP	   20    9	 59.06 C21	 C10	 59.06
BOT	    9   21	 59.84 C10	 C22	 59.84
TOP	   21    9	 59.84 C22	 C10	 59.84
BOT	    9   22	 59.84 C10	 C23	 59.84
TOP	   22    9	 59.84 C23	 C10	 59.84
BOT	    9   23	 97.64 C10	 C24	 97.64
TOP	   23    9	 97.64 C24	 C10	 97.64
BOT	    9   24	 96.06 C10	 C25	 96.06
TOP	   24    9	 96.06 C25	 C10	 96.06
BOT	    9   25	 97.64 C10	 C26	 97.64
TOP	   25    9	 97.64 C26	 C10	 97.64
BOT	    9   26	 60.63 C10	 C27	 60.63
TOP	   26    9	 60.63 C27	 C10	 60.63
BOT	    9   27	 59.84 C10	 C28	 59.84
TOP	   27    9	 59.84 C28	 C10	 59.84
BOT	    9   28	 98.43 C10	 C29	 98.43
TOP	   28    9	 98.43 C29	 C10	 98.43
BOT	    9   29	 96.85 C10	 C30	 96.85
TOP	   29    9	 96.85 C30	 C10	 96.85
BOT	    9   30	 60.63 C10	 C31	 60.63
TOP	   30    9	 60.63 C31	 C10	 60.63
BOT	    9   31	 62.99 C10	 C32	 62.99
TOP	   31    9	 62.99 C32	 C10	 62.99
BOT	    9   32	 66.14 C10	 C33	 66.14
TOP	   32    9	 66.14 C33	 C10	 66.14
BOT	    9   33	 65.35 C10	 C34	 65.35
TOP	   33    9	 65.35 C34	 C10	 65.35
BOT	    9   34	 96.85 C10	 C35	 96.85
TOP	   34    9	 96.85 C35	 C10	 96.85
BOT	    9   35	 61.42 C10	 C36	 61.42
TOP	   35    9	 61.42 C36	 C10	 61.42
BOT	    9   36	 97.64 C10	 C37	 97.64
TOP	   36    9	 97.64 C37	 C10	 97.64
BOT	    9   37	 66.14 C10	 C38	 66.14
TOP	   37    9	 66.14 C38	 C10	 66.14
BOT	    9   38	 62.20 C10	 C39	 62.20
TOP	   38    9	 62.20 C39	 C10	 62.20
BOT	    9   39	 60.63 C10	 C40	 60.63
TOP	   39    9	 60.63 C40	 C10	 60.63
BOT	    9   40	 61.42 C10	 C41	 61.42
TOP	   40    9	 61.42 C41	 C10	 61.42
BOT	    9   41	 57.48 C10	 C42	 57.48
TOP	   41    9	 57.48 C42	 C10	 57.48
BOT	    9   42	 60.63 C10	 C43	 60.63
TOP	   42    9	 60.63 C43	 C10	 60.63
BOT	    9   43	 98.43 C10	 C44	 98.43
TOP	   43    9	 98.43 C44	 C10	 98.43
BOT	    9   44	 60.63 C10	 C45	 60.63
TOP	   44    9	 60.63 C45	 C10	 60.63
BOT	    9   45	 60.63 C10	 C46	 60.63
TOP	   45    9	 60.63 C46	 C10	 60.63
BOT	    9   46	 98.43 C10	 C47	 98.43
TOP	   46    9	 98.43 C47	 C10	 98.43
BOT	    9   47	 59.84 C10	 C48	 59.84
TOP	   47    9	 59.84 C48	 C10	 59.84
BOT	    9   48	 60.63 C10	 C49	 60.63
TOP	   48    9	 60.63 C49	 C10	 60.63
BOT	    9   49	 63.78 C10	 C50	 63.78
TOP	   49    9	 63.78 C50	 C10	 63.78
BOT	   10   11	 59.06 C11	 C12	 59.06
TOP	   11   10	 59.06 C12	 C11	 59.06
BOT	   10   12	 59.06 C11	 C13	 59.06
TOP	   12   10	 59.06 C13	 C11	 59.06
BOT	   10   13	 66.14 C11	 C14	 66.14
TOP	   13   10	 66.14 C14	 C11	 66.14
BOT	   10   14	 57.48 C11	 C15	 57.48
TOP	   14   10	 57.48 C15	 C11	 57.48
BOT	   10   15	 59.84 C11	 C16	 59.84
TOP	   15   10	 59.84 C16	 C11	 59.84
BOT	   10   16	 94.49 C11	 C17	 94.49
TOP	   16   10	 94.49 C17	 C11	 94.49
BOT	   10   17	 96.85 C11	 C18	 96.85
TOP	   17   10	 96.85 C18	 C11	 96.85
BOT	   10   18	 57.48 C11	 C19	 57.48
TOP	   18   10	 57.48 C19	 C11	 57.48
BOT	   10   19	 95.28 C11	 C20	 95.28
TOP	   19   10	 95.28 C20	 C11	 95.28
BOT	   10   20	 66.93 C11	 C21	 66.93
TOP	   20   10	 66.93 C21	 C11	 66.93
BOT	   10   21	 97.64 C11	 C22	 97.64
TOP	   21   10	 97.64 C22	 C11	 97.64
BOT	   10   22	 94.49 C11	 C23	 94.49
TOP	   22   10	 94.49 C23	 C11	 94.49
BOT	   10   23	 59.84 C11	 C24	 59.84
TOP	   23   10	 59.84 C24	 C11	 59.84
BOT	   10   24	 58.27 C11	 C25	 58.27
TOP	   24   10	 58.27 C25	 C11	 58.27
BOT	   10   25	 59.06 C11	 C26	 59.06
TOP	   25   10	 59.06 C26	 C11	 59.06
BOT	   10   26	 66.14 C11	 C27	 66.14
TOP	   26   10	 66.14 C27	 C11	 66.14
BOT	   10   27	 98.43 C11	 C28	 98.43
TOP	   27   10	 98.43 C28	 C11	 98.43
BOT	   10   28	 59.84 C11	 C29	 59.84
TOP	   28   10	 59.84 C29	 C11	 59.84
BOT	   10   29	 59.84 C11	 C30	 59.84
TOP	   29   10	 59.84 C30	 C11	 59.84
BOT	   10   30	 94.49 C11	 C31	 94.49
TOP	   30   10	 94.49 C31	 C11	 94.49
BOT	   10   31	 59.06 C11	 C32	 59.06
TOP	   31   10	 59.06 C32	 C11	 59.06
BOT	   10   32	 59.06 C11	 C33	 59.06
TOP	   32   10	 59.06 C33	 C11	 59.06
BOT	   10   33	 59.06 C11	 C34	 59.06
TOP	   33   10	 59.06 C34	 C11	 59.06
BOT	   10   34	 60.63 C11	 C35	 60.63
TOP	   34   10	 60.63 C35	 C11	 60.63
BOT	   10   35	 94.49 C11	 C36	 94.49
TOP	   35   10	 94.49 C36	 C11	 94.49
BOT	   10   36	 59.84 C11	 C37	 59.84
TOP	   36   10	 59.84 C37	 C11	 59.84
BOT	   10   37	 58.27 C11	 C38	 58.27
TOP	   37   10	 58.27 C38	 C11	 58.27
BOT	   10   38	 66.14 C11	 C39	 66.14
TOP	   38   10	 66.14 C39	 C11	 66.14
BOT	   10   39	 66.93 C11	 C40	 66.93
TOP	   39   10	 66.93 C40	 C11	 66.93
BOT	   10   40	 66.14 C11	 C41	 66.14
TOP	   40   10	 66.14 C41	 C11	 66.14
BOT	   10   41	 93.70 C11	 C42	 93.70
TOP	   41   10	 93.70 C42	 C11	 93.70
BOT	   10   42	 66.93 C11	 C43	 66.93
TOP	   42   10	 66.93 C43	 C11	 66.93
BOT	   10   43	 59.06 C11	 C44	 59.06
TOP	   43   10	 59.06 C44	 C11	 59.06
BOT	   10   44	 66.93 C11	 C45	 66.93
TOP	   44   10	 66.93 C45	 C11	 66.93
BOT	   10   45	 94.49 C11	 C46	 94.49
TOP	   45   10	 94.49 C46	 C11	 94.49
BOT	   10   46	 59.06 C11	 C47	 59.06
TOP	   46   10	 59.06 C47	 C11	 59.06
BOT	   10   47	 98.43 C11	 C48	 98.43
TOP	   47   10	 98.43 C48	 C11	 98.43
BOT	   10   48	 94.49 C11	 C49	 94.49
TOP	   48   10	 94.49 C49	 C11	 94.49
BOT	   10   49	 59.06 C11	 C50	 59.06
TOP	   49   10	 59.06 C50	 C11	 59.06
BOT	   11   12	 62.99 C12	 C13	 62.99
TOP	   12   11	 62.99 C13	 C12	 62.99
BOT	   11   13	 57.48 C12	 C14	 57.48
TOP	   13   11	 57.48 C14	 C12	 57.48
BOT	   11   14	 96.85 C12	 C15	 96.85
TOP	   14   11	 96.85 C15	 C12	 96.85
BOT	   11   15	 96.85 C12	 C16	 96.85
TOP	   15   11	 96.85 C16	 C12	 96.85
BOT	   11   16	 59.84 C12	 C17	 59.84
TOP	   16   11	 59.84 C17	 C12	 59.84
BOT	   11   17	 59.06 C12	 C18	 59.06
TOP	   17   11	 59.06 C18	 C12	 59.06
BOT	   11   18	 96.06 C12	 C19	 96.06
TOP	   18   11	 96.06 C19	 C12	 96.06
BOT	   11   19	 60.63 C12	 C20	 60.63
TOP	   19   11	 60.63 C20	 C12	 60.63
BOT	   11   20	 56.69 C12	 C21	 56.69
TOP	   20   11	 56.69 C21	 C12	 56.69
BOT	   11   21	 59.06 C12	 C22	 59.06
TOP	   21   11	 59.06 C22	 C12	 59.06
BOT	   11   22	 59.06 C12	 C23	 59.06
TOP	   22   11	 59.06 C23	 C12	 59.06
BOT	   11   23	 94.49 C12	 C24	 94.49
TOP	   23   11	 94.49 C24	 C12	 94.49
BOT	   11   24	 96.06 C12	 C25	 96.06
TOP	   24   11	 96.06 C25	 C12	 96.06
BOT	   11   25	 96.06 C12	 C26	 96.06
TOP	   25   11	 96.06 C26	 C12	 96.06
BOT	   11   26	 57.48 C12	 C27	 57.48
TOP	   26   11	 57.48 C27	 C12	 57.48
BOT	   11   27	 59.06 C12	 C28	 59.06
TOP	   27   11	 59.06 C28	 C12	 59.06
BOT	   11   28	 94.49 C12	 C29	 94.49
TOP	   28   11	 94.49 C29	 C12	 94.49
BOT	   11   29	 96.06 C12	 C30	 96.06
TOP	   29   11	 96.06 C30	 C12	 96.06
BOT	   11   30	 59.84 C12	 C31	 59.84
TOP	   30   11	 59.84 C31	 C12	 59.84
BOT	   11   31	 63.78 C12	 C32	 63.78
TOP	   31   11	 63.78 C32	 C12	 63.78
BOT	   11   32	 63.78 C12	 C33	 63.78
TOP	   32   11	 63.78 C33	 C12	 63.78
BOT	   11   33	 62.99 C12	 C34	 62.99
TOP	   33   11	 62.99 C34	 C12	 62.99
BOT	   11   34	 95.28 C12	 C35	 95.28
TOP	   34   11	 95.28 C35	 C12	 95.28
BOT	   11   35	 60.63 C12	 C36	 60.63
TOP	   35   11	 60.63 C36	 C12	 60.63
BOT	   11   36	 94.49 C12	 C37	 94.49
TOP	   36   11	 94.49 C37	 C12	 94.49
BOT	   11   37	 63.78 C12	 C38	 63.78
TOP	   37   11	 63.78 C38	 C12	 63.78
BOT	   11   38	 59.06 C12	 C39	 59.06
TOP	   38   11	 59.06 C39	 C12	 59.06
BOT	   11   39	 57.48 C12	 C40	 57.48
TOP	   39   11	 57.48 C40	 C12	 57.48
BOT	   11   40	 58.27 C12	 C41	 58.27
TOP	   40   11	 58.27 C41	 C12	 58.27
BOT	   11   41	 56.69 C12	 C42	 56.69
TOP	   41   11	 56.69 C42	 C12	 56.69
BOT	   11   42	 57.48 C12	 C43	 57.48
TOP	   42   11	 57.48 C43	 C12	 57.48
BOT	   11   43	 94.49 C12	 C44	 94.49
TOP	   43   11	 94.49 C44	 C12	 94.49
BOT	   11   44	 57.48 C12	 C45	 57.48
TOP	   44   11	 57.48 C45	 C12	 57.48
BOT	   11   45	 59.84 C12	 C46	 59.84
TOP	   45   11	 59.84 C46	 C12	 59.84
BOT	   11   46	 94.49 C12	 C47	 94.49
TOP	   46   11	 94.49 C47	 C12	 94.49
BOT	   11   47	 59.06 C12	 C48	 59.06
TOP	   47   11	 59.06 C48	 C12	 59.06
BOT	   11   48	 59.84 C12	 C49	 59.84
TOP	   48   11	 59.84 C49	 C12	 59.84
BOT	   11   49	 62.99 C12	 C50	 62.99
TOP	   49   11	 62.99 C50	 C12	 62.99
BOT	   12   13	 56.69 C13	 C14	 56.69
TOP	   13   12	 56.69 C14	 C13	 56.69
BOT	   12   14	 62.20 C13	 C15	 62.20
TOP	   14   12	 62.20 C15	 C13	 62.20
BOT	   12   15	 64.57 C13	 C16	 64.57
TOP	   15   12	 64.57 C16	 C13	 64.57
BOT	   12   16	 57.48 C13	 C17	 57.48
TOP	   16   12	 57.48 C17	 C13	 57.48
BOT	   12   17	 59.84 C13	 C18	 59.84
TOP	   17   12	 59.84 C18	 C13	 59.84
BOT	   12   18	 62.20 C13	 C19	 62.20
TOP	   18   12	 62.20 C19	 C13	 62.20
BOT	   12   19	 58.27 C13	 C20	 58.27
TOP	   19   12	 58.27 C20	 C13	 58.27
BOT	   12   20	 57.48 C13	 C21	 57.48
TOP	   20   12	 57.48 C21	 C13	 57.48
BOT	   12   21	 59.06 C13	 C22	 59.06
TOP	   21   12	 59.06 C22	 C13	 59.06
BOT	   12   22	 56.69 C13	 C23	 56.69
TOP	   22   12	 56.69 C23	 C13	 56.69
BOT	   12   23	 63.78 C13	 C24	 63.78
TOP	   23   12	 63.78 C24	 C13	 63.78
BOT	   12   24	 62.20 C13	 C25	 62.20
TOP	   24   12	 62.20 C25	 C13	 62.20
BOT	   12   25	 63.78 C13	 C26	 63.78
TOP	   25   12	 63.78 C26	 C13	 63.78
BOT	   12   26	 58.27 C13	 C27	 58.27
TOP	   26   12	 58.27 C27	 C13	 58.27
BOT	   12   27	 59.06 C13	 C28	 59.06
TOP	   27   12	 59.06 C28	 C13	 59.06
BOT	   12   28	 63.78 C13	 C29	 63.78
TOP	   28   12	 63.78 C29	 C13	 63.78
BOT	   12   29	 63.78 C13	 C30	 63.78
TOP	   29   12	 63.78 C30	 C13	 63.78
BOT	   12   30	 57.48 C13	 C31	 57.48
TOP	   30   12	 57.48 C31	 C13	 57.48
BOT	   12   31	 96.85 C13	 C32	 96.85
TOP	   31   12	 96.85 C32	 C13	 96.85
BOT	   12   32	 94.49 C13	 C33	 94.49
TOP	   32   12	 94.49 C33	 C13	 94.49
BOT	   12   33	 96.85 C13	 C34	 96.85
TOP	   33   12	 96.85 C34	 C13	 96.85
BOT	   12   34	 64.57 C13	 C35	 64.57
TOP	   34   12	 64.57 C35	 C13	 64.57
BOT	   12   35	 58.27 C13	 C36	 58.27
TOP	   35   12	 58.27 C36	 C13	 58.27
BOT	   12   36	 63.78 C13	 C37	 63.78
TOP	   36   12	 63.78 C37	 C13	 63.78
BOT	   12   37	 95.28 C13	 C38	 95.28
TOP	   37   12	 95.28 C38	 C13	 95.28
BOT	   12   38	 58.27 C13	 C39	 58.27
TOP	   38   12	 58.27 C39	 C13	 58.27
BOT	   12   39	 56.69 C13	 C40	 56.69
TOP	   39   12	 56.69 C40	 C13	 56.69
BOT	   12   40	 59.06 C13	 C41	 59.06
TOP	   40   12	 59.06 C41	 C13	 59.06
BOT	   12   41	 55.91 C13	 C42	 55.91
TOP	   41   12	 55.91 C42	 C13	 55.91
BOT	   12   42	 58.27 C13	 C43	 58.27
TOP	   42   12	 58.27 C43	 C13	 58.27
BOT	   12   43	 62.99 C13	 C44	 62.99
TOP	   43   12	 62.99 C44	 C13	 62.99
BOT	   12   44	 58.27 C13	 C45	 58.27
TOP	   44   12	 58.27 C45	 C13	 58.27
BOT	   12   45	 57.48 C13	 C46	 57.48
TOP	   45   12	 57.48 C46	 C13	 57.48
BOT	   12   46	 62.99 C13	 C47	 62.99
TOP	   46   12	 62.99 C47	 C13	 62.99
BOT	   12   47	 59.06 C13	 C48	 59.06
TOP	   47   12	 59.06 C48	 C13	 59.06
BOT	   12   48	 58.27 C13	 C49	 58.27
TOP	   48   12	 58.27 C49	 C13	 58.27
BOT	   12   49	 99.21 C13	 C50	 99.21
TOP	   49   12	 99.21 C50	 C13	 99.21
BOT	   13   14	 57.48 C14	 C15	 57.48
TOP	   14   13	 57.48 C15	 C14	 57.48
BOT	   13   15	 58.27 C14	 C16	 58.27
TOP	   15   13	 58.27 C16	 C14	 58.27
BOT	   13   16	 64.57 C14	 C17	 64.57
TOP	   16   13	 64.57 C17	 C14	 64.57
BOT	   13   17	 66.93 C14	 C18	 66.93
TOP	   17   13	 66.93 C18	 C14	 66.93
BOT	   13   18	 57.48 C14	 C19	 57.48
TOP	   18   13	 57.48 C19	 C14	 57.48
BOT	   13   19	 67.72 C14	 C20	 67.72
TOP	   19   13	 67.72 C20	 C14	 67.72
BOT	   13   20	 95.28 C14	 C21	 95.28
TOP	   20   13	 95.28 C21	 C14	 95.28
BOT	   13   21	 66.93 C14	 C22	 66.93
TOP	   21   13	 66.93 C22	 C14	 66.93
BOT	   13   22	 66.93 C14	 C23	 66.93
TOP	   22   13	 66.93 C23	 C14	 66.93
BOT	   13   23	 59.84 C14	 C24	 59.84
TOP	   23   13	 59.84 C24	 C14	 59.84
BOT	   13   24	 58.27 C14	 C25	 58.27
TOP	   24   13	 58.27 C25	 C14	 58.27
BOT	   13   25	 59.06 C14	 C26	 59.06
TOP	   25   13	 59.06 C26	 C14	 59.06
BOT	   13   26	 95.28 C14	 C27	 95.28
TOP	   26   13	 95.28 C27	 C14	 95.28
BOT	   13   27	 67.72 C14	 C28	 67.72
TOP	   27   13	 67.72 C28	 C14	 67.72
BOT	   13   28	 59.84 C14	 C29	 59.84
TOP	   28   13	 59.84 C29	 C14	 59.84
BOT	   13   29	 60.63 C14	 C30	 60.63
TOP	   29   13	 60.63 C30	 C14	 60.63
BOT	   13   30	 66.93 C14	 C31	 66.93
TOP	   30   13	 66.93 C31	 C14	 66.93
BOT	   13   31	 57.48 C14	 C32	 57.48
TOP	   31   13	 57.48 C32	 C14	 57.48
BOT	   13   32	 59.06 C14	 C33	 59.06
TOP	   32   13	 59.06 C33	 C14	 59.06
BOT	   13   33	 59.06 C14	 C34	 59.06
TOP	   33   13	 59.06 C34	 C14	 59.06
BOT	   13   34	 59.84 C14	 C35	 59.84
TOP	   34   13	 59.84 C35	 C14	 59.84
BOT	   13   35	 66.93 C14	 C36	 66.93
TOP	   35   13	 66.93 C36	 C14	 66.93
BOT	   13   36	 59.84 C14	 C37	 59.84
TOP	   36   13	 59.84 C37	 C14	 59.84
BOT	   13   37	 57.48 C14	 C38	 57.48
TOP	   37   13	 57.48 C38	 C14	 57.48
BOT	   13   38	 95.28 C14	 C39	 95.28
TOP	   38   13	 95.28 C39	 C14	 95.28
BOT	   13   39	 94.49 C14	 C40	 94.49
TOP	   39   13	 94.49 C40	 C14	 94.49
BOT	   13   40	 96.06 C14	 C41	 96.06
TOP	   40   13	 96.06 C41	 C14	 96.06
BOT	   13   41	 63.78 C14	 C42	 63.78
TOP	   41   13	 63.78 C42	 C14	 63.78
BOT	   13   42	 94.49 C14	 C43	 94.49
TOP	   42   13	 94.49 C43	 C14	 94.49
BOT	   13   43	 59.06 C14	 C44	 59.06
TOP	   43   13	 59.06 C44	 C14	 59.06
BOT	   13   44	 93.70 C14	 C45	 93.70
TOP	   44   13	 93.70 C45	 C14	 93.70
BOT	   13   45	 67.72 C14	 C46	 67.72
TOP	   45   13	 67.72 C46	 C14	 67.72
BOT	   13   46	 59.84 C14	 C47	 59.84
TOP	   46   13	 59.84 C47	 C14	 59.84
BOT	   13   47	 67.72 C14	 C48	 67.72
TOP	   47   13	 67.72 C48	 C14	 67.72
BOT	   13   48	 67.72 C14	 C49	 67.72
TOP	   48   13	 67.72 C49	 C14	 67.72
BOT	   13   49	 57.48 C14	 C50	 57.48
TOP	   49   13	 57.48 C50	 C14	 57.48
BOT	   14   15	 96.85 C15	 C16	 96.85
TOP	   15   14	 96.85 C16	 C15	 96.85
BOT	   14   16	 58.27 C15	 C17	 58.27
TOP	   16   14	 58.27 C17	 C15	 58.27
BOT	   14   17	 57.48 C15	 C18	 57.48
TOP	   17   14	 57.48 C18	 C15	 57.48
BOT	   14   18	 97.64 C15	 C19	 97.64
TOP	   18   14	 97.64 C19	 C15	 97.64
BOT	   14   19	 60.63 C15	 C20	 60.63
TOP	   19   14	 60.63 C20	 C15	 60.63
BOT	   14   20	 57.48 C15	 C21	 57.48
TOP	   20   14	 57.48 C21	 C15	 57.48
BOT	   14   21	 57.48 C15	 C22	 57.48
TOP	   21   14	 57.48 C22	 C15	 57.48
BOT	   14   22	 59.06 C15	 C23	 59.06
TOP	   22   14	 59.06 C23	 C15	 59.06
BOT	   14   23	 96.06 C15	 C24	 96.06
TOP	   23   14	 96.06 C24	 C15	 96.06
BOT	   14   24	 97.64 C15	 C25	 97.64
TOP	   24   14	 97.64 C25	 C15	 97.64
BOT	   14   25	 97.64 C15	 C26	 97.64
TOP	   25   14	 97.64 C26	 C15	 97.64
BOT	   14   26	 58.27 C15	 C27	 58.27
TOP	   26   14	 58.27 C27	 C15	 58.27
BOT	   14   27	 57.48 C15	 C28	 57.48
TOP	   27   14	 57.48 C28	 C15	 57.48
BOT	   14   28	 96.06 C15	 C29	 96.06
TOP	   28   14	 96.06 C29	 C15	 96.06
BOT	   14   29	 96.85 C15	 C30	 96.85
TOP	   29   14	 96.85 C30	 C15	 96.85
BOT	   14   30	 59.84 C15	 C31	 59.84
TOP	   30   14	 59.84 C31	 C15	 59.84
BOT	   14   31	 61.42 C15	 C32	 61.42
TOP	   31   14	 61.42 C32	 C15	 61.42
BOT	   14   32	 64.57 C15	 C33	 64.57
TOP	   32   14	 64.57 C33	 C15	 64.57
BOT	   14   33	 63.78 C15	 C34	 63.78
TOP	   33   14	 63.78 C34	 C15	 63.78
BOT	   14   34	 95.28 C15	 C35	 95.28
TOP	   34   14	 95.28 C35	 C15	 95.28
BOT	   14   35	 60.63 C15	 C36	 60.63
TOP	   35   14	 60.63 C36	 C15	 60.63
BOT	   14   36	 96.06 C15	 C37	 96.06
TOP	   36   14	 96.06 C37	 C15	 96.06
BOT	   14   37	 64.57 C15	 C38	 64.57
TOP	   37   14	 64.57 C38	 C15	 64.57
BOT	   14   38	 59.84 C15	 C39	 59.84
TOP	   38   14	 59.84 C39	 C15	 59.84
BOT	   14   39	 58.27 C15	 C40	 58.27
TOP	   39   14	 58.27 C40	 C15	 58.27
BOT	   14   40	 59.06 C15	 C41	 59.06
TOP	   40   14	 59.06 C41	 C15	 59.06
BOT	   14   41	 55.12 C15	 C42	 55.12
TOP	   41   14	 55.12 C42	 C15	 55.12
BOT	   14   42	 58.27 C15	 C43	 58.27
TOP	   42   14	 58.27 C43	 C15	 58.27
BOT	   14   43	 96.06 C15	 C44	 96.06
TOP	   43   14	 96.06 C44	 C15	 96.06
BOT	   14   44	 58.27 C15	 C45	 58.27
TOP	   44   14	 58.27 C45	 C15	 58.27
BOT	   14   45	 59.84 C15	 C46	 59.84
TOP	   45   14	 59.84 C46	 C15	 59.84
BOT	   14   46	 96.06 C15	 C47	 96.06
TOP	   46   14	 96.06 C47	 C15	 96.06
BOT	   14   47	 57.48 C15	 C48	 57.48
TOP	   47   14	 57.48 C48	 C15	 57.48
BOT	   14   48	 59.84 C15	 C49	 59.84
TOP	   48   14	 59.84 C49	 C15	 59.84
BOT	   14   49	 62.20 C15	 C50	 62.20
TOP	   49   14	 62.20 C50	 C15	 62.20
BOT	   15   16	 59.06 C16	 C17	 59.06
TOP	   16   15	 59.06 C17	 C16	 59.06
BOT	   15   17	 59.84 C16	 C18	 59.84
TOP	   17   15	 59.84 C18	 C16	 59.84
BOT	   15   18	 96.06 C16	 C19	 96.06
TOP	   18   15	 96.06 C19	 C16	 96.06
BOT	   15   19	 59.84 C16	 C20	 59.84
TOP	   19   15	 59.84 C20	 C16	 59.84
BOT	   15   20	 58.27 C16	 C21	 58.27
TOP	   20   15	 58.27 C21	 C16	 58.27
BOT	   15   21	 59.84 C16	 C22	 59.84
TOP	   21   15	 59.84 C22	 C16	 59.84
BOT	   15   22	 58.27 C16	 C23	 58.27
TOP	   22   15	 58.27 C23	 C16	 58.27
BOT	   15   23	 97.64 C16	 C24	 97.64
TOP	   23   15	 97.64 C24	 C16	 97.64
BOT	   15   24	 96.06 C16	 C25	 96.06
TOP	   24   15	 96.06 C25	 C16	 96.06
BOT	   15   25	 97.64 C16	 C26	 97.64
TOP	   25   15	 97.64 C26	 C16	 97.64
BOT	   15   26	 59.06 C16	 C27	 59.06
TOP	   26   15	 59.06 C27	 C16	 59.06
BOT	   15   27	 59.84 C16	 C28	 59.84
TOP	   27   15	 59.84 C28	 C16	 59.84
BOT	   15   28	 96.06 C16	 C29	 96.06
TOP	   28   15	 96.06 C29	 C16	 96.06
BOT	   15   29	 96.85 C16	 C30	 96.85
TOP	   29   15	 96.85 C30	 C16	 96.85
BOT	   15   30	 59.06 C16	 C31	 59.06
TOP	   30   15	 59.06 C31	 C16	 59.06
BOT	   15   31	 63.78 C16	 C32	 63.78
TOP	   31   15	 63.78 C32	 C16	 63.78
BOT	   15   32	 65.35 C16	 C33	 65.35
TOP	   32   15	 65.35 C33	 C16	 65.35
BOT	   15   33	 64.57 C16	 C34	 64.57
TOP	   33   15	 64.57 C34	 C16	 64.57
BOT	   15   34	 96.85 C16	 C35	 96.85
TOP	   34   15	 96.85 C35	 C16	 96.85
BOT	   15   35	 59.84 C16	 C36	 59.84
TOP	   35   15	 59.84 C36	 C16	 59.84
BOT	   15   36	 96.06 C16	 C37	 96.06
TOP	   36   15	 96.06 C37	 C16	 96.06
BOT	   15   37	 65.35 C16	 C38	 65.35
TOP	   37   15	 65.35 C38	 C16	 65.35
BOT	   15   38	 60.63 C16	 C39	 60.63
TOP	   38   15	 60.63 C39	 C16	 60.63
BOT	   15   39	 59.06 C16	 C40	 59.06
TOP	   39   15	 59.06 C40	 C16	 59.06
BOT	   15   40	 59.84 C16	 C41	 59.84
TOP	   40   15	 59.84 C41	 C16	 59.84
BOT	   15   41	 57.48 C16	 C42	 57.48
TOP	   41   15	 57.48 C42	 C16	 57.48
BOT	   15   42	 59.06 C16	 C43	 59.06
TOP	   42   15	 59.06 C43	 C16	 59.06
BOT	   15   43	 96.06 C16	 C44	 96.06
TOP	   43   15	 96.06 C44	 C16	 96.06
BOT	   15   44	 59.06 C16	 C45	 59.06
TOP	   44   15	 59.06 C45	 C16	 59.06
BOT	   15   45	 59.06 C16	 C46	 59.06
TOP	   45   15	 59.06 C46	 C16	 59.06
BOT	   15   46	 96.06 C16	 C47	 96.06
TOP	   46   15	 96.06 C47	 C16	 96.06
BOT	   15   47	 59.84 C16	 C48	 59.84
TOP	   47   15	 59.84 C48	 C16	 59.84
BOT	   15   48	 59.06 C16	 C49	 59.06
TOP	   48   15	 59.06 C49	 C16	 59.06
BOT	   15   49	 64.57 C16	 C50	 64.57
TOP	   49   15	 64.57 C50	 C16	 64.57
BOT	   16   17	 94.49 C17	 C18	 94.49
TOP	   17   16	 94.49 C18	 C17	 94.49
BOT	   16   18	 58.27 C17	 C19	 58.27
TOP	   18   16	 58.27 C19	 C17	 58.27
BOT	   16   19	 94.49 C17	 C20	 94.49
TOP	   19   16	 94.49 C20	 C17	 94.49
BOT	   16   20	 63.78 C17	 C21	 63.78
TOP	   20   16	 63.78 C21	 C17	 63.78
BOT	   16   21	 93.70 C17	 C22	 93.70
TOP	   21   16	 93.70 C22	 C17	 93.70
BOT	   16   22	 93.70 C17	 C23	 93.70
TOP	   22   16	 93.70 C23	 C17	 93.70
BOT	   16   23	 59.06 C17	 C24	 59.06
TOP	   23   16	 59.06 C24	 C17	 59.06
BOT	   16   24	 59.06 C17	 C25	 59.06
TOP	   24   16	 59.06 C25	 C17	 59.06
BOT	   16   25	 58.27 C17	 C26	 58.27
TOP	   25   16	 58.27 C26	 C17	 58.27
BOT	   16   26	 62.99 C17	 C27	 62.99
TOP	   26   16	 62.99 C27	 C17	 62.99
BOT	   16   27	 94.49 C17	 C28	 94.49
TOP	   27   16	 94.49 C28	 C17	 94.49
BOT	   16   28	 59.06 C17	 C29	 59.06
TOP	   28   16	 59.06 C29	 C17	 59.06
BOT	   16   29	 59.06 C17	 C30	 59.06
TOP	   29   16	 59.06 C30	 C17	 59.06
BOT	   16   30	 93.70 C17	 C31	 93.70
TOP	   30   16	 93.70 C31	 C17	 93.70
BOT	   16   31	 57.48 C17	 C32	 57.48
TOP	   31   16	 57.48 C32	 C17	 57.48
BOT	   16   32	 57.48 C17	 C33	 57.48
TOP	   32   16	 57.48 C33	 C17	 57.48
BOT	   16   33	 57.48 C17	 C34	 57.48
TOP	   33   16	 57.48 C34	 C17	 57.48
BOT	   16   34	 59.84 C17	 C35	 59.84
TOP	   34   16	 59.84 C35	 C17	 59.84
BOT	   16   35	 93.70 C17	 C36	 93.70
TOP	   35   16	 93.70 C36	 C17	 93.70
BOT	   16   36	 58.27 C17	 C37	 58.27
TOP	   36   16	 58.27 C37	 C17	 58.27
BOT	   16   37	 56.69 C17	 C38	 56.69
TOP	   37   16	 56.69 C38	 C17	 56.69
BOT	   16   38	 62.99 C17	 C39	 62.99
TOP	   38   16	 62.99 C39	 C17	 62.99
BOT	   16   39	 63.78 C17	 C40	 63.78
TOP	   39   16	 63.78 C40	 C17	 63.78
BOT	   16   40	 63.78 C17	 C41	 63.78
TOP	   40   16	 63.78 C41	 C17	 63.78
BOT	   16   41	 89.76 C17	 C42	 89.76
TOP	   41   16	 89.76 C42	 C17	 89.76
BOT	   16   42	 64.57 C17	 C43	 64.57
TOP	   42   16	 64.57 C43	 C17	 64.57
BOT	   16   43	 58.27 C17	 C44	 58.27
TOP	   43   16	 58.27 C44	 C17	 58.27
BOT	   16   44	 64.57 C17	 C45	 64.57
TOP	   44   16	 64.57 C45	 C17	 64.57
BOT	   16   45	 93.70 C17	 C46	 93.70
TOP	   45   16	 93.70 C46	 C17	 93.70
BOT	   16   46	 58.27 C17	 C47	 58.27
TOP	   46   16	 58.27 C47	 C17	 58.27
BOT	   16   47	 94.49 C17	 C48	 94.49
TOP	   47   16	 94.49 C48	 C17	 94.49
BOT	   16   48	 93.70 C17	 C49	 93.70
TOP	   48   16	 93.70 C49	 C17	 93.70
BOT	   16   49	 57.48 C17	 C50	 57.48
TOP	   49   16	 57.48 C50	 C17	 57.48
BOT	   17   18	 57.48 C18	 C19	 57.48
TOP	   18   17	 57.48 C19	 C18	 57.48
BOT	   17   19	 95.28 C18	 C20	 95.28
TOP	   19   17	 95.28 C20	 C18	 95.28
BOT	   17   20	 66.14 C18	 C21	 66.14
TOP	   20   17	 66.14 C21	 C18	 66.14
BOT	   17   21	 97.64 C18	 C22	 97.64
TOP	   21   17	 97.64 C22	 C18	 97.64
BOT	   17   22	 94.49 C18	 C23	 94.49
TOP	   22   17	 94.49 C23	 C18	 94.49
BOT	   17   23	 59.84 C18	 C24	 59.84
TOP	   23   17	 59.84 C24	 C18	 59.84
BOT	   17   24	 58.27 C18	 C25	 58.27
TOP	   24   17	 58.27 C25	 C18	 58.27
BOT	   17   25	 59.06 C18	 C26	 59.06
TOP	   25   17	 59.06 C26	 C18	 59.06
BOT	   17   26	 65.35 C18	 C27	 65.35
TOP	   26   17	 65.35 C27	 C18	 65.35
BOT	   17   27	 96.85 C18	 C28	 96.85
TOP	   27   17	 96.85 C28	 C18	 96.85
BOT	   17   28	 59.84 C18	 C29	 59.84
TOP	   28   17	 59.84 C29	 C18	 59.84
BOT	   17   29	 59.84 C18	 C30	 59.84
TOP	   29   17	 59.84 C30	 C18	 59.84
BOT	   17   30	 94.49 C18	 C31	 94.49
TOP	   30   17	 94.49 C31	 C18	 94.49
BOT	   17   31	 59.84 C18	 C32	 59.84
TOP	   31   17	 59.84 C32	 C18	 59.84
BOT	   17   32	 59.84 C18	 C33	 59.84
TOP	   32   17	 59.84 C33	 C18	 59.84
BOT	   17   33	 59.84 C18	 C34	 59.84
TOP	   33   17	 59.84 C34	 C18	 59.84
BOT	   17   34	 60.63 C18	 C35	 60.63
TOP	   34   17	 60.63 C35	 C18	 60.63
BOT	   17   35	 94.49 C18	 C36	 94.49
TOP	   35   17	 94.49 C36	 C18	 94.49
BOT	   17   36	 59.84 C18	 C37	 59.84
TOP	   36   17	 59.84 C37	 C18	 59.84
BOT	   17   37	 59.06 C18	 C38	 59.06
TOP	   37   17	 59.06 C38	 C18	 59.06
BOT	   17   38	 65.35 C18	 C39	 65.35
TOP	   38   17	 65.35 C39	 C18	 65.35
BOT	   17   39	 66.14 C18	 C40	 66.14
TOP	   39   17	 66.14 C40	 C18	 66.14
BOT	   17   40	 65.35 C18	 C41	 65.35
TOP	   40   17	 65.35 C41	 C18	 65.35
BOT	   17   41	 93.70 C18	 C42	 93.70
TOP	   41   17	 93.70 C42	 C18	 93.70
BOT	   17   42	 66.14 C18	 C43	 66.14
TOP	   42   17	 66.14 C43	 C18	 66.14
BOT	   17   43	 59.06 C18	 C44	 59.06
TOP	   43   17	 59.06 C44	 C18	 59.06
BOT	   17   44	 66.14 C18	 C45	 66.14
TOP	   44   17	 66.14 C45	 C18	 66.14
BOT	   17   45	 94.49 C18	 C46	 94.49
TOP	   45   17	 94.49 C46	 C18	 94.49
BOT	   17   46	 59.06 C18	 C47	 59.06
TOP	   46   17	 59.06 C47	 C18	 59.06
BOT	   17   47	 96.85 C18	 C48	 96.85
TOP	   47   17	 96.85 C48	 C18	 96.85
BOT	   17   48	 94.49 C18	 C49	 94.49
TOP	   48   17	 94.49 C49	 C18	 94.49
BOT	   17   49	 59.84 C18	 C50	 59.84
TOP	   49   17	 59.84 C50	 C18	 59.84
BOT	   18   19	 60.63 C19	 C20	 60.63
TOP	   19   18	 60.63 C20	 C19	 60.63
BOT	   18   20	 57.48 C19	 C21	 57.48
TOP	   20   18	 57.48 C21	 C19	 57.48
BOT	   18   21	 57.48 C19	 C22	 57.48
TOP	   21   18	 57.48 C22	 C19	 57.48
BOT	   18   22	 59.06 C19	 C23	 59.06
TOP	   22   18	 59.06 C23	 C19	 59.06
BOT	   18   23	 95.28 C19	 C24	 95.28
TOP	   23   18	 95.28 C24	 C19	 95.28
BOT	   18   24	 96.85 C19	 C25	 96.85
TOP	   24   18	 96.85 C25	 C19	 96.85
BOT	   18   25	 96.85 C19	 C26	 96.85
TOP	   25   18	 96.85 C26	 C19	 96.85
BOT	   18   26	 58.27 C19	 C27	 58.27
TOP	   26   18	 58.27 C27	 C19	 58.27
BOT	   18   27	 57.48 C19	 C28	 57.48
TOP	   27   18	 57.48 C28	 C19	 57.48
BOT	   18   28	 95.28 C19	 C29	 95.28
TOP	   28   18	 95.28 C29	 C19	 95.28
BOT	   18   29	 96.06 C19	 C30	 96.06
TOP	   29   18	 96.06 C30	 C19	 96.06
BOT	   18   30	 59.84 C19	 C31	 59.84
TOP	   30   18	 59.84 C31	 C19	 59.84
BOT	   18   31	 61.42 C19	 C32	 61.42
TOP	   31   18	 61.42 C32	 C19	 61.42
BOT	   18   32	 64.57 C19	 C33	 64.57
TOP	   32   18	 64.57 C33	 C19	 64.57
BOT	   18   33	 63.78 C19	 C34	 63.78
TOP	   33   18	 63.78 C34	 C19	 63.78
BOT	   18   34	 94.49 C19	 C35	 94.49
TOP	   34   18	 94.49 C35	 C19	 94.49
BOT	   18   35	 60.63 C19	 C36	 60.63
TOP	   35   18	 60.63 C36	 C19	 60.63
BOT	   18   36	 95.28 C19	 C37	 95.28
TOP	   36   18	 95.28 C37	 C19	 95.28
BOT	   18   37	 64.57 C19	 C38	 64.57
TOP	   37   18	 64.57 C38	 C19	 64.57
BOT	   18   38	 59.84 C19	 C39	 59.84
TOP	   38   18	 59.84 C39	 C19	 59.84
BOT	   18   39	 58.27 C19	 C40	 58.27
TOP	   39   18	 58.27 C40	 C19	 58.27
BOT	   18   40	 59.06 C19	 C41	 59.06
TOP	   40   18	 59.06 C41	 C19	 59.06
BOT	   18   41	 55.12 C19	 C42	 55.12
TOP	   41   18	 55.12 C42	 C19	 55.12
BOT	   18   42	 58.27 C19	 C43	 58.27
TOP	   42   18	 58.27 C43	 C19	 58.27
BOT	   18   43	 95.28 C19	 C44	 95.28
TOP	   43   18	 95.28 C44	 C19	 95.28
BOT	   18   44	 58.27 C19	 C45	 58.27
TOP	   44   18	 58.27 C45	 C19	 58.27
BOT	   18   45	 59.84 C19	 C46	 59.84
TOP	   45   18	 59.84 C46	 C19	 59.84
BOT	   18   46	 95.28 C19	 C47	 95.28
TOP	   46   18	 95.28 C47	 C19	 95.28
BOT	   18   47	 57.48 C19	 C48	 57.48
TOP	   47   18	 57.48 C48	 C19	 57.48
BOT	   18   48	 59.84 C19	 C49	 59.84
TOP	   48   18	 59.84 C49	 C19	 59.84
BOT	   18   49	 62.20 C19	 C50	 62.20
TOP	   49   18	 62.20 C50	 C19	 62.20
BOT	   19   20	 66.93 C20	 C21	 66.93
TOP	   20   19	 66.93 C21	 C20	 66.93
BOT	   19   21	 96.06 C20	 C22	 96.06
TOP	   21   19	 96.06 C22	 C20	 96.06
BOT	   19   22	 97.64 C20	 C23	 97.64
TOP	   22   19	 97.64 C23	 C20	 97.64
BOT	   19   23	 61.42 C20	 C24	 61.42
TOP	   23   19	 61.42 C24	 C20	 61.42
BOT	   19   24	 61.42 C20	 C25	 61.42
TOP	   24   19	 61.42 C25	 C20	 61.42
BOT	   19   25	 60.63 C20	 C26	 60.63
TOP	   25   19	 60.63 C26	 C20	 60.63
BOT	   19   26	 66.14 C20	 C27	 66.14
TOP	   26   19	 66.14 C27	 C20	 66.14
BOT	   19   27	 95.28 C20	 C28	 95.28
TOP	   27   19	 95.28 C28	 C20	 95.28
BOT	   19   28	 61.42 C20	 C29	 61.42
TOP	   28   19	 61.42 C29	 C20	 61.42
BOT	   19   29	 61.42 C20	 C30	 61.42
TOP	   29   19	 61.42 C30	 C20	 61.42
BOT	   19   30	 97.64 C20	 C31	 97.64
TOP	   30   19	 97.64 C31	 C20	 97.64
BOT	   19   31	 58.27 C20	 C32	 58.27
TOP	   31   19	 58.27 C32	 C20	 58.27
BOT	   19   32	 59.84 C20	 C33	 59.84
TOP	   32   19	 59.84 C33	 C20	 59.84
BOT	   19   33	 59.84 C20	 C34	 59.84
TOP	   33   19	 59.84 C34	 C20	 59.84
BOT	   19   34	 60.63 C20	 C35	 60.63
TOP	   34   19	 60.63 C35	 C20	 60.63
BOT	   19   35	 97.64 C20	 C36	 97.64
TOP	   35   19	 97.64 C36	 C20	 97.64
BOT	   19   36	 60.63 C20	 C37	 60.63
TOP	   36   19	 60.63 C37	 C20	 60.63
BOT	   19   37	 59.06 C20	 C38	 59.06
TOP	   37   19	 59.06 C38	 C20	 59.06
BOT	   19   38	 66.14 C20	 C39	 66.14
TOP	   38   19	 66.14 C39	 C20	 66.14
BOT	   19   39	 66.93 C20	 C40	 66.93
TOP	   39   19	 66.93 C40	 C20	 66.93
BOT	   19   40	 66.14 C20	 C41	 66.14
TOP	   40   19	 66.14 C41	 C20	 66.14
BOT	   19   41	 92.13 C20	 C42	 92.13
TOP	   41   19	 92.13 C42	 C20	 92.13
BOT	   19   42	 66.93 C20	 C43	 66.93
TOP	   42   19	 66.93 C43	 C20	 66.93
BOT	   19   43	 60.63 C20	 C44	 60.63
TOP	   43   19	 60.63 C44	 C20	 60.63
BOT	   19   44	 66.93 C20	 C45	 66.93
TOP	   44   19	 66.93 C45	 C20	 66.93
BOT	   19   45	 97.64 C20	 C46	 97.64
TOP	   45   19	 97.64 C46	 C20	 97.64
BOT	   19   46	 60.63 C20	 C47	 60.63
TOP	   46   19	 60.63 C47	 C20	 60.63
BOT	   19   47	 95.28 C20	 C48	 95.28
TOP	   47   19	 95.28 C48	 C20	 95.28
BOT	   19   48	 97.64 C20	 C49	 97.64
TOP	   48   19	 97.64 C49	 C20	 97.64
BOT	   19   49	 58.27 C20	 C50	 58.27
TOP	   49   19	 58.27 C50	 C20	 58.27
BOT	   20   21	 66.14 C21	 C22	 66.14
TOP	   21   20	 66.14 C22	 C21	 66.14
BOT	   20   22	 66.14 C21	 C23	 66.14
TOP	   22   20	 66.14 C23	 C21	 66.14
BOT	   20   23	 59.06 C21	 C24	 59.06
TOP	   23   20	 59.06 C24	 C21	 59.06
BOT	   20   24	 58.27 C21	 C25	 58.27
TOP	   24   20	 58.27 C25	 C21	 58.27
BOT	   20   25	 59.06 C21	 C26	 59.06
TOP	   25   20	 59.06 C26	 C21	 59.06
BOT	   20   26	 95.28 C21	 C27	 95.28
TOP	   26   20	 95.28 C27	 C21	 95.28
BOT	   20   27	 66.93 C21	 C28	 66.93
TOP	   27   20	 66.93 C28	 C21	 66.93
BOT	   20   28	 59.06 C21	 C29	 59.06
TOP	   28   20	 59.06 C29	 C21	 59.06
BOT	   20   29	 59.06 C21	 C30	 59.06
TOP	   29   20	 59.06 C30	 C21	 59.06
BOT	   20   30	 66.14 C21	 C31	 66.14
TOP	   30   20	 66.14 C31	 C21	 66.14
BOT	   20   31	 57.48 C21	 C32	 57.48
TOP	   31   20	 57.48 C32	 C21	 57.48
BOT	   20   32	 59.84 C21	 C33	 59.84
TOP	   32   20	 59.84 C33	 C21	 59.84
BOT	   20   33	 59.84 C21	 C34	 59.84
TOP	   33   20	 59.84 C34	 C21	 59.84
BOT	   20   34	 59.06 C21	 C35	 59.06
TOP	   34   20	 59.06 C35	 C21	 59.06
BOT	   20   35	 66.14 C21	 C36	 66.14
TOP	   35   20	 66.14 C36	 C21	 66.14
BOT	   20   36	 58.27 C21	 C37	 58.27
TOP	   36   20	 58.27 C37	 C21	 58.27
BOT	   20   37	 58.27 C21	 C38	 58.27
TOP	   37   20	 58.27 C38	 C21	 58.27
BOT	   20   38	 95.28 C21	 C39	 95.28
TOP	   38   20	 95.28 C39	 C21	 95.28
BOT	   20   39	 96.06 C21	 C40	 96.06
TOP	   39   20	 96.06 C40	 C21	 96.06
BOT	   20   40	 96.06 C21	 C41	 96.06
TOP	   40   20	 96.06 C41	 C21	 96.06
BOT	   20   41	 62.99 C21	 C42	 62.99
TOP	   41   20	 62.99 C42	 C21	 62.99
BOT	   20   42	 96.06 C21	 C43	 96.06
TOP	   42   20	 96.06 C43	 C21	 96.06
BOT	   20   43	 58.27 C21	 C44	 58.27
TOP	   43   20	 58.27 C44	 C21	 58.27
BOT	   20   44	 95.28 C21	 C45	 95.28
TOP	   44   20	 95.28 C45	 C21	 95.28
BOT	   20   45	 66.93 C21	 C46	 66.93
TOP	   45   20	 66.93 C46	 C21	 66.93
BOT	   20   46	 59.06 C21	 C47	 59.06
TOP	   46   20	 59.06 C47	 C21	 59.06
BOT	   20   47	 66.93 C21	 C48	 66.93
TOP	   47   20	 66.93 C48	 C21	 66.93
BOT	   20   48	 67.72 C21	 C49	 67.72
TOP	   48   20	 67.72 C49	 C21	 67.72
BOT	   20   49	 58.27 C21	 C50	 58.27
TOP	   49   20	 58.27 C50	 C21	 58.27
BOT	   21   22	 96.85 C22	 C23	 96.85
TOP	   22   21	 96.85 C23	 C22	 96.85
BOT	   21   23	 59.84 C22	 C24	 59.84
TOP	   23   21	 59.84 C24	 C22	 59.84
BOT	   21   24	 58.27 C22	 C25	 58.27
TOP	   24   21	 58.27 C25	 C22	 58.27
BOT	   21   25	 59.06 C22	 C26	 59.06
TOP	   25   21	 59.06 C26	 C22	 59.06
BOT	   21   26	 65.35 C22	 C27	 65.35
TOP	   26   21	 65.35 C27	 C22	 65.35
BOT	   21   27	 97.64 C22	 C28	 97.64
TOP	   27   21	 97.64 C28	 C22	 97.64
BOT	   21   28	 60.63 C22	 C29	 60.63
TOP	   28   21	 60.63 C29	 C22	 60.63
BOT	   21   29	 59.84 C22	 C30	 59.84
TOP	   29   21	 59.84 C30	 C22	 59.84
BOT	   21   30	 96.85 C22	 C31	 96.85
TOP	   30   21	 96.85 C31	 C22	 96.85
BOT	   21   31	 59.06 C22	 C32	 59.06
TOP	   31   21	 59.06 C32	 C22	 59.06
BOT	   21   32	 59.06 C22	 C33	 59.06
TOP	   32   21	 59.06 C33	 C22	 59.06
BOT	   21   33	 59.06 C22	 C34	 59.06
TOP	   33   21	 59.06 C34	 C22	 59.06
BOT	   21   34	 60.63 C22	 C35	 60.63
TOP	   34   21	 60.63 C35	 C22	 60.63
BOT	   21   35	 96.85 C22	 C36	 96.85
TOP	   35   21	 96.85 C36	 C22	 96.85
BOT	   21   36	 59.84 C22	 C37	 59.84
TOP	   36   21	 59.84 C37	 C22	 59.84
BOT	   21   37	 58.27 C22	 C38	 58.27
TOP	   37   21	 58.27 C38	 C22	 58.27
BOT	   21   38	 65.35 C22	 C39	 65.35
TOP	   38   21	 65.35 C39	 C22	 65.35
BOT	   21   39	 66.14 C22	 C40	 66.14
TOP	   39   21	 66.14 C40	 C22	 66.14
BOT	   21   40	 65.35 C22	 C41	 65.35
TOP	   40   21	 65.35 C41	 C22	 65.35
BOT	   21   41	 96.06 C22	 C42	 96.06
TOP	   41   21	 96.06 C42	 C22	 96.06
BOT	   21   42	 66.14 C22	 C43	 66.14
TOP	   42   21	 66.14 C43	 C22	 66.14
BOT	   21   43	 59.84 C22	 C44	 59.84
TOP	   43   21	 59.84 C44	 C22	 59.84
BOT	   21   44	 66.14 C22	 C45	 66.14
TOP	   44   21	 66.14 C45	 C22	 66.14
BOT	   21   45	 96.85 C22	 C46	 96.85
TOP	   45   21	 96.85 C46	 C22	 96.85
BOT	   21   46	 59.84 C22	 C47	 59.84
TOP	   46   21	 59.84 C47	 C22	 59.84
BOT	   21   47	 97.64 C22	 C48	 97.64
TOP	   47   21	 97.64 C48	 C22	 97.64
BOT	   21   48	 96.06 C22	 C49	 96.06
TOP	   48   21	 96.06 C49	 C22	 96.06
BOT	   21   49	 59.06 C22	 C50	 59.06
TOP	   49   21	 59.06 C50	 C22	 59.06
BOT	   22   23	 59.84 C23	 C24	 59.84
TOP	   23   22	 59.84 C24	 C23	 59.84
BOT	   22   24	 59.84 C23	 C25	 59.84
TOP	   24   22	 59.84 C25	 C23	 59.84
BOT	   22   25	 59.06 C23	 C26	 59.06
TOP	   25   22	 59.06 C26	 C23	 59.06
BOT	   22   26	 65.35 C23	 C27	 65.35
TOP	   26   22	 65.35 C27	 C23	 65.35
BOT	   22   27	 94.49 C23	 C28	 94.49
TOP	   27   22	 94.49 C28	 C23	 94.49
BOT	   22   28	 60.63 C23	 C29	 60.63
TOP	   28   22	 60.63 C29	 C23	 60.63
BOT	   22   29	 59.84 C23	 C30	 59.84
TOP	   29   22	 59.84 C30	 C23	 59.84
BOT	   22   30	 98.43 C23	 C31	 98.43
TOP	   30   22	 98.43 C31	 C23	 98.43
BOT	   22   31	 56.69 C23	 C32	 56.69
TOP	   31   22	 56.69 C32	 C23	 56.69
BOT	   22   32	 58.27 C23	 C33	 58.27
TOP	   32   22	 58.27 C33	 C23	 58.27
BOT	   22   33	 58.27 C23	 C34	 58.27
TOP	   33   22	 58.27 C34	 C23	 58.27
BOT	   22   34	 59.06 C23	 C35	 59.06
TOP	   34   22	 59.06 C35	 C23	 59.06
BOT	   22   35	 98.43 C23	 C36	 98.43
TOP	   35   22	 98.43 C36	 C23	 98.43
BOT	   22   36	 59.06 C23	 C37	 59.06
TOP	   36   22	 59.06 C37	 C23	 59.06
BOT	   22   37	 57.48 C23	 C38	 57.48
TOP	   37   22	 57.48 C38	 C23	 57.48
BOT	   22   38	 65.35 C23	 C39	 65.35
TOP	   38   22	 65.35 C39	 C23	 65.35
BOT	   22   39	 66.14 C23	 C40	 66.14
TOP	   39   22	 66.14 C40	 C23	 66.14
BOT	   22   40	 65.35 C23	 C41	 65.35
TOP	   40   22	 65.35 C41	 C23	 65.35
BOT	   22   41	 92.91 C23	 C42	 92.91
TOP	   41   22	 92.91 C42	 C23	 92.91
BOT	   22   42	 66.14 C23	 C43	 66.14
TOP	   42   22	 66.14 C43	 C23	 66.14
BOT	   22   43	 59.84 C23	 C44	 59.84
TOP	   43   22	 59.84 C44	 C23	 59.84
BOT	   22   44	 66.14 C23	 C45	 66.14
TOP	   44   22	 66.14 C45	 C23	 66.14
BOT	   22   45	 98.43 C23	 C46	 98.43
TOP	   45   22	 98.43 C46	 C23	 98.43
BOT	   22   46	 59.84 C23	 C47	 59.84
TOP	   46   22	 59.84 C47	 C23	 59.84
BOT	   22   47	 94.49 C23	 C48	 94.49
TOP	   47   22	 94.49 C48	 C23	 94.49
BOT	   22   48	 97.64 C23	 C49	 97.64
TOP	   48   22	 97.64 C49	 C23	 97.64
BOT	   22   49	 56.69 C23	 C50	 56.69
TOP	   49   22	 56.69 C50	 C23	 56.69
BOT	   23   24	 95.28 C24	 C25	 95.28
TOP	   24   23	 95.28 C25	 C24	 95.28
BOT	   23   25	 97.64 C24	 C26	 97.64
TOP	   25   23	 97.64 C26	 C24	 97.64
BOT	   23   26	 60.63 C24	 C27	 60.63
TOP	   26   23	 60.63 C27	 C24	 60.63
BOT	   23   27	 59.84 C24	 C28	 59.84
TOP	   27   23	 59.84 C28	 C24	 59.84
BOT	   23   28	 96.85 C24	 C29	 96.85
TOP	   28   23	 96.85 C29	 C24	 96.85
BOT	   23   29	 96.06 C24	 C30	 96.06
TOP	   29   23	 96.06 C30	 C24	 96.06
BOT	   23   30	 60.63 C24	 C31	 60.63
TOP	   30   23	 60.63 C31	 C24	 60.63
BOT	   23   31	 62.99 C24	 C32	 62.99
TOP	   31   23	 62.99 C32	 C24	 62.99
BOT	   23   32	 66.14 C24	 C33	 66.14
TOP	   32   23	 66.14 C33	 C24	 66.14
BOT	   23   33	 65.35 C24	 C34	 65.35
TOP	   33   23	 65.35 C34	 C24	 65.35
BOT	   23   34	 96.06 C24	 C35	 96.06
TOP	   34   23	 96.06 C35	 C24	 96.06
BOT	   23   35	 61.42 C24	 C36	 61.42
TOP	   35   23	 61.42 C36	 C24	 61.42
BOT	   23   36	 96.85 C24	 C37	 96.85
TOP	   36   23	 96.85 C37	 C24	 96.85
BOT	   23   37	 66.14 C24	 C38	 66.14
TOP	   37   23	 66.14 C38	 C24	 66.14
BOT	   23   38	 62.20 C24	 C39	 62.20
TOP	   38   23	 62.20 C39	 C24	 62.20
BOT	   23   39	 60.63 C24	 C40	 60.63
TOP	   39   23	 60.63 C40	 C24	 60.63
BOT	   23   40	 61.42 C24	 C41	 61.42
TOP	   40   23	 61.42 C41	 C24	 61.42
BOT	   23   41	 57.48 C24	 C42	 57.48
TOP	   41   23	 57.48 C42	 C24	 57.48
BOT	   23   42	 60.63 C24	 C43	 60.63
TOP	   42   23	 60.63 C43	 C24	 60.63
BOT	   23   43	 96.85 C24	 C44	 96.85
TOP	   43   23	 96.85 C44	 C24	 96.85
BOT	   23   44	 60.63 C24	 C45	 60.63
TOP	   44   23	 60.63 C45	 C24	 60.63
BOT	   23   45	 60.63 C24	 C46	 60.63
TOP	   45   23	 60.63 C46	 C24	 60.63
BOT	   23   46	 96.85 C24	 C47	 96.85
TOP	   46   23	 96.85 C47	 C24	 96.85
BOT	   23   47	 59.84 C24	 C48	 59.84
TOP	   47   23	 59.84 C48	 C24	 59.84
BOT	   23   48	 60.63 C24	 C49	 60.63
TOP	   48   23	 60.63 C49	 C24	 60.63
BOT	   23   49	 63.78 C24	 C50	 63.78
TOP	   49   23	 63.78 C50	 C24	 63.78
BOT	   24   25	 96.85 C25	 C26	 96.85
TOP	   25   24	 96.85 C26	 C25	 96.85
BOT	   24   26	 59.06 C25	 C27	 59.06
TOP	   26   24	 59.06 C27	 C25	 59.06
BOT	   24   27	 58.27 C25	 C28	 58.27
TOP	   27   24	 58.27 C28	 C25	 58.27
BOT	   24   28	 95.28 C25	 C29	 95.28
TOP	   28   24	 95.28 C29	 C25	 95.28
BOT	   24   29	 96.06 C25	 C30	 96.06
TOP	   29   24	 96.06 C30	 C25	 96.06
BOT	   24   30	 60.63 C25	 C31	 60.63
TOP	   30   24	 60.63 C31	 C25	 60.63
BOT	   24   31	 61.42 C25	 C32	 61.42
TOP	   31   24	 61.42 C32	 C25	 61.42
BOT	   24   32	 64.57 C25	 C33	 64.57
TOP	   32   24	 64.57 C33	 C25	 64.57
BOT	   24   33	 63.78 C25	 C34	 63.78
TOP	   33   24	 63.78 C34	 C25	 63.78
BOT	   24   34	 94.49 C25	 C35	 94.49
TOP	   34   24	 94.49 C35	 C25	 94.49
BOT	   24   35	 61.42 C25	 C36	 61.42
TOP	   35   24	 61.42 C36	 C25	 61.42
BOT	   24   36	 95.28 C25	 C37	 95.28
TOP	   36   24	 95.28 C37	 C25	 95.28
BOT	   24   37	 64.57 C25	 C38	 64.57
TOP	   37   24	 64.57 C38	 C25	 64.57
BOT	   24   38	 60.63 C25	 C39	 60.63
TOP	   38   24	 60.63 C39	 C25	 60.63
BOT	   24   39	 58.27 C25	 C40	 58.27
TOP	   39   24	 58.27 C40	 C25	 58.27
BOT	   24   40	 59.84 C25	 C41	 59.84
TOP	   40   24	 59.84 C41	 C25	 59.84
BOT	   24   41	 55.91 C25	 C42	 55.91
TOP	   41   24	 55.91 C42	 C25	 55.91
BOT	   24   42	 59.06 C25	 C43	 59.06
TOP	   42   24	 59.06 C43	 C25	 59.06
BOT	   24   43	 95.28 C25	 C44	 95.28
TOP	   43   24	 95.28 C44	 C25	 95.28
BOT	   24   44	 59.06 C25	 C45	 59.06
TOP	   44   24	 59.06 C45	 C25	 59.06
BOT	   24   45	 60.63 C25	 C46	 60.63
TOP	   45   24	 60.63 C46	 C25	 60.63
BOT	   24   46	 95.28 C25	 C47	 95.28
TOP	   46   24	 95.28 C47	 C25	 95.28
BOT	   24   47	 58.27 C25	 C48	 58.27
TOP	   47   24	 58.27 C48	 C25	 58.27
BOT	   24   48	 60.63 C25	 C49	 60.63
TOP	   48   24	 60.63 C49	 C25	 60.63
BOT	   24   49	 62.20 C25	 C50	 62.20
TOP	   49   24	 62.20 C50	 C25	 62.20
BOT	   25   26	 59.84 C26	 C27	 59.84
TOP	   26   25	 59.84 C27	 C26	 59.84
BOT	   25   27	 59.06 C26	 C28	 59.06
TOP	   27   25	 59.06 C28	 C26	 59.06
BOT	   25   28	 96.85 C26	 C29	 96.85
TOP	   28   25	 96.85 C29	 C26	 96.85
BOT	   25   29	 97.64 C26	 C30	 97.64
TOP	   29   25	 97.64 C30	 C26	 97.64
BOT	   25   30	 59.84 C26	 C31	 59.84
TOP	   30   25	 59.84 C31	 C26	 59.84
BOT	   25   31	 62.99 C26	 C32	 62.99
TOP	   31   25	 62.99 C32	 C26	 62.99
BOT	   25   32	 66.14 C26	 C33	 66.14
TOP	   32   25	 66.14 C33	 C26	 66.14
BOT	   25   33	 65.35 C26	 C34	 65.35
TOP	   33   25	 65.35 C34	 C26	 65.35
BOT	   25   34	 96.06 C26	 C35	 96.06
TOP	   34   25	 96.06 C35	 C26	 96.06
BOT	   25   35	 60.63 C26	 C36	 60.63
TOP	   35   25	 60.63 C36	 C26	 60.63
BOT	   25   36	 96.85 C26	 C37	 96.85
TOP	   36   25	 96.85 C37	 C26	 96.85
BOT	   25   37	 66.14 C26	 C38	 66.14
TOP	   37   25	 66.14 C38	 C26	 66.14
BOT	   25   38	 61.42 C26	 C39	 61.42
TOP	   38   25	 61.42 C39	 C26	 61.42
BOT	   25   39	 59.84 C26	 C40	 59.84
TOP	   39   25	 59.84 C40	 C26	 59.84
BOT	   25   40	 60.63 C26	 C41	 60.63
TOP	   40   25	 60.63 C41	 C26	 60.63
BOT	   25   41	 56.69 C26	 C42	 56.69
TOP	   41   25	 56.69 C42	 C26	 56.69
BOT	   25   42	 59.84 C26	 C43	 59.84
TOP	   42   25	 59.84 C43	 C26	 59.84
BOT	   25   43	 96.85 C26	 C44	 96.85
TOP	   43   25	 96.85 C44	 C26	 96.85
BOT	   25   44	 59.84 C26	 C45	 59.84
TOP	   44   25	 59.84 C45	 C26	 59.84
BOT	   25   45	 59.84 C26	 C46	 59.84
TOP	   45   25	 59.84 C46	 C26	 59.84
BOT	   25   46	 96.85 C26	 C47	 96.85
TOP	   46   25	 96.85 C47	 C26	 96.85
BOT	   25   47	 59.06 C26	 C48	 59.06
TOP	   47   25	 59.06 C48	 C26	 59.06
BOT	   25   48	 59.84 C26	 C49	 59.84
TOP	   48   25	 59.84 C49	 C26	 59.84
BOT	   25   49	 63.78 C26	 C50	 63.78
TOP	   49   25	 63.78 C50	 C26	 63.78
BOT	   26   27	 66.14 C27	 C28	 66.14
TOP	   27   26	 66.14 C28	 C27	 66.14
BOT	   26   28	 60.63 C27	 C29	 60.63
TOP	   28   26	 60.63 C29	 C27	 60.63
BOT	   26   29	 59.84 C27	 C30	 59.84
TOP	   29   26	 59.84 C30	 C27	 59.84
BOT	   26   30	 65.35 C27	 C31	 65.35
TOP	   30   26	 65.35 C31	 C27	 65.35
BOT	   26   31	 58.27 C27	 C32	 58.27
TOP	   31   26	 58.27 C32	 C27	 58.27
BOT	   26   32	 60.63 C27	 C33	 60.63
TOP	   32   26	 60.63 C33	 C27	 60.63
BOT	   26   33	 60.63 C27	 C34	 60.63
TOP	   33   26	 60.63 C34	 C27	 60.63
BOT	   26   34	 59.06 C27	 C35	 59.06
TOP	   34   26	 59.06 C35	 C27	 59.06
BOT	   26   35	 65.35 C27	 C36	 65.35
TOP	   35   26	 65.35 C36	 C27	 65.35
BOT	   26   36	 60.63 C27	 C37	 60.63
TOP	   36   26	 60.63 C37	 C27	 60.63
BOT	   26   37	 59.06 C27	 C38	 59.06
TOP	   37   26	 59.06 C38	 C27	 59.06
BOT	   26   38	 98.43 C27	 C39	 98.43
TOP	   38   26	 98.43 C39	 C27	 98.43
BOT	   26   39	 96.06 C27	 C40	 96.06
TOP	   39   26	 96.06 C40	 C27	 96.06
BOT	   26   40	 97.64 C27	 C41	 97.64
TOP	   40   26	 97.64 C41	 C27	 97.64
BOT	   26   41	 62.20 C27	 C42	 62.20
TOP	   41   26	 62.20 C42	 C27	 62.20
BOT	   26   42	 96.06 C27	 C43	 96.06
TOP	   42   26	 96.06 C43	 C27	 96.06
BOT	   26   43	 59.84 C27	 C44	 59.84
TOP	   43   26	 59.84 C44	 C27	 59.84
BOT	   26   44	 95.28 C27	 C45	 95.28
TOP	   44   26	 95.28 C45	 C27	 95.28
BOT	   26   45	 66.14 C27	 C46	 66.14
TOP	   45   26	 66.14 C46	 C27	 66.14
BOT	   26   46	 60.63 C27	 C47	 60.63
TOP	   46   26	 60.63 C47	 C27	 60.63
BOT	   26   47	 66.14 C27	 C48	 66.14
TOP	   47   26	 66.14 C48	 C27	 66.14
BOT	   26   48	 66.93 C27	 C49	 66.93
TOP	   48   26	 66.93 C49	 C27	 66.93
BOT	   26   49	 59.06 C27	 C50	 59.06
TOP	   49   26	 59.06 C50	 C27	 59.06
BOT	   27   28	 59.84 C28	 C29	 59.84
TOP	   28   27	 59.84 C29	 C28	 59.84
BOT	   27   29	 59.84 C28	 C30	 59.84
TOP	   29   27	 59.84 C30	 C28	 59.84
BOT	   27   30	 94.49 C28	 C31	 94.49
TOP	   30   27	 94.49 C31	 C28	 94.49
BOT	   27   31	 59.06 C28	 C32	 59.06
TOP	   31   27	 59.06 C32	 C28	 59.06
BOT	   27   32	 59.06 C28	 C33	 59.06
TOP	   32   27	 59.06 C33	 C28	 59.06
BOT	   27   33	 59.06 C28	 C34	 59.06
TOP	   33   27	 59.06 C34	 C28	 59.06
BOT	   27   34	 60.63 C28	 C35	 60.63
TOP	   34   27	 60.63 C35	 C28	 60.63
BOT	   27   35	 95.28 C28	 C36	 95.28
TOP	   35   27	 95.28 C36	 C28	 95.28
BOT	   27   36	 59.84 C28	 C37	 59.84
TOP	   36   27	 59.84 C37	 C28	 59.84
BOT	   27   37	 58.27 C28	 C38	 58.27
TOP	   37   27	 58.27 C38	 C28	 58.27
BOT	   27   38	 66.14 C28	 C39	 66.14
TOP	   38   27	 66.14 C39	 C28	 66.14
BOT	   27   39	 66.93 C28	 C40	 66.93
TOP	   39   27	 66.93 C40	 C28	 66.93
BOT	   27   40	 66.14 C28	 C41	 66.14
TOP	   40   27	 66.14 C41	 C28	 66.14
BOT	   27   41	 93.70 C28	 C42	 93.70
TOP	   41   27	 93.70 C42	 C28	 93.70
BOT	   27   42	 66.93 C28	 C43	 66.93
TOP	   42   27	 66.93 C43	 C28	 66.93
BOT	   27   43	 59.06 C28	 C44	 59.06
TOP	   43   27	 59.06 C44	 C28	 59.06
BOT	   27   44	 66.93 C28	 C45	 66.93
TOP	   44   27	 66.93 C45	 C28	 66.93
BOT	   27   45	 94.49 C28	 C46	 94.49
TOP	   45   27	 94.49 C46	 C28	 94.49
BOT	   27   46	 59.06 C28	 C47	 59.06
TOP	   46   27	 59.06 C47	 C28	 59.06
BOT	   27   47	 98.43 C28	 C48	 98.43
TOP	   47   27	 98.43 C48	 C28	 98.43
BOT	   27   48	 94.49 C28	 C49	 94.49
TOP	   48   27	 94.49 C49	 C28	 94.49
BOT	   27   49	 59.06 C28	 C50	 59.06
TOP	   49   27	 59.06 C50	 C28	 59.06
BOT	   28   29	 96.06 C29	 C30	 96.06
TOP	   29   28	 96.06 C30	 C29	 96.06
BOT	   28   30	 61.42 C29	 C31	 61.42
TOP	   30   28	 61.42 C31	 C29	 61.42
BOT	   28   31	 62.99 C29	 C32	 62.99
TOP	   31   28	 62.99 C32	 C29	 62.99
BOT	   28   32	 66.14 C29	 C33	 66.14
TOP	   32   28	 66.14 C33	 C29	 66.14
BOT	   28   33	 65.35 C29	 C34	 65.35
TOP	   33   28	 65.35 C34	 C29	 65.35
BOT	   28   34	 96.06 C29	 C35	 96.06
TOP	   34   28	 96.06 C35	 C29	 96.06
BOT	   28   35	 62.20 C29	 C36	 62.20
TOP	   35   28	 62.20 C36	 C29	 62.20
BOT	   28   36	 96.85 C29	 C37	 96.85
TOP	   36   28	 96.85 C37	 C29	 96.85
BOT	   28   37	 66.14 C29	 C38	 66.14
TOP	   37   28	 66.14 C38	 C29	 66.14
BOT	   28   38	 62.20 C29	 C39	 62.20
TOP	   38   28	 62.20 C39	 C29	 62.20
BOT	   28   39	 60.63 C29	 C40	 60.63
TOP	   39   28	 60.63 C40	 C29	 60.63
BOT	   28   40	 61.42 C29	 C41	 61.42
TOP	   40   28	 61.42 C41	 C29	 61.42
BOT	   28   41	 58.27 C29	 C42	 58.27
TOP	   41   28	 58.27 C42	 C29	 58.27
BOT	   28   42	 60.63 C29	 C43	 60.63
TOP	   42   28	 60.63 C43	 C29	 60.63
BOT	   28   43	 98.43 C29	 C44	 98.43
TOP	   43   28	 98.43 C44	 C29	 98.43
BOT	   28   44	 60.63 C29	 C45	 60.63
TOP	   44   28	 60.63 C45	 C29	 60.63
BOT	   28   45	 61.42 C29	 C46	 61.42
TOP	   45   28	 61.42 C46	 C29	 61.42
BOT	   28   46	 98.43 C29	 C47	 98.43
TOP	   46   28	 98.43 C47	 C29	 98.43
BOT	   28   47	 59.84 C29	 C48	 59.84
TOP	   47   28	 59.84 C48	 C29	 59.84
BOT	   28   48	 60.63 C29	 C49	 60.63
TOP	   48   28	 60.63 C49	 C29	 60.63
BOT	   28   49	 63.78 C29	 C50	 63.78
TOP	   49   28	 63.78 C50	 C29	 63.78
BOT	   29   30	 60.63 C30	 C31	 60.63
TOP	   30   29	 60.63 C31	 C30	 60.63
BOT	   29   31	 63.78 C30	 C32	 63.78
TOP	   31   29	 63.78 C32	 C30	 63.78
BOT	   29   32	 66.14 C30	 C33	 66.14
TOP	   32   29	 66.14 C33	 C30	 66.14
BOT	   29   33	 65.35 C30	 C34	 65.35
TOP	   33   29	 65.35 C34	 C30	 65.35
BOT	   29   34	 95.28 C30	 C35	 95.28
TOP	   34   29	 95.28 C35	 C30	 95.28
BOT	   29   35	 61.42 C30	 C36	 61.42
TOP	   35   29	 61.42 C36	 C30	 61.42
BOT	   29   36	 96.06 C30	 C37	 96.06
TOP	   36   29	 96.06 C37	 C30	 96.06
BOT	   29   37	 66.14 C30	 C38	 66.14
TOP	   37   29	 66.14 C38	 C30	 66.14
BOT	   29   38	 61.42 C30	 C39	 61.42
TOP	   38   29	 61.42 C39	 C30	 61.42
BOT	   29   39	 59.84 C30	 C40	 59.84
TOP	   39   29	 59.84 C40	 C30	 59.84
BOT	   29   40	 60.63 C30	 C41	 60.63
TOP	   40   29	 60.63 C41	 C30	 60.63
BOT	   29   41	 56.69 C30	 C42	 56.69
TOP	   41   29	 56.69 C42	 C30	 56.69
BOT	   29   42	 59.84 C30	 C43	 59.84
TOP	   42   29	 59.84 C43	 C30	 59.84
BOT	   29   43	 96.06 C30	 C44	 96.06
TOP	   43   29	 96.06 C44	 C30	 96.06
BOT	   29   44	 59.84 C30	 C45	 59.84
TOP	   44   29	 59.84 C45	 C30	 59.84
BOT	   29   45	 60.63 C30	 C46	 60.63
TOP	   45   29	 60.63 C46	 C30	 60.63
BOT	   29   46	 96.06 C30	 C47	 96.06
TOP	   46   29	 96.06 C47	 C30	 96.06
BOT	   29   47	 59.84 C30	 C48	 59.84
TOP	   47   29	 59.84 C48	 C30	 59.84
BOT	   29   48	 60.63 C30	 C49	 60.63
TOP	   48   29	 60.63 C49	 C30	 60.63
BOT	   29   49	 63.78 C30	 C50	 63.78
TOP	   49   29	 63.78 C50	 C30	 63.78
BOT	   30   31	 57.48 C31	 C32	 57.48
TOP	   31   30	 57.48 C32	 C31	 57.48
BOT	   30   32	 59.06 C31	 C33	 59.06
TOP	   32   30	 59.06 C33	 C31	 59.06
BOT	   30   33	 59.06 C31	 C34	 59.06
TOP	   33   30	 59.06 C34	 C31	 59.06
BOT	   30   34	 59.84 C31	 C35	 59.84
TOP	   34   30	 59.84 C35	 C31	 59.84
BOT	   30   35	 98.43 C31	 C36	 98.43
TOP	   35   30	 98.43 C36	 C31	 98.43
BOT	   30   36	 59.84 C31	 C37	 59.84
TOP	   36   30	 59.84 C37	 C31	 59.84
BOT	   30   37	 58.27 C31	 C38	 58.27
TOP	   37   30	 58.27 C38	 C31	 58.27
BOT	   30   38	 65.35 C31	 C39	 65.35
TOP	   38   30	 65.35 C39	 C31	 65.35
BOT	   30   39	 66.14 C31	 C40	 66.14
TOP	   39   30	 66.14 C40	 C31	 66.14
BOT	   30   40	 65.35 C31	 C41	 65.35
TOP	   40   30	 65.35 C41	 C31	 65.35
BOT	   30   41	 92.91 C31	 C42	 92.91
TOP	   41   30	 92.91 C42	 C31	 92.91
BOT	   30   42	 66.14 C31	 C43	 66.14
TOP	   42   30	 66.14 C43	 C31	 66.14
BOT	   30   43	 60.63 C31	 C44	 60.63
TOP	   43   30	 60.63 C44	 C31	 60.63
BOT	   30   44	 66.14 C31	 C45	 66.14
TOP	   44   30	 66.14 C45	 C31	 66.14
BOT	   30   45	 98.43 C31	 C46	 98.43
TOP	   45   30	 98.43 C46	 C31	 98.43
BOT	   30   46	 60.63 C31	 C47	 60.63
TOP	   46   30	 60.63 C47	 C31	 60.63
BOT	   30   47	 94.49 C31	 C48	 94.49
TOP	   47   30	 94.49 C48	 C31	 94.49
BOT	   30   48	 97.64 C31	 C49	 97.64
TOP	   48   30	 97.64 C49	 C31	 97.64
BOT	   30   49	 57.48 C31	 C50	 57.48
TOP	   49   30	 57.48 C50	 C31	 57.48
BOT	   31   32	 94.49 C32	 C33	 94.49
TOP	   32   31	 94.49 C33	 C32	 94.49
BOT	   31   33	 96.85 C32	 C34	 96.85
TOP	   33   31	 96.85 C34	 C32	 96.85
BOT	   31   34	 63.78 C32	 C35	 63.78
TOP	   34   31	 63.78 C35	 C32	 63.78
BOT	   31   35	 58.27 C32	 C36	 58.27
TOP	   35   31	 58.27 C36	 C32	 58.27
BOT	   31   36	 62.99 C32	 C37	 62.99
TOP	   36   31	 62.99 C37	 C32	 62.99
BOT	   31   37	 94.49 C32	 C38	 94.49
TOP	   37   31	 94.49 C38	 C32	 94.49
BOT	   31   38	 58.27 C32	 C39	 58.27
TOP	   38   31	 58.27 C39	 C32	 58.27
BOT	   31   39	 56.69 C32	 C40	 56.69
TOP	   39   31	 56.69 C40	 C32	 56.69
BOT	   31   40	 59.06 C32	 C41	 59.06
TOP	   40   31	 59.06 C41	 C32	 59.06
BOT	   31   41	 56.69 C32	 C42	 56.69
TOP	   41   31	 56.69 C42	 C32	 56.69
BOT	   31   42	 58.27 C32	 C43	 58.27
TOP	   42   31	 58.27 C43	 C32	 58.27
BOT	   31   43	 62.20 C32	 C44	 62.20
TOP	   43   31	 62.20 C44	 C32	 62.20
BOT	   31   44	 58.27 C32	 C45	 58.27
TOP	   44   31	 58.27 C45	 C32	 58.27
BOT	   31   45	 57.48 C32	 C46	 57.48
TOP	   45   31	 57.48 C46	 C32	 57.48
BOT	   31   46	 62.20 C32	 C47	 62.20
TOP	   46   31	 62.20 C47	 C32	 62.20
BOT	   31   47	 59.84 C32	 C48	 59.84
TOP	   47   31	 59.84 C48	 C32	 59.84
BOT	   31   48	 58.27 C32	 C49	 58.27
TOP	   48   31	 58.27 C49	 C32	 58.27
BOT	   31   49	 97.64 C32	 C50	 97.64
TOP	   49   31	 97.64 C50	 C32	 97.64
BOT	   32   33	 96.06 C33	 C34	 96.06
TOP	   33   32	 96.06 C34	 C33	 96.06
BOT	   32   34	 65.35 C33	 C35	 65.35
TOP	   34   32	 65.35 C35	 C33	 65.35
BOT	   32   35	 59.84 C33	 C36	 59.84
TOP	   35   32	 59.84 C36	 C33	 59.84
BOT	   32   36	 66.14 C33	 C37	 66.14
TOP	   36   32	 66.14 C37	 C33	 66.14
BOT	   32   37	 98.43 C33	 C38	 98.43
TOP	   37   32	 98.43 C38	 C33	 98.43
BOT	   32   38	 62.20 C33	 C39	 62.20
TOP	   38   32	 62.20 C39	 C33	 62.20
BOT	   32   39	 59.84 C33	 C40	 59.84
TOP	   39   32	 59.84 C40	 C33	 59.84
BOT	   32   40	 61.42 C33	 C41	 61.42
TOP	   40   32	 61.42 C41	 C33	 61.42
BOT	   32   41	 55.91 C33	 C42	 55.91
TOP	   41   32	 55.91 C42	 C33	 55.91
BOT	   32   42	 60.63 C33	 C43	 60.63
TOP	   42   32	 60.63 C43	 C33	 60.63
BOT	   32   43	 65.35 C33	 C44	 65.35
TOP	   43   32	 65.35 C44	 C33	 65.35
BOT	   32   44	 60.63 C33	 C45	 60.63
TOP	   44   32	 60.63 C45	 C33	 60.63
BOT	   32   45	 59.06 C33	 C46	 59.06
TOP	   45   32	 59.06 C46	 C33	 59.06
BOT	   32   46	 65.35 C33	 C47	 65.35
TOP	   46   32	 65.35 C47	 C33	 65.35
BOT	   32   47	 59.84 C33	 C48	 59.84
TOP	   47   32	 59.84 C48	 C33	 59.84
BOT	   32   48	 59.84 C33	 C49	 59.84
TOP	   48   32	 59.84 C49	 C33	 59.84
BOT	   32   49	 95.28 C33	 C50	 95.28
TOP	   49   32	 95.28 C50	 C33	 95.28
BOT	   33   34	 64.57 C34	 C35	 64.57
TOP	   34   33	 64.57 C35	 C34	 64.57
BOT	   33   35	 59.84 C34	 C36	 59.84
TOP	   35   33	 59.84 C36	 C34	 59.84
BOT	   33   36	 65.35 C34	 C37	 65.35
TOP	   36   33	 65.35 C37	 C34	 65.35
BOT	   33   37	 96.06 C34	 C38	 96.06
TOP	   37   33	 96.06 C38	 C34	 96.06
BOT	   33   38	 60.63 C34	 C39	 60.63
TOP	   38   33	 60.63 C39	 C34	 60.63
BOT	   33   39	 59.06 C34	 C40	 59.06
TOP	   39   33	 59.06 C40	 C34	 59.06
BOT	   33   40	 61.42 C34	 C41	 61.42
TOP	   40   33	 61.42 C41	 C34	 61.42
BOT	   33   41	 55.91 C34	 C42	 55.91
TOP	   41   33	 55.91 C42	 C34	 55.91
BOT	   33   42	 60.63 C34	 C43	 60.63
TOP	   42   33	 60.63 C43	 C34	 60.63
BOT	   33   43	 64.57 C34	 C44	 64.57
TOP	   43   33	 64.57 C44	 C34	 64.57
BOT	   33   44	 60.63 C34	 C45	 60.63
TOP	   44   33	 60.63 C45	 C34	 60.63
BOT	   33   45	 59.06 C34	 C46	 59.06
TOP	   45   33	 59.06 C46	 C34	 59.06
BOT	   33   46	 64.57 C34	 C47	 64.57
TOP	   46   33	 64.57 C47	 C34	 64.57
BOT	   33   47	 59.84 C34	 C48	 59.84
TOP	   47   33	 59.84 C48	 C34	 59.84
BOT	   33   48	 59.84 C34	 C49	 59.84
TOP	   48   33	 59.84 C49	 C34	 59.84
BOT	   33   49	 97.64 C34	 C50	 97.64
TOP	   49   33	 97.64 C50	 C34	 97.64
BOT	   34   35	 60.63 C35	 C36	 60.63
TOP	   35   34	 60.63 C36	 C35	 60.63
BOT	   34   36	 96.06 C35	 C37	 96.06
TOP	   36   34	 96.06 C37	 C35	 96.06
BOT	   34   37	 65.35 C35	 C38	 65.35
TOP	   37   34	 65.35 C38	 C35	 65.35
BOT	   34   38	 60.63 C35	 C39	 60.63
TOP	   38   34	 60.63 C39	 C35	 60.63
BOT	   34   39	 59.06 C35	 C40	 59.06
TOP	   39   34	 59.06 C40	 C35	 59.06
BOT	   34   40	 59.84 C35	 C41	 59.84
TOP	   40   34	 59.84 C41	 C35	 59.84
BOT	   34   41	 58.27 C35	 C42	 58.27
TOP	   41   34	 58.27 C42	 C35	 58.27
BOT	   34   42	 59.06 C35	 C43	 59.06
TOP	   42   34	 59.06 C43	 C35	 59.06
BOT	   34   43	 96.06 C35	 C44	 96.06
TOP	   43   34	 96.06 C44	 C35	 96.06
BOT	   34   44	 59.06 C35	 C45	 59.06
TOP	   44   34	 59.06 C45	 C35	 59.06
BOT	   34   45	 59.84 C35	 C46	 59.84
TOP	   45   34	 59.84 C46	 C35	 59.84
BOT	   34   46	 96.06 C35	 C47	 96.06
TOP	   46   34	 96.06 C47	 C35	 96.06
BOT	   34   47	 60.63 C35	 C48	 60.63
TOP	   47   34	 60.63 C48	 C35	 60.63
BOT	   34   48	 59.84 C35	 C49	 59.84
TOP	   48   34	 59.84 C49	 C35	 59.84
BOT	   34   49	 64.57 C35	 C50	 64.57
TOP	   49   34	 64.57 C50	 C35	 64.57
BOT	   35   36	 60.63 C36	 C37	 60.63
TOP	   36   35	 60.63 C37	 C36	 60.63
BOT	   35   37	 59.06 C36	 C38	 59.06
TOP	   37   35	 59.06 C38	 C36	 59.06
BOT	   35   38	 65.35 C36	 C39	 65.35
TOP	   38   35	 65.35 C39	 C36	 65.35
BOT	   35   39	 66.14 C36	 C40	 66.14
TOP	   39   35	 66.14 C40	 C36	 66.14
BOT	   35   40	 65.35 C36	 C41	 65.35
TOP	   40   35	 65.35 C41	 C36	 65.35
BOT	   35   41	 92.91 C36	 C42	 92.91
TOP	   41   35	 92.91 C42	 C36	 92.91
BOT	   35   42	 66.14 C36	 C43	 66.14
TOP	   42   35	 66.14 C43	 C36	 66.14
BOT	   35   43	 61.42 C36	 C44	 61.42
TOP	   43   35	 61.42 C44	 C36	 61.42
BOT	   35   44	 66.14 C36	 C45	 66.14
TOP	   44   35	 66.14 C45	 C36	 66.14
BOT	   35   45	 98.43 C36	 C46	 98.43
TOP	   45   35	 98.43 C46	 C36	 98.43
BOT	   35   46	 61.42 C36	 C47	 61.42
TOP	   46   35	 61.42 C47	 C36	 61.42
BOT	   35   47	 94.49 C36	 C48	 94.49
TOP	   47   35	 94.49 C48	 C36	 94.49
BOT	   35   48	 97.64 C36	 C49	 97.64
TOP	   48   35	 97.64 C49	 C36	 97.64
BOT	   35   49	 58.27 C36	 C50	 58.27
TOP	   49   35	 58.27 C50	 C36	 58.27
BOT	   36   37	 66.14 C37	 C38	 66.14
TOP	   37   36	 66.14 C38	 C37	 66.14
BOT	   36   38	 62.20 C37	 C39	 62.20
TOP	   38   36	 62.20 C39	 C37	 62.20
BOT	   36   39	 60.63 C37	 C40	 60.63
TOP	   39   36	 60.63 C40	 C37	 60.63
BOT	   36   40	 61.42 C37	 C41	 61.42
TOP	   40   36	 61.42 C41	 C37	 61.42
BOT	   36   41	 57.48 C37	 C42	 57.48
TOP	   41   36	 57.48 C42	 C37	 57.48
BOT	   36   42	 60.63 C37	 C43	 60.63
TOP	   42   36	 60.63 C43	 C37	 60.63
BOT	   36   43	 96.85 C37	 C44	 96.85
TOP	   43   36	 96.85 C44	 C37	 96.85
BOT	   36   44	 60.63 C37	 C45	 60.63
TOP	   44   36	 60.63 C45	 C37	 60.63
BOT	   36   45	 59.84 C37	 C46	 59.84
TOP	   45   36	 59.84 C46	 C37	 59.84
BOT	   36   46	 96.85 C37	 C47	 96.85
TOP	   46   36	 96.85 C47	 C37	 96.85
BOT	   36   47	 59.84 C37	 C48	 59.84
TOP	   47   36	 59.84 C48	 C37	 59.84
BOT	   36   48	 59.84 C37	 C49	 59.84
TOP	   48   36	 59.84 C49	 C37	 59.84
BOT	   36   49	 63.78 C37	 C50	 63.78
TOP	   49   36	 63.78 C50	 C37	 63.78
BOT	   37   38	 60.63 C38	 C39	 60.63
TOP	   38   37	 60.63 C39	 C38	 60.63
BOT	   37   39	 58.27 C38	 C40	 58.27
TOP	   39   37	 58.27 C40	 C38	 58.27
BOT	   37   40	 59.84 C38	 C41	 59.84
TOP	   40   37	 59.84 C41	 C38	 59.84
BOT	   37   41	 55.12 C38	 C42	 55.12
TOP	   41   37	 55.12 C42	 C38	 55.12
BOT	   37   42	 59.06 C38	 C43	 59.06
TOP	   42   37	 59.06 C43	 C38	 59.06
BOT	   37   43	 65.35 C38	 C44	 65.35
TOP	   43   37	 65.35 C44	 C38	 65.35
BOT	   37   44	 59.06 C38	 C45	 59.06
TOP	   44   37	 59.06 C45	 C38	 59.06
BOT	   37   45	 58.27 C38	 C46	 58.27
TOP	   45   37	 58.27 C46	 C38	 58.27
BOT	   37   46	 65.35 C38	 C47	 65.35
TOP	   46   37	 65.35 C47	 C38	 65.35
BOT	   37   47	 58.27 C38	 C48	 58.27
TOP	   47   37	 58.27 C48	 C38	 58.27
BOT	   37   48	 59.06 C38	 C49	 59.06
TOP	   48   37	 59.06 C49	 C38	 59.06
BOT	   37   49	 95.28 C38	 C50	 95.28
TOP	   49   37	 95.28 C50	 C38	 95.28
BOT	   38   39	 96.85 C39	 C40	 96.85
TOP	   39   38	 96.85 C40	 C39	 96.85
BOT	   38   40	 97.64 C39	 C41	 97.64
TOP	   40   38	 97.64 C41	 C39	 97.64
BOT	   38   41	 62.20 C39	 C42	 62.20
TOP	   41   38	 62.20 C42	 C39	 62.20
BOT	   38   42	 96.06 C39	 C43	 96.06
TOP	   42   38	 96.06 C43	 C39	 96.06
BOT	   38   43	 61.42 C39	 C44	 61.42
TOP	   43   38	 61.42 C44	 C39	 61.42
BOT	   38   44	 95.28 C39	 C45	 95.28
TOP	   44   38	 95.28 C45	 C39	 95.28
BOT	   38   45	 66.14 C39	 C46	 66.14
TOP	   45   38	 66.14 C46	 C39	 66.14
BOT	   38   46	 62.20 C39	 C47	 62.20
TOP	   46   38	 62.20 C47	 C39	 62.20
BOT	   38   47	 66.14 C39	 C48	 66.14
TOP	   47   38	 66.14 C48	 C39	 66.14
BOT	   38   48	 66.93 C39	 C49	 66.93
TOP	   48   38	 66.93 C49	 C39	 66.93
BOT	   38   49	 59.06 C39	 C50	 59.06
TOP	   49   38	 59.06 C50	 C39	 59.06
BOT	   39   40	 96.85 C40	 C41	 96.85
TOP	   40   39	 96.85 C41	 C40	 96.85
BOT	   39   41	 62.99 C40	 C42	 62.99
TOP	   41   39	 62.99 C42	 C40	 62.99
BOT	   39   42	 96.85 C40	 C43	 96.85
TOP	   42   39	 96.85 C43	 C40	 96.85
BOT	   39   43	 59.84 C40	 C44	 59.84
TOP	   43   39	 59.84 C44	 C40	 59.84
BOT	   39   44	 96.06 C40	 C45	 96.06
TOP	   44   39	 96.06 C45	 C40	 96.06
BOT	   39   45	 66.93 C40	 C46	 66.93
TOP	   45   39	 66.93 C46	 C40	 66.93
BOT	   39   46	 60.63 C40	 C47	 60.63
TOP	   46   39	 60.63 C47	 C40	 60.63
BOT	   39   47	 66.93 C40	 C48	 66.93
TOP	   47   39	 66.93 C48	 C40	 66.93
BOT	   39   48	 67.72 C40	 C49	 67.72
TOP	   48   39	 67.72 C49	 C40	 67.72
BOT	   39   49	 57.48 C40	 C50	 57.48
TOP	   49   39	 57.48 C50	 C40	 57.48
BOT	   40   41	 62.20 C41	 C42	 62.20
TOP	   41   40	 62.20 C42	 C41	 62.20
BOT	   40   42	 98.43 C41	 C43	 98.43
TOP	   42   40	 98.43 C43	 C41	 98.43
BOT	   40   43	 60.63 C41	 C44	 60.63
TOP	   43   40	 60.63 C44	 C41	 60.63
BOT	   40   44	 97.64 C41	 C45	 97.64
TOP	   44   40	 97.64 C45	 C41	 97.64
BOT	   40   45	 66.14 C41	 C46	 66.14
TOP	   45   40	 66.14 C46	 C41	 66.14
BOT	   40   46	 61.42 C41	 C47	 61.42
TOP	   46   40	 61.42 C47	 C41	 61.42
BOT	   40   47	 66.14 C41	 C48	 66.14
TOP	   47   40	 66.14 C48	 C41	 66.14
BOT	   40   48	 66.93 C41	 C49	 66.93
TOP	   48   40	 66.93 C49	 C41	 66.93
BOT	   40   49	 59.84 C41	 C50	 59.84
TOP	   49   40	 59.84 C50	 C41	 59.84
BOT	   41   42	 62.99 C42	 C43	 62.99
TOP	   42   41	 62.99 C43	 C42	 62.99
BOT	   41   43	 57.48 C42	 C44	 57.48
TOP	   43   41	 57.48 C44	 C42	 57.48
BOT	   41   44	 62.99 C42	 C45	 62.99
TOP	   44   41	 62.99 C45	 C42	 62.99
BOT	   41   45	 92.91 C42	 C46	 92.91
TOP	   45   41	 92.91 C46	 C42	 92.91
BOT	   41   46	 57.48 C42	 C47	 57.48
TOP	   46   41	 57.48 C47	 C42	 57.48
BOT	   41   47	 93.70 C42	 C48	 93.70
TOP	   47   41	 93.70 C48	 C42	 93.70
BOT	   41   48	 92.13 C42	 C49	 92.13
TOP	   48   41	 92.13 C49	 C42	 92.13
BOT	   41   49	 55.91 C42	 C50	 55.91
TOP	   49   41	 55.91 C50	 C42	 55.91
BOT	   42   43	 59.84 C43	 C44	 59.84
TOP	   43   42	 59.84 C44	 C43	 59.84
BOT	   42   44	 97.64 C43	 C45	 97.64
TOP	   44   42	 97.64 C45	 C43	 97.64
BOT	   42   45	 66.93 C43	 C46	 66.93
TOP	   45   42	 66.93 C46	 C43	 66.93
BOT	   42   46	 60.63 C43	 C47	 60.63
TOP	   46   42	 60.63 C47	 C43	 60.63
BOT	   42   47	 66.93 C43	 C48	 66.93
TOP	   47   42	 66.93 C48	 C43	 66.93
BOT	   42   48	 67.72 C43	 C49	 67.72
TOP	   48   42	 67.72 C49	 C43	 67.72
BOT	   42   49	 59.06 C43	 C50	 59.06
TOP	   49   42	 59.06 C50	 C43	 59.06
BOT	   43   44	 59.84 C44	 C45	 59.84
TOP	   44   43	 59.84 C45	 C44	 59.84
BOT	   43   45	 60.63 C44	 C46	 60.63
TOP	   45   43	 60.63 C46	 C44	 60.63
BOT	   43   46	 98.43 C44	 C47	 98.43
TOP	   46   43	 98.43 C47	 C44	 98.43
BOT	   43   47	 59.06 C44	 C48	 59.06
TOP	   47   43	 59.06 C48	 C44	 59.06
BOT	   43   48	 59.84 C44	 C49	 59.84
TOP	   48   43	 59.84 C49	 C44	 59.84
BOT	   43   49	 62.99 C44	 C50	 62.99
TOP	   49   43	 62.99 C50	 C44	 62.99
BOT	   44   45	 66.14 C45	 C46	 66.14
TOP	   45   44	 66.14 C46	 C45	 66.14
BOT	   44   46	 60.63 C45	 C47	 60.63
TOP	   46   44	 60.63 C47	 C45	 60.63
BOT	   44   47	 66.93 C45	 C48	 66.93
TOP	   47   44	 66.93 C48	 C45	 66.93
BOT	   44   48	 66.93 C45	 C49	 66.93
TOP	   48   44	 66.93 C49	 C45	 66.93
BOT	   44   49	 59.06 C45	 C50	 59.06
TOP	   49   44	 59.06 C50	 C45	 59.06
BOT	   45   46	 60.63 C46	 C47	 60.63
TOP	   46   45	 60.63 C47	 C46	 60.63
BOT	   45   47	 94.49 C46	 C48	 94.49
TOP	   47   45	 94.49 C48	 C46	 94.49
BOT	   45   48	 99.21 C46	 C49	 99.21
TOP	   48   45	 99.21 C49	 C46	 99.21
BOT	   45   49	 57.48 C46	 C50	 57.48
TOP	   49   45	 57.48 C50	 C46	 57.48
BOT	   46   47	 59.06 C47	 C48	 59.06
TOP	   47   46	 59.06 C48	 C47	 59.06
BOT	   46   48	 59.84 C47	 C49	 59.84
TOP	   48   46	 59.84 C49	 C47	 59.84
BOT	   46   49	 62.99 C47	 C50	 62.99
TOP	   49   46	 62.99 C50	 C47	 62.99
BOT	   47   48	 94.49 C48	 C49	 94.49
TOP	   48   47	 94.49 C49	 C48	 94.49
BOT	   47   49	 59.84 C48	 C50	 59.84
TOP	   49   47	 59.84 C50	 C48	 59.84
BOT	   48   49	 58.27 C49	 C50	 58.27
TOP	   49   48	 58.27 C50	 C49	 58.27
AVG	 0	  C1	   *	 69.58
AVG	 1	  C2	   *	 68.02
AVG	 2	  C3	   *	 65.42
AVG	 3	  C4	   *	 68.01
AVG	 4	  C5	   *	 72.59
AVG	 5	  C6	   *	 71.25
AVG	 6	  C7	   *	 71.97
AVG	 7	  C8	   *	 71.67
AVG	 8	  C9	   *	 72.44
AVG	 9	 C10	   *	 72.91
AVG	 10	 C11	   *	 71.62
AVG	 11	 C12	   *	 71.40
AVG	 12	 C13	   *	 64.55
AVG	 13	 C14	   *	 68.02
AVG	 14	 C15	   *	 71.61
AVG	 15	 C16	   *	 72.23
AVG	 16	 C17	   *	 70.21
AVG	 17	 C18	   *	 71.57
AVG	 18	 C19	   *	 71.36
AVG	 19	 C20	   *	 72.44
AVG	 20	 C21	   *	 67.85
AVG	 21	 C22	   *	 71.94
AVG	 22	 C23	   *	 71.61
AVG	 23	 C24	   *	 72.65
AVG	 24	 C25	   *	 71.83
AVG	 25	 C26	   *	 72.51
AVG	 26	 C27	   *	 68.13
AVG	 27	 C28	   *	 71.70
AVG	 28	 C29	   *	 72.81
AVG	 29	 C30	   *	 72.55
AVG	 30	 C31	   *	 71.96
AVG	 31	 C32	   *	 64.34
AVG	 32	 C33	   *	 65.93
AVG	 33	 C34	   *	 65.77
AVG	 34	 C35	   *	 72.25
AVG	 35	 C36	   *	 72.36
AVG	 36	 C37	   *	 72.42
AVG	 37	 C38	   *	 65.37
AVG	 38	 C39	   *	 68.79
AVG	 39	 C40	   *	 68.18
AVG	 40	 C41	   *	 68.76
AVG	 41	 C42	   *	 68.91
AVG	 42	 C43	   *	 68.54
AVG	 43	 C44	   *	 72.28
AVG	 44	 C45	   *	 68.38
AVG	 45	 C46	   *	 72.14
AVG	 46	 C47	   *	 72.44
AVG	 47	 C48	   *	 71.80
AVG	 48	 C49	   *	 72.23
AVG	 49	 C50	   *	 64.81
TOT	 TOT	   *	 70.20
CLUSTAL W (1.83) multiple sequence alignment

C1              AGTGTTTTAGGGGACCTAAAATTAGAAATAGGGAAACTTCCACAACATTT
C2              TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
C3              AGCATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACCTACCT
C4              TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
C5              AGCATCTCAGGTGATCTAATACTAGAAATAGGGAAACTTCCACAACACTT
C6              AGCGTCTCAGGTGATTTAATATTGGAAATAGGGAAACTTCCACAACATCT
C7              TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACATTCAT
C8              TCTCTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACGTTCAT
C9              TCTTTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACTTTCAT
C10             TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
C11             AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
C12             TCCCTAACCCTGAACCTAATCACAGAGATGGGCAGACTCCCAACTTTTAT
C13             AGTATGACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
C14             TCGATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
C15             TCTCTGACCCTGAACCTAATCACAGAAATGGGTAGGCTCCCAACCTTCAT
C16             TCTTTGACCCTGAACCTAATCACAGAAATGGGCAGGCTTCCAACTTTCAT
C17             AGCGTCTCAAGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATCT
C18             AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
C19             TCCTTGACCCTGAACCTAATCACAGAAATGGGAAGGCTTCCAACTTTCAT
C20             AGCGTCTCAGGTGATTTAATATTAGAAATAGGGAAACTTCCACAACACTT
C21             TCAATTGCTCTTGATCTTGTGACAGAGATAGGAAGAGTGCCTTCACACTT
C22             AGTGTTTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
C23             AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAGCTTCCACAACACTT
C24             TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
C25             TCTCTGACCCTGAACCTAATCACAGAAATGGGTAAGCTTCCAACATTCAT
C26             TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
C27             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
C28             AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
C29             TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
C30             TCCTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
C31             AGCGTCTCAGGTGATTTAATATCAGAAATAGGGAAGCTTCCACAACACTT
C32             AGCATAACCCTTGACATCCTAACAGAAATTGCCAGTTTGCCAACGTACCT
C33             AGCATAACTCTTGACATCCTAACAGAGATTGCTACTTTGCCAACTTACCT
C34             AGTATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACTTACCT
C35             TCCCTGACCCTGAGTCTAATCACCGAGATGGGTAGGCTCCCAACCTTCAT
C36             AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACATTT
C37             TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
C38             AGCACAACTCTTGACATCCTAACAGAGATTGCCACTTTGCCAACCTACCT
C39             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
C40             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
C41             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
C42             AGTGTCTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
C43             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
C44             TCCCTCACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
C45             TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
C46             AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
C47             TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
C48             AGTATCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
C49             AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
C50             AGTATAACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
                :           ..  *  :    **.** *  *   * **: .  :  *

C1              GACGATAAAGGCCCGGAATGCCTTGGACAACTTGGTCATGTTGCACAATT
C2              AGCCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C3              TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
C4              AGCCCACAGAACAAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C5              GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
C6              AACGCAAAGGGCCCAGAATGCCTTGGACAATCTGGTTATGCTGCACAACT
C7              GACTCAGAAGACAAGAGACGCACTGGATAACCTAGCAGTGCTGCACACGG
C8              GACCCAGAAGACAAGAGACGCACTGGATAACTTAGCAGTGCTGCACACGG
C9              GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
C10             GACTCAGAAGGCAAGAAACGCACTGGACAACTTGGCTGTGCTGCATACGG
C11             GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
C12             GACTCAGAAGGCCAGAGATGCACTAGACAACTTGGCGGTGTTGCACACGG
C13             TTCCTCCAGGGCCAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
C14             AGCTCACAGAACGAGAAACGCTCTGGACAATCTGGTGATGTTGCACACGT
C15             GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
C16             GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
C17             AACGCAAAGGGCCCAGAATGCTTTGGATAATCTGGTTATGCTGCACAACT
C18             GACGCTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
C19             GACTCAGAAGGCAAGAGACGCATTGGACAACCTGGCAGTGCTGCACACGG
C20             GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
C21             AGCCTACAGAACGAGAAGCGCCCTGGATAATCTGGTGATGTTGCACACAT
C22             GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
C23             GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
C24             GACTCAGAAGGCAAGAAACGCATTGGACAACTTGGCTGTGCTGCATACGG
C25             GACTCAGAAGACAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
C26             GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
C27             AGCCCATAGAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
C28             GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
C29             GACTCAGAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCATACGG
C30             GACTCAGAAGGCAAGAGACGCACTGGATAACCTAGCTGTGCTGCATACGG
C31             GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
C32             TTCCTCTAGAGCTAAGCTTGCCCTTGACAACATAGTCATGCTCCACACAA
C33             TTCCTCTAAGGCCAAGCTAGCCCTTGACAACATAGTCATGCTCCACACAA
C34             TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
C35             GACCCAGAAAGCAAGGAATGCATTGGACAACTTAGCAGTCCTACACACGG
C36             GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
C37             GACCCACAAAGCAATAAATGCACTGGATAACTTAGCAGTCTTGCATACAG
C38             TTCCTCTAAGGCCAAACTAGCCCTTGACAACATAGTCATGCTCCACACAA
C39             AGCCCATAAAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
C40             AGCCCACACAGTACGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C41             AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C42             GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
C43             AGTCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C44             GACTCAGAAAGCAAGGAACGCACTAGACGACTTAGCAGTCCTGCATACGG
C45             AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
C46             GACGCAAAGAGCCCAGAATGCCTTGGACAATCTGGTTATGTTGCACAACT
C47             GACCCAAAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCACACAG
C48             GACGTTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
C49             GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
C50             TTCCTCCAGGGCTAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
                       * ..  . .   **  * ** .*  *.*  .*  * ** *.  

C1              CCGAACAAGGAGGAAAAGCCTATAGACACGCTATGGAAGAACTACCAGAC
C2              CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C3              CAGAAAGAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
C4              CAGAACACGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C5              CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
C6              CTGAACAGGGAGGAAAAGCCTATAGACACGCCATGGAAGAACTACCAGAC
C7              CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C8              CCGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C9              CTGAGGCAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C10             CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C11             CCGAACAAGGAGGAAAAGCCTACAGACATGCTATGGAGGAACTACCAGAC
C12             CTGAAGCGGGTGGAAAGGCATACAATCATGCTCTCAGTGAATTACCGGAG
C13             CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
C14             CAGAACACGGTGGGAGGGCCTACAGGCATGCAGTGGAGGAATTACCAGAA
C15             CTGAGGCAGGTGGAAGGGCGTACAACCATGCTCTCAGTGAACTGCCGGAG
C16             CTGAGGTAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C17             CTGAACAAGGAGGAAAAGCTTATAGACACGCCATGGAAGAATTGCCAGAC
C18             CCGAACAAGGAGGAAAAGCCTATAGACATGCTATGGAGGAACTACCAGAC
C19             CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C20             CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAG
C21             CAGAACACGGCGGGAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C22             CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAACTACCAGAC
C23             CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAATTGCCAGAC
C24             CTGAGGTAGGTGGAAGGGCGTACACTCATGCTCTCAGTGAACTGCCGGAG
C25             CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C26             CTGAGGCAGGTGGAAGGGCGTACAAACATGCTCTCAGTGAACTGCCGGAG
C27             CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
C28             CCGAACAAGGAGGAAAAGCCTACAGACATGCTGTGGAGGAACTACCAGAC
C29             CTGAAGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCAGAG
C30             CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
C31             CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
C32             CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
C33             CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAATGAACTCCCGGAG
C34             CAGAAAGAGGAGGGAGGGCCTATCAACACGCCCTGAACGAACTTCCGGAG
C35             CTGAAGCAGGCGGAAAGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
C36             CTGAACAAGGAGGAAGAGCTTATAGACATGCACTGGAAGAACTGCCAGAC
C37             CTGAAGCAGGCGGAAGGGCGTATAATCATGCTCTTAGTGAACTGCCGGAG
C38             CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
C39             CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
C40             CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C41             CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C42             CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAATTACCAGAC
C43             CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
C44             CTGAGGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
C45             CAGAACATGGCGGTAGGGCCTACAGACATGCAGTTGAGGAACTACCAGAA
C46             CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
C47             CTGAAGCAGGTGGTAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
C48             CCGAACAAGGAGGAAAAGCCTATAGACATGCCATGGAGGAACTACCAGAC
C49             CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
C50             CAGAAAGAGGAGGGAAGGCTTACCAACACGCTCTGAACGAACTCCCAGAG
                * **.   ** ** *..** ** .  ** **  * .. *** * **.** 

C1              ACCATAGAAACATTGATGCGCTTAGGTTTGATAGCTGTGATGACTGGTGG
C2              ACAATGGAAACACTCCTACTCCTGGGACTCATGATCTTATTAACAGGTGG
C3              TCACTGGAAACACTTATGCTTGTAGCTTTACTAGGTGCTATGACAGCAGG
C4              ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAAGTGG
C5              ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C6              ACCATAGAAACGTTAATGCTCCTGGCTTTGATAGCTGTGCTGACTGGTGG
C7              ACCCTAGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACAGGAGG
C8              ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCCACAGTCACGGGAGG
C9              ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
C10             ACCCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
C11             ACTATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
C12             ACCCTGGAGACATTGCTTTTGCTGACACTGTTGGCCACAGTCACGGGAGG
C13             TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
C14             ACAATGGAAACACTTCTACTCCTGGGACTTATGATCCTGTTAACAGGTGG
C15             ACCCTGGAGACATTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
C16             ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
C17             ACCATAGAGACAATAATGCTCCTAGCTCTGATAGCTGTGCTGACTGGCGG
C18             ACCATAGAAACATTGATGCTCCTAGCTTTGATAGCTGCGCTGACTGGTGG
C19             ACCCTGGAGACATTACTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
C20             ACTATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C21             ACAATGGAAACACTCTTACTCCTGGGACTCATGATCCTGTTAACAGGTGG
C22             ACCATAGAAACATTGATGCTACTAGCCTTGATAGCTGTGCTGACTGGTGG
C23             ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTGACTGGTGG
C24             ACTCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
C25             ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
C26             ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
C27             ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
C28             ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
C29             ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
C30             ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
C31             ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C32             TCACTAGAAACACTCATGCTTGTAGCTTTACTAGGAGCTATGACAGCAGG
C33             TCACTGGAAACACTCATGCTTGTAGCCCTACTAGGTGCTTTGACAGCCGG
C34             TCACTGGAAACACTCATGCTTGTAGCTTTGCTAGGTGCTATGACAGCAGG
C35             ACTCTGGAGACATTGCTTTTACTGACACTTTTGGCCACAGTCACAGGCGG
C36             ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C37             ACTCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
C38             TCACTGGAAACACTCATGCTCGTAGCCCTACTAGGTGCTATGACAGCCGG
C39             ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
C40             ACGATGGAAACACTCTTACTCCTGGGACTGATGATCTTGTTAACAGGTGG
C41             ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
C42             ACCATAGAAACATTGATGCTACTGGCTTTGATAGCTGTGCTGACTGGTGG
C43             ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
C44             ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
C45             ACAATGGAAACACTCCTACTCTTGGGACTCATGGTCTTATTAACAGGTGG
C46             ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C47             ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
C48             ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
C49             ACCATAGAAACGTTAATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
C50             TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
                :* .*.**.**. *  *     *..   *  *..      * ** .  **

C1              AGTGACTCTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCAATG
C2              AGTAATGCTTTTCTTGATATCAGGTAAAGGAATTAGAAAGACTTCAATAG
C3              TACCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
C4              AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C5              AGTGACGCTGTTCTTCCTATCAGGAAAGGGCCTAGGGAAAACATCTATCG
C6              GGTGACGTTGTTCTTCCTATCAGGAAGGGGTCTAGGAAAAACATCCATTG
C7              GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
C8              GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTAG
C9              AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
C10             AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
C11             AGCGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
C12             AATCTTCCTATTCCTGATGAGCGGAAGGGGTATGGGGAAGATGACCCTGG
C13             CATCTTCCTATTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
C14             GGTGATGCTTTTCTTGATATCAGGCAAAGGGGTTGGAAAGACTTCAATAG
C15             GATCTTTTTATTCTTGATGAGCGCAAGGGGCATAGGGAAGATGACCCTGG
C16             AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
C17             AGTGACGCTGTTCTTCCTATCAGGAAGAGGCTTAGGGAAAACATCCATAG
C18             AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
C19             AATCTTTTTGTTCTTGATGAGCGGAAGAGGTATAGGGAGGATGCCCTTAG
C20             AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
C21             GGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C22             AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
C23             AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
C24             AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACTCTGG
C25             GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
C26             AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
C27             AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C28             AGTGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
C29             AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
C30             AATTTTCTTATTCTTAATGAGCGGAAAAGGTGTAGGGAAGATGACCCTGG
C31             AGTGACACTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
C32             CATCTTCTTGTTCTTCATGCAAGGAAAAGGAATGGGGAAATTGTCAATGG
C33             TATCTTCCTGTTTTTCATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
C34             TATCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
C35             AATCTTCCTGTTCTTGATGAGCGGAAAGGGTATAGGGAAGATGACCCTGG
C36             AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
C37             AATCTTCCTGTTCTTGATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
C38             TATCTTCCTGTTTTTTATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
C39             AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C40             AGCAATGCTCTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C41             AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C42             AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
C43             AGCAATGCTTTTCCTGATATCAGGTAAAGGAATTGGAAAGACTTCAATAG
C44             AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
C45             AGCACTGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
C46             AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
C47             AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
C48             AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATCG
C49             AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
C50             CATCTTCCTGTTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
                 .      * **  * .*.   *  *..**  * .*.*..:   *  : *

C1              GTCTACTCTGTGTGATGGCCTCAAGCGTACTGCTATGGATGGCCAGTGTG
C2              GACTTATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
C3              GTTTGATAACCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
C4              GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
C5              GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
C6              GCCTACTCTGCGTGATGGCCTCAAGTGCGCTGTTATGGATGGCCAGTGTG
C7              GAATGTGCTGCATAATCACGGCTAGCATCCTTCTATGGTACGCACAGATA
C8              GAATGTGCTGCATAGTCACGGCTAGCATCCTTCTATGGTACGCACAAATA
C9              GAATGTGTTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
C10             GAATGTGTTGCATAATCACGGCTAGCAGCCTCCTATGGTATGCACAGATA
C11             GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
C12             GAACGTGCTGCATAATCACGGCCAGCATCCTCTTATGGTATGCACAAATA
C13             GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTAGCAGAAATC
C14             GACTCATTTGTGTAGTTGCTTCCAGCAGCATGTTATGGATGGCTGATATC
C15             GAATGTGCTGCATAATCACGGCTAGCATCCTCCTATGGTACGCACAAATA
C16             GAATGTGTTGTATAATCACGGCCAGTATCCTCCTATGGTATGCACAGATA
C17             GCCTACTCTGCGTGACGTCCTCAAGTGCACTGTTATGGATGGCCAATGTG
C18             GCCTGCTCTGTGTGATGGCCTCAAGCGCACTGTTATGGATGGCCAATGTG
C19             GAATGTGCTGCATAATCACGGCCAGTATTCTTCTATGGTACGCACAAATA
C20             GCCTACTCTGCGTGATGGCTTCAAGCGCACTGCTATGGATGGCCAGTGTG
C21             GACTCATTTGTGTAGTTGCTTCCAGCGGTATGTTATGGATGGCTGATGTC
C22             GCCTACTTTGTGTAATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
C23             GCTTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
C24             GAATGTGTTGCATAATCACAGCTAGCATTCTCCTATGGTATGCACAGATA
C25             GAATGTGCTGTATAATCACGGCTAGCATCCTTCTATGGTACGCTCAAATA
C26             GAATGTGTTGCATAATCACGGCTAGCATTCTCCTATGGTATGCACAGATA
C27             GACTCATTTGTGTAATTGCTTCCAGTGGCATGTCGTGGATGGCCGAAATC
C28             GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
C29             GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGCATGCACAAATA
C30             GAATGTGCTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
C31             GCCTACTCTGCGTAATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
C32             GTTTGATAGCCATCGCGGTAGCTAGTGGCTTGCTCTGGGTAGCAGAAATC
C33             GTCTGATAGCCATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCAGAAATT
C34             GTTTGATAATCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
C35             GAATGTGCTGCATAGTCACAGCCAGTATTCTTCTATGGTATGCACAAATA
C36             GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
C37             GAATGTGCTGCATAATCACGGCCAGTATTCTCCTATGGTATGCACAAATA
C38             GTCTGATAGCTATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCGGAAATT
C39             GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTGTGGATGGCCGAAATC
C40             GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTATGGATGGCTGATGTC
C41             GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATATC
C42             GCCTACTTTGTGTGATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
C43             GACTCATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
C44             GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
C45             GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
C46             GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
C47             GAATGTGTTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
C48             GCCTACTCTGTGTGACGGCTTCAAGCGCACTGTTGTGGATGGCCAGTGTG
C49             GCCTACTCTGCGTGATGGCTTCAAGCGGACTGCTATGGATGGCCAGTGTG
C50             GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTGGCAGAAATC
                *          .* .      * ** .   *    *** : **  . .* 

C1              GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTCTGATGGT
C2              CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
C3              CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
C4              CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
C5              GAGCCCCATTGGATAGCGGCCTCCATCATTCTGGAGTTCTTCCTGATGGT
C6              GAACCCCATTGGATAGCGGCCTCTATCACACTGGAGTTCTTTCTGATGGT
C7              CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C8              CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C9              CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C10             CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C11             GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
C12             CAACCACATTGGATAGCAGCCTCAATAATATTGGAGTTCTTTCTCATAGT
C13             CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
C14             CCACTCCAATGGATCGCGTCGGCCATAGTTCTGGAGTTTTTTATGATGGT
C15             CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C16             CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTCCTCATAGT
C17             GAGCCCCATTGGATAGCGGCCTCTATTATACTAGAGTTCTTTCTGATGGT
C18             GAGCCACATTGGATAGCGGCCTCCATCATACTAGAATTCTTTCTGATGGT
C19             CAGCCACACTGGATAGCAGCTTCAATAATATTGGAATTTTTTCTCATAGT
C20             GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
C21             CCACTCCAATGGATCGCATCGGCCATAGTCCTGGAGTTTTTTATGATGGT
C22             GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGATGGT
C23             GAGCCCCATTGGATAGCGGCCTCCATCACACTGGAGTTCTTCCTAATGGT
C24             CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C25             CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C26             CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C27             CCACTCCAATGGATCGCGTCGGCTATAGTCTTGGAGTTTTTTATGATGGT
C28             GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTTTTGATGGT
C29             CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C30             CAACCACACTGGATAGCAGCTTCAATAATATTGGAGTTTTTTCTCATGGT
C31             GAGCCCCATTGGATAGCGGCCTCCATTATACTGGAGTTCTTCCTGATGGT
C32             CAGCCCCAGTGGATAGCAGCCTCAATCATATTGGAGTTTTTTCTCATGGC
C33             CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
C34             CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
C35             CAGCCACATTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C36             GAACCCCATTGGATAGCGGCCTCCATCATATTGGAGTTCTTCCTGATGGT
C37             CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C38             CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
C39             CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
C40             CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
C41             CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
C42             GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGAAGGA
C43             CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
C44             CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
C45             CCACTTCAGTGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
C46             GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
C47             CAGCCACACTGGATAGCAGATTCAATAATACTGGAGTTTTTTCTCATAGT
C48             GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
C49             GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
C50             CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
                 ..*  ** *****.**. .  * ** .   *.**.** **  * *:.* 

C1              GCTGCTCATTCCAGAGCCAGATAGACAGCGC
C2              GTTGCTTATACCAGAACCAGAAAAACAAAGA
C3              ACTGTTGATACCGGAACCAGAAAAACAAAGG
C4              GTTGCTCATACCAGAACCAGAAAAACAGAGA
C5              GTTGCTTATTCCAGAGCCAGACAGACAACGC
C6              GTTGCTTATTCCAGAACCGGACAGACAGCGC
C7              TTTGCTTATTCCAGAACCAGAAAAACAGAGA
C8              TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C9              TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C10             TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C11             GCTGCTCATTCCAGAACCAGACAGACAGCGC
C12             CTTGCTCATTCCAGAACCAGAAAAGCAGAGG
C13             GCTGTTGGTACCAGAACCAGAAAAACAAAGG
C14             GCTACTTATACCAGAACCAGAAAAGCAGAGA
C15             TTTGCTTATTCCAGAACCTGAAAAACAGAGA
C16             TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C17             GTTGCTCATTCCAGAGCCAGATAGACAGCGC
C18             GCTGCTCATTCCAGAGCCAGACAGACAGCGC
C19             TCTGCTTATTCCAGAACCAGAAAAGCAGAGA
C20             GCTGCTTATTCCAGAGCCAGACAGACAACGC
C21             GCTACTCATACCAGAACCAGAAAAGCAGAGA
C22             GCTGCTCATTCCAGAGCCAGACAGACAGCGT
C23             GCTGCTTATTCCAGAGCCAGACAGACAACGC
C24             TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C25             TTTGCTTATTCCAGAACCAGAAAAACAGAGA
C26             TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C27             GTTGCTTATACCAGAACCAGAAAAGCAGAGA
C28             GCTGCTCATTCCAGAACCAGACAGACAGCGC
C29             CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
C30             TTTGCTCATTCCAGAACCAGAAAAACAGAGA
C31             GCTGCTTATTCCAGAGCCAGACAGACAACGC
C32             GCTGTTGATACCAGAACCAGAAAAACAAAGG
C33             GCTGTTGATACCAGAACCAGAAAAACAAAGG
C34             ACTGTTGATACCGGAACCAGAAAAACAAAGG
C35             CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
C36             GCTGCTCATTCCAGAGCCAGACAGACAACGC
C37             CTTGCTCATTCCAGAACCAGAAAAACAGAGA
C38             GCTGTTGATACCAGAACCAGAAAAACAAAGG
C39             GTTGCTCATACCAGAACCAGAAAAGCAGAGA
C40             GTTGCTCATACCAGAACCAGAAAAGCAGAGA
C41             GTTGCTCATACCAGAACCAGAAAAACAAAGA
C42             GCTGCTCATTCCAGATGCAGACGGACAGCGT
C43             GTTGCTTATACCAGAACCAGAAAAACAAAGA
C44             CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
C45             GTTGCTCATACCAGAACCAGAAAAACAAAGA
C46             GCTGCTTATTCCAGAGCCAGACAGACAACGC
C47             CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
C48             GCTGCTCATTCCAGAGCCAGACAGACAGCGC
C49             GCTGCTTATTCCAGAGCCAGACAGACAACGC
C50             GCTGTTGGTACCAGAACCAGAAAAACAAAGG
                  *. * .*:**.**  * ** ...**..* 



>C1
AGTGTTTTAGGGGACCTAAAATTAGAAATAGGGAAACTTCCACAACATTT
GACGATAAAGGCCCGGAATGCCTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACACGCTATGGAAGAACTACCAGAC
ACCATAGAAACATTGATGCGCTTAGGTTTGATAGCTGTGATGACTGGTGG
AGTGACTCTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCAATG
GTCTACTCTGTGTGATGGCCTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGATAGACAGCGC
>C2
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCCTGGGACTCATGATCTTATTAACAGGTGG
AGTAATGCTTTTCTTGATATCAGGTAAAGGAATTAGAAAGACTTCAATAG
GACTTATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAACAAAGA
>C3
AGCATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACCTACCT
TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
TCACTGGAAACACTTATGCTTGTAGCTTTACTAGGTGCTATGACAGCAGG
TACCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
GTTTGATAACCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
ACTGTTGATACCGGAACCAGAAAAACAAAGG
>C4
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
AGCCCACAGAACAAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACACGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAAGTGG
AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAGAGA
>C5
AGCATCTCAGGTGATCTAATACTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATTCTGGAGTTCTTCCTGATGGT
GTTGCTTATTCCAGAGCCAGACAGACAACGC
>C6
AGCGTCTCAGGTGATTTAATATTGGAAATAGGGAAACTTCCACAACATCT
AACGCAAAGGGCCCAGAATGCCTTGGACAATCTGGTTATGCTGCACAACT
CTGAACAGGGAGGAAAAGCCTATAGACACGCCATGGAAGAACTACCAGAC
ACCATAGAAACGTTAATGCTCCTGGCTTTGATAGCTGTGCTGACTGGTGG
GGTGACGTTGTTCTTCCTATCAGGAAGGGGTCTAGGAAAAACATCCATTG
GCCTACTCTGCGTGATGGCCTCAAGTGCGCTGTTATGGATGGCCAGTGTG
GAACCCCATTGGATAGCGGCCTCTATCACACTGGAGTTCTTTCTGATGGT
GTTGCTTATTCCAGAACCGGACAGACAGCGC
>C7
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACATTCAT
GACTCAGAAGACAAGAGACGCACTGGATAACCTAGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTAGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACAGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGCATCCTTCTATGGTACGCACAGATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCAGAAAAACAGAGA
>C8
TCTCTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACGTTCAT
GACCCAGAAGACAAGAGACGCACTGGATAACTTAGCAGTGCTGCACACGG
CCGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCCACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTAG
GAATGTGCTGCATAGTCACGGCTAGCATCCTTCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C9
TCTTTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C10
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAAACGCACTGGACAACTTGGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGCAGCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C11
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTACAGACATGCTATGGAGGAACTACCAGAC
ACTATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGCGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAACCAGACAGACAGCGC
>C12
TCCCTAACCCTGAACCTAATCACAGAGATGGGCAGACTCCCAACTTTTAT
GACTCAGAAGGCCAGAGATGCACTAGACAACTTGGCGGTGTTGCACACGG
CTGAAGCGGGTGGAAAGGCATACAATCATGCTCTCAGTGAATTACCGGAG
ACCCTGGAGACATTGCTTTTGCTGACACTGTTGGCCACAGTCACGGGAGG
AATCTTCCTATTCCTGATGAGCGGAAGGGGTATGGGGAAGATGACCCTGG
GAACGTGCTGCATAATCACGGCCAGCATCCTCTTATGGTATGCACAAATA
CAACCACATTGGATAGCAGCCTCAATAATATTGGAGTTCTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGG
>C13
AGTATGACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCCAGGGCCAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
CATCTTCCTATTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTAGCAGAAATC
CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
GCTGTTGGTACCAGAACCAGAAAAACAAAGG
>C14
TCGATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
AGCTCACAGAACGAGAAACGCTCTGGACAATCTGGTGATGTTGCACACGT
CAGAACACGGTGGGAGGGCCTACAGGCATGCAGTGGAGGAATTACCAGAA
ACAATGGAAACACTTCTACTCCTGGGACTTATGATCCTGTTAACAGGTGG
GGTGATGCTTTTCTTGATATCAGGCAAAGGGGTTGGAAAGACTTCAATAG
GACTCATTTGTGTAGTTGCTTCCAGCAGCATGTTATGGATGGCTGATATC
CCACTCCAATGGATCGCGTCGGCCATAGTTCTGGAGTTTTTTATGATGGT
GCTACTTATACCAGAACCAGAAAAGCAGAGA
>C15
TCTCTGACCCTGAACCTAATCACAGAAATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
CTGAGGCAGGTGGAAGGGCGTACAACCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGCAAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGCATCCTCCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCTGAAAAACAGAGA
>C16
TCTTTGACCCTGAACCTAATCACAGAAATGGGCAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGTAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGTATAATCACGGCCAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTCCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C17
AGCGTCTCAAGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATCT
AACGCAAAGGGCCCAGAATGCTTTGGATAATCTGGTTATGCTGCACAACT
CTGAACAAGGAGGAAAAGCTTATAGACACGCCATGGAAGAATTGCCAGAC
ACCATAGAGACAATAATGCTCCTAGCTCTGATAGCTGTGCTGACTGGCGG
AGTGACGCTGTTCTTCCTATCAGGAAGAGGCTTAGGGAAAACATCCATAG
GCCTACTCTGCGTGACGTCCTCAAGTGCACTGTTATGGATGGCCAATGTG
GAGCCCCATTGGATAGCGGCCTCTATTATACTAGAGTTCTTTCTGATGGT
GTTGCTCATTCCAGAGCCAGATAGACAGCGC
>C18
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACATGCTATGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTCCTAGCTTTGATAGCTGCGCTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTGCTCTGTGTGATGGCCTCAAGCGCACTGTTATGGATGGCCAATGTG
GAGCCACATTGGATAGCGGCCTCCATCATACTAGAATTCTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGC
>C19
TCCTTGACCCTGAACCTAATCACAGAAATGGGAAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCATTGGACAACCTGGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACATTACTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
AATCTTTTTGTTCTTGATGAGCGGAAGAGGTATAGGGAGGATGCCCTTAG
GAATGTGCTGCATAATCACGGCCAGTATTCTTCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATATTGGAATTTTTTCTCATAGT
TCTGCTTATTCCAGAACCAGAAAAGCAGAGA
>C20
AGCGTCTCAGGTGATTTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAG
ACTATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGCACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>C21
TCAATTGCTCTTGATCTTGTGACAGAGATAGGAAGAGTGCCTTCACACTT
AGCCTACAGAACGAGAAGCGCCCTGGATAATCTGGTGATGTTGCACACAT
CAGAACACGGCGGGAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCTTACTCCTGGGACTCATGATCCTGTTAACAGGTGG
GGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAGTTGCTTCCAGCGGTATGTTATGGATGGCTGATGTC
CCACTCCAATGGATCGCATCGGCCATAGTCCTGGAGTTTTTTATGATGGT
GCTACTCATACCAGAACCAGAAAAGCAGAGA
>C22
AGTGTTTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAACTACCAGAC
ACCATAGAAACATTGATGCTACTAGCCTTGATAGCTGTGCTGACTGGTGG
AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTACTTTGTGTAATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGT
>C23
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAGCTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAATTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCTTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCACACTGGAGTTCTTCCTAATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>C24
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAAACGCATTGGACAACTTGGCTGTGCTGCATACGG
CTGAGGTAGGTGGAAGGGCGTACACTCATGCTCTCAGTGAACTGCCGGAG
ACTCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACTCTGG
GAATGTGTTGCATAATCACAGCTAGCATTCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C25
TCTCTGACCCTGAACCTAATCACAGAAATGGGTAAGCTTCCAACATTCAT
GACTCAGAAGACAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGTATAATCACGGCTAGCATCCTTCTATGGTACGCTCAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCAGAAAAACAGAGA
>C26
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAAACATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGCATTCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C27
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
AGCCCATAGAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGTGGCATGTCGTGGATGGCCGAAATC
CCACTCCAATGGATCGCGTCGGCTATAGTCTTGGAGTTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAGCAGAGA
>C28
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTACAGACATGCTGTGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAACCAGACAGACAGCGC
>C29
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCATACGG
CTGAAGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCAGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGCATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>C30
TCCTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGATAACCTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
AATTTTCTTATTCTTAATGAGCGGAAAAGGTGTAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATATTGGAGTTTTTTCTCATGGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C31
AGCGTCTCAGGTGATTTAATATCAGAAATAGGGAAGCTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACACTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
GCCTACTCTGCGTAATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATTATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>C32
AGCATAACCCTTGACATCCTAACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCTAGAGCTAAGCTTGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTACTAGGAGCTATGACAGCAGG
CATCTTCTTGTTCTTCATGCAAGGAAAAGGAATGGGGAAATTGTCAATGG
GTTTGATAGCCATCGCGGTAGCTAGTGGCTTGCTCTGGGTAGCAGAAATC
CAGCCCCAGTGGATAGCAGCCTCAATCATATTGGAGTTTTTTCTCATGGC
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>C33
AGCATAACTCTTGACATCCTAACAGAGATTGCTACTTTGCCAACTTACCT
TTCCTCTAAGGCCAAGCTAGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAATGAACTCCCGGAG
TCACTGGAAACACTCATGCTTGTAGCCCTACTAGGTGCTTTGACAGCCGG
TATCTTCCTGTTTTTCATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
GTCTGATAGCCATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCAGAAATT
CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>C34
AGTATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACTTACCT
TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAGGGCCTATCAACACGCCCTGAACGAACTTCCGGAG
TCACTGGAAACACTCATGCTTGTAGCTTTGCTAGGTGCTATGACAGCAGG
TATCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
GTTTGATAATCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
ACTGTTGATACCGGAACCAGAAAAACAAAGG
>C35
TCCCTGACCCTGAGTCTAATCACCGAGATGGGTAGGCTCCCAACCTTCAT
GACCCAGAAAGCAAGGAATGCATTGGACAACTTAGCAGTCCTACACACGG
CTGAAGCAGGCGGAAAGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACTCTGGAGACATTGCTTTTACTGACACTTTTGGCCACAGTCACAGGCGG
AATCTTCCTGTTCTTGATGAGCGGAAAGGGTATAGGGAAGATGACCCTGG
GAATGTGCTGCATAGTCACAGCCAGTATTCTTCTATGGTATGCACAAATA
CAGCCACATTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>C36
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACATTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CTGAACAAGGAGGAAGAGCTTATAGACATGCACTGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAACCCCATTGGATAGCGGCCTCCATCATATTGGAGTTCTTCCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAACGC
>C37
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACCCACAAAGCAATAAATGCACTGGATAACTTAGCAGTCTTGCATACAG
CTGAAGCAGGCGGAAGGGCGTATAATCATGCTCTTAGTGAACTGCCGGAG
ACTCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTGTTCTTGATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTATTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAACAGAGA
>C38
AGCACAACTCTTGACATCCTAACAGAGATTGCCACTTTGCCAACCTACCT
TTCCTCTAAGGCCAAACTAGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
TCACTGGAAACACTCATGCTCGTAGCCCTACTAGGTGCTATGACAGCCGG
TATCTTCCTGTTTTTTATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
GTCTGATAGCTATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCGGAAATT
CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>C39
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
AGCCCATAAAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTGTGGATGGCCGAAATC
CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
GTTGCTCATACCAGAACCAGAAAAGCAGAGA
>C40
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCCCACACAGTACGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACGATGGAAACACTCTTACTCCTGGGACTGATGATCTTGTTAACAGGTGG
AGCAATGCTCTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
GTTGCTCATACCAGAACCAGAAAAGCAGAGA
>C41
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATATC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAAAGA
>C42
AGTGTCTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAATTACCAGAC
ACCATAGAAACATTGATGCTACTGGCTTTGATAGCTGTGCTGACTGGTGG
AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTACTTTGTGTGATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGAAGGA
GCTGCTCATTCCAGATGCAGACGGACAGCGT
>C43
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGTCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
AGCAATGCTTTTCCTGATATCAGGTAAAGGAATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAACAAAGA
>C44
TCCCTCACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAAGCAAGGAACGCACTAGACGACTTAGCAGTCCTGCATACGG
CTGAGGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>C45
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGACATGCAGTTGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGGTCTTATTAACAGGTGG
AGCACTGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
CCACTTCAGTGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAAAGA
>C46
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGAGCCCAGAATGCCTTGGACAATCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>C47
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACCCAAAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCACACAG
CTGAAGCAGGTGGTAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGATTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>C48
AGTATCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGTTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACATGCCATGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATCG
GCCTACTCTGTGTGACGGCTTCAAGCGCACTGTTGTGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGC
>C49
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTAATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGGACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>C50
AGTATAACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCCAGGGCTAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
CAGAAAGAGGAGGGAAGGCTTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
CATCTTCCTGTTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTGGCAGAAATC
CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
GCTGTTGGTACCAGAACCAGAAAAACAAAGG
>C1
SVLGDLKLEIGKLPQHLTIKARNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMRLGLIAVMTGGVTLFFLSGKGLGKTSNGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C2
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGIRKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C3
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGTFLFFMQGKGIGKLSMGLITIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C4
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTSGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C5
SISGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C6
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>C7
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C8
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C9
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C10
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASSLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C11
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGATLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C12
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGMGKMTLGTCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C13
SMTLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR
>C14
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGVGKTSIGLICVVASSSMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C15
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSARGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C16
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEVGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C17
SVSSDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETIMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVTSSSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C18
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAALTGGVTLFFLSGKGLGKTSIGLLCVMASSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C19
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGRMPLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C20
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPE
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C21
SIALDLVTEIGRVPSHLAYRTRSALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVVASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C22
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C23
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>C24
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEVGGRAYTHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C25
SLTLNLITEMGKLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C26
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYKHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C27
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMSWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C28
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAVEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C29
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWHAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C30
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGVGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLMVLLIPEPEKQR
>C31
SVSGDLISEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C32
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGMGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMALLIPEPEKQR
>C33
SITLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGALTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C34
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIIIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C35
SLTLSLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C36
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHALEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C37
SLTLNLITEMGRLPTFMTHKAINALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C38
STTLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>C39
SIALDLVTEIGRVPSHLAHKTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C40
SIALDLVTEIGRVPSHLAHTVRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C41
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C42
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLKELLIPDADGQR
>C43
SIALDLVTEIGRVPSHLVHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C44
SLTLNLITEMGRLPTFMTQKARNALDDLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>C45
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMVLLTGGALLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>C46
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C47
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIADSIILEFFLIVLLIPEPEKQR
>C48
SISGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C49
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSGLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>C50
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR


                            MrBayes v3.2.2 x64

                      (Bayesian Analysis of Phylogeny)

              Distributed under the GNU General Public License


               Type "help" or "help <command>" for information
                     on the commands that are available.

                   Type "about" for authorship and general
                       information about the program.



   Executing file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb"
   UNIX line termination
   Longest line length = 63
   Parsing file
   Expecting NEXUS formatted file
   Reading data block
      Allocated taxon set
      Allocated matrix
      Defining new matrix with 50 taxa and 381 characters
      Missing data coded as ?
      Data matrix is interleaved
      Data is Dna
      Gaps coded as -
      Matching characters coded as .
      Taxon  1 -> C1
      Taxon  2 -> C2
      Taxon  3 -> C3
      Taxon  4 -> C4
      Taxon  5 -> C5
      Taxon  6 -> C6
      Taxon  7 -> C7
      Taxon  8 -> C8
      Taxon  9 -> C9
      Taxon 10 -> C10
      Taxon 11 -> C11
      Taxon 12 -> C12
      Taxon 13 -> C13
      Taxon 14 -> C14
      Taxon 15 -> C15
      Taxon 16 -> C16
      Taxon 17 -> C17
      Taxon 18 -> C18
      Taxon 19 -> C19
      Taxon 20 -> C20
      Taxon 21 -> C21
      Taxon 22 -> C22
      Taxon 23 -> C23
      Taxon 24 -> C24
      Taxon 25 -> C25
      Taxon 26 -> C26
      Taxon 27 -> C27
      Taxon 28 -> C28
      Taxon 29 -> C29
      Taxon 30 -> C30
      Taxon 31 -> C31
      Taxon 32 -> C32
      Taxon 33 -> C33
      Taxon 34 -> C34
      Taxon 35 -> C35
      Taxon 36 -> C36
      Taxon 37 -> C37
      Taxon 38 -> C38
      Taxon 39 -> C39
      Taxon 40 -> C40
      Taxon 41 -> C41
      Taxon 42 -> C42
      Taxon 43 -> C43
      Taxon 44 -> C44
      Taxon 45 -> C45
      Taxon 46 -> C46
      Taxon 47 -> C47
      Taxon 48 -> C48
      Taxon 49 -> C49
      Taxon 50 -> C50
      Successfully read matrix
      Setting default partition (does not divide up characters)
      Setting model defaults
      Seed (for generating default start values) = 1528248154
      Setting output file names to "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run<i>.<p|t>"
   Exiting data block
   Reading mrbayes block
      Setting autoclose to yes
      Setting nowarnings to yes
      Defining charset called first_pos
      Defining charset called second_pos
      Defining charset called third_pos
      Defining partition called by_codon
      Setting by_codon as the partition, dividing characters into 3 parts.
      Setting model defaults
      Seed (for generating default start values) = 1228236507
      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 = 6974038327
      Seed = 1136379713
      Swapseed = 1528248154
      Model settings:

         Settings for partition 1 --
            Datatype  = DNA
            Nucmodel  = 4by4
            Nst       = 6
                        Substitution rates, expressed as proportions
                        of the rate sum, have a Dirichlet prior
                        (1.00,1.00,1.00,1.00,1.00,1.00)
            Covarion  = No
            # States  = 4
                        State frequencies have a Dirichlet prior
                        (1.00,1.00,1.00,1.00)
            Rates     = Invgamma
                        Gamma shape parameter is exponentially
                        distributed with parameter (2.00).
                        Proportion of invariable sites is uniformly dist-
                        ributed on the interval (0.00,1.00).
                        Gamma distribution is approximated using 4 categories.
                        Likelihood summarized over all rate categories in each generation.

         Settings for partition 2 --
            Datatype  = DNA
            Nucmodel  = 4by4
            Nst       = 6
                        Substitution rates, expressed as proportions
                        of the rate sum, have a Dirichlet prior
                        (1.00,1.00,1.00,1.00,1.00,1.00)
            Covarion  = No
            # States  = 4
                        State frequencies have a Dirichlet prior
                        (1.00,1.00,1.00,1.00)
            Rates     = Invgamma
                        Gamma shape parameter is exponentially
                        distributed with parameter (2.00).
                        Proportion of invariable sites is uniformly dist-
                        ributed on the interval (0.00,1.00).
                        Gamma distribution is approximated using 4 categories.
                        Likelihood summarized over all rate categories in each generation.

         Settings for partition 3 --
            Datatype  = DNA
            Nucmodel  = 4by4
            Nst       = 6
                        Substitution rates, expressed as proportions
                        of the rate sum, have a Dirichlet prior
                        (1.00,1.00,1.00,1.00,1.00,1.00)
            Covarion  = No
            # States  = 4
                        State frequencies have a Dirichlet prior
                        (1.00,1.00,1.00,1.00)
            Rates     = Invgamma
                        Gamma shape parameter is exponentially
                        distributed with parameter (2.00).
                        Proportion of invariable sites is uniformly dist-
                        ributed on the interval (0.00,1.00).
                        Gamma distribution is approximated using 4 categories.
                        Likelihood summarized over all rate categories in each generation.

      Active parameters: 

                          Partition(s)
         Parameters       1  2  3
         ------------------------
         Revmat           1  1  1
         Statefreq        2  2  2
         Shape            3  3  4
         Pinvar           5  5  5
         Ratemultiplier   6  6  6
         Topology         7  7  7
         Brlens           8  8  8
         ------------------------

         Parameters can be linked or unlinked across partitions using 'link' and 'unlink'

         1 --  Parameter  = Revmat{all}
               Type       = Rates of reversible rate matrix
               Prior      = Dirichlet(1.00,1.00,1.00,1.00,1.00,1.00)
               Partitions = All

         2 --  Parameter  = Pi{all}
               Type       = Stationary state frequencies
               Prior      = Dirichlet
               Partitions = All

         3 --  Parameter  = Alpha{1,2}
               Type       = Shape of scaled gamma distribution of site rates
               Prior      = Exponential(2.00)
               Partitions = 1 and 2

         4 --  Parameter  = Alpha{3}
               Type       = Shape of scaled gamma distribution of site rates
               Prior      = Exponential(2.00)
               Partition  = 3

         5 --  Parameter  = Pinvar{all}
               Type       = Proportion of invariable sites
               Prior      = Uniform(0.00,1.00)
               Partitions = All

         6 --  Parameter  = Ratemultiplier{all}
               Type       = Partition-specific rate multiplier
               Prior      = Fixed(1.0)
               Partitions = All

         7 --  Parameter  = Tau{all}
               Type       = Topology
               Prior      = All topologies equally probable a priori
               Partitions = All
               Subparam.  = V{all}

         8 --  Parameter  = V{all}
               Type       = Branch lengths
               Prior      = Unconstrained:Exponential(10.0)
               Partitions = All



      The MCMC sampler will use the following moves:
         With prob.  Chain will use move
            1.06 %   Dirichlet(Revmat{all})
            1.06 %   Slider(Revmat{all})
            1.06 %   Dirichlet(Pi{all})
            1.06 %   Slider(Pi{all})
            2.13 %   Multiplier(Alpha{1,2})
            2.13 %   Multiplier(Alpha{3})
            2.13 %   Slider(Pinvar{all})
           10.64 %   ExtSPR(Tau{all},V{all})
           10.64 %   ExtTBR(Tau{all},V{all})
           10.64 %   NNI(Tau{all},V{all})
           10.64 %   ParsSPR(Tau{all},V{all})
           31.91 %   Multiplier(V{all})
           10.64 %   Nodeslider(V{all})
            4.26 %   TLMultiplier(V{all})

      Division 1 has 76 unique site patterns
      Division 2 has 53 unique site patterns
      Division 3 has 125 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 -- -15056.093200 -- -77.118119
         Chain 2 -- -15331.165866 -- -77.118119
         Chain 3 -- -15204.771085 -- -77.118119
         Chain 4 -- -14761.086114 -- -77.118119

      Initial log likelihoods and log prior probs for run 2:
         Chain 1 -- -14044.808055 -- -77.118119
         Chain 2 -- -14877.488999 -- -77.118119
         Chain 3 -- -14730.364342 -- -77.118119
         Chain 4 -- -15806.089928 -- -77.118119


      Using a relative burnin of 25.0 % for diagnostics

      Chain results (1000000 generations requested):

          0 -- [-15056.093] (-15331.166) (-15204.771) (-14761.086) * [-14044.808] (-14877.489) (-14730.364) (-15806.090) 
        500 -- (-8670.706) (-7790.878) [-7085.644] (-8298.523) * (-8224.398) (-8295.329) [-7687.205] (-8365.382) -- 0:33:19
       1000 -- (-5269.565) [-5109.386] (-5393.665) (-6118.570) * (-6034.151) (-5491.483) [-4789.884] (-5928.407) -- 0:16:39
       1500 -- (-4852.915) [-4741.957] (-4777.130) (-5301.209) * (-4729.034) (-4867.038) [-4485.288] (-5071.155) -- 0:22:11
       2000 -- (-4561.294) [-4524.343] (-4622.214) (-4535.671) * (-4535.492) (-4633.117) [-4383.215] (-4529.335) -- 0:24:57
       2500 -- (-4430.425) (-4355.032) (-4460.442) [-4364.522] * (-4429.181) (-4440.923) [-4336.025] (-4408.657) -- 0:19:57
       3000 -- (-4357.508) (-4317.114) (-4411.202) [-4314.092] * (-4347.398) (-4412.851) [-4300.482] (-4342.119) -- 0:22:09
       3500 -- (-4304.340) [-4279.706] (-4328.060) (-4281.542) * (-4284.995) (-4383.244) [-4266.352] (-4320.797) -- 0:23:43
       4000 -- (-4266.174) [-4214.461] (-4316.824) (-4256.122) * [-4242.181] (-4290.910) (-4250.304) (-4286.245) -- 0:24:54
       4500 -- (-4250.131) [-4223.247] (-4273.745) (-4257.058) * (-4242.032) (-4251.334) [-4243.242] (-4285.191) -- 0:22:07
       5000 -- (-4240.134) [-4219.904] (-4248.642) (-4255.233) * (-4219.187) (-4262.809) [-4216.112] (-4267.166) -- 0:23:13

      Average standard deviation of split frequencies: 0.095913

       5500 -- (-4245.908) [-4212.379] (-4242.523) (-4246.660) * (-4215.472) (-4238.961) [-4219.620] (-4264.678) -- 0:24:06
       6000 -- (-4240.254) [-4213.252] (-4237.529) (-4236.980) * [-4222.447] (-4241.842) (-4231.391) (-4249.969) -- 0:22:05
       6500 -- (-4230.957) [-4209.009] (-4223.664) (-4237.467) * [-4206.588] (-4249.644) (-4235.723) (-4232.152) -- 0:22:55
       7000 -- (-4237.087) (-4226.185) (-4229.679) [-4226.810] * [-4205.277] (-4247.498) (-4243.737) (-4225.704) -- 0:23:38
       7500 -- (-4245.116) [-4215.718] (-4223.088) (-4236.851) * (-4197.589) (-4229.005) (-4230.399) [-4225.052] -- 0:24:15
       8000 -- (-4243.984) [-4203.428] (-4222.801) (-4236.788) * (-4223.745) (-4239.102) [-4219.252] (-4228.018) -- 0:22:44
       8500 -- (-4231.742) [-4202.120] (-4224.149) (-4253.922) * [-4224.626] (-4222.071) (-4226.849) (-4227.570) -- 0:23:19
       9000 -- (-4232.180) [-4218.783] (-4213.775) (-4249.440) * (-4227.115) (-4216.370) (-4217.977) [-4199.708] -- 0:23:51
       9500 -- [-4234.273] (-4208.915) (-4238.820) (-4248.771) * [-4215.991] (-4221.722) (-4224.454) (-4213.105) -- 0:22:35
      10000 -- [-4224.625] (-4212.935) (-4243.174) (-4233.307) * (-4200.003) (-4238.537) (-4221.123) [-4209.119] -- 0:23:06

      Average standard deviation of split frequencies: 0.095281

      10500 -- (-4223.030) [-4217.536] (-4239.871) (-4247.123) * (-4221.121) (-4251.055) [-4217.026] (-4226.866) -- 0:23:33
      11000 -- (-4227.684) [-4202.829] (-4257.409) (-4258.780) * (-4235.071) (-4233.857) [-4217.392] (-4226.423) -- 0:23:58
      11500 -- (-4228.183) [-4204.853] (-4230.547) (-4236.241) * (-4239.527) (-4235.685) (-4219.158) [-4218.289] -- 0:24:21
      12000 -- (-4231.124) [-4206.771] (-4218.580) (-4224.338) * (-4227.797) (-4230.253) (-4216.832) [-4217.416] -- 0:23:19
      12500 -- (-4230.781) [-4197.124] (-4219.549) (-4214.467) * (-4230.362) (-4230.467) [-4215.241] (-4224.488) -- 0:23:42
      13000 -- (-4219.883) [-4200.534] (-4221.825) (-4242.042) * (-4227.095) (-4229.004) (-4220.301) [-4221.365] -- 0:24:02
      13500 -- [-4225.323] (-4205.164) (-4240.177) (-4226.614) * [-4214.262] (-4217.963) (-4254.116) (-4233.366) -- 0:24:21
      14000 -- (-4244.913) [-4205.721] (-4243.040) (-4237.076) * [-4216.935] (-4221.137) (-4247.879) (-4229.966) -- 0:23:28
      14500 -- (-4253.466) [-4207.415] (-4222.160) (-4248.528) * (-4217.690) [-4210.932] (-4227.542) (-4224.970) -- 0:23:47
      15000 -- (-4241.137) [-4209.337] (-4215.853) (-4229.301) * (-4230.413) [-4213.328] (-4219.884) (-4220.556) -- 0:24:04

      Average standard deviation of split frequencies: 0.088388

      15500 -- (-4241.087) (-4219.246) (-4228.139) [-4212.217] * (-4242.471) [-4216.839] (-4235.112) (-4229.418) -- 0:24:20
      16000 -- (-4232.513) (-4234.494) (-4216.339) [-4225.403] * (-4234.169) (-4222.079) (-4221.185) [-4211.063] -- 0:23:34
      16500 -- (-4230.030) (-4209.351) (-4227.314) [-4221.452] * (-4252.552) [-4224.531] (-4239.488) (-4224.389) -- 0:23:50
      17000 -- (-4224.290) (-4211.251) (-4240.174) [-4223.178] * (-4238.839) (-4230.847) [-4236.579] (-4227.352) -- 0:24:05
      17500 -- (-4217.461) (-4237.389) (-4233.209) [-4214.370] * (-4240.578) [-4222.191] (-4228.935) (-4250.747) -- 0:24:19
      18000 -- (-4229.154) (-4244.218) (-4242.080) [-4205.794] * (-4234.129) (-4216.828) [-4214.100] (-4252.478) -- 0:23:38
      18500 -- (-4226.159) (-4231.424) (-4244.847) [-4198.138] * (-4235.130) (-4214.895) [-4206.150] (-4245.755) -- 0:23:52
      19000 -- (-4224.467) (-4219.803) (-4244.525) [-4192.408] * (-4253.175) [-4219.772] (-4217.150) (-4221.179) -- 0:24:05
      19500 -- [-4219.227] (-4231.327) (-4238.789) (-4206.592) * (-4238.875) (-4232.113) (-4209.644) [-4201.842] -- 0:24:18
      20000 -- (-4245.247) [-4220.803] (-4215.845) (-4219.399) * (-4229.358) (-4236.493) (-4235.473) [-4207.297] -- 0:23:41

      Average standard deviation of split frequencies: 0.079835

      20500 -- (-4228.601) (-4225.277) (-4236.038) [-4229.337] * (-4243.513) (-4237.122) (-4227.712) [-4207.477] -- 0:23:53
      21000 -- (-4237.143) (-4234.023) (-4247.219) [-4217.541] * (-4227.542) [-4218.610] (-4243.577) (-4226.207) -- 0:24:05
      21500 -- (-4222.972) (-4241.859) (-4252.487) [-4210.755] * (-4229.381) [-4215.043] (-4224.873) (-4224.095) -- 0:23:30
      22000 -- (-4232.288) (-4239.910) (-4229.095) [-4208.352] * (-4224.114) (-4225.085) [-4227.357] (-4218.360) -- 0:23:42
      22500 -- (-4261.114) (-4233.225) [-4202.387] (-4208.374) * (-4232.262) (-4207.643) (-4227.596) [-4227.385] -- 0:23:53
      23000 -- (-4253.639) (-4217.591) (-4211.944) [-4206.496] * (-4236.633) (-4218.824) (-4236.357) [-4227.566] -- 0:24:04
      23500 -- (-4231.254) (-4255.132) [-4213.429] (-4226.575) * (-4232.986) [-4215.890] (-4214.264) (-4220.136) -- 0:23:32
      24000 -- (-4223.477) (-4244.957) [-4219.048] (-4218.850) * (-4231.291) (-4214.549) [-4217.921] (-4249.552) -- 0:23:43
      24500 -- [-4225.603] (-4239.952) (-4229.683) (-4213.446) * [-4223.740] (-4212.948) (-4221.433) (-4234.466) -- 0:23:53
      25000 -- [-4224.379] (-4220.693) (-4236.412) (-4205.892) * [-4224.655] (-4230.780) (-4240.770) (-4238.713) -- 0:23:24

      Average standard deviation of split frequencies: 0.066420

      25500 -- (-4220.689) (-4213.750) (-4225.634) [-4205.547] * (-4232.986) (-4237.080) [-4222.145] (-4225.910) -- 0:23:33
      26000 -- [-4219.683] (-4215.982) (-4239.871) (-4226.927) * (-4234.030) (-4226.164) (-4220.085) [-4235.974] -- 0:23:43
      26500 -- [-4210.743] (-4225.094) (-4238.309) (-4255.034) * [-4212.567] (-4236.850) (-4218.771) (-4226.338) -- 0:23:52
      27000 -- [-4213.182] (-4214.448) (-4231.904) (-4241.500) * (-4238.236) (-4234.899) (-4207.071) [-4224.418] -- 0:24:01
      27500 -- [-4217.870] (-4219.822) (-4233.371) (-4250.440) * (-4236.218) (-4220.928) [-4224.210] (-4230.099) -- 0:23:34
      28000 -- (-4219.361) [-4221.482] (-4224.689) (-4247.964) * [-4220.193] (-4211.115) (-4242.809) (-4253.048) -- 0:23:43
      28500 -- (-4206.319) [-4222.259] (-4218.889) (-4206.828) * (-4230.809) (-4239.451) [-4214.986] (-4235.019) -- 0:23:51
      29000 -- [-4206.595] (-4221.477) (-4222.960) (-4215.321) * (-4237.218) (-4226.241) (-4229.809) [-4230.389] -- 0:23:26
      29500 -- (-4220.286) (-4261.355) [-4211.739] (-4214.104) * (-4242.360) [-4220.256] (-4260.070) (-4227.516) -- 0:23:34
      30000 -- (-4221.095) (-4264.304) (-4218.677) [-4197.351] * (-4239.038) (-4215.548) (-4243.624) [-4214.989] -- 0:23:42

      Average standard deviation of split frequencies: 0.053802

      30500 -- (-4226.642) (-4268.880) (-4224.972) [-4199.218] * (-4245.786) (-4217.275) (-4212.057) [-4221.019] -- 0:23:50
      31000 -- (-4232.757) (-4248.762) (-4228.233) [-4210.326] * (-4253.017) (-4227.020) (-4212.834) [-4211.619] -- 0:23:26
      31500 -- [-4212.263] (-4231.031) (-4231.969) (-4212.279) * (-4228.518) (-4212.620) [-4205.820] (-4229.392) -- 0:23:34
      32000 -- (-4224.314) [-4207.052] (-4218.813) (-4221.249) * (-4234.877) [-4207.372] (-4214.549) (-4232.585) -- 0:23:41
      32500 -- (-4216.672) [-4205.096] (-4231.725) (-4205.551) * (-4236.553) (-4222.365) [-4215.890] (-4236.877) -- 0:23:19
      33000 -- (-4219.524) [-4207.511] (-4236.060) (-4217.554) * (-4240.811) [-4226.431] (-4221.292) (-4232.992) -- 0:23:26
      33500 -- (-4223.001) (-4225.472) (-4206.006) [-4236.303] * (-4226.878) [-4215.924] (-4207.905) (-4216.747) -- 0:23:33
      34000 -- (-4222.365) (-4217.234) [-4208.098] (-4219.192) * (-4242.546) [-4207.827] (-4231.079) (-4244.593) -- 0:23:40
      34500 -- (-4214.176) (-4230.095) [-4208.978] (-4225.522) * (-4223.268) [-4207.243] (-4211.955) (-4235.156) -- 0:23:19
      35000 -- (-4216.444) (-4224.215) [-4206.873] (-4238.027) * [-4221.754] (-4236.180) (-4221.495) (-4227.274) -- 0:23:26

      Average standard deviation of split frequencies: 0.042454

      35500 -- (-4213.500) (-4223.675) [-4202.072] (-4252.464) * (-4219.788) (-4239.411) [-4223.592] (-4242.832) -- 0:23:32
      36000 -- [-4212.354] (-4225.166) (-4226.626) (-4278.962) * [-4232.875] (-4238.711) (-4206.399) (-4235.992) -- 0:23:12
      36500 -- [-4206.015] (-4228.521) (-4236.090) (-4254.007) * [-4223.279] (-4239.235) (-4221.943) (-4224.719) -- 0:23:19
      37000 -- [-4202.900] (-4223.898) (-4247.980) (-4235.737) * (-4232.074) (-4239.368) [-4228.524] (-4238.438) -- 0:23:25
      37500 -- (-4216.773) (-4227.799) [-4224.943] (-4240.870) * (-4230.124) (-4220.413) [-4214.234] (-4220.134) -- 0:23:06
      38000 -- [-4224.404] (-4230.709) (-4204.016) (-4227.364) * [-4217.002] (-4227.430) (-4214.966) (-4230.470) -- 0:23:12
      38500 -- [-4208.944] (-4221.832) (-4205.823) (-4222.999) * (-4219.597) (-4224.862) (-4225.028) [-4220.308] -- 0:23:18
      39000 -- (-4213.726) [-4209.392] (-4222.506) (-4219.837) * (-4221.508) (-4220.016) (-4214.867) [-4227.622] -- 0:23:24
      39500 -- (-4217.881) (-4228.616) (-4240.844) [-4194.717] * (-4223.383) (-4232.618) [-4213.652] (-4237.663) -- 0:23:06
      40000 -- (-4224.981) (-4237.092) (-4232.893) [-4211.455] * [-4219.034] (-4242.674) (-4223.814) (-4216.708) -- 0:23:12

      Average standard deviation of split frequencies: 0.039438

      40500 -- (-4232.650) (-4226.102) (-4222.722) [-4203.562] * (-4231.649) (-4258.999) (-4219.220) [-4211.850] -- 0:23:17
      41000 -- (-4229.747) (-4215.091) (-4239.042) [-4207.604] * (-4227.283) (-4261.995) (-4218.217) [-4220.691] -- 0:23:23
      41500 -- (-4220.132) (-4212.420) (-4225.612) [-4215.300] * (-4226.220) (-4247.588) [-4211.672] (-4220.856) -- 0:23:05
      42000 -- (-4218.976) (-4227.195) (-4227.572) [-4211.907] * (-4229.175) (-4236.850) [-4203.114] (-4225.414) -- 0:23:11
      42500 -- (-4216.677) (-4237.896) (-4223.881) [-4213.771] * (-4245.934) (-4238.264) [-4200.170] (-4225.574) -- 0:23:16
      43000 -- (-4215.542) [-4220.479] (-4230.051) (-4216.230) * (-4244.653) (-4227.489) [-4199.770] (-4224.532) -- 0:23:22
      43500 -- (-4223.107) (-4213.915) (-4221.771) [-4220.711] * (-4267.740) (-4232.737) [-4203.551] (-4237.963) -- 0:23:05
      44000 -- (-4234.153) [-4191.295] (-4224.699) (-4233.353) * (-4234.369) (-4229.850) [-4208.180] (-4223.556) -- 0:23:10
      44500 -- (-4219.253) [-4202.252] (-4222.126) (-4243.291) * (-4234.516) (-4231.764) [-4215.436] (-4238.882) -- 0:23:15
      45000 -- [-4213.440] (-4204.156) (-4229.177) (-4240.954) * (-4217.971) (-4243.021) [-4207.616] (-4244.526) -- 0:22:59

      Average standard deviation of split frequencies: 0.041305

      45500 -- (-4233.487) [-4206.814] (-4233.293) (-4229.246) * (-4212.006) (-4230.059) [-4223.034] (-4257.865) -- 0:23:04
      46000 -- (-4227.471) [-4203.465] (-4248.170) (-4232.487) * (-4215.386) [-4210.182] (-4230.938) (-4237.114) -- 0:23:09
      46500 -- [-4221.717] (-4216.467) (-4241.646) (-4238.470) * (-4228.413) [-4210.793] (-4234.711) (-4256.832) -- 0:22:53
      47000 -- (-4219.871) (-4227.417) [-4230.011] (-4243.811) * (-4224.128) (-4211.785) [-4213.778] (-4241.050) -- 0:22:58
      47500 -- (-4228.404) [-4214.200] (-4226.939) (-4250.666) * (-4233.168) (-4211.124) [-4216.648] (-4247.854) -- 0:23:03
      48000 -- (-4238.134) (-4213.781) [-4241.106] (-4237.704) * (-4233.367) [-4208.926] (-4227.180) (-4248.997) -- 0:22:48
      48500 -- (-4235.640) [-4205.631] (-4233.188) (-4241.852) * (-4240.217) (-4211.919) [-4196.900] (-4231.634) -- 0:22:53
      49000 -- (-4229.673) [-4206.266] (-4239.085) (-4230.096) * (-4238.497) (-4222.637) [-4209.507] (-4244.378) -- 0:22:57
      49500 -- (-4226.809) [-4204.271] (-4250.013) (-4238.494) * (-4245.121) [-4213.157] (-4210.548) (-4246.612) -- 0:22:43
      50000 -- (-4236.433) [-4198.055] (-4243.137) (-4245.216) * (-4246.063) [-4217.038] (-4216.623) (-4231.760) -- 0:22:48

      Average standard deviation of split frequencies: 0.040824

      50500 -- (-4235.280) [-4205.490] (-4225.466) (-4223.424) * (-4232.139) [-4234.578] (-4212.860) (-4223.467) -- 0:22:52
      51000 -- (-4228.864) (-4207.362) [-4227.421] (-4233.790) * (-4241.199) (-4232.804) [-4219.445] (-4221.780) -- 0:22:38
      51500 -- [-4227.324] (-4211.734) (-4233.385) (-4228.707) * (-4233.176) (-4227.453) [-4220.237] (-4202.186) -- 0:22:42
      52000 -- (-4239.672) [-4205.475] (-4236.409) (-4222.462) * [-4225.450] (-4231.335) (-4219.816) (-4203.603) -- 0:22:47
      52500 -- (-4233.559) (-4200.276) (-4228.027) [-4207.628] * (-4239.975) (-4230.565) (-4237.489) [-4203.038] -- 0:22:51
      53000 -- (-4221.991) (-4234.437) [-4227.289] (-4220.534) * (-4221.431) (-4233.545) (-4235.683) [-4217.521] -- 0:22:37
      53500 -- (-4223.906) [-4218.248] (-4215.891) (-4213.660) * (-4231.268) (-4235.779) (-4242.926) [-4219.594] -- 0:22:42
      54000 -- (-4215.750) (-4242.525) [-4217.008] (-4221.705) * (-4227.267) (-4237.503) (-4241.717) [-4218.474] -- 0:22:46
      54500 -- [-4209.580] (-4245.765) (-4225.440) (-4226.225) * (-4226.634) [-4230.519] (-4256.993) (-4209.742) -- 0:22:33
      55000 -- (-4233.598) (-4223.956) (-4233.587) [-4207.506] * (-4226.431) (-4232.311) (-4242.594) [-4208.289] -- 0:22:37

      Average standard deviation of split frequencies: 0.041037

      55500 -- (-4237.238) [-4213.729] (-4237.947) (-4219.359) * (-4215.180) (-4235.709) (-4257.369) [-4213.034] -- 0:22:41
      56000 -- (-4233.215) [-4207.265] (-4205.416) (-4239.259) * (-4213.022) (-4238.607) (-4224.840) [-4221.556] -- 0:22:45
      56500 -- (-4235.929) (-4212.911) [-4211.570] (-4236.625) * [-4218.384] (-4256.383) (-4229.065) (-4215.147) -- 0:22:32
      57000 -- (-4220.128) (-4218.467) [-4217.464] (-4230.137) * (-4220.593) (-4234.868) (-4225.381) [-4206.736] -- 0:22:36
      57500 -- [-4226.201] (-4226.740) (-4229.221) (-4231.357) * (-4217.838) (-4225.748) (-4233.328) [-4214.208] -- 0:22:40
      58000 -- [-4213.447] (-4230.315) (-4226.328) (-4225.678) * (-4229.751) [-4211.136] (-4219.897) (-4228.626) -- 0:22:44
      58500 -- (-4220.955) [-4205.355] (-4235.317) (-4227.788) * [-4234.914] (-4220.617) (-4220.090) (-4224.112) -- 0:22:31
      59000 -- (-4218.757) (-4215.969) [-4229.443] (-4229.011) * (-4246.692) (-4223.503) [-4215.995] (-4239.366) -- 0:22:35
      59500 -- (-4235.286) [-4220.010] (-4237.204) (-4221.790) * (-4230.698) (-4236.325) [-4210.545] (-4248.436) -- 0:22:39
      60000 -- (-4237.543) (-4227.601) (-4225.371) [-4218.199] * (-4232.044) (-4234.187) [-4220.793] (-4247.638) -- 0:22:27

      Average standard deviation of split frequencies: 0.040134

      60500 -- (-4230.093) (-4226.467) (-4218.719) [-4208.681] * [-4240.266] (-4219.476) (-4231.019) (-4242.676) -- 0:22:31
      61000 -- (-4233.578) (-4235.191) (-4233.121) [-4208.078] * (-4223.317) [-4215.007] (-4228.547) (-4226.778) -- 0:22:34
      61500 -- (-4221.900) (-4223.840) [-4221.765] (-4221.239) * (-4218.128) (-4215.952) (-4252.248) [-4225.291] -- 0:22:22
      62000 -- [-4217.237] (-4230.620) (-4223.728) (-4211.400) * (-4228.027) [-4223.892] (-4239.354) (-4227.660) -- 0:22:26
      62500 -- (-4223.017) (-4214.681) (-4227.269) [-4211.424] * (-4219.383) [-4220.398] (-4238.301) (-4245.877) -- 0:22:30
      63000 -- (-4225.396) [-4212.954] (-4217.887) (-4212.997) * (-4222.925) [-4229.524] (-4263.646) (-4253.854) -- 0:22:33
      63500 -- (-4220.043) [-4211.965] (-4223.087) (-4215.907) * (-4236.430) [-4221.023] (-4244.380) (-4259.072) -- 0:22:22
      64000 -- (-4235.419) (-4223.417) (-4212.660) [-4214.112] * (-4241.282) [-4208.492] (-4241.131) (-4239.385) -- 0:22:25
      64500 -- (-4245.880) (-4236.738) [-4205.803] (-4219.728) * (-4224.412) [-4202.412] (-4232.498) (-4242.081) -- 0:22:28
      65000 -- (-4230.586) (-4231.116) [-4217.278] (-4223.885) * (-4216.860) (-4212.788) [-4205.159] (-4247.893) -- 0:22:17

      Average standard deviation of split frequencies: 0.040231

      65500 -- (-4221.968) (-4226.085) (-4221.824) [-4222.597] * (-4223.229) [-4208.283] (-4217.779) (-4243.273) -- 0:22:21
      66000 -- (-4219.855) [-4213.962] (-4227.510) (-4237.085) * (-4220.294) [-4213.702] (-4217.968) (-4236.500) -- 0:22:24
      66500 -- (-4241.055) [-4211.729] (-4234.628) (-4230.460) * (-4232.836) [-4221.117] (-4224.916) (-4236.156) -- 0:22:27
      67000 -- [-4227.105] (-4224.252) (-4235.216) (-4239.688) * (-4224.996) (-4228.615) [-4214.887] (-4239.873) -- 0:22:16
      67500 -- [-4223.406] (-4222.439) (-4231.701) (-4233.243) * (-4238.803) (-4233.945) [-4218.861] (-4233.121) -- 0:22:20
      68000 -- (-4216.798) [-4222.496] (-4235.402) (-4229.099) * (-4242.392) (-4233.084) (-4213.998) [-4236.147] -- 0:22:23
      68500 -- [-4217.176] (-4234.797) (-4236.535) (-4226.093) * [-4235.516] (-4235.482) (-4211.811) (-4251.158) -- 0:22:12
      69000 -- (-4217.573) (-4215.023) (-4230.057) [-4223.845] * [-4219.366] (-4240.012) (-4234.795) (-4226.152) -- 0:22:15
      69500 -- (-4220.705) [-4217.857] (-4225.272) (-4230.406) * (-4243.168) (-4236.299) (-4225.997) [-4217.780] -- 0:22:18
      70000 -- (-4220.025) (-4225.924) [-4213.636] (-4207.429) * (-4244.978) (-4243.152) (-4240.352) [-4230.664] -- 0:22:08

      Average standard deviation of split frequencies: 0.041515

      70500 -- (-4209.229) (-4219.371) [-4224.360] (-4233.504) * (-4230.663) (-4241.485) [-4223.524] (-4242.975) -- 0:22:11
      71000 -- (-4211.024) [-4229.290] (-4210.464) (-4252.135) * (-4240.418) [-4224.000] (-4219.638) (-4249.129) -- 0:22:14
      71500 -- (-4207.937) (-4219.249) [-4207.873] (-4229.658) * (-4227.947) (-4211.924) [-4208.755] (-4246.933) -- 0:22:04
      72000 -- [-4208.617] (-4232.480) (-4209.892) (-4230.291) * (-4234.882) (-4225.533) [-4211.489] (-4226.503) -- 0:22:07
      72500 -- [-4200.739] (-4226.550) (-4202.403) (-4235.501) * (-4230.037) (-4219.379) [-4208.822] (-4250.954) -- 0:22:10
      73000 -- [-4203.997] (-4235.385) (-4217.805) (-4230.047) * (-4216.867) (-4227.724) [-4207.574] (-4240.853) -- 0:22:13
      73500 -- (-4224.629) (-4224.341) [-4211.135] (-4229.575) * (-4215.491) (-4218.955) [-4216.508] (-4230.466) -- 0:22:03
      74000 -- (-4229.684) (-4230.075) [-4218.524] (-4242.115) * (-4228.055) (-4226.349) [-4210.699] (-4238.558) -- 0:22:06
      74500 -- (-4204.207) [-4212.298] (-4228.120) (-4223.586) * (-4237.700) [-4218.287] (-4224.396) (-4245.662) -- 0:22:09
      75000 -- (-4224.668) [-4213.651] (-4231.917) (-4233.802) * (-4228.458) [-4211.719] (-4228.617) (-4235.045) -- 0:22:12

      Average standard deviation of split frequencies: 0.046256

      75500 -- (-4221.459) [-4211.955] (-4240.312) (-4218.010) * (-4231.565) (-4233.425) (-4247.235) [-4211.442] -- 0:22:02
      76000 -- [-4224.691] (-4224.576) (-4229.277) (-4229.052) * (-4234.093) (-4231.962) (-4241.860) [-4213.605] -- 0:22:05
      76500 -- (-4240.869) (-4211.114) (-4249.191) [-4213.454] * (-4232.875) (-4227.271) (-4229.130) [-4197.776] -- 0:22:07
      77000 -- (-4239.411) [-4214.639] (-4244.724) (-4214.643) * [-4228.292] (-4245.692) (-4232.445) (-4207.562) -- 0:22:10
      77500 -- (-4247.979) [-4210.018] (-4239.046) (-4220.784) * [-4217.590] (-4234.787) (-4236.559) (-4223.898) -- 0:22:01
      78000 -- (-4255.074) [-4202.078] (-4238.507) (-4223.089) * [-4227.639] (-4228.367) (-4226.973) (-4220.302) -- 0:22:03
      78500 -- (-4237.849) [-4216.055] (-4227.784) (-4230.244) * (-4238.612) [-4225.773] (-4238.652) (-4224.578) -- 0:22:06
      79000 -- (-4246.728) [-4225.317] (-4226.603) (-4205.966) * [-4203.498] (-4232.779) (-4228.359) (-4223.335) -- 0:22:09
      79500 -- (-4229.877) (-4245.609) (-4222.328) [-4224.639] * [-4210.850] (-4228.220) (-4224.834) (-4231.741) -- 0:21:59
      80000 -- (-4229.952) (-4244.047) (-4222.283) [-4211.829] * [-4210.265] (-4222.448) (-4239.812) (-4256.718) -- 0:22:02

      Average standard deviation of split frequencies: 0.043705

      80500 -- [-4217.486] (-4230.554) (-4226.017) (-4219.921) * [-4201.512] (-4219.129) (-4224.923) (-4244.892) -- 0:22:04
      81000 -- [-4202.585] (-4226.133) (-4231.345) (-4222.761) * (-4208.493) [-4204.946] (-4226.108) (-4248.251) -- 0:22:07
      81500 -- (-4215.159) (-4245.056) (-4237.233) [-4225.575] * [-4215.398] (-4222.874) (-4219.845) (-4249.912) -- 0:21:58
      82000 -- (-4215.796) [-4233.596] (-4245.331) (-4227.453) * [-4220.087] (-4222.995) (-4230.678) (-4239.477) -- 0:22:01
      82500 -- (-4228.615) (-4230.438) (-4259.375) [-4209.612] * (-4230.256) (-4212.896) [-4226.762] (-4239.575) -- 0:22:03
      83000 -- (-4236.852) (-4222.866) (-4265.723) [-4210.134] * (-4223.774) [-4222.691] (-4216.042) (-4254.925) -- 0:22:05
      83500 -- (-4223.252) (-4204.943) (-4244.106) [-4215.709] * (-4229.395) [-4222.030] (-4228.139) (-4243.774) -- 0:21:57
      84000 -- (-4226.956) (-4228.382) (-4251.439) [-4226.513] * (-4243.377) [-4227.000] (-4223.743) (-4247.392) -- 0:21:59
      84500 -- (-4248.496) (-4232.292) (-4242.034) [-4225.863] * (-4228.608) (-4236.267) [-4216.913] (-4239.765) -- 0:22:01
      85000 -- (-4249.933) (-4232.281) (-4242.554) [-4220.315] * (-4220.934) (-4238.412) [-4210.830] (-4234.461) -- 0:21:53

      Average standard deviation of split frequencies: 0.038370

      85500 -- (-4230.763) (-4235.757) (-4246.669) [-4229.833] * (-4239.184) (-4234.389) (-4218.309) [-4227.541] -- 0:21:55
      86000 -- [-4227.402] (-4239.692) (-4250.122) (-4222.052) * (-4236.969) (-4241.234) (-4219.023) [-4214.510] -- 0:21:57
      86500 -- (-4231.390) (-4239.601) (-4220.223) [-4222.755] * (-4232.517) (-4255.994) [-4211.438] (-4219.443) -- 0:21:49
      87000 -- (-4230.069) (-4233.506) [-4211.737] (-4233.191) * (-4239.267) (-4236.088) [-4217.038] (-4227.986) -- 0:21:51
      87500 -- [-4216.894] (-4238.847) (-4217.580) (-4245.449) * (-4228.190) (-4252.131) (-4208.703) [-4218.002] -- 0:21:54
      88000 -- (-4219.269) [-4230.664] (-4217.788) (-4255.970) * (-4229.006) (-4234.372) (-4211.090) [-4226.679] -- 0:21:56
      88500 -- (-4242.341) (-4216.765) [-4219.561] (-4241.776) * [-4238.106] (-4256.433) (-4211.901) (-4227.044) -- 0:21:48
      89000 -- (-4239.620) [-4220.246] (-4231.186) (-4247.076) * (-4220.682) (-4213.810) [-4207.455] (-4212.893) -- 0:21:50
      89500 -- (-4232.968) [-4209.429] (-4229.919) (-4238.345) * (-4240.820) (-4225.429) [-4224.145] (-4217.563) -- 0:21:52
      90000 -- (-4244.937) [-4210.160] (-4227.532) (-4215.316) * (-4227.317) (-4217.159) [-4212.264] (-4204.831) -- 0:21:44

      Average standard deviation of split frequencies: 0.036778

      90500 -- (-4245.548) [-4210.247] (-4223.930) (-4213.164) * (-4223.472) (-4225.593) (-4219.076) [-4210.158] -- 0:21:46
      91000 -- (-4236.553) [-4220.074] (-4230.347) (-4224.973) * (-4228.516) (-4243.190) (-4225.350) [-4214.335] -- 0:21:48
      91500 -- (-4226.287) [-4219.689] (-4224.130) (-4202.979) * (-4226.555) (-4244.032) (-4230.053) [-4220.907] -- 0:21:50
      92000 -- (-4222.225) [-4217.522] (-4220.711) (-4236.750) * [-4227.895] (-4247.926) (-4230.868) (-4210.371) -- 0:21:42
      92500 -- [-4219.077] (-4213.193) (-4236.141) (-4230.520) * (-4229.815) (-4231.863) (-4234.738) [-4205.798] -- 0:21:44
      93000 -- [-4209.208] (-4227.241) (-4255.336) (-4232.078) * (-4231.788) (-4245.364) [-4222.755] (-4222.083) -- 0:21:46
      93500 -- (-4217.284) (-4230.673) [-4219.381] (-4242.248) * [-4211.672] (-4226.375) (-4236.207) (-4233.711) -- 0:21:48
      94000 -- [-4208.235] (-4205.487) (-4227.566) (-4229.822) * [-4211.233] (-4214.954) (-4236.118) (-4229.620) -- 0:21:41
      94500 -- [-4215.489] (-4230.546) (-4210.347) (-4219.301) * [-4205.657] (-4215.006) (-4231.745) (-4242.174) -- 0:21:43
      95000 -- [-4210.879] (-4249.750) (-4226.257) (-4229.678) * [-4206.287] (-4217.212) (-4231.067) (-4234.377) -- 0:21:45

      Average standard deviation of split frequencies: 0.039697

      95500 -- (-4218.107) (-4241.390) (-4219.781) [-4235.068] * (-4207.581) (-4212.483) [-4219.177] (-4232.019) -- 0:21:37
      96000 -- [-4206.969] (-4236.304) (-4224.420) (-4248.081) * (-4216.686) [-4208.079] (-4231.438) (-4227.242) -- 0:21:39
      96500 -- [-4209.344] (-4241.443) (-4231.280) (-4224.848) * (-4225.358) [-4213.913] (-4219.234) (-4239.445) -- 0:21:41
      97000 -- [-4213.374] (-4232.578) (-4227.903) (-4249.350) * (-4246.616) [-4201.044] (-4215.986) (-4233.603) -- 0:21:33
      97500 -- (-4216.786) [-4224.741] (-4224.277) (-4254.874) * (-4234.449) [-4206.934] (-4210.758) (-4243.344) -- 0:21:35
      98000 -- [-4211.152] (-4218.559) (-4215.062) (-4266.308) * (-4243.314) [-4203.651] (-4209.114) (-4234.670) -- 0:21:37
      98500 -- [-4221.936] (-4222.541) (-4219.347) (-4243.418) * (-4229.597) [-4205.154] (-4216.220) (-4248.784) -- 0:21:39
      99000 -- [-4210.366] (-4236.643) (-4224.082) (-4223.205) * (-4231.890) [-4200.413] (-4222.545) (-4235.706) -- 0:21:32
      99500 -- (-4221.596) [-4228.331] (-4236.867) (-4233.583) * (-4227.746) (-4202.781) (-4243.250) [-4216.874] -- 0:21:34
      100000 -- [-4194.513] (-4225.121) (-4247.888) (-4239.583) * (-4243.944) [-4216.912] (-4228.730) (-4220.173) -- 0:21:36

      Average standard deviation of split frequencies: 0.045533

      100500 -- (-4219.867) [-4224.300] (-4244.150) (-4243.528) * [-4226.067] (-4216.699) (-4233.663) (-4221.012) -- 0:21:28
      101000 -- [-4219.336] (-4218.232) (-4239.580) (-4232.150) * (-4221.748) (-4207.178) (-4239.685) [-4213.576] -- 0:21:30
      101500 -- (-4231.371) [-4220.720] (-4229.794) (-4229.751) * [-4218.385] (-4221.062) (-4251.324) (-4219.863) -- 0:21:32
      102000 -- (-4227.226) [-4217.518] (-4223.407) (-4220.026) * [-4222.049] (-4241.617) (-4230.737) (-4205.632) -- 0:21:34
      102500 -- (-4236.705) [-4208.497] (-4214.066) (-4219.468) * (-4231.316) (-4231.975) [-4219.751] (-4211.470) -- 0:21:27
      103000 -- (-4239.804) (-4214.042) (-4215.131) [-4229.928] * (-4235.667) (-4221.909) (-4221.839) [-4209.938] -- 0:21:28
      103500 -- (-4246.325) [-4214.078] (-4216.865) (-4226.767) * (-4232.692) (-4227.374) (-4232.900) [-4208.979] -- 0:21:30
      104000 -- (-4226.343) [-4223.510] (-4218.721) (-4249.151) * (-4233.331) (-4233.220) [-4224.054] (-4217.208) -- 0:21:23
      104500 -- [-4232.723] (-4213.523) (-4210.429) (-4233.752) * (-4223.412) (-4237.902) [-4227.257] (-4234.042) -- 0:21:25
      105000 -- (-4249.963) (-4224.185) [-4216.784] (-4243.950) * (-4220.560) (-4247.528) (-4226.118) [-4219.173] -- 0:21:27

      Average standard deviation of split frequencies: 0.048124

      105500 -- (-4227.449) [-4218.376] (-4229.775) (-4234.018) * (-4212.297) (-4246.119) (-4229.377) [-4208.467] -- 0:21:28
      106000 -- [-4214.755] (-4214.292) (-4235.952) (-4230.225) * (-4222.058) [-4228.432] (-4224.896) (-4247.103) -- 0:21:21
      106500 -- [-4210.186] (-4221.821) (-4226.556) (-4229.067) * (-4223.960) [-4216.557] (-4216.157) (-4233.449) -- 0:21:23
      107000 -- (-4215.078) [-4230.493] (-4231.989) (-4254.402) * (-4236.792) (-4234.660) (-4225.594) [-4223.397] -- 0:21:25
      107500 -- (-4218.049) [-4206.674] (-4238.794) (-4245.627) * (-4224.469) (-4232.462) [-4217.385] (-4223.919) -- 0:21:18
      108000 -- (-4221.200) [-4201.007] (-4249.162) (-4230.412) * (-4220.848) (-4229.925) (-4227.863) [-4223.924] -- 0:21:20
      108500 -- (-4224.868) [-4203.927] (-4252.413) (-4227.438) * [-4220.152] (-4226.488) (-4217.344) (-4213.085) -- 0:21:21
      109000 -- (-4215.375) [-4204.487] (-4262.971) (-4214.807) * (-4240.568) (-4230.064) (-4233.487) [-4221.924] -- 0:21:23
      109500 -- [-4201.641] (-4214.433) (-4233.220) (-4220.443) * (-4224.634) (-4208.963) [-4219.267] (-4219.447) -- 0:21:16
      110000 -- [-4213.016] (-4230.352) (-4244.523) (-4237.947) * (-4234.540) (-4229.051) (-4233.390) [-4214.126] -- 0:21:18

      Average standard deviation of split frequencies: 0.051932

      110500 -- (-4210.714) [-4215.197] (-4231.808) (-4228.601) * (-4228.112) (-4241.497) (-4233.158) [-4217.709] -- 0:21:19
      111000 -- [-4211.082] (-4222.953) (-4243.702) (-4222.303) * (-4223.588) (-4224.012) (-4227.742) [-4211.393] -- 0:21:21
      111500 -- (-4225.284) [-4206.846] (-4233.833) (-4236.321) * [-4217.616] (-4229.740) (-4218.610) (-4226.812) -- 0:21:14
      112000 -- (-4229.241) (-4217.656) (-4220.887) [-4218.544] * (-4211.415) [-4216.965] (-4256.997) (-4219.243) -- 0:21:16
      112500 -- [-4208.661] (-4224.759) (-4243.813) (-4211.432) * [-4214.450] (-4217.761) (-4270.450) (-4232.930) -- 0:21:18
      113000 -- [-4202.883] (-4224.644) (-4224.341) (-4221.133) * (-4209.879) [-4204.800] (-4244.246) (-4244.912) -- 0:21:11
      113500 -- [-4221.294] (-4249.833) (-4252.519) (-4226.818) * (-4219.021) [-4211.185] (-4240.466) (-4238.132) -- 0:21:13
      114000 -- (-4224.335) (-4240.782) [-4226.355] (-4217.711) * (-4224.198) [-4213.192] (-4248.505) (-4242.719) -- 0:21:14
      114500 -- [-4220.800] (-4239.291) (-4233.180) (-4218.725) * (-4236.102) (-4238.279) (-4236.076) [-4222.460] -- 0:21:16
      115000 -- [-4213.570] (-4217.715) (-4233.045) (-4229.630) * (-4246.042) (-4209.838) (-4231.870) [-4216.920] -- 0:21:09

      Average standard deviation of split frequencies: 0.052103

      115500 -- [-4216.296] (-4226.791) (-4246.766) (-4214.519) * (-4246.081) [-4209.742] (-4236.127) (-4222.215) -- 0:21:11
      116000 -- [-4209.977] (-4221.172) (-4223.378) (-4213.786) * (-4269.830) (-4221.036) (-4228.585) [-4218.151] -- 0:21:12
      116500 -- [-4206.681] (-4223.472) (-4251.216) (-4227.936) * [-4229.222] (-4229.071) (-4232.038) (-4223.291) -- 0:21:14
      117000 -- [-4202.075] (-4216.440) (-4260.582) (-4224.687) * (-4230.861) (-4229.058) (-4233.453) [-4202.419] -- 0:21:07
      117500 -- [-4219.457] (-4207.537) (-4250.317) (-4211.477) * [-4221.524] (-4235.643) (-4220.512) (-4211.369) -- 0:21:09
      118000 -- (-4248.333) (-4241.279) (-4245.739) [-4226.358] * (-4237.143) (-4246.322) (-4226.520) [-4210.368] -- 0:21:10
      118500 -- (-4224.138) [-4215.301] (-4244.089) (-4221.835) * (-4227.679) (-4236.587) [-4208.673] (-4221.759) -- 0:21:12
      119000 -- (-4218.778) [-4219.102] (-4247.349) (-4234.832) * (-4227.375) (-4242.356) [-4212.962] (-4211.995) -- 0:21:05
      119500 -- (-4224.885) (-4225.135) (-4252.500) [-4220.126] * (-4234.505) (-4242.358) (-4216.748) [-4212.848] -- 0:21:07
      120000 -- (-4236.565) (-4227.987) (-4261.914) [-4214.758] * (-4230.898) (-4228.512) [-4211.056] (-4223.154) -- 0:21:08

      Average standard deviation of split frequencies: 0.051897

      120500 -- (-4233.336) (-4220.180) (-4244.818) [-4219.000] * (-4225.537) (-4230.862) [-4202.268] (-4223.926) -- 0:21:09
      121000 -- (-4229.476) [-4209.344] (-4246.115) (-4220.935) * (-4225.584) (-4249.696) [-4218.317] (-4231.702) -- 0:21:04
      121500 -- (-4247.520) (-4214.436) (-4249.326) [-4228.175] * (-4219.194) (-4227.563) (-4216.239) [-4222.333] -- 0:21:05
      122000 -- (-4233.372) (-4228.857) (-4250.034) [-4232.540] * [-4219.526] (-4249.857) (-4224.936) (-4224.756) -- 0:21:06
      122500 -- (-4228.010) [-4223.750] (-4235.628) (-4248.331) * (-4221.313) (-4225.866) (-4231.314) [-4220.354] -- 0:21:07
      123000 -- (-4229.763) (-4223.822) (-4247.109) [-4235.415] * [-4211.872] (-4223.976) (-4217.318) (-4219.979) -- 0:21:02
      123500 -- (-4229.564) (-4238.045) (-4266.604) [-4229.190] * [-4212.841] (-4217.818) (-4225.205) (-4231.272) -- 0:21:03
      124000 -- (-4233.955) (-4236.676) (-4250.113) [-4245.041] * (-4215.577) (-4220.675) (-4233.473) [-4217.759] -- 0:21:04
      124500 -- [-4211.332] (-4229.917) (-4234.204) (-4230.365) * (-4223.140) [-4204.136] (-4239.120) (-4212.375) -- 0:20:58
      125000 -- (-4216.877) (-4245.509) [-4217.917] (-4271.196) * (-4237.205) [-4214.321] (-4239.949) (-4220.048) -- 0:21:00

      Average standard deviation of split frequencies: 0.053905

      125500 -- [-4214.167] (-4231.046) (-4227.248) (-4245.756) * (-4230.731) [-4222.740] (-4239.400) (-4216.735) -- 0:21:01
      126000 -- [-4223.305] (-4231.140) (-4231.837) (-4225.744) * (-4239.673) (-4241.464) [-4231.610] (-4227.358) -- 0:20:55
      126500 -- (-4220.258) (-4231.588) [-4224.658] (-4227.598) * [-4224.910] (-4243.712) (-4231.897) (-4223.283) -- 0:20:56
      127000 -- (-4224.186) (-4241.141) [-4214.251] (-4231.858) * (-4254.816) (-4229.157) (-4226.503) [-4214.591] -- 0:20:57
      127500 -- (-4222.541) (-4224.896) (-4221.946) [-4219.028] * (-4244.938) (-4228.496) (-4230.794) [-4219.662] -- 0:20:59
      128000 -- (-4235.388) (-4223.564) [-4223.317] (-4232.692) * (-4236.041) (-4235.974) (-4236.117) [-4221.921] -- 0:20:53
      128500 -- (-4242.770) (-4226.347) [-4220.025] (-4225.962) * (-4234.097) [-4226.538] (-4246.107) (-4221.795) -- 0:20:54
      129000 -- (-4249.207) (-4223.471) [-4218.351] (-4231.009) * (-4249.377) (-4230.922) (-4251.249) [-4212.307] -- 0:20:55
      129500 -- [-4217.321] (-4224.273) (-4224.725) (-4233.087) * (-4253.480) (-4267.165) (-4211.606) [-4210.558] -- 0:20:50
      130000 -- [-4219.766] (-4246.878) (-4214.525) (-4232.046) * (-4226.019) (-4242.854) [-4210.565] (-4211.261) -- 0:20:51

      Average standard deviation of split frequencies: 0.053453

      130500 -- [-4214.141] (-4254.184) (-4218.069) (-4221.515) * [-4208.016] (-4233.758) (-4225.672) (-4199.958) -- 0:20:52
      131000 -- (-4214.769) (-4228.237) (-4222.996) [-4219.307] * (-4219.055) (-4244.547) (-4240.498) [-4210.823] -- 0:20:53
      131500 -- [-4218.243] (-4239.492) (-4225.680) (-4231.122) * [-4219.426] (-4232.803) (-4219.734) (-4217.847) -- 0:20:48
      132000 -- (-4234.067) (-4232.977) (-4245.821) [-4217.585] * [-4228.414] (-4224.942) (-4212.646) (-4236.365) -- 0:20:49
      132500 -- (-4244.180) (-4226.004) [-4212.279] (-4228.174) * (-4214.865) [-4220.516] (-4233.214) (-4240.815) -- 0:20:50
      133000 -- (-4244.988) (-4230.914) [-4217.418] (-4236.652) * (-4215.497) [-4212.542] (-4247.046) (-4227.804) -- 0:20:45
      133500 -- (-4236.862) [-4237.339] (-4223.694) (-4237.181) * (-4245.123) [-4209.624] (-4239.133) (-4232.109) -- 0:20:46
      134000 -- (-4224.996) (-4240.475) (-4218.538) [-4220.263] * (-4256.050) [-4202.308] (-4229.620) (-4224.716) -- 0:20:47
      134500 -- [-4217.158] (-4212.777) (-4214.686) (-4228.355) * (-4243.913) [-4204.945] (-4218.794) (-4222.110) -- 0:20:41
      135000 -- [-4212.120] (-4210.883) (-4212.189) (-4220.281) * (-4224.611) [-4211.007] (-4231.498) (-4244.644) -- 0:20:43

      Average standard deviation of split frequencies: 0.052063

      135500 -- (-4217.302) [-4209.591] (-4203.455) (-4206.647) * (-4231.050) [-4213.035] (-4244.217) (-4238.963) -- 0:20:44
      136000 -- (-4229.785) (-4216.654) [-4214.818] (-4207.372) * (-4230.515) [-4206.382] (-4251.807) (-4234.817) -- 0:20:38
      136500 -- (-4229.921) (-4234.285) (-4208.715) [-4211.824] * [-4206.124] (-4219.928) (-4234.369) (-4243.209) -- 0:20:39
      137000 -- (-4219.251) (-4238.092) (-4220.169) [-4213.908] * (-4217.005) [-4200.813] (-4224.823) (-4241.090) -- 0:20:40
      137500 -- (-4229.596) [-4224.673] (-4232.648) (-4205.035) * (-4219.423) [-4208.279] (-4229.649) (-4219.759) -- 0:20:42
      138000 -- (-4232.720) (-4220.208) (-4229.486) [-4216.196] * (-4217.686) [-4217.324] (-4239.873) (-4224.301) -- 0:20:36
      138500 -- (-4241.886) (-4223.111) [-4227.948] (-4243.359) * [-4207.498] (-4237.837) (-4252.209) (-4226.134) -- 0:20:37
      139000 -- (-4229.389) (-4223.012) (-4223.687) [-4224.623] * [-4200.859] (-4243.175) (-4235.441) (-4246.998) -- 0:20:38
      139500 -- [-4221.047] (-4232.599) (-4217.918) (-4232.529) * [-4209.276] (-4226.979) (-4226.474) (-4227.481) -- 0:20:33
      140000 -- [-4230.547] (-4242.627) (-4209.063) (-4227.441) * [-4224.812] (-4242.173) (-4243.588) (-4220.945) -- 0:20:34

      Average standard deviation of split frequencies: 0.051307

      140500 -- (-4236.834) (-4224.947) [-4218.961] (-4221.134) * (-4230.534) (-4229.107) (-4253.725) [-4222.460] -- 0:20:35
      141000 -- (-4232.830) [-4228.469] (-4218.688) (-4221.085) * (-4225.365) (-4236.985) [-4218.358] (-4227.708) -- 0:20:30
      141500 -- (-4234.021) (-4248.374) (-4223.050) [-4220.344] * (-4236.259) (-4224.643) (-4225.821) [-4226.576] -- 0:20:31
      142000 -- (-4233.363) (-4242.375) (-4223.901) [-4234.723] * (-4221.024) (-4209.926) (-4231.664) [-4213.357] -- 0:20:32
      142500 -- (-4247.034) (-4242.152) [-4219.639] (-4245.454) * (-4216.827) (-4229.545) (-4235.318) [-4205.537] -- 0:20:27
      143000 -- (-4246.607) (-4223.681) [-4209.032] (-4244.894) * (-4233.275) [-4215.138] (-4237.491) (-4223.156) -- 0:20:28
      143500 -- (-4245.422) [-4212.717] (-4210.853) (-4235.230) * (-4230.535) (-4218.834) (-4240.892) [-4216.559] -- 0:20:29
      144000 -- (-4246.590) (-4235.962) [-4215.709] (-4231.150) * (-4225.061) (-4235.270) (-4248.831) [-4218.507] -- 0:20:24
      144500 -- (-4259.150) (-4231.952) [-4205.062] (-4229.520) * (-4226.873) (-4250.312) (-4233.220) [-4218.996] -- 0:20:25
      145000 -- (-4232.802) (-4266.253) [-4222.362] (-4222.646) * (-4241.572) (-4244.316) (-4231.952) [-4216.067] -- 0:20:26

      Average standard deviation of split frequencies: 0.049508

      145500 -- (-4230.128) (-4234.916) (-4239.564) [-4217.639] * (-4248.740) (-4225.689) (-4217.671) [-4203.331] -- 0:20:21
      146000 -- (-4225.591) (-4229.479) (-4247.082) [-4216.904] * (-4244.321) (-4229.973) (-4212.355) [-4211.567] -- 0:20:22
      146500 -- (-4212.778) (-4225.631) (-4242.679) [-4203.271] * (-4244.007) (-4229.313) (-4218.726) [-4206.809] -- 0:20:23
      147000 -- (-4216.179) (-4249.161) (-4243.306) [-4199.955] * (-4243.807) (-4217.800) [-4216.415] (-4218.160) -- 0:20:18
      147500 -- [-4225.173] (-4231.322) (-4248.268) (-4223.422) * (-4254.825) (-4227.034) (-4239.243) [-4219.408] -- 0:20:19
      148000 -- (-4222.999) (-4234.296) (-4229.652) [-4232.193] * (-4232.487) (-4228.953) (-4233.841) [-4210.325] -- 0:20:20
      148500 -- [-4234.493] (-4239.199) (-4222.415) (-4240.040) * (-4238.424) (-4220.080) [-4222.037] (-4241.990) -- 0:20:15
      149000 -- (-4219.288) [-4224.815] (-4257.359) (-4251.459) * (-4230.909) [-4204.396] (-4236.563) (-4239.165) -- 0:20:16
      149500 -- [-4224.457] (-4253.895) (-4228.355) (-4240.901) * (-4232.162) [-4206.217] (-4231.854) (-4242.128) -- 0:20:17
      150000 -- [-4231.668] (-4249.455) (-4222.672) (-4234.979) * (-4229.553) [-4210.711] (-4237.000) (-4254.597) -- 0:20:12

      Average standard deviation of split frequencies: 0.049650

      150500 -- (-4233.637) (-4242.688) [-4220.092] (-4233.725) * [-4212.401] (-4205.540) (-4243.475) (-4236.303) -- 0:20:13
      151000 -- [-4231.855] (-4240.996) (-4218.160) (-4243.936) * (-4234.203) [-4208.444] (-4243.039) (-4240.929) -- 0:20:14
      151500 -- (-4228.220) (-4220.029) [-4210.551] (-4247.173) * (-4234.155) [-4216.475] (-4219.782) (-4244.658) -- 0:20:09
      152000 -- (-4241.861) [-4213.698] (-4219.340) (-4233.630) * (-4231.059) (-4218.882) [-4207.032] (-4235.431) -- 0:20:10
      152500 -- (-4228.667) (-4229.806) [-4204.944] (-4238.753) * (-4212.464) (-4217.702) [-4215.630] (-4216.982) -- 0:20:11
      153000 -- (-4229.965) (-4241.818) [-4214.858] (-4238.937) * [-4227.394] (-4222.185) (-4223.181) (-4220.455) -- 0:20:06
      153500 -- (-4238.141) (-4251.172) [-4212.075] (-4215.448) * (-4239.460) [-4219.339] (-4234.342) (-4216.226) -- 0:20:07
      154000 -- (-4242.495) (-4233.219) [-4214.688] (-4232.195) * (-4238.575) (-4227.429) [-4223.113] (-4227.343) -- 0:20:08
      154500 -- (-4217.381) (-4227.798) [-4204.407] (-4234.225) * (-4238.598) (-4227.817) (-4227.959) [-4214.555] -- 0:20:09
      155000 -- (-4229.354) (-4238.615) [-4207.136] (-4232.816) * [-4223.428] (-4238.530) (-4230.428) (-4230.901) -- 0:20:04

      Average standard deviation of split frequencies: 0.048255

      155500 -- (-4214.982) (-4246.489) [-4207.195] (-4243.962) * (-4234.494) (-4223.775) (-4227.801) [-4216.883] -- 0:20:05
      156000 -- (-4223.604) (-4241.492) [-4217.284] (-4248.257) * (-4229.598) (-4230.537) (-4225.622) [-4216.800] -- 0:20:06
      156500 -- (-4230.169) [-4232.991] (-4242.105) (-4238.180) * (-4225.442) [-4231.622] (-4242.193) (-4227.302) -- 0:20:07
      157000 -- (-4216.435) [-4220.382] (-4224.423) (-4240.920) * (-4223.414) [-4219.816] (-4237.457) (-4226.646) -- 0:20:02
      157500 -- (-4223.797) (-4206.581) [-4226.531] (-4249.083) * (-4225.506) [-4207.053] (-4247.744) (-4235.927) -- 0:20:03
      158000 -- (-4225.463) [-4204.358] (-4227.905) (-4255.942) * (-4226.844) [-4230.442] (-4241.396) (-4252.441) -- 0:20:04
      158500 -- (-4228.054) (-4225.149) [-4214.204] (-4252.114) * [-4216.422] (-4227.854) (-4234.895) (-4236.312) -- 0:19:59
      159000 -- (-4228.148) (-4236.300) [-4202.331] (-4260.548) * [-4222.562] (-4252.489) (-4233.049) (-4234.968) -- 0:20:00
      159500 -- (-4216.816) (-4222.092) [-4215.098] (-4254.660) * (-4228.848) (-4241.966) [-4214.418] (-4221.264) -- 0:20:01
      160000 -- [-4206.056] (-4228.879) (-4221.666) (-4245.576) * (-4229.035) (-4237.313) (-4239.395) [-4211.031] -- 0:19:57

      Average standard deviation of split frequencies: 0.048891

      160500 -- [-4199.991] (-4218.327) (-4228.615) (-4231.953) * (-4242.413) (-4230.056) (-4242.481) [-4222.979] -- 0:19:57
      161000 -- [-4195.985] (-4232.823) (-4224.308) (-4217.305) * [-4215.745] (-4229.887) (-4238.779) (-4218.260) -- 0:19:58
      161500 -- [-4196.400] (-4227.343) (-4242.639) (-4231.236) * (-4240.542) (-4231.512) (-4234.249) [-4220.356] -- 0:19:54
      162000 -- [-4198.114] (-4216.823) (-4244.177) (-4237.369) * (-4242.962) (-4223.756) [-4230.621] (-4225.141) -- 0:19:54
      162500 -- [-4207.461] (-4225.017) (-4233.825) (-4223.181) * (-4259.450) (-4225.731) [-4218.970] (-4218.002) -- 0:19:55
      163000 -- [-4203.775] (-4241.915) (-4222.535) (-4224.762) * (-4251.695) [-4213.830] (-4222.208) (-4224.002) -- 0:19:56
      163500 -- [-4219.547] (-4221.259) (-4238.017) (-4239.824) * (-4233.790) [-4218.252] (-4227.135) (-4234.495) -- 0:19:52
      164000 -- [-4219.208] (-4240.636) (-4235.515) (-4231.370) * [-4224.579] (-4238.113) (-4236.992) (-4257.493) -- 0:19:52
      164500 -- (-4227.165) (-4246.332) (-4209.684) [-4216.906] * (-4223.895) (-4235.922) [-4217.502] (-4260.313) -- 0:19:53
      165000 -- (-4240.668) (-4230.488) [-4208.361] (-4227.105) * [-4215.503] (-4250.766) (-4230.877) (-4252.118) -- 0:19:49

      Average standard deviation of split frequencies: 0.048305

      165500 -- (-4220.450) (-4229.784) [-4206.276] (-4216.139) * (-4209.923) [-4244.596] (-4242.655) (-4254.314) -- 0:19:49
      166000 -- (-4240.252) (-4244.570) [-4218.901] (-4221.110) * [-4215.061] (-4221.105) (-4244.846) (-4221.246) -- 0:19:50
      166500 -- (-4233.115) (-4257.487) (-4224.174) [-4215.305] * [-4214.526] (-4234.951) (-4249.882) (-4225.468) -- 0:19:46
      167000 -- (-4234.421) (-4233.327) [-4221.912] (-4219.094) * (-4217.351) [-4222.939] (-4244.114) (-4230.954) -- 0:19:47
      167500 -- [-4230.319] (-4220.007) (-4216.667) (-4222.269) * (-4211.063) (-4238.485) (-4229.248) [-4211.868] -- 0:19:47
      168000 -- (-4228.660) (-4217.693) (-4229.294) [-4227.191] * [-4204.735] (-4227.348) (-4243.706) (-4232.896) -- 0:19:43
      168500 -- (-4253.847) (-4211.957) (-4223.041) [-4208.564] * [-4197.627] (-4224.932) (-4227.156) (-4230.716) -- 0:19:44
      169000 -- (-4244.293) [-4218.684] (-4229.625) (-4217.314) * [-4203.015] (-4230.369) (-4253.520) (-4209.700) -- 0:19:45
      169500 -- (-4239.874) [-4216.917] (-4229.054) (-4216.207) * (-4209.097) (-4231.311) (-4240.246) [-4204.072] -- 0:19:45
      170000 -- (-4215.130) (-4229.960) (-4227.126) [-4208.533] * [-4202.288] (-4223.108) (-4228.132) (-4212.309) -- 0:19:41

      Average standard deviation of split frequencies: 0.047186

      170500 -- (-4218.572) (-4221.713) (-4220.678) [-4215.892] * [-4215.824] (-4241.979) (-4232.665) (-4202.031) -- 0:19:42
      171000 -- [-4206.643] (-4222.286) (-4232.078) (-4221.275) * [-4234.630] (-4228.945) (-4223.148) (-4213.010) -- 0:19:42
      171500 -- [-4208.759] (-4232.255) (-4231.064) (-4238.280) * [-4229.283] (-4228.284) (-4220.512) (-4225.584) -- 0:19:38
      172000 -- (-4231.899) (-4235.620) (-4230.020) [-4217.517] * [-4208.840] (-4254.635) (-4228.815) (-4204.517) -- 0:19:39
      172500 -- [-4223.873] (-4230.045) (-4230.197) (-4221.478) * (-4197.193) (-4249.976) (-4221.185) [-4212.752] -- 0:19:40
      173000 -- [-4219.253] (-4230.589) (-4226.603) (-4237.258) * [-4209.818] (-4226.799) (-4227.766) (-4222.661) -- 0:19:35
      173500 -- [-4214.956] (-4241.667) (-4210.473) (-4240.354) * [-4210.474] (-4231.446) (-4226.126) (-4216.858) -- 0:19:36
      174000 -- [-4217.280] (-4228.590) (-4211.675) (-4244.622) * (-4222.674) (-4229.308) [-4224.251] (-4211.290) -- 0:19:37
      174500 -- (-4221.248) (-4246.641) [-4208.015] (-4226.098) * (-4218.050) (-4233.735) (-4224.036) [-4213.877] -- 0:19:37
      175000 -- [-4219.419] (-4242.857) (-4216.689) (-4236.018) * [-4206.984] (-4224.095) (-4235.792) (-4218.481) -- 0:19:33

      Average standard deviation of split frequencies: 0.045812

      175500 -- [-4232.312] (-4247.927) (-4234.003) (-4234.961) * (-4218.498) [-4219.228] (-4234.488) (-4219.972) -- 0:19:34
      176000 -- [-4228.960] (-4245.454) (-4232.129) (-4220.288) * (-4224.955) (-4230.110) (-4235.439) [-4218.546] -- 0:19:35
      176500 -- (-4243.761) (-4234.602) [-4227.504] (-4226.705) * (-4236.994) [-4213.434] (-4226.909) (-4221.083) -- 0:19:31
      177000 -- (-4238.531) (-4235.953) [-4229.558] (-4225.096) * (-4258.733) [-4218.126] (-4216.020) (-4225.654) -- 0:19:31
      177500 -- (-4236.729) (-4242.322) [-4233.737] (-4210.648) * (-4249.722) (-4223.562) (-4228.301) [-4216.040] -- 0:19:32
      178000 -- (-4230.102) (-4224.631) (-4226.454) [-4219.413] * (-4258.075) (-4222.133) (-4230.076) [-4215.757] -- 0:19:28
      178500 -- (-4253.180) (-4224.630) [-4223.742] (-4226.533) * (-4248.375) (-4227.680) [-4218.347] (-4207.560) -- 0:19:28
      179000 -- (-4233.266) [-4226.761] (-4226.705) (-4206.823) * (-4239.909) (-4226.113) [-4211.686] (-4212.800) -- 0:19:29
      179500 -- (-4214.508) (-4255.455) (-4229.364) [-4213.333] * (-4245.127) (-4236.021) (-4224.865) [-4219.678] -- 0:19:25
      180000 -- (-4225.302) (-4248.467) (-4243.653) [-4229.768] * (-4240.059) (-4223.661) (-4220.439) [-4210.736] -- 0:19:26

      Average standard deviation of split frequencies: 0.045064

      180500 -- (-4227.105) (-4218.535) (-4244.796) [-4203.956] * (-4248.822) (-4196.675) (-4242.639) [-4203.835] -- 0:19:26
      181000 -- (-4231.295) (-4233.447) (-4250.401) [-4211.701] * (-4252.392) [-4207.830] (-4213.654) (-4206.605) -- 0:19:22
      181500 -- [-4230.480] (-4239.822) (-4233.279) (-4216.968) * (-4248.760) [-4197.931] (-4215.886) (-4222.017) -- 0:19:23
      182000 -- (-4215.946) [-4220.812] (-4225.193) (-4212.976) * (-4233.051) [-4204.650] (-4230.435) (-4213.479) -- 0:19:24
      182500 -- (-4211.713) [-4226.408] (-4224.830) (-4236.932) * (-4235.962) (-4228.228) (-4231.903) [-4217.207] -- 0:19:20
      183000 -- [-4206.316] (-4241.368) (-4249.098) (-4238.901) * [-4217.740] (-4249.007) (-4246.190) (-4212.243) -- 0:19:20
      183500 -- [-4216.587] (-4234.026) (-4239.739) (-4225.488) * (-4220.781) (-4247.924) (-4230.343) [-4210.950] -- 0:19:21
      184000 -- (-4251.932) [-4235.392] (-4233.071) (-4227.286) * (-4215.190) (-4242.725) (-4229.267) [-4205.605] -- 0:19:17
      184500 -- (-4246.444) (-4252.269) (-4244.839) [-4228.267] * (-4221.053) (-4228.354) (-4224.862) [-4193.116] -- 0:19:18
      185000 -- (-4240.268) [-4245.623] (-4241.558) (-4230.240) * (-4222.171) (-4227.984) (-4223.870) [-4188.824] -- 0:19:18

      Average standard deviation of split frequencies: 0.044611

      185500 -- [-4223.807] (-4249.613) (-4226.384) (-4231.535) * (-4206.701) (-4221.892) (-4236.248) [-4205.773] -- 0:19:14
      186000 -- [-4224.129] (-4243.282) (-4236.544) (-4226.861) * (-4219.446) [-4213.754] (-4250.965) (-4226.211) -- 0:19:15
      186500 -- (-4232.864) (-4255.268) (-4238.289) [-4204.076] * [-4216.754] (-4227.165) (-4242.184) (-4222.189) -- 0:19:15
      187000 -- (-4231.021) (-4235.727) (-4239.687) [-4206.418] * (-4222.401) (-4232.187) (-4252.893) [-4210.520] -- 0:19:16
      187500 -- (-4231.875) (-4239.115) (-4247.579) [-4211.408] * (-4225.768) (-4222.672) (-4234.819) [-4205.812] -- 0:19:12
      188000 -- (-4224.025) (-4222.907) (-4243.045) [-4213.595] * (-4228.945) (-4233.050) [-4215.045] (-4209.895) -- 0:19:13
      188500 -- (-4228.223) (-4228.999) (-4248.987) [-4215.033] * (-4232.296) (-4246.826) (-4218.582) [-4209.518] -- 0:19:13
      189000 -- [-4210.984] (-4212.400) (-4248.277) (-4220.216) * (-4232.266) (-4229.732) (-4227.248) [-4211.810] -- 0:19:09
      189500 -- [-4213.668] (-4211.230) (-4243.090) (-4234.056) * (-4217.065) (-4233.335) [-4216.155] (-4240.452) -- 0:19:10
      190000 -- (-4224.351) [-4205.963] (-4229.212) (-4228.738) * (-4228.634) (-4244.578) [-4217.183] (-4231.986) -- 0:19:11

      Average standard deviation of split frequencies: 0.044350

      190500 -- (-4222.151) (-4223.974) (-4246.648) [-4224.993] * (-4229.179) [-4231.297] (-4204.861) (-4230.615) -- 0:19:07
      191000 -- (-4216.649) (-4222.832) (-4224.530) [-4217.354] * (-4221.117) (-4223.998) [-4213.706] (-4238.583) -- 0:19:07
      191500 -- (-4216.202) (-4221.521) [-4204.648] (-4238.871) * [-4204.201] (-4228.577) (-4219.908) (-4242.071) -- 0:19:08
      192000 -- (-4216.302) (-4234.556) (-4213.406) [-4230.514] * (-4215.371) (-4235.473) [-4223.066] (-4240.569) -- 0:19:04
      192500 -- (-4228.672) (-4229.800) (-4213.873) [-4228.234] * [-4221.003] (-4254.910) (-4236.489) (-4245.098) -- 0:19:05
      193000 -- (-4227.033) (-4226.813) [-4210.295] (-4231.445) * [-4214.486] (-4235.211) (-4227.053) (-4237.749) -- 0:19:05
      193500 -- (-4224.409) (-4226.364) [-4213.876] (-4234.014) * (-4215.835) (-4245.808) (-4237.413) [-4230.824] -- 0:19:02
      194000 -- (-4210.897) (-4218.100) [-4211.482] (-4245.851) * (-4235.096) (-4235.532) (-4238.750) [-4224.247] -- 0:19:02
      194500 -- (-4221.763) [-4214.950] (-4219.413) (-4221.484) * (-4238.417) [-4222.523] (-4238.767) (-4208.804) -- 0:19:03
      195000 -- (-4233.001) (-4218.995) [-4215.901] (-4231.299) * (-4243.050) (-4238.022) (-4225.553) [-4219.064] -- 0:18:59

      Average standard deviation of split frequencies: 0.044863

      195500 -- (-4256.575) (-4237.185) (-4216.964) [-4208.551] * [-4221.623] (-4246.229) (-4227.186) (-4211.454) -- 0:18:59
      196000 -- (-4241.409) (-4232.361) (-4233.776) [-4208.720] * (-4220.775) (-4235.134) (-4219.998) [-4216.206] -- 0:19:00
      196500 -- (-4234.236) (-4232.842) (-4239.866) [-4212.112] * [-4205.768] (-4240.018) (-4220.580) (-4202.000) -- 0:18:56
      197000 -- (-4227.466) [-4221.637] (-4245.824) (-4227.761) * [-4208.311] (-4236.662) (-4222.615) (-4211.786) -- 0:18:57
      197500 -- (-4220.813) [-4214.756] (-4229.329) (-4233.140) * (-4224.510) (-4231.932) [-4213.858] (-4205.159) -- 0:18:57
      198000 -- (-4236.251) (-4225.927) [-4228.562] (-4231.139) * (-4216.449) (-4218.522) [-4210.222] (-4232.815) -- 0:18:54
      198500 -- (-4215.529) (-4213.799) (-4224.285) [-4220.383] * [-4225.301] (-4228.773) (-4226.874) (-4243.911) -- 0:18:54
      199000 -- (-4219.329) [-4209.848] (-4221.430) (-4231.869) * [-4224.848] (-4219.482) (-4225.328) (-4222.069) -- 0:18:55
      199500 -- (-4218.187) (-4224.257) [-4222.433] (-4221.142) * (-4228.235) [-4228.117] (-4229.431) (-4210.903) -- 0:18:55
      200000 -- (-4221.320) (-4218.344) [-4227.505] (-4247.745) * (-4214.694) [-4218.566] (-4237.116) (-4214.374) -- 0:18:52

      Average standard deviation of split frequencies: 0.042455

      200500 -- (-4237.254) [-4209.909] (-4225.818) (-4241.321) * [-4220.221] (-4242.037) (-4232.355) (-4225.111) -- 0:18:52
      201000 -- (-4238.700) [-4212.269] (-4226.035) (-4245.543) * [-4202.232] (-4237.066) (-4230.357) (-4218.842) -- 0:18:52
      201500 -- (-4234.264) [-4209.374] (-4221.136) (-4232.437) * [-4208.442] (-4243.090) (-4212.661) (-4211.390) -- 0:18:49
      202000 -- (-4251.401) [-4215.116] (-4229.660) (-4230.343) * [-4207.825] (-4232.151) (-4240.949) (-4228.743) -- 0:18:49
      202500 -- (-4235.613) (-4241.287) [-4216.810] (-4234.384) * [-4219.116] (-4225.219) (-4228.982) (-4235.872) -- 0:18:50
      203000 -- (-4227.079) (-4232.037) [-4208.382] (-4252.912) * [-4215.240] (-4221.806) (-4222.159) (-4239.820) -- 0:18:46
      203500 -- (-4233.400) [-4220.560] (-4220.823) (-4234.620) * [-4212.958] (-4214.009) (-4213.683) (-4224.383) -- 0:18:47
      204000 -- (-4231.522) (-4236.049) [-4215.198] (-4221.472) * (-4210.333) (-4226.437) [-4205.461] (-4247.198) -- 0:18:47
      204500 -- (-4231.215) (-4233.340) [-4211.735] (-4217.667) * [-4204.794] (-4219.161) (-4206.311) (-4234.777) -- 0:18:44
      205000 -- (-4260.083) (-4219.333) [-4209.437] (-4251.852) * [-4205.041] (-4209.072) (-4214.006) (-4242.771) -- 0:18:44

      Average standard deviation of split frequencies: 0.040373

      205500 -- (-4247.110) (-4240.554) [-4212.250] (-4246.076) * (-4211.427) (-4207.247) [-4208.164] (-4224.577) -- 0:18:45
      206000 -- (-4226.372) (-4229.186) [-4219.272] (-4249.396) * (-4228.645) [-4212.973] (-4211.553) (-4232.951) -- 0:18:41
      206500 -- [-4218.396] (-4224.307) (-4209.281) (-4243.703) * (-4239.112) (-4218.822) [-4214.750] (-4230.452) -- 0:18:42
      207000 -- [-4210.867] (-4229.970) (-4221.355) (-4251.245) * (-4237.205) [-4216.025] (-4210.489) (-4226.000) -- 0:18:42
      207500 -- [-4217.791] (-4229.441) (-4217.517) (-4225.359) * (-4249.023) (-4237.033) [-4206.991] (-4239.902) -- 0:18:39
      208000 -- [-4203.848] (-4232.553) (-4242.013) (-4240.288) * (-4239.385) (-4258.094) [-4214.745] (-4237.044) -- 0:18:39
      208500 -- (-4214.661) (-4224.061) (-4230.670) [-4208.780] * (-4219.725) [-4220.061] (-4214.299) (-4228.563) -- 0:18:39
      209000 -- [-4217.744] (-4239.873) (-4220.781) (-4224.712) * (-4237.318) (-4213.343) [-4221.018] (-4225.071) -- 0:18:36
      209500 -- (-4214.934) (-4256.378) (-4234.351) [-4208.205] * (-4236.896) [-4213.030] (-4228.003) (-4242.757) -- 0:18:36
      210000 -- [-4205.797] (-4237.006) (-4244.525) (-4194.421) * (-4225.369) [-4211.415] (-4232.441) (-4236.046) -- 0:18:37

      Average standard deviation of split frequencies: 0.042216

      210500 -- [-4215.121] (-4247.742) (-4223.929) (-4212.607) * [-4211.573] (-4206.334) (-4222.284) (-4238.009) -- 0:18:33
      211000 -- (-4220.946) (-4235.133) [-4210.434] (-4223.612) * (-4234.943) [-4202.788] (-4234.652) (-4217.053) -- 0:18:34
      211500 -- (-4220.048) (-4234.606) [-4220.667] (-4226.200) * (-4247.467) [-4185.532] (-4234.635) (-4220.514) -- 0:18:34
      212000 -- (-4215.063) [-4216.504] (-4232.206) (-4239.563) * (-4232.345) [-4195.534] (-4234.591) (-4226.812) -- 0:18:35
      212500 -- [-4209.466] (-4216.304) (-4236.809) (-4246.270) * (-4233.642) [-4193.997] (-4232.509) (-4226.734) -- 0:18:31
      213000 -- [-4208.942] (-4226.189) (-4218.403) (-4242.647) * (-4224.531) [-4199.999] (-4234.196) (-4229.103) -- 0:18:32
      213500 -- (-4216.912) (-4215.516) [-4201.783] (-4266.038) * (-4230.093) (-4225.208) (-4231.121) [-4228.235] -- 0:18:32
      214000 -- [-4228.216] (-4226.006) (-4221.367) (-4264.233) * (-4218.487) (-4249.072) [-4231.885] (-4227.393) -- 0:18:29
      214500 -- (-4243.227) (-4227.712) [-4219.108] (-4245.787) * [-4213.108] (-4224.002) (-4234.253) (-4254.683) -- 0:18:29
      215000 -- (-4220.853) (-4229.477) [-4231.732] (-4246.385) * (-4215.309) [-4210.547] (-4248.258) (-4251.636) -- 0:18:29

      Average standard deviation of split frequencies: 0.043671

      215500 -- [-4231.075] (-4228.243) (-4228.281) (-4226.919) * (-4235.022) [-4203.785] (-4238.197) (-4237.097) -- 0:18:26
      216000 -- [-4216.984] (-4226.984) (-4215.379) (-4225.574) * (-4238.207) [-4216.407] (-4241.880) (-4225.166) -- 0:18:27
      216500 -- (-4241.374) (-4242.420) [-4215.856] (-4232.603) * (-4239.184) [-4218.751] (-4249.248) (-4221.678) -- 0:18:27
      217000 -- (-4232.080) (-4232.798) [-4211.128] (-4222.918) * (-4255.619) (-4219.013) [-4225.979] (-4230.110) -- 0:18:24
      217500 -- [-4227.692] (-4239.253) (-4226.800) (-4209.789) * (-4233.207) (-4217.507) (-4213.586) [-4221.081] -- 0:18:24
      218000 -- (-4226.429) (-4242.987) [-4216.229] (-4232.847) * (-4232.521) (-4232.158) (-4223.989) [-4215.261] -- 0:18:24
      218500 -- (-4224.366) (-4211.577) (-4209.771) [-4212.084] * (-4237.833) (-4228.457) [-4214.261] (-4224.516) -- 0:18:21
      219000 -- (-4232.964) [-4212.468] (-4206.856) (-4220.253) * (-4230.032) [-4218.358] (-4218.513) (-4235.335) -- 0:18:21
      219500 -- (-4223.650) (-4225.541) (-4210.957) [-4210.676] * (-4221.606) [-4224.745] (-4212.405) (-4235.888) -- 0:18:22
      220000 -- [-4227.376] (-4221.582) (-4228.942) (-4217.231) * (-4215.767) (-4226.948) [-4213.022] (-4225.565) -- 0:18:22

      Average standard deviation of split frequencies: 0.043031

      220500 -- [-4220.973] (-4218.673) (-4223.872) (-4231.372) * [-4236.770] (-4219.009) (-4229.755) (-4225.223) -- 0:18:19
      221000 -- [-4233.496] (-4219.587) (-4222.908) (-4239.277) * [-4232.490] (-4212.929) (-4214.041) (-4223.935) -- 0:18:19
      221500 -- (-4251.527) [-4203.416] (-4214.122) (-4234.827) * (-4217.236) [-4221.523] (-4239.050) (-4230.477) -- 0:18:20
      222000 -- (-4242.359) [-4199.759] (-4215.587) (-4230.702) * (-4220.531) [-4212.249] (-4229.811) (-4226.507) -- 0:18:16
      222500 -- (-4229.520) [-4211.902] (-4214.708) (-4247.844) * (-4208.862) (-4213.898) [-4224.651] (-4236.532) -- 0:18:17
      223000 -- (-4230.730) (-4210.025) [-4213.919] (-4235.636) * [-4208.849] (-4203.629) (-4213.505) (-4224.687) -- 0:18:17
      223500 -- (-4221.924) [-4228.910] (-4219.629) (-4235.178) * (-4224.135) (-4222.308) [-4214.583] (-4221.203) -- 0:18:14
      224000 -- (-4242.960) (-4238.007) [-4215.909] (-4215.467) * (-4228.049) (-4237.504) (-4220.567) [-4205.931] -- 0:18:14
      224500 -- (-4237.537) (-4228.841) (-4224.777) [-4208.767] * (-4208.106) (-4242.801) (-4209.231) [-4209.759] -- 0:18:15
      225000 -- (-4227.191) (-4214.531) (-4231.349) [-4202.825] * [-4204.955] (-4237.901) (-4234.089) (-4216.635) -- 0:18:11

      Average standard deviation of split frequencies: 0.041824

      225500 -- (-4233.186) [-4216.648] (-4222.518) (-4223.045) * (-4218.508) (-4219.937) [-4213.241] (-4209.260) -- 0:18:12
      226000 -- (-4244.440) (-4215.580) [-4217.211] (-4211.697) * [-4204.044] (-4232.089) (-4222.869) (-4230.946) -- 0:18:12
      226500 -- (-4245.856) (-4242.830) [-4209.408] (-4243.179) * (-4233.738) (-4220.005) [-4210.943] (-4242.390) -- 0:18:12
      227000 -- (-4239.233) (-4257.915) [-4222.912] (-4254.984) * [-4204.713] (-4218.172) (-4219.148) (-4224.777) -- 0:18:09
      227500 -- (-4240.105) (-4235.534) [-4210.936] (-4239.753) * (-4222.714) (-4230.261) (-4227.437) [-4226.255] -- 0:18:09
      228000 -- [-4217.440] (-4230.902) (-4203.847) (-4241.826) * (-4220.143) (-4222.630) (-4226.570) [-4197.932] -- 0:18:10
      228500 -- [-4222.497] (-4223.806) (-4217.734) (-4248.601) * (-4226.916) [-4209.911] (-4224.522) (-4216.652) -- 0:18:07
      229000 -- (-4221.867) [-4205.328] (-4230.849) (-4247.581) * (-4233.555) (-4222.354) (-4210.108) [-4200.400] -- 0:18:07
      229500 -- (-4239.651) [-4203.468] (-4235.996) (-4244.833) * (-4234.619) (-4227.001) [-4211.655] (-4214.660) -- 0:18:07
      230000 -- (-4232.860) (-4220.069) [-4208.662] (-4227.657) * (-4236.506) (-4229.148) [-4216.846] (-4216.175) -- 0:18:04

      Average standard deviation of split frequencies: 0.040811

      230500 -- [-4225.363] (-4247.236) (-4222.267) (-4219.218) * [-4231.333] (-4225.407) (-4226.323) (-4241.404) -- 0:18:04
      231000 -- (-4232.681) (-4240.425) [-4225.664] (-4228.459) * (-4232.889) [-4211.710] (-4228.556) (-4240.084) -- 0:18:05
      231500 -- [-4221.863] (-4233.313) (-4220.834) (-4212.352) * (-4231.989) (-4246.100) [-4225.643] (-4239.944) -- 0:18:02
      232000 -- (-4228.685) (-4220.281) (-4226.106) [-4214.795] * [-4216.652] (-4230.161) (-4208.133) (-4240.427) -- 0:18:02
      232500 -- (-4230.421) (-4225.276) (-4228.231) [-4207.425] * [-4213.235] (-4233.920) (-4225.071) (-4246.263) -- 0:18:02
      233000 -- (-4236.351) [-4235.589] (-4245.090) (-4218.109) * [-4199.247] (-4245.621) (-4224.629) (-4239.980) -- 0:18:03
      233500 -- (-4246.771) (-4216.394) (-4245.667) [-4210.530] * [-4204.734] (-4253.335) (-4246.818) (-4236.424) -- 0:17:59
      234000 -- (-4224.786) (-4231.392) (-4249.086) [-4207.790] * [-4211.717] (-4236.549) (-4239.067) (-4223.502) -- 0:18:00
      234500 -- [-4220.206] (-4219.432) (-4238.621) (-4219.856) * (-4231.569) (-4237.094) (-4227.843) [-4224.593] -- 0:18:00
      235000 -- (-4234.907) (-4227.990) (-4226.459) [-4218.248] * (-4218.328) (-4229.386) (-4217.929) [-4212.219] -- 0:17:57

      Average standard deviation of split frequencies: 0.040506

      235500 -- (-4237.015) (-4234.484) (-4226.667) [-4211.868] * (-4220.121) (-4231.420) (-4243.746) [-4197.820] -- 0:17:57
      236000 -- (-4252.856) (-4257.258) (-4216.041) [-4223.178] * [-4210.961] (-4239.821) (-4258.694) (-4212.442) -- 0:17:58
      236500 -- (-4256.167) [-4238.060] (-4244.602) (-4222.077) * [-4210.829] (-4211.115) (-4251.529) (-4225.312) -- 0:17:55
      237000 -- (-4245.771) (-4231.815) (-4246.672) [-4213.752] * (-4221.823) [-4229.303] (-4226.291) (-4215.211) -- 0:17:55
      237500 -- (-4225.391) [-4223.421] (-4252.294) (-4234.923) * (-4214.608) [-4227.854] (-4238.050) (-4209.313) -- 0:17:55
      238000 -- (-4227.900) [-4231.114] (-4247.247) (-4238.546) * (-4201.797) [-4229.705] (-4226.096) (-4228.733) -- 0:17:55
      238500 -- [-4217.554] (-4213.759) (-4245.706) (-4235.101) * [-4217.535] (-4224.006) (-4243.279) (-4232.487) -- 0:17:52
      239000 -- [-4217.406] (-4212.855) (-4226.791) (-4228.404) * [-4215.428] (-4230.645) (-4227.208) (-4239.799) -- 0:17:53
      239500 -- (-4229.503) [-4208.801] (-4228.165) (-4235.654) * (-4222.604) [-4219.930] (-4238.240) (-4224.006) -- 0:17:53
      240000 -- (-4238.901) [-4209.460] (-4230.984) (-4229.792) * (-4233.686) (-4227.137) [-4221.487] (-4235.353) -- 0:17:50

      Average standard deviation of split frequencies: 0.039767

      240500 -- (-4228.713) [-4221.113] (-4240.568) (-4231.412) * (-4230.320) [-4226.951] (-4236.708) (-4223.184) -- 0:17:50
      241000 -- (-4232.031) [-4229.924] (-4236.027) (-4231.743) * (-4217.059) (-4224.420) [-4214.018] (-4234.075) -- 0:17:50
      241500 -- [-4221.437] (-4218.974) (-4240.756) (-4213.534) * (-4225.302) [-4219.554] (-4236.800) (-4229.082) -- 0:17:47
      242000 -- (-4219.913) [-4206.633] (-4245.076) (-4219.095) * [-4216.910] (-4225.813) (-4235.310) (-4230.982) -- 0:17:48
      242500 -- (-4217.244) (-4212.307) (-4246.791) [-4215.401] * (-4219.634) [-4215.550] (-4257.508) (-4228.420) -- 0:17:48
      243000 -- (-4220.910) (-4229.493) [-4221.502] (-4215.880) * (-4216.137) [-4215.252] (-4252.269) (-4235.523) -- 0:17:45
      243500 -- (-4217.033) (-4242.593) [-4211.786] (-4221.231) * [-4234.985] (-4216.642) (-4233.007) (-4248.356) -- 0:17:45
      244000 -- [-4227.468] (-4229.206) (-4226.857) (-4236.295) * [-4228.751] (-4222.294) (-4236.910) (-4246.149) -- 0:17:45
      244500 -- (-4255.479) (-4223.095) [-4222.111] (-4235.072) * (-4227.454) (-4223.451) [-4222.361] (-4239.292) -- 0:17:42
      245000 -- (-4234.675) (-4228.704) [-4230.937] (-4236.812) * [-4229.246] (-4233.501) (-4229.605) (-4239.777) -- 0:17:43

      Average standard deviation of split frequencies: 0.038765

      245500 -- (-4227.284) (-4234.072) [-4229.221] (-4249.266) * (-4214.931) [-4215.183] (-4225.001) (-4238.585) -- 0:17:43
      246000 -- [-4214.792] (-4218.751) (-4230.317) (-4236.251) * [-4208.687] (-4230.070) (-4233.766) (-4235.077) -- 0:17:40
      246500 -- (-4211.579) (-4232.012) (-4226.331) [-4229.440] * [-4220.288] (-4239.594) (-4238.311) (-4226.340) -- 0:17:40
      247000 -- (-4218.734) [-4215.938] (-4228.533) (-4227.428) * (-4221.428) (-4227.190) (-4234.259) [-4224.694] -- 0:17:40
      247500 -- (-4230.066) (-4225.376) (-4238.323) [-4243.924] * [-4216.836] (-4241.040) (-4237.571) (-4216.870) -- 0:17:38
      248000 -- (-4213.852) [-4218.845] (-4234.092) (-4234.185) * (-4223.444) (-4242.680) [-4241.547] (-4221.391) -- 0:17:38
      248500 -- (-4215.600) [-4221.523] (-4229.706) (-4223.823) * [-4227.797] (-4222.738) (-4239.149) (-4226.716) -- 0:17:38
      249000 -- (-4225.302) (-4208.840) [-4222.501] (-4225.531) * (-4227.158) [-4212.252] (-4234.137) (-4223.473) -- 0:17:35
      249500 -- [-4212.104] (-4211.109) (-4222.032) (-4223.441) * (-4226.487) (-4227.727) [-4223.923] (-4225.762) -- 0:17:35
      250000 -- [-4216.629] (-4231.925) (-4232.834) (-4243.754) * (-4227.063) (-4220.005) [-4234.579] (-4244.097) -- 0:17:36

      Average standard deviation of split frequencies: 0.037929

      250500 -- [-4219.323] (-4229.572) (-4241.179) (-4244.711) * (-4211.196) (-4230.704) [-4218.239] (-4236.430) -- 0:17:33
      251000 -- [-4216.294] (-4210.647) (-4232.634) (-4239.688) * (-4215.090) [-4209.955] (-4207.467) (-4231.196) -- 0:17:33
      251500 -- [-4207.049] (-4215.449) (-4231.250) (-4232.128) * (-4224.641) (-4229.274) [-4210.002] (-4232.569) -- 0:17:33
      252000 -- [-4226.586] (-4227.038) (-4222.439) (-4226.930) * (-4222.188) (-4229.364) (-4235.347) [-4221.017] -- 0:17:30
      252500 -- (-4222.389) (-4241.186) (-4248.190) [-4201.013] * (-4216.871) (-4223.369) (-4237.291) [-4200.754] -- 0:17:30
      253000 -- (-4226.854) (-4251.851) (-4234.346) [-4211.707] * (-4206.828) (-4212.988) (-4238.170) [-4206.219] -- 0:17:31
      253500 -- [-4215.530] (-4245.437) (-4231.853) (-4228.054) * (-4207.756) (-4220.587) (-4227.997) [-4230.445] -- 0:17:28
      254000 -- (-4209.806) (-4240.662) [-4237.326] (-4245.643) * (-4237.526) (-4231.332) [-4223.772] (-4228.937) -- 0:17:28
      254500 -- [-4215.888] (-4234.848) (-4216.238) (-4240.355) * (-4222.492) (-4228.110) [-4227.247] (-4226.269) -- 0:17:28
      255000 -- [-4200.376] (-4254.228) (-4213.763) (-4241.212) * (-4230.452) (-4249.292) [-4212.941] (-4226.533) -- 0:17:25

      Average standard deviation of split frequencies: 0.035967

      255500 -- [-4205.214] (-4237.637) (-4210.687) (-4231.496) * (-4228.457) (-4245.001) (-4222.837) [-4224.787] -- 0:17:26
      256000 -- [-4202.312] (-4236.078) (-4234.724) (-4230.220) * (-4245.498) (-4242.780) (-4224.570) [-4216.558] -- 0:17:26
      256500 -- [-4199.975] (-4225.013) (-4209.733) (-4242.175) * (-4256.176) [-4223.355] (-4228.946) (-4219.591) -- 0:17:23
      257000 -- [-4213.140] (-4231.977) (-4233.202) (-4229.916) * (-4236.742) (-4228.542) (-4230.680) [-4207.664] -- 0:17:23
      257500 -- (-4238.733) (-4238.572) [-4222.228] (-4237.085) * (-4245.585) (-4240.578) (-4228.077) [-4208.096] -- 0:17:23
      258000 -- (-4221.742) (-4224.168) [-4207.834] (-4249.587) * (-4248.415) (-4224.026) (-4207.209) [-4220.772] -- 0:17:23
      258500 -- [-4234.063] (-4234.087) (-4221.622) (-4255.383) * (-4243.209) (-4254.536) (-4214.535) [-4199.506] -- 0:17:21
      259000 -- (-4235.443) (-4236.883) [-4216.428] (-4258.614) * (-4251.432) (-4247.647) [-4208.593] (-4197.598) -- 0:17:21
      259500 -- (-4216.323) [-4216.561] (-4218.911) (-4250.015) * (-4240.267) (-4240.311) [-4220.561] (-4211.678) -- 0:17:21
      260000 -- (-4225.379) (-4224.605) [-4214.932] (-4234.316) * (-4223.774) (-4234.825) (-4222.072) [-4222.973] -- 0:17:18

      Average standard deviation of split frequencies: 0.034989

      260500 -- (-4229.055) [-4210.774] (-4231.768) (-4227.705) * (-4238.052) (-4225.774) (-4239.769) [-4223.388] -- 0:17:18
      261000 -- [-4223.608] (-4222.094) (-4230.748) (-4222.951) * [-4232.182] (-4221.843) (-4243.775) (-4224.916) -- 0:17:19
      261500 -- (-4226.678) [-4220.628] (-4220.154) (-4233.804) * [-4227.762] (-4233.942) (-4224.731) (-4231.231) -- 0:17:19
      262000 -- [-4230.058] (-4219.988) (-4236.864) (-4245.724) * (-4225.201) (-4234.143) [-4205.369] (-4237.694) -- 0:17:16
      262500 -- (-4226.846) [-4216.470] (-4236.100) (-4218.624) * (-4216.932) (-4225.833) [-4208.555] (-4234.570) -- 0:17:16
      263000 -- (-4219.110) [-4214.077] (-4249.131) (-4223.267) * (-4229.509) (-4221.861) (-4209.605) [-4232.786] -- 0:17:16
      263500 -- (-4230.434) [-4219.087] (-4238.775) (-4228.991) * (-4233.700) [-4224.172] (-4211.421) (-4224.170) -- 0:17:14
      264000 -- (-4229.164) [-4201.618] (-4246.143) (-4232.588) * (-4239.720) (-4240.247) [-4216.699] (-4231.812) -- 0:17:14
      264500 -- (-4245.278) [-4197.806] (-4219.599) (-4250.274) * (-4241.679) (-4226.757) [-4219.109] (-4239.635) -- 0:17:14
      265000 -- (-4234.412) [-4205.933] (-4228.968) (-4235.670) * [-4230.449] (-4235.342) (-4230.503) (-4239.224) -- 0:17:11

      Average standard deviation of split frequencies: 0.033093

      265500 -- (-4233.683) (-4225.937) [-4219.217] (-4233.457) * (-4234.136) [-4221.029] (-4222.183) (-4236.220) -- 0:17:11
      266000 -- (-4245.072) (-4222.378) [-4209.943] (-4221.352) * (-4240.647) [-4214.778] (-4214.246) (-4239.175) -- 0:17:12
      266500 -- (-4238.874) (-4220.988) [-4206.389] (-4233.027) * [-4238.910] (-4223.419) (-4219.600) (-4248.805) -- 0:17:12
      267000 -- (-4239.116) (-4214.357) [-4217.440] (-4233.913) * (-4257.034) (-4227.963) [-4197.857] (-4223.074) -- 0:17:09
      267500 -- (-4240.491) [-4211.396] (-4235.589) (-4212.958) * (-4259.854) (-4216.404) [-4203.397] (-4229.498) -- 0:17:09
      268000 -- (-4240.768) (-4232.222) (-4229.761) [-4216.761] * (-4261.634) (-4220.294) [-4220.981] (-4219.940) -- 0:17:09
      268500 -- (-4220.795) (-4225.725) (-4227.197) [-4207.142] * (-4247.644) (-4240.219) [-4231.809] (-4232.781) -- 0:17:07
      269000 -- [-4207.888] (-4236.209) (-4220.784) (-4218.598) * (-4234.348) (-4255.601) (-4242.922) [-4228.617] -- 0:17:07
      269500 -- [-4199.086] (-4227.297) (-4237.851) (-4215.695) * (-4239.720) [-4235.552] (-4225.584) (-4238.659) -- 0:17:07
      270000 -- [-4209.025] (-4221.196) (-4251.670) (-4213.680) * (-4221.320) (-4250.021) (-4234.877) [-4219.366] -- 0:17:07

      Average standard deviation of split frequencies: 0.031441

      270500 -- (-4221.840) (-4244.931) (-4236.411) [-4214.220] * (-4223.574) (-4255.561) [-4214.332] (-4223.818) -- 0:17:04
      271000 -- [-4212.260] (-4237.300) (-4233.850) (-4244.058) * (-4229.191) [-4215.541] (-4220.876) (-4221.754) -- 0:17:04
      271500 -- [-4208.699] (-4228.084) (-4238.155) (-4258.476) * (-4234.836) (-4225.533) (-4230.491) [-4228.014] -- 0:17:04
      272000 -- (-4226.677) [-4229.282] (-4242.170) (-4266.318) * (-4240.131) (-4248.132) (-4229.668) [-4216.775] -- 0:17:02
      272500 -- (-4224.653) [-4231.819] (-4231.814) (-4248.139) * (-4245.103) (-4242.671) (-4233.947) [-4214.156] -- 0:17:02
      273000 -- (-4218.026) [-4233.105] (-4231.133) (-4237.020) * (-4243.095) (-4235.095) (-4223.483) [-4213.530] -- 0:17:02
      273500 -- (-4215.549) (-4228.573) (-4261.870) [-4225.057] * (-4223.812) (-4244.410) (-4229.421) [-4211.636] -- 0:17:00
      274000 -- (-4215.196) (-4226.919) (-4260.452) [-4227.486] * (-4226.132) (-4246.258) (-4232.222) [-4217.804] -- 0:17:00
      274500 -- (-4214.998) (-4235.372) (-4241.608) [-4215.451] * (-4228.255) (-4237.374) [-4229.504] (-4230.326) -- 0:17:00
      275000 -- (-4220.487) (-4231.994) (-4241.752) [-4214.255] * [-4216.634] (-4233.385) (-4224.868) (-4243.579) -- 0:17:00

      Average standard deviation of split frequencies: 0.029108

      275500 -- (-4216.776) (-4233.578) (-4241.382) [-4217.026] * (-4237.648) [-4229.831] (-4223.249) (-4244.730) -- 0:16:57
      276000 -- [-4223.612] (-4235.113) (-4231.420) (-4231.791) * (-4214.018) (-4223.109) [-4230.277] (-4236.282) -- 0:16:57
      276500 -- (-4224.046) (-4227.587) [-4225.929] (-4223.167) * [-4209.213] (-4221.079) (-4227.731) (-4234.898) -- 0:16:57
      277000 -- [-4218.241] (-4250.677) (-4223.273) (-4219.661) * [-4213.513] (-4222.132) (-4218.794) (-4254.331) -- 0:16:55
      277500 -- (-4214.934) (-4249.563) (-4255.856) [-4208.708] * (-4222.908) [-4220.045] (-4207.159) (-4227.518) -- 0:16:55
      278000 -- [-4212.748] (-4250.694) (-4232.325) (-4213.850) * [-4221.379] (-4250.743) (-4213.542) (-4228.720) -- 0:16:55
      278500 -- (-4224.184) (-4242.943) (-4220.669) [-4218.530] * (-4221.504) (-4245.878) (-4219.383) [-4219.385] -- 0:16:52
      279000 -- (-4211.225) (-4241.232) [-4206.096] (-4223.959) * (-4234.196) (-4220.643) (-4223.920) [-4221.474] -- 0:16:53
      279500 -- (-4207.901) (-4253.967) [-4220.008] (-4240.462) * [-4219.816] (-4240.081) (-4228.871) (-4234.977) -- 0:16:53
      280000 -- [-4209.297] (-4250.883) (-4206.130) (-4238.163) * (-4217.056) (-4234.092) [-4218.982] (-4232.713) -- 0:16:53

      Average standard deviation of split frequencies: 0.028443

      280500 -- [-4205.988] (-4260.438) (-4240.477) (-4229.992) * [-4222.368] (-4230.926) (-4219.012) (-4233.087) -- 0:16:50
      281000 -- (-4212.181) (-4260.261) [-4217.009] (-4221.208) * (-4219.095) (-4239.389) (-4225.067) [-4230.017] -- 0:16:50
      281500 -- [-4219.839] (-4239.838) (-4228.165) (-4233.527) * (-4212.752) [-4216.765] (-4216.196) (-4223.277) -- 0:16:50
      282000 -- [-4203.762] (-4231.659) (-4243.446) (-4220.311) * (-4202.692) (-4211.089) [-4205.621] (-4236.239) -- 0:16:50
      282500 -- (-4209.391) (-4237.496) (-4236.596) [-4212.719] * (-4215.230) [-4215.108] (-4201.994) (-4230.263) -- 0:16:48
      283000 -- (-4217.045) (-4240.361) (-4241.765) [-4212.662] * (-4221.697) [-4220.746] (-4217.321) (-4240.485) -- 0:16:48
      283500 -- (-4222.410) (-4235.017) [-4225.403] (-4222.419) * (-4241.500) (-4221.821) [-4205.420] (-4234.357) -- 0:16:48
      284000 -- (-4217.786) (-4237.281) [-4225.991] (-4223.752) * (-4236.849) (-4248.488) (-4207.246) [-4226.769] -- 0:16:45
      284500 -- (-4225.245) (-4246.290) (-4242.935) [-4215.795] * (-4228.863) (-4237.519) [-4205.265] (-4235.259) -- 0:16:45
      285000 -- (-4228.683) (-4249.222) (-4221.784) [-4218.817] * (-4216.664) (-4232.820) [-4206.149] (-4231.724) -- 0:16:46

      Average standard deviation of split frequencies: 0.027442

      285500 -- (-4219.690) (-4249.005) [-4234.020] (-4217.590) * (-4221.837) (-4230.859) [-4222.144] (-4241.153) -- 0:16:46
      286000 -- [-4217.736] (-4236.957) (-4249.698) (-4213.355) * (-4216.099) [-4227.613] (-4227.762) (-4220.622) -- 0:16:43
      286500 -- (-4216.576) (-4224.692) (-4232.442) [-4200.184] * (-4215.595) (-4204.172) (-4233.922) [-4221.060] -- 0:16:43
      287000 -- [-4206.750] (-4238.292) (-4228.554) (-4227.034) * (-4214.296) [-4212.904] (-4231.892) (-4240.111) -- 0:16:43
      287500 -- [-4214.141] (-4244.207) (-4233.296) (-4239.087) * (-4216.178) [-4206.199] (-4221.168) (-4238.225) -- 0:16:41
      288000 -- [-4215.098] (-4260.044) (-4228.420) (-4244.457) * (-4225.313) (-4207.527) [-4211.158] (-4241.488) -- 0:16:41
      288500 -- (-4208.108) (-4245.542) [-4241.356] (-4251.073) * (-4224.641) [-4207.238] (-4234.659) (-4239.956) -- 0:16:41
      289000 -- [-4203.794] (-4250.102) (-4252.483) (-4240.650) * (-4226.191) [-4206.114] (-4223.981) (-4246.543) -- 0:16:41
      289500 -- (-4213.824) [-4235.081] (-4239.582) (-4249.265) * (-4219.588) [-4213.239] (-4213.506) (-4230.575) -- 0:16:38
      290000 -- (-4223.902) (-4242.418) (-4232.998) [-4233.588] * [-4222.454] (-4216.712) (-4233.740) (-4247.179) -- 0:16:38

      Average standard deviation of split frequencies: 0.027847

      290500 -- [-4209.395] (-4231.398) (-4226.334) (-4228.644) * (-4227.001) [-4231.477] (-4223.613) (-4225.473) -- 0:16:38
      291000 -- (-4223.735) [-4225.481] (-4220.198) (-4230.138) * (-4233.429) (-4229.344) [-4224.454] (-4225.489) -- 0:16:36
      291500 -- (-4233.872) (-4227.626) [-4228.856] (-4230.569) * (-4233.244) (-4248.454) [-4209.361] (-4215.729) -- 0:16:36
      292000 -- [-4214.859] (-4225.698) (-4226.556) (-4246.978) * (-4237.567) (-4238.354) [-4208.270] (-4225.720) -- 0:16:36
      292500 -- (-4219.323) [-4219.277] (-4228.875) (-4225.826) * [-4243.762] (-4229.711) (-4231.142) (-4230.227) -- 0:16:36
      293000 -- (-4253.315) [-4221.160] (-4218.640) (-4232.067) * (-4235.023) (-4215.736) (-4222.852) [-4225.012] -- 0:16:34
      293500 -- (-4240.373) (-4215.601) [-4224.661] (-4237.723) * (-4220.306) [-4219.318] (-4221.731) (-4235.851) -- 0:16:34
      294000 -- (-4227.067) (-4217.846) (-4216.463) [-4207.905] * (-4216.032) [-4209.904] (-4240.257) (-4229.597) -- 0:16:34
      294500 -- (-4219.663) (-4225.231) [-4216.841] (-4231.330) * (-4217.064) [-4206.145] (-4236.870) (-4230.045) -- 0:16:31
      295000 -- (-4220.195) (-4218.164) [-4209.741] (-4220.402) * (-4225.294) [-4221.022] (-4260.874) (-4226.971) -- 0:16:31

      Average standard deviation of split frequencies: 0.028084

      295500 -- (-4233.436) (-4225.057) [-4205.480] (-4242.883) * [-4223.582] (-4233.580) (-4246.021) (-4244.449) -- 0:16:31
      296000 -- (-4211.740) (-4234.068) [-4213.061] (-4233.066) * [-4221.847] (-4238.595) (-4257.711) (-4232.656) -- 0:16:31
      296500 -- (-4213.568) (-4234.836) (-4218.556) [-4227.729] * (-4221.367) (-4248.500) (-4234.804) [-4218.255] -- 0:16:29
      297000 -- (-4236.000) (-4228.398) [-4208.961] (-4217.840) * (-4245.473) [-4219.542] (-4247.283) (-4222.480) -- 0:16:29
      297500 -- (-4224.535) [-4226.009] (-4232.751) (-4231.673) * (-4245.070) (-4230.706) (-4229.014) [-4230.263] -- 0:16:29
      298000 -- (-4234.230) (-4246.714) [-4225.948] (-4230.299) * (-4250.709) [-4209.349] (-4232.736) (-4233.050) -- 0:16:29
      298500 -- [-4215.015] (-4245.268) (-4218.429) (-4219.109) * (-4232.442) (-4232.039) [-4242.324] (-4217.207) -- 0:16:27
      299000 -- [-4206.876] (-4236.443) (-4221.972) (-4227.767) * (-4233.064) (-4239.602) (-4247.749) [-4212.167] -- 0:16:27
      299500 -- (-4219.651) (-4228.737) [-4220.087] (-4230.254) * (-4229.389) (-4248.597) (-4226.640) [-4204.036] -- 0:16:27
      300000 -- (-4213.335) [-4208.117] (-4221.574) (-4230.757) * (-4241.283) (-4234.816) (-4241.315) [-4216.845] -- 0:16:24

      Average standard deviation of split frequencies: 0.029176

      300500 -- [-4192.769] (-4218.358) (-4224.054) (-4230.361) * (-4225.900) (-4228.979) (-4242.009) [-4202.964] -- 0:16:24
      301000 -- (-4199.615) [-4200.995] (-4225.061) (-4214.301) * (-4230.106) (-4247.299) (-4229.365) [-4206.884] -- 0:16:24
      301500 -- (-4212.886) [-4219.726] (-4242.140) (-4211.998) * (-4226.568) (-4233.000) [-4218.827] (-4215.340) -- 0:16:24
      302000 -- (-4228.229) (-4244.526) (-4243.767) [-4210.120] * (-4228.074) (-4214.032) (-4230.025) [-4216.656] -- 0:16:22
      302500 -- (-4219.162) (-4247.440) (-4244.250) [-4210.710] * (-4227.387) [-4213.133] (-4233.704) (-4204.553) -- 0:16:22
      303000 -- (-4231.034) (-4231.562) (-4245.534) [-4215.969] * (-4210.872) (-4212.979) (-4230.148) [-4210.655] -- 0:16:22
      303500 -- [-4220.866] (-4222.814) (-4227.056) (-4205.231) * (-4236.122) (-4225.113) (-4247.440) [-4210.842] -- 0:16:19
      304000 -- (-4229.321) (-4220.527) (-4226.784) [-4212.338] * (-4241.523) (-4230.638) (-4241.927) [-4214.825] -- 0:16:19
      304500 -- (-4233.819) (-4238.534) (-4212.272) [-4207.013] * (-4245.032) (-4230.291) (-4250.466) [-4223.762] -- 0:16:19
      305000 -- (-4233.571) (-4228.401) [-4212.352] (-4208.168) * (-4229.130) [-4232.253] (-4245.292) (-4230.629) -- 0:16:19

      Average standard deviation of split frequencies: 0.027566

      305500 -- (-4224.255) (-4233.044) (-4224.850) [-4210.876] * (-4251.602) (-4222.835) (-4252.982) [-4214.655] -- 0:16:17
      306000 -- (-4222.578) (-4230.287) [-4218.296] (-4215.783) * (-4231.705) [-4215.856] (-4272.964) (-4214.236) -- 0:16:17
      306500 -- (-4229.416) (-4224.560) (-4212.836) [-4213.290] * (-4237.960) [-4218.378] (-4250.404) (-4239.700) -- 0:16:17
      307000 -- (-4239.011) (-4231.759) (-4223.792) [-4218.052] * (-4217.997) [-4209.649] (-4246.018) (-4229.872) -- 0:16:15
      307500 -- (-4237.276) (-4239.514) [-4215.631] (-4221.697) * (-4208.493) [-4212.139] (-4250.155) (-4239.371) -- 0:16:15
      308000 -- (-4236.071) (-4233.539) [-4213.182] (-4225.578) * [-4210.558] (-4216.282) (-4255.081) (-4231.156) -- 0:16:15
      308500 -- (-4220.401) (-4255.073) (-4237.079) [-4219.992] * (-4223.845) (-4219.038) (-4258.840) [-4224.324] -- 0:16:12
      309000 -- (-4224.517) (-4258.842) (-4236.963) [-4202.443] * (-4229.469) (-4235.149) [-4234.064] (-4226.182) -- 0:16:12
      309500 -- (-4209.497) (-4250.378) (-4230.446) [-4204.817] * [-4222.709] (-4218.872) (-4220.951) (-4225.308) -- 0:16:12
      310000 -- (-4228.337) (-4244.199) (-4232.210) [-4209.531] * (-4216.743) (-4231.306) [-4210.663] (-4235.689) -- 0:16:10

      Average standard deviation of split frequencies: 0.026248

      310500 -- [-4221.411] (-4242.426) (-4229.885) (-4237.615) * (-4226.804) (-4244.647) (-4224.627) [-4225.006] -- 0:16:10
      311000 -- [-4218.844] (-4258.707) (-4220.621) (-4231.050) * (-4229.118) [-4231.657] (-4245.070) (-4220.291) -- 0:16:10
      311500 -- (-4219.463) (-4256.948) [-4216.875] (-4225.356) * [-4218.930] (-4236.922) (-4228.639) (-4246.123) -- 0:16:08
      312000 -- (-4221.042) (-4252.031) (-4228.958) [-4231.540] * (-4214.988) [-4224.097] (-4221.970) (-4225.606) -- 0:16:08
      312500 -- [-4236.187] (-4250.837) (-4217.580) (-4228.563) * (-4212.920) (-4229.158) [-4216.312] (-4235.839) -- 0:16:08
      313000 -- (-4235.012) (-4248.714) (-4222.002) [-4213.878] * (-4222.067) (-4234.343) [-4209.184] (-4239.345) -- 0:16:05
      313500 -- (-4239.808) (-4229.881) [-4211.456] (-4220.098) * [-4203.210] (-4221.699) (-4211.937) (-4229.736) -- 0:16:05
      314000 -- (-4236.042) (-4220.837) (-4218.123) [-4217.950] * (-4207.801) (-4233.764) [-4203.061] (-4224.248) -- 0:16:05
      314500 -- (-4245.934) [-4213.310] (-4233.863) (-4236.680) * [-4210.717] (-4246.931) (-4229.847) (-4224.512) -- 0:16:05
      315000 -- (-4233.068) [-4225.985] (-4232.415) (-4243.680) * (-4226.474) (-4244.521) (-4223.700) [-4206.206] -- 0:16:03

      Average standard deviation of split frequencies: 0.026408

      315500 -- (-4259.234) (-4212.357) [-4225.640] (-4259.332) * [-4229.001] (-4247.562) (-4233.050) (-4201.462) -- 0:16:03
      316000 -- (-4239.728) (-4237.048) [-4230.131] (-4231.352) * (-4238.640) (-4233.370) [-4216.030] (-4212.981) -- 0:16:03
      316500 -- (-4240.850) (-4222.973) (-4234.160) [-4223.735] * (-4237.217) (-4223.810) (-4214.947) [-4228.529] -- 0:16:03
      317000 -- (-4229.088) (-4257.079) [-4229.643] (-4234.499) * [-4224.163] (-4227.918) (-4227.784) (-4227.141) -- 0:16:00
      317500 -- (-4261.717) [-4235.192] (-4232.179) (-4226.552) * (-4225.200) (-4232.564) [-4206.469] (-4229.751) -- 0:16:00
      318000 -- (-4241.369) (-4229.566) (-4245.652) [-4223.279] * (-4237.280) (-4233.717) (-4234.550) [-4221.780] -- 0:16:00
      318500 -- (-4239.902) [-4220.753] (-4229.042) (-4222.684) * (-4232.175) (-4237.079) (-4224.247) [-4206.581] -- 0:15:58
      319000 -- (-4241.560) (-4215.211) (-4222.560) [-4214.612] * (-4246.255) (-4228.695) [-4201.256] (-4215.486) -- 0:15:58
      319500 -- (-4230.411) [-4214.759] (-4242.208) (-4221.337) * (-4255.859) [-4216.334] (-4212.944) (-4215.048) -- 0:15:58
      320000 -- (-4244.796) (-4225.513) (-4237.614) [-4228.118] * (-4244.913) [-4218.155] (-4205.820) (-4241.233) -- 0:15:56

      Average standard deviation of split frequencies: 0.027596

      320500 -- (-4249.932) (-4231.293) (-4241.660) [-4219.545] * [-4222.826] (-4217.585) (-4208.607) (-4247.960) -- 0:15:56
      321000 -- (-4241.827) [-4202.161] (-4250.242) (-4218.922) * [-4212.049] (-4213.478) (-4222.596) (-4237.032) -- 0:15:56
      321500 -- (-4240.981) (-4226.387) (-4230.138) [-4210.322] * [-4203.907] (-4225.472) (-4236.827) (-4228.087) -- 0:15:53
      322000 -- (-4230.849) [-4216.632] (-4217.196) (-4219.199) * (-4208.814) (-4212.316) (-4240.636) [-4214.367] -- 0:15:53
      322500 -- (-4225.019) (-4208.881) (-4212.412) [-4204.189] * [-4210.190] (-4222.922) (-4229.692) (-4232.359) -- 0:15:53
      323000 -- (-4243.227) [-4211.516] (-4224.811) (-4223.901) * [-4208.988] (-4228.295) (-4240.205) (-4225.449) -- 0:15:53
      323500 -- (-4242.958) [-4204.789] (-4222.703) (-4210.664) * (-4212.440) [-4199.647] (-4240.015) (-4232.555) -- 0:15:51
      324000 -- (-4242.119) [-4215.013] (-4219.896) (-4218.728) * (-4218.535) (-4212.314) (-4227.035) [-4217.955] -- 0:15:51
      324500 -- (-4230.392) (-4218.482) [-4208.709] (-4211.003) * (-4229.424) [-4198.789] (-4233.365) (-4224.126) -- 0:15:51
      325000 -- (-4231.713) (-4230.986) (-4210.932) [-4204.725] * (-4232.725) (-4196.222) (-4221.544) [-4224.817] -- 0:15:49

      Average standard deviation of split frequencies: 0.027412

      325500 -- (-4235.094) (-4217.333) [-4212.071] (-4227.264) * (-4239.747) [-4200.786] (-4228.362) (-4228.406) -- 0:15:49
      326000 -- (-4240.929) (-4214.838) [-4213.944] (-4226.465) * (-4239.800) [-4211.954] (-4229.856) (-4246.492) -- 0:15:48
      326500 -- (-4235.334) (-4214.122) (-4235.658) [-4222.515] * (-4237.879) [-4217.397] (-4224.455) (-4236.700) -- 0:15:46
      327000 -- (-4251.452) [-4222.553] (-4242.786) (-4227.121) * (-4240.846) [-4216.938] (-4218.388) (-4235.741) -- 0:15:46
      327500 -- (-4241.083) (-4216.163) (-4234.642) [-4210.334] * (-4257.823) (-4212.819) [-4214.322] (-4242.003) -- 0:15:46
      328000 -- (-4243.335) (-4213.739) (-4237.773) [-4220.782] * (-4246.529) [-4212.550] (-4217.267) (-4249.368) -- 0:15:44
      328500 -- (-4247.502) [-4219.495] (-4248.584) (-4227.518) * (-4254.743) (-4211.574) [-4225.452] (-4229.603) -- 0:15:44
      329000 -- (-4232.842) [-4208.437] (-4240.360) (-4227.624) * (-4248.221) (-4218.794) (-4233.336) [-4218.236] -- 0:15:44
      329500 -- (-4239.962) (-4226.891) [-4235.683] (-4234.604) * (-4254.941) [-4217.070] (-4215.370) (-4225.866) -- 0:15:42
      330000 -- (-4234.102) [-4215.291] (-4218.431) (-4225.107) * (-4258.550) [-4218.750] (-4229.238) (-4227.963) -- 0:15:42

      Average standard deviation of split frequencies: 0.027639

      330500 -- (-4241.416) (-4227.540) (-4231.469) [-4216.195] * (-4239.986) (-4242.368) [-4212.835] (-4227.927) -- 0:15:41
      331000 -- [-4220.728] (-4222.426) (-4219.639) (-4247.969) * (-4219.045) (-4235.124) [-4217.370] (-4234.677) -- 0:15:39
      331500 -- (-4209.005) (-4231.364) [-4229.966] (-4232.609) * (-4216.144) (-4238.829) [-4212.166] (-4240.743) -- 0:15:39
      332000 -- (-4207.982) (-4231.921) (-4231.161) [-4226.569] * [-4215.936] (-4237.751) (-4221.065) (-4230.102) -- 0:15:39
      332500 -- (-4220.408) (-4217.841) [-4210.735] (-4231.560) * (-4218.996) [-4217.619] (-4223.364) (-4227.189) -- 0:15:37
      333000 -- [-4228.780] (-4210.107) (-4226.490) (-4235.540) * (-4242.141) (-4214.318) (-4215.744) [-4217.651] -- 0:15:37
      333500 -- (-4226.575) (-4218.089) [-4210.874] (-4229.281) * (-4217.108) (-4233.188) (-4222.485) [-4216.551] -- 0:15:37
      334000 -- (-4220.727) [-4215.466] (-4215.446) (-4228.585) * (-4221.101) (-4237.665) (-4221.912) [-4220.722] -- 0:15:37
      334500 -- (-4218.523) (-4218.149) [-4214.647] (-4217.600) * [-4206.348] (-4228.831) (-4219.476) (-4219.867) -- 0:15:35
      335000 -- (-4226.623) [-4210.369] (-4219.689) (-4220.883) * [-4210.519] (-4237.604) (-4217.064) (-4217.467) -- 0:15:34

      Average standard deviation of split frequencies: 0.028548

      335500 -- (-4237.710) (-4231.682) (-4229.727) [-4226.201] * (-4242.418) (-4239.169) [-4212.229] (-4225.866) -- 0:15:34
      336000 -- (-4236.703) [-4210.141] (-4250.634) (-4229.272) * (-4220.060) (-4233.807) (-4249.921) [-4207.972] -- 0:15:32
      336500 -- (-4227.172) [-4216.089] (-4254.930) (-4240.400) * (-4213.146) (-4262.202) [-4218.873] (-4200.004) -- 0:15:32
      337000 -- (-4234.012) [-4219.296] (-4251.241) (-4235.267) * (-4217.146) (-4249.251) (-4231.899) [-4208.157] -- 0:15:32
      337500 -- (-4218.876) [-4217.347] (-4248.723) (-4225.166) * (-4213.200) (-4236.199) (-4232.539) [-4209.477] -- 0:15:32
      338000 -- [-4212.789] (-4210.765) (-4242.754) (-4221.171) * (-4237.637) [-4217.838] (-4224.620) (-4217.776) -- 0:15:30
      338500 -- [-4217.337] (-4220.062) (-4254.826) (-4233.598) * (-4233.881) [-4219.339] (-4233.630) (-4218.151) -- 0:15:30
      339000 -- (-4211.671) (-4206.677) (-4241.662) [-4207.542] * (-4235.118) (-4236.965) (-4233.432) [-4222.176] -- 0:15:30
      339500 -- (-4216.671) [-4216.393] (-4244.489) (-4222.184) * (-4240.987) [-4222.262] (-4241.184) (-4225.146) -- 0:15:28
      340000 -- [-4201.079] (-4208.102) (-4255.603) (-4223.887) * [-4231.914] (-4234.124) (-4232.995) (-4216.639) -- 0:15:27

      Average standard deviation of split frequencies: 0.028984

      340500 -- [-4215.458] (-4219.539) (-4240.771) (-4216.351) * (-4223.268) (-4251.407) (-4225.534) [-4212.410] -- 0:15:27
      341000 -- (-4217.395) [-4215.293] (-4242.870) (-4233.241) * (-4224.365) (-4246.014) (-4225.298) [-4213.633] -- 0:15:27
      341500 -- [-4216.639] (-4220.555) (-4237.765) (-4222.973) * (-4225.933) (-4251.750) (-4212.654) [-4209.783] -- 0:15:25
      342000 -- (-4218.505) [-4209.092] (-4258.069) (-4235.649) * [-4217.969] (-4250.356) (-4230.029) (-4225.187) -- 0:15:25
      342500 -- (-4230.784) [-4202.937] (-4227.407) (-4219.327) * (-4224.037) (-4228.995) (-4246.638) [-4196.439] -- 0:15:25
      343000 -- (-4236.821) [-4198.729] (-4224.133) (-4211.540) * (-4220.425) (-4229.009) (-4235.314) [-4220.558] -- 0:15:25
      343500 -- (-4226.356) (-4222.196) (-4245.964) [-4208.480] * [-4226.364] (-4220.467) (-4244.746) (-4218.918) -- 0:15:23
      344000 -- (-4226.180) (-4228.724) (-4228.419) [-4212.616] * (-4228.328) (-4222.060) [-4217.681] (-4223.577) -- 0:15:22
      344500 -- (-4233.821) (-4220.631) (-4238.145) [-4213.200] * (-4230.446) [-4205.181] (-4205.790) (-4233.646) -- 0:15:22
      345000 -- (-4220.677) (-4224.432) (-4246.020) [-4205.546] * (-4246.314) [-4208.080] (-4213.677) (-4206.006) -- 0:15:20

      Average standard deviation of split frequencies: 0.028759

      345500 -- (-4223.648) (-4248.356) (-4226.136) [-4217.752] * (-4230.482) (-4198.827) (-4214.860) [-4202.145] -- 0:15:20
      346000 -- [-4221.667] (-4233.094) (-4231.807) (-4225.694) * [-4217.860] (-4217.723) (-4216.172) (-4209.980) -- 0:15:20
      346500 -- (-4229.225) (-4232.270) [-4224.616] (-4235.475) * (-4215.470) (-4233.555) [-4218.134] (-4215.419) -- 0:15:18
      347000 -- [-4216.735] (-4230.159) (-4217.127) (-4252.103) * (-4223.088) (-4244.402) (-4220.368) [-4215.770] -- 0:15:18
      347500 -- [-4216.960] (-4245.698) (-4235.949) (-4235.250) * (-4230.859) (-4241.283) (-4228.025) [-4228.673] -- 0:15:18
      348000 -- (-4216.034) (-4227.611) (-4240.155) [-4210.955] * [-4216.752] (-4222.998) (-4247.280) (-4229.320) -- 0:15:18
      348500 -- [-4218.660] (-4225.649) (-4220.682) (-4221.038) * (-4226.534) (-4211.549) (-4242.315) [-4219.414] -- 0:15:16
      349000 -- (-4212.113) (-4204.240) [-4218.974] (-4235.321) * (-4236.982) (-4226.788) (-4250.958) [-4224.004] -- 0:15:15
      349500 -- [-4219.583] (-4208.424) (-4239.085) (-4244.414) * (-4230.099) (-4238.003) [-4241.681] (-4218.327) -- 0:15:15
      350000 -- (-4218.642) [-4224.519] (-4240.972) (-4219.088) * (-4232.182) (-4234.955) (-4239.447) [-4225.142] -- 0:15:13

      Average standard deviation of split frequencies: 0.028216

      350500 -- (-4218.236) (-4230.198) (-4232.397) [-4215.572] * (-4235.184) (-4238.984) [-4231.723] (-4231.252) -- 0:15:13
      351000 -- (-4230.358) [-4223.441] (-4217.224) (-4233.634) * (-4222.327) (-4247.109) (-4225.819) [-4221.271] -- 0:15:13
      351500 -- (-4236.812) (-4225.219) (-4214.281) [-4204.349] * (-4232.525) (-4229.196) [-4214.811] (-4224.599) -- 0:15:13
      352000 -- (-4231.274) [-4214.214] (-4223.243) (-4205.120) * (-4239.843) (-4215.595) [-4203.594] (-4230.407) -- 0:15:11
      352500 -- (-4229.467) (-4223.811) [-4212.775] (-4220.257) * (-4225.733) (-4215.329) [-4209.357] (-4235.832) -- 0:15:11
      353000 -- [-4227.962] (-4222.486) (-4234.831) (-4207.727) * (-4232.006) (-4225.954) [-4208.075] (-4228.903) -- 0:15:10
      353500 -- (-4248.381) (-4216.716) (-4227.917) [-4207.219] * (-4239.882) (-4227.275) [-4204.312] (-4225.839) -- 0:15:08
      354000 -- (-4249.121) (-4209.145) (-4228.826) [-4219.230] * (-4242.192) (-4220.941) [-4204.092] (-4234.513) -- 0:15:08
      354500 -- (-4233.320) [-4217.455] (-4231.687) (-4214.719) * (-4231.397) (-4221.653) (-4227.786) [-4205.937] -- 0:15:08
      355000 -- (-4239.415) [-4224.246] (-4219.100) (-4226.589) * (-4234.419) (-4222.094) (-4215.623) [-4213.347] -- 0:15:08

      Average standard deviation of split frequencies: 0.028797

      355500 -- (-4223.773) (-4243.113) (-4235.595) [-4222.640] * (-4243.299) (-4213.332) [-4212.515] (-4221.319) -- 0:15:06
      356000 -- [-4218.142] (-4224.675) (-4244.817) (-4237.792) * (-4232.083) (-4214.765) (-4217.875) [-4208.502] -- 0:15:06
      356500 -- [-4209.811] (-4205.067) (-4233.031) (-4251.350) * (-4236.193) (-4234.632) (-4238.497) [-4217.469] -- 0:15:06
      357000 -- [-4208.011] (-4210.378) (-4233.379) (-4227.068) * (-4247.079) [-4231.467] (-4248.478) (-4210.153) -- 0:15:04
      357500 -- [-4201.903] (-4214.136) (-4236.703) (-4228.027) * (-4229.795) (-4234.393) (-4233.399) [-4215.160] -- 0:15:03
      358000 -- (-4212.612) [-4210.981] (-4254.266) (-4230.156) * (-4244.963) (-4237.537) (-4240.708) [-4212.598] -- 0:15:03
      358500 -- (-4208.458) [-4196.511] (-4233.875) (-4234.066) * (-4239.716) (-4233.892) (-4246.961) [-4216.994] -- 0:15:03
      359000 -- (-4223.620) [-4209.305] (-4247.615) (-4218.375) * (-4241.633) (-4224.806) (-4235.890) [-4213.894] -- 0:15:01
      359500 -- (-4226.759) [-4219.987] (-4241.260) (-4235.103) * (-4238.256) (-4211.771) [-4220.044] (-4237.197) -- 0:15:01
      360000 -- (-4214.867) [-4211.069] (-4248.215) (-4236.697) * [-4214.623] (-4221.141) (-4232.910) (-4229.887) -- 0:15:01

      Average standard deviation of split frequencies: 0.028209

      360500 -- (-4214.009) [-4202.176] (-4230.325) (-4226.190) * (-4207.045) [-4215.329] (-4249.342) (-4212.856) -- 0:14:59
      361000 -- (-4219.071) (-4216.641) [-4224.731] (-4221.570) * [-4211.119] (-4223.959) (-4230.472) (-4219.089) -- 0:14:59
      361500 -- [-4213.932] (-4221.433) (-4245.035) (-4226.136) * (-4225.890) (-4244.240) [-4219.191] (-4217.121) -- 0:14:59
      362000 -- (-4225.600) [-4211.485] (-4245.395) (-4216.966) * (-4232.671) (-4239.166) [-4220.952] (-4226.224) -- 0:14:57
      362500 -- (-4224.935) (-4222.972) [-4225.847] (-4240.777) * (-4225.744) (-4237.509) (-4224.717) [-4221.348] -- 0:14:56
      363000 -- (-4237.310) (-4231.635) [-4219.605] (-4226.337) * (-4232.798) (-4220.700) (-4227.523) [-4219.964] -- 0:14:56
      363500 -- (-4224.955) (-4219.191) (-4232.156) [-4212.500] * (-4221.922) (-4212.022) [-4217.514] (-4222.031) -- 0:14:56
      364000 -- (-4220.254) (-4219.145) (-4234.569) [-4205.781] * (-4226.912) (-4215.126) (-4238.315) [-4222.577] -- 0:14:54
      364500 -- [-4218.054] (-4242.185) (-4216.073) (-4216.945) * (-4226.594) (-4233.136) (-4240.694) [-4212.470] -- 0:14:54
      365000 -- (-4223.353) (-4234.282) [-4213.473] (-4208.092) * (-4214.304) (-4248.691) (-4246.662) [-4202.664] -- 0:14:54

      Average standard deviation of split frequencies: 0.028293

      365500 -- (-4214.800) (-4244.965) [-4211.363] (-4240.665) * (-4215.651) (-4245.701) (-4253.766) [-4203.997] -- 0:14:52
      366000 -- (-4231.674) (-4257.231) (-4214.888) [-4217.646] * (-4213.709) (-4220.246) (-4225.315) [-4219.946] -- 0:14:52
      366500 -- (-4225.829) (-4255.685) (-4213.864) [-4219.217] * (-4223.272) [-4221.558] (-4218.222) (-4213.331) -- 0:14:51
      367000 -- (-4233.625) (-4252.375) [-4208.869] (-4213.715) * (-4227.201) (-4220.830) [-4217.511] (-4216.769) -- 0:14:49
      367500 -- (-4243.896) (-4235.678) (-4216.630) [-4207.824] * (-4223.348) (-4241.413) (-4222.934) [-4220.948] -- 0:14:49
      368000 -- (-4230.101) [-4233.051] (-4238.339) (-4224.239) * [-4222.652] (-4242.816) (-4224.541) (-4233.633) -- 0:14:49
      368500 -- (-4233.486) (-4238.660) (-4223.076) [-4222.811] * (-4224.101) (-4245.989) [-4212.407] (-4224.420) -- 0:14:49
      369000 -- (-4231.952) (-4247.351) [-4202.133] (-4220.328) * (-4236.469) (-4243.693) [-4221.724] (-4240.622) -- 0:14:47
      369500 -- [-4227.281] (-4242.098) (-4219.636) (-4222.655) * (-4217.664) (-4245.439) [-4219.912] (-4230.569) -- 0:14:47
      370000 -- (-4230.114) (-4244.585) (-4209.805) [-4226.156] * [-4217.288] (-4227.677) (-4224.613) (-4222.757) -- 0:14:47

      Average standard deviation of split frequencies: 0.027481

      370500 -- (-4232.035) (-4242.537) [-4209.561] (-4232.247) * [-4198.551] (-4235.384) (-4214.994) (-4230.681) -- 0:14:45
      371000 -- (-4258.376) (-4240.434) [-4227.923] (-4229.068) * [-4201.180] (-4231.005) (-4228.114) (-4246.919) -- 0:14:45
      371500 -- [-4226.023] (-4244.998) (-4239.217) (-4223.499) * (-4213.637) (-4221.748) [-4234.009] (-4263.359) -- 0:14:44
      372000 -- (-4217.334) (-4237.513) (-4226.987) [-4225.707] * (-4218.530) [-4202.118] (-4229.897) (-4243.242) -- 0:14:42
      372500 -- (-4225.657) (-4233.658) (-4239.742) [-4222.053] * (-4219.943) [-4209.315] (-4239.669) (-4248.354) -- 0:14:42
      373000 -- (-4214.761) (-4229.887) (-4236.247) [-4217.771] * [-4219.461] (-4205.785) (-4229.545) (-4250.825) -- 0:14:42
      373500 -- (-4232.231) [-4228.042] (-4221.394) (-4226.707) * (-4219.538) (-4220.783) [-4216.400] (-4231.317) -- 0:14:40
      374000 -- (-4219.308) (-4243.505) (-4238.414) [-4223.640] * (-4214.091) [-4215.236] (-4220.233) (-4261.138) -- 0:14:40
      374500 -- [-4207.499] (-4244.152) (-4233.873) (-4221.631) * (-4206.747) [-4196.904] (-4239.006) (-4245.856) -- 0:14:40
      375000 -- [-4200.774] (-4230.063) (-4218.771) (-4233.033) * [-4218.623] (-4201.152) (-4239.228) (-4249.442) -- 0:14:40

      Average standard deviation of split frequencies: 0.025715

      375500 -- [-4221.524] (-4238.892) (-4233.845) (-4226.879) * (-4211.198) [-4212.068] (-4228.752) (-4249.153) -- 0:14:38
      376000 -- (-4221.356) [-4219.290] (-4221.930) (-4239.570) * (-4230.300) [-4215.146] (-4217.207) (-4240.862) -- 0:14:37
      376500 -- (-4215.223) [-4212.500] (-4229.927) (-4222.083) * (-4228.652) (-4216.609) [-4210.207] (-4235.408) -- 0:14:37
      377000 -- (-4203.841) [-4211.584] (-4224.120) (-4245.415) * (-4245.599) [-4227.203] (-4218.120) (-4223.054) -- 0:14:35
      377500 -- (-4208.987) [-4198.453] (-4222.970) (-4244.694) * (-4236.279) [-4217.873] (-4211.010) (-4234.294) -- 0:14:35
      378000 -- [-4208.811] (-4207.682) (-4231.678) (-4227.149) * (-4235.421) (-4220.150) [-4208.992] (-4243.343) -- 0:14:35
      378500 -- (-4217.532) (-4215.651) [-4209.959] (-4226.271) * (-4243.121) [-4229.653] (-4224.368) (-4234.973) -- 0:14:33
      379000 -- [-4221.473] (-4237.403) (-4217.660) (-4221.657) * (-4249.222) [-4221.205] (-4233.260) (-4223.034) -- 0:14:33
      379500 -- (-4221.010) [-4229.353] (-4231.868) (-4226.359) * (-4255.856) [-4211.087] (-4224.968) (-4222.775) -- 0:14:33
      380000 -- [-4212.426] (-4234.593) (-4230.267) (-4227.427) * [-4226.773] (-4228.698) (-4240.165) (-4235.233) -- 0:14:31

      Average standard deviation of split frequencies: 0.024686

      380500 -- [-4214.222] (-4229.357) (-4221.596) (-4235.273) * (-4237.236) [-4224.501] (-4238.088) (-4240.354) -- 0:14:31
      381000 -- (-4218.837) [-4218.545] (-4218.112) (-4240.229) * (-4230.412) [-4215.661] (-4236.934) (-4249.036) -- 0:14:30
      381500 -- (-4218.413) (-4224.969) [-4212.505] (-4246.154) * (-4232.746) [-4215.311] (-4224.125) (-4246.130) -- 0:14:30
      382000 -- [-4205.114] (-4234.346) (-4209.466) (-4219.400) * (-4256.626) [-4208.038] (-4213.888) (-4244.139) -- 0:14:28
      382500 -- (-4220.481) (-4234.468) (-4208.499) [-4211.095] * (-4225.000) (-4221.588) [-4212.059] (-4231.471) -- 0:14:28
      383000 -- (-4240.344) (-4247.488) [-4196.405] (-4238.461) * [-4223.272] (-4233.369) (-4231.817) (-4228.321) -- 0:14:28
      383500 -- (-4237.621) (-4260.979) [-4202.044] (-4227.020) * (-4220.096) (-4227.469) (-4233.790) [-4206.524] -- 0:14:26
      384000 -- (-4239.181) (-4242.151) [-4201.865] (-4216.928) * (-4216.526) (-4244.270) (-4221.603) [-4206.901] -- 0:14:26
      384500 -- (-4225.006) (-4229.526) [-4201.037] (-4212.604) * (-4211.774) (-4228.720) (-4225.763) [-4211.130] -- 0:14:26
      385000 -- (-4236.851) (-4233.284) [-4213.139] (-4224.216) * (-4215.281) (-4223.113) (-4236.457) [-4208.878] -- 0:14:25

      Average standard deviation of split frequencies: 0.024170

      385500 -- (-4254.940) (-4234.469) (-4206.799) [-4203.599] * (-4238.116) (-4225.897) (-4252.197) [-4207.778] -- 0:14:23
      386000 -- (-4232.782) (-4227.664) [-4212.147] (-4207.774) * (-4236.236) (-4222.942) [-4218.541] (-4224.216) -- 0:14:23
      386500 -- (-4219.776) (-4216.501) [-4218.098] (-4233.012) * (-4217.709) (-4232.828) (-4241.566) [-4222.344] -- 0:14:23
      387000 -- [-4217.751] (-4231.247) (-4224.846) (-4223.194) * (-4215.920) (-4239.375) (-4234.644) [-4208.798] -- 0:14:21
      387500 -- (-4231.145) (-4244.396) [-4202.514] (-4236.708) * [-4211.758] (-4250.173) (-4239.894) (-4199.160) -- 0:14:21
      388000 -- (-4227.096) (-4232.238) [-4206.125] (-4223.663) * (-4209.453) (-4247.002) (-4240.489) [-4203.647] -- 0:14:21
      388500 -- (-4240.490) (-4219.728) (-4224.585) [-4210.461] * [-4212.903] (-4227.723) (-4250.331) (-4213.317) -- 0:14:20
      389000 -- (-4227.875) (-4213.605) (-4222.101) [-4204.706] * (-4209.901) [-4218.421] (-4242.766) (-4228.564) -- 0:14:19
      389500 -- (-4223.424) (-4205.928) (-4226.270) [-4210.826] * [-4206.884] (-4229.170) (-4218.132) (-4237.944) -- 0:14:18
      390000 -- [-4220.981] (-4206.679) (-4238.174) (-4226.411) * (-4219.930) (-4229.095) [-4215.065] (-4243.457) -- 0:14:18

      Average standard deviation of split frequencies: 0.022502

      390500 -- (-4211.073) [-4208.032] (-4249.117) (-4224.832) * [-4217.627] (-4234.369) (-4244.734) (-4245.834) -- 0:14:16
      391000 -- (-4215.574) [-4208.462] (-4252.957) (-4230.940) * [-4202.233] (-4239.866) (-4256.313) (-4243.970) -- 0:14:16
      391500 -- [-4207.316] (-4210.442) (-4247.304) (-4242.177) * [-4203.625] (-4246.205) (-4264.600) (-4232.804) -- 0:14:16
      392000 -- (-4230.994) [-4204.032] (-4236.799) (-4248.787) * [-4205.003] (-4235.211) (-4257.206) (-4236.198) -- 0:14:14
      392500 -- (-4218.657) [-4198.295] (-4242.874) (-4237.807) * (-4218.703) (-4224.297) [-4236.152] (-4248.672) -- 0:14:14
      393000 -- (-4218.085) [-4203.598] (-4265.328) (-4222.926) * [-4207.796] (-4223.168) (-4262.120) (-4249.744) -- 0:14:14
      393500 -- (-4232.445) [-4215.212] (-4246.317) (-4211.957) * [-4204.188] (-4214.029) (-4242.218) (-4251.022) -- 0:14:13
      394000 -- [-4213.347] (-4226.237) (-4236.088) (-4215.768) * (-4230.130) [-4211.202] (-4222.258) (-4256.170) -- 0:14:12
      394500 -- (-4216.051) (-4227.142) (-4224.158) [-4207.917] * [-4230.008] (-4217.450) (-4220.960) (-4240.573) -- 0:14:11
      395000 -- (-4225.647) (-4234.205) (-4233.034) [-4218.489] * (-4257.883) [-4215.944] (-4213.407) (-4224.364) -- 0:14:11

      Average standard deviation of split frequencies: 0.021518

      395500 -- (-4224.465) (-4236.155) (-4213.033) [-4204.328] * (-4242.285) (-4232.555) [-4217.018] (-4226.669) -- 0:14:11
      396000 -- (-4227.660) (-4240.712) [-4215.194] (-4211.514) * (-4235.070) (-4237.559) [-4218.446] (-4216.878) -- 0:14:09
      396500 -- (-4226.835) (-4245.641) (-4238.315) [-4215.427] * (-4225.137) (-4225.929) [-4228.174] (-4212.016) -- 0:14:09
      397000 -- [-4214.934] (-4234.636) (-4241.685) (-4219.030) * (-4225.421) (-4239.064) (-4235.525) [-4214.980] -- 0:14:09
      397500 -- [-4218.917] (-4231.359) (-4236.782) (-4232.494) * (-4238.251) (-4233.686) (-4236.970) [-4218.526] -- 0:14:07
      398000 -- [-4211.463] (-4229.940) (-4233.776) (-4232.143) * (-4228.825) (-4232.826) (-4217.867) [-4219.122] -- 0:14:07
      398500 -- (-4234.963) (-4224.575) [-4226.921] (-4235.654) * (-4248.991) (-4238.562) [-4224.433] (-4225.165) -- 0:14:06
      399000 -- (-4214.696) (-4215.515) [-4216.248] (-4243.070) * (-4232.942) (-4222.110) [-4217.366] (-4240.886) -- 0:14:06
      399500 -- [-4208.965] (-4215.395) (-4218.229) (-4247.524) * (-4233.734) (-4216.309) [-4215.428] (-4239.561) -- 0:14:04
      400000 -- (-4221.381) [-4206.135] (-4217.057) (-4247.105) * (-4234.436) [-4213.626] (-4217.703) (-4232.358) -- 0:14:04

      Average standard deviation of split frequencies: 0.021229

      400500 -- (-4227.190) [-4207.643] (-4231.093) (-4245.121) * (-4229.134) (-4217.202) [-4199.282] (-4237.615) -- 0:14:04
      401000 -- (-4234.039) [-4203.732] (-4233.658) (-4237.977) * (-4241.719) (-4247.437) [-4211.328] (-4247.179) -- 0:14:03
      401500 -- (-4236.670) [-4215.139] (-4231.307) (-4220.170) * (-4238.584) (-4228.932) [-4221.770] (-4251.928) -- 0:14:02
      402000 -- (-4229.949) [-4216.361] (-4236.126) (-4230.089) * (-4234.167) (-4249.590) [-4217.754] (-4246.759) -- 0:14:01
      402500 -- (-4237.579) (-4229.528) [-4213.617] (-4228.651) * (-4223.853) (-4251.931) [-4217.756] (-4234.642) -- 0:14:01
      403000 -- (-4227.278) (-4230.571) [-4210.525] (-4240.670) * [-4213.125] (-4244.961) (-4245.931) (-4227.087) -- 0:13:59
      403500 -- [-4216.432] (-4231.978) (-4215.635) (-4224.883) * [-4228.698] (-4249.687) (-4214.992) (-4211.696) -- 0:13:59
      404000 -- [-4218.270] (-4220.705) (-4214.001) (-4222.856) * [-4213.959] (-4266.653) (-4213.095) (-4209.918) -- 0:13:59
      404500 -- [-4225.693] (-4242.802) (-4219.374) (-4230.610) * [-4215.491] (-4271.643) (-4217.760) (-4230.456) -- 0:13:59
      405000 -- [-4220.679] (-4238.394) (-4228.999) (-4235.316) * [-4224.807] (-4262.196) (-4233.416) (-4251.746) -- 0:13:57

      Average standard deviation of split frequencies: 0.020862

      405500 -- [-4233.244] (-4234.104) (-4242.910) (-4229.331) * [-4222.088] (-4260.802) (-4228.476) (-4250.097) -- 0:13:57
      406000 -- (-4218.928) (-4215.080) (-4239.199) [-4215.121] * [-4221.522] (-4224.515) (-4246.624) (-4248.269) -- 0:13:56
      406500 -- (-4219.975) [-4215.278] (-4240.706) (-4230.658) * (-4219.579) [-4211.761] (-4234.393) (-4225.217) -- 0:13:56
      407000 -- (-4216.654) [-4218.186] (-4250.043) (-4234.965) * (-4213.802) (-4230.480) [-4238.299] (-4214.143) -- 0:13:54
      407500 -- (-4220.445) [-4216.592] (-4239.521) (-4240.003) * (-4218.945) (-4244.961) (-4217.693) [-4212.681] -- 0:13:54
      408000 -- (-4214.708) (-4226.469) (-4235.412) [-4230.652] * (-4234.017) (-4232.340) (-4241.042) [-4207.341] -- 0:13:54
      408500 -- (-4217.360) [-4221.004] (-4231.959) (-4242.260) * (-4234.891) (-4229.955) (-4207.607) [-4215.163] -- 0:13:52
      409000 -- [-4225.735] (-4225.190) (-4234.941) (-4227.488) * (-4230.132) (-4222.377) (-4214.159) [-4225.037] -- 0:13:52
      409500 -- (-4229.899) (-4223.315) (-4226.931) [-4213.192] * (-4217.820) (-4219.302) (-4223.122) [-4221.603] -- 0:13:52
      410000 -- (-4216.932) (-4218.046) [-4221.269] (-4231.585) * (-4226.845) (-4223.663) [-4210.807] (-4229.107) -- 0:13:51

      Average standard deviation of split frequencies: 0.020502

      410500 -- (-4230.111) (-4242.359) (-4216.507) [-4224.411] * (-4216.873) [-4224.238] (-4221.808) (-4230.488) -- 0:13:50
      411000 -- [-4224.892] (-4224.695) (-4213.608) (-4242.241) * [-4216.439] (-4230.585) (-4216.356) (-4246.807) -- 0:13:49
      411500 -- (-4245.153) (-4238.018) [-4214.228] (-4246.447) * [-4211.246] (-4221.689) (-4218.794) (-4248.184) -- 0:13:49
      412000 -- (-4227.047) (-4229.386) [-4217.487] (-4238.363) * (-4219.056) (-4217.249) [-4217.726] (-4249.397) -- 0:13:47
      412500 -- [-4222.213] (-4265.947) (-4220.893) (-4229.222) * (-4224.410) (-4211.077) [-4215.415] (-4221.252) -- 0:13:47
      413000 -- (-4220.920) (-4249.287) (-4220.441) [-4225.559] * [-4213.055] (-4235.115) (-4218.753) (-4222.240) -- 0:13:47
      413500 -- (-4229.309) (-4267.866) (-4224.895) [-4221.559] * (-4209.180) (-4229.296) [-4211.463] (-4214.998) -- 0:13:45
      414000 -- (-4223.249) (-4247.347) (-4239.494) [-4208.335] * (-4223.238) (-4235.079) [-4216.875] (-4220.373) -- 0:13:45
      414500 -- (-4216.811) (-4247.760) (-4244.627) [-4200.229] * (-4208.929) (-4221.027) [-4220.536] (-4230.238) -- 0:13:44
      415000 -- [-4209.602] (-4226.877) (-4237.853) (-4220.992) * [-4208.402] (-4228.867) (-4231.478) (-4243.003) -- 0:13:43

      Average standard deviation of split frequencies: 0.020484

      415500 -- [-4205.989] (-4248.898) (-4209.302) (-4212.616) * (-4210.946) (-4236.636) (-4223.626) [-4226.792] -- 0:13:42
      416000 -- (-4215.342) (-4236.116) (-4224.489) [-4216.040] * [-4219.321] (-4224.935) (-4222.331) (-4228.481) -- 0:13:42
      416500 -- (-4227.021) (-4240.226) (-4231.000) [-4210.622] * (-4228.611) [-4217.508] (-4244.553) (-4228.523) -- 0:13:42
      417000 -- (-4222.046) [-4230.703] (-4247.383) (-4228.855) * [-4223.267] (-4232.811) (-4252.740) (-4210.901) -- 0:13:40
      417500 -- [-4207.377] (-4233.510) (-4223.381) (-4242.380) * (-4252.373) [-4224.172] (-4242.479) (-4228.636) -- 0:13:40
      418000 -- (-4226.674) [-4229.665] (-4224.722) (-4245.629) * (-4246.142) (-4238.059) (-4222.881) [-4222.983] -- 0:13:40
      418500 -- (-4210.225) [-4216.317] (-4239.262) (-4239.496) * [-4213.687] (-4231.664) (-4236.238) (-4222.237) -- 0:13:38
      419000 -- [-4215.477] (-4219.782) (-4241.084) (-4233.269) * [-4216.093] (-4247.509) (-4213.175) (-4235.995) -- 0:13:38
      419500 -- [-4217.953] (-4242.997) (-4226.342) (-4215.415) * [-4213.633] (-4230.560) (-4222.967) (-4226.327) -- 0:13:37
      420000 -- (-4221.858) (-4239.781) (-4229.829) [-4219.748] * [-4225.336] (-4220.982) (-4223.616) (-4247.665) -- 0:13:36

      Average standard deviation of split frequencies: 0.020220

      420500 -- [-4221.141] (-4228.622) (-4234.068) (-4238.966) * [-4200.242] (-4230.520) (-4245.083) (-4248.481) -- 0:13:35
      421000 -- [-4222.744] (-4224.259) (-4224.740) (-4248.447) * [-4207.676] (-4233.082) (-4232.102) (-4254.977) -- 0:13:35
      421500 -- (-4236.520) (-4242.324) [-4221.408] (-4249.086) * [-4198.266] (-4229.354) (-4231.977) (-4233.794) -- 0:13:35
      422000 -- (-4227.650) (-4235.778) [-4209.721] (-4242.951) * (-4207.447) (-4224.963) [-4210.046] (-4233.559) -- 0:13:33
      422500 -- (-4229.150) (-4244.397) [-4219.273] (-4227.763) * [-4223.584] (-4222.834) (-4218.271) (-4229.911) -- 0:13:33
      423000 -- [-4223.375] (-4245.179) (-4242.733) (-4242.092) * (-4215.405) [-4214.587] (-4245.011) (-4227.646) -- 0:13:32
      423500 -- [-4220.058] (-4221.661) (-4220.528) (-4248.131) * (-4230.659) [-4215.471] (-4247.574) (-4218.138) -- 0:13:31
      424000 -- [-4228.904] (-4253.612) (-4218.437) (-4240.228) * (-4224.105) (-4213.049) [-4220.127] (-4220.611) -- 0:13:31
      424500 -- (-4232.085) (-4238.805) [-4204.812] (-4227.403) * (-4213.319) (-4215.457) (-4237.346) [-4218.444] -- 0:13:30
      425000 -- (-4214.070) (-4246.881) (-4215.474) [-4211.964] * (-4240.913) [-4217.247] (-4250.150) (-4214.338) -- 0:13:29

      Average standard deviation of split frequencies: 0.019858

      425500 -- (-4225.781) (-4253.996) [-4211.753] (-4227.569) * (-4237.036) (-4226.984) (-4261.056) [-4205.828] -- 0:13:28
      426000 -- (-4210.205) (-4226.033) [-4213.940] (-4220.252) * (-4236.325) (-4215.685) (-4249.928) [-4204.113] -- 0:13:28
      426500 -- (-4218.543) (-4242.078) [-4216.386] (-4262.219) * (-4247.163) (-4219.410) (-4256.652) [-4203.944] -- 0:13:28
      427000 -- [-4214.791] (-4242.019) (-4225.786) (-4264.240) * (-4250.884) (-4217.226) (-4239.824) [-4202.166] -- 0:13:26
      427500 -- (-4224.539) [-4224.665] (-4239.707) (-4248.584) * (-4241.752) (-4233.320) (-4247.902) [-4217.602] -- 0:13:26
      428000 -- (-4243.185) (-4229.312) [-4223.797] (-4222.479) * (-4237.752) (-4244.454) (-4241.278) [-4214.564] -- 0:13:25
      428500 -- [-4223.903] (-4239.495) (-4223.753) (-4218.221) * (-4242.501) (-4233.591) (-4228.996) [-4206.032] -- 0:13:24
      429000 -- (-4224.646) (-4235.828) [-4229.568] (-4244.006) * [-4225.827] (-4239.210) (-4256.134) (-4210.273) -- 0:13:23
      429500 -- (-4219.164) (-4253.744) [-4233.397] (-4236.023) * [-4221.169] (-4231.078) (-4238.705) (-4224.516) -- 0:13:23
      430000 -- [-4212.596] (-4253.905) (-4233.516) (-4224.989) * (-4251.643) (-4223.494) (-4244.907) [-4234.586] -- 0:13:23

      Average standard deviation of split frequencies: 0.020493

      430500 -- [-4213.355] (-4242.126) (-4228.974) (-4226.368) * [-4228.395] (-4221.757) (-4257.827) (-4232.689) -- 0:13:21
      431000 -- [-4223.230] (-4232.134) (-4232.406) (-4238.019) * (-4234.672) [-4221.158] (-4231.940) (-4227.035) -- 0:13:21
      431500 -- [-4231.506] (-4239.271) (-4258.411) (-4213.797) * (-4232.520) [-4213.531] (-4225.121) (-4234.912) -- 0:13:21
      432000 -- [-4225.386] (-4221.150) (-4237.609) (-4220.344) * (-4233.796) [-4207.579] (-4219.139) (-4242.506) -- 0:13:19
      432500 -- [-4211.904] (-4215.475) (-4228.044) (-4205.082) * (-4243.913) (-4225.979) (-4224.614) [-4238.440] -- 0:13:19
      433000 -- [-4219.732] (-4206.701) (-4241.088) (-4197.192) * (-4253.828) (-4209.139) (-4241.126) [-4216.128] -- 0:13:18
      433500 -- [-4214.026] (-4217.202) (-4231.234) (-4195.160) * (-4245.312) [-4220.000] (-4237.567) (-4219.554) -- 0:13:18
      434000 -- [-4221.700] (-4214.086) (-4230.253) (-4220.408) * (-4243.980) [-4226.540] (-4236.870) (-4227.638) -- 0:13:16
      434500 -- (-4237.605) [-4223.561] (-4223.387) (-4223.096) * (-4257.471) (-4228.722) (-4215.942) [-4211.671] -- 0:13:16
      435000 -- [-4228.872] (-4209.224) (-4212.154) (-4234.443) * (-4256.286) (-4213.253) [-4220.649] (-4226.780) -- 0:13:16

      Average standard deviation of split frequencies: 0.020276

      435500 -- (-4214.839) (-4214.507) [-4216.432] (-4248.285) * (-4251.044) (-4221.549) [-4224.129] (-4232.046) -- 0:13:15
      436000 -- (-4207.750) (-4223.663) [-4235.224] (-4241.363) * (-4242.436) (-4214.189) (-4224.850) [-4212.288] -- 0:13:14
      436500 -- [-4217.030] (-4232.925) (-4225.131) (-4232.130) * (-4236.008) [-4210.695] (-4228.449) (-4219.990) -- 0:13:13
      437000 -- [-4219.154] (-4235.616) (-4222.809) (-4229.870) * (-4230.211) (-4214.241) (-4225.523) [-4223.693] -- 0:13:13
      437500 -- [-4224.866] (-4223.720) (-4224.570) (-4234.129) * (-4236.498) [-4212.844] (-4226.090) (-4223.129) -- 0:13:12
      438000 -- (-4225.985) [-4214.902] (-4216.252) (-4231.832) * (-4234.709) (-4213.459) (-4238.797) [-4225.202] -- 0:13:11
      438500 -- (-4237.581) (-4240.961) [-4216.071] (-4236.663) * (-4241.815) [-4210.093] (-4236.353) (-4226.068) -- 0:13:11
      439000 -- (-4227.945) (-4245.366) [-4204.194] (-4234.313) * (-4236.037) (-4211.306) (-4247.724) [-4235.638] -- 0:13:11
      439500 -- (-4224.129) (-4229.422) [-4201.532] (-4247.724) * (-4241.127) [-4211.010] (-4250.747) (-4228.426) -- 0:13:09
      440000 -- [-4207.647] (-4227.775) (-4207.549) (-4238.305) * (-4250.627) [-4205.929] (-4233.906) (-4229.651) -- 0:13:09

      Average standard deviation of split frequencies: 0.020494

      440500 -- [-4211.411] (-4237.281) (-4215.725) (-4257.332) * (-4239.545) [-4213.358] (-4226.431) (-4227.715) -- 0:13:08
      441000 -- [-4203.546] (-4244.942) (-4220.908) (-4262.410) * (-4220.175) [-4219.197] (-4228.210) (-4246.093) -- 0:13:08
      441500 -- [-4213.375] (-4235.682) (-4215.696) (-4264.264) * [-4215.246] (-4238.079) (-4226.992) (-4242.705) -- 0:13:06
      442000 -- [-4211.200] (-4240.935) (-4222.180) (-4252.644) * [-4217.868] (-4240.399) (-4222.811) (-4244.216) -- 0:13:06
      442500 -- (-4202.663) (-4255.125) [-4219.137] (-4234.098) * (-4228.104) (-4250.437) [-4210.885] (-4237.985) -- 0:13:06
      443000 -- [-4208.670] (-4254.258) (-4237.837) (-4244.040) * (-4213.443) (-4232.556) [-4212.436] (-4227.148) -- 0:13:05
      443500 -- (-4201.369) (-4242.024) (-4246.549) [-4226.290] * [-4213.185] (-4235.179) (-4213.647) (-4223.640) -- 0:13:04
      444000 -- [-4210.609] (-4236.301) (-4232.482) (-4222.719) * [-4227.728] (-4223.953) (-4208.677) (-4254.005) -- 0:13:03
      444500 -- (-4213.471) (-4248.145) [-4217.047] (-4212.046) * (-4216.754) (-4223.893) [-4205.674] (-4227.666) -- 0:13:03
      445000 -- (-4228.991) [-4227.159] (-4227.784) (-4211.231) * (-4214.115) (-4228.426) [-4209.430] (-4223.384) -- 0:13:01

      Average standard deviation of split frequencies: 0.020154

      445500 -- (-4236.328) (-4218.190) (-4245.363) [-4222.181] * (-4220.757) (-4221.317) (-4215.414) [-4220.944] -- 0:13:01
      446000 -- (-4237.855) [-4209.219] (-4237.837) (-4224.842) * (-4225.338) (-4249.448) (-4216.985) [-4220.535] -- 0:13:01
      446500 -- [-4220.766] (-4217.989) (-4219.082) (-4228.385) * (-4228.743) (-4225.601) [-4216.906] (-4227.113) -- 0:13:00
      447000 -- (-4246.712) [-4211.404] (-4209.266) (-4234.992) * (-4236.429) (-4227.327) [-4212.680] (-4227.757) -- 0:12:59
      447500 -- (-4231.392) [-4227.740] (-4217.337) (-4221.692) * (-4239.787) (-4235.118) (-4231.109) [-4225.771] -- 0:12:59
      448000 -- (-4229.671) (-4236.141) [-4216.537] (-4220.992) * (-4239.150) [-4224.116] (-4236.606) (-4245.602) -- 0:12:58
      448500 -- (-4230.433) (-4228.695) [-4208.807] (-4220.052) * (-4233.690) [-4227.103] (-4229.304) (-4253.745) -- 0:12:58
      449000 -- (-4240.933) (-4248.371) (-4225.395) [-4225.279] * (-4242.722) (-4218.400) [-4224.683] (-4246.192) -- 0:12:58
      449500 -- (-4224.096) (-4244.416) (-4242.595) [-4227.212] * (-4227.914) [-4218.887] (-4231.879) (-4246.113) -- 0:12:56
      450000 -- [-4227.054] (-4220.743) (-4234.185) (-4261.991) * (-4234.755) [-4220.752] (-4231.064) (-4236.932) -- 0:12:56

      Average standard deviation of split frequencies: 0.020150

      450500 -- (-4219.048) (-4218.369) [-4226.078] (-4250.459) * (-4236.412) [-4227.368] (-4228.870) (-4242.744) -- 0:12:55
      451000 -- [-4208.365] (-4229.342) (-4230.143) (-4240.842) * (-4248.029) [-4223.978] (-4228.147) (-4235.677) -- 0:12:55
      451500 -- (-4203.020) [-4210.271] (-4254.075) (-4252.178) * (-4244.898) (-4219.587) (-4247.143) [-4232.193] -- 0:12:53
      452000 -- (-4213.422) (-4221.723) (-4253.076) [-4245.323] * [-4222.891] (-4224.184) (-4247.925) (-4230.496) -- 0:12:53
      452500 -- [-4213.936] (-4211.637) (-4267.536) (-4257.281) * [-4206.057] (-4233.041) (-4233.619) (-4242.143) -- 0:12:53
      453000 -- [-4213.639] (-4230.657) (-4291.625) (-4230.894) * [-4202.893] (-4230.265) (-4233.183) (-4240.731) -- 0:12:52
      453500 -- [-4196.459] (-4213.757) (-4258.257) (-4237.165) * (-4214.893) [-4226.628] (-4239.489) (-4225.033) -- 0:12:51
      454000 -- [-4203.733] (-4209.472) (-4246.312) (-4225.487) * (-4211.665) [-4226.208] (-4238.971) (-4234.161) -- 0:12:50
      454500 -- [-4198.060] (-4228.504) (-4257.462) (-4238.762) * [-4219.698] (-4229.056) (-4215.814) (-4226.755) -- 0:12:50
      455000 -- (-4213.394) [-4220.164] (-4222.162) (-4247.319) * (-4230.426) (-4231.980) (-4225.865) [-4216.528] -- 0:12:50

      Average standard deviation of split frequencies: 0.020255

      455500 -- (-4206.498) [-4225.939] (-4234.634) (-4232.021) * (-4211.370) (-4241.444) [-4219.573] (-4231.258) -- 0:12:48
      456000 -- (-4224.931) (-4228.117) (-4257.175) [-4235.037] * (-4233.390) (-4238.529) (-4221.499) [-4234.140] -- 0:12:48
      456500 -- (-4235.439) [-4214.833] (-4227.303) (-4237.735) * (-4234.838) (-4225.374) [-4205.387] (-4244.495) -- 0:12:47
      457000 -- [-4224.930] (-4230.150) (-4226.349) (-4232.706) * (-4230.799) (-4224.641) [-4203.730] (-4240.060) -- 0:12:47
      457500 -- (-4220.883) [-4206.252] (-4215.675) (-4236.922) * (-4220.119) (-4219.504) (-4221.111) [-4227.996] -- 0:12:46
      458000 -- (-4220.536) [-4215.944] (-4219.648) (-4252.059) * (-4229.647) [-4216.142] (-4222.601) (-4230.957) -- 0:12:45
      458500 -- (-4209.318) [-4210.336] (-4231.687) (-4228.058) * (-4223.799) (-4212.344) [-4215.125] (-4235.303) -- 0:12:45
      459000 -- (-4214.848) (-4232.206) [-4200.090] (-4218.977) * (-4231.117) [-4209.127] (-4215.732) (-4217.572) -- 0:12:44
      459500 -- [-4214.676] (-4240.739) (-4204.200) (-4217.211) * (-4234.396) (-4217.962) (-4221.573) [-4215.664] -- 0:12:44
      460000 -- [-4216.118] (-4241.662) (-4213.399) (-4232.910) * (-4226.236) [-4205.899] (-4228.943) (-4218.451) -- 0:12:43

      Average standard deviation of split frequencies: 0.020694

      460500 -- [-4202.209] (-4227.841) (-4222.418) (-4225.683) * (-4239.320) (-4199.634) [-4215.226] (-4213.507) -- 0:12:42
      461000 -- (-4198.423) (-4229.245) (-4219.563) [-4206.518] * (-4239.091) (-4221.186) [-4222.074] (-4236.525) -- 0:12:42
      461500 -- [-4209.254] (-4232.259) (-4229.729) (-4212.439) * (-4224.545) (-4228.412) [-4221.359] (-4238.531) -- 0:12:41
      462000 -- (-4207.590) (-4239.298) [-4212.849] (-4234.144) * [-4221.391] (-4233.266) (-4234.694) (-4223.982) -- 0:12:40
      462500 -- (-4223.137) (-4238.981) [-4216.454] (-4225.372) * (-4216.929) [-4218.671] (-4226.341) (-4227.115) -- 0:12:40
      463000 -- [-4228.664] (-4255.859) (-4218.259) (-4237.827) * [-4223.447] (-4248.895) (-4218.732) (-4240.732) -- 0:12:39
      463500 -- [-4210.368] (-4248.439) (-4222.262) (-4240.660) * (-4206.135) (-4234.480) [-4220.839] (-4233.433) -- 0:12:39
      464000 -- [-4211.703] (-4228.922) (-4235.259) (-4226.529) * (-4216.435) (-4224.376) [-4212.773] (-4226.870) -- 0:12:38
      464500 -- (-4220.099) [-4218.617] (-4223.513) (-4212.501) * (-4235.651) (-4252.021) [-4203.032] (-4225.782) -- 0:12:37
      465000 -- (-4246.428) (-4219.310) (-4210.757) [-4208.927] * [-4220.841] (-4253.661) (-4212.222) (-4227.392) -- 0:12:37

      Average standard deviation of split frequencies: 0.020199

      465500 -- (-4233.173) (-4237.409) (-4209.204) [-4217.767] * (-4231.988) (-4245.473) (-4212.348) [-4223.982] -- 0:12:36
      466000 -- (-4226.680) (-4239.542) [-4200.219] (-4218.075) * (-4240.932) [-4226.286] (-4211.130) (-4243.387) -- 0:12:36
      466500 -- (-4234.585) (-4236.910) [-4202.499] (-4259.388) * (-4238.887) (-4233.250) [-4205.847] (-4243.578) -- 0:12:34
      467000 -- (-4219.390) (-4243.414) [-4208.232] (-4240.920) * (-4229.411) (-4225.670) [-4210.218] (-4242.925) -- 0:12:34
      467500 -- (-4230.107) (-4221.310) [-4210.328] (-4257.092) * (-4233.464) (-4235.836) [-4200.856] (-4221.852) -- 0:12:34
      468000 -- (-4232.695) (-4213.351) [-4221.308] (-4241.974) * (-4256.926) (-4213.221) [-4210.348] (-4228.165) -- 0:12:33
      468500 -- [-4206.060] (-4208.321) (-4221.830) (-4244.374) * (-4249.086) (-4224.586) [-4210.251] (-4230.700) -- 0:12:32
      469000 -- (-4221.065) [-4206.377] (-4224.937) (-4233.726) * (-4261.389) [-4210.516] (-4234.277) (-4237.141) -- 0:12:31
      469500 -- (-4240.777) [-4216.574] (-4240.005) (-4230.841) * (-4259.415) [-4217.090] (-4211.350) (-4250.849) -- 0:12:31
      470000 -- (-4249.800) [-4213.316] (-4213.743) (-4239.289) * (-4236.530) (-4226.458) [-4209.080] (-4233.657) -- 0:12:29

      Average standard deviation of split frequencies: 0.020042

      470500 -- (-4228.062) [-4199.755] (-4226.851) (-4248.001) * (-4228.834) [-4220.665] (-4220.526) (-4231.415) -- 0:12:29
      471000 -- (-4230.015) [-4206.559] (-4235.420) (-4242.942) * (-4232.941) [-4218.831] (-4205.591) (-4239.186) -- 0:12:29
      471500 -- (-4241.793) [-4203.692] (-4245.056) (-4228.942) * [-4209.434] (-4232.831) (-4227.380) (-4224.854) -- 0:12:28
      472000 -- (-4256.602) (-4216.270) [-4236.266] (-4225.416) * (-4211.661) (-4223.454) (-4233.202) [-4217.366] -- 0:12:27
      472500 -- (-4242.035) (-4220.553) (-4228.107) [-4195.292] * (-4214.622) (-4216.759) (-4230.150) [-4222.816] -- 0:12:26
      473000 -- (-4235.532) [-4211.747] (-4231.184) (-4231.425) * [-4224.386] (-4206.714) (-4229.340) (-4227.879) -- 0:12:26
      473500 -- (-4236.260) (-4236.020) (-4212.473) [-4219.617] * (-4216.273) [-4199.641] (-4240.958) (-4234.916) -- 0:12:26
      474000 -- (-4248.499) [-4214.669] (-4214.602) (-4222.621) * (-4224.170) [-4229.484] (-4253.151) (-4237.307) -- 0:12:24
      474500 -- (-4254.291) (-4208.832) [-4220.615] (-4233.693) * (-4228.995) [-4222.456] (-4242.251) (-4229.776) -- 0:12:24
      475000 -- (-4224.098) (-4211.660) [-4208.453] (-4246.898) * [-4224.909] (-4230.922) (-4237.946) (-4230.075) -- 0:12:23

      Average standard deviation of split frequencies: 0.019938

      475500 -- (-4243.910) (-4245.194) [-4210.684] (-4234.557) * (-4228.304) [-4213.915] (-4243.378) (-4219.194) -- 0:12:23
      476000 -- (-4225.123) [-4213.073] (-4237.705) (-4229.462) * (-4225.654) (-4230.034) (-4256.166) [-4223.858] -- 0:12:21
      476500 -- (-4226.060) [-4213.336] (-4231.933) (-4228.491) * (-4230.489) (-4224.885) [-4226.156] (-4223.273) -- 0:12:21
      477000 -- (-4224.051) (-4220.132) (-4237.062) [-4223.631] * (-4246.395) [-4222.914] (-4220.607) (-4218.821) -- 0:12:21
      477500 -- (-4222.926) [-4205.951] (-4240.963) (-4218.697) * (-4225.950) (-4227.568) [-4223.559] (-4215.475) -- 0:12:20
      478000 -- (-4215.938) [-4201.491] (-4241.180) (-4232.018) * (-4214.281) (-4238.169) [-4205.224] (-4214.557) -- 0:12:19
      478500 -- [-4213.984] (-4215.338) (-4257.337) (-4222.541) * (-4225.031) (-4240.227) (-4221.891) [-4212.036] -- 0:12:18
      479000 -- (-4213.475) (-4218.700) (-4246.430) [-4220.794] * [-4219.436] (-4229.969) (-4209.497) (-4208.561) -- 0:12:18
      479500 -- [-4210.811] (-4219.739) (-4223.385) (-4239.824) * (-4226.703) (-4238.380) (-4206.627) [-4199.578] -- 0:12:18
      480000 -- (-4216.661) (-4239.151) [-4215.163] (-4230.673) * (-4241.039) (-4220.374) [-4210.433] (-4203.815) -- 0:12:16

      Average standard deviation of split frequencies: 0.019302

      480500 -- (-4219.887) (-4225.167) [-4204.746] (-4224.615) * (-4238.520) (-4228.936) (-4205.293) [-4208.555] -- 0:12:16
      481000 -- (-4226.904) (-4222.034) [-4210.061] (-4231.320) * (-4224.208) (-4239.013) (-4215.858) [-4221.623] -- 0:12:15
      481500 -- (-4201.433) [-4211.146] (-4214.517) (-4223.830) * (-4240.030) (-4243.521) [-4219.484] (-4211.765) -- 0:12:15
      482000 -- [-4203.953] (-4221.777) (-4217.969) (-4230.208) * (-4213.581) (-4246.627) (-4227.924) [-4208.476] -- 0:12:14
      482500 -- (-4213.083) (-4216.965) [-4204.905] (-4233.625) * (-4228.364) (-4249.288) [-4218.895] (-4212.789) -- 0:12:13
      483000 -- (-4210.013) [-4205.817] (-4229.774) (-4245.515) * (-4225.126) (-4235.368) (-4220.259) [-4213.220] -- 0:12:13
      483500 -- (-4205.503) [-4200.440] (-4225.376) (-4242.973) * (-4229.847) (-4257.933) [-4222.947] (-4218.244) -- 0:12:12
      484000 -- (-4213.259) [-4213.008] (-4223.260) (-4242.592) * [-4220.878] (-4251.804) (-4218.720) (-4232.984) -- 0:12:11
      484500 -- (-4215.250) [-4212.448] (-4217.344) (-4216.567) * (-4226.047) (-4243.919) [-4220.484] (-4230.979) -- 0:12:10
      485000 -- (-4217.674) [-4218.812] (-4225.963) (-4211.223) * (-4223.949) (-4248.202) [-4211.053] (-4224.658) -- 0:12:10

      Average standard deviation of split frequencies: 0.019090

      485500 -- (-4225.841) (-4228.486) [-4209.519] (-4216.932) * (-4218.232) (-4247.501) [-4217.185] (-4222.293) -- 0:12:10
      486000 -- (-4222.873) (-4204.025) (-4215.159) [-4218.930] * (-4228.057) (-4248.979) [-4207.264] (-4220.431) -- 0:12:08
      486500 -- (-4230.677) (-4205.685) [-4210.491] (-4229.338) * [-4227.882] (-4232.872) (-4207.008) (-4242.936) -- 0:12:08
      487000 -- (-4232.965) (-4224.190) [-4210.440] (-4214.245) * (-4253.442) (-4240.328) [-4210.794] (-4239.038) -- 0:12:07
      487500 -- (-4229.839) [-4221.211] (-4202.990) (-4216.620) * (-4234.156) (-4235.033) [-4223.644] (-4239.068) -- 0:12:07
      488000 -- (-4240.402) (-4227.537) (-4214.725) [-4210.788] * (-4248.091) [-4229.821] (-4219.970) (-4234.783) -- 0:12:06
      488500 -- (-4242.364) (-4232.958) [-4201.566] (-4216.303) * (-4243.057) (-4232.319) [-4217.526] (-4236.490) -- 0:12:05
      489000 -- (-4241.041) (-4245.212) [-4221.488] (-4203.177) * (-4234.835) (-4241.555) [-4210.207] (-4231.172) -- 0:12:05
      489500 -- (-4234.611) (-4220.152) (-4227.924) [-4211.824] * (-4229.679) (-4218.309) [-4217.243] (-4232.766) -- 0:12:04
      490000 -- (-4223.044) (-4234.604) (-4249.482) [-4216.479] * (-4232.086) (-4227.489) (-4249.864) [-4230.404] -- 0:12:03

      Average standard deviation of split frequencies: 0.018339

      490500 -- (-4207.342) (-4232.994) [-4222.313] (-4205.917) * [-4226.923] (-4227.572) (-4230.583) (-4226.890) -- 0:12:02
      491000 -- [-4207.108] (-4248.175) (-4230.126) (-4217.096) * [-4213.280] (-4222.892) (-4226.592) (-4244.316) -- 0:12:02
      491500 -- [-4227.450] (-4222.861) (-4249.583) (-4230.163) * (-4223.266) (-4213.742) [-4230.192] (-4224.482) -- 0:12:02
      492000 -- (-4225.292) [-4226.569] (-4233.138) (-4217.342) * (-4219.828) (-4236.277) (-4222.150) [-4212.150] -- 0:12:00
      492500 -- (-4235.536) (-4244.139) (-4225.891) [-4216.358] * [-4213.837] (-4245.351) (-4219.104) (-4226.121) -- 0:12:00
      493000 -- (-4226.728) (-4221.136) (-4239.085) [-4218.384] * [-4216.505] (-4246.556) (-4208.552) (-4221.807) -- 0:11:59
      493500 -- [-4211.173] (-4219.948) (-4246.144) (-4216.655) * (-4222.080) (-4262.725) [-4217.036] (-4218.133) -- 0:11:58
      494000 -- [-4206.160] (-4237.688) (-4242.333) (-4233.679) * (-4232.994) (-4238.150) (-4229.387) [-4217.197] -- 0:11:58
      494500 -- [-4209.479] (-4243.942) (-4234.305) (-4222.346) * (-4227.551) (-4235.372) [-4211.921] (-4213.448) -- 0:11:57
      495000 -- (-4225.215) (-4248.003) [-4220.161] (-4227.385) * (-4227.087) (-4226.408) [-4207.070] (-4213.975) -- 0:11:57

      Average standard deviation of split frequencies: 0.017671

      495500 -- (-4243.550) (-4222.464) [-4211.392] (-4225.327) * (-4224.184) (-4251.975) [-4202.917] (-4214.065) -- 0:11:55
      496000 -- (-4226.891) [-4218.352] (-4233.229) (-4240.670) * (-4231.668) (-4248.093) [-4211.365] (-4213.990) -- 0:11:55
      496500 -- [-4219.092] (-4214.852) (-4243.796) (-4220.146) * [-4251.727] (-4245.756) (-4207.088) (-4207.912) -- 0:11:54
      497000 -- (-4222.927) (-4210.132) (-4230.372) [-4223.424] * (-4233.474) (-4238.741) (-4223.241) [-4206.064] -- 0:11:54
      497500 -- (-4222.760) [-4204.953] (-4243.718) (-4226.065) * (-4237.376) (-4256.890) (-4221.543) [-4212.432] -- 0:11:53
      498000 -- [-4203.223] (-4238.147) (-4221.074) (-4219.171) * [-4213.568] (-4229.866) (-4237.434) (-4223.548) -- 0:11:52
      498500 -- (-4218.925) (-4210.456) (-4252.889) [-4211.187] * (-4229.353) (-4232.298) (-4223.313) [-4213.864] -- 0:11:52
      499000 -- (-4220.244) [-4217.546] (-4243.726) (-4229.565) * (-4234.923) [-4221.774] (-4238.257) (-4215.465) -- 0:11:50
      499500 -- (-4207.769) (-4217.503) (-4252.851) [-4244.428] * [-4220.873] (-4229.285) (-4229.334) (-4215.341) -- 0:11:50
      500000 -- [-4212.265] (-4225.980) (-4234.330) (-4258.126) * (-4217.321) (-4231.336) (-4234.638) [-4219.823] -- 0:11:50

      Average standard deviation of split frequencies: 0.017325

      500500 -- (-4212.794) (-4223.894) [-4215.416] (-4258.510) * (-4214.508) [-4226.165] (-4225.979) (-4235.756) -- 0:11:49
      501000 -- (-4222.184) [-4209.323] (-4224.259) (-4228.273) * [-4215.415] (-4226.498) (-4212.582) (-4234.270) -- 0:11:48
      501500 -- (-4230.065) [-4206.610] (-4249.087) (-4228.811) * (-4240.294) (-4213.523) [-4207.736] (-4232.221) -- 0:11:47
      502000 -- [-4211.772] (-4191.897) (-4229.130) (-4228.725) * (-4221.197) [-4213.951] (-4219.320) (-4224.726) -- 0:11:47
      502500 -- [-4198.313] (-4215.717) (-4226.947) (-4234.382) * (-4217.181) (-4229.837) [-4209.579] (-4221.541) -- 0:11:46
      503000 -- [-4208.327] (-4217.463) (-4213.052) (-4240.953) * (-4242.184) (-4233.602) (-4211.478) [-4220.366] -- 0:11:45
      503500 -- [-4209.279] (-4235.337) (-4209.881) (-4244.886) * (-4228.935) [-4221.644] (-4222.994) (-4233.888) -- 0:11:45
      504000 -- [-4223.145] (-4233.947) (-4221.298) (-4235.167) * (-4239.940) [-4207.055] (-4232.705) (-4238.297) -- 0:11:44
      504500 -- (-4220.134) [-4213.496] (-4219.975) (-4222.721) * (-4243.909) (-4219.165) [-4225.029] (-4220.018) -- 0:11:44
      505000 -- [-4222.787] (-4215.578) (-4213.740) (-4234.270) * (-4239.353) (-4213.902) (-4221.444) [-4223.764] -- 0:11:42

      Average standard deviation of split frequencies: 0.017107

      505500 -- [-4216.179] (-4217.325) (-4219.116) (-4223.933) * (-4241.256) [-4216.726] (-4235.279) (-4235.579) -- 0:11:42
      506000 -- (-4225.309) (-4221.043) [-4229.876] (-4218.184) * (-4239.934) [-4222.767] (-4217.589) (-4220.804) -- 0:11:41
      506500 -- [-4226.346] (-4246.624) (-4233.215) (-4223.662) * [-4240.651] (-4219.039) (-4228.483) (-4227.767) -- 0:11:41
      507000 -- [-4218.421] (-4233.483) (-4244.350) (-4232.696) * (-4229.931) [-4216.558] (-4228.898) (-4223.659) -- 0:11:40
      507500 -- (-4241.194) (-4235.492) (-4248.102) [-4229.222] * (-4223.789) [-4219.208] (-4239.030) (-4229.190) -- 0:11:39
      508000 -- [-4232.705] (-4242.434) (-4229.464) (-4217.283) * (-4250.157) (-4215.150) (-4237.311) [-4234.232] -- 0:11:39
      508500 -- (-4250.732) (-4229.934) (-4221.904) [-4216.903] * (-4247.082) [-4212.255] (-4228.375) (-4231.296) -- 0:11:38
      509000 -- (-4248.671) (-4232.300) (-4223.484) [-4215.704] * (-4246.747) [-4205.223] (-4219.015) (-4218.596) -- 0:11:37
      509500 -- (-4241.837) (-4242.911) (-4214.539) [-4210.136] * (-4229.140) (-4219.423) (-4225.893) [-4216.437] -- 0:11:37
      510000 -- (-4233.506) (-4236.943) (-4235.464) [-4210.627] * [-4221.085] (-4210.878) (-4217.060) (-4225.612) -- 0:11:36

      Average standard deviation of split frequencies: 0.017062

      510500 -- [-4226.536] (-4227.902) (-4230.344) (-4215.539) * (-4216.371) [-4217.852] (-4219.247) (-4219.309) -- 0:11:35
      511000 -- [-4215.818] (-4234.836) (-4250.951) (-4225.599) * (-4218.520) (-4223.192) [-4218.520] (-4225.548) -- 0:11:34
      511500 -- [-4216.713] (-4238.603) (-4244.512) (-4218.146) * (-4244.316) [-4220.835] (-4228.391) (-4228.697) -- 0:11:34
      512000 -- (-4229.300) (-4234.380) (-4250.771) [-4222.603] * [-4213.999] (-4225.630) (-4240.587) (-4228.130) -- 0:11:33
      512500 -- (-4219.155) [-4232.684] (-4235.727) (-4222.210) * (-4218.808) [-4232.071] (-4232.530) (-4244.050) -- 0:11:32
      513000 -- [-4213.265] (-4232.280) (-4242.292) (-4211.398) * (-4233.968) (-4241.874) [-4241.835] (-4212.008) -- 0:11:32
      513500 -- (-4224.535) [-4223.621] (-4255.920) (-4225.417) * (-4238.807) (-4222.872) (-4237.138) [-4212.533] -- 0:11:31
      514000 -- (-4244.331) (-4233.030) [-4227.665] (-4240.925) * (-4238.164) (-4237.955) [-4229.978] (-4224.898) -- 0:11:31
      514500 -- (-4243.156) (-4243.136) [-4209.942] (-4241.936) * (-4219.190) [-4221.467] (-4230.298) (-4225.868) -- 0:11:29
      515000 -- (-4222.162) [-4223.622] (-4210.441) (-4244.329) * (-4237.029) [-4230.308] (-4236.759) (-4232.128) -- 0:11:29

      Average standard deviation of split frequencies: 0.016997

      515500 -- (-4222.778) (-4212.825) [-4207.408] (-4253.942) * (-4225.510) (-4231.950) [-4223.987] (-4214.812) -- 0:11:28
      516000 -- (-4223.881) [-4218.984] (-4221.924) (-4251.784) * (-4249.840) (-4230.029) (-4223.283) [-4218.199] -- 0:11:28
      516500 -- (-4227.387) (-4226.108) [-4215.954] (-4233.449) * (-4237.639) (-4231.069) (-4224.473) [-4224.242] -- 0:11:27
      517000 -- (-4226.387) (-4211.449) (-4218.256) [-4225.789] * (-4206.223) (-4223.727) (-4241.150) [-4206.789] -- 0:11:26
      517500 -- (-4229.892) (-4228.900) [-4202.839] (-4234.468) * (-4213.295) (-4222.993) (-4220.813) [-4216.539] -- 0:11:26
      518000 -- (-4231.565) (-4247.558) [-4207.834] (-4239.524) * (-4214.120) (-4225.874) (-4213.010) [-4220.923] -- 0:11:25
      518500 -- (-4232.096) (-4247.165) (-4201.868) [-4228.755] * [-4207.633] (-4242.436) (-4234.133) (-4217.342) -- 0:11:24
      519000 -- (-4218.581) (-4233.225) [-4210.563] (-4236.926) * (-4213.474) (-4249.573) (-4236.974) [-4220.630] -- 0:11:23
      519500 -- (-4230.529) (-4233.675) [-4213.229] (-4246.250) * (-4227.984) (-4241.485) (-4223.293) [-4215.900] -- 0:11:23
      520000 -- (-4228.143) (-4220.170) [-4195.294] (-4247.743) * (-4232.804) (-4234.183) [-4213.659] (-4212.591) -- 0:11:23

      Average standard deviation of split frequencies: 0.017421

      520500 -- (-4226.143) (-4220.233) [-4205.465] (-4235.828) * (-4257.314) (-4220.281) (-4225.620) [-4219.525] -- 0:11:21
      521000 -- (-4217.943) [-4203.223] (-4219.656) (-4219.740) * (-4239.060) (-4238.987) (-4219.800) [-4211.821] -- 0:11:21
      521500 -- (-4224.035) (-4221.234) [-4221.545] (-4230.576) * (-4226.257) (-4235.155) [-4222.386] (-4213.006) -- 0:11:20
      522000 -- (-4249.352) (-4225.465) [-4207.119] (-4225.808) * (-4226.609) (-4242.177) (-4227.731) [-4215.686] -- 0:11:20
      522500 -- (-4242.631) (-4224.273) [-4203.035] (-4225.957) * (-4226.373) (-4249.938) (-4239.792) [-4210.414] -- 0:11:19
      523000 -- (-4260.177) (-4220.498) [-4195.430] (-4241.331) * [-4209.469] (-4244.736) (-4222.842) (-4210.809) -- 0:11:18
      523500 -- (-4234.328) (-4230.850) (-4209.417) [-4229.690] * [-4211.274] (-4224.656) (-4223.541) (-4227.131) -- 0:11:18
      524000 -- (-4254.967) (-4234.834) (-4228.558) [-4234.487] * [-4211.536] (-4230.221) (-4218.424) (-4220.641) -- 0:11:17
      524500 -- [-4219.030] (-4228.589) (-4233.484) (-4255.212) * (-4221.378) (-4226.274) [-4213.071] (-4232.551) -- 0:11:17
      525000 -- [-4212.190] (-4233.230) (-4242.840) (-4221.140) * (-4240.256) [-4211.161] (-4224.800) (-4233.659) -- 0:11:15

      Average standard deviation of split frequencies: 0.018022

      525500 -- [-4211.900] (-4213.012) (-4227.133) (-4235.165) * (-4232.448) [-4213.416] (-4236.695) (-4239.761) -- 0:11:15
      526000 -- [-4214.755] (-4225.195) (-4223.998) (-4243.450) * (-4221.941) (-4218.107) [-4220.256] (-4253.918) -- 0:11:14
      526500 -- (-4223.974) [-4208.154] (-4219.131) (-4253.312) * (-4235.304) [-4220.173] (-4219.826) (-4240.876) -- 0:11:14
      527000 -- [-4228.277] (-4222.107) (-4234.722) (-4255.680) * (-4238.996) [-4214.933] (-4223.713) (-4230.859) -- 0:11:13
      527500 -- [-4230.658] (-4223.864) (-4231.331) (-4258.692) * (-4236.453) [-4219.600] (-4221.674) (-4232.657) -- 0:11:12
      528000 -- (-4230.712) [-4221.938] (-4229.476) (-4256.101) * (-4249.919) (-4228.803) [-4221.611] (-4254.331) -- 0:11:12
      528500 -- (-4236.136) [-4217.166] (-4219.113) (-4281.736) * (-4239.370) (-4241.212) [-4216.739] (-4257.558) -- 0:11:11
      529000 -- (-4236.289) [-4216.250] (-4194.280) (-4244.608) * [-4226.427] (-4246.700) (-4236.786) (-4246.196) -- 0:11:10
      529500 -- (-4233.926) (-4219.466) [-4203.711] (-4255.655) * (-4228.036) (-4242.586) [-4236.116] (-4257.302) -- 0:11:09
      530000 -- (-4227.581) (-4224.845) [-4207.659] (-4224.176) * [-4207.741] (-4235.743) (-4229.111) (-4249.460) -- 0:11:09

      Average standard deviation of split frequencies: 0.018168

      530500 -- (-4248.992) (-4233.032) [-4205.944] (-4225.110) * (-4215.922) (-4267.393) [-4222.884] (-4226.175) -- 0:11:09
      531000 -- (-4249.577) [-4231.331] (-4200.978) (-4236.697) * [-4216.087] (-4253.574) (-4227.734) (-4246.190) -- 0:11:07
      531500 -- (-4244.601) (-4225.528) [-4195.298] (-4249.061) * [-4212.984] (-4238.799) (-4242.583) (-4249.665) -- 0:11:07
      532000 -- (-4228.986) (-4232.987) [-4200.524] (-4239.065) * [-4215.795] (-4234.385) (-4236.288) (-4235.321) -- 0:11:06
      532500 -- (-4236.807) (-4234.495) [-4216.613] (-4226.629) * [-4235.306] (-4225.853) (-4236.353) (-4239.529) -- 0:11:05
      533000 -- (-4219.062) (-4250.841) [-4199.352] (-4232.076) * (-4244.061) [-4219.357] (-4233.659) (-4242.189) -- 0:11:05
      533500 -- [-4223.732] (-4240.116) (-4203.643) (-4244.569) * [-4221.608] (-4235.613) (-4233.626) (-4239.938) -- 0:11:04
      534000 -- (-4214.006) (-4239.091) [-4232.035] (-4236.856) * (-4229.015) (-4244.126) (-4221.744) [-4232.521] -- 0:11:04
      534500 -- (-4214.117) (-4222.862) (-4227.094) [-4225.063] * (-4236.718) (-4254.580) [-4211.744] (-4225.185) -- 0:11:02
      535000 -- (-4230.513) (-4219.816) [-4212.181] (-4212.651) * (-4234.553) (-4237.976) [-4215.311] (-4237.692) -- 0:11:02

      Average standard deviation of split frequencies: 0.018743

      535500 -- (-4251.163) (-4218.486) (-4226.486) [-4221.529] * (-4228.992) (-4235.876) [-4211.235] (-4235.403) -- 0:11:01
      536000 -- (-4247.141) (-4214.699) (-4214.378) [-4216.421] * (-4237.446) [-4238.189] (-4219.884) (-4240.846) -- 0:11:00
      536500 -- (-4252.319) [-4222.610] (-4233.630) (-4222.423) * (-4242.163) [-4207.015] (-4234.705) (-4225.064) -- 0:11:00
      537000 -- (-4237.100) (-4216.813) (-4242.014) [-4218.368] * (-4229.600) [-4215.002] (-4250.157) (-4211.306) -- 0:10:59
      537500 -- (-4228.400) (-4227.939) (-4237.296) [-4223.855] * (-4226.415) (-4225.651) [-4227.098] (-4219.994) -- 0:10:59
      538000 -- [-4211.743] (-4236.586) (-4242.683) (-4232.465) * (-4229.221) (-4230.798) [-4223.114] (-4223.125) -- 0:10:57
      538500 -- (-4233.752) (-4236.592) (-4231.109) [-4229.575] * (-4226.163) (-4249.585) [-4232.261] (-4218.686) -- 0:10:57
      539000 -- [-4213.581] (-4237.953) (-4221.334) (-4220.984) * (-4221.802) (-4224.166) [-4212.909] (-4231.007) -- 0:10:56
      539500 -- (-4219.529) (-4220.673) [-4216.424] (-4220.312) * (-4230.704) (-4229.894) [-4220.902] (-4230.691) -- 0:10:55
      540000 -- (-4240.839) (-4225.090) (-4217.712) [-4209.007] * (-4220.177) [-4242.268] (-4233.853) (-4232.294) -- 0:10:55

      Average standard deviation of split frequencies: 0.018891

      540500 -- (-4231.991) (-4232.909) (-4230.529) [-4201.402] * [-4208.121] (-4250.362) (-4221.777) (-4218.542) -- 0:10:54
      541000 -- (-4238.832) (-4254.217) (-4230.029) [-4210.884] * (-4223.043) (-4233.575) [-4224.845] (-4229.082) -- 0:10:53
      541500 -- [-4213.184] (-4235.187) (-4225.595) (-4207.076) * (-4223.199) (-4230.148) [-4226.385] (-4230.223) -- 0:10:52
      542000 -- [-4203.743] (-4224.988) (-4240.820) (-4214.948) * (-4231.127) (-4245.281) [-4226.879] (-4222.501) -- 0:10:52
      542500 -- [-4213.366] (-4226.448) (-4246.842) (-4226.201) * (-4243.516) (-4228.701) (-4216.500) [-4216.887] -- 0:10:51
      543000 -- [-4218.483] (-4232.957) (-4237.159) (-4244.671) * (-4241.708) (-4230.860) (-4201.886) [-4211.460] -- 0:10:50
      543500 -- [-4213.217] (-4229.592) (-4232.186) (-4247.852) * (-4251.902) (-4227.693) [-4212.820] (-4227.322) -- 0:10:50
      544000 -- [-4210.134] (-4246.520) (-4246.443) (-4228.481) * (-4242.484) (-4217.231) [-4220.721] (-4247.626) -- 0:10:49
      544500 -- (-4220.183) (-4253.234) [-4244.916] (-4224.397) * (-4235.232) [-4215.642] (-4212.900) (-4226.086) -- 0:10:48
      545000 -- [-4202.402] (-4239.257) (-4236.877) (-4222.605) * (-4208.884) (-4217.266) [-4208.405] (-4248.987) -- 0:10:47

      Average standard deviation of split frequencies: 0.019150

      545500 -- (-4201.033) [-4225.291] (-4224.495) (-4235.407) * (-4217.084) [-4220.877] (-4226.173) (-4241.516) -- 0:10:47
      546000 -- [-4204.743] (-4230.921) (-4225.767) (-4230.541) * (-4214.408) (-4227.503) [-4222.284] (-4227.726) -- 0:10:46
      546500 -- (-4210.876) [-4219.418] (-4226.232) (-4245.386) * (-4220.754) (-4243.648) [-4220.318] (-4242.897) -- 0:10:45
      547000 -- [-4199.376] (-4220.863) (-4226.185) (-4236.101) * (-4226.176) (-4254.781) [-4217.823] (-4213.102) -- 0:10:45
      547500 -- [-4199.077] (-4238.280) (-4211.298) (-4245.563) * (-4224.734) (-4254.122) [-4210.942] (-4218.599) -- 0:10:44
      548000 -- (-4202.370) (-4222.340) [-4202.236] (-4239.502) * (-4216.413) (-4249.426) (-4206.581) [-4227.447] -- 0:10:43
      548500 -- [-4217.266] (-4229.825) (-4207.377) (-4235.149) * (-4220.209) [-4225.852] (-4224.326) (-4225.131) -- 0:10:42
      549000 -- [-4214.698] (-4225.600) (-4213.040) (-4258.425) * (-4214.739) (-4224.224) [-4202.113] (-4229.400) -- 0:10:42
      549500 -- [-4212.470] (-4244.044) (-4242.715) (-4240.044) * (-4216.555) [-4220.938] (-4209.496) (-4216.965) -- 0:10:41
      550000 -- [-4215.815] (-4244.044) (-4250.126) (-4235.131) * [-4209.627] (-4232.781) (-4225.193) (-4222.750) -- 0:10:40

      Average standard deviation of split frequencies: 0.018474

      550500 -- [-4214.795] (-4238.283) (-4240.225) (-4232.815) * (-4209.055) [-4221.420] (-4233.770) (-4211.801) -- 0:10:40
      551000 -- [-4213.792] (-4229.044) (-4238.882) (-4242.248) * [-4209.811] (-4231.598) (-4241.949) (-4226.220) -- 0:10:39
      551500 -- (-4203.894) [-4228.466] (-4231.317) (-4236.054) * [-4210.270] (-4230.829) (-4232.010) (-4236.193) -- 0:10:38
      552000 -- [-4221.778] (-4230.945) (-4227.773) (-4230.044) * (-4221.036) (-4257.235) (-4230.662) [-4238.748] -- 0:10:37
      552500 -- (-4219.005) [-4217.384] (-4229.581) (-4227.727) * [-4214.494] (-4232.068) (-4241.275) (-4247.467) -- 0:10:37
      553000 -- [-4215.329] (-4236.084) (-4241.451) (-4224.413) * (-4236.374) (-4233.789) (-4249.609) [-4229.026] -- 0:10:36
      553500 -- (-4224.879) (-4216.444) (-4218.990) [-4217.566] * [-4222.315] (-4228.954) (-4235.655) (-4220.304) -- 0:10:35
      554000 -- (-4238.808) [-4199.393] (-4232.354) (-4223.965) * (-4227.627) [-4209.101] (-4227.140) (-4228.226) -- 0:10:35
      554500 -- (-4253.911) [-4206.935] (-4227.558) (-4225.380) * (-4217.266) (-4220.254) [-4228.365] (-4211.016) -- 0:10:34
      555000 -- (-4240.348) [-4204.424] (-4234.222) (-4243.579) * (-4227.254) [-4208.916] (-4239.117) (-4222.821) -- 0:10:33

      Average standard deviation of split frequencies: 0.018328

      555500 -- (-4234.848) [-4204.131] (-4228.569) (-4239.309) * (-4229.046) (-4231.047) [-4221.667] (-4239.913) -- 0:10:32
      556000 -- (-4230.584) [-4211.300] (-4226.014) (-4243.549) * (-4227.291) (-4234.815) [-4210.926] (-4237.249) -- 0:10:32
      556500 -- [-4222.277] (-4203.581) (-4246.607) (-4259.318) * [-4239.158] (-4236.596) (-4201.529) (-4236.655) -- 0:10:31
      557000 -- (-4220.018) [-4201.492] (-4218.517) (-4253.445) * (-4235.342) (-4239.479) [-4202.687] (-4230.283) -- 0:10:30
      557500 -- (-4238.309) [-4206.671] (-4228.854) (-4240.154) * (-4225.306) (-4237.883) [-4202.508] (-4234.778) -- 0:10:30
      558000 -- (-4216.571) (-4234.533) (-4213.840) [-4219.125] * (-4210.507) (-4229.186) [-4204.916] (-4223.867) -- 0:10:29
      558500 -- (-4237.656) (-4217.879) [-4203.861] (-4215.756) * (-4239.472) (-4217.414) [-4211.668] (-4225.632) -- 0:10:29
      559000 -- (-4238.754) (-4209.095) (-4223.190) [-4209.553] * [-4221.090] (-4239.880) (-4222.446) (-4223.796) -- 0:10:27
      559500 -- (-4227.477) (-4224.692) [-4230.673] (-4224.769) * [-4221.345] (-4218.712) (-4206.717) (-4235.874) -- 0:10:27
      560000 -- (-4232.154) (-4218.700) [-4224.983] (-4223.414) * (-4220.583) (-4223.259) (-4229.157) [-4212.690] -- 0:10:27

      Average standard deviation of split frequencies: 0.018283

      560500 -- (-4234.456) (-4206.269) [-4228.059] (-4221.464) * (-4226.892) (-4229.655) [-4221.992] (-4229.278) -- 0:10:25
      561000 -- (-4223.102) [-4214.814] (-4212.022) (-4224.712) * (-4227.817) [-4223.353] (-4234.687) (-4233.858) -- 0:10:25
      561500 -- [-4208.904] (-4225.842) (-4221.715) (-4213.893) * [-4223.674] (-4223.792) (-4244.226) (-4224.967) -- 0:10:24
      562000 -- [-4217.411] (-4241.780) (-4232.812) (-4222.905) * [-4227.355] (-4219.305) (-4229.806) (-4240.537) -- 0:10:24
      562500 -- (-4228.469) (-4240.601) (-4238.000) [-4204.982] * [-4214.508] (-4214.416) (-4239.348) (-4264.124) -- 0:10:23
      563000 -- (-4233.584) [-4220.599] (-4245.166) (-4219.659) * [-4204.720] (-4211.560) (-4226.273) (-4246.759) -- 0:10:22
      563500 -- (-4242.572) (-4220.356) [-4209.204] (-4220.641) * [-4211.590] (-4217.101) (-4210.423) (-4259.016) -- 0:10:22
      564000 -- (-4250.385) (-4220.136) (-4226.340) [-4208.844] * (-4209.843) [-4214.116] (-4247.294) (-4246.065) -- 0:10:20
      564500 -- (-4254.804) (-4222.874) (-4227.348) [-4212.373] * [-4219.330] (-4252.706) (-4237.566) (-4264.552) -- 0:10:20
      565000 -- (-4231.512) (-4239.898) (-4228.414) [-4212.652] * (-4220.596) (-4245.438) (-4236.875) [-4221.306] -- 0:10:19

      Average standard deviation of split frequencies: 0.017972

      565500 -- (-4227.061) (-4253.360) (-4232.807) [-4211.130] * [-4208.955] (-4244.222) (-4229.190) (-4213.324) -- 0:10:19
      566000 -- (-4226.927) (-4237.373) (-4228.335) [-4212.780] * (-4218.430) (-4220.572) [-4205.297] (-4223.281) -- 0:10:18
      566500 -- (-4250.728) (-4243.080) [-4213.988] (-4214.466) * [-4211.112] (-4238.089) (-4215.607) (-4213.151) -- 0:10:17
      567000 -- (-4245.880) (-4244.862) [-4223.892] (-4219.041) * (-4209.460) (-4223.231) [-4215.127] (-4234.812) -- 0:10:17
      567500 -- [-4224.031] (-4233.308) (-4238.498) (-4208.533) * [-4208.345] (-4230.953) (-4224.327) (-4215.595) -- 0:10:15
      568000 -- [-4212.868] (-4235.430) (-4234.357) (-4228.098) * (-4220.166) [-4209.513] (-4234.414) (-4233.232) -- 0:10:15
      568500 -- [-4206.814] (-4241.552) (-4221.350) (-4230.619) * (-4220.939) [-4215.696] (-4235.917) (-4237.459) -- 0:10:14
      569000 -- [-4213.187] (-4239.063) (-4217.472) (-4232.860) * (-4207.276) [-4214.697] (-4229.618) (-4228.979) -- 0:10:13
      569500 -- (-4218.993) (-4222.010) [-4224.046] (-4225.825) * (-4206.239) [-4214.819] (-4230.555) (-4233.059) -- 0:10:13
      570000 -- [-4209.441] (-4240.115) (-4220.307) (-4240.767) * [-4217.793] (-4207.606) (-4211.395) (-4218.727) -- 0:10:12

      Average standard deviation of split frequencies: 0.018078

      570500 -- [-4194.819] (-4248.515) (-4213.679) (-4241.251) * [-4214.802] (-4216.333) (-4215.932) (-4225.502) -- 0:10:11
      571000 -- [-4212.078] (-4265.290) (-4225.004) (-4219.433) * (-4219.824) [-4219.351] (-4211.981) (-4236.915) -- 0:10:10
      571500 -- (-4233.894) (-4252.871) [-4222.841] (-4212.098) * (-4206.234) (-4247.590) [-4210.971] (-4250.599) -- 0:10:10
      572000 -- (-4229.234) (-4257.730) [-4212.706] (-4226.195) * [-4208.287] (-4261.434) (-4207.395) (-4247.605) -- 0:10:09
      572500 -- (-4226.596) (-4252.441) [-4211.758] (-4224.188) * [-4207.685] (-4252.691) (-4215.639) (-4260.693) -- 0:10:08
      573000 -- (-4230.013) (-4244.062) [-4211.424] (-4227.612) * (-4209.886) (-4271.667) [-4224.978] (-4245.621) -- 0:10:08
      573500 -- (-4225.009) (-4236.482) [-4216.740] (-4217.442) * [-4218.653] (-4270.144) (-4218.077) (-4228.258) -- 0:10:07
      574000 -- (-4247.662) (-4238.997) [-4210.956] (-4225.517) * (-4235.546) (-4246.948) [-4218.203] (-4239.339) -- 0:10:06
      574500 -- (-4253.644) (-4237.839) [-4210.746] (-4227.493) * (-4227.562) (-4241.361) (-4233.740) [-4229.697] -- 0:10:05
      575000 -- (-4245.021) (-4232.291) [-4219.036] (-4217.349) * (-4225.542) [-4222.220] (-4232.644) (-4222.878) -- 0:10:05

      Average standard deviation of split frequencies: 0.017350

      575500 -- (-4270.309) [-4234.554] (-4226.329) (-4209.808) * (-4222.759) (-4226.040) [-4217.552] (-4234.573) -- 0:10:04
      576000 -- (-4265.892) (-4238.473) [-4232.541] (-4235.867) * (-4223.084) [-4227.222] (-4217.431) (-4244.072) -- 0:10:03
      576500 -- (-4252.697) (-4233.063) (-4227.473) [-4228.290] * (-4228.982) (-4221.678) [-4212.649] (-4232.289) -- 0:10:03
      577000 -- (-4247.957) (-4235.647) [-4216.684] (-4224.300) * (-4242.049) (-4231.463) [-4211.968] (-4221.251) -- 0:10:02
      577500 -- (-4255.605) (-4221.718) (-4230.243) [-4223.173] * (-4233.461) (-4223.098) [-4203.486] (-4225.054) -- 0:10:02
      578000 -- (-4238.216) (-4226.395) (-4226.931) [-4213.650] * (-4240.114) [-4224.783] (-4214.617) (-4223.573) -- 0:10:00
      578500 -- (-4233.909) (-4236.791) [-4229.468] (-4219.442) * (-4252.799) (-4226.852) [-4202.415] (-4223.930) -- 0:10:00
      579000 -- [-4204.894] (-4235.313) (-4235.758) (-4225.903) * (-4235.442) (-4224.169) (-4220.168) [-4227.609] -- 0:09:59
      579500 -- [-4216.322] (-4244.421) (-4239.362) (-4219.547) * (-4242.286) (-4214.146) [-4201.698] (-4234.851) -- 0:09:58
      580000 -- (-4218.944) [-4231.258] (-4228.112) (-4213.218) * (-4242.838) (-4221.183) (-4212.442) [-4222.898] -- 0:09:58

      Average standard deviation of split frequencies: 0.017066

      580500 -- (-4223.667) (-4239.168) (-4220.195) [-4225.557] * (-4265.544) (-4239.045) (-4218.044) [-4211.456] -- 0:09:57
      581000 -- (-4216.726) (-4234.510) [-4202.942] (-4254.397) * (-4270.286) (-4218.690) (-4221.909) [-4211.650] -- 0:09:57
      581500 -- [-4208.120] (-4239.379) (-4203.723) (-4239.242) * (-4247.089) [-4217.930] (-4223.335) (-4226.613) -- 0:09:55
      582000 -- (-4215.653) [-4231.886] (-4214.745) (-4229.218) * (-4234.426) [-4208.152] (-4224.177) (-4221.033) -- 0:09:55
      582500 -- [-4201.178] (-4232.274) (-4225.207) (-4228.982) * (-4254.820) [-4213.893] (-4228.652) (-4218.378) -- 0:09:54
      583000 -- [-4217.648] (-4246.520) (-4221.874) (-4249.793) * (-4221.553) (-4241.326) (-4209.839) [-4213.289] -- 0:09:53
      583500 -- [-4210.544] (-4229.449) (-4233.136) (-4234.355) * [-4200.856] (-4224.664) (-4216.443) (-4233.278) -- 0:09:53
      584000 -- [-4222.320] (-4235.282) (-4233.348) (-4233.747) * (-4221.586) (-4224.141) [-4217.926] (-4219.659) -- 0:09:52
      584500 -- [-4208.984] (-4234.636) (-4225.854) (-4245.095) * [-4218.440] (-4224.869) (-4231.276) (-4231.159) -- 0:09:52
      585000 -- [-4205.031] (-4246.123) (-4224.090) (-4224.973) * [-4224.713] (-4226.954) (-4234.361) (-4245.526) -- 0:09:50

      Average standard deviation of split frequencies: 0.017366

      585500 -- (-4211.247) (-4248.652) (-4219.717) [-4218.929] * [-4204.491] (-4239.187) (-4240.942) (-4242.158) -- 0:09:50
      586000 -- [-4221.187] (-4230.222) (-4217.675) (-4213.666) * [-4206.148] (-4241.791) (-4221.271) (-4259.741) -- 0:09:49
      586500 -- (-4215.259) [-4220.396] (-4245.887) (-4221.145) * (-4200.713) [-4221.241] (-4236.414) (-4231.579) -- 0:09:48
      587000 -- [-4212.184] (-4228.806) (-4251.761) (-4229.559) * [-4200.734] (-4218.124) (-4231.726) (-4221.029) -- 0:09:48
      587500 -- (-4228.817) [-4231.173] (-4237.748) (-4226.156) * [-4213.502] (-4230.394) (-4248.645) (-4227.400) -- 0:09:47
      588000 -- (-4219.122) (-4258.118) (-4240.673) [-4208.145] * [-4219.322] (-4273.505) (-4235.754) (-4245.426) -- 0:09:46
      588500 -- (-4223.162) (-4241.523) (-4227.930) [-4218.923] * (-4231.627) (-4239.463) [-4208.503] (-4228.468) -- 0:09:45
      589000 -- (-4235.717) (-4238.073) (-4235.002) [-4218.344] * (-4214.058) (-4229.533) (-4205.737) [-4223.013] -- 0:09:45
      589500 -- (-4223.216) (-4235.674) (-4246.687) [-4206.320] * [-4219.165] (-4244.787) (-4214.943) (-4232.174) -- 0:09:44
      590000 -- [-4228.297] (-4236.033) (-4231.208) (-4226.699) * (-4228.542) (-4249.615) [-4225.181] (-4224.838) -- 0:09:43

      Average standard deviation of split frequencies: 0.017558

      590500 -- (-4242.179) (-4234.262) (-4233.093) [-4209.043] * (-4213.037) (-4213.636) (-4239.107) [-4233.375] -- 0:09:43
      591000 -- [-4218.409] (-4225.544) (-4238.435) (-4213.857) * (-4213.260) [-4225.663] (-4256.604) (-4233.599) -- 0:09:42
      591500 -- (-4228.940) (-4224.098) (-4238.912) [-4212.594] * (-4222.673) [-4205.720] (-4239.838) (-4226.281) -- 0:09:41
      592000 -- (-4243.373) (-4235.213) (-4241.008) [-4207.382] * (-4205.484) (-4220.741) [-4223.105] (-4211.484) -- 0:09:40
      592500 -- (-4229.097) [-4223.390] (-4253.605) (-4225.904) * [-4197.437] (-4229.752) (-4236.442) (-4219.251) -- 0:09:40
      593000 -- (-4214.897) [-4207.110] (-4248.645) (-4224.540) * [-4208.931] (-4237.885) (-4249.091) (-4212.688) -- 0:09:39
      593500 -- (-4213.676) (-4210.341) (-4238.641) [-4222.632] * [-4213.310] (-4245.762) (-4228.345) (-4217.432) -- 0:09:38
      594000 -- [-4212.384] (-4223.206) (-4230.326) (-4219.972) * [-4219.636] (-4239.155) (-4218.485) (-4207.511) -- 0:09:38
      594500 -- [-4210.864] (-4234.973) (-4222.800) (-4222.604) * (-4212.259) (-4243.481) (-4209.723) [-4200.499] -- 0:09:37
      595000 -- (-4217.767) (-4239.747) (-4229.651) [-4216.192] * [-4220.045] (-4231.633) (-4224.019) (-4203.598) -- 0:09:37

      Average standard deviation of split frequencies: 0.017487

      595500 -- [-4211.061] (-4242.916) (-4227.482) (-4221.313) * (-4233.768) (-4232.388) (-4245.386) [-4216.019] -- 0:09:36
      596000 -- [-4195.292] (-4240.540) (-4230.266) (-4220.785) * (-4217.384) (-4216.814) (-4228.134) [-4214.958] -- 0:09:35
      596500 -- (-4209.631) (-4231.884) (-4212.437) [-4216.118] * (-4210.858) [-4202.876] (-4231.790) (-4203.934) -- 0:09:34
      597000 -- [-4208.989] (-4237.360) (-4223.402) (-4223.559) * (-4214.774) [-4207.242] (-4224.950) (-4207.985) -- 0:09:34
      597500 -- (-4218.791) (-4238.829) [-4220.304] (-4224.105) * [-4224.352] (-4229.572) (-4244.108) (-4234.969) -- 0:09:33
      598000 -- (-4225.565) (-4229.628) [-4211.582] (-4231.642) * (-4212.268) [-4212.983] (-4239.776) (-4220.915) -- 0:09:32
      598500 -- (-4222.557) (-4223.140) [-4207.352] (-4212.025) * [-4211.384] (-4220.440) (-4223.938) (-4229.645) -- 0:09:32
      599000 -- (-4224.824) (-4213.242) (-4225.644) [-4215.952] * [-4211.227] (-4221.747) (-4209.712) (-4225.402) -- 0:09:31
      599500 -- (-4236.906) (-4212.830) [-4218.068] (-4227.518) * [-4207.284] (-4244.062) (-4217.939) (-4237.989) -- 0:09:30
      600000 -- (-4232.943) (-4223.948) [-4216.283] (-4237.049) * (-4199.106) (-4248.774) [-4212.298] (-4227.967) -- 0:09:30

      Average standard deviation of split frequencies: 0.017291

      600500 -- (-4232.854) (-4237.796) [-4216.146] (-4240.222) * [-4219.889] (-4260.368) (-4233.736) (-4227.842) -- 0:09:29
      601000 -- (-4232.300) (-4248.187) [-4223.531] (-4236.363) * [-4220.356] (-4247.762) (-4217.048) (-4227.618) -- 0:09:28
      601500 -- (-4230.196) (-4234.965) [-4234.211] (-4217.284) * (-4223.705) (-4242.457) [-4210.973] (-4235.085) -- 0:09:27
      602000 -- [-4232.741] (-4241.603) (-4237.231) (-4215.732) * (-4247.784) (-4235.679) [-4213.761] (-4235.240) -- 0:09:27
      602500 -- [-4221.722] (-4231.367) (-4232.385) (-4226.441) * (-4267.706) (-4241.166) [-4211.097] (-4232.683) -- 0:09:26
      603000 -- [-4218.747] (-4233.272) (-4229.675) (-4221.197) * (-4247.287) [-4231.867] (-4217.512) (-4225.486) -- 0:09:25
      603500 -- (-4222.578) (-4241.999) [-4232.544] (-4225.977) * (-4220.980) (-4241.451) [-4213.000] (-4226.385) -- 0:09:25
      604000 -- [-4208.864] (-4244.925) (-4236.099) (-4224.739) * (-4235.693) (-4220.460) [-4215.451] (-4237.927) -- 0:09:24
      604500 -- [-4204.232] (-4234.733) (-4230.213) (-4225.262) * (-4231.895) [-4217.411] (-4222.966) (-4258.848) -- 0:09:23
      605000 -- [-4210.257] (-4245.658) (-4244.015) (-4220.403) * (-4238.107) (-4220.443) [-4207.614] (-4248.635) -- 0:09:22

      Average standard deviation of split frequencies: 0.016928

      605500 -- (-4218.411) (-4221.512) [-4234.606] (-4223.760) * (-4232.938) [-4211.034] (-4214.298) (-4241.608) -- 0:09:22
      606000 -- [-4212.639] (-4246.562) (-4227.550) (-4221.366) * (-4223.175) [-4207.532] (-4213.611) (-4239.573) -- 0:09:21
      606500 -- (-4215.339) (-4238.387) (-4232.281) [-4222.074] * (-4228.602) [-4205.994] (-4213.526) (-4245.470) -- 0:09:20
      607000 -- (-4225.357) (-4248.149) [-4207.283] (-4220.275) * (-4240.320) (-4225.767) [-4204.536] (-4235.899) -- 0:09:20
      607500 -- (-4228.183) (-4253.572) [-4219.704] (-4246.426) * (-4241.944) (-4229.882) [-4229.131] (-4225.953) -- 0:09:19
      608000 -- (-4239.876) (-4232.223) [-4215.151] (-4239.309) * (-4242.692) (-4226.321) (-4231.112) [-4233.349] -- 0:09:18
      608500 -- (-4225.761) (-4242.304) [-4204.035] (-4242.763) * (-4232.240) (-4216.307) [-4224.737] (-4241.600) -- 0:09:17
      609000 -- (-4229.658) (-4242.064) [-4207.229] (-4247.763) * (-4229.886) (-4220.011) [-4221.600] (-4244.874) -- 0:09:17
      609500 -- (-4238.588) [-4230.144] (-4212.318) (-4241.047) * (-4232.739) [-4210.854] (-4228.052) (-4242.025) -- 0:09:16
      610000 -- [-4227.951] (-4228.450) (-4215.549) (-4239.274) * (-4231.537) [-4213.941] (-4228.740) (-4234.701) -- 0:09:15

      Average standard deviation of split frequencies: 0.016593

      610500 -- (-4224.972) (-4237.667) [-4202.210] (-4242.927) * (-4241.917) [-4223.656] (-4229.999) (-4233.147) -- 0:09:15
      611000 -- [-4209.615] (-4229.604) (-4209.574) (-4244.326) * (-4243.977) (-4235.130) (-4225.455) [-4222.755] -- 0:09:14
      611500 -- [-4206.014] (-4235.052) (-4227.379) (-4236.888) * [-4236.087] (-4233.693) (-4237.699) (-4223.812) -- 0:09:14
      612000 -- [-4212.263] (-4233.626) (-4228.609) (-4240.241) * (-4242.847) (-4225.824) [-4227.593] (-4224.895) -- 0:09:12
      612500 -- [-4206.142] (-4236.291) (-4234.072) (-4244.550) * (-4231.242) [-4211.357] (-4235.426) (-4222.609) -- 0:09:12
      613000 -- [-4205.831] (-4218.076) (-4214.658) (-4233.619) * (-4253.410) (-4202.959) (-4247.523) [-4215.777] -- 0:09:11
      613500 -- (-4227.942) (-4224.867) [-4208.040] (-4236.299) * (-4248.024) [-4205.777] (-4233.638) (-4248.554) -- 0:09:10
      614000 -- (-4233.651) [-4215.243] (-4216.075) (-4220.822) * (-4245.062) [-4218.139] (-4224.028) (-4250.365) -- 0:09:10
      614500 -- (-4234.670) (-4224.265) [-4210.671] (-4232.303) * (-4238.686) [-4225.363] (-4237.104) (-4225.481) -- 0:09:09
      615000 -- (-4228.989) [-4204.542] (-4215.417) (-4236.917) * (-4222.467) [-4213.383] (-4226.771) (-4231.032) -- 0:09:09

      Average standard deviation of split frequencies: 0.016340

      615500 -- (-4219.327) [-4210.695] (-4218.924) (-4229.990) * (-4231.298) [-4216.989] (-4226.051) (-4241.067) -- 0:09:07
      616000 -- [-4223.057] (-4217.992) (-4212.818) (-4245.907) * (-4240.760) [-4222.743] (-4233.817) (-4246.806) -- 0:09:07
      616500 -- (-4221.200) [-4216.080] (-4211.810) (-4249.374) * (-4244.849) [-4209.097] (-4221.854) (-4242.127) -- 0:09:06
      617000 -- (-4220.198) [-4226.673] (-4215.608) (-4253.482) * (-4243.968) [-4205.520] (-4219.872) (-4247.485) -- 0:09:05
      617500 -- (-4227.908) [-4214.965] (-4218.173) (-4244.110) * (-4249.211) [-4226.203] (-4227.576) (-4229.959) -- 0:09:05
      618000 -- (-4209.316) [-4226.230] (-4217.007) (-4258.385) * (-4263.175) [-4224.351] (-4245.703) (-4227.701) -- 0:09:04
      618500 -- (-4204.748) [-4226.474] (-4226.023) (-4242.797) * (-4258.708) (-4239.851) [-4221.431] (-4225.091) -- 0:09:03
      619000 -- [-4209.294] (-4219.691) (-4224.706) (-4237.928) * (-4241.047) [-4220.843] (-4239.198) (-4242.700) -- 0:09:02
      619500 -- [-4213.270] (-4225.451) (-4221.386) (-4219.124) * (-4239.576) (-4229.100) [-4230.417] (-4234.980) -- 0:09:02
      620000 -- [-4212.265] (-4217.142) (-4220.395) (-4226.823) * (-4249.050) (-4242.914) (-4223.863) [-4218.280] -- 0:09:01

      Average standard deviation of split frequencies: 0.016075

      620500 -- [-4218.530] (-4236.197) (-4221.580) (-4225.510) * (-4231.692) (-4231.185) (-4247.978) [-4214.101] -- 0:09:00
      621000 -- [-4202.000] (-4242.965) (-4227.503) (-4251.854) * (-4251.826) (-4237.305) (-4247.930) [-4232.559] -- 0:09:00
      621500 -- [-4202.503] (-4249.976) (-4226.924) (-4240.311) * (-4244.283) (-4240.174) [-4237.667] (-4218.163) -- 0:08:59
      622000 -- [-4202.681] (-4242.572) (-4219.311) (-4247.460) * (-4235.922) [-4223.187] (-4227.430) (-4225.268) -- 0:08:58
      622500 -- [-4211.812] (-4237.811) (-4234.386) (-4268.767) * (-4233.151) (-4232.606) [-4224.549] (-4227.402) -- 0:08:57
      623000 -- [-4214.601] (-4246.297) (-4223.159) (-4252.048) * (-4230.975) (-4213.781) (-4247.525) [-4225.729] -- 0:08:57
      623500 -- (-4219.458) (-4233.262) [-4210.382] (-4276.506) * (-4227.613) [-4225.208] (-4232.216) (-4212.382) -- 0:08:56
      624000 -- (-4221.042) (-4238.006) [-4213.232] (-4264.068) * [-4217.762] (-4242.082) (-4239.232) (-4220.712) -- 0:08:55
      624500 -- (-4210.185) (-4237.524) [-4214.677] (-4219.862) * (-4225.468) (-4236.029) (-4225.654) [-4216.700] -- 0:08:55
      625000 -- (-4223.710) (-4240.611) (-4225.380) [-4210.291] * [-4226.636] (-4251.236) (-4233.052) (-4214.190) -- 0:08:54

      Average standard deviation of split frequencies: 0.015541

      625500 -- [-4221.577] (-4251.426) (-4235.952) (-4242.770) * (-4232.123) (-4230.076) (-4255.590) [-4209.714] -- 0:08:53
      626000 -- [-4219.373] (-4232.169) (-4233.452) (-4216.590) * (-4241.915) [-4220.966] (-4237.081) (-4190.748) -- 0:08:52
      626500 -- (-4221.101) (-4221.183) (-4229.816) [-4204.851] * (-4226.833) (-4222.585) (-4227.980) [-4197.287] -- 0:08:52
      627000 -- (-4227.373) [-4234.978] (-4248.805) (-4199.736) * (-4234.106) (-4221.383) (-4222.442) [-4208.999] -- 0:08:51
      627500 -- (-4228.528) (-4241.545) (-4225.972) [-4209.235] * (-4223.450) (-4223.778) (-4224.377) [-4206.977] -- 0:08:50
      628000 -- [-4225.257] (-4238.755) (-4237.782) (-4234.053) * (-4210.932) (-4244.590) (-4234.037) [-4202.602] -- 0:08:50
      628500 -- (-4248.867) (-4215.398) [-4219.824] (-4243.498) * (-4219.248) [-4220.103] (-4229.139) (-4224.208) -- 0:08:49
      629000 -- (-4269.963) (-4229.616) [-4224.262] (-4242.299) * [-4216.017] (-4229.611) (-4226.179) (-4235.923) -- 0:08:48
      629500 -- (-4233.890) (-4209.887) [-4213.999] (-4258.080) * [-4223.509] (-4250.764) (-4210.470) (-4228.046) -- 0:08:47
      630000 -- (-4244.627) [-4207.663] (-4218.451) (-4245.081) * (-4225.851) [-4236.300] (-4210.884) (-4219.264) -- 0:08:47

      Average standard deviation of split frequencies: 0.014958

      630500 -- (-4238.316) (-4204.185) (-4220.494) [-4234.962] * (-4228.649) (-4251.671) [-4204.553] (-4237.809) -- 0:08:46
      631000 -- (-4237.063) (-4228.543) [-4214.172] (-4236.126) * (-4235.555) (-4247.521) [-4203.611] (-4224.953) -- 0:08:45
      631500 -- (-4236.584) [-4206.100] (-4237.721) (-4231.873) * (-4227.032) [-4228.308] (-4210.925) (-4220.976) -- 0:08:45
      632000 -- (-4216.526) (-4229.656) (-4227.212) [-4233.408] * (-4239.345) (-4253.857) (-4212.116) [-4207.050] -- 0:08:44
      632500 -- [-4223.662] (-4231.138) (-4230.101) (-4228.150) * (-4228.291) (-4249.764) (-4220.894) [-4196.527] -- 0:08:43
      633000 -- [-4214.102] (-4254.737) (-4233.852) (-4227.546) * (-4238.390) (-4250.594) (-4237.584) [-4219.142] -- 0:08:42
      633500 -- [-4214.631] (-4247.927) (-4230.330) (-4250.666) * (-4253.447) (-4248.451) (-4213.501) [-4202.721] -- 0:08:42
      634000 -- [-4216.025] (-4247.335) (-4237.663) (-4237.222) * (-4251.482) (-4243.061) [-4220.118] (-4213.148) -- 0:08:41
      634500 -- [-4220.363] (-4250.155) (-4215.771) (-4234.281) * (-4252.187) (-4236.457) (-4222.267) [-4216.078] -- 0:08:40
      635000 -- [-4222.462] (-4218.969) (-4217.625) (-4234.892) * [-4223.210] (-4249.856) (-4209.103) (-4234.066) -- 0:08:40

      Average standard deviation of split frequencies: 0.014661

      635500 -- (-4241.631) (-4247.058) (-4209.497) [-4218.804] * [-4234.595] (-4245.215) (-4216.737) (-4221.352) -- 0:08:39
      636000 -- (-4232.778) (-4230.767) [-4212.672] (-4235.284) * (-4231.247) (-4251.720) [-4211.962] (-4227.875) -- 0:08:38
      636500 -- [-4218.055] (-4217.317) (-4232.039) (-4224.047) * (-4222.666) (-4249.155) [-4216.993] (-4225.564) -- 0:08:37
      637000 -- (-4225.493) [-4228.585] (-4216.421) (-4216.754) * (-4223.782) [-4209.933] (-4210.474) (-4236.658) -- 0:08:37
      637500 -- (-4231.243) (-4228.389) (-4236.200) [-4213.469] * (-4228.210) (-4242.714) [-4221.692] (-4231.124) -- 0:08:36
      638000 -- (-4232.505) [-4227.181] (-4216.338) (-4223.153) * [-4215.786] (-4236.107) (-4216.543) (-4241.290) -- 0:08:35
      638500 -- (-4229.389) [-4223.936] (-4240.186) (-4211.465) * (-4226.291) (-4231.053) [-4203.531] (-4241.556) -- 0:08:35
      639000 -- (-4229.386) (-4240.691) (-4249.145) [-4216.373] * (-4222.733) (-4244.237) [-4220.999] (-4244.172) -- 0:08:34
      639500 -- [-4231.561] (-4235.963) (-4245.773) (-4223.837) * (-4230.594) [-4233.358] (-4236.299) (-4222.881) -- 0:08:33
      640000 -- [-4226.740] (-4225.710) (-4252.896) (-4222.706) * (-4228.592) [-4229.413] (-4214.278) (-4256.885) -- 0:08:33

      Average standard deviation of split frequencies: 0.014724

      640500 -- (-4229.655) [-4236.847] (-4232.748) (-4217.093) * [-4218.587] (-4230.854) (-4236.675) (-4228.323) -- 0:08:32
      641000 -- (-4230.434) [-4221.499] (-4221.425) (-4226.251) * (-4223.713) [-4217.007] (-4229.859) (-4238.497) -- 0:08:31
      641500 -- (-4242.318) [-4219.368] (-4222.474) (-4218.869) * (-4250.822) (-4236.433) (-4232.204) [-4216.992] -- 0:08:30
      642000 -- (-4246.827) [-4213.702] (-4214.617) (-4218.655) * (-4219.109) [-4213.269] (-4246.939) (-4227.345) -- 0:08:30
      642500 -- (-4239.357) (-4225.105) [-4211.930] (-4220.409) * (-4226.167) [-4208.762] (-4245.001) (-4224.867) -- 0:08:29
      643000 -- [-4220.655] (-4244.125) (-4235.399) (-4223.311) * (-4234.971) [-4229.517] (-4227.880) (-4237.676) -- 0:08:28
      643500 -- [-4224.623] (-4247.569) (-4232.739) (-4218.260) * (-4222.300) (-4225.088) (-4228.112) [-4217.133] -- 0:08:28
      644000 -- [-4217.584] (-4229.283) (-4230.177) (-4236.316) * (-4223.914) [-4201.216] (-4223.167) (-4231.359) -- 0:08:27
      644500 -- [-4210.576] (-4233.512) (-4219.737) (-4237.609) * (-4230.532) [-4201.840] (-4234.554) (-4234.556) -- 0:08:26
      645000 -- (-4221.664) (-4227.416) (-4251.288) [-4224.476] * (-4233.764) [-4202.776] (-4231.537) (-4236.370) -- 0:08:25

      Average standard deviation of split frequencies: 0.013865

      645500 -- (-4230.134) [-4211.804] (-4228.913) (-4232.816) * (-4231.150) [-4217.085] (-4225.887) (-4226.233) -- 0:08:25
      646000 -- (-4229.327) [-4216.026] (-4238.320) (-4238.587) * (-4227.319) (-4231.341) (-4221.999) [-4236.736] -- 0:08:24
      646500 -- [-4217.417] (-4209.238) (-4246.784) (-4244.204) * (-4235.333) (-4222.111) [-4215.061] (-4233.596) -- 0:08:23
      647000 -- [-4225.708] (-4211.928) (-4236.070) (-4238.714) * (-4238.068) (-4241.954) [-4212.176] (-4237.415) -- 0:08:23
      647500 -- (-4211.430) [-4208.939] (-4249.726) (-4248.409) * (-4236.423) (-4230.986) [-4210.360] (-4226.424) -- 0:08:22
      648000 -- [-4211.348] (-4222.043) (-4230.300) (-4275.440) * (-4234.857) (-4224.089) [-4215.224] (-4244.909) -- 0:08:21
      648500 -- (-4213.797) [-4230.484] (-4247.127) (-4261.441) * (-4215.234) [-4217.444] (-4234.174) (-4255.696) -- 0:08:20
      649000 -- [-4196.588] (-4234.174) (-4237.859) (-4252.346) * (-4229.365) (-4210.827) [-4221.550] (-4248.140) -- 0:08:20
      649500 -- (-4215.761) (-4228.726) [-4224.695] (-4249.541) * (-4231.192) [-4221.043] (-4230.597) (-4246.494) -- 0:08:19
      650000 -- (-4221.990) (-4239.147) [-4219.813] (-4266.696) * (-4221.750) [-4214.499] (-4233.610) (-4235.420) -- 0:08:18

      Average standard deviation of split frequencies: 0.012727

      650500 -- [-4215.260] (-4247.705) (-4230.588) (-4261.533) * [-4222.633] (-4241.049) (-4237.249) (-4233.363) -- 0:08:18
      651000 -- [-4208.650] (-4239.550) (-4227.470) (-4238.534) * (-4231.665) [-4221.066] (-4214.218) (-4241.778) -- 0:08:17
      651500 -- (-4222.493) (-4249.258) [-4215.845] (-4240.496) * (-4220.817) (-4247.820) [-4206.573] (-4244.181) -- 0:08:16
      652000 -- (-4221.689) (-4232.443) [-4229.079] (-4236.747) * (-4232.002) (-4224.174) [-4209.169] (-4227.476) -- 0:08:15
      652500 -- (-4218.370) (-4236.425) [-4221.144] (-4229.458) * (-4239.873) (-4228.590) [-4215.426] (-4232.273) -- 0:08:15
      653000 -- (-4220.504) (-4233.383) [-4218.217] (-4235.575) * (-4245.849) [-4221.129] (-4208.413) (-4256.042) -- 0:08:14
      653500 -- [-4217.044] (-4226.580) (-4224.404) (-4259.892) * (-4230.826) (-4211.567) (-4219.383) [-4233.171] -- 0:08:13
      654000 -- (-4240.757) (-4227.298) [-4226.783] (-4233.797) * (-4244.839) (-4223.875) [-4198.267] (-4234.810) -- 0:08:13
      654500 -- [-4215.883] (-4226.306) (-4227.519) (-4225.754) * (-4231.749) (-4209.299) [-4196.975] (-4244.222) -- 0:08:12
      655000 -- (-4209.080) [-4213.150] (-4244.790) (-4219.494) * (-4230.803) (-4216.541) [-4200.207] (-4235.462) -- 0:08:11

      Average standard deviation of split frequencies: 0.011913

      655500 -- (-4206.602) (-4238.745) (-4246.477) [-4222.085] * (-4231.716) (-4224.715) [-4209.005] (-4237.303) -- 0:08:10
      656000 -- [-4218.202] (-4239.883) (-4263.749) (-4212.400) * (-4212.522) (-4228.466) [-4221.685] (-4243.681) -- 0:08:10
      656500 -- [-4211.829] (-4233.274) (-4265.249) (-4223.009) * (-4242.797) [-4220.397] (-4216.859) (-4231.808) -- 0:08:09
      657000 -- [-4221.167] (-4230.511) (-4238.023) (-4221.150) * (-4222.683) (-4234.027) [-4203.308] (-4232.325) -- 0:08:08
      657500 -- (-4216.829) (-4226.191) (-4238.599) [-4223.832] * [-4212.609] (-4249.012) (-4207.185) (-4221.650) -- 0:08:08
      658000 -- (-4220.588) (-4236.610) (-4242.970) [-4226.101] * (-4230.474) (-4237.766) [-4206.972] (-4222.508) -- 0:08:07
      658500 -- (-4216.844) (-4242.734) (-4243.078) [-4221.126] * (-4248.920) (-4242.439) (-4220.832) [-4222.687] -- 0:08:06
      659000 -- [-4212.176] (-4240.967) (-4250.560) (-4229.447) * (-4250.991) (-4236.753) (-4219.263) [-4217.124] -- 0:08:05
      659500 -- [-4214.648] (-4237.081) (-4227.051) (-4239.633) * (-4231.632) (-4231.717) (-4234.901) [-4217.695] -- 0:08:05
      660000 -- [-4197.292] (-4227.398) (-4224.771) (-4238.753) * [-4217.834] (-4233.986) (-4244.303) (-4217.674) -- 0:08:04

      Average standard deviation of split frequencies: 0.011472

      660500 -- (-4199.933) (-4250.585) [-4219.807] (-4227.636) * [-4219.768] (-4252.901) (-4252.070) (-4227.181) -- 0:08:03
      661000 -- (-4213.220) (-4222.028) [-4216.413] (-4245.591) * (-4227.615) (-4244.338) (-4246.956) [-4222.713] -- 0:08:03
      661500 -- [-4208.307] (-4250.104) (-4209.260) (-4246.360) * (-4237.195) (-4257.700) (-4237.903) [-4222.617] -- 0:08:02
      662000 -- (-4221.215) (-4241.792) [-4203.334] (-4257.894) * [-4222.544] (-4249.665) (-4232.205) (-4230.478) -- 0:08:01
      662500 -- (-4226.022) (-4238.824) [-4216.292] (-4237.288) * (-4229.158) (-4227.512) (-4236.415) [-4226.058] -- 0:08:00
      663000 -- (-4231.909) [-4233.478] (-4226.441) (-4231.137) * (-4238.294) (-4241.565) [-4221.709] (-4212.856) -- 0:08:00
      663500 -- [-4222.195] (-4236.096) (-4232.761) (-4220.950) * (-4248.494) (-4230.678) [-4228.132] (-4218.550) -- 0:07:59
      664000 -- [-4217.729] (-4239.810) (-4223.005) (-4214.815) * (-4229.523) (-4227.583) (-4220.259) [-4206.099] -- 0:07:58
      664500 -- (-4229.724) (-4255.328) (-4233.858) [-4217.020] * (-4240.991) (-4240.672) (-4225.977) [-4214.472] -- 0:07:58
      665000 -- (-4235.984) (-4247.136) (-4219.767) [-4209.680] * (-4236.066) (-4235.735) [-4206.434] (-4221.650) -- 0:07:57

      Average standard deviation of split frequencies: 0.011294

      665500 -- (-4212.090) (-4248.119) (-4238.307) [-4205.895] * (-4223.443) (-4250.786) [-4201.342] (-4212.724) -- 0:07:56
      666000 -- (-4222.790) (-4246.056) (-4226.575) [-4216.225] * (-4237.155) (-4264.184) [-4200.144] (-4232.797) -- 0:07:55
      666500 -- (-4233.792) (-4235.353) (-4231.642) [-4224.584] * (-4237.689) (-4231.669) [-4204.608] (-4246.315) -- 0:07:54
      667000 -- (-4230.617) (-4228.177) [-4222.640] (-4232.762) * (-4244.005) [-4229.381] (-4229.077) (-4221.694) -- 0:07:54
      667500 -- [-4211.041] (-4220.038) (-4239.914) (-4253.503) * (-4227.050) [-4222.777] (-4233.551) (-4208.266) -- 0:07:53
      668000 -- (-4239.702) [-4215.391] (-4259.446) (-4220.895) * (-4231.442) (-4222.100) (-4234.490) [-4205.348] -- 0:07:52
      668500 -- (-4236.410) (-4215.089) (-4254.294) [-4227.769] * (-4225.123) [-4216.919] (-4250.486) (-4208.837) -- 0:07:52
      669000 -- (-4230.889) (-4229.679) (-4256.108) [-4221.124] * (-4222.942) (-4225.115) [-4234.264] (-4218.751) -- 0:07:51
      669500 -- [-4225.484] (-4211.276) (-4256.666) (-4226.381) * (-4214.451) (-4219.811) (-4253.063) [-4218.296] -- 0:07:50
      670000 -- [-4220.027] (-4224.481) (-4245.851) (-4225.866) * (-4219.694) [-4218.652] (-4240.072) (-4232.384) -- 0:07:49

      Average standard deviation of split frequencies: 0.011238

      670500 -- (-4216.051) (-4246.133) [-4226.187] (-4229.689) * (-4225.820) (-4227.318) [-4215.224] (-4238.928) -- 0:07:49
      671000 -- [-4217.891] (-4241.026) (-4234.866) (-4235.785) * [-4202.308] (-4229.399) (-4209.388) (-4238.924) -- 0:07:48
      671500 -- [-4207.964] (-4241.561) (-4230.760) (-4217.237) * (-4207.231) (-4238.135) [-4200.088] (-4233.632) -- 0:07:47
      672000 -- [-4212.767] (-4224.303) (-4219.769) (-4219.834) * (-4212.778) (-4243.616) [-4213.325] (-4217.446) -- 0:07:47
      672500 -- (-4214.318) (-4212.211) [-4229.761] (-4209.523) * [-4200.297] (-4242.329) (-4222.657) (-4226.695) -- 0:07:46
      673000 -- [-4214.807] (-4207.193) (-4228.406) (-4223.762) * [-4208.452] (-4244.570) (-4231.115) (-4223.091) -- 0:07:45
      673500 -- [-4207.438] (-4225.898) (-4241.784) (-4225.916) * (-4221.397) (-4245.963) [-4217.341] (-4214.270) -- 0:07:44
      674000 -- [-4211.256] (-4217.332) (-4245.373) (-4226.726) * (-4239.173) (-4232.708) [-4222.861] (-4223.172) -- 0:07:44
      674500 -- (-4218.868) [-4230.697] (-4247.497) (-4228.051) * (-4233.037) (-4239.546) [-4223.528] (-4240.132) -- 0:07:43
      675000 -- [-4218.998] (-4210.301) (-4240.065) (-4228.685) * (-4233.349) [-4239.108] (-4237.148) (-4244.629) -- 0:07:42

      Average standard deviation of split frequencies: 0.011111

      675500 -- (-4216.106) [-4203.798] (-4258.088) (-4237.405) * (-4239.901) (-4239.749) (-4218.568) [-4228.345] -- 0:07:42
      676000 -- (-4221.674) [-4218.130] (-4259.356) (-4244.503) * (-4234.609) (-4245.232) [-4227.071] (-4222.696) -- 0:07:41
      676500 -- [-4236.931] (-4223.156) (-4259.480) (-4229.101) * (-4214.952) (-4250.082) (-4223.629) [-4214.256] -- 0:07:40
      677000 -- (-4244.355) [-4209.430] (-4222.339) (-4232.316) * (-4221.769) (-4230.093) (-4227.300) [-4216.653] -- 0:07:39
      677500 -- (-4236.614) (-4213.555) [-4222.462] (-4231.013) * (-4238.499) (-4251.239) [-4217.997] (-4238.523) -- 0:07:39
      678000 -- (-4235.065) (-4219.778) [-4215.219] (-4236.935) * [-4217.608] (-4233.921) (-4224.804) (-4239.582) -- 0:07:38
      678500 -- (-4246.026) (-4238.590) [-4211.994] (-4236.259) * (-4227.759) (-4246.424) [-4217.190] (-4230.629) -- 0:07:37
      679000 -- (-4255.765) [-4233.613] (-4235.226) (-4223.117) * (-4222.490) [-4226.147] (-4234.104) (-4243.345) -- 0:07:37
      679500 -- (-4250.308) (-4248.301) (-4223.060) [-4217.308] * [-4212.431] (-4246.456) (-4220.637) (-4261.201) -- 0:07:36
      680000 -- (-4241.950) (-4233.990) (-4230.881) [-4228.145] * [-4215.322] (-4231.515) (-4215.988) (-4234.450) -- 0:07:35

      Average standard deviation of split frequencies: 0.011050

      680500 -- (-4240.033) [-4215.287] (-4209.664) (-4224.785) * (-4213.593) (-4235.206) (-4217.566) [-4216.024] -- 0:07:34
      681000 -- (-4224.139) (-4231.081) [-4223.327] (-4227.235) * (-4212.852) (-4239.798) (-4245.530) [-4198.682] -- 0:07:34
      681500 -- (-4217.201) (-4232.324) [-4213.126] (-4235.990) * (-4225.807) (-4229.384) (-4251.018) [-4216.947] -- 0:07:33
      682000 -- (-4229.292) (-4230.756) [-4203.463] (-4216.494) * [-4212.477] (-4226.566) (-4243.975) (-4229.944) -- 0:07:32
      682500 -- (-4230.121) (-4238.407) (-4212.709) [-4221.345] * [-4209.864] (-4229.436) (-4228.701) (-4223.669) -- 0:07:32
      683000 -- (-4219.628) (-4262.796) [-4209.113] (-4209.679) * [-4207.805] (-4233.849) (-4240.843) (-4233.312) -- 0:07:31
      683500 -- (-4229.507) (-4239.837) [-4223.491] (-4216.956) * [-4214.578] (-4231.362) (-4252.477) (-4240.748) -- 0:07:30
      684000 -- (-4237.163) (-4237.485) (-4227.890) [-4228.381] * (-4215.245) (-4244.693) (-4228.004) [-4225.175] -- 0:07:29
      684500 -- (-4244.586) (-4229.640) [-4221.377] (-4218.354) * (-4230.481) (-4249.284) (-4234.008) [-4226.815] -- 0:07:29
      685000 -- (-4232.294) [-4216.295] (-4241.348) (-4235.643) * (-4226.467) (-4237.866) (-4229.366) [-4212.959] -- 0:07:28

      Average standard deviation of split frequencies: 0.011109

      685500 -- (-4235.324) [-4202.838] (-4246.864) (-4246.574) * (-4215.240) (-4231.575) (-4238.268) [-4222.164] -- 0:07:27
      686000 -- (-4231.664) [-4204.447] (-4229.297) (-4224.500) * (-4227.525) (-4224.364) (-4246.829) [-4220.425] -- 0:07:27
      686500 -- (-4239.005) [-4207.032] (-4227.918) (-4232.633) * (-4222.869) (-4238.402) [-4233.748] (-4219.596) -- 0:07:26
      687000 -- (-4232.177) [-4211.750] (-4224.502) (-4235.960) * (-4240.124) (-4227.923) (-4232.232) [-4217.759] -- 0:07:25
      687500 -- (-4240.081) [-4219.150] (-4221.967) (-4235.601) * (-4222.160) (-4226.884) (-4233.198) [-4199.878] -- 0:07:25
      688000 -- (-4246.452) (-4231.177) [-4205.950] (-4225.417) * [-4201.208] (-4233.745) (-4220.960) (-4225.041) -- 0:07:23
      688500 -- (-4250.268) (-4237.781) (-4225.131) [-4228.497] * (-4226.200) (-4229.250) (-4218.996) [-4212.830] -- 0:07:23
      689000 -- (-4226.453) (-4224.064) (-4226.124) [-4214.769] * (-4231.091) (-4243.483) (-4232.804) [-4212.476] -- 0:07:22
      689500 -- (-4223.928) (-4238.543) (-4230.668) [-4206.841] * (-4213.772) (-4230.697) (-4230.416) [-4219.226] -- 0:07:22
      690000 -- (-4211.895) (-4243.534) (-4231.918) [-4206.066] * (-4228.331) (-4255.195) [-4231.098] (-4240.711) -- 0:07:21

      Average standard deviation of split frequencies: 0.010716

      690500 -- (-4224.360) (-4242.855) (-4238.290) [-4210.514] * (-4223.806) (-4238.319) (-4238.643) [-4237.557] -- 0:07:20
      691000 -- [-4213.315] (-4236.790) (-4215.070) (-4215.406) * [-4215.346] (-4227.714) (-4249.299) (-4233.569) -- 0:07:20
      691500 -- (-4225.692) [-4215.143] (-4211.516) (-4215.671) * (-4221.612) (-4235.412) (-4234.501) [-4221.623] -- 0:07:18
      692000 -- (-4208.691) [-4205.407] (-4228.915) (-4216.099) * [-4215.099] (-4244.654) (-4225.847) (-4224.692) -- 0:07:18
      692500 -- (-4223.282) (-4214.606) [-4211.676] (-4229.856) * (-4228.251) (-4245.700) [-4238.731] (-4225.697) -- 0:07:17
      693000 -- (-4219.176) (-4231.021) [-4201.340] (-4221.620) * [-4214.385] (-4241.111) (-4235.708) (-4242.831) -- 0:07:17
      693500 -- (-4230.158) (-4240.216) [-4206.578] (-4231.862) * (-4226.364) (-4244.421) [-4227.116] (-4216.719) -- 0:07:16
      694000 -- (-4249.725) (-4224.756) [-4217.702] (-4231.189) * (-4238.286) (-4230.305) (-4232.138) [-4213.916] -- 0:07:15
      694500 -- (-4235.209) (-4234.737) (-4237.972) [-4216.970] * (-4238.839) (-4224.811) (-4228.847) [-4217.468] -- 0:07:15
      695000 -- (-4240.599) (-4224.996) (-4244.032) [-4221.001] * (-4230.861) (-4225.542) [-4215.580] (-4213.921) -- 0:07:14

      Average standard deviation of split frequencies: 0.010716

      695500 -- (-4230.772) (-4234.018) (-4229.247) [-4203.647] * (-4232.696) (-4228.958) [-4203.295] (-4220.636) -- 0:07:13
      696000 -- (-4241.356) (-4225.434) (-4231.479) [-4197.901] * (-4217.660) (-4223.965) [-4211.395] (-4233.686) -- 0:07:12
      696500 -- (-4230.822) [-4231.892] (-4236.423) (-4210.716) * (-4220.390) (-4234.753) [-4212.774] (-4234.210) -- 0:07:12
      697000 -- (-4234.578) (-4241.619) (-4213.919) [-4212.524] * (-4238.511) (-4246.649) [-4210.073] (-4225.571) -- 0:07:11
      697500 -- (-4227.495) (-4223.055) [-4211.585] (-4224.632) * [-4227.951] (-4248.285) (-4227.779) (-4231.830) -- 0:07:10
      698000 -- (-4230.911) [-4212.187] (-4228.651) (-4224.546) * (-4229.873) (-4227.989) (-4238.978) [-4233.928] -- 0:07:10
      698500 -- (-4219.842) [-4222.717] (-4222.726) (-4233.122) * (-4224.551) (-4232.350) [-4217.734] (-4233.539) -- 0:07:09
      699000 -- [-4213.395] (-4235.152) (-4218.313) (-4224.522) * (-4218.765) (-4228.526) [-4222.187] (-4229.883) -- 0:07:08
      699500 -- (-4214.683) (-4229.087) [-4221.398] (-4246.554) * (-4241.548) (-4252.638) (-4234.814) [-4221.569] -- 0:07:07
      700000 -- [-4210.204] (-4222.221) (-4221.429) (-4229.851) * [-4220.242] (-4250.791) (-4237.193) (-4218.592) -- 0:07:06

      Average standard deviation of split frequencies: 0.010428

      700500 -- [-4223.426] (-4257.511) (-4227.705) (-4236.938) * (-4240.080) (-4233.110) (-4228.743) [-4223.469] -- 0:07:06
      701000 -- (-4218.944) (-4245.994) (-4237.018) [-4220.428] * [-4230.135] (-4240.053) (-4238.034) (-4216.178) -- 0:07:05
      701500 -- (-4214.301) [-4228.450] (-4246.949) (-4227.231) * (-4238.775) (-4227.633) (-4245.923) [-4209.843] -- 0:07:04
      702000 -- [-4213.194] (-4231.985) (-4251.845) (-4226.567) * (-4228.569) (-4220.892) (-4234.153) [-4223.897] -- 0:07:04
      702500 -- (-4231.213) [-4219.071] (-4258.574) (-4230.094) * (-4261.307) [-4210.415] (-4231.470) (-4210.388) -- 0:07:03
      703000 -- (-4231.329) [-4222.867] (-4242.198) (-4230.089) * (-4254.733) (-4226.898) (-4220.453) [-4199.900] -- 0:07:02
      703500 -- [-4221.113] (-4231.619) (-4242.154) (-4238.743) * (-4242.599) [-4212.483] (-4219.460) (-4221.232) -- 0:07:01
      704000 -- [-4225.461] (-4234.027) (-4234.507) (-4246.528) * (-4254.412) [-4199.276] (-4216.207) (-4221.603) -- 0:07:01
      704500 -- [-4223.628] (-4230.103) (-4235.771) (-4247.236) * (-4251.406) [-4212.295] (-4219.978) (-4206.532) -- 0:07:00
      705000 -- [-4215.202] (-4240.762) (-4236.758) (-4230.973) * (-4243.188) (-4206.547) (-4223.991) [-4198.725] -- 0:06:59

      Average standard deviation of split frequencies: 0.010525

      705500 -- [-4223.619] (-4245.879) (-4234.120) (-4227.155) * (-4248.127) (-4199.775) (-4219.770) [-4202.962] -- 0:06:59
      706000 -- (-4233.531) (-4247.108) (-4235.840) [-4218.186] * (-4243.682) [-4223.811] (-4237.384) (-4207.149) -- 0:06:58
      706500 -- (-4248.758) [-4221.235] (-4227.393) (-4231.076) * [-4207.932] (-4232.544) (-4232.780) (-4212.662) -- 0:06:57
      707000 -- (-4251.617) [-4228.528] (-4218.677) (-4216.153) * (-4216.568) (-4244.573) (-4237.094) [-4210.924] -- 0:06:56
      707500 -- (-4253.753) (-4224.228) [-4216.806] (-4237.224) * [-4215.687] (-4242.802) (-4248.006) (-4221.908) -- 0:06:56
      708000 -- (-4261.709) (-4229.436) (-4224.853) [-4227.133] * (-4234.991) (-4243.617) [-4237.456] (-4226.152) -- 0:06:55
      708500 -- (-4240.763) (-4224.347) [-4225.503] (-4239.093) * (-4236.911) (-4212.648) (-4230.334) [-4230.016] -- 0:06:54
      709000 -- (-4241.480) [-4219.551] (-4225.967) (-4224.502) * (-4234.285) [-4195.405] (-4217.979) (-4244.293) -- 0:06:54
      709500 -- (-4238.502) [-4226.271] (-4236.300) (-4225.882) * (-4225.806) (-4221.556) [-4214.234] (-4236.063) -- 0:06:53
      710000 -- (-4237.210) [-4219.073] (-4224.475) (-4243.893) * [-4215.828] (-4242.831) (-4213.249) (-4224.432) -- 0:06:52

      Average standard deviation of split frequencies: 0.010433

      710500 -- (-4224.659) (-4238.132) (-4216.597) [-4219.860] * (-4236.251) (-4228.606) (-4210.611) [-4217.780] -- 0:06:51
      711000 -- (-4218.958) (-4243.582) [-4205.439] (-4238.498) * (-4247.940) (-4229.419) [-4204.648] (-4230.885) -- 0:06:51
      711500 -- [-4221.515] (-4261.258) (-4213.193) (-4225.776) * (-4234.284) (-4232.906) [-4218.711] (-4208.462) -- 0:06:50
      712000 -- (-4215.588) (-4272.258) [-4208.125] (-4229.390) * [-4220.277] (-4227.366) (-4220.214) (-4208.414) -- 0:06:49
      712500 -- (-4216.993) (-4262.903) [-4222.215] (-4227.506) * [-4225.224] (-4254.058) (-4208.849) (-4218.979) -- 0:06:49
      713000 -- (-4219.259) (-4241.390) [-4213.745] (-4223.000) * (-4235.082) (-4246.338) [-4204.831] (-4223.658) -- 0:06:48
      713500 -- (-4221.052) (-4246.460) (-4241.122) [-4220.235] * [-4234.498] (-4228.199) (-4210.574) (-4228.666) -- 0:06:47
      714000 -- [-4219.051] (-4248.676) (-4237.804) (-4219.932) * (-4237.169) (-4241.632) [-4222.446] (-4239.326) -- 0:06:46
      714500 -- (-4232.236) [-4227.627] (-4243.163) (-4227.764) * [-4224.537] (-4238.393) (-4219.293) (-4217.821) -- 0:06:46
      715000 -- (-4224.101) (-4239.410) (-4251.490) [-4217.091] * (-4219.767) [-4227.221] (-4217.791) (-4221.509) -- 0:06:45

      Average standard deviation of split frequencies: 0.010418

      715500 -- (-4235.258) [-4220.730] (-4257.978) (-4234.006) * (-4213.816) (-4229.561) (-4217.499) [-4208.262] -- 0:06:44
      716000 -- (-4239.585) [-4220.211] (-4235.171) (-4248.055) * [-4211.266] (-4240.206) (-4238.519) (-4220.298) -- 0:06:44
      716500 -- (-4220.759) [-4226.484] (-4235.894) (-4242.174) * [-4221.777] (-4227.753) (-4222.420) (-4226.830) -- 0:06:43
      717000 -- [-4214.669] (-4236.752) (-4250.849) (-4230.632) * (-4219.288) (-4227.854) (-4217.305) [-4207.826] -- 0:06:42
      717500 -- [-4195.219] (-4220.375) (-4252.556) (-4248.518) * (-4225.624) (-4235.158) (-4216.995) [-4218.109] -- 0:06:41
      718000 -- (-4206.096) [-4225.243] (-4226.067) (-4240.063) * (-4222.637) (-4249.341) (-4240.446) [-4212.927] -- 0:06:41
      718500 -- (-4208.684) [-4221.832] (-4225.048) (-4232.100) * (-4245.335) (-4232.028) [-4233.941] (-4235.631) -- 0:06:40
      719000 -- (-4211.789) [-4210.467] (-4229.832) (-4234.005) * (-4231.521) (-4236.890) [-4228.100] (-4224.007) -- 0:06:39
      719500 -- [-4214.060] (-4225.428) (-4232.930) (-4232.741) * (-4218.352) (-4231.758) [-4216.778] (-4240.978) -- 0:06:39
      720000 -- (-4223.707) (-4223.535) [-4218.127] (-4255.608) * (-4227.999) [-4214.685] (-4228.352) (-4223.050) -- 0:06:38

      Average standard deviation of split frequencies: 0.010924

      720500 -- (-4225.858) (-4226.833) [-4217.370] (-4255.984) * (-4238.238) (-4225.127) (-4235.021) [-4222.743] -- 0:06:37
      721000 -- [-4233.276] (-4216.123) (-4220.737) (-4236.080) * (-4213.830) [-4210.083] (-4245.094) (-4220.737) -- 0:06:37
      721500 -- (-4256.826) (-4221.837) (-4214.682) [-4223.791] * (-4209.498) [-4221.170] (-4236.431) (-4212.319) -- 0:06:36
      722000 -- (-4254.574) (-4227.722) (-4218.207) [-4218.168] * (-4211.865) (-4213.999) (-4259.370) [-4202.606] -- 0:06:35
      722500 -- (-4258.064) (-4251.900) (-4225.875) [-4211.823] * (-4232.104) (-4213.327) (-4243.330) [-4220.547] -- 0:06:34
      723000 -- [-4220.133] (-4235.254) (-4226.527) (-4218.433) * [-4217.180] (-4222.039) (-4230.763) (-4216.723) -- 0:06:33
      723500 -- (-4235.044) (-4238.358) (-4248.230) [-4222.043] * [-4216.641] (-4225.170) (-4247.801) (-4209.109) -- 0:06:33
      724000 -- [-4218.870] (-4236.243) (-4218.141) (-4234.079) * (-4212.126) (-4236.844) (-4253.185) [-4200.531] -- 0:06:32
      724500 -- [-4215.802] (-4242.513) (-4220.955) (-4227.971) * [-4202.561] (-4217.536) (-4240.851) (-4218.546) -- 0:06:32
      725000 -- (-4221.256) (-4230.517) [-4220.453] (-4234.149) * (-4203.663) [-4205.468] (-4251.552) (-4218.810) -- 0:06:31

      Average standard deviation of split frequencies: 0.010916

      725500 -- (-4217.244) (-4226.847) (-4227.498) [-4224.695] * (-4212.278) (-4233.731) (-4234.949) [-4210.043] -- 0:06:30
      726000 -- (-4219.715) (-4238.286) (-4224.512) [-4217.687] * (-4225.358) (-4245.307) (-4227.320) [-4216.035] -- 0:06:29
      726500 -- (-4224.270) (-4237.723) [-4221.158] (-4235.371) * (-4227.104) [-4225.753] (-4241.376) (-4208.485) -- 0:06:28
      727000 -- [-4225.199] (-4221.357) (-4235.856) (-4247.709) * (-4234.538) (-4205.667) (-4226.102) [-4224.283] -- 0:06:28
      727500 -- (-4235.341) (-4226.673) [-4233.220] (-4235.927) * [-4218.083] (-4216.096) (-4220.532) (-4250.131) -- 0:06:27
      728000 -- (-4248.513) (-4229.464) [-4223.475] (-4230.348) * (-4209.589) [-4203.490] (-4234.520) (-4250.619) -- 0:06:26
      728500 -- (-4239.874) [-4205.373] (-4229.865) (-4219.161) * (-4210.069) [-4206.712] (-4223.359) (-4238.517) -- 0:06:26
      729000 -- (-4244.539) (-4212.758) (-4224.727) [-4207.507] * (-4221.917) [-4214.874] (-4231.250) (-4226.664) -- 0:06:25
      729500 -- (-4240.449) [-4212.040] (-4240.144) (-4220.171) * (-4216.655) [-4217.578] (-4233.323) (-4223.482) -- 0:06:24
      730000 -- (-4228.502) (-4215.126) (-4222.491) [-4211.594] * [-4215.932] (-4223.860) (-4240.196) (-4213.717) -- 0:06:23

      Average standard deviation of split frequencies: 0.010801

      730500 -- (-4244.245) (-4208.921) (-4224.499) [-4221.493] * (-4218.350) (-4227.401) (-4226.469) [-4215.372] -- 0:06:23
      731000 -- (-4234.772) [-4216.322] (-4240.493) (-4226.873) * (-4212.729) (-4211.625) [-4210.095] (-4228.963) -- 0:06:22
      731500 -- (-4225.235) (-4228.543) (-4249.211) [-4215.794] * (-4226.244) (-4220.528) (-4247.092) [-4225.842] -- 0:06:21
      732000 -- (-4209.736) (-4230.488) (-4254.711) [-4215.135] * (-4215.581) [-4216.782] (-4236.172) (-4232.179) -- 0:06:21
      732500 -- (-4237.390) [-4215.570] (-4222.827) (-4225.627) * (-4218.390) (-4218.327) [-4244.893] (-4246.140) -- 0:06:20
      733000 -- (-4239.182) (-4216.282) [-4226.654] (-4231.294) * (-4234.774) [-4212.564] (-4246.350) (-4243.081) -- 0:06:19
      733500 -- (-4227.903) [-4210.144] (-4231.233) (-4238.417) * (-4228.611) (-4223.724) (-4236.682) [-4227.959] -- 0:06:18
      734000 -- [-4246.380] (-4236.209) (-4225.716) (-4240.342) * [-4214.260] (-4228.066) (-4247.821) (-4225.104) -- 0:06:17
      734500 -- (-4228.117) (-4233.446) [-4218.156] (-4218.175) * (-4223.112) (-4243.303) [-4236.931] (-4223.760) -- 0:06:17
      735000 -- (-4225.046) (-4229.830) [-4202.480] (-4211.295) * [-4232.878] (-4236.066) (-4232.986) (-4223.412) -- 0:06:16

      Average standard deviation of split frequencies: 0.010824

      735500 -- (-4227.219) (-4241.805) [-4206.553] (-4222.939) * (-4233.389) (-4233.741) [-4227.520] (-4239.204) -- 0:06:15
      736000 -- [-4209.903] (-4237.265) (-4206.407) (-4233.222) * (-4227.017) (-4240.049) (-4231.476) [-4230.090] -- 0:06:15
      736500 -- (-4216.699) (-4230.337) [-4203.738] (-4225.979) * [-4220.707] (-4232.545) (-4231.862) (-4224.471) -- 0:06:14
      737000 -- [-4210.044] (-4249.039) (-4215.246) (-4218.997) * (-4244.560) (-4218.881) [-4223.211] (-4213.824) -- 0:06:13
      737500 -- (-4226.007) (-4233.659) (-4220.344) [-4204.476] * (-4236.390) [-4205.168] (-4225.991) (-4216.699) -- 0:06:13
      738000 -- (-4222.121) (-4236.937) (-4223.191) [-4213.918] * (-4231.449) [-4216.073] (-4221.063) (-4231.167) -- 0:06:12
      738500 -- (-4225.634) (-4233.461) [-4214.727] (-4232.228) * (-4243.142) (-4218.354) [-4220.078] (-4231.813) -- 0:06:11
      739000 -- (-4234.643) (-4222.098) [-4209.936] (-4223.572) * (-4232.915) [-4214.448] (-4225.971) (-4238.934) -- 0:06:10
      739500 -- (-4234.811) [-4218.047] (-4218.946) (-4223.480) * (-4234.600) (-4218.955) [-4211.059] (-4236.466) -- 0:06:10
      740000 -- (-4245.322) (-4226.331) (-4245.018) [-4216.680] * (-4232.681) (-4225.594) [-4207.268] (-4228.276) -- 0:06:09

      Average standard deviation of split frequencies: 0.010577

      740500 -- (-4229.043) [-4223.775] (-4238.221) (-4229.015) * (-4255.049) (-4227.869) [-4203.783] (-4218.548) -- 0:06:08
      741000 -- [-4230.872] (-4233.711) (-4220.488) (-4232.901) * (-4228.095) (-4227.810) (-4224.272) [-4220.059] -- 0:06:08
      741500 -- (-4237.433) [-4234.177] (-4222.004) (-4226.100) * (-4248.019) (-4229.852) [-4222.804] (-4220.216) -- 0:06:07
      742000 -- (-4231.469) (-4248.042) [-4207.143] (-4225.159) * (-4248.143) (-4233.074) [-4223.119] (-4238.509) -- 0:06:06
      742500 -- (-4223.816) (-4237.116) [-4219.992] (-4229.448) * (-4246.304) (-4227.959) [-4218.538] (-4240.991) -- 0:06:05
      743000 -- (-4215.790) (-4230.961) [-4207.482] (-4248.089) * (-4234.974) (-4214.814) [-4219.967] (-4249.881) -- 0:06:05
      743500 -- (-4228.070) (-4222.302) [-4208.105] (-4236.605) * (-4237.724) (-4207.884) (-4233.472) [-4233.626] -- 0:06:04
      744000 -- (-4227.374) (-4260.808) [-4206.606] (-4213.758) * (-4250.209) [-4209.695] (-4237.002) (-4243.303) -- 0:06:03
      744500 -- (-4235.009) (-4256.334) (-4216.975) [-4223.480] * (-4247.940) (-4219.756) (-4254.909) [-4224.531] -- 0:06:03
      745000 -- (-4240.323) (-4263.383) [-4212.126] (-4228.074) * (-4230.930) [-4211.198] (-4240.135) (-4220.132) -- 0:06:02

      Average standard deviation of split frequencies: 0.010466

      745500 -- (-4243.114) (-4226.416) [-4212.766] (-4222.349) * (-4230.837) [-4219.952] (-4225.298) (-4230.443) -- 0:06:01
      746000 -- (-4245.038) (-4224.169) [-4209.866] (-4220.869) * (-4254.456) (-4221.352) [-4220.189] (-4227.764) -- 0:06:00
      746500 -- (-4244.982) [-4212.092] (-4210.863) (-4217.597) * (-4258.337) (-4230.076) (-4223.938) [-4218.570] -- 0:05:59
      747000 -- (-4232.659) (-4207.708) [-4225.875] (-4225.320) * (-4272.988) (-4209.261) (-4216.391) [-4209.661] -- 0:05:59
      747500 -- (-4230.582) [-4211.896] (-4252.989) (-4225.196) * (-4240.976) (-4228.738) (-4238.076) [-4214.665] -- 0:05:58
      748000 -- (-4228.088) (-4205.306) (-4248.510) [-4210.481] * [-4221.738] (-4242.363) (-4223.539) (-4215.094) -- 0:05:58
      748500 -- (-4222.986) (-4227.773) (-4250.676) [-4209.229] * (-4232.188) (-4232.206) [-4224.373] (-4230.596) -- 0:05:57
      749000 -- (-4220.318) (-4242.802) (-4241.684) [-4219.073] * (-4233.670) (-4255.149) [-4225.764] (-4226.030) -- 0:05:56
      749500 -- (-4215.341) [-4228.626] (-4233.500) (-4213.101) * (-4242.567) (-4236.342) (-4227.299) [-4213.265] -- 0:05:55
      750000 -- (-4207.728) (-4250.568) (-4267.724) [-4210.449] * (-4235.374) (-4253.639) (-4239.303) [-4209.516] -- 0:05:55

      Average standard deviation of split frequencies: 0.010697

      750500 -- [-4211.467] (-4251.840) (-4257.357) (-4238.776) * (-4226.191) (-4240.971) (-4225.050) [-4213.738] -- 0:05:54
      751000 -- (-4221.787) (-4246.400) (-4234.749) [-4231.755] * (-4231.397) (-4232.081) (-4236.318) [-4216.952] -- 0:05:53
      751500 -- (-4218.886) (-4246.342) (-4232.909) [-4213.896] * (-4233.164) (-4229.384) (-4227.976) [-4203.910] -- 0:05:52
      752000 -- (-4219.867) (-4261.312) (-4228.734) [-4221.289] * (-4245.144) [-4219.897] (-4234.045) (-4228.801) -- 0:05:52
      752500 -- (-4226.453) (-4222.373) (-4234.460) [-4216.694] * (-4241.068) (-4232.446) [-4221.395] (-4223.627) -- 0:05:51
      753000 -- (-4231.796) [-4223.937] (-4228.118) (-4225.714) * (-4237.197) (-4231.509) [-4222.668] (-4236.632) -- 0:05:50
      753500 -- [-4220.597] (-4239.505) (-4231.371) (-4219.646) * (-4256.534) (-4226.146) (-4230.387) [-4227.494] -- 0:05:50
      754000 -- (-4222.891) (-4233.825) (-4249.124) [-4240.952] * (-4239.826) (-4226.278) (-4232.385) [-4225.481] -- 0:05:49
      754500 -- [-4219.013] (-4237.924) (-4223.538) (-4223.268) * (-4255.477) (-4216.924) (-4223.659) [-4223.312] -- 0:05:48
      755000 -- (-4245.222) [-4225.391] (-4225.865) (-4221.759) * (-4236.515) [-4213.722] (-4214.219) (-4229.634) -- 0:05:47

      Average standard deviation of split frequencies: 0.011342

      755500 -- (-4229.459) (-4231.876) [-4203.042] (-4223.244) * (-4237.349) (-4225.389) [-4213.565] (-4228.680) -- 0:05:47
      756000 -- (-4225.520) (-4248.141) [-4197.182] (-4226.237) * (-4241.524) (-4232.026) [-4214.856] (-4250.794) -- 0:05:46
      756500 -- (-4204.963) (-4252.467) [-4202.073] (-4210.382) * (-4243.269) (-4224.669) [-4207.985] (-4240.119) -- 0:05:45
      757000 -- [-4207.483] (-4242.627) (-4224.599) (-4217.177) * (-4257.594) (-4229.033) [-4222.355] (-4252.887) -- 0:05:45
      757500 -- (-4211.364) (-4244.469) (-4237.266) [-4209.011] * (-4244.318) (-4222.590) [-4213.401] (-4235.981) -- 0:05:44
      758000 -- (-4213.141) (-4237.947) (-4233.535) [-4222.252] * (-4249.060) [-4222.897] (-4215.598) (-4237.014) -- 0:05:43
      758500 -- [-4215.799] (-4235.251) (-4229.975) (-4236.199) * [-4210.599] (-4209.740) (-4238.977) (-4229.157) -- 0:05:42
      759000 -- [-4224.999] (-4232.946) (-4237.550) (-4233.083) * (-4224.068) (-4215.173) [-4217.017] (-4241.597) -- 0:05:42
      759500 -- [-4221.807] (-4234.605) (-4243.802) (-4235.610) * (-4250.829) (-4224.440) [-4218.448] (-4245.091) -- 0:05:41
      760000 -- [-4231.752] (-4217.979) (-4238.354) (-4219.290) * (-4242.006) (-4217.419) (-4216.842) [-4232.909] -- 0:05:40

      Average standard deviation of split frequencies: 0.011543

      760500 -- (-4218.864) [-4214.918] (-4235.949) (-4206.779) * (-4234.119) (-4226.787) [-4219.192] (-4232.831) -- 0:05:40
      761000 -- (-4228.379) [-4207.763] (-4232.822) (-4229.360) * (-4234.783) [-4207.518] (-4233.936) (-4251.939) -- 0:05:39
      761500 -- [-4238.954] (-4205.563) (-4225.952) (-4240.402) * (-4255.313) (-4211.233) [-4212.896] (-4243.332) -- 0:05:38
      762000 -- (-4226.243) [-4223.585] (-4235.268) (-4220.198) * (-4255.023) [-4217.075] (-4219.714) (-4221.741) -- 0:05:37
      762500 -- (-4234.440) [-4240.616] (-4228.737) (-4220.490) * (-4231.830) (-4220.929) [-4229.216] (-4213.890) -- 0:05:37
      763000 -- (-4210.360) (-4229.692) (-4224.455) [-4213.551] * (-4224.956) (-4235.086) [-4210.306] (-4218.046) -- 0:05:36
      763500 -- (-4220.038) (-4216.128) (-4234.628) [-4210.318] * [-4215.529] (-4235.687) (-4216.082) (-4235.974) -- 0:05:35
      764000 -- (-4213.559) (-4226.543) (-4228.672) [-4224.723] * [-4224.776] (-4249.965) (-4227.311) (-4234.038) -- 0:05:35
      764500 -- (-4237.079) (-4251.092) [-4208.320] (-4206.345) * (-4229.166) (-4229.312) (-4243.684) [-4224.353] -- 0:05:34
      765000 -- (-4215.685) (-4235.241) (-4223.813) [-4218.879] * [-4239.514] (-4242.012) (-4241.851) (-4232.432) -- 0:05:33

      Average standard deviation of split frequencies: 0.011869

      765500 -- [-4218.183] (-4235.870) (-4222.452) (-4250.346) * (-4229.863) (-4225.806) (-4239.951) [-4219.474] -- 0:05:32
      766000 -- [-4217.652] (-4226.463) (-4218.812) (-4228.786) * (-4239.415) (-4223.828) [-4228.302] (-4211.757) -- 0:05:32
      766500 -- [-4209.500] (-4227.854) (-4227.311) (-4226.866) * (-4251.935) (-4207.806) (-4215.805) [-4220.801] -- 0:05:31
      767000 -- [-4204.804] (-4249.904) (-4216.431) (-4222.358) * (-4243.457) (-4199.290) (-4263.841) [-4216.463] -- 0:05:30
      767500 -- (-4211.166) (-4229.136) (-4228.591) [-4224.104] * (-4243.780) [-4208.755] (-4238.821) (-4214.143) -- 0:05:30
      768000 -- [-4219.577] (-4224.480) (-4234.580) (-4218.376) * (-4235.485) [-4204.540] (-4227.871) (-4236.600) -- 0:05:29
      768500 -- (-4220.345) (-4229.253) (-4234.434) [-4210.288] * (-4237.873) [-4197.074] (-4229.076) (-4235.265) -- 0:05:28
      769000 -- [-4209.766] (-4237.298) (-4220.855) (-4205.644) * (-4235.656) [-4198.143] (-4224.228) (-4245.702) -- 0:05:28
      769500 -- (-4222.664) (-4246.865) (-4220.088) [-4224.516] * [-4222.954] (-4218.142) (-4233.636) (-4247.381) -- 0:05:27
      770000 -- (-4214.424) (-4241.237) (-4229.765) [-4217.397] * (-4231.404) [-4212.650] (-4232.346) (-4225.393) -- 0:05:26

      Average standard deviation of split frequencies: 0.011682

      770500 -- (-4216.877) (-4241.465) [-4228.980] (-4225.858) * (-4216.857) (-4228.343) (-4228.998) [-4213.711] -- 0:05:25
      771000 -- (-4220.934) (-4232.290) (-4212.899) [-4208.977] * (-4224.153) [-4221.466] (-4234.798) (-4213.740) -- 0:05:25
      771500 -- [-4209.580] (-4226.700) (-4221.017) (-4218.655) * [-4211.468] (-4218.032) (-4219.204) (-4237.088) -- 0:05:24
      772000 -- (-4216.163) [-4229.891] (-4221.668) (-4228.910) * (-4212.250) [-4216.327] (-4226.282) (-4221.895) -- 0:05:23
      772500 -- (-4211.870) (-4236.843) (-4219.140) [-4213.677] * (-4213.754) [-4219.747] (-4244.830) (-4219.155) -- 0:05:23
      773000 -- [-4213.810] (-4241.846) (-4221.892) (-4216.909) * (-4213.278) [-4219.634] (-4251.197) (-4219.314) -- 0:05:22
      773500 -- [-4221.443] (-4226.725) (-4236.355) (-4219.980) * (-4240.304) [-4206.122] (-4245.412) (-4217.569) -- 0:05:21
      774000 -- [-4215.957] (-4236.683) (-4229.388) (-4227.829) * (-4228.760) [-4215.900] (-4232.145) (-4220.085) -- 0:05:20
      774500 -- [-4214.487] (-4224.532) (-4226.884) (-4241.603) * (-4220.868) [-4216.892] (-4229.199) (-4222.373) -- 0:05:20
      775000 -- (-4247.054) [-4225.621] (-4224.654) (-4241.400) * (-4222.995) (-4229.309) (-4237.724) [-4215.498] -- 0:05:19

      Average standard deviation of split frequencies: 0.011576

      775500 -- (-4253.871) [-4240.669] (-4213.574) (-4235.679) * (-4224.312) [-4208.390] (-4232.627) (-4213.656) -- 0:05:18
      776000 -- (-4236.369) (-4243.416) [-4208.556] (-4236.542) * (-4226.445) [-4221.478] (-4252.653) (-4213.411) -- 0:05:18
      776500 -- (-4252.537) (-4237.411) [-4209.890] (-4234.119) * (-4220.548) (-4237.012) (-4254.815) [-4205.809] -- 0:05:17
      777000 -- (-4236.458) (-4245.189) [-4211.526] (-4239.509) * (-4237.634) (-4233.094) (-4251.663) [-4212.394] -- 0:05:16
      777500 -- [-4210.711] (-4247.006) (-4219.753) (-4239.258) * (-4236.272) (-4237.812) (-4240.618) [-4205.427] -- 0:05:15
      778000 -- [-4212.250] (-4238.143) (-4228.418) (-4249.845) * [-4220.638] (-4232.732) (-4237.519) (-4208.314) -- 0:05:15
      778500 -- (-4214.092) (-4238.533) [-4225.608] (-4249.939) * (-4221.464) (-4236.643) (-4249.687) [-4217.098] -- 0:05:14
      779000 -- [-4220.977] (-4241.839) (-4213.333) (-4248.544) * [-4203.905] (-4236.392) (-4243.950) (-4228.920) -- 0:05:13
      779500 -- (-4226.468) (-4222.179) [-4207.282] (-4223.507) * (-4208.166) (-4233.949) (-4241.017) [-4211.666] -- 0:05:12
      780000 -- (-4226.915) (-4229.079) (-4217.680) [-4213.120] * (-4225.416) (-4241.026) (-4257.783) [-4210.197] -- 0:05:12

      Average standard deviation of split frequencies: 0.011393

      780500 -- (-4226.526) (-4226.480) [-4209.327] (-4226.626) * [-4225.821] (-4253.429) (-4237.692) (-4223.218) -- 0:05:11
      781000 -- (-4233.647) (-4220.010) (-4214.127) [-4214.193] * [-4221.341] (-4239.917) (-4227.684) (-4256.446) -- 0:05:10
      781500 -- (-4241.987) (-4226.917) [-4218.986] (-4230.795) * (-4207.502) (-4236.185) [-4211.502] (-4256.860) -- 0:05:10
      782000 -- (-4224.167) (-4234.773) [-4220.315] (-4231.864) * (-4222.518) (-4218.027) [-4210.514] (-4234.865) -- 0:05:09
      782500 -- [-4225.810] (-4223.748) (-4221.474) (-4228.727) * (-4228.317) [-4217.392] (-4228.471) (-4237.321) -- 0:05:08
      783000 -- (-4253.111) (-4225.484) [-4206.867] (-4209.665) * [-4228.844] (-4235.084) (-4246.168) (-4237.887) -- 0:05:07
      783500 -- (-4238.166) (-4207.541) (-4199.796) [-4204.499] * (-4227.246) (-4235.637) [-4218.807] (-4235.637) -- 0:05:07
      784000 -- (-4251.524) (-4233.682) (-4218.276) [-4216.845] * (-4220.960) (-4210.467) [-4214.382] (-4244.366) -- 0:05:06
      784500 -- (-4246.415) (-4226.598) [-4209.679] (-4225.074) * (-4218.401) (-4219.848) [-4221.496] (-4243.836) -- 0:05:05
      785000 -- (-4239.630) (-4227.972) [-4226.335] (-4230.161) * (-4240.378) [-4211.706] (-4225.573) (-4228.489) -- 0:05:05

      Average standard deviation of split frequencies: 0.011462

      785500 -- [-4235.962] (-4233.412) (-4219.195) (-4237.206) * (-4252.493) (-4226.748) [-4214.498] (-4221.710) -- 0:05:04
      786000 -- (-4257.471) (-4232.831) [-4211.052] (-4228.539) * (-4224.283) (-4215.139) [-4206.120] (-4216.684) -- 0:05:03
      786500 -- (-4241.296) (-4225.958) [-4203.555] (-4241.503) * (-4246.474) (-4220.432) (-4221.149) [-4220.719] -- 0:05:02
      787000 -- (-4238.100) (-4224.766) [-4214.127] (-4250.051) * (-4233.705) (-4216.719) [-4220.372] (-4218.514) -- 0:05:02
      787500 -- (-4226.432) (-4217.878) [-4209.241] (-4258.430) * (-4234.941) (-4215.007) [-4214.568] (-4243.988) -- 0:05:01
      788000 -- [-4214.782] (-4220.776) (-4220.611) (-4231.638) * (-4223.555) (-4216.037) [-4211.246] (-4242.456) -- 0:05:00
      788500 -- (-4220.416) (-4226.953) [-4208.627] (-4223.440) * (-4221.867) [-4201.945] (-4236.850) (-4236.688) -- 0:05:00
      789000 -- (-4249.510) (-4232.197) [-4209.469] (-4231.295) * (-4218.922) [-4214.396] (-4236.517) (-4224.921) -- 0:04:59
      789500 -- (-4242.301) (-4232.147) (-4214.164) [-4245.960] * (-4220.151) [-4215.549] (-4224.980) (-4219.405) -- 0:04:58
      790000 -- [-4214.083] (-4225.090) (-4222.129) (-4246.278) * (-4232.005) (-4219.544) (-4212.964) [-4215.566] -- 0:04:57

      Average standard deviation of split frequencies: 0.011033

      790500 -- [-4218.318] (-4231.626) (-4209.857) (-4247.608) * (-4230.277) (-4223.224) (-4233.328) [-4227.549] -- 0:04:57
      791000 -- (-4231.809) [-4217.783] (-4221.273) (-4244.048) * (-4223.945) (-4220.232) (-4218.724) [-4239.714] -- 0:04:56
      791500 -- (-4231.825) [-4219.378] (-4205.536) (-4241.592) * (-4245.093) [-4213.291] (-4227.812) (-4247.585) -- 0:04:55
      792000 -- (-4230.785) [-4201.415] (-4197.483) (-4249.830) * (-4236.182) (-4233.455) (-4242.409) [-4216.691] -- 0:04:54
      792500 -- (-4231.470) [-4223.938] (-4210.005) (-4253.007) * [-4222.815] (-4236.119) (-4213.936) (-4235.982) -- 0:04:54
      793000 -- (-4231.647) [-4227.856] (-4207.049) (-4253.728) * [-4199.207] (-4229.907) (-4230.954) (-4250.370) -- 0:04:53
      793500 -- (-4238.308) (-4222.479) [-4207.844] (-4223.579) * (-4234.179) (-4205.881) [-4220.484] (-4254.374) -- 0:04:52
      794000 -- (-4228.231) [-4218.765] (-4216.295) (-4226.254) * (-4238.680) (-4209.465) [-4215.028] (-4257.097) -- 0:04:52
      794500 -- (-4227.247) [-4210.287] (-4210.618) (-4234.824) * [-4224.617] (-4233.754) (-4218.651) (-4245.788) -- 0:04:51
      795000 -- (-4231.265) (-4220.625) [-4201.340] (-4245.300) * (-4231.037) (-4237.273) [-4214.660] (-4229.257) -- 0:04:50

      Average standard deviation of split frequencies: 0.010870

      795500 -- (-4238.882) (-4209.306) [-4205.216] (-4228.065) * (-4223.134) (-4231.973) [-4219.725] (-4237.742) -- 0:04:49
      796000 -- (-4232.381) [-4211.651] (-4218.683) (-4251.091) * (-4231.199) (-4227.373) [-4203.755] (-4225.211) -- 0:04:49
      796500 -- (-4237.634) (-4205.072) [-4214.530] (-4277.621) * [-4213.787] (-4222.922) (-4218.255) (-4242.239) -- 0:04:48
      797000 -- (-4209.542) [-4211.984] (-4219.678) (-4242.954) * (-4222.403) [-4213.324] (-4231.226) (-4256.207) -- 0:04:47
      797500 -- (-4228.484) (-4213.276) (-4216.651) [-4245.541] * (-4223.036) [-4221.696] (-4218.772) (-4252.518) -- 0:04:47
      798000 -- (-4237.061) [-4211.956] (-4243.260) (-4260.510) * (-4224.903) [-4220.237] (-4215.439) (-4240.473) -- 0:04:46
      798500 -- (-4231.366) (-4227.231) [-4220.539] (-4243.707) * [-4216.446] (-4222.239) (-4218.238) (-4232.603) -- 0:04:45
      799000 -- (-4229.300) [-4221.974] (-4224.042) (-4238.605) * (-4236.923) (-4217.838) [-4206.567] (-4230.143) -- 0:04:45
      799500 -- (-4236.833) [-4209.962] (-4232.308) (-4226.000) * (-4226.602) (-4225.206) [-4221.500] (-4240.978) -- 0:04:44
      800000 -- (-4230.015) (-4213.692) (-4240.160) [-4214.341] * (-4225.040) (-4233.212) [-4213.322] (-4242.106) -- 0:04:43

      Average standard deviation of split frequencies: 0.010630

      800500 -- (-4233.237) (-4219.352) [-4227.133] (-4236.870) * (-4225.285) (-4240.262) [-4218.699] (-4236.679) -- 0:04:42
      801000 -- (-4220.951) (-4223.828) [-4222.340] (-4247.804) * (-4242.301) (-4257.415) (-4217.277) [-4238.361] -- 0:04:42
      801500 -- (-4217.835) (-4224.874) [-4210.606] (-4244.284) * (-4242.323) (-4256.114) [-4211.861] (-4228.559) -- 0:04:41
      802000 -- (-4229.216) (-4221.167) [-4214.508] (-4232.814) * (-4249.149) (-4237.854) (-4226.949) [-4209.520] -- 0:04:40
      802500 -- (-4248.802) (-4221.634) [-4212.185] (-4236.000) * (-4252.999) (-4244.312) [-4228.885] (-4204.779) -- 0:04:40
      803000 -- (-4248.807) [-4206.610] (-4218.324) (-4230.227) * (-4244.851) (-4238.269) [-4229.335] (-4209.307) -- 0:04:39
      803500 -- [-4224.710] (-4229.990) (-4218.958) (-4232.009) * (-4241.230) (-4239.684) (-4231.458) [-4193.318] -- 0:04:38
      804000 -- (-4221.517) (-4245.260) [-4209.476] (-4236.646) * (-4264.365) (-4222.192) (-4225.959) [-4202.798] -- 0:04:37
      804500 -- [-4227.184] (-4250.987) (-4210.160) (-4213.377) * (-4243.021) (-4214.399) (-4221.515) [-4203.166] -- 0:04:37
      805000 -- [-4217.907] (-4232.229) (-4221.340) (-4212.155) * (-4228.178) [-4201.830] (-4234.673) (-4200.585) -- 0:04:36

      Average standard deviation of split frequencies: 0.010268

      805500 -- [-4217.349] (-4239.213) (-4221.264) (-4223.941) * [-4218.349] (-4203.232) (-4243.627) (-4208.147) -- 0:04:35
      806000 -- (-4212.181) (-4255.396) [-4222.801] (-4232.508) * [-4221.006] (-4226.180) (-4230.008) (-4218.075) -- 0:04:34
      806500 -- [-4200.245] (-4238.975) (-4221.160) (-4243.615) * [-4223.121] (-4232.371) (-4236.270) (-4219.482) -- 0:04:34
      807000 -- [-4195.100] (-4249.985) (-4218.542) (-4236.466) * [-4230.260] (-4235.054) (-4222.431) (-4218.307) -- 0:04:33
      807500 -- [-4204.109] (-4222.219) (-4234.760) (-4228.031) * (-4241.778) (-4237.988) (-4240.636) [-4202.998] -- 0:04:32
      808000 -- [-4204.279] (-4247.905) (-4223.889) (-4219.472) * (-4233.539) (-4229.706) (-4236.444) [-4211.248] -- 0:04:32
      808500 -- (-4214.679) (-4233.151) [-4216.239] (-4220.588) * (-4219.770) (-4220.538) (-4240.902) [-4224.257] -- 0:04:31
      809000 -- (-4222.762) (-4230.280) [-4221.319] (-4218.622) * (-4226.788) [-4217.460] (-4245.580) (-4231.973) -- 0:04:30
      809500 -- (-4210.287) (-4232.350) (-4226.418) [-4212.461] * [-4236.498] (-4222.769) (-4227.633) (-4210.854) -- 0:04:29
      810000 -- (-4219.057) (-4232.147) [-4214.446] (-4219.604) * [-4224.665] (-4224.795) (-4224.196) (-4224.354) -- 0:04:29

      Average standard deviation of split frequencies: 0.010202

      810500 -- (-4231.588) (-4238.401) (-4215.634) [-4204.698] * (-4248.327) (-4210.145) (-4218.113) [-4217.000] -- 0:04:28
      811000 -- (-4229.679) (-4239.461) [-4207.313] (-4213.014) * (-4250.046) (-4214.230) [-4223.835] (-4223.468) -- 0:04:27
      811500 -- [-4206.993] (-4223.670) (-4233.782) (-4207.723) * (-4242.702) [-4216.445] (-4234.684) (-4234.949) -- 0:04:27
      812000 -- [-4223.919] (-4242.121) (-4232.677) (-4217.204) * (-4244.683) [-4213.574] (-4229.590) (-4244.780) -- 0:04:26
      812500 -- [-4216.202] (-4232.928) (-4242.297) (-4245.523) * (-4238.484) (-4200.382) [-4222.300] (-4254.405) -- 0:04:25
      813000 -- (-4226.463) (-4247.321) [-4205.186] (-4246.570) * (-4245.005) [-4202.237] (-4226.723) (-4253.036) -- 0:04:24
      813500 -- (-4222.559) (-4253.505) [-4216.540] (-4227.695) * (-4242.129) [-4219.314] (-4224.162) (-4239.591) -- 0:04:24
      814000 -- (-4223.066) (-4246.445) (-4229.320) [-4218.527] * (-4260.291) (-4223.950) [-4227.083] (-4236.644) -- 0:04:23
      814500 -- [-4237.533] (-4247.320) (-4236.926) (-4236.058) * (-4248.201) (-4220.573) [-4226.617] (-4239.733) -- 0:04:22
      815000 -- (-4233.227) (-4240.573) (-4222.315) [-4220.109] * (-4250.156) (-4221.843) [-4222.671] (-4259.792) -- 0:04:22

      Average standard deviation of split frequencies: 0.010315

      815500 -- (-4229.923) (-4222.407) (-4218.810) [-4226.578] * (-4234.426) [-4228.167] (-4225.615) (-4263.498) -- 0:04:21
      816000 -- (-4228.799) (-4240.285) [-4220.287] (-4232.039) * (-4256.834) [-4225.048] (-4214.273) (-4241.250) -- 0:04:20
      816500 -- [-4216.236] (-4231.810) (-4228.544) (-4239.255) * (-4248.746) (-4236.867) (-4205.428) [-4238.237] -- 0:04:20
      817000 -- [-4205.337] (-4221.625) (-4224.066) (-4239.738) * [-4231.857] (-4251.041) (-4226.474) (-4235.212) -- 0:04:19
      817500 -- [-4219.243] (-4228.327) (-4235.710) (-4217.221) * (-4229.010) (-4225.499) [-4216.668] (-4224.860) -- 0:04:18
      818000 -- [-4213.541] (-4234.615) (-4236.744) (-4213.791) * (-4223.499) (-4228.175) [-4208.479] (-4230.395) -- 0:04:17
      818500 -- (-4198.919) (-4232.326) (-4228.543) [-4214.481] * (-4246.576) (-4223.275) [-4214.823] (-4229.153) -- 0:04:17
      819000 -- (-4211.863) (-4233.508) (-4227.185) [-4214.415] * (-4248.060) (-4223.538) [-4208.490] (-4213.790) -- 0:04:16
      819500 -- [-4210.514] (-4245.577) (-4213.198) (-4242.130) * (-4250.316) (-4226.790) (-4212.512) [-4219.595] -- 0:04:15
      820000 -- [-4204.303] (-4232.628) (-4225.032) (-4223.065) * (-4233.512) (-4230.216) [-4211.461] (-4229.049) -- 0:04:15

      Average standard deviation of split frequencies: 0.010429

      820500 -- (-4220.156) (-4243.137) [-4213.536] (-4235.741) * (-4238.779) (-4218.775) [-4204.980] (-4218.488) -- 0:04:14
      821000 -- (-4213.895) (-4251.101) [-4224.035] (-4239.509) * (-4227.019) [-4206.174] (-4224.034) (-4226.529) -- 0:04:13
      821500 -- (-4212.256) (-4241.861) [-4215.159] (-4238.195) * (-4230.790) [-4226.165] (-4231.445) (-4237.564) -- 0:04:12
      822000 -- [-4219.149] (-4224.001) (-4212.114) (-4240.920) * (-4221.086) [-4225.829] (-4227.926) (-4240.172) -- 0:04:12
      822500 -- (-4236.411) (-4217.319) [-4220.348] (-4244.304) * (-4235.263) (-4239.353) [-4211.366] (-4238.449) -- 0:04:11
      823000 -- (-4229.246) (-4243.498) [-4216.908] (-4244.681) * (-4237.356) (-4242.026) [-4213.606] (-4240.106) -- 0:04:10
      823500 -- (-4241.562) (-4235.020) [-4213.901] (-4235.031) * (-4247.282) (-4240.756) [-4207.335] (-4233.553) -- 0:04:10
      824000 -- (-4249.775) (-4212.348) (-4220.993) [-4213.978] * (-4222.181) [-4225.758] (-4220.648) (-4231.543) -- 0:04:09
      824500 -- (-4235.565) [-4212.640] (-4258.037) (-4209.676) * [-4223.702] (-4254.420) (-4219.433) (-4214.219) -- 0:04:08
      825000 -- (-4230.150) (-4213.417) (-4247.132) [-4211.411] * (-4221.719) (-4264.630) [-4209.888] (-4226.914) -- 0:04:07

      Average standard deviation of split frequencies: 0.010095

      825500 -- (-4232.971) [-4214.288] (-4230.288) (-4217.493) * (-4230.784) (-4258.279) [-4202.145] (-4230.153) -- 0:04:07
      826000 -- (-4235.146) [-4204.012] (-4240.092) (-4220.538) * (-4229.324) (-4244.794) [-4207.971] (-4218.753) -- 0:04:06
      826500 -- (-4235.937) (-4223.054) (-4230.787) [-4218.193] * (-4211.207) (-4237.709) [-4200.413] (-4227.001) -- 0:04:05
      827000 -- (-4242.462) [-4212.643] (-4231.752) (-4203.942) * (-4216.829) (-4245.098) [-4206.126] (-4223.429) -- 0:04:05
      827500 -- (-4226.672) [-4217.183] (-4233.667) (-4216.763) * (-4200.408) (-4243.316) [-4215.414] (-4228.027) -- 0:04:04
      828000 -- (-4230.783) [-4227.201] (-4233.337) (-4226.390) * (-4211.821) (-4242.453) [-4226.582] (-4232.466) -- 0:04:03
      828500 -- (-4242.916) (-4230.773) (-4229.083) [-4227.100] * (-4223.306) (-4262.212) [-4220.041] (-4228.360) -- 0:04:03
      829000 -- (-4239.586) (-4256.189) [-4218.449] (-4216.010) * (-4226.453) (-4229.333) [-4213.442] (-4244.484) -- 0:04:02
      829500 -- (-4235.804) (-4235.733) [-4215.233] (-4230.614) * (-4231.990) (-4234.641) [-4226.125] (-4232.538) -- 0:04:01
      830000 -- [-4215.704] (-4237.244) (-4237.867) (-4224.465) * (-4230.629) (-4229.599) (-4215.035) [-4207.504] -- 0:04:00

      Average standard deviation of split frequencies: 0.010007

      830500 -- [-4215.959] (-4239.078) (-4237.364) (-4231.494) * (-4221.868) (-4230.706) [-4215.997] (-4224.070) -- 0:04:00
      831000 -- [-4211.137] (-4220.135) (-4227.527) (-4240.736) * (-4218.191) (-4221.749) [-4213.625] (-4233.575) -- 0:03:59
      831500 -- [-4217.121] (-4225.529) (-4216.264) (-4243.194) * [-4213.988] (-4228.550) (-4228.043) (-4224.264) -- 0:03:58
      832000 -- (-4225.713) (-4238.997) [-4229.091] (-4244.120) * [-4194.908] (-4222.415) (-4220.795) (-4224.727) -- 0:03:58
      832500 -- (-4232.241) (-4250.307) [-4222.952] (-4230.901) * (-4195.003) [-4226.868] (-4245.846) (-4235.852) -- 0:03:57
      833000 -- (-4235.467) (-4232.804) [-4206.031] (-4217.756) * (-4220.972) (-4234.016) [-4225.628] (-4248.175) -- 0:03:56
      833500 -- (-4236.116) (-4247.381) [-4211.769] (-4217.737) * (-4212.732) (-4257.017) [-4213.919] (-4228.123) -- 0:03:55
      834000 -- (-4260.142) (-4221.920) [-4207.813] (-4205.248) * [-4210.010] (-4229.488) (-4224.944) (-4266.160) -- 0:03:55
      834500 -- (-4243.947) (-4240.523) [-4223.689] (-4208.432) * [-4200.327] (-4232.706) (-4242.750) (-4226.118) -- 0:03:54
      835000 -- (-4251.014) (-4239.338) [-4222.402] (-4206.525) * [-4216.503] (-4220.962) (-4232.424) (-4237.120) -- 0:03:53

      Average standard deviation of split frequencies: 0.009793

      835500 -- (-4254.859) (-4241.666) (-4220.139) [-4208.717] * [-4214.948] (-4215.960) (-4232.470) (-4241.997) -- 0:03:53
      836000 -- (-4240.830) (-4232.385) (-4206.970) [-4204.519] * [-4220.751] (-4226.064) (-4238.661) (-4235.113) -- 0:03:52
      836500 -- (-4241.007) (-4245.661) [-4214.659] (-4214.393) * (-4214.170) [-4204.803] (-4242.821) (-4244.158) -- 0:03:51
      837000 -- (-4218.709) (-4233.104) (-4216.241) [-4216.223] * (-4226.847) [-4216.145] (-4231.637) (-4250.490) -- 0:03:50
      837500 -- (-4233.402) (-4240.976) [-4222.660] (-4232.380) * (-4220.779) [-4200.755] (-4229.880) (-4242.168) -- 0:03:50
      838000 -- (-4224.857) [-4224.761] (-4267.383) (-4249.924) * [-4213.398] (-4205.283) (-4220.204) (-4237.033) -- 0:03:49
      838500 -- (-4227.257) (-4237.309) [-4220.072] (-4215.607) * [-4212.220] (-4223.714) (-4231.712) (-4234.458) -- 0:03:48
      839000 -- (-4214.127) (-4223.683) (-4238.987) [-4212.832] * (-4224.517) [-4214.878] (-4241.534) (-4234.135) -- 0:03:47
      839500 -- [-4205.256] (-4221.660) (-4266.428) (-4210.465) * [-4224.207] (-4218.057) (-4226.314) (-4240.655) -- 0:03:47
      840000 -- [-4212.484] (-4218.434) (-4239.854) (-4222.597) * (-4216.348) (-4233.603) (-4212.804) [-4222.923] -- 0:03:46

      Average standard deviation of split frequencies: 0.009539

      840500 -- [-4216.654] (-4218.635) (-4259.721) (-4231.786) * [-4203.977] (-4247.721) (-4235.604) (-4228.942) -- 0:03:45
      841000 -- [-4213.314] (-4232.566) (-4240.118) (-4222.749) * [-4213.027] (-4246.371) (-4226.070) (-4236.444) -- 0:03:45
      841500 -- [-4208.978] (-4226.824) (-4235.856) (-4220.243) * (-4220.705) [-4230.177] (-4223.833) (-4230.534) -- 0:03:44
      842000 -- [-4208.920] (-4224.631) (-4227.512) (-4227.754) * (-4233.239) (-4240.447) (-4236.917) [-4229.103] -- 0:03:43
      842500 -- [-4210.771] (-4217.081) (-4225.253) (-4225.521) * (-4233.833) (-4236.313) [-4223.274] (-4221.880) -- 0:03:43
      843000 -- (-4210.653) [-4207.929] (-4236.590) (-4221.160) * (-4220.464) (-4240.179) (-4223.376) [-4204.021] -- 0:03:42
      843500 -- [-4222.439] (-4221.601) (-4247.028) (-4220.566) * [-4219.288] (-4239.976) (-4238.598) (-4219.374) -- 0:03:41
      844000 -- [-4222.694] (-4226.314) (-4243.106) (-4220.009) * (-4239.418) (-4238.015) (-4238.022) [-4212.771] -- 0:03:40
      844500 -- (-4224.912) [-4223.788] (-4251.236) (-4245.081) * (-4244.215) (-4222.791) (-4252.909) [-4233.996] -- 0:03:40
      845000 -- (-4218.403) [-4228.413] (-4239.639) (-4243.679) * [-4219.858] (-4235.015) (-4242.520) (-4224.175) -- 0:03:39

      Average standard deviation of split frequencies: 0.009473

      845500 -- [-4234.352] (-4226.703) (-4242.136) (-4243.046) * (-4219.475) (-4229.361) (-4253.551) [-4212.246] -- 0:03:38
      846000 -- (-4243.549) (-4227.807) (-4228.718) [-4223.031] * (-4220.781) (-4235.866) (-4234.551) [-4205.867] -- 0:03:38
      846500 -- (-4232.701) [-4201.079] (-4240.113) (-4209.078) * (-4222.479) (-4239.886) (-4243.220) [-4207.326] -- 0:03:37
      847000 -- (-4234.970) [-4215.214] (-4235.405) (-4218.654) * (-4217.580) (-4244.868) [-4217.809] (-4223.270) -- 0:03:36
      847500 -- (-4256.961) (-4222.553) (-4243.537) [-4200.470] * [-4205.105] (-4248.779) (-4204.571) (-4227.731) -- 0:03:35
      848000 -- (-4253.285) (-4223.789) (-4232.618) [-4197.822] * (-4213.194) (-4216.819) [-4209.189] (-4226.370) -- 0:03:35
      848500 -- (-4247.498) (-4217.864) (-4225.264) [-4213.759] * (-4215.076) [-4206.399] (-4218.367) (-4215.587) -- 0:03:34
      849000 -- (-4250.087) (-4225.189) (-4240.904) [-4219.991] * [-4220.438] (-4216.115) (-4226.567) (-4207.769) -- 0:03:33
      849500 -- (-4230.304) [-4229.103] (-4245.744) (-4219.497) * [-4223.133] (-4232.027) (-4256.151) (-4218.937) -- 0:03:33
      850000 -- (-4230.563) (-4226.060) (-4247.673) [-4231.194] * (-4225.804) (-4216.909) (-4239.339) [-4212.042] -- 0:03:32

      Average standard deviation of split frequencies: 0.009119

      850500 -- (-4225.552) (-4220.892) [-4233.144] (-4229.619) * (-4218.428) (-4234.973) (-4244.765) [-4214.734] -- 0:03:31
      851000 -- (-4229.939) [-4221.840] (-4237.505) (-4224.351) * (-4220.156) (-4222.561) (-4218.542) [-4216.462] -- 0:03:30
      851500 -- [-4236.807] (-4228.216) (-4237.946) (-4215.718) * (-4229.627) [-4206.476] (-4228.628) (-4205.935) -- 0:03:30
      852000 -- (-4234.331) (-4237.652) (-4225.265) [-4214.999] * (-4233.657) [-4195.828] (-4218.815) (-4213.477) -- 0:03:29
      852500 -- (-4238.287) (-4225.399) (-4235.920) [-4219.523] * (-4249.267) [-4203.028] (-4223.159) (-4223.894) -- 0:03:28
      853000 -- (-4235.770) (-4252.323) (-4237.201) [-4223.647] * (-4240.808) [-4200.157] (-4217.120) (-4221.768) -- 0:03:28
      853500 -- (-4232.602) [-4207.917] (-4253.764) (-4228.351) * (-4222.916) [-4204.716] (-4221.325) (-4246.960) -- 0:03:27
      854000 -- (-4220.517) [-4212.587] (-4254.749) (-4229.194) * [-4226.451] (-4216.600) (-4216.555) (-4229.575) -- 0:03:26
      854500 -- [-4215.008] (-4225.212) (-4259.269) (-4218.184) * (-4225.944) (-4209.018) [-4199.644] (-4208.074) -- 0:03:26
      855000 -- (-4209.683) [-4220.295] (-4255.856) (-4229.849) * (-4247.461) (-4213.603) (-4221.033) [-4215.034] -- 0:03:25

      Average standard deviation of split frequencies: 0.009368

      855500 -- [-4220.681] (-4234.132) (-4232.137) (-4236.209) * (-4252.758) (-4231.842) (-4212.991) [-4219.214] -- 0:03:24
      856000 -- (-4231.743) (-4215.983) [-4222.817] (-4245.647) * (-4251.005) [-4218.946] (-4223.453) (-4222.928) -- 0:03:23
      856500 -- (-4236.452) (-4219.812) [-4218.794] (-4244.765) * [-4231.181] (-4212.649) (-4223.193) (-4214.896) -- 0:03:23
      857000 -- (-4214.255) (-4211.471) [-4223.970] (-4237.283) * (-4226.061) (-4216.895) (-4225.721) [-4215.525] -- 0:03:22
      857500 -- (-4221.371) [-4216.554] (-4220.520) (-4239.037) * (-4218.626) [-4216.845] (-4230.488) (-4222.279) -- 0:03:21
      858000 -- (-4230.219) (-4225.249) [-4222.062] (-4231.291) * (-4224.241) [-4201.534] (-4247.106) (-4229.822) -- 0:03:21
      858500 -- (-4228.887) [-4211.928] (-4216.995) (-4244.520) * (-4240.521) (-4205.065) (-4232.896) [-4209.597] -- 0:03:20
      859000 -- (-4236.249) (-4225.338) [-4215.322] (-4220.454) * (-4221.814) [-4219.414] (-4237.989) (-4227.018) -- 0:03:19
      859500 -- (-4229.621) (-4231.159) [-4204.754] (-4219.090) * [-4215.097] (-4220.388) (-4233.502) (-4251.182) -- 0:03:18
      860000 -- (-4232.045) (-4236.402) (-4209.554) [-4218.427] * (-4233.221) [-4209.370] (-4232.659) (-4228.757) -- 0:03:18

      Average standard deviation of split frequencies: 0.009713

      860500 -- [-4220.100] (-4236.530) (-4223.040) (-4208.391) * (-4225.577) [-4204.109] (-4241.782) (-4223.168) -- 0:03:17
      861000 -- [-4237.251] (-4226.785) (-4219.918) (-4213.013) * (-4228.640) [-4201.187] (-4238.140) (-4219.067) -- 0:03:16
      861500 -- (-4244.887) (-4226.839) [-4208.342] (-4225.832) * (-4252.812) (-4211.046) (-4235.619) [-4209.121] -- 0:03:16
      862000 -- (-4235.257) (-4239.506) (-4221.670) [-4226.926] * (-4264.143) (-4219.757) (-4218.409) [-4216.210] -- 0:03:15
      862500 -- (-4223.004) (-4257.501) [-4218.295] (-4241.042) * (-4247.695) [-4221.312] (-4224.192) (-4238.361) -- 0:03:14
      863000 -- [-4227.776] (-4229.290) (-4234.703) (-4232.961) * (-4237.672) (-4220.731) [-4226.227] (-4226.704) -- 0:03:13
      863500 -- [-4229.110] (-4218.891) (-4240.272) (-4223.978) * (-4249.361) [-4212.462] (-4233.539) (-4226.737) -- 0:03:13
      864000 -- (-4238.460) (-4223.992) [-4221.045] (-4212.637) * (-4243.905) (-4214.631) (-4234.483) [-4216.618] -- 0:03:12
      864500 -- (-4227.398) (-4234.583) (-4235.398) [-4202.699] * (-4233.490) (-4227.226) (-4242.705) [-4218.713] -- 0:03:11
      865000 -- [-4221.154] (-4240.020) (-4229.635) (-4225.152) * (-4226.941) (-4221.008) [-4223.172] (-4234.966) -- 0:03:11

      Average standard deviation of split frequencies: 0.009714

      865500 -- (-4230.169) (-4247.101) (-4228.226) [-4228.246] * [-4227.098] (-4225.413) (-4233.378) (-4234.301) -- 0:03:10
      866000 -- (-4224.965) [-4220.524] (-4243.457) (-4245.430) * [-4232.114] (-4234.397) (-4236.058) (-4246.365) -- 0:03:09
      866500 -- (-4226.824) [-4221.586] (-4234.932) (-4244.472) * (-4230.350) [-4229.971] (-4242.912) (-4226.957) -- 0:03:09
      867000 -- (-4219.266) [-4220.586] (-4239.320) (-4259.765) * (-4234.225) (-4251.041) [-4225.298] (-4214.394) -- 0:03:08
      867500 -- [-4219.765] (-4219.879) (-4226.392) (-4239.826) * (-4235.272) (-4239.486) (-4227.915) [-4224.018] -- 0:03:07
      868000 -- (-4217.963) [-4210.397] (-4235.508) (-4251.286) * [-4219.436] (-4250.664) (-4239.811) (-4230.310) -- 0:03:06
      868500 -- [-4216.559] (-4214.301) (-4229.371) (-4240.144) * [-4216.900] (-4247.266) (-4229.622) (-4235.557) -- 0:03:06
      869000 -- (-4221.949) (-4227.234) (-4236.760) [-4232.808] * (-4215.594) (-4230.448) [-4223.064] (-4235.036) -- 0:03:05
      869500 -- [-4215.382] (-4227.137) (-4257.509) (-4231.406) * (-4227.424) [-4207.651] (-4222.127) (-4244.390) -- 0:03:04
      870000 -- (-4221.147) [-4209.433] (-4248.897) (-4221.699) * (-4228.654) [-4204.067] (-4224.058) (-4237.015) -- 0:03:04

      Average standard deviation of split frequencies: 0.009950

      870500 -- (-4234.821) (-4199.508) [-4228.115] (-4225.589) * [-4216.315] (-4208.915) (-4235.373) (-4223.619) -- 0:03:03
      871000 -- (-4225.010) [-4204.136] (-4226.617) (-4228.752) * (-4230.157) [-4210.360] (-4244.659) (-4224.817) -- 0:03:02
      871500 -- (-4226.476) (-4215.144) [-4215.445] (-4214.747) * (-4250.151) [-4209.650] (-4230.871) (-4225.934) -- 0:03:01
      872000 -- (-4220.475) [-4218.468] (-4222.611) (-4230.486) * (-4232.072) [-4204.739] (-4221.512) (-4242.475) -- 0:03:01
      872500 -- (-4210.457) (-4227.441) [-4227.885] (-4238.414) * (-4224.785) [-4216.741] (-4228.504) (-4237.166) -- 0:03:00
      873000 -- [-4210.160] (-4233.826) (-4216.429) (-4238.091) * (-4212.036) [-4217.316] (-4254.776) (-4226.015) -- 0:02:59
      873500 -- (-4221.267) (-4214.959) [-4220.029] (-4242.390) * (-4214.549) [-4209.253] (-4244.587) (-4214.312) -- 0:02:59
      874000 -- [-4217.138] (-4203.615) (-4220.212) (-4254.055) * (-4214.760) [-4222.963] (-4229.149) (-4234.413) -- 0:02:58
      874500 -- (-4218.752) [-4208.434] (-4209.532) (-4238.396) * [-4216.511] (-4239.504) (-4225.688) (-4228.247) -- 0:02:57
      875000 -- (-4209.081) [-4200.853] (-4228.950) (-4234.802) * [-4217.232] (-4224.781) (-4231.394) (-4221.606) -- 0:02:57

      Average standard deviation of split frequencies: 0.009579

      875500 -- (-4219.227) [-4203.810] (-4220.720) (-4257.488) * (-4232.568) [-4236.010] (-4249.328) (-4228.686) -- 0:02:56
      876000 -- (-4227.432) [-4198.971] (-4218.344) (-4258.198) * (-4238.015) (-4242.122) (-4242.409) [-4223.607] -- 0:02:55
      876500 -- (-4256.652) [-4198.071] (-4213.568) (-4241.809) * (-4254.347) (-4236.847) (-4227.274) [-4213.785] -- 0:02:54
      877000 -- (-4238.917) [-4216.135] (-4218.833) (-4240.380) * (-4240.997) (-4254.824) (-4230.034) [-4207.293] -- 0:02:54
      877500 -- (-4244.227) (-4213.348) [-4221.478] (-4233.854) * (-4238.499) (-4235.872) (-4228.403) [-4208.811] -- 0:02:53
      878000 -- (-4242.040) (-4216.319) [-4223.584] (-4223.122) * (-4228.429) (-4236.179) [-4214.005] (-4215.763) -- 0:02:52
      878500 -- (-4238.820) [-4204.875] (-4218.556) (-4235.638) * (-4222.126) (-4233.932) (-4228.576) [-4226.558] -- 0:02:52
      879000 -- (-4237.051) (-4220.946) [-4218.124] (-4233.427) * (-4230.612) (-4243.927) [-4209.097] (-4219.562) -- 0:02:51
      879500 -- (-4229.160) [-4213.180] (-4220.039) (-4243.101) * (-4233.295) (-4262.056) [-4213.217] (-4213.776) -- 0:02:50
      880000 -- (-4219.322) [-4214.281] (-4233.551) (-4227.800) * (-4224.001) (-4261.620) (-4223.903) [-4218.917] -- 0:02:49

      Average standard deviation of split frequencies: 0.009671

      880500 -- [-4222.744] (-4211.430) (-4245.907) (-4229.762) * [-4235.136] (-4247.434) (-4227.439) (-4216.129) -- 0:02:49
      881000 -- [-4224.584] (-4229.356) (-4216.523) (-4218.641) * (-4236.745) (-4249.500) (-4225.925) [-4214.148] -- 0:02:48
      881500 -- [-4220.375] (-4222.669) (-4221.457) (-4223.171) * (-4235.576) (-4252.207) (-4215.002) [-4190.366] -- 0:02:47
      882000 -- (-4244.608) (-4219.959) [-4217.648] (-4214.104) * (-4236.700) (-4239.757) [-4225.230] (-4209.338) -- 0:02:47
      882500 -- (-4228.260) (-4225.957) (-4223.444) [-4204.984] * (-4231.603) (-4225.884) (-4222.999) [-4201.997] -- 0:02:46
      883000 -- (-4231.345) [-4220.759] (-4229.327) (-4217.763) * (-4219.486) (-4219.396) (-4210.109) [-4220.092] -- 0:02:45
      883500 -- [-4216.972] (-4231.767) (-4240.606) (-4216.137) * (-4230.436) (-4228.210) [-4210.707] (-4238.174) -- 0:02:44
      884000 -- (-4214.114) [-4223.448] (-4230.756) (-4232.084) * (-4227.540) (-4242.755) [-4213.194] (-4215.442) -- 0:02:44
      884500 -- (-4225.401) (-4226.512) (-4223.066) [-4212.001] * (-4229.557) (-4249.275) [-4212.958] (-4204.622) -- 0:02:43
      885000 -- (-4224.536) (-4234.960) (-4236.515) [-4217.772] * (-4229.196) (-4229.056) (-4214.564) [-4200.854] -- 0:02:42

      Average standard deviation of split frequencies: 0.009471

      885500 -- [-4225.401] (-4241.054) (-4252.304) (-4217.798) * (-4228.513) (-4245.175) (-4225.056) [-4216.903] -- 0:02:42
      886000 -- [-4229.072] (-4223.691) (-4251.328) (-4223.929) * (-4221.601) [-4219.480] (-4231.366) (-4239.765) -- 0:02:41
      886500 -- [-4218.896] (-4232.574) (-4256.218) (-4212.391) * [-4208.609] (-4223.376) (-4218.750) (-4259.128) -- 0:02:40
      887000 -- [-4207.178] (-4227.121) (-4230.091) (-4213.323) * [-4201.875] (-4232.894) (-4246.903) (-4244.871) -- 0:02:40
      887500 -- [-4218.226] (-4232.629) (-4231.192) (-4220.363) * (-4211.574) [-4218.092] (-4222.213) (-4246.893) -- 0:02:39
      888000 -- [-4207.868] (-4238.246) (-4230.734) (-4234.864) * [-4206.246] (-4226.701) (-4230.339) (-4245.131) -- 0:02:38
      888500 -- [-4205.388] (-4242.661) (-4220.694) (-4225.466) * [-4218.362] (-4222.845) (-4238.565) (-4235.014) -- 0:02:37
      889000 -- (-4203.830) (-4240.732) (-4220.774) [-4214.709] * (-4218.178) (-4236.311) [-4228.635] (-4240.171) -- 0:02:37
      889500 -- [-4204.683] (-4240.895) (-4216.633) (-4206.875) * (-4210.283) [-4214.105] (-4229.844) (-4239.762) -- 0:02:36
      890000 -- (-4203.019) (-4230.516) (-4231.426) [-4212.306] * [-4223.595] (-4217.304) (-4240.347) (-4241.071) -- 0:02:35

      Average standard deviation of split frequencies: 0.009497

      890500 -- (-4211.213) (-4238.591) (-4234.466) [-4210.908] * (-4230.181) (-4231.034) [-4228.543] (-4221.585) -- 0:02:35
      891000 -- (-4208.622) (-4234.084) [-4218.488] (-4219.169) * (-4219.007) (-4254.144) (-4241.482) [-4218.160] -- 0:02:34
      891500 -- (-4233.942) [-4213.210] (-4221.427) (-4229.609) * (-4218.859) (-4228.812) (-4253.267) [-4212.897] -- 0:02:33
      892000 -- (-4229.822) [-4219.490] (-4220.902) (-4238.928) * (-4232.843) (-4218.191) (-4231.706) [-4215.720] -- 0:02:32
      892500 -- (-4224.450) [-4200.007] (-4235.009) (-4260.539) * (-4252.896) (-4214.123) (-4238.902) [-4235.251] -- 0:02:32
      893000 -- [-4225.586] (-4207.048) (-4238.455) (-4241.046) * (-4252.680) [-4207.241] (-4236.180) (-4236.943) -- 0:02:31
      893500 -- (-4223.630) (-4210.352) (-4230.179) [-4217.169] * (-4244.255) [-4211.914] (-4213.327) (-4222.939) -- 0:02:30
      894000 -- (-4233.369) [-4206.245] (-4228.857) (-4216.378) * [-4221.128] (-4230.808) (-4215.339) (-4244.414) -- 0:02:30
      894500 -- (-4235.081) [-4205.282] (-4229.885) (-4226.053) * (-4226.167) (-4212.144) [-4214.229] (-4236.582) -- 0:02:29
      895000 -- (-4238.274) [-4219.674] (-4224.389) (-4215.749) * (-4218.165) (-4227.173) [-4203.847] (-4245.507) -- 0:02:28

      Average standard deviation of split frequencies: 0.009523

      895500 -- (-4243.280) (-4222.087) [-4214.974] (-4228.477) * (-4235.298) (-4233.895) [-4215.502] (-4229.734) -- 0:02:27
      896000 -- (-4219.296) [-4215.833] (-4204.457) (-4217.493) * (-4220.096) (-4233.534) (-4238.392) [-4204.959] -- 0:02:27
      896500 -- (-4222.071) [-4220.672] (-4211.612) (-4232.942) * (-4227.468) (-4232.677) (-4227.207) [-4200.541] -- 0:02:26
      897000 -- [-4219.328] (-4244.717) (-4210.806) (-4249.393) * (-4220.213) (-4243.870) [-4230.459] (-4216.728) -- 0:02:25
      897500 -- [-4211.745] (-4250.259) (-4210.472) (-4235.758) * (-4225.558) (-4248.255) [-4221.426] (-4214.819) -- 0:02:25
      898000 -- (-4231.796) (-4244.874) (-4225.794) [-4223.486] * (-4241.373) (-4241.174) [-4228.046] (-4222.987) -- 0:02:24
      898500 -- (-4227.745) (-4231.567) (-4224.969) [-4213.983] * (-4241.380) (-4246.406) (-4230.043) [-4219.886] -- 0:02:23
      899000 -- (-4218.429) (-4239.852) (-4239.875) [-4215.978] * (-4234.092) (-4251.845) [-4222.114] (-4227.915) -- 0:02:23
      899500 -- (-4225.769) (-4236.162) (-4220.192) [-4217.892] * (-4233.002) (-4237.899) [-4218.621] (-4233.494) -- 0:02:22
      900000 -- (-4229.987) (-4243.344) (-4206.528) [-4216.321] * (-4230.334) (-4242.205) [-4227.955] (-4231.579) -- 0:02:21

      Average standard deviation of split frequencies: 0.009537

      900500 -- (-4219.866) (-4249.693) (-4214.423) [-4211.246] * (-4227.241) (-4243.254) [-4223.856] (-4235.302) -- 0:02:20
      901000 -- (-4223.635) [-4223.947] (-4225.986) (-4235.822) * (-4238.924) (-4233.902) [-4219.045] (-4218.212) -- 0:02:20
      901500 -- (-4221.487) (-4227.301) [-4201.123] (-4257.020) * (-4239.383) (-4221.689) [-4220.499] (-4209.626) -- 0:02:19
      902000 -- [-4214.983] (-4235.424) (-4212.264) (-4234.562) * (-4244.947) (-4227.839) [-4227.141] (-4225.308) -- 0:02:18
      902500 -- (-4230.842) (-4216.198) [-4211.239] (-4242.562) * (-4224.508) [-4210.158] (-4224.568) (-4235.235) -- 0:02:18
      903000 -- (-4244.893) (-4213.995) [-4203.788] (-4227.254) * (-4228.149) [-4205.698] (-4222.996) (-4251.524) -- 0:02:17
      903500 -- (-4230.732) [-4213.389] (-4211.331) (-4226.074) * (-4226.795) (-4208.776) (-4217.562) [-4227.493] -- 0:02:16
      904000 -- (-4235.274) (-4236.043) (-4217.400) [-4229.962] * (-4227.391) (-4216.319) [-4207.630] (-4233.702) -- 0:02:15
      904500 -- (-4239.127) (-4247.457) [-4209.398] (-4236.119) * (-4229.987) (-4216.339) [-4203.551] (-4232.779) -- 0:02:15
      905000 -- (-4225.298) (-4238.090) [-4204.025] (-4221.324) * (-4216.092) (-4214.982) [-4210.985] (-4231.066) -- 0:02:14

      Average standard deviation of split frequencies: 0.009701

      905500 -- [-4217.671] (-4233.172) (-4225.165) (-4230.821) * (-4219.523) (-4214.660) [-4223.106] (-4233.791) -- 0:02:13
      906000 -- (-4232.725) (-4241.776) (-4221.701) [-4246.357] * [-4229.543] (-4218.830) (-4239.186) (-4224.147) -- 0:02:13
      906500 -- (-4238.072) [-4223.796] (-4223.914) (-4240.110) * (-4219.356) [-4209.136] (-4222.367) (-4223.306) -- 0:02:12
      907000 -- (-4232.193) (-4231.943) [-4208.513] (-4240.745) * (-4223.284) (-4224.595) (-4229.491) [-4217.334] -- 0:02:11
      907500 -- [-4228.282] (-4229.957) (-4232.803) (-4228.370) * (-4231.359) (-4217.118) (-4222.823) [-4210.805] -- 0:02:10
      908000 -- (-4214.985) (-4231.077) (-4231.159) [-4216.489] * (-4252.742) [-4223.670] (-4237.385) (-4236.160) -- 0:02:10
      908500 -- (-4226.747) (-4209.340) (-4234.934) [-4201.888] * (-4234.899) (-4217.994) [-4232.046] (-4247.960) -- 0:02:09
      909000 -- [-4208.073] (-4217.745) (-4233.071) (-4210.730) * (-4221.226) (-4232.822) [-4247.669] (-4223.646) -- 0:02:08
      909500 -- (-4229.326) (-4219.471) (-4241.840) [-4198.100] * (-4221.648) (-4248.712) (-4244.110) [-4211.913] -- 0:02:08
      910000 -- (-4235.326) (-4222.300) (-4234.274) [-4194.717] * [-4217.316] (-4228.689) (-4242.070) (-4229.942) -- 0:02:07

      Average standard deviation of split frequencies: 0.009571

      910500 -- (-4236.300) (-4220.694) (-4225.033) [-4200.516] * (-4211.431) [-4229.080] (-4257.307) (-4219.340) -- 0:02:06
      911000 -- (-4248.958) (-4223.733) (-4226.074) [-4206.955] * (-4214.534) (-4242.718) (-4258.133) [-4225.163] -- 0:02:05
      911500 -- (-4229.534) (-4247.398) (-4217.664) [-4217.685] * (-4218.325) (-4232.408) (-4231.784) [-4209.042] -- 0:02:05
      912000 -- (-4230.934) (-4235.952) [-4219.951] (-4217.744) * (-4224.624) [-4220.247] (-4226.769) (-4237.418) -- 0:02:04
      912500 -- (-4207.489) (-4240.154) (-4220.719) [-4200.477] * (-4227.933) (-4235.047) [-4222.520] (-4253.487) -- 0:02:03
      913000 -- (-4209.270) (-4246.209) (-4226.465) [-4204.620] * (-4228.885) (-4243.960) [-4209.829] (-4238.453) -- 0:02:03
      913500 -- [-4217.870] (-4238.709) (-4217.180) (-4211.313) * (-4223.265) (-4235.075) [-4215.565] (-4230.127) -- 0:02:02
      914000 -- [-4226.818] (-4241.896) (-4221.022) (-4213.740) * (-4222.171) (-4247.122) [-4218.972] (-4230.492) -- 0:02:01
      914500 -- (-4225.916) (-4235.593) (-4232.232) [-4220.315] * [-4223.996] (-4245.368) (-4212.861) (-4235.610) -- 0:02:00
      915000 -- (-4236.985) (-4235.742) (-4222.522) [-4225.140] * (-4216.400) (-4245.067) [-4218.049] (-4235.753) -- 0:02:00

      Average standard deviation of split frequencies: 0.009687

      915500 -- (-4224.430) (-4226.968) (-4240.150) [-4222.279] * (-4230.434) (-4259.601) [-4220.688] (-4217.348) -- 0:01:59
      916000 -- [-4235.144] (-4212.454) (-4226.446) (-4214.186) * (-4228.263) (-4266.994) [-4217.001] (-4233.716) -- 0:01:58
      916500 -- (-4227.214) [-4237.151] (-4228.738) (-4223.027) * (-4234.338) (-4232.497) [-4203.186] (-4228.268) -- 0:01:58
      917000 -- (-4253.501) [-4215.880] (-4236.536) (-4223.827) * (-4231.606) (-4239.287) [-4202.349] (-4237.273) -- 0:01:57
      917500 -- (-4248.022) [-4218.991] (-4230.951) (-4228.725) * (-4232.218) (-4234.068) [-4209.208] (-4228.436) -- 0:01:56
      918000 -- (-4240.162) [-4213.246] (-4228.310) (-4230.204) * (-4237.320) (-4235.134) [-4207.016] (-4235.817) -- 0:01:56
      918500 -- (-4232.450) [-4218.520] (-4232.027) (-4231.062) * (-4223.633) (-4230.758) [-4203.741] (-4223.994) -- 0:01:55
      919000 -- (-4241.813) (-4223.601) [-4233.246] (-4214.502) * (-4232.643) (-4227.945) [-4210.547] (-4234.626) -- 0:01:54
      919500 -- (-4228.811) (-4225.204) (-4238.435) [-4212.108] * (-4250.302) (-4225.338) [-4210.891] (-4237.610) -- 0:01:53
      920000 -- (-4217.667) (-4222.560) (-4227.145) [-4221.400] * (-4231.929) (-4229.916) [-4210.657] (-4241.991) -- 0:01:53

      Average standard deviation of split frequencies: 0.009768

      920500 -- (-4240.184) (-4223.160) (-4216.625) [-4208.616] * (-4254.969) (-4228.221) (-4222.356) [-4233.932] -- 0:01:52
      921000 -- (-4246.018) (-4224.758) (-4228.323) [-4208.449] * (-4235.503) [-4218.457] (-4227.448) (-4234.264) -- 0:01:51
      921500 -- (-4229.298) [-4219.368] (-4232.239) (-4217.488) * (-4235.534) [-4218.420] (-4231.049) (-4247.846) -- 0:01:51
      922000 -- (-4243.108) [-4227.473] (-4235.209) (-4221.827) * (-4237.375) [-4210.088] (-4227.323) (-4230.067) -- 0:01:50
      922500 -- (-4223.331) (-4238.249) (-4223.495) [-4208.395] * (-4236.224) [-4203.507] (-4228.081) (-4249.151) -- 0:01:49
      923000 -- (-4243.707) (-4223.542) (-4215.554) [-4220.905] * (-4229.566) (-4211.154) [-4235.154] (-4243.165) -- 0:01:48
      923500 -- [-4215.825] (-4243.221) (-4213.720) (-4228.420) * [-4215.269] (-4222.187) (-4233.647) (-4220.941) -- 0:01:48
      924000 -- (-4215.746) (-4235.966) [-4203.785] (-4217.775) * (-4232.785) (-4256.055) (-4233.217) [-4210.619] -- 0:01:47
      924500 -- (-4225.492) (-4230.623) [-4206.258] (-4222.164) * (-4222.672) (-4243.512) (-4234.735) [-4226.745] -- 0:01:46
      925000 -- (-4227.315) (-4245.886) (-4215.326) [-4226.898] * (-4226.620) (-4236.395) (-4235.933) [-4215.300] -- 0:01:46

      Average standard deviation of split frequencies: 0.009859

      925500 -- (-4242.666) (-4250.075) [-4213.710] (-4237.262) * (-4238.965) (-4216.443) (-4232.316) [-4214.699] -- 0:01:45
      926000 -- (-4225.948) (-4253.622) [-4207.377] (-4233.002) * (-4235.653) (-4225.333) (-4228.519) [-4212.602] -- 0:01:44
      926500 -- (-4217.304) [-4237.045] (-4218.705) (-4230.362) * (-4238.582) (-4228.359) [-4212.122] (-4222.414) -- 0:01:44
      927000 -- [-4214.553] (-4244.460) (-4223.070) (-4221.322) * (-4238.908) [-4225.949] (-4221.040) (-4233.161) -- 0:01:43
      927500 -- (-4221.962) (-4232.566) (-4225.865) [-4216.421] * (-4234.563) [-4238.067] (-4222.289) (-4236.596) -- 0:01:42
      928000 -- (-4230.287) [-4223.654] (-4242.525) (-4225.219) * (-4230.582) (-4229.689) (-4229.828) [-4213.254] -- 0:01:41
      928500 -- [-4225.502] (-4230.220) (-4247.824) (-4219.728) * (-4233.144) (-4225.679) (-4227.800) [-4221.490] -- 0:01:41
      929000 -- (-4222.927) (-4239.170) (-4260.698) [-4212.314] * (-4236.230) [-4210.663] (-4236.552) (-4204.200) -- 0:01:40
      929500 -- (-4247.411) (-4233.597) (-4245.976) [-4215.565] * (-4222.247) (-4227.207) (-4209.183) [-4206.620] -- 0:01:39
      930000 -- (-4248.543) (-4231.172) [-4220.552] (-4218.630) * (-4219.215) (-4240.523) [-4222.541] (-4207.671) -- 0:01:39

      Average standard deviation of split frequencies: 0.009877

      930500 -- (-4249.732) [-4232.705] (-4221.638) (-4219.098) * (-4211.200) (-4241.140) (-4219.144) [-4214.363] -- 0:01:38
      931000 -- (-4248.310) (-4223.677) (-4221.135) [-4203.184] * (-4205.442) (-4248.109) [-4216.412] (-4219.708) -- 0:01:37
      931500 -- (-4252.933) (-4235.327) (-4237.921) [-4206.435] * (-4217.076) (-4237.491) (-4247.112) [-4211.423] -- 0:01:36
      932000 -- (-4247.356) [-4222.780] (-4233.722) (-4206.718) * [-4215.111] (-4257.848) (-4235.259) (-4236.031) -- 0:01:36
      932500 -- (-4231.405) [-4224.614] (-4231.777) (-4206.684) * [-4225.795] (-4236.208) (-4249.278) (-4238.758) -- 0:01:35
      933000 -- (-4234.895) [-4227.662] (-4230.649) (-4211.638) * [-4214.677] (-4229.358) (-4244.849) (-4244.763) -- 0:01:34
      933500 -- (-4215.089) (-4244.028) (-4241.798) [-4208.124] * [-4218.316] (-4226.339) (-4229.808) (-4269.955) -- 0:01:34
      934000 -- (-4219.910) (-4243.499) [-4230.061] (-4217.529) * [-4216.076] (-4233.536) (-4231.534) (-4227.908) -- 0:01:33
      934500 -- (-4206.408) (-4239.952) [-4233.274] (-4217.225) * [-4217.736] (-4251.122) (-4252.647) (-4220.130) -- 0:01:32
      935000 -- [-4210.049] (-4241.118) (-4237.515) (-4226.668) * [-4217.806] (-4230.331) (-4240.167) (-4230.222) -- 0:01:31

      Average standard deviation of split frequencies: 0.010006

      935500 -- (-4216.994) (-4248.399) [-4219.609] (-4226.508) * (-4217.632) [-4220.178] (-4240.105) (-4224.058) -- 0:01:31
      936000 -- (-4223.924) (-4229.092) [-4215.970] (-4240.977) * [-4214.475] (-4219.561) (-4245.372) (-4217.721) -- 0:01:30
      936500 -- (-4225.614) (-4226.394) [-4225.919] (-4236.782) * (-4220.974) [-4211.584] (-4228.089) (-4236.051) -- 0:01:29
      937000 -- (-4227.639) (-4236.427) [-4203.162] (-4238.099) * (-4218.832) (-4209.946) (-4235.550) [-4220.169] -- 0:01:29
      937500 -- (-4223.692) (-4231.428) [-4216.935] (-4228.688) * [-4207.346] (-4223.498) (-4225.072) (-4235.586) -- 0:01:28
      938000 -- (-4219.638) (-4253.240) [-4218.515] (-4238.981) * (-4213.550) [-4219.072] (-4228.743) (-4229.703) -- 0:01:27
      938500 -- (-4218.705) (-4246.298) [-4219.630] (-4237.834) * [-4203.577] (-4232.559) (-4228.164) (-4214.434) -- 0:01:27
      939000 -- (-4217.489) (-4269.180) [-4214.953] (-4240.778) * (-4230.102) [-4223.607] (-4222.860) (-4213.435) -- 0:01:26
      939500 -- (-4228.948) (-4250.047) [-4215.075] (-4237.241) * (-4222.545) [-4209.974] (-4239.446) (-4232.218) -- 0:01:25
      940000 -- [-4211.723] (-4241.669) (-4219.624) (-4229.879) * (-4217.924) [-4213.454] (-4257.901) (-4233.970) -- 0:01:24

      Average standard deviation of split frequencies: 0.010056

      940500 -- (-4228.470) (-4239.206) (-4217.512) [-4225.173] * [-4234.222] (-4229.375) (-4226.588) (-4237.550) -- 0:01:24
      941000 -- (-4213.237) (-4231.291) [-4218.487] (-4207.937) * (-4242.226) (-4241.217) [-4220.595] (-4229.435) -- 0:01:23
      941500 -- (-4236.736) (-4229.439) (-4229.482) [-4216.815] * (-4234.363) [-4217.073] (-4233.610) (-4229.758) -- 0:01:22
      942000 -- [-4222.626] (-4214.312) (-4216.179) (-4214.383) * (-4231.194) [-4226.829] (-4245.177) (-4232.473) -- 0:01:22
      942500 -- (-4225.931) [-4210.602] (-4232.437) (-4240.164) * (-4222.155) (-4240.743) [-4223.720] (-4233.420) -- 0:01:21
      943000 -- (-4226.449) [-4214.253] (-4227.306) (-4234.714) * (-4224.930) (-4225.823) (-4235.652) [-4218.754] -- 0:01:20
      943500 -- (-4227.719) (-4206.483) (-4222.531) [-4220.415] * (-4226.868) (-4228.318) (-4225.159) [-4211.906] -- 0:01:20
      944000 -- [-4222.186] (-4227.425) (-4224.376) (-4237.320) * (-4240.925) (-4228.464) [-4215.323] (-4204.596) -- 0:01:19
      944500 -- (-4231.218) (-4244.650) [-4216.811] (-4235.290) * (-4238.662) [-4225.162] (-4228.536) (-4211.523) -- 0:01:18
      945000 -- (-4231.567) [-4228.535] (-4226.837) (-4236.902) * (-4242.379) (-4216.986) (-4230.908) [-4208.352] -- 0:01:17

      Average standard deviation of split frequencies: 0.009867

      945500 -- [-4228.013] (-4234.006) (-4224.361) (-4242.771) * [-4235.085] (-4214.402) (-4225.005) (-4226.954) -- 0:01:17
      946000 -- (-4242.127) (-4248.102) [-4226.251] (-4225.563) * (-4235.549) (-4232.660) (-4232.061) [-4226.566] -- 0:01:16
      946500 -- (-4231.593) (-4245.346) [-4217.422] (-4239.115) * (-4231.863) (-4226.536) (-4237.483) [-4213.509] -- 0:01:15
      947000 -- [-4231.491] (-4225.285) (-4217.371) (-4253.734) * (-4241.943) (-4231.510) (-4216.361) [-4198.440] -- 0:01:14
      947500 -- (-4224.953) (-4237.243) [-4206.947] (-4227.772) * [-4225.644] (-4232.432) (-4218.144) (-4210.153) -- 0:01:14
      948000 -- (-4224.952) [-4209.190] (-4234.711) (-4231.294) * (-4235.866) (-4245.165) [-4217.617] (-4220.285) -- 0:01:13
      948500 -- (-4228.864) [-4222.132] (-4224.090) (-4220.838) * (-4235.434) (-4237.122) [-4206.164] (-4212.007) -- 0:01:12
      949000 -- (-4230.399) (-4230.214) [-4230.437] (-4232.901) * (-4228.707) (-4241.217) [-4217.150] (-4225.190) -- 0:01:12
      949500 -- (-4237.548) [-4229.034] (-4225.971) (-4227.472) * (-4251.992) (-4244.424) [-4228.872] (-4230.887) -- 0:01:11
      950000 -- (-4240.251) [-4225.849] (-4233.202) (-4225.256) * (-4241.947) (-4246.477) (-4228.920) [-4224.787] -- 0:01:10

      Average standard deviation of split frequencies: 0.010055

      950500 -- [-4223.489] (-4248.355) (-4214.327) (-4235.316) * (-4239.642) (-4238.330) [-4221.366] (-4225.145) -- 0:01:10
      951000 -- (-4212.711) (-4255.628) (-4224.647) [-4215.788] * [-4221.964] (-4224.006) (-4231.122) (-4231.968) -- 0:01:09
      951500 -- (-4218.934) (-4245.651) (-4241.638) [-4206.742] * (-4225.759) (-4235.459) (-4239.265) [-4217.346] -- 0:01:08
      952000 -- (-4226.942) (-4240.696) (-4236.398) [-4212.278] * (-4263.885) (-4225.997) (-4228.256) [-4214.326] -- 0:01:07
      952500 -- [-4221.002] (-4245.544) (-4246.413) (-4219.014) * (-4230.617) [-4214.739] (-4240.473) (-4216.124) -- 0:01:07
      953000 -- (-4223.902) (-4230.085) (-4243.243) [-4230.168] * (-4229.470) [-4210.906] (-4205.135) (-4228.473) -- 0:01:06
      953500 -- (-4221.151) [-4226.880] (-4247.536) (-4237.030) * (-4224.843) (-4209.920) [-4213.080] (-4230.187) -- 0:01:05
      954000 -- [-4220.748] (-4243.595) (-4249.104) (-4216.677) * (-4219.111) [-4214.228] (-4219.880) (-4244.633) -- 0:01:05
      954500 -- [-4213.307] (-4234.010) (-4228.987) (-4221.566) * (-4231.480) (-4238.102) [-4209.837] (-4222.815) -- 0:01:04
      955000 -- (-4215.184) (-4232.032) (-4232.238) [-4225.475] * (-4216.791) (-4242.811) [-4214.027] (-4221.111) -- 0:01:03

      Average standard deviation of split frequencies: 0.010076

      955500 -- [-4213.749] (-4227.908) (-4234.393) (-4242.347) * (-4224.782) (-4225.362) (-4204.128) [-4222.844] -- 0:01:02
      956000 -- [-4205.011] (-4212.487) (-4249.676) (-4248.749) * (-4228.060) (-4238.755) [-4192.574] (-4235.011) -- 0:01:02
      956500 -- (-4222.296) (-4224.578) [-4225.048] (-4240.484) * (-4231.167) (-4234.320) [-4196.067] (-4237.118) -- 0:01:01
      957000 -- [-4206.382] (-4216.341) (-4234.198) (-4267.581) * (-4227.831) (-4236.981) [-4207.363] (-4240.263) -- 0:01:00
      957500 -- (-4213.663) (-4206.885) [-4217.258] (-4248.027) * [-4218.280] (-4227.744) (-4217.214) (-4229.661) -- 0:01:00
      958000 -- (-4227.223) [-4206.308] (-4225.914) (-4247.698) * (-4212.674) (-4234.265) [-4215.953] (-4234.282) -- 0:00:59
      958500 -- [-4205.809] (-4203.337) (-4230.708) (-4236.129) * [-4219.765] (-4221.342) (-4233.270) (-4230.124) -- 0:00:58
      959000 -- [-4213.454] (-4217.728) (-4227.911) (-4230.828) * (-4219.536) [-4228.606] (-4225.642) (-4244.713) -- 0:00:58
      959500 -- [-4208.145] (-4231.862) (-4237.370) (-4246.412) * (-4225.500) [-4226.667] (-4230.023) (-4252.656) -- 0:00:57
      960000 -- [-4214.885] (-4220.062) (-4221.224) (-4243.039) * (-4220.917) [-4220.797] (-4214.239) (-4270.002) -- 0:00:56

      Average standard deviation of split frequencies: 0.009847

      960500 -- (-4216.435) (-4221.915) [-4230.639] (-4222.779) * [-4214.456] (-4207.138) (-4254.805) (-4245.452) -- 0:00:55
      961000 -- (-4210.393) (-4227.980) [-4216.779] (-4218.836) * (-4215.028) [-4218.804] (-4250.897) (-4252.180) -- 0:00:55
      961500 -- (-4221.040) (-4236.386) (-4247.781) [-4224.926] * (-4230.641) [-4206.076] (-4235.777) (-4243.518) -- 0:00:54
      962000 -- (-4206.309) [-4219.071] (-4243.136) (-4228.751) * (-4221.744) [-4210.080] (-4233.358) (-4229.531) -- 0:00:53
      962500 -- (-4209.435) [-4217.453] (-4240.975) (-4234.730) * (-4219.120) [-4208.567] (-4240.851) (-4225.963) -- 0:00:53
      963000 -- [-4199.073] (-4208.730) (-4260.121) (-4232.097) * (-4226.193) [-4228.232] (-4251.319) (-4242.285) -- 0:00:52
      963500 -- (-4205.550) [-4212.201] (-4250.081) (-4237.940) * (-4242.459) (-4217.217) (-4236.184) [-4229.462] -- 0:00:51
      964000 -- (-4216.085) [-4213.492] (-4241.931) (-4248.801) * (-4225.485) (-4221.458) (-4233.896) [-4217.265] -- 0:00:50
      964500 -- (-4217.768) [-4204.300] (-4247.032) (-4225.733) * (-4231.093) (-4232.179) (-4231.348) [-4222.066] -- 0:00:50
      965000 -- (-4229.252) [-4212.616] (-4264.991) (-4219.986) * (-4233.865) [-4205.277] (-4230.732) (-4250.631) -- 0:00:49

      Average standard deviation of split frequencies: 0.010237

      965500 -- [-4213.004] (-4222.252) (-4255.567) (-4197.725) * (-4240.990) [-4211.928] (-4233.138) (-4234.924) -- 0:00:48
      966000 -- (-4213.000) (-4230.796) (-4242.091) [-4196.939] * (-4232.722) [-4214.397] (-4242.526) (-4226.593) -- 0:00:48
      966500 -- (-4220.079) (-4235.979) (-4251.840) [-4212.554] * (-4225.096) [-4211.166] (-4240.122) (-4226.673) -- 0:00:47
      967000 -- (-4221.852) [-4212.759] (-4255.429) (-4218.819) * [-4224.457] (-4213.340) (-4241.802) (-4227.982) -- 0:00:46
      967500 -- (-4255.484) [-4223.838] (-4252.353) (-4211.698) * (-4225.153) (-4213.320) (-4246.655) [-4228.060] -- 0:00:45
      968000 -- (-4241.054) [-4225.985] (-4262.708) (-4211.110) * (-4237.795) [-4208.615] (-4250.342) (-4235.493) -- 0:00:45
      968500 -- [-4220.448] (-4239.193) (-4237.772) (-4206.280) * (-4243.411) (-4218.795) (-4226.316) [-4225.208] -- 0:00:44
      969000 -- (-4219.177) (-4234.172) (-4219.492) [-4216.177] * (-4231.427) [-4226.276] (-4220.882) (-4225.114) -- 0:00:43
      969500 -- (-4225.080) [-4222.183] (-4222.082) (-4217.774) * [-4221.407] (-4231.895) (-4235.033) (-4232.130) -- 0:00:43
      970000 -- (-4233.560) [-4219.402] (-4239.079) (-4235.409) * (-4230.364) (-4227.020) (-4221.466) [-4212.602] -- 0:00:42

      Average standard deviation of split frequencies: 0.010183

      970500 -- (-4231.162) [-4220.321] (-4225.235) (-4240.562) * (-4231.515) (-4243.805) [-4219.670] (-4225.449) -- 0:00:41
      971000 -- (-4227.325) [-4209.537] (-4230.626) (-4230.116) * (-4212.608) (-4246.119) [-4220.279] (-4222.984) -- 0:00:41
      971500 -- [-4219.831] (-4211.762) (-4215.382) (-4222.662) * (-4227.843) (-4289.314) (-4247.230) [-4221.815] -- 0:00:40
      972000 -- [-4214.064] (-4248.738) (-4220.652) (-4239.458) * (-4214.615) (-4261.390) [-4229.219] (-4229.401) -- 0:00:39
      972500 -- (-4218.293) (-4233.535) (-4212.992) [-4224.659] * (-4232.875) (-4247.748) [-4213.655] (-4219.527) -- 0:00:38
      973000 -- [-4213.079] (-4240.127) (-4218.565) (-4232.617) * (-4224.837) (-4231.629) [-4211.805] (-4227.875) -- 0:00:38
      973500 -- (-4219.708) (-4240.968) [-4216.885] (-4220.157) * (-4228.156) [-4224.207] (-4214.917) (-4219.377) -- 0:00:37
      974000 -- (-4215.771) (-4234.355) [-4220.162] (-4253.413) * (-4229.375) (-4222.772) [-4218.117] (-4228.102) -- 0:00:36
      974500 -- [-4222.211] (-4232.515) (-4219.576) (-4244.908) * (-4241.404) (-4216.481) (-4216.400) [-4232.802] -- 0:00:36
      975000 -- (-4226.575) (-4222.752) [-4213.429] (-4244.226) * (-4237.901) [-4217.801] (-4220.694) (-4221.297) -- 0:00:35

      Average standard deviation of split frequencies: 0.010143

      975500 -- (-4225.798) [-4226.020] (-4210.029) (-4239.220) * (-4224.477) (-4233.498) [-4209.912] (-4222.179) -- 0:00:34
      976000 -- [-4215.829] (-4240.937) (-4206.491) (-4230.893) * (-4228.395) (-4227.085) [-4219.784] (-4217.835) -- 0:00:33
      976500 -- [-4216.304] (-4225.667) (-4226.992) (-4227.438) * (-4236.762) (-4221.165) [-4214.924] (-4227.133) -- 0:00:33
      977000 -- [-4206.245] (-4218.429) (-4233.528) (-4216.926) * (-4241.018) (-4225.822) (-4225.031) [-4221.224] -- 0:00:32
      977500 -- (-4219.618) [-4218.392] (-4218.485) (-4228.470) * (-4234.384) (-4240.657) (-4217.967) [-4218.819] -- 0:00:31
      978000 -- (-4225.574) (-4229.053) [-4214.632] (-4229.652) * (-4222.867) (-4242.521) (-4225.707) [-4218.315] -- 0:00:31
      978500 -- (-4243.040) (-4250.641) (-4219.800) [-4212.357] * (-4216.157) (-4239.536) (-4225.857) [-4218.082] -- 0:00:30
      979000 -- (-4244.659) (-4237.330) [-4230.024] (-4218.288) * [-4213.916] (-4247.650) (-4229.963) (-4224.004) -- 0:00:29
      979500 -- (-4235.632) (-4227.692) [-4222.475] (-4226.248) * (-4224.030) (-4233.893) (-4220.825) [-4223.690] -- 0:00:28
      980000 -- (-4259.469) (-4223.472) [-4209.792] (-4223.755) * (-4234.424) (-4243.819) [-4205.915] (-4229.306) -- 0:00:28

      Average standard deviation of split frequencies: 0.009836

      980500 -- (-4239.751) (-4238.034) (-4222.049) [-4215.166] * (-4248.212) (-4238.857) [-4218.489] (-4249.767) -- 0:00:27
      981000 -- (-4236.024) (-4232.369) (-4232.555) [-4232.828] * (-4232.148) [-4207.988] (-4222.016) (-4257.513) -- 0:00:26
      981500 -- (-4237.920) (-4233.621) (-4235.755) [-4222.427] * (-4238.550) (-4226.829) [-4221.923] (-4247.287) -- 0:00:26
      982000 -- (-4232.907) (-4231.710) (-4235.494) [-4233.061] * (-4222.137) (-4228.091) [-4211.661] (-4273.680) -- 0:00:25
      982500 -- [-4228.152] (-4248.728) (-4224.194) (-4233.655) * (-4237.364) (-4229.261) [-4206.477] (-4250.367) -- 0:00:24
      983000 -- (-4248.833) (-4249.372) [-4228.707] (-4235.123) * [-4222.295] (-4215.140) (-4226.932) (-4276.544) -- 0:00:24
      983500 -- (-4239.570) (-4245.731) (-4224.916) [-4225.135] * (-4224.680) (-4225.398) [-4223.938] (-4259.440) -- 0:00:23
      984000 -- [-4226.482] (-4225.285) (-4228.360) (-4253.099) * (-4220.880) (-4236.596) [-4224.537] (-4237.651) -- 0:00:22
      984500 -- [-4226.451] (-4252.726) (-4239.920) (-4239.157) * (-4232.353) (-4244.802) (-4232.906) [-4213.624] -- 0:00:21
      985000 -- [-4220.343] (-4235.115) (-4236.638) (-4240.881) * (-4226.400) (-4240.952) [-4224.386] (-4198.809) -- 0:00:21

      Average standard deviation of split frequencies: 0.009683

      985500 -- (-4245.283) (-4238.868) (-4242.022) [-4212.472] * (-4228.122) (-4241.077) (-4229.200) [-4199.078] -- 0:00:20
      986000 -- (-4249.049) (-4239.581) (-4230.524) [-4207.541] * (-4229.079) (-4248.976) [-4216.295] (-4230.651) -- 0:00:19
      986500 -- (-4229.748) [-4225.291] (-4225.957) (-4232.443) * [-4219.658] (-4261.910) (-4226.866) (-4216.312) -- 0:00:19
      987000 -- (-4236.610) [-4231.648] (-4230.843) (-4252.763) * (-4224.123) (-4246.994) (-4232.655) [-4219.376] -- 0:00:18
      987500 -- (-4228.775) [-4228.686] (-4237.868) (-4235.773) * (-4221.037) (-4266.914) (-4227.927) [-4206.318] -- 0:00:17
      988000 -- (-4231.960) [-4216.884] (-4233.571) (-4234.385) * (-4215.688) (-4234.954) (-4222.475) [-4221.519] -- 0:00:16
      988500 -- [-4209.554] (-4235.106) (-4259.210) (-4231.010) * [-4211.545] (-4232.815) (-4232.491) (-4241.539) -- 0:00:16
      989000 -- [-4233.006] (-4249.028) (-4231.438) (-4226.102) * [-4208.960] (-4238.388) (-4231.616) (-4224.384) -- 0:00:15
      989500 -- (-4229.284) (-4235.850) (-4236.714) [-4216.512] * [-4210.779] (-4217.824) (-4242.023) (-4223.215) -- 0:00:14
      990000 -- (-4239.438) (-4222.385) (-4252.132) [-4222.400] * (-4227.945) (-4246.942) (-4236.057) [-4208.910] -- 0:00:14

      Average standard deviation of split frequencies: 0.009611

      990500 -- (-4239.110) [-4222.277] (-4250.036) (-4231.765) * (-4230.348) (-4233.638) (-4234.748) [-4225.199] -- 0:00:13
      991000 -- [-4229.535] (-4227.597) (-4249.147) (-4212.583) * (-4222.396) [-4226.210] (-4221.213) (-4244.147) -- 0:00:12
      991500 -- (-4239.535) (-4226.975) (-4258.569) [-4210.401] * (-4208.871) (-4229.082) [-4217.725] (-4221.459) -- 0:00:12
      992000 -- (-4232.155) (-4219.793) (-4235.498) [-4232.851] * [-4228.281] (-4233.969) (-4216.880) (-4232.322) -- 0:00:11
      992500 -- (-4216.116) (-4230.359) (-4242.975) [-4243.066] * (-4240.236) (-4225.115) [-4215.380] (-4221.865) -- 0:00:10
      993000 -- [-4216.747] (-4239.235) (-4238.993) (-4241.944) * (-4219.651) (-4238.332) [-4220.824] (-4230.995) -- 0:00:09
      993500 -- [-4214.315] (-4228.363) (-4231.862) (-4226.841) * [-4213.015] (-4233.263) (-4217.094) (-4229.116) -- 0:00:09
      994000 -- [-4213.988] (-4222.095) (-4234.176) (-4223.034) * [-4217.313] (-4255.021) (-4239.165) (-4220.805) -- 0:00:08
      994500 -- (-4225.867) (-4220.228) (-4230.037) [-4212.908] * [-4221.167] (-4216.388) (-4248.627) (-4210.541) -- 0:00:07
      995000 -- [-4224.508] (-4232.613) (-4234.837) (-4229.144) * (-4226.441) (-4231.378) (-4262.441) [-4209.426] -- 0:00:07

      Average standard deviation of split frequencies: 0.009612

      995500 -- [-4215.015] (-4230.551) (-4237.657) (-4227.164) * (-4233.817) (-4234.925) (-4256.577) [-4215.071] -- 0:00:06
      996000 -- [-4223.372] (-4219.542) (-4238.833) (-4228.461) * (-4235.227) (-4240.112) (-4244.588) [-4207.043] -- 0:00:05
      996500 -- (-4209.643) (-4233.212) [-4207.863] (-4242.097) * (-4227.840) (-4233.364) (-4232.606) [-4213.684] -- 0:00:04
      997000 -- [-4204.057] (-4230.321) (-4217.553) (-4232.727) * (-4217.607) (-4243.451) (-4227.462) [-4227.415] -- 0:00:04
      997500 -- [-4201.175] (-4214.098) (-4223.583) (-4246.584) * [-4206.819] (-4244.443) (-4219.957) (-4227.175) -- 0:00:03
      998000 -- (-4204.603) [-4225.171] (-4257.052) (-4243.755) * [-4204.856] (-4236.939) (-4249.088) (-4231.295) -- 0:00:02
      998500 -- [-4207.216] (-4219.142) (-4241.058) (-4239.504) * [-4216.157] (-4225.310) (-4226.184) (-4237.253) -- 0:00:02
      999000 -- [-4203.495] (-4221.361) (-4259.071) (-4240.757) * [-4203.561] (-4245.611) (-4213.384) (-4247.361) -- 0:00:01
      999500 -- [-4200.720] (-4221.765) (-4224.417) (-4228.095) * (-4209.652) (-4264.648) [-4210.556] (-4241.487) -- 0:00:00
      1000000 -- (-4206.543) [-4226.163] (-4210.801) (-4241.291) * (-4218.369) (-4247.946) [-4214.385] (-4231.059) -- 0:00:00

      Average standard deviation of split frequencies: 0.009359
      Final log likelihoods and log prior probs for run 1 (stored and calculated):
         Chain 1 -- -4206.543404 -- -38.949783
         Chain 1 -- -4206.543380 -- -38.949783
         Chain 2 -- -4226.163089 -- -24.739578
         Chain 2 -- -4226.163114 -- -24.739578
         Chain 3 -- -4210.800606 -- -32.229951
         Chain 3 -- -4210.800551 -- -32.229951
         Chain 4 -- -4241.291062 -- -38.840218
         Chain 4 -- -4241.290982 -- -38.840218
      Final log likelihoods and log prior probs for run 2 (stored and calculated):
         Chain 1 -- -4218.368504 -- -36.080075
         Chain 1 -- -4218.368735 -- -36.080075
         Chain 2 -- -4247.945978 -- -35.735462
         Chain 2 -- -4247.945890 -- -35.735462
         Chain 3 -- -4214.384547 -- -23.545577
         Chain 3 -- -4214.384547 -- -23.545577
         Chain 4 -- -4231.059097 -- -30.423780
         Chain 4 -- -4231.059055 -- -30.423780

      Analysis completed in 23 mins 33 seconds
      Analysis used 1413.49 seconds of CPU time
      Likelihood of best state for "cold" chain of run 1 was -4186.90
      Likelihood of best state for "cold" chain of run 2 was -4187.98

      Acceptance rates for the moves in the "cold" chain of run 1:
         With prob.   (last 100)   chain accepted proposals by move
            27.3 %     ( 22 %)     Dirichlet(Revmat{all})
            44.5 %     ( 26 %)     Slider(Revmat{all})
            24.2 %     ( 19 %)     Dirichlet(Pi{all})
            27.1 %     ( 29 %)     Slider(Pi{all})
            26.3 %     ( 25 %)     Multiplier(Alpha{1,2})
            36.4 %     ( 23 %)     Multiplier(Alpha{3})
            42.7 %     ( 23 %)     Slider(Pinvar{all})
            14.9 %     ( 10 %)     ExtSPR(Tau{all},V{all})
             4.7 %     (  5 %)     ExtTBR(Tau{all},V{all})
            19.6 %     ( 15 %)     NNI(Tau{all},V{all})
            19.0 %     ( 19 %)     ParsSPR(Tau{all},V{all})
            26.6 %     ( 22 %)     Multiplier(V{all})
            42.0 %     ( 40 %)     Nodeslider(V{all})
            24.2 %     ( 26 %)     TLMultiplier(V{all})

      Acceptance rates for the moves in the "cold" chain of run 2:
         With prob.   (last 100)   chain accepted proposals by move
            27.7 %     ( 27 %)     Dirichlet(Revmat{all})
            44.3 %     ( 39 %)     Slider(Revmat{all})
            24.6 %     ( 27 %)     Dirichlet(Pi{all})
            26.7 %     ( 25 %)     Slider(Pi{all})
            26.4 %     ( 24 %)     Multiplier(Alpha{1,2})
            35.9 %     ( 21 %)     Multiplier(Alpha{3})
            42.8 %     ( 18 %)     Slider(Pinvar{all})
            14.7 %     ( 13 %)     ExtSPR(Tau{all},V{all})
             4.7 %     (  5 %)     ExtTBR(Tau{all},V{all})
            19.4 %     ( 22 %)     NNI(Tau{all},V{all})
            18.9 %     ( 13 %)     ParsSPR(Tau{all},V{all})
            26.7 %     ( 30 %)     Multiplier(V{all})
            41.8 %     ( 40 %)     Nodeslider(V{all})
            24.0 %     ( 22 %)     TLMultiplier(V{all})

      Chain swap information for run 1:

                   1       2       3       4 
           ----------------------------------
         1 |            0.50    0.20    0.06 
         2 |  166579            0.54    0.23 
         3 |  166654  166268            0.56 
         4 |  166982  167343  166174         

      Chain swap information for run 2:

                   1       2       3       4 
           ----------------------------------
         1 |            0.50    0.20    0.07 
         2 |  167490            0.54    0.24 
         3 |  166826  166445            0.57 
         4 |  166016  166567  166656         

      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 /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p and /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p
      Writing summary statistics to file /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.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)

      +------------------------------------------------------------+ -4210.88
      |          11      1                             2           |
      |                                                            |
      |     2           1           1                              |
      |    1  1               1 1         1        1 2     1       |
      |        1                 2                        1        |
      | 1      22      1       12 *  2  2  2             2        2|
      |1     2    2   1     1          2         2    2  1  2  21  |
      |  1       2  2   2 1  1                1  1*  11            |
      |                  2 1          21 1   1  2   1            2 |
      |2      2    2122            1        2 221  2         2 1   |
      |   22 1     1      2    2   2      2             2 2 1 2   1|
      |  21 1   1      2   22    1   1  12  1  1    2   1          |
      |                      2        1                      1  2  |
      |                       2     2      1 2             2  1    |
      | 2            1                                 1         1 |
      +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -4220.85
      ^                                                            ^
      250000                                                       1000000


      Estimated marginal likelihoods for runs sampled in files
         "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
         (Use the harmonic mean for Bayes factor comparisons of models)

         (Values are saved to the file /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

      Run   Arithmetic mean   Harmonic mean
      --------------------------------------
        1      -4199.36         -4240.41
        2      -4197.50         -4244.43
      --------------------------------------
      TOTAL    -4198.04         -4243.76
      --------------------------------------


      Model parameter summaries over the runs sampled in files
         "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
         Summaries are based on a total of 3002 samples from 2 runs.
         Each run produced 2001 samples of which 1501 samples were included.
         Parameter summaries saved to file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

                                                95% HPD Interval
                                              --------------------
      Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+ 
      ------------------------------------------------------------------------------------------------------
      TL{all}         7.764362    0.310361    6.717556    8.902902    7.735326   1006.27   1149.29    1.003
      r(A<->C){all}   0.042299    0.000080    0.025496    0.059154    0.041914    725.37    872.11    1.000
      r(A<->G){all}   0.219197    0.000516    0.177559    0.263306    0.218269    534.82    615.87    1.002
      r(A<->T){all}   0.057318    0.000114    0.037177    0.078997    0.056936    825.85    919.19    1.000
      r(C<->G){all}   0.030973    0.000070    0.015135    0.046944    0.030301    746.24    760.67    1.002
      r(C<->T){all}   0.610259    0.000805    0.557076    0.664697    0.610838    516.75    586.39    1.001
      r(G<->T){all}   0.039955    0.000089    0.022357    0.058293    0.039240    858.03    933.58    1.001
      pi(A){all}      0.304337    0.000243    0.273248    0.334181    0.304511    787.68    788.67    1.001
      pi(C){all}      0.238327    0.000206    0.209992    0.265187    0.237820    778.89    850.42    1.000
      pi(G){all}      0.239077    0.000218    0.211503    0.269449    0.238938    859.17    912.96    1.000
      pi(T){all}      0.218259    0.000186    0.191953    0.244496    0.218567    685.71    700.46    1.002
      alpha{1,2}      0.289034    0.000822    0.235654    0.345959    0.286655   1332.68   1360.78    1.000
      alpha{3}        4.496912    0.962501    2.745290    6.471351    4.387735   1295.13   1398.07    1.001
      pinvar{all}     0.030159    0.000494    0.000014    0.073195    0.025915   1092.85   1264.29    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 "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.t"
   Using relative burnin ('relburnin=yes'), discarding the first 25 % of sampled trees
   Writing statistics to files /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.<parts|tstat|vstat|trprobs|con>
   Examining first file ...
   Found one tree block in file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.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 paramiter to 
   sumt command and currently it is set to 0.10.  This is followed by a table  
   with statistics for the informative bipartitions (those including at least    
   two taxa), sorted from highest to lowest probability. For each bipartition,   
   the table gives the number of times the partition or split was observed in all
   runs (#obs) and the posterior probability of the bipartition (Probab.), which 
   is the same as the split frequency. If several runs are summarized, this is   
   followed by the minimum split frequency (Min(s)), the maximum frequency       
   (Max(s)), and the standard deviation of frequencies (Stddev(s)) across runs.  
   The latter value should approach 0 for all bipartitions as MCMC runs converge.
                                                                                   
   This is followed by a table summarizing branch lengths, node heights (if a    
   clock model was used) and relaxed clock parameters (if a relaxed clock model  
   was used). The mean, variance, and 95 % credible interval are given for each 
   of these parameters. If several runs are summarized, the potential scale      
   reduction factor (PSRF) is also given; it should approach 1 as runs converge. 
   Node heights will take calibration points into account, if such points were   
   used in the analysis.                                                         
                                                                                 
   Note that Stddev may be unreliable if the partition is not present in all     
   runs (the last column indicates the number of runs that sampled the partition 
   if more than one run is summarized). The PSRF is not calculated at all if     
   the partition is not present in all runs.The PSRF is also sensitive to small  
   sample sizes and it should only be considered a rough guide to convergence    
   since some of the assumptions allowing one to interpret it as a true potential
   scale reduction factor are violated in MrBayes.                               
                                                                                 
   List of taxa in bipartitions:                                                 
                                                                                   
      1 -- C1
      2 -- C2
      3 -- C3
      4 -- C4
      5 -- C5
      6 -- C6
      7 -- C7
      8 -- C8
      9 -- C9
     10 -- C10
     11 -- C11
     12 -- C12
     13 -- C13
     14 -- C14
     15 -- C15
     16 -- C16
     17 -- C17
     18 -- C18
     19 -- C19
     20 -- C20
     21 -- C21
     22 -- C22
     23 -- C23
     24 -- C24
     25 -- C25
     26 -- C26
     27 -- C27
     28 -- C28
     29 -- C29
     30 -- C30
     31 -- C31
     32 -- C32
     33 -- C33
     34 -- C34
     35 -- C35
     36 -- C36
     37 -- C37
     38 -- C38
     39 -- C39
     40 -- C40
     41 -- C41
     42 -- C42
     43 -- C43
     44 -- C44
     45 -- C45
     46 -- C46
     47 -- C47
     48 -- C48
     49 -- C49
     50 -- C50

   Key to taxon bipartitions (saved to file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.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 -- ........**.....*.......*.*........................
    83 -- ........**.....*.......*.*...*....................
    84 -- .********************.*******************.********
    85 -- .****.****.*****..***.*****.*************.*****.**
    86 -- ............................*..............*......
    87 -- ......**..........................................
    88 -- ....*..............*..*.......*....*.........*..*.
    89 -- .........*.............*.*........................
    90 -- ......**...*..*...*.....*...*.....*.*......*..*...
    91 -- .*.*......................*...........***.*.*.....
    92 -- ....*..............*..*...........................
    93 -- ......**......*...*.....*.........................
    94 -- ......**...*..*...*.....*...**....*.*......*..*...
    95 -- ....*..............*..*.......*..............*..*.
    96 -- .*.*......................*...........*.*.*.*.....
    97 -- .***.*****.******.*.*..****.**.****.*****.***.*..*
    98 -- .****.****.*****..***.*****.*******.*****.*****.**
    99 -- ..*.............................**...*............
   100 -- ...........*......*.........*.....*.*......*..*...
   101 -- .*.*.........*......*..................**.*.*.....
   102 -- .*.*.........*......*.....*...........*.*.*.*.....
   103 -- ......*.................*.........................
   104 -- ......***..*..**..*.....**..**....*.*......*..*...
   105 -- .***..****.*****..*.*..****.**.****.*****.*****.**
   106 -- ....*..............*..*......................*..*.
   107 -- ......****....**..*....***...*....................
   108 -- ..........*......*...*.....*.............*.....*..
   109 -- ....*..............*..............................
   110 -- .......*................*.........................
   111 -- ....*.................*...........................
   112 -- .*.*...................................**.*.*.....
   113 -- ...........................................*..*...
   114 -- ............................*.................*...
   115 -- ......***..*..**..*.....*...**....*.*......*..*...
   116 -- ......****....**.......***...*....................
   117 -- .***..****.******.*.*..****.**.****.*****.***.*..*
   118 -- .............*......*..................*..........
   119 -- ......****.*..**.......***..**....*.*......*..*...
   120 -- ...................*..*...........................
   121 -- .*********.******.*********.*******************.**
   122 -- .*......................................*.*.*.....
   123 -- ......****.*..**..*....***...*....................
   124 -- ....**..........*..*..*.......*....*.........*..*.
   125 -- ...................*..........*...................
   126 -- ..............................*....*..............
   127 -- .***..****.*****..*.*..****.**.****.*****.***.*.**
   128 -- ........**.*...*.......*.*..**....*.*......*..*...
   129 -- ........*......*.........*........................
   130 -- .****.****.*****..***.*****.**.****.*****.*****.**
   131 -- ............................*.....*........*..*...
   132 -- ......................*.......*...................
   133 -- ............*..................**....*...........*
   134 -- .*.*................*.....*...........***.*.*.....
   135 -- .............*......*.....*...........*...........
   136 -- ...*....................................*.........
   137 -- ....*..............*..*.......*...................
   138 -- ..........................*...........**..........
   139 -- .*.*.........*......*...................*.*.*.....
   140 -- ...*........................................*.....
   ---------------------------------------------------------

   Summary statistics for informative taxon bipartitions
      (saved to file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.tstat"):

    ID   #obs    Probab.     Sd(s)+      Min(s)      Max(s)   Nruns 
   -----------------------------------------------------------------
    51  3002    1.000000    0.000000    1.000000    1.000000    2
    52  3002    1.000000    0.000000    1.000000    1.000000    2
    53  3002    1.000000    0.000000    1.000000    1.000000    2
    54  3002    1.000000    0.000000    1.000000    1.000000    2
    55  3002    1.000000    0.000000    1.000000    1.000000    2
    56  2991    0.996336    0.000471    0.996003    0.996669    2
    57  2975    0.991006    0.004240    0.988008    0.994004    2
    58  2929    0.975683    0.008951    0.969354    0.982012    2
    59  2906    0.968021    0.002827    0.966023    0.970020    2
    60  2902    0.966689    0.002827    0.964690    0.968688    2
    61  2897    0.965023    0.006124    0.960693    0.969354    2
    62  2852    0.950033    0.009422    0.943371    0.956696    2
    63  2828    0.942039    0.007537    0.936709    0.947368    2
    64  2817    0.938374    0.015546    0.927382    0.949367    2
    65  2798    0.932045    0.001884    0.930713    0.933378    2
    66  2782    0.926716    0.012248    0.918055    0.935376    2
    67  2759    0.919054    0.018373    0.906063    0.932045    2
    68  2734    0.910726    0.007537    0.905396    0.916056    2
    69  2716    0.904730    0.004711    0.901399    0.908061    2
    70  2695    0.897735    0.001413    0.896736    0.898734    2
    71  2668    0.888741    0.000942    0.888075    0.889407    2
    72  2566    0.854763    0.004711    0.851432    0.858095    2
    73  2443    0.813791    0.006124    0.809460    0.818121    2
    74  2430    0.809460    0.019786    0.795470    0.823451    2
    75  2340    0.779480    0.010364    0.772152    0.786809    2
    76  2297    0.765157    0.025910    0.746835    0.783478    2
    77  2278    0.758827    0.023555    0.742172    0.775483    2
    78  2228    0.742172    0.002827    0.740173    0.744171    2
    79  2213    0.737175    0.007066    0.732179    0.742172    2
    80  2210    0.736176    0.007537    0.730846    0.741506    2
    81  1849    0.615923    0.040985    0.586942    0.644903    2
    82  1794    0.597602    0.007537    0.592272    0.602931    2
    83  1744    0.580946    0.019786    0.566955    0.594937    2
    84  1689    0.562625    0.001413    0.561626    0.563624    2
    85  1639    0.545969    0.000471    0.545636    0.546302    2
    86  1602    0.533644    0.003769    0.530979    0.536309    2
    87  1573    0.523984    0.005182    0.520320    0.527648    2
    88  1570    0.522985    0.009422    0.516322    0.529647    2
    89  1486    0.495003    0.005653    0.491006    0.499001    2
    90  1407    0.468688    0.021199    0.453698    0.483678    2
    91  1192    0.397069    0.016017    0.385743    0.408394    2
    92  1080    0.359760    0.018844    0.346436    0.373085    2
    93  1073    0.357428    0.010835    0.349767    0.365090    2
    94  1063    0.354097    0.017430    0.341772    0.366422    2
    95  1000    0.333111    0.005653    0.329114    0.337109    2
    96   975    0.324783    0.007066    0.319787    0.329780    2
    97   926    0.308461    0.016959    0.296469    0.320453    2
    98   804    0.267821    0.000942    0.267155    0.268488    2
    99   800    0.266489    0.030150    0.245170    0.287808    2
   100   773    0.257495    0.007066    0.252498    0.262492    2
   101   742    0.247169    0.015075    0.236509    0.257828    2
   102   723    0.240839    0.000471    0.240506    0.241173    2
   103   723    0.240839    0.001413    0.239840    0.241839    2
   104   707    0.235510    0.008009    0.229847    0.241173    2
   105   698    0.232512    0.005653    0.228514    0.236509    2
   106   695    0.231512    0.016488    0.219853    0.243171    2
   107   684    0.227848    0.006595    0.223185    0.232512    2
   108   664    0.221186    0.015075    0.210526    0.231845    2
   109   662    0.220520    0.014133    0.210526    0.230513    2
   110   637    0.212192    0.003298    0.209860    0.214524    2
   111   631    0.210193    0.009893    0.203198    0.217189    2
   112   626    0.208528    0.002827    0.206529    0.210526    2
   113   614    0.204530    0.005653    0.200533    0.208528    2
   114   603    0.200866    0.008009    0.195203    0.206529    2
   115   598    0.199201    0.000942    0.198534    0.199867    2
   116   576    0.191872    0.003769    0.189207    0.194537    2
   117   531    0.176882    0.021199    0.161892    0.191872    2
   118   530    0.176549    0.020728    0.161892    0.191206    2
   119   527    0.175550    0.005182    0.171885    0.179214    2
   120   497    0.165556    0.007066    0.160560    0.170553    2
   121   486    0.161892    0.015075    0.151233    0.172552    2
   122   457    0.152232    0.015546    0.141239    0.163225    2
   123   444    0.147901    0.014133    0.137908    0.157895    2
   124   432    0.143904    0.016017    0.132578    0.155230    2
   125   408    0.135909    0.033919    0.111925    0.159893    2
   126   406    0.135243    0.002827    0.133245    0.137242    2
   127   406    0.135243    0.006595    0.130580    0.139907    2
   128   403    0.134244    0.017430    0.121919    0.146569    2
   129   369    0.122918    0.012719    0.113924    0.131912    2
   130   365    0.121586    0.005182    0.117921    0.125250    2
   131   357    0.118921    0.001413    0.117921    0.119920    2
   132   356    0.118588    0.005653    0.114590    0.122585    2
   133   353    0.117588    0.010835    0.109927    0.125250    2
   134   332    0.110593    0.017901    0.097935    0.123251    2
   135   330    0.109927    0.003769    0.107262    0.112592    2
   136   329    0.109594    0.000471    0.109260    0.109927    2
   137   321    0.106929    0.010835    0.099267    0.114590    2
   138   312    0.103931    0.016017    0.092605    0.115256    2
   139   309    0.102931    0.001413    0.101932    0.103931    2
   140   304    0.101266    0.003769    0.098601    0.103931    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 "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.vstat"):

                                                 95% HPD Interval
                                               --------------------
   Parameter            Mean       Variance     Lower       Upper       Median     PSRF+  Nruns
   --------------------------------------------------------------------------------------------
   length{all}[1]      0.104755    0.000691    0.056770    0.156157    0.102843    1.001    2
   length{all}[2]      0.024601    0.000130    0.006478    0.047374    0.022980    1.000    2
   length{all}[3]      0.016331    0.000112    0.000078    0.036652    0.014136    1.000    2
   length{all}[4]      0.029809    0.000161    0.007183    0.053765    0.028248    1.000    2
   length{all}[5]      0.029623    0.000166    0.008413    0.057211    0.027779    1.000    2
   length{all}[6]      0.091093    0.000904    0.036450    0.153339    0.088511    1.001    2
   length{all}[7]      0.030785    0.000182    0.007357    0.056513    0.029092    1.000    2
   length{all}[8]      0.046157    0.000274    0.016740    0.078391    0.044444    1.000    2
   length{all}[9]      0.010069    0.000057    0.000006    0.024058    0.008385    1.000    2
   length{all}[10]     0.010696    0.000062    0.000104    0.026701    0.008913    1.000    2
   length{all}[11]     0.013876    0.000070    0.000821    0.029999    0.012203    1.000    2
   length{all}[12]     0.185497    0.002130    0.105786    0.285684    0.183360    1.002    2
   length{all}[13]     0.018205    0.000114    0.001283    0.039046    0.016238    1.000    2
   length{all}[14]     0.089984    0.000768    0.039512    0.150516    0.088941    1.000    2
   length{all}[15]     0.032756    0.000213    0.008106    0.061088    0.030803    1.000    2
   length{all}[16]     0.029679    0.000159    0.006596    0.054129    0.028211    1.002    2
   length{all}[17]     0.110577    0.001342    0.036226    0.185066    0.109349    1.000    2
   length{all}[18]     0.032214    0.000209    0.008485    0.060652    0.030139    1.000    2
   length{all}[19]     0.092577    0.001178    0.011357    0.155248    0.092916    1.000    2
   length{all}[20]     0.023442    0.000142    0.003823    0.049077    0.021597    1.000    2
   length{all}[21]     0.057315    0.000468    0.019066    0.102303    0.055182    1.002    2
   length{all}[22]     0.015996    0.000094    0.000244    0.034691    0.014426    1.000    2
   length{all}[23]     0.033995    0.000181    0.010572    0.060410    0.032052    1.001    2
   length{all}[24]     0.037410    0.000226    0.009948    0.068910    0.036247    1.000    2
   length{all}[25]     0.020655    0.000115    0.003873    0.043106    0.018694    1.000    2
   length{all}[26]     0.013990    0.000085    0.000034    0.031545    0.011911    1.000    2
   length{all}[27]     0.023822    0.000135    0.004291    0.046908    0.022197    1.000    2
   length{all}[28]     0.014533    0.000075    0.001510    0.031713    0.012887    1.000    2
   length{all}[29]     0.014725    0.000075    0.001195    0.031261    0.013098    1.001    2
   length{all}[30]     0.039148    0.000319    0.009906    0.077277    0.037040    1.000    2
   length{all}[31]     0.035615    0.000245    0.007847    0.068573    0.033664    1.000    2
   length{all}[32]     0.050159    0.000389    0.017107    0.091342    0.047137    1.000    2
   length{all}[33]     0.020483    0.000155    0.000047    0.043542    0.018380    1.000    2
   length{all}[34]     0.032421    0.000201    0.007518    0.060398    0.031019    1.001    2
   length{all}[35]     0.075261    0.000503    0.037943    0.123041    0.073086    1.000    2
   length{all}[36]     0.035498    0.000251    0.008520    0.067877    0.033741    1.000    2
   length{all}[37]     0.049240    0.000367    0.016180    0.088120    0.046626    1.000    2
   length{all}[38]     0.039831    0.000264    0.010126    0.071654    0.037582    1.001    2
   length{all}[39]     0.010178    0.000066    0.000014    0.026792    0.008044    1.000    2
   length{all}[40]     0.048838    0.000422    0.004227    0.086778    0.048182    1.000    2
   length{all}[41]     0.010171    0.000053    0.000377    0.024811    0.008645    1.000    2
   length{all}[42]     0.043056    0.000242    0.015941    0.073422    0.041371    1.000    2
   length{all}[43]     0.015576    0.000083    0.002150    0.034401    0.013669    1.000    2
   length{all}[44]     0.019822    0.000104    0.003854    0.040602    0.017914    1.000    2
   length{all}[45]     0.030583    0.000175    0.007798    0.057434    0.028694    1.001    2
   length{all}[46]     0.014149    0.000072    0.000827    0.030798    0.012671    1.000    2
   length{all}[47]     0.041435    0.000242    0.013895    0.071578    0.040001    1.001    2
   length{all}[48]     0.041135    0.000257    0.014163    0.071889    0.038913    1.001    2
   length{all}[49]     0.013988    0.000083    0.000054    0.031154    0.012044    1.000    2
   length{all}[50]     0.016562    0.000105    0.000344    0.035550    0.014781    1.001    2
   length{all}[51]     0.985543    0.045596    0.581076    1.389878    0.972924    1.002    2
   length{all}[52]     0.813430    0.035250    0.472586    1.182857    0.796307    1.001    2
   length{all}[53]     0.856946    0.038580    0.475978    1.230812    0.843488    1.000    2
   length{all}[54]     0.650648    0.032661    0.291913    0.977652    0.638677    1.000    2
   length{all}[55]     1.093076    0.049012    0.696918    1.537317    1.075706    1.000    2
   length{all}[56]     0.058363    0.000409    0.022546    0.099211    0.056633    1.000    2
   length{all}[57]     0.072273    0.000610    0.030714    0.125111    0.069567    1.000    2
   length{all}[58]     0.030030    0.000183    0.007532    0.058021    0.028511    1.000    2
   length{all}[59]     0.045678    0.000294    0.015327    0.079908    0.043624    1.000    2
   length{all}[60]     0.042028    0.000333    0.008097    0.077097    0.040407    1.001    2
   length{all}[61]     0.031214    0.000214    0.007372    0.060147    0.029056    1.000    2
   length{all}[62]     0.067254    0.000702    0.003244    0.110194    0.067865    1.000    2
   length{all}[63]     0.035643    0.000266    0.008526    0.069044    0.033850    1.000    2
   length{all}[64]     0.022864    0.000144    0.003117    0.046605    0.021051    1.000    2
   length{all}[65]     0.073425    0.001302    0.003428    0.137409    0.072487    1.003    2
   length{all}[66]     0.041702    0.000415    0.007455    0.082943    0.039297    1.002    2
   length{all}[67]     0.079779    0.000975    0.008432    0.136125    0.078468    1.000    2
   length{all}[68]     0.073631    0.000823    0.018569    0.129433    0.071362    1.000    2
   length{all}[69]     0.016514    0.000113    0.001289    0.037955    0.014443    1.001    2
   length{all}[70]     0.062652    0.000673    0.015211    0.115081    0.060754    1.001    2
   length{all}[71]     0.023795    0.000185    0.002217    0.050293    0.021345    1.000    2
   length{all}[72]     0.024162    0.000153    0.002477    0.048995    0.022331    1.000    2
   length{all}[73]     0.054848    0.000579    0.006096    0.100973    0.054456    1.000    2
   length{all}[74]     0.017133    0.000119    0.000856    0.038300    0.014905    1.000    2
   length{all}[75]     0.023184    0.000217    0.000027    0.051523    0.020742    1.000    2
   length{all}[76]     0.011034    0.000065    0.000002    0.026189    0.009282    1.000    2
   length{all}[77]     0.068367    0.000802    0.020953    0.133625    0.066150    1.000    2
   length{all}[78]     0.010273    0.000062    0.000001    0.024923    0.008398    1.000    2
   length{all}[79]     0.009743    0.000054    0.000012    0.023794    0.007828    1.000    2
   length{all}[80]     0.046894    0.000532    0.002040    0.088852    0.045346    1.000    2
   length{all}[81]     0.054459    0.001215    0.000114    0.121093    0.048355    0.999    2
   length{all}[82]     0.022600    0.000163    0.001487    0.046754    0.020948    1.002    2
   length{all}[83]     0.055848    0.000538    0.006669    0.098608    0.054108    1.000    2
   length{all}[84]     0.013571    0.000122    0.000014    0.035578    0.010596    1.002    2
   length{all}[85]     0.077823    0.001017    0.008212    0.136953    0.075817    1.000    2
   length{all}[86]     0.009552    0.000068    0.000020    0.026963    0.007375    1.000    2
   length{all}[87]     0.009177    0.000062    0.000007    0.024295    0.007043    0.999    2
   length{all}[88]     0.077826    0.000909    0.022827    0.144294    0.077225    1.000    2
   length{all}[89]     0.010367    0.000063    0.000042    0.026137    0.008469    0.999    2
   length{all}[90]     0.055779    0.000555    0.007689    0.098752    0.053309    1.000    2
   length{all}[91]     0.043951    0.000642    0.000217    0.088758    0.042121    1.005    2
   length{all}[92]     0.009806    0.000059    0.000064    0.023920    0.007954    1.001    2
   length{all}[93]     0.027174    0.000321    0.000192    0.058070    0.024996    0.999    2
   length{all}[94]     0.021669    0.000167    0.000607    0.044581    0.019395    0.999    2
   length{all}[95]     0.017357    0.000149    0.000001    0.039549    0.014882    1.000    2
   length{all}[96]     0.010770    0.000084    0.000007    0.027107    0.008661    0.999    2
   length{all}[97]     0.063783    0.000877    0.006775    0.118002    0.061933    1.005    2
   length{all}[98]     0.016940    0.000144    0.000003    0.038527    0.014392    1.003    2
   length{all}[99]     0.053319    0.001180    0.000302    0.112604    0.053709    1.007    2
   length{all}[100]    0.025161    0.000256    0.000339    0.055329    0.022237    1.000    2
   length{all}[101]    0.047055    0.000898    0.000107    0.100077    0.044291    1.010    2
   length{all}[102]    0.030914    0.000385    0.000395    0.066720    0.027899    1.001    2
   length{all}[103]    0.006645    0.000044    0.000001    0.020151    0.004575    0.999    2
   length{all}[104]    0.022492    0.000159    0.000043    0.045483    0.021188    1.003    2
   length{all}[105]    0.011005    0.000066    0.000122    0.026697    0.008854    0.999    2
   length{all}[106]    0.009442    0.000058    0.000003    0.024098    0.007572    1.000    2
   length{all}[107]    0.044080    0.000518    0.000042    0.084555    0.041724    1.001    2
   length{all}[108]    0.008689    0.000068    0.000030    0.025025    0.006099    1.003    2
   length{all}[109]    0.006100    0.000036    0.000013    0.018221    0.004308    1.000    2
   length{all}[110]    0.005935    0.000036    0.000001    0.016740    0.003854    0.999    2
   length{all}[111]    0.005864    0.000034    0.000028    0.016949    0.004068    1.000    2
   length{all}[112]    0.008317    0.000065    0.000006    0.022429    0.006089    1.000    2
   length{all}[113]    0.004658    0.000024    0.000023    0.014147    0.003118    0.999    2
   length{all}[114]    0.005076    0.000024    0.000025    0.014240    0.003806    0.999    2
   length{all}[115]    0.010476    0.000069    0.000008    0.025696    0.008493    1.002    2
   length{all}[116]    0.023649    0.000264    0.000198    0.054284    0.021233    0.998    2
   length{all}[117]    0.052451    0.001157    0.000197    0.115613    0.047398    0.999    2
   length{all}[118]    0.009796    0.000078    0.000003    0.026556    0.007518    0.998    2
   length{all}[119]    0.056753    0.001075    0.001363    0.116584    0.053549    1.000    2
   length{all}[120]    0.006266    0.000042    0.000047    0.019832    0.004391    1.006    2
   length{all}[121]    0.007110    0.000048    0.000012    0.020708    0.004814    0.999    2
   length{all}[122]    0.010088    0.000051    0.000012    0.023120    0.008214    0.998    2
   length{all}[123]    0.063517    0.001150    0.000563    0.121043    0.064695    1.000    2
   length{all}[124]    0.054854    0.000953    0.000946    0.105718    0.053283    1.000    2
   length{all}[125]    0.009590    0.000052    0.000316    0.024442    0.008107    0.998    2
   length{all}[126]    0.008062    0.000050    0.000065    0.022431    0.006137    0.999    2
   length{all}[127]    0.011999    0.000082    0.000033    0.029168    0.010471    1.006    2
   length{all}[128]    0.028854    0.000309    0.000185    0.060753    0.026500    0.998    2
   length{all}[129]    0.006807    0.000037    0.000028    0.017407    0.005350    0.997    2
   length{all}[130]    0.009538    0.000046    0.000188    0.022670    0.007989    0.999    2
   length{all}[131]    0.010553    0.000083    0.000009    0.028553    0.008342    0.997    2
   length{all}[132]    0.009379    0.000049    0.000018    0.023120    0.007620    0.998    2
   length{all}[133]    0.023691    0.000353    0.000005    0.057466    0.018863    0.997    2
   length{all}[134]    0.035322    0.000799    0.000239    0.090185    0.027480    0.997    2
   length{all}[135]    0.007917    0.000057    0.000064    0.024850    0.005764    1.001    2
   length{all}[136]    0.005767    0.000029    0.000017    0.016529    0.004297    1.000    2
   length{all}[137]    0.007469    0.000042    0.000004    0.020448    0.005598    0.997    2
   length{all}[138]    0.006059    0.000040    0.000070    0.017628    0.004343    1.015    2
   length{all}[139]    0.005651    0.000031    0.000037    0.017136    0.003942    0.997    2
   length{all}[140]    0.004264    0.000017    0.000043    0.012811    0.002675    0.998    2
   --------------------------------------------------------------------------------------------
   + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
     and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when
     deviation of parameter values within all runs is 0 or when a parameter
     value (a branch length, for instance) is not sampled in all runs.


   Summary statistics for partitions with frequency >= 0.10 in at least one run:
       Average standard deviation of split frequencies = 0.009359
       Maximum standard deviation of split frequencies = 0.040985
       Average PSRF for parameter values ( excluding NA and >10.0 ) = 1.000
       Maximum PSRF for parameter values = 1.015


   Clade credibility values:

   /---------------------------------------------------------------------- C1 (1)
   |                                                                               
   |                                                               /------ C22 (22)
   |------------------------------100------------------------------+               
   |                                                               \------ C42 (42)
   |                                                                               
   |                                                               /------ C2 (2)
   |                                                  /-----90-----+               
   |                                                  |            \------ C43 (43)
   |                                                  |                            
   |                                            /--97-+     /------------- C4 (4)
   |                                            |     |     |                      
   |                                            |     \--81-+      /------ C41 (41)
   |                                            |           \--74--+               
   |                                            |                  \------ C45 (45)
   |                                            |                                  
   |                                            |                  /------ C14 (14)
   |                        /--------100--------+--------81--------+               
   |                        |                   |                  \------ C21 (21)
   |                        |                   |                                  
   |                        |                   |                  /------ C27 (27)
   |                        |                   |--------95--------+               
   |                        |                   |                  \------ C39 (39)
   |                        |                   |                                  
   |                        |                   \------------------------- C40 (40)
   |                        |                                                      
   |                        |                                      /------ C3 (3)
   |                        |                         /-----97-----+               
   |                        |                         |            \------ C34 (34)
   |                        |                         |                            
   |                        |                   /--62-+            /------ C13 (13)
   |                        |                   |     |     /--99--+               
   |                  /-100-+                   |     |     |      \------ C50 (50)
   |                  |     |                   |     \--92-+                      
   |                  |     |      /-----100----+           \------------- C32 (32)
   |                  |     |      |            |                                  
   |                  |     |      |            |                  /------ C33 (33)
   |                  |     |      |            \--------93--------+               
   |                  |     |      |                               \------ C38 (38)
   |                  |     |      |                                               
   |                  |     |      |                               /------ C7 (7)
   |                  |     |      |                        /--52--+               
   |                  |     |      |                        |      \------ C8 (8)
   +                  |     |      |                  /--97-+                      
   |                  |     |      |                  |     \------------- C25 (25)
   |                  |     |      |     /-----93-----+                            
   |                  |     |      |     |            \------------------- C15 (15)
   |                  |     \--100-+     |                                         
   |                  |            |     |                         /------ C9 (9)
   |                  |            |     |                  /--77--+               
   |                  |            |     |                  |      \------ C16 (16)
   |                  |            |     |                  |                      
   |                  |            |     |                  |      /------ C10 (10)
   |                  |            |     |            /--60-+--85--+               
   |                  |            |     |            |     |      \------ C24 (24)
   |                  |            |     |            |     |                      
   |            /--55-+            |     |-----58-----+     \------------- C26 (26)
   |            |     |            |     |            |                            
   |            |     |            |     |            \------------------- C30 (30)
   |            |     |            \-100-+                                         
   |            |     |                  |      /------------------------- C12 (12)
   |            |     |                  |      |                                  
   |            |     |                  |      |                  /------ C29 (29)
   |            |     |                  |      |           /--53--+               
   |            |     |                  |--74--+           |      \------ C44 (44)
   |            |     |                  |      |     /--89-+                      
   |            |     |                  |      |     |     \------------- C47 (47)
   |            |     |                  |      \--91-+                            
   |            |     |                  |            |            /------ C35 (35)
   |            |     |                  |            \-----78-----+               
   |            |     |                  |                         \------ C37 (37)
   |            |     |                  |                                         
   |            |     |                  \-------------------------------- C19 (19)
   |     /--90--+     |                                                            
   |     |      |     |                                     /------------- C5 (5)
   |     |      |     |                                     |                      
   |     |      |     |                                     |------------- C20 (20)
   |     |      |     |                                     |                      
   |     |      |     |                                     |------------- C23 (23)
   |     |      |     |                                     |                      
   |     |      |     \------------------52-----------------+------------- C31 (31)
   |     |      |                                           |                      
   |     |      |                                           |------------- C36 (36)
   |     |      |                                           |                      
   |     |      |                                           |      /------ C46 (46)
   \--56-+      |                                           \--74--+               
         |      |                                                  \------ C49 (49)
         |      |                                                                  
         |      |                                                  /------ C6 (6)
         |      \------------------------76------------------------+               
         |                                                         \------ C17 (17)
         |                                                                         
         |                                                         /------ C11 (11)
         |                                                  /--98--+               
         |                                                  |      \------ C28 (28)
         |                                            /--94-+                      
         |                                            |     \------------- C48 (48)
         \---------------------94---------------------+                            
                                                      \------------------- C18 (18)
                                                                                   

   Phylogram (based on average branch lengths):

   /-- C1 (1)
   |                                                                               
   |/- C22 (22)
   |+                                                                              
   |\- C42 (42)
   |                                                                               
   |                                           /- C2 (2)
   |                                           |                                   
   |                                           | C43 (43)
   |                                           |                                   
   |                                          /+- C4 (4)
   |                                          ||                                   
   |                                          || C41 (41)
   |                                          ||                                   
   |                                          |\- C45 (45)
   |                                          |                                    
   |                                          |/-- C14 (14)
   |                       /------------------++                                   
   |                       |                  |\- C21 (21)
   |                       |                  |                                    
   |                       |                  |/- C27 (27)
   |                       |                  |+                                   
   |                       |                  |\ C39 (39)
   |                       |                  |                                    
   |                       |                  \- C40 (40)
   |                       |                                                       
   |                       |                                       /- C3 (3)
   |                       |                                      /+               
   |                       |                                      |\- C34 (34)
   |                       |                                      |                
   |                       |                                     /+   / C13 (13)
   |                       |                                     || /-+            
   |   /-------------------+                                     || | \ C50 (50)
   |   |                   |                                     |\-+              
   |   |                   |              /----------------------+  \- C32 (32)
   |   |                   |              |                      |                 
   |   |                   |              |                      | / C33 (33)
   |   |                   |              |                      \-+               
   |   |                   |              |                        \- C38 (38)
   |   |                   |              |                                        
   |   |                   |              |                          /- C7 (7)
   |   |                   |              |                          |             
   |   |                   |              |                          |- C8 (8)
   +   |                   |              |                         /+             
   |   |                   |              |                         |\- C25 (25)
   |   |                   |              |                         |              
   |   |                   |              |                         |- C15 (15)
   |   |                   \--------------+                         |              
   |   |                                  |                         | / C9 (9)
   |   |                                  |                         |/+            
   |   |                                  |                         ||\ C16 (16)
   |   |                                  |                         ||             
   |   |                                  |                         ||/ C10 (10)
   |   |                                  |                         ||+            
   |   |                                  |                         ||\- C24 (24)
   |   |                                  |                         ||             
   | /-+                                  |                         |+- C26 (26)
   | | |                                  |                         ||             
   | | |                                  |                         |\- C30 (30)
   | | |                                  \-------------------------+              
   | | |                                                            |/---- C12 (12)
   | | |                                                            ||             
   | | |                                                            || / C29 (29)
   | | |                                                            || |           
   | | |                                                            |+ | C44 (44)
   | | |                                                            ||/+           
   | | |                                                            |||\- C47 (47)
   | | |                                                            |\+            
   | | |                                                            | |/-- C35 (35)
   | | |                                                            | \+           
   | | |                                                            |  \- C37 (37)
   | | |                                                            |              
   | | |                                                            \-- C19 (19)
   |-+ |                                                                           
   | | |/- C5 (5)
   | | ||                                                                          
   | | ||- C20 (20)
   | | ||                                                                          
   | | ||- C23 (23)
   | | ||                                                                          
   | | \+- C31 (31)
   | |  |                                                                          
   | |  |- C36 (36)
   | |  |                                                                          
   | |  |/ C46 (46)
   | |  \+                                                                         
   | |   \ C49 (49)
   | |                                                                             
   | |/-- C6 (6)
   | \+                                                                            
   |  \--- C17 (17)
   |                                                                               
   | /- C11 (11)
   | |                                                                             
   | |- C28 (28)
   |/+                                                                             
   ||\ C48 (48)
   \+                                                                              
    \- C18 (18)
                                                                                   
   |----------| 0.500 expected changes per site

   Calculating tree probabilities...

   Credible sets of trees (3002 trees sampled):
      50 % credible set contains 1501 trees
      90 % credible set contains 2702 trees
      95 % credible set contains 2852 trees
      99 % credible set contains 2972 trees

   Exiting mrbayes block
   Reached end of file

   Tasks completed, exiting program because mode is noninteractive
   To return control to the command line after completion of file processing, 
   set mode to interactive with 'mb -i <filename>' (i is for interactive)
   or use 'set mode=interactive'

MrBayes output code: 0

CODONML in paml version 4.8, March 2014

----------------------------------------------
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):   0  1  2  3  7  8

seq file is not paml/phylip format.  Trying nexus format.
ns = 50  	ls = 381
Reading sequences, sequential format..
Reading seq # 1: C1     
Reading seq # 2: C2     
Reading seq # 3: C3     
Reading seq # 4: C4     
Reading seq # 5: C5     
Reading seq # 6: C6     
Reading seq # 7: C7     
Reading seq # 8: C8     
Reading seq # 9: C9     
Reading seq #10: C10     
Reading seq #11: C11     
Reading seq #12: C12     
Reading seq #13: C13     
Reading seq #14: C14     
Reading seq #15: C15     
Reading seq #16: C16     
Reading seq #17: C17     
Reading seq #18: C18     
Reading seq #19: C19     
Reading seq #20: C20     
Reading seq #21: C21     
Reading seq #22: C22     
Reading seq #23: C23     
Reading seq #24: C24     
Reading seq #25: C25     
Reading seq #26: C26     
Reading seq #27: C27     
Reading seq #28: C28     
Reading seq #29: C29     
Reading seq #30: C30     
Reading seq #31: C31     
Reading seq #32: C32     
Reading seq #33: C33     
Reading seq #34: C34     
Reading seq #35: C35     
Reading seq #36: C36     
Reading seq #37: C37     
Reading seq #38: C38     
Reading seq #39: C39     
Reading seq #40: C40     
Reading seq #41: C41     
Reading seq #42: C42     
Reading seq #43: C43     
Reading seq #44: C44     
Reading seq #45: C45     
Reading seq #46: C46     
Reading seq #47: C47     
Reading seq #48: C48     
Reading seq #49: C49     
Reading seq #50: C50     
codon       1: AGT TCA AGC TCA AGC AGC TCT TCT TCT TCT AGT TCC AGT TCG TCT TCT AGC AGT TCC AGC TCA AGT AGC TCT TCT TCT TCA AGT TCC TCC AGC AGC AGC AGT TCC AGC TCC AGC TCA TCA TCA AGT TCA TCC TCA AGC TCC AGT AGC AGT 
Sequences read..
Counting site patterns..  0:00

         126 patterns at      127 /      127 sites (100.0%),  0:00
Counting codons..
NG distances for seqs.:
   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

     9800 bytes for distance
   122976 bytes for conP
    17136 bytes for fhK
  5000000 bytes for space


Model 0: one-ratio

TREE #  1

   1  3837.304933
   2  3728.911982
   3  3703.813971
   4  3697.892496
   5  3697.103123
   6  3696.962657
   7  3696.962063
  2398032 bytes for conP, adjusted

2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

    0.031072    0.026180    0.081980    0.027947    0.095356    0.090824    0.038148    0.210379    0.241320    0.042161    0.063552    0.029374    0.039137    0.023085    0.021955    0.086069    0.076833    0.033442    0.077898    0.046009    0.117979    0.054001    0.017461    0.028814    0.002274    0.097631    0.184686    0.057684    0.129950    0.031272    0.020401    0.011042    0.095732    0.007003    0.069463    0.043103    0.056296    0.069453    0.098091    0.259369    0.038026    0.010989    0.035529    0.035797    0.059123    0.043142    0.096580    0.062642    0.048573    0.071854    0.035299    0.097939    0.088705    0.082872    0.100183    0.057199    0.046436    0.044539    0.046115    0.034424    0.000000    0.068751    0.047007    0.090525    0.078298    0.060444    0.039594    0.036551    0.054506    0.111778    0.099457    0.096290    0.071778    0.051574    0.090683    0.036528    0.057034    0.072634    0.036835    0.108393    0.031869    0.017897    0.036228    0.031976    0.099063    0.075308    0.108728    0.065037    0.300000    1.300000

ntime & nrate & np:    88     2    90

Bounds (np=90):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000100   0.000100
  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  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 999.000000

np =    90
lnL0 = -5697.609082

Iterating by ming2
Initial: fx=  5697.609082
x=  0.03107  0.02618  0.08198  0.02795  0.09536  0.09082  0.03815  0.21038  0.24132  0.04216  0.06355  0.02937  0.03914  0.02308  0.02195  0.08607  0.07683  0.03344  0.07790  0.04601  0.11798  0.05400  0.01746  0.02881  0.00227  0.09763  0.18469  0.05768  0.12995  0.03127  0.02040  0.01104  0.09573  0.00700  0.06946  0.04310  0.05630  0.06945  0.09809  0.25937  0.03803  0.01099  0.03553  0.03580  0.05912  0.04314  0.09658  0.06264  0.04857  0.07185  0.03530  0.09794  0.08870  0.08287  0.10018  0.05720  0.04644  0.04454  0.04612  0.03442  0.00000  0.06875  0.04701  0.09052  0.07830  0.06044  0.03959  0.03655  0.05451  0.11178  0.09946  0.09629  0.07178  0.05157  0.09068  0.03653  0.05703  0.07263  0.03684  0.10839  0.03187  0.01790  0.03623  0.03198  0.09906  0.07531  0.10873  0.06504  0.30000  1.30000

  1 h-m-p  0.0000 0.0003 9498.3432 +++    5362.051065  m 0.0003    96 | 0/90
  2 h-m-p  0.0001 0.0004 1991.4606 ++     5281.447722  m 0.0004   189 | 0/90
  3 h-m-p  0.0000 0.0000 29080.9170 +YCCC  5276.829138  3 0.0000   288 | 0/90
  4 h-m-p  0.0000 0.0002 987.9281 ++     5225.318325  m 0.0002   381 | 0/90
  5 h-m-p  0.0000 0.0000 31862.5717 ++     5214.623958  m 0.0000   474 | 0/90
  6 h-m-p  0.0000 0.0000 1342.7160 
h-m-p:      9.86802640e-22      4.93401320e-21      1.34271597e+03  5214.623958
..  | 0/90
  7 h-m-p  0.0000 0.0003 758.7083 +++    5147.006890  m 0.0003   658 | 0/90
  8 h-m-p  0.0000 0.0000 8656.9403 ++     5087.598396  m 0.0000   751 | 1/90
  9 h-m-p  0.0000 0.0000 7549.3030 +YCYYC  5060.642198  4 0.0000   851 | 1/90
 10 h-m-p  0.0000 0.0000 36303.3941 +CYYCCCCC  5044.218516  7 0.0000   957 | 1/90
 11 h-m-p  0.0000 0.0000 178565.1345 ++     5023.770331  m 0.0000  1050 | 1/90
 12 h-m-p  0.0000 0.0000 16406.9857 ++     5004.149291  m 0.0000  1143 | 1/90
 13 h-m-p  0.0000 0.0000 14864.2080 
h-m-p:      4.16116691e-23      2.08058346e-22      1.48642080e+04  5004.149291
..  | 1/90
 14 h-m-p  0.0000 0.0002 3649.2110 +YYYCCC  4985.856510  5 0.0000  1334 | 1/90
 15 h-m-p  0.0000 0.0002 686.9214 ++     4907.183447  m 0.0002  1427 | 2/90
 16 h-m-p  0.0000 0.0000 705589.6208 ++     4873.802880  m 0.0000  1520 | 2/90
 17 h-m-p  0.0000 0.0000 24802.5712 ++     4863.071270  m 0.0000  1613 | 2/90
 18 h-m-p  0.0000 0.0000 25617.3714 ++     4833.706181  m 0.0000  1706 | 2/90
 19 h-m-p  0.0000 0.0000 13319.2315 +CYCYC  4821.123879  4 0.0000  1807 | 2/90
 20 h-m-p  0.0000 0.0000 310166.7526 ++     4809.952378  m 0.0000  1900 | 2/90
 21 h-m-p  0.0000 0.0000 15832.9108 ++     4795.427103  m 0.0000  1993 | 2/90
 22 h-m-p  0.0000 0.0000 16725.4861 ++     4791.556522  m 0.0000  2086 | 2/90
 23 h-m-p  0.0000 0.0000 11047.3978 ++     4770.966853  m 0.0000  2179 | 2/90
 24 h-m-p -0.0000 -0.0000 12062.5713 
h-m-p:     -2.37669423e-22     -1.18834711e-21      1.20625713e+04  4770.966853
..  | 2/90
 25 h-m-p  0.0000 0.0004 9182.4073 YCYYCCC  4739.012710  6 0.0000  2371 | 2/90
 26 h-m-p  0.0001 0.0004 863.9570 +YYYYCYCYCC  4578.815906 10 0.0003  2478 | 2/90
 27 h-m-p  0.0001 0.0005 347.4121 +YYCCC  4560.032150  4 0.0003  2578 | 2/90
 28 h-m-p  0.0000 0.0001 1033.1459 ++     4531.482889  m 0.0001  2671 | 2/90
 29 h-m-p  0.0000 0.0000 5219.7851 +CYYCYCCC  4509.124741  7 0.0000  2776 | 2/90
 30 h-m-p  0.0000 0.0000 1573.9765 +YYYYYC  4504.180201  5 0.0000  2875 | 2/90
 31 h-m-p  0.0000 0.0000 9408.1003 ++     4471.461894  m 0.0000  2968 | 2/90
 32 h-m-p  0.0000 0.0000 246913.4775 ++     4457.578055  m 0.0000  3061 | 2/90
 33 h-m-p  0.0001 0.0007 1121.2148 ++     4365.390121  m 0.0007  3154 | 2/90
 34 h-m-p  0.0000 0.0001 2458.9217 +YYCCYYC  4345.584972  6 0.0001  3257 | 2/90
 35 h-m-p  0.0000 0.0002 556.6432 ++     4333.629084  m 0.0002  3350 | 2/90
 36 h-m-p  0.0000 0.0000 39283.0362 +YYCYCCC  4313.588744  6 0.0000  3453 | 2/90
 37 h-m-p  0.0000 0.0001 1853.8637 +YYYYCCCC  4298.325663  7 0.0001  3557 | 2/90
 38 h-m-p  0.0000 0.0000 3542.2660 +YYCCC  4295.491141  4 0.0000  3657 | 2/90
 39 h-m-p  0.0000 0.0001 2737.3446 +YYCCC  4287.348694  4 0.0000  3757 | 2/90
 40 h-m-p  0.0000 0.0001 1354.3143 +YYCYYCCC  4279.295605  7 0.0001  3861 | 2/90
 41 h-m-p  0.0001 0.0003 973.2059 YCYCCC  4270.923509  5 0.0001  3962 | 2/90
 42 h-m-p  0.0001 0.0005 458.3655 YCCC   4264.278892  3 0.0002  4060 | 1/90
 43 h-m-p  0.0001 0.0005 374.3641 YCCC   4260.889669  3 0.0002  4158 | 1/90
 44 h-m-p  0.0002 0.0009 194.8358 YCCCC  4258.161355  4 0.0003  4258 | 1/90
 45 h-m-p  0.0001 0.0007 232.1867 CCCC   4256.906059  3 0.0002  4357 | 1/90
 46 h-m-p  0.0003 0.0014  69.4759 YCCC   4256.080388  3 0.0005  4455 | 1/90
 47 h-m-p  0.0001 0.0005 172.9272 YCYCC  4255.033281  4 0.0003  4554 | 1/90
 48 h-m-p  0.0000 0.0002 315.2484 ++     4253.634108  m 0.0002  4647 | 1/90
 49 h-m-p  0.0000 0.0000 477.0500 
h-m-p:      1.81362062e-21      9.06810310e-21      4.77049984e+02  4253.634108
..  | 1/90
 50 h-m-p  0.0000 0.0003 3165.7784 YYCYCCC  4249.385910  6 0.0000  4839 | 1/90
 51 h-m-p  0.0001 0.0003 369.7121 YCC    4240.896859  2 0.0001  4935 | 1/90
 52 h-m-p  0.0001 0.0003 436.8786 YCCC   4235.268722  3 0.0001  5033 | 1/90
 53 h-m-p  0.0000 0.0001 344.5197 +CYYC  4230.249192  3 0.0001  5132 | 1/90
 54 h-m-p  0.0000 0.0001 253.2587 +YYCYC  4229.138049  4 0.0001  5231 | 1/90
 55 h-m-p  0.0001 0.0003 217.4119 +YYCCC  4226.784968  4 0.0002  5331 | 1/90
 56 h-m-p  0.0000 0.0001 611.5066 ++     4224.514789  m 0.0001  5424 | 2/90
 57 h-m-p  0.0001 0.0004 307.5816 +YCCC  4221.808366  3 0.0003  5523 | 2/90
 58 h-m-p  0.0001 0.0003 385.9718 +YYCCC  4219.106556  4 0.0002  5623 | 2/90
 59 h-m-p  0.0001 0.0004 468.4824 +YYCCC  4215.330337  4 0.0003  5723 | 2/90
 60 h-m-p  0.0001 0.0004 421.6071 +YYCYCCC  4210.282120  6 0.0004  5826 | 2/90
 61 h-m-p  0.0000 0.0000 4025.7108 ++     4206.705298  m 0.0000  5919 | 3/90
 62 h-m-p  0.0001 0.0004 1217.8256 +CYYYC  4186.218420  4 0.0004  6019 | 3/90
 63 h-m-p  0.0000 0.0001 7459.0136 ++     4159.587537  m 0.0001  6112 | 3/90
 64 h-m-p  0.0000 0.0000 49696.2764 ++     4140.983408  m 0.0000  6205 | 3/90
 65 h-m-p  0.0000 0.0000 25105.5615 
h-m-p:      2.08840770e-22      1.04420385e-21      2.51055615e+04  4140.983408
..  | 3/90
 66 h-m-p  0.0000 0.0004 986.5766 +YCCCC  4124.483843  4 0.0001  6396 | 3/90
 67 h-m-p  0.0001 0.0003 338.2883 +CYCCC  4110.520589  4 0.0003  6497 | 3/90
 68 h-m-p  0.0000 0.0001 722.4310 +YYCCC  4102.182253  4 0.0001  6597 | 3/90
 69 h-m-p  0.0000 0.0002 467.9179 YC     4098.654512  1 0.0001  6691 | 3/90
 70 h-m-p  0.0000 0.0002 441.1932 YC     4095.436944  1 0.0001  6785 | 3/90
 71 h-m-p  0.0002 0.0012 246.1196 YCCC   4090.395311  3 0.0004  6883 | 2/90
 72 h-m-p  0.0001 0.0004 531.4713 +YCCCC  4083.516136  4 0.0003  6984 | 1/90
 73 h-m-p  0.0001 0.0003 418.2440 +YYCCCC  4080.444555  5 0.0002  7086 | 1/90
 74 h-m-p  0.0000 0.0002 205.7563 YCYCCC  4079.396910  5 0.0001  7187 | 1/90
 75 h-m-p  0.0004 0.0019  67.8315 CCC    4078.684898  2 0.0005  7284 | 1/90
 76 h-m-p  0.0001 0.0006 110.4045 CYCCC  4078.189396  4 0.0002  7384 | 1/90
 77 h-m-p  0.0002 0.0010 105.3440 CCCC   4077.658377  3 0.0003  7483 | 1/90
 78 h-m-p  0.0002 0.0009  65.2622 CYC    4077.522622  2 0.0002  7579 | 1/90
 79 h-m-p  0.0002 0.0020  54.1270 YC     4077.245341  1 0.0005  7673 | 1/90
 80 h-m-p  0.0002 0.0011 138.5594 C      4076.995315  0 0.0002  7766 | 1/90
 81 h-m-p  0.0004 0.0020  33.3281 CCCC   4076.866587  3 0.0005  7865 | 1/90
 82 h-m-p  0.0002 0.0038  74.4824 YCC    4076.662173  2 0.0004  7961 | 1/90
 83 h-m-p  0.0002 0.0009  96.8907 CCCC   4076.466107  3 0.0003  8060 | 1/90
 84 h-m-p  0.0003 0.0015 107.3014 CCC    4076.269937  2 0.0003  8157 | 1/90
 85 h-m-p  0.0003 0.0037  96.0118 YC     4075.873133  1 0.0007  8251 | 1/90
 86 h-m-p  0.0003 0.0016 176.4234 YCCC   4075.231207  3 0.0007  8349 | 1/90
 87 h-m-p  0.0001 0.0006 262.0687 ++     4074.050283  m 0.0006  8442 | 2/90
 88 h-m-p  0.0003 0.0016 521.8248 YCCC   4072.195335  3 0.0007  8540 | 2/90
 89 h-m-p  0.0002 0.0012 979.8185 CCC    4071.184374  2 0.0002  8637 | 2/90
 90 h-m-p  0.0002 0.0010 587.3613 YCCC   4069.946306  3 0.0004  8735 | 2/90
 91 h-m-p  0.0004 0.0021 315.0873 CCC    4069.359603  2 0.0004  8832 | 2/90
 92 h-m-p  0.0008 0.0047 168.6417 CC     4068.607126  1 0.0009  8927 | 2/90
 93 h-m-p  0.0006 0.0031  96.1817 YCC    4068.358909  2 0.0005  9023 | 2/90
 94 h-m-p  0.0007 0.0036  59.1911 YCC    4068.185344  2 0.0005  9119 | 2/90
 95 h-m-p  0.0007 0.0053  44.2118 CCC    4068.029882  2 0.0006  9216 | 2/90
 96 h-m-p  0.0007 0.0036  38.0009 YCC    4067.921388  2 0.0004  9312 | 2/90
 97 h-m-p  0.0007 0.0050  24.5869 CYC    4067.802902  2 0.0007  9408 | 2/90
 98 h-m-p  0.0012 0.0145  13.0476 YCC    4067.701022  2 0.0009  9504 | 2/90
 99 h-m-p  0.0006 0.0057  18.6270 CCC    4067.556380  2 0.0008  9601 | 2/90
100 h-m-p  0.0008 0.0056  19.8849 CYC    4067.439529  2 0.0007  9697 | 2/90
101 h-m-p  0.0009 0.0131  16.6933 CC     4067.369836  1 0.0007  9792 | 2/90
102 h-m-p  0.0012 0.0120  10.4775 YC     4067.347114  1 0.0006  9886 | 2/90
103 h-m-p  0.0011 0.0159   5.5262 YC     4067.340321  1 0.0005  9980 | 2/90
104 h-m-p  0.0009 0.0292   3.0258 YC     4067.325991  1 0.0018 10074 | 1/90
105 h-m-p  0.0013 0.0427   4.1229 YC     4067.288751  1 0.0024 10168 | 1/90
106 h-m-p  0.0010 0.0277   9.8094 +YC    4067.145572  1 0.0029 10263 | 1/90
107 h-m-p  0.0008 0.0100  35.1225 YC     4066.818189  1 0.0016 10357 | 1/90
108 h-m-p  0.0006 0.0039  90.8010 CCC    4066.425619  2 0.0008 10454 | 1/90
109 h-m-p  0.0004 0.0018 113.8227 YCCC   4065.820835  3 0.0009 10552 | 1/90
110 h-m-p  0.0005 0.0027  84.1941 YCC    4065.351315  2 0.0009 10648 | 1/90
111 h-m-p  0.0002 0.0011  70.7609 +YC    4065.059445  1 0.0007 10743 | 1/90
112 h-m-p  0.0001 0.0005  36.3948 ++     4064.953209  m 0.0005 10836 | 2/90
113 h-m-p  0.0013 0.0210  13.7585 YC     4064.910632  1 0.0008 10930 | 2/90
114 h-m-p  0.0009 0.0190  12.2435 CC     4064.879135  1 0.0009 11025 | 2/90
115 h-m-p  0.0017 0.0271   5.9951 CC     4064.870174  1 0.0007 11120 | 2/90
116 h-m-p  0.0011 0.0462   3.7708 YC     4064.865383  1 0.0008 11214 | 2/90
117 h-m-p  0.0008 0.0799   4.0883 YC     4064.855471  1 0.0018 11308 | 2/90
118 h-m-p  0.0008 0.0496   9.9320 YC     4064.836462  1 0.0015 11402 | 2/90
119 h-m-p  0.0007 0.0290  21.7259 YC     4064.796030  1 0.0015 11496 | 2/90
120 h-m-p  0.0013 0.0341  25.0982 C      4064.755490  0 0.0014 11589 | 2/90
121 h-m-p  0.0013 0.0214  26.2871 YC     4064.725567  1 0.0010 11683 | 2/90
122 h-m-p  0.0011 0.0334  23.8606 CC     4064.685530  1 0.0014 11778 | 2/90
123 h-m-p  0.0013 0.0382  26.1564 CC     4064.625471  1 0.0019 11873 | 2/90
124 h-m-p  0.0009 0.0085  59.1467 YC     4064.521942  1 0.0014 11967 | 2/90
125 h-m-p  0.0019 0.0146  44.2691 CC     4064.487323  1 0.0006 12062 | 2/90
126 h-m-p  0.0016 0.0212  17.6037 YC     4064.468089  1 0.0009 12156 | 2/90
127 h-m-p  0.0038 0.0578   4.3696 C      4064.463607  0 0.0010 12249 | 2/90
128 h-m-p  0.0016 0.0514   2.6699 YC     4064.461363  1 0.0009 12343 | 2/90
129 h-m-p  0.0015 0.1012   1.6198 CC     4064.458496  1 0.0018 12438 | 2/90
130 h-m-p  0.0010 0.0852   2.8171 YC     4064.450847  1 0.0024 12532 | 2/90
131 h-m-p  0.0009 0.0741   7.6503 YC     4064.437214  1 0.0015 12626 | 2/90
132 h-m-p  0.0008 0.1078  13.7160 +CC    4064.356979  1 0.0046 12722 | 2/90
133 h-m-p  0.0011 0.0245  54.8848 CC     4064.254670  1 0.0015 12817 | 2/90
134 h-m-p  0.0026 0.0154  30.8012 CC     4064.221742  1 0.0008 12912 | 2/90
135 h-m-p  0.0018 0.0403  14.4304 YC     4064.208707  1 0.0008 13006 | 2/90
136 h-m-p  0.0050 0.1721   2.1853 CC     4064.206660  1 0.0010 13101 | 2/90
137 h-m-p  0.0015 0.1002   1.5390 YC     4064.205489  1 0.0011 13195 | 2/90
138 h-m-p  0.0012 0.2277   1.3789 YC     4064.203574  1 0.0021 13289 | 2/90
139 h-m-p  0.0009 0.2184   3.3674 +YC    4064.197544  1 0.0027 13384 | 2/90
140 h-m-p  0.0009 0.0592  10.2582 +C     4064.173666  0 0.0035 13478 | 2/90
141 h-m-p  0.0007 0.0490  53.8636 +YC    4064.099346  1 0.0021 13573 | 2/90
142 h-m-p  0.0053 0.0265  19.8706 YC     4064.089933  1 0.0007 13667 | 2/90
143 h-m-p  0.0025 0.0664   5.6913 CC     4064.087031  1 0.0008 13762 | 2/90
144 h-m-p  0.0020 0.1123   2.4015 YC     4064.085910  1 0.0009 13856 | 2/90
145 h-m-p  0.0028 0.2652   0.7276 YC     4064.085418  1 0.0014 13950 | 2/90
146 h-m-p  0.0015 0.3123   0.6702 YC     4064.084207  1 0.0030 14132 | 2/90
147 h-m-p  0.0010 0.2016   2.0701 +CC    4064.076095  1 0.0056 14316 | 2/90
148 h-m-p  0.0008 0.0369  14.0895 +CC    4064.046254  1 0.0030 14412 | 2/90
149 h-m-p  0.0016 0.0280  26.1753 CC     4064.008386  1 0.0020 14507 | 2/90
150 h-m-p  0.0092 0.0460   5.0293 -C     4064.006290  0 0.0006 14601 | 2/90
151 h-m-p  0.0023 0.1714   1.3723 CC     4064.005656  1 0.0009 14696 | 2/90
152 h-m-p  0.0024 0.4220   0.5276 C      4064.005189  0 0.0026 14789 | 2/90
153 h-m-p  0.0016 0.5183   0.8629 +YC    4064.004087  1 0.0041 14972 | 2/90
154 h-m-p  0.0010 0.2177   3.5318 ++CC   4063.982528  1 0.0198 15157 | 2/90
155 h-m-p  0.0101 0.1013   6.8892 YC     4063.979517  1 0.0015 15251 | 2/90
156 h-m-p  0.1199 5.1377   0.0836 C      4063.978759  0 0.0380 15344 | 2/90
157 h-m-p  0.0015 0.3304   2.1319 ++YC   4063.968163  1 0.0194 15528 | 2/90
158 h-m-p  0.5554 8.0000   0.0745 CC     4063.963551  1 0.4968 15623 | 2/90
159 h-m-p  1.3923 8.0000   0.0266 YC     4063.961509  1 0.6873 15805 | 2/90
160 h-m-p  1.6000 8.0000   0.0068 YC     4063.961243  1 0.7795 15987 | 2/90
161 h-m-p  0.5828 8.0000   0.0091 Y      4063.961207  0 0.4013 16168 | 2/90
162 h-m-p  1.6000 8.0000   0.0019 C      4063.961192  0 0.6346 16349 | 2/90
163 h-m-p  1.6000 8.0000   0.0003 Y      4063.961190  0 0.7947 16530 | 2/90
164 h-m-p  1.6000 8.0000   0.0001 Y      4063.961190  0 0.8927 16711 | 2/90
165 h-m-p  1.2953 8.0000   0.0001 Y      4063.961190  0 0.8833 16892 | 2/90
166 h-m-p  1.4014 8.0000   0.0000 Y      4063.961190  0 0.8350 17073 | 2/90
167 h-m-p  1.6000 8.0000   0.0000 Y      4063.961190  0 1.2312 17254 | 2/90
168 h-m-p  1.6000 8.0000   0.0000 Y      4063.961190  0 0.4000 17435 | 2/90
169 h-m-p  0.3316 8.0000   0.0000 C      4063.961190  0 0.3316 17616 | 2/90
170 h-m-p  0.3029 8.0000   0.0000 C      4063.961190  0 0.3029 17797 | 2/90
171 h-m-p  0.5229 8.0000   0.0000 ---------------Y  4063.961190  0 0.0000 17993
Out..
lnL  = -4063.961190
17994 lfun, 17994 eigenQcodon, 1583472 P(t)

Time used:  7:27


Model 1: NearlyNeutral

TREE #  1

   1  2845.186659
   2  2834.605305
   3  2833.197309
   4  2832.946823
   5  2832.887386
   6  2832.876807
   7  2832.875395
2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

    0.058500    0.032182    0.091120    0.043086    0.089243    0.030272    0.027598    0.409057    0.371829    0.051112    0.031410    0.074578    0.039045    0.034768    0.034668    0.075821    0.035746    0.008531    0.065788    0.045575    0.081411    0.043749    0.018614    0.071381    0.050072    0.045761    0.341752    0.039436    0.134485    0.042090    0.005821    0.011916    0.116036    0.057484    0.062467    0.058815    0.104822    0.049461    0.068503    0.385799    0.102920    0.023706    0.065522    0.031558    0.089476    0.047287    0.071031    0.042818    0.028523    0.012118    0.037422    0.058370    0.071171    0.038299    0.032881    0.099016    0.087700    0.022776    0.104524    0.079139    0.000000    0.094560    0.005209    0.059795    0.048533    0.073082    0.093208    0.080046    0.078537    0.068376    0.063473    0.047575    0.072081    0.071660    0.090582    0.075330    0.031012    0.043280    0.076448    0.091912    0.089942    0.069375    0.033914    0.061186    0.067065    0.006807    0.050291    0.077157    5.886240    0.642500    0.551991

ntime & nrate & np:    88     2    91

Bounds (np=91):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   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  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  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 = 2.776693

np =    91
lnL0 = -4592.881343

Iterating by ming2
Initial: fx=  4592.881343
x=  0.05850  0.03218  0.09112  0.04309  0.08924  0.03027  0.02760  0.40906  0.37183  0.05111  0.03141  0.07458  0.03905  0.03477  0.03467  0.07582  0.03575  0.00853  0.06579  0.04557  0.08141  0.04375  0.01861  0.07138  0.05007  0.04576  0.34175  0.03944  0.13449  0.04209  0.00582  0.01192  0.11604  0.05748  0.06247  0.05882  0.10482  0.04946  0.06850  0.38580  0.10292  0.02371  0.06552  0.03156  0.08948  0.04729  0.07103  0.04282  0.02852  0.01212  0.03742  0.05837  0.07117  0.03830  0.03288  0.09902  0.08770  0.02278  0.10452  0.07914  0.00000  0.09456  0.00521  0.05979  0.04853  0.07308  0.09321  0.08005  0.07854  0.06838  0.06347  0.04758  0.07208  0.07166  0.09058  0.07533  0.03101  0.04328  0.07645  0.09191  0.08994  0.06938  0.03391  0.06119  0.06706  0.00681  0.05029  0.07716  5.88624  0.64250  0.55199

  1 h-m-p  0.0000 0.0004 1536.4554 +++    4412.386327  m 0.0004    97 | 0/91
  2 h-m-p  0.0000 0.0000 97137.8733 +YCCC  4407.782078  3 0.0000   197 | 0/91
  3 h-m-p  0.0000 0.0001 2473.1227 ++     4364.133084  m 0.0001   291 | 0/91
  4 h-m-p  0.0000 0.0002 1277.3007 ++     4316.046155  m 0.0002   385 | 0/91
  5 h-m-p  0.0001 0.0003 581.6430 YCCCCC  4298.317561  5 0.0001   488 | 0/91
  6 h-m-p  0.0000 0.0002 400.2946 ++     4278.402965  m 0.0002   582 | 0/91
  7 h-m-p  0.0000 0.0002 743.0900 ++     4257.834415  m 0.0002   676 | 1/91
  8 h-m-p  0.0001 0.0004 457.7019 +YYCYYCC  4240.739235  6 0.0004   780 | 1/91
  9 h-m-p  0.0001 0.0006 506.0196 +YCYCCC  4225.430933  5 0.0005   883 | 1/91
 10 h-m-p  0.0002 0.0010 475.5670 YCYC   4217.096993  3 0.0004   981 | 1/91
 11 h-m-p  0.0002 0.0010 220.3242 +YYCCC  4209.623059  4 0.0007  1082 | 1/91
 12 h-m-p  0.0001 0.0004 176.5952 +YYCCC  4207.487351  4 0.0003  1183 | 1/91
 13 h-m-p  0.0002 0.0011 309.6782 YCCC   4205.064537  3 0.0003  1282 | 1/91
 14 h-m-p  0.0003 0.0017 173.9516 CCC    4202.602536  2 0.0005  1380 | 1/91
 15 h-m-p  0.0003 0.0013 104.9262 YCCCC  4201.216236  4 0.0005  1481 | 1/91
 16 h-m-p  0.0005 0.0025  94.5389 CYC    4200.188882  2 0.0005  1578 | 1/91
 17 h-m-p  0.0005 0.0023  63.4816 YCCC   4198.905563  3 0.0009  1677 | 1/91
 18 h-m-p  0.0007 0.0037  53.0121 YCCCC  4196.744354  4 0.0015  1778 | 1/91
 19 h-m-p  0.0002 0.0009 134.7715 +YYCC  4194.265285  3 0.0006  1877 | 1/91
 20 h-m-p  0.0000 0.0002 171.6847 ++     4192.234597  m 0.0002  1971 | 2/91
 21 h-m-p  0.0001 0.0004 284.5866 ++     4187.655720  m 0.0004  2065 | 2/91
 22 h-m-p  0.0001 0.0003 508.8046 +YYCCC  4184.512986  4 0.0002  2166 | 2/91
 23 h-m-p  0.0000 0.0002 561.6647 +CYC   4182.212162  2 0.0001  2264 | 2/91
 24 h-m-p  0.0001 0.0006 216.6505 +YYYYYYYC  4177.762497  7 0.0005  2366 | 2/91
 25 h-m-p  0.0000 0.0002 231.6279 +CYC   4176.411735  2 0.0001  2464 | 2/91
 26 h-m-p  0.0000 0.0001 445.3824 ++     4175.031736  m 0.0001  2558 | 2/91
 27 h-m-p  0.0002 0.0010 165.2099 CCCC   4173.471218  3 0.0003  2658 | 2/91
 28 h-m-p  0.0001 0.0007  82.5831 +YCC   4172.520080  2 0.0005  2756 | 2/91
 29 h-m-p  0.0001 0.0004 151.6236 YCCC   4172.067301  3 0.0001  2855 | 2/91
 30 h-m-p  0.0001 0.0004  80.6946 ++     4171.266593  m 0.0004  2949 | 2/91
 31 h-m-p  0.0004 0.0022  69.0159 CCC    4170.595781  2 0.0006  3047 | 2/91
 32 h-m-p  0.0009 0.0055  43.8090 CCCC   4169.855787  3 0.0012  3147 | 1/91
 33 h-m-p  0.0003 0.0017  52.0418 +YC    4169.154329  1 0.0010  3243 | 1/91
 34 h-m-p  0.0002 0.0009  62.8718 ++     4168.377611  m 0.0009  3337 | 1/91
 35 h-m-p  0.0002 0.0009  60.4362 +YC    4167.653311  1 0.0008  3433 | 1/91
 36 h-m-p  0.0003 0.0015  64.0533 +CC    4166.471267  1 0.0012  3530 | 1/91
 37 h-m-p  0.0002 0.0012  75.2505 ++     4164.350926  m 0.0012  3624 | 1/91
 38 h-m-p  0.0001 0.0005 168.1854 ++     4162.288451  m 0.0005  3718 | 1/91
 39 h-m-p  0.0003 0.0013 143.3910 +YCCC  4160.315526  3 0.0007  3818 | 1/91
 40 h-m-p  0.0001 0.0004 125.9672 ++     4159.052507  m 0.0004  3912 | 1/91
 41 h-m-p  0.0006 0.0037  97.7693 CCC    4157.783925  2 0.0007  4010 | 1/91
 42 h-m-p  0.0008 0.0042  79.3616 CCC    4156.513247  2 0.0009  4108 | 1/91
 43 h-m-p  0.0006 0.0029  76.1313 CCCC   4155.281917  3 0.0009  4208 | 1/91
 44 h-m-p  0.0006 0.0031  65.1692 CCCC   4154.329613  3 0.0009  4308 | 1/91
 45 h-m-p  0.0005 0.0026  50.1303 YCCC   4153.520733  3 0.0011  4407 | 1/91
 46 h-m-p  0.0002 0.0009  83.8924 +CC    4152.599206  1 0.0008  4504 | 1/91
 47 h-m-p  0.0001 0.0003  53.0396 ++     4152.167889  m 0.0003  4598 | 1/91
 48 h-m-p -0.0000 -0.0000  44.9260 
h-m-p:     -1.18947090e-20     -5.94735451e-20      4.49260451e+01  4152.167889
..  | 1/91
 49 h-m-p  0.0000 0.0002 590.9838 ++CC   4140.146703  1 0.0002  4787 | 1/91
 50 h-m-p  0.0001 0.0005 347.1104 +CCYC  4120.793892  3 0.0004  4887 | 1/91
 51 h-m-p  0.0000 0.0000 1275.0468 ++     4114.421802  m 0.0000  4981 | 1/91
 52 h-m-p  0.0000 0.0001 1537.7899 +YYYCC  4105.372538  4 0.0000  5081 | 1/91
 53 h-m-p  0.0000 0.0000 931.4133 +YYCCCC  4102.355962  5 0.0000  5184 | 1/91
 54 h-m-p  0.0000 0.0000 833.8604 +YYYYYYC  4099.726292  6 0.0000  5285 | 1/91
 55 h-m-p  0.0000 0.0000 3380.8598 +CYYCC  4091.581647  4 0.0000  5386 | 1/91
 56 h-m-p  0.0000 0.0000 423.0782 +YYCCC  4090.631329  4 0.0000  5487 | 1/91
 57 h-m-p  0.0000 0.0001 613.1326 +YYYYCCCC  4086.963069  7 0.0001  5592 | 1/91
 58 h-m-p  0.0000 0.0001 250.4514 YCYCCC  4086.176196  5 0.0001  5694 | 1/91
 59 h-m-p  0.0001 0.0011 160.6841 +YCYCCC  4082.009235  5 0.0007  5797 | 1/91
 60 h-m-p  0.0002 0.0010 304.5918 YCCC   4081.004851  3 0.0001  5896 | 1/91
 61 h-m-p  0.0002 0.0009 157.4063 YCCC   4079.340755  3 0.0004  5995 | 1/91
 62 h-m-p  0.0001 0.0006 204.0991 CCCC   4078.441104  3 0.0002  6095 | 1/91
 63 h-m-p  0.0003 0.0018 116.9972 CCC    4077.582970  2 0.0004  6193 | 1/91
 64 h-m-p  0.0002 0.0008 161.5233 +YCYCC  4076.274979  4 0.0004  6294 | 1/91
 65 h-m-p  0.0002 0.0008 339.7100 CCCC   4074.835998  3 0.0003  6394 | 1/91
 66 h-m-p  0.0001 0.0003 350.4070 ++     4072.546980  m 0.0003  6488 | 2/91
 67 h-m-p  0.0002 0.0009 640.1759 +YYC   4067.839294  2 0.0005  6585 | 2/91
 68 h-m-p  0.0002 0.0008 947.6306 CCCC   4066.486222  3 0.0002  6685 | 2/91
 69 h-m-p  0.0002 0.0009 371.0231 YCCCC  4064.019469  4 0.0004  6786 | 2/91
 70 h-m-p  0.0002 0.0012 356.8152 CCC    4062.608222  2 0.0003  6884 | 2/91
 71 h-m-p  0.0004 0.0022 168.6409 CYC    4061.543560  2 0.0004  6981 | 2/91
 72 h-m-p  0.0004 0.0019 115.2344 CCC    4060.848418  2 0.0004  7079 | 2/91
 73 h-m-p  0.0003 0.0017  97.1838 YCCC   4060.565900  3 0.0002  7178 | 2/91
 74 h-m-p  0.0003 0.0017  55.8957 CYC    4060.351209  2 0.0003  7275 | 2/91
 75 h-m-p  0.0004 0.0054  46.5184 YC     4060.005295  1 0.0007  7370 | 1/91
 76 h-m-p  0.0007 0.0054  47.4902 YCCC   4059.806144  3 0.0005  7469 | 1/91
 77 h-m-p  0.0002 0.0008  51.0244 +YC    4059.597638  1 0.0005  7565 | 1/91
 78 h-m-p  0.0007 0.0044  38.1727 CC     4059.420563  1 0.0007  7661 | 1/91
 79 h-m-p  0.0005 0.0027  51.4432 CYC    4059.257108  2 0.0006  7758 | 1/91
 80 h-m-p  0.0003 0.0016  73.1673 YCC    4059.006437  2 0.0007  7855 | 1/91
 81 h-m-p  0.0002 0.0010  71.0920 +CC    4058.764616  1 0.0007  7952 | 1/91
 82 h-m-p  0.0000 0.0002 105.0893 ++     4058.575432  m 0.0002  8046 | 2/91
 83 h-m-p  0.0008 0.0109  24.6675 YCC    4058.474464  2 0.0013  8143 | 2/91
 84 h-m-p  0.0015 0.0073  21.5578 YCC    4058.268365  2 0.0011  8240 | 2/91
 85 h-m-p  0.0005 0.0049  49.7502 CCC    4058.049142  2 0.0006  8338 | 2/91
 86 h-m-p  0.0013 0.0074  23.6134 YCC    4057.905045  2 0.0010  8435 | 2/91
 87 h-m-p  0.0007 0.0070  31.9842 YC     4057.648088  1 0.0016  8530 | 2/91
 88 h-m-p  0.0007 0.0048  70.2678 CC     4057.317821  1 0.0011  8626 | 2/91
 89 h-m-p  0.0007 0.0053 105.6159 YCCC   4056.553144  3 0.0018  8725 | 2/91
 90 h-m-p  0.0005 0.0026 314.1580 YCCCC  4055.175724  4 0.0011  8826 | 2/91
 91 h-m-p  0.0006 0.0028 579.1235 CCC    4053.703206  2 0.0007  8924 | 2/91
 92 h-m-p  0.0008 0.0041 337.3650 CYC    4052.762227  2 0.0007  9021 | 2/91
 93 h-m-p  0.0005 0.0025 169.7200 CCC    4052.238664  2 0.0008  9119 | 2/91
 94 h-m-p  0.0009 0.0045  92.0634 YCC    4052.062276  2 0.0005  9216 | 2/91
 95 h-m-p  0.0014 0.0070  33.3135 YCC    4051.965352  2 0.0008  9313 | 2/91
 96 h-m-p  0.0013 0.0097  20.0016 YC     4051.911520  1 0.0008  9408 | 2/91
 97 h-m-p  0.0012 0.0222  13.6494 YC     4051.871646  1 0.0009  9503 | 2/91
 98 h-m-p  0.0010 0.0049   8.4080 CCC    4051.841749  2 0.0011  9601 | 2/91
 99 h-m-p  0.0007 0.0261  12.0208 YC     4051.790613  1 0.0012  9696 | 2/91
100 h-m-p  0.0011 0.0086  12.8244 CC     4051.704707  1 0.0016  9792 | 2/91
101 h-m-p  0.0006 0.0074  33.3988 YC     4051.498183  1 0.0014  9887 | 2/91
102 h-m-p  0.0006 0.0068  78.1456 +YCC   4050.953705  2 0.0016  9985 | 2/91
103 h-m-p  0.0008 0.0039 141.9279 CCCC   4050.189356  3 0.0012 10085 | 2/91
104 h-m-p  0.0006 0.0028 148.6970 CCC    4049.743737  2 0.0007 10183 | 2/91
105 h-m-p  0.0013 0.0083  77.0596 YCC    4049.400612  2 0.0011 10280 | 2/91
106 h-m-p  0.0015 0.0118  55.6903 YC     4049.201822  1 0.0009 10375 | 2/91
107 h-m-p  0.0021 0.0135  23.8772 CC     4049.142353  1 0.0007 10471 | 2/91
108 h-m-p  0.0017 0.0109   9.6118 YC     4049.107526  1 0.0011 10566 | 2/91
109 h-m-p  0.0011 0.0174   9.6866 CC     4049.073652  1 0.0012 10662 | 2/91
110 h-m-p  0.0009 0.0250  12.1495 YC     4049.020702  1 0.0015 10757 | 2/91
111 h-m-p  0.0010 0.0418  18.6476 CC     4048.944890  1 0.0014 10853 | 2/91
112 h-m-p  0.0008 0.0278  34.0481 +CCC   4048.563791  2 0.0037 10952 | 2/91
113 h-m-p  0.0009 0.0076 135.4145 CC     4048.029310  1 0.0013 11048 | 2/91
114 h-m-p  0.0010 0.0048 130.0288 CC     4047.657242  1 0.0010 11144 | 2/91
115 h-m-p  0.0020 0.0106  61.7556 CC     4047.514197  1 0.0008 11240 | 2/91
116 h-m-p  0.0023 0.0125  21.5322 CC     4047.476675  1 0.0007 11336 | 2/91
117 h-m-p  0.0021 0.0359   6.7410 YC     4047.462584  1 0.0010 11431 | 2/91
118 h-m-p  0.0017 0.0505   3.8769 YC     4047.455329  1 0.0010 11526 | 2/91
119 h-m-p  0.0013 0.1044   3.1328 +YC    4047.432074  1 0.0035 11622 | 2/91
120 h-m-p  0.0008 0.0527  13.7899 +YC    4047.356328  1 0.0024 11718 | 2/91
121 h-m-p  0.0010 0.0296  34.2825 +YC    4047.104069  1 0.0031 11814 | 2/91
122 h-m-p  0.0010 0.0136 107.9816 YC     4046.609828  1 0.0019 11909 | 2/91
123 h-m-p  0.0025 0.0124  59.8136 YC     4046.456257  1 0.0011 12004 | 2/91
124 h-m-p  0.0035 0.0177  16.3475 CC     4046.424377  1 0.0009 12100 | 2/91
125 h-m-p  0.0045 0.0598   3.3474 C      4046.418874  0 0.0011 12194 | 2/91
126 h-m-p  0.0019 0.0758   2.0174 CC     4046.414793  1 0.0017 12290 | 2/91
127 h-m-p  0.0024 0.1220   1.4274 +YC    4046.398568  1 0.0070 12386 | 2/91
128 h-m-p  0.0012 0.0802   8.0150 +YC    4046.344196  1 0.0039 12482 | 2/91
129 h-m-p  0.0009 0.0516  34.7629 +CC    4046.055470  1 0.0046 12579 | 2/91
130 h-m-p  0.0015 0.0115 106.4255 YCC    4045.837844  2 0.0011 12676 | 2/91
131 h-m-p  0.0047 0.0235  21.6617 CC     4045.794489  1 0.0011 12772 | 2/91
132 h-m-p  0.0085 0.1048   2.8705 YC     4045.790461  1 0.0013 12867 | 2/91
133 h-m-p  0.0040 0.3530   0.9404 YC     4045.788653  1 0.0030 12962 | 2/91
134 h-m-p  0.0021 0.3940   1.3448 YC     4045.785565  1 0.0035 13146 | 2/91
135 h-m-p  0.0010 0.3886   4.7147 ++CC   4045.712817  1 0.0225 13244 | 2/91
136 h-m-p  0.0021 0.0226  51.4165 CC     4045.623230  1 0.0025 13340 | 2/91
137 h-m-p  0.0191 0.0956   5.0933 -CC    4045.620057  1 0.0010 13437 | 2/91
138 h-m-p  0.0040 0.2202   1.3011 CC     4045.619240  1 0.0013 13533 | 2/91
139 h-m-p  0.0031 0.5990   0.5451 YC     4045.617198  1 0.0070 13628 | 2/91
140 h-m-p  0.0032 1.6046   1.5369 ++YC   4045.504427  1 0.1134 13814 | 2/91
141 h-m-p  0.0060 0.0564  29.1101 CC     4045.469268  1 0.0019 13910 | 2/91
142 h-m-p  0.4249 8.0000   0.1279 YC     4045.423582  1 0.8173 14005 | 2/91
143 h-m-p  1.0428 8.0000   0.1002 CC     4045.399988  1 0.9206 14190 | 2/91
144 h-m-p  1.0127 8.0000   0.0911 YC     4045.389371  1 0.6560 14374 | 2/91
145 h-m-p  1.6000 8.0000   0.0302 C      4045.379689  0 1.5303 14557 | 2/91
146 h-m-p  0.9151 8.0000   0.0505 CC     4045.370554  1 1.0365 14742 | 2/91
147 h-m-p  1.6000 8.0000   0.0180 CC     4045.356922  1 1.7230 14927 | 2/91
148 h-m-p  1.6000 8.0000   0.0091 C      4045.349368  0 1.5091 15110 | 2/91
149 h-m-p  1.6000 8.0000   0.0034 CC     4045.347036  1 1.3246 15295 | 2/91
150 h-m-p  1.6000 8.0000   0.0021 C      4045.346531  0 1.3229 15478 | 2/91
151 h-m-p  1.5865 8.0000   0.0018 C      4045.346355  0 1.3762 15661 | 2/91
152 h-m-p  1.6000 8.0000   0.0007 C      4045.346307  0 1.4213 15844 | 2/91
153 h-m-p  1.6000 8.0000   0.0004 C      4045.346292  0 1.5677 16027 | 2/91
154 h-m-p  1.6000 8.0000   0.0002 Y      4045.346288  0 1.1204 16210 | 2/91
155 h-m-p  1.3365 8.0000   0.0001 C      4045.346287  0 1.4254 16393 | 2/91
156 h-m-p  1.6000 8.0000   0.0001 C      4045.346287  0 1.5107 16576 | 2/91
157 h-m-p  1.6000 8.0000   0.0000 C      4045.346287  0 1.4153 16759 | 2/91
158 h-m-p  1.6000 8.0000   0.0000 C      4045.346287  0 1.3330 16942 | 2/91
159 h-m-p  1.6000 8.0000   0.0000 C      4045.346287  0 1.3599 17125 | 2/91
160 h-m-p  1.6000 8.0000   0.0000 C      4045.346287  0 1.3955 17308 | 2/91
161 h-m-p  1.6000 8.0000   0.0000 C      4045.346287  0 2.0881 17491 | 2/91
162 h-m-p  1.6000 8.0000   0.0000 --------Y  4045.346287  0 0.0000 17682
Out..
lnL  = -4045.346287
17683 lfun, 53049 eigenQcodon, 3112208 P(t)

Time used: 22:16


Model 2: PositiveSelection

TREE #  1

   1  2163.468250
   2  1846.902118
   3  1781.828011
   4  1766.884559
   5  1766.257988
   6  1766.243107
   7  1766.243023
2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

initial w for M2:NSpselection reset.

    0.089975    0.053920    0.037807    0.031498    0.080664    0.048466    0.035752    0.558490    0.570283    0.072981    0.056588    0.002669    0.054029    0.036585    0.000924    0.059321    0.037906    0.051857    0.112408    0.027454    0.100106    0.079165    0.046252    0.039721    0.002043    0.040007    0.495268    0.091940    0.171085    0.085243    0.011935    0.017990    0.089638    0.022667    0.068321    0.068425    0.091298    0.026423    0.115559    0.563888    0.109335    0.000000    0.041803    0.073586    0.077403    0.054463    0.084752    0.081507    0.015835    0.003405    0.063484    0.029126    0.017119    0.019518    0.059726    0.100172    0.085210    0.046049    0.176963    0.125686    0.008414    0.074495    0.025052    0.077440    0.046650    0.106228    0.124743    0.039349    0.087806    0.113807    0.048600    0.042833    0.083883    0.070990    0.061601    0.015237    0.040642    0.036968    0.097327    0.129021    0.090208    0.048328    0.009044    0.036926    0.063962    0.002636    0.117988    0.080282    6.583735    1.705801    0.475599    0.314706    2.938271

ntime & nrate & np:    88     3    93

Bounds (np=93):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   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  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000  99.000000  99.000000   1.000000 999.000000
Qfactor_NS = 2.417353

np =    93
lnL0 = -4501.302488

Iterating by ming2
Initial: fx=  4501.302488
x=  0.08997  0.05392  0.03781  0.03150  0.08066  0.04847  0.03575  0.55849  0.57028  0.07298  0.05659  0.00267  0.05403  0.03659  0.00092  0.05932  0.03791  0.05186  0.11241  0.02745  0.10011  0.07917  0.04625  0.03972  0.00204  0.04001  0.49527  0.09194  0.17109  0.08524  0.01194  0.01799  0.08964  0.02267  0.06832  0.06842  0.09130  0.02642  0.11556  0.56389  0.10934  0.00000  0.04180  0.07359  0.07740  0.05446  0.08475  0.08151  0.01583  0.00341  0.06348  0.02913  0.01712  0.01952  0.05973  0.10017  0.08521  0.04605  0.17696  0.12569  0.00841  0.07450  0.02505  0.07744  0.04665  0.10623  0.12474  0.03935  0.08781  0.11381  0.04860  0.04283  0.08388  0.07099  0.06160  0.01524  0.04064  0.03697  0.09733  0.12902  0.09021  0.04833  0.00904  0.03693  0.06396  0.00264  0.11799  0.08028  6.58373  1.70580  0.47560  0.31471  2.93827

  1 h-m-p  0.0000 0.0005 5049.7009 ++CYYCC  4411.372771  4 0.0001   107 | 0/93
  2 h-m-p  0.0001 0.0006 610.7806 ++     4286.186322  m 0.0006   203 | 0/93
  3 h-m-p  0.0000 0.0000 8856.9415 YCCC   4283.687423  3 0.0000   304 | 0/93
  4 h-m-p  0.0000 0.0002 616.9114 ++     4262.393129  m 0.0002   400 | 0/93
  5 h-m-p  0.0000 0.0000 5156.2344 ++     4257.919639  m 0.0000   496 | 0/93
  6 h-m-p  0.0000 0.0001 1825.9015 ++     4243.445776  m 0.0001   592 | 0/93
  7 h-m-p  0.0001 0.0007 514.2651 +YCCC  4226.340770  3 0.0004   694 | 0/93
  8 h-m-p  0.0004 0.0022 232.6802 +YYCCC  4200.977239  4 0.0015   797 | 0/93
  9 h-m-p  0.0003 0.0016 338.5284 +YCCCC  4183.905293  4 0.0010   901 | 0/93
 10 h-m-p  0.0003 0.0016 363.6299 +YYCCC  4163.340693  4 0.0011  1004 | 0/93
 11 h-m-p  0.0003 0.0015 351.3988 +YCCCC  4151.053166  4 0.0008  1108 | 0/93
 12 h-m-p  0.0002 0.0009 277.2455 +YYCCC  4144.297430  4 0.0006  1211 | 0/93
 13 h-m-p  0.0003 0.0016 316.9822 YCCC   4137.216765  3 0.0007  1312 | 0/93
 14 h-m-p  0.0001 0.0007 280.9669 +YYYYCCCC  4131.680404  7 0.0006  1419 | 0/93
 15 h-m-p  0.0001 0.0007 631.9808 YCC    4128.192945  2 0.0003  1518 | 0/93
 16 h-m-p  0.0003 0.0014 392.4286 +YCCC  4119.443692  3 0.0008  1620 | 0/93
 17 h-m-p  0.0002 0.0010 210.6774 +YCCC  4117.037854  3 0.0005  1722 | 0/93
 18 h-m-p  0.0001 0.0007 235.0703 YCCC   4115.973457  3 0.0002  1823 | 0/93
 19 h-m-p  0.0002 0.0011 113.3294 CCCC   4115.332528  3 0.0003  1925 | 0/93
 20 h-m-p  0.0007 0.0034  39.2757 CYC    4115.032135  2 0.0006  2024 | 0/93
 21 h-m-p  0.0005 0.0030  45.2859 CCC    4114.817790  2 0.0005  2124 | 0/93
 22 h-m-p  0.0007 0.0089  31.7170 CCC    4114.588314  2 0.0009  2224 | 0/93
 23 h-m-p  0.0008 0.0044  35.5343 YYC    4114.418890  2 0.0007  2322 | 0/93
 24 h-m-p  0.0005 0.0044  45.5018 YC     4114.146276  1 0.0009  2419 | 0/93
 25 h-m-p  0.0006 0.0037  66.1513 C      4113.886959  0 0.0006  2515 | 0/93
 26 h-m-p  0.0005 0.0038  81.4456 YC     4113.318263  1 0.0011  2612 | 0/93
 27 h-m-p  0.0004 0.0020 113.7887 +YC    4112.604022  1 0.0010  2710 | 0/93
 28 h-m-p  0.0001 0.0004 331.1332 ++     4111.547680  m 0.0004  2806 | 0/93
 29 h-m-p  0.0000 0.0000 204.6500 
h-m-p:      6.19313008e-21      3.09656504e-20      2.04649954e+02  4111.547680
..  | 0/93
 30 h-m-p  0.0000 0.0004 247.2963 ++CCCC  4106.586874  3 0.0002  3003 | 0/93
 31 h-m-p  0.0000 0.0002 314.1123 +YYYCC  4102.428548  4 0.0001  3105 | 0/93
 32 h-m-p  0.0000 0.0002 252.6230 +YYYCC  4099.979372  4 0.0001  3207 | 0/93
 33 h-m-p  0.0001 0.0003 587.2567 YCCCC  4096.352188  4 0.0001  3310 | 0/93
 34 h-m-p  0.0001 0.0004 370.4497 YCCCC  4093.761021  4 0.0002  3413 | 0/93
 35 h-m-p  0.0002 0.0010 349.0639 +CCCC  4081.217804  3 0.0008  3516 | 0/93
 36 h-m-p  0.0001 0.0004 606.0290 YCYCCC  4076.096276  5 0.0002  3620 | 0/93
 37 h-m-p  0.0001 0.0004 268.6675 YCCCC  4074.201000  4 0.0002  3723 | 0/93
 38 h-m-p  0.0002 0.0012  62.0049 YCYC   4073.361858  3 0.0006  3823 | 0/93
 39 h-m-p  0.0001 0.0013 269.5503 +CYC   4070.693679  2 0.0005  3923 | 0/93
 40 h-m-p  0.0001 0.0007 377.8609 +YYCCC  4067.635238  4 0.0004  4026 | 0/93
 41 h-m-p  0.0002 0.0013 691.7530 YCCC   4063.933756  3 0.0004  4127 | 0/93
 42 h-m-p  0.0001 0.0004 530.5861 +YYCCC  4060.954111  4 0.0003  4230 | 0/93
 43 h-m-p  0.0002 0.0008 253.6554 YCYCCC  4059.272813  5 0.0004  4334 | 0/93
 44 h-m-p  0.0004 0.0021 238.8698 CCCC   4056.895649  3 0.0007  4436 | 0/93
 45 h-m-p  0.0002 0.0011 220.0691 CC     4055.897823  1 0.0003  4534 | 0/93
 46 h-m-p  0.0004 0.0022 112.9627 CYC    4055.310491  2 0.0004  4633 | 0/93
 47 h-m-p  0.0003 0.0014  54.0954 CCCC   4055.095899  3 0.0004  4735 | 0/93
 48 h-m-p  0.0002 0.0011  59.0304 YC     4054.887987  1 0.0004  4832 | 0/93
 49 h-m-p  0.0002 0.0008  40.8065 +YC    4054.756699  1 0.0005  4930 | 0/93
 50 h-m-p  0.0001 0.0003  42.8088 ++     4054.638541  m 0.0003  5026 | 1/93
 51 h-m-p  0.0002 0.0022  56.8705 YC     4054.472868  1 0.0006  5123 | 1/93
 52 h-m-p  0.0004 0.0018  49.5958 YC     4054.303532  1 0.0008  5220 | 1/93
 53 h-m-p  0.0002 0.0008  62.6218 +YC    4054.148099  1 0.0006  5318 | 1/93
 54 h-m-p  0.0001 0.0003  61.7310 ++     4054.036539  m 0.0003  5414 | 2/93
 55 h-m-p  0.0002 0.0030  72.2865 YC     4053.931856  1 0.0004  5511 | 2/93
 56 h-m-p  0.0007 0.0061  37.0706 CC     4053.842023  1 0.0007  5609 | 2/93
 57 h-m-p  0.0006 0.0072  40.2870 CYC    4053.753043  2 0.0006  5708 | 2/93
 58 h-m-p  0.0006 0.0083  45.3395 YC     4053.566902  1 0.0012  5805 | 2/93
 59 h-m-p  0.0005 0.0049 121.3894 CCC    4053.316164  2 0.0006  5905 | 2/93
 60 h-m-p  0.0004 0.0025 195.5932 CCC    4052.900679  2 0.0006  6005 | 2/93
 61 h-m-p  0.0007 0.0036 173.2231 YCC    4052.583463  2 0.0006  6104 | 2/93
 62 h-m-p  0.0009 0.0046  76.6905 YCC    4052.434126  2 0.0006  6203 | 2/93
 63 h-m-p  0.0009 0.0083  55.5173 YC     4052.359800  1 0.0005  6300 | 2/93
 64 h-m-p  0.0006 0.0070  46.5713 CCC    4052.279253  2 0.0006  6400 | 2/93
 65 h-m-p  0.0010 0.0086  28.1775 YC     4052.232946  1 0.0006  6497 | 2/93
 66 h-m-p  0.0004 0.0054  41.9924 YC     4052.146532  1 0.0007  6594 | 2/93
 67 h-m-p  0.0004 0.0051  68.8985 CCC    4052.013270  2 0.0007  6694 | 2/93
 68 h-m-p  0.0005 0.0053  85.3815 YC     4051.718091  1 0.0012  6791 | 2/93
 69 h-m-p  0.0008 0.0064 129.9372 CCC    4051.379278  2 0.0009  6891 | 2/93
 70 h-m-p  0.0003 0.0017 120.1931 YCCC   4051.118798  3 0.0008  6992 | 2/93
 71 h-m-p  0.0008 0.0053 117.7901 YCC    4051.007247  2 0.0004  7091 | 2/93
 72 h-m-p  0.0005 0.0023  51.1343 C      4050.944561  0 0.0005  7187 | 2/93
 73 h-m-p  0.0010 0.0102  23.9475 YC     4050.901403  1 0.0008  7284 | 2/93
 74 h-m-p  0.0009 0.0153  20.5169 CC     4050.855482  1 0.0010  7382 | 2/93
 75 h-m-p  0.0010 0.0275  20.5165 CC     4050.787685  1 0.0016  7480 | 2/93
 76 h-m-p  0.0010 0.0069  30.7764 YC     4050.638219  1 0.0023  7577 | 2/93
 77 h-m-p  0.0007 0.0119  94.8914 YC     4050.301596  1 0.0018  7674 | 2/93
 78 h-m-p  0.0014 0.0077 119.3789 YCC    4050.069047  2 0.0009  7773 | 2/93
 79 h-m-p  0.0018 0.0130  62.8160 YC     4049.945085  1 0.0010  7870 | 2/93
 80 h-m-p  0.0013 0.0079  48.9954 YC     4049.867318  1 0.0008  7967 | 2/93
 81 h-m-p  0.0015 0.0264  25.9447 CC     4049.804498  1 0.0013  8065 | 2/93
 82 h-m-p  0.0011 0.0267  31.1990 C      4049.743963  0 0.0011  8161 | 2/93
 83 h-m-p  0.0016 0.0146  20.6832 YCC    4049.701325  2 0.0012  8260 | 2/93
 84 h-m-p  0.0010 0.0179  24.3096 YC     4049.631959  1 0.0017  8357 | 2/93
 85 h-m-p  0.0012 0.0189  33.1421 CC     4049.543536  1 0.0016  8455 | 2/93
 86 h-m-p  0.0010 0.0216  50.7152 YC     4049.323297  1 0.0025  8552 | 2/93
 87 h-m-p  0.0011 0.0107 116.3056 YCC    4048.871362  2 0.0022  8651 | 2/93
 88 h-m-p  0.0011 0.0056 183.5848 YC     4048.638311  1 0.0007  8748 | 2/93
 89 h-m-p  0.0022 0.0125  63.5402 YC     4048.499480  1 0.0013  8845 | 2/93
 90 h-m-p  0.0051 0.0388  16.0406 YC     4048.477361  1 0.0008  8942 | 2/93
 91 h-m-p  0.0019 0.0326   7.2605 C      4048.456447  0 0.0018  9038 | 2/93
 92 h-m-p  0.0008 0.0608  16.8004 +YC    4048.390660  1 0.0025  9136 | 2/93
 93 h-m-p  0.0011 0.0265  37.5927 +CC    4048.126813  1 0.0045  9235 | 2/93
 94 h-m-p  0.0007 0.0083 242.6294 YCCC   4047.594344  3 0.0014  9336 | 2/93
 95 h-m-p  0.0022 0.0108 113.6330 YCC    4047.388509  2 0.0012  9435 | 2/93
 96 h-m-p  0.0019 0.0159  68.6167 CC     4047.322587  1 0.0006  9533 | 2/93
 97 h-m-p  0.0046 0.0312   9.5128 YC     4047.312374  1 0.0008  9630 | 2/93
 98 h-m-p  0.0023 0.1505   3.1864 YC     4047.306725  1 0.0016  9727 | 2/93
 99 h-m-p  0.0018 0.1257   2.8308 CC     4047.302028  1 0.0015  9825 | 2/93
100 h-m-p  0.0007 0.0637   6.3018 +CC    4047.281063  1 0.0030  9924 | 2/93
101 h-m-p  0.0007 0.0539  27.8736 +YC    4047.129394  1 0.0047 10022 | 2/93
102 h-m-p  0.0012 0.0177 111.8371 CC     4046.936531  1 0.0015 10120 | 2/93
103 h-m-p  0.0009 0.0180 197.0283 YC     4046.576347  1 0.0016 10217 | 2/93
104 h-m-p  0.0019 0.0095  78.8712 CC     4046.516276  1 0.0007 10315 | 2/93
105 h-m-p  0.0024 0.0349  21.8162 YC     4046.491516  1 0.0010 10412 | 2/93
106 h-m-p  0.0040 0.0582   5.7780 CC     4046.487049  1 0.0008 10510 | 2/93
107 h-m-p  0.0027 0.2041   1.7354 CC     4046.481598  1 0.0041 10608 | 2/93
108 h-m-p  0.0012 0.1129   5.8148 YC     4046.470206  1 0.0027 10705 | 2/93
109 h-m-p  0.0011 0.0577  14.0979 +CC    4046.403114  1 0.0065 10804 | 2/93
110 h-m-p  0.0009 0.0216  98.7339 YC     4046.288202  1 0.0016 10901 | 2/93
111 h-m-p  0.0016 0.0192  99.6527 CCC    4046.165609  2 0.0017 11001 | 2/93
112 h-m-p  0.0051 0.0253  19.8809 YC     4046.153864  1 0.0008 11098 | 2/93
113 h-m-p  0.0032 0.1188   5.1470 YC     4046.148259  1 0.0017 11195 | 2/93
114 h-m-p  0.0056 0.2147   1.5650 YC     4046.146146  1 0.0026 11292 | 2/93
115 h-m-p  0.0012 0.5838   5.1580 +++YC  4046.011718  1 0.0527 11392 | 2/93
116 h-m-p  0.0015 0.0146 179.0173 CC     4045.886833  1 0.0014 11490 | 2/93
117 h-m-p  0.0041 0.0367  61.5116 CC     4045.851425  1 0.0012 11588 | 2/93
118 h-m-p  0.0052 0.0262   9.5061 YC     4045.847866  1 0.0008 11685 | 2/93
119 h-m-p  0.0061 0.4012   1.2641 YC     4045.846083  1 0.0042 11782 | 2/93
120 h-m-p  0.0035 1.7691   1.6301 +++YC  4045.659813  1 0.3774 11882 | 2/93
121 h-m-p  0.0099 0.0494  28.5948 YC     4045.646532  1 0.0015 11979 | 2/93
122 h-m-p  0.0681 8.0000   0.6332 ++YC   4045.551761  1 0.7155 12078 | 2/93
123 h-m-p  1.4242 8.0000   0.3181 CCC    4045.510078  2 1.1913 12269 | 2/93
124 h-m-p  1.1705 8.0000   0.3238 YC     4045.492566  1 0.8226 12457 | 2/93
125 h-m-p  0.9287 8.0000   0.2868 +YC    4045.450318  1 2.9524 12646 | 2/93
126 h-m-p  1.6000 8.0000   0.4882 CCC    4045.394637  2 2.2279 12837 | 2/93
127 h-m-p  1.2410 8.0000   0.8764 YC     4045.372363  1 0.7455 13025 | 2/93
128 h-m-p  1.2565 8.0000   0.5200 C      4045.362022  0 1.3918 13212 | 2/93
129 h-m-p  1.4373 8.0000   0.5035 C      4045.356452  0 1.4373 13399 | 2/93
130 h-m-p  0.8722 8.0000   0.8298 CC     4045.352063  1 1.0279 13588 | 2/93
131 h-m-p  1.3957 8.0000   0.6111 CC     4045.349037  1 1.8308 13777 | 2/93
132 h-m-p  1.6000 8.0000   0.5765 CY     4045.347558  1 2.0233 13966 | 2/93
133 h-m-p  1.6000 8.0000   0.6051 C      4045.346904  0 1.8084 14153 | 2/93
134 h-m-p  1.6000 8.0000   0.6018 C      4045.346645  0 1.2963 14340 | 2/93
135 h-m-p  1.1743 8.0000   0.6643 C      4045.346522  0 0.9524 14527 | 2/93
136 h-m-p  0.9351 8.0000   0.6766 Y      4045.346408  0 1.6165 14714 | 2/93
137 h-m-p  1.6000 8.0000   0.6417 C      4045.346340  0 1.7798 14901 | 2/93
138 h-m-p  1.6000 8.0000   0.5534 C      4045.346313  0 1.8836 15088 | 2/93
139 h-m-p  1.6000 8.0000   0.5404 C      4045.346299  0 2.3502 15275 | 2/93
140 h-m-p  1.6000 8.0000   0.5706 C      4045.346292  0 2.0642 15462 | 2/93
141 h-m-p  1.6000 8.0000   0.5400 C      4045.346289  0 2.1426 15649 | 2/93
142 h-m-p  1.6000 8.0000   0.5735 C      4045.346288  0 2.2728 15836 | 2/93
143 h-m-p  1.6000 8.0000   0.5703 C      4045.346287  0 1.9682 16023 | 2/93
144 h-m-p  1.5372 8.0000   0.7302 Y      4045.346287  0 2.5685 16210 | 2/93
145 h-m-p  1.6000 8.0000   0.6212 C      4045.346287  0 1.5292 16397 | 2/93
146 h-m-p  0.8298 8.0000   1.1447 Y      4045.346287  0 1.9428 16584 | 2/93
147 h-m-p  1.0019 8.0000   2.2199 Y      4045.346287  0 0.1910 16680 | 2/93
148 h-m-p  0.0557 3.9928   7.6129 --------------..  | 2/93
149 h-m-p  0.0032 1.6070   0.0151 --C    4045.346287  0 0.0000 16886 | 2/93
150 h-m-p  0.0049 2.4475   0.0134 --C    4045.346287  0 0.0001 17075 | 2/93
151 h-m-p  0.0061 3.0602   0.0101 --Y    4045.346287  0 0.0001 17264 | 2/93
152 h-m-p  0.0079 3.9506   0.0058 --C    4045.346287  0 0.0002 17453 | 2/93
153 h-m-p  0.0160 8.0000   0.0031 --C    4045.346287  0 0.0003 17642 | 2/93
154 h-m-p  0.0160 8.0000   0.0031 --C    4045.346287  0 0.0002 17831 | 2/93
155 h-m-p  0.0160 8.0000   0.0041 --Y    4045.346287  0 0.0003 18020 | 2/93
156 h-m-p  0.0160 8.0000   0.0023 --C    4045.346287  0 0.0002 18209 | 2/93
157 h-m-p  0.0160 8.0000   0.0012 ----Y  4045.346287  0 0.0000 18400 | 2/93
158 h-m-p  0.0160 8.0000   0.0010 ---------C  4045.346287  0 0.0000 18596
Out..
lnL  = -4045.346287
18597 lfun, 74388 eigenQcodon, 4909608 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 probability of data.
	log(fX) = -4062.518562  S = -3941.160833  -114.072674
Calculating f(w|X), posterior probabilities of site classes.

	did  10 / 126 patterns  45:09
	did  20 / 126 patterns  45:09
	did  30 / 126 patterns  45:09
	did  40 / 126 patterns  45:09
	did  50 / 126 patterns  45:09
	did  60 / 126 patterns  45:09
	did  70 / 126 patterns  45:09
	did  80 / 126 patterns  45:09
	did  90 / 126 patterns  45:09
	did 100 / 126 patterns  45:09
	did 110 / 126 patterns  45:09
	did 120 / 126 patterns  45:09
	did 126 / 126 patterns  45:09
Time used: 45:10


Model 3: discrete

TREE #  1

   1  3857.069899
   2  3518.271051
   3  3486.828439
   4  3484.484850
   5  3484.352947
   6  3484.345519
   7  3484.345101
2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

    0.078116    0.075324    0.064520    0.043286    0.040993    0.049096    0.030419    0.273868    0.260506    0.104406    0.043147    0.021115    0.095714    0.040266    0.066989    0.072952    0.052116    0.013343    0.076956    0.022057    0.124897    0.087240    0.044832    0.029519    0.017565    0.033389    0.231685    0.090610    0.100267    0.030528    0.011893    0.042439    0.068131    0.000000    0.034346    0.051985    0.074753    0.020583    0.084552    0.256226    0.077008    0.068508    0.083276    0.034385    0.066207    0.041372    0.102619    0.089296    0.070058    0.059961    0.083487    0.076778    0.039775    0.066388    0.077411    0.043979    0.112298    0.072404    0.088094    0.062704    0.021911    0.081780    0.072220    0.048607    0.019897    0.029340    0.041181    0.060052    0.079874    0.075300    0.055515    0.063554    0.086670    0.056583    0.077534    0.011774    0.081897    0.074615    0.101508    0.085573    0.106488    0.052268    0.062292    0.034926    0.060107    0.058625    0.095199    0.100376    6.583723    0.793390    0.636189    0.040319    0.085750    0.168498

ntime & nrate & np:    88     4    94

Bounds (np=94):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   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   0.000001   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  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  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 999.000000 999.000000 999.000000
Qfactor_NS = 5.463140

np =    94
lnL0 = -4493.391465

Iterating by ming2
Initial: fx=  4493.391465
x=  0.07812  0.07532  0.06452  0.04329  0.04099  0.04910  0.03042  0.27387  0.26051  0.10441  0.04315  0.02112  0.09571  0.04027  0.06699  0.07295  0.05212  0.01334  0.07696  0.02206  0.12490  0.08724  0.04483  0.02952  0.01757  0.03339  0.23169  0.09061  0.10027  0.03053  0.01189  0.04244  0.06813  0.00000  0.03435  0.05198  0.07475  0.02058  0.08455  0.25623  0.07701  0.06851  0.08328  0.03439  0.06621  0.04137  0.10262  0.08930  0.07006  0.05996  0.08349  0.07678  0.03978  0.06639  0.07741  0.04398  0.11230  0.07240  0.08809  0.06270  0.02191  0.08178  0.07222  0.04861  0.01990  0.02934  0.04118  0.06005  0.07987  0.07530  0.05552  0.06355  0.08667  0.05658  0.07753  0.01177  0.08190  0.07462  0.10151  0.08557  0.10649  0.05227  0.06229  0.03493  0.06011  0.05862  0.09520  0.10038  6.58372  0.79339  0.63619  0.04032  0.08575  0.16850

  1 h-m-p  0.0000 0.0004 2400.3984 +++    4312.492665  m 0.0004   100 | 0/94
  2 h-m-p  0.0000 0.0001 2944.1744 YYYYC  4305.573809  4 0.0000   201 | 0/94
  3 h-m-p  0.0001 0.0003 455.7937 ++     4269.027973  m 0.0003   298 | 0/94
  4 h-m-p  0.0000 0.0000 17391.5028 +YCYCCC  4264.638805  5 0.0000   404 | 0/94
  5 h-m-p  0.0000 0.0000 4672.2613 +CYCCC  4258.752164  4 0.0000   509 | 0/94
  6 h-m-p  0.0000 0.0000 1383.6783 ++     4251.668647  m 0.0000   606 | 0/94
  7 h-m-p  0.0000 0.0000 2002.7617 ++     4242.184213  m 0.0000   703 | 0/94
  8 h-m-p  0.0000 0.0000 1875.3050 
h-m-p:      1.17844026e-21      5.89220129e-21      1.87530503e+03  4242.184213
..  | 0/94
  9 h-m-p  0.0000 0.0002 621.8234 ++YCCCC  4232.669740  4 0.0001   903 | 0/94
 10 h-m-p  0.0000 0.0001 313.4583 ++     4228.213864  m 0.0001  1000 | 1/94
 11 h-m-p  0.0000 0.0001 807.0757 ++     4213.089890  m 0.0001  1097 | 1/94
 12 h-m-p  0.0000 0.0000 1813.6638 ++     4207.460433  m 0.0000  1194 | 1/94
 13 h-m-p  0.0000 0.0000 6788.4354 +YYYCCC  4186.481774  5 0.0000  1299 | 1/94
 14 h-m-p  0.0001 0.0005 947.5201 +YYYCCC  4158.353811  5 0.0004  1404 | 1/94
 15 h-m-p  0.0001 0.0007 1163.4825 +CYCCC  4108.856772  4 0.0006  1509 | 1/94
 16 h-m-p  0.0001 0.0006 535.8160 +YYCCC  4095.596032  4 0.0004  1613 | 0/94
 17 h-m-p  0.0000 0.0002 575.0959 +YYYCC  4088.667783  4 0.0002  1716 | 0/94
 18 h-m-p  0.0001 0.0004 161.6494 +CYCC  4086.209772  3 0.0003  1819 | 0/94
 19 h-m-p  0.0000 0.0002 473.2193 +YYCC  4084.127575  3 0.0001  1921 | 0/94
 20 h-m-p  0.0001 0.0003 406.7901 +YCCCC  4081.540858  4 0.0002  2026 | 0/94
 21 h-m-p  0.0001 0.0004 272.8700 +YCCC  4079.816944  3 0.0002  2129 | 0/94
 22 h-m-p  0.0001 0.0003 192.1726 +YYCCC  4078.666253  4 0.0002  2233 | 0/94
 23 h-m-p  0.0000 0.0002 161.6220 YCCC   4078.348922  3 0.0001  2335 | 0/94
 24 h-m-p  0.0001 0.0019 167.4800 +CCCC  4076.375868  3 0.0006  2439 | 0/94
 25 h-m-p  0.0001 0.0006 201.5360 YCCC   4075.394146  3 0.0003  2541 | 0/94
 26 h-m-p  0.0003 0.0015 147.8628 YCCCC  4073.694164  4 0.0007  2645 | 0/94
 27 h-m-p  0.0002 0.0012 363.8950 YCYCCC  4070.717940  5 0.0005  2750 | 0/94
 28 h-m-p  0.0001 0.0003 411.6219 YCCCC  4069.622103  4 0.0002  2854 | 0/94
 29 h-m-p  0.0002 0.0010 157.8286 CCC    4069.254712  2 0.0002  2955 | 0/94
 30 h-m-p  0.0006 0.0028  44.9961 CYC    4068.996325  2 0.0005  3055 | 0/94
 31 h-m-p  0.0006 0.0030  40.7845 YYC    4068.830045  2 0.0005  3154 | 0/94
 32 h-m-p  0.0002 0.0010  75.9196 +CC    4068.391410  1 0.0008  3254 | 0/94
 33 h-m-p  0.0000 0.0001 152.1987 ++     4068.195975  m 0.0001  3351 | 1/94
 34 h-m-p  0.0001 0.0049 104.1719 +CCC   4067.868655  2 0.0005  3453 | 1/94
 35 h-m-p  0.0004 0.0022  42.1886 CCC    4067.710078  2 0.0006  3554 | 1/94
 36 h-m-p  0.0007 0.0037  33.2987 YCC    4067.602348  2 0.0005  3654 | 1/94
 37 h-m-p  0.0005 0.0069  37.9220 CCC    4067.463948  2 0.0006  3755 | 1/94
 38 h-m-p  0.0006 0.0055  39.6925 CC     4067.271527  1 0.0008  3854 | 1/94
 39 h-m-p  0.0005 0.0077  67.5863 +CCC   4066.463716  2 0.0019  3956 | 1/94
 40 h-m-p  0.0006 0.0036 215.5513 CCC    4065.626870  2 0.0006  4057 | 1/94
 41 h-m-p  0.0004 0.0019 249.0339 YCCC   4064.288185  3 0.0008  4159 | 1/94
 42 h-m-p  0.0003 0.0013 338.2459 YC     4062.858451  1 0.0007  4257 | 1/94
 43 h-m-p  0.0006 0.0028 287.4258 CCC    4061.538129  2 0.0007  4358 | 1/94
 44 h-m-p  0.0004 0.0018 295.1005 YCCC   4060.403335  3 0.0006  4460 | 1/94
 45 h-m-p  0.0008 0.0041 114.2676 CCY    4059.829561  2 0.0008  4561 | 1/94
 46 h-m-p  0.0007 0.0035  91.3222 CCC    4059.529130  2 0.0006  4662 | 1/94
 47 h-m-p  0.0004 0.0022  70.7148 CYC    4059.371657  2 0.0004  4762 | 1/94
 48 h-m-p  0.0011 0.0093  25.1807 YC     4059.293225  1 0.0007  4860 | 1/94
 49 h-m-p  0.0008 0.0152  21.7016 CC     4059.216729  1 0.0008  4959 | 1/94
 50 h-m-p  0.0007 0.0093  25.1852 CCC    4059.117813  2 0.0009  5060 | 1/94
 51 h-m-p  0.0005 0.0165  43.4070 +CCC   4058.756846  2 0.0021  5162 | 1/94
 52 h-m-p  0.0007 0.0046 124.8434 CCC    4058.201363  2 0.0011  5263 | 1/94
 53 h-m-p  0.0007 0.0048 182.5354 CCC    4057.389002  2 0.0011  5364 | 1/94
 54 h-m-p  0.0006 0.0029 313.0625 CCC    4056.426218  2 0.0008  5465 | 1/94
 55 h-m-p  0.0014 0.0072 144.4943 YCC    4055.892689  2 0.0009  5565 | 1/94
 56 h-m-p  0.0013 0.0065  96.5497 YC     4055.603689  1 0.0007  5663 | 1/94
 57 h-m-p  0.0014 0.0069  52.4244 YCC    4055.444995  2 0.0007  5763 | 1/94
 58 h-m-p  0.0013 0.0142  29.0550 CC     4055.309722  1 0.0011  5862 | 1/94
 59 h-m-p  0.0011 0.0079  30.0138 CC     4055.167990  1 0.0011  5961 | 1/94
 60 h-m-p  0.0007 0.0040  44.6144 CC     4054.965996  1 0.0010  6060 | 1/94
 61 h-m-p  0.0005 0.0027  50.4946 YC     4054.660871  1 0.0013  6158 | 1/94
 62 h-m-p  0.0003 0.0016  55.4291 ++     4054.286475  m 0.0016  6255 | 2/94
 63 h-m-p  0.0011 0.0060  69.9622 YC     4054.075352  1 0.0007  6353 | 2/94
 64 h-m-p  0.0018 0.0166  26.9177 CC     4053.791067  1 0.0020  6452 | 2/94
 65 h-m-p  0.0011 0.0174  51.9893 YC     4053.146428  1 0.0022  6550 | 2/94
 66 h-m-p  0.0007 0.0036 147.7825 +YCCCC  4051.304053  4 0.0021  6655 | 2/94
 67 h-m-p  0.0009 0.0046 274.7463 YCCC   4048.655040  3 0.0017  6757 | 2/94
 68 h-m-p  0.0008 0.0040 202.0468 CCCC   4047.587930  3 0.0009  6860 | 2/94
 69 h-m-p  0.0007 0.0034 176.0959 YCCC   4046.045004  3 0.0014  6962 | 2/94
 70 h-m-p  0.0012 0.0062 158.4217 CCC    4044.807001  2 0.0013  7063 | 2/94
 71 h-m-p  0.0008 0.0038 123.6101 CYC    4044.245733  2 0.0007  7163 | 2/94
 72 h-m-p  0.0008 0.0042  62.6809 YCC    4043.999715  2 0.0007  7263 | 2/94
 73 h-m-p  0.0008 0.0040  33.7252 CCC    4043.886351  2 0.0006  7364 | 2/94
 74 h-m-p  0.0011 0.0322  18.6156 +YCC   4043.539962  2 0.0036  7465 | 2/94
 75 h-m-p  0.0011 0.0095  62.7802 +CCC   4042.093231  2 0.0044  7567 | 2/94
 76 h-m-p  0.0008 0.0050 340.6835 CCC    4040.233156  2 0.0011  7668 | 2/94
 77 h-m-p  0.0004 0.0022 351.5009 YCCC   4038.254402  3 0.0011  7770 | 2/94
 78 h-m-p  0.0010 0.0050 192.0622 CC     4037.390661  1 0.0009  7869 | 2/94
 79 h-m-p  0.0012 0.0060  26.4502 YCC    4037.271317  2 0.0009  7969 | 1/94
 80 h-m-p  0.0017 0.0200  14.1983 CCC    4037.125068  2 0.0017  8070 | 1/94
 81 h-m-p  0.0018 0.0219  12.7287 CC     4036.959963  1 0.0023  8169 | 1/94
 82 h-m-p  0.0009 0.0138  31.7311 +YYC   4036.459818  2 0.0030  8269 | 1/94
 83 h-m-p  0.0008 0.0056 114.2876 YCCC   4035.500001  3 0.0016  8371 | 1/94
 84 h-m-p  0.0005 0.0024 196.4828 +YCC   4033.945040  2 0.0016  8472 | 1/94
 85 h-m-p  0.0004 0.0019  78.0730 +YC    4033.554100  1 0.0010  8571 | 1/94
 86 h-m-p  0.0017 0.0083  11.7417 YCC    4033.495436  2 0.0011  8671 | 1/94
 87 h-m-p  0.0015 0.0151   8.7893 YC     4033.458110  1 0.0009  8769 | 1/94
 88 h-m-p  0.0016 0.0280   5.1515 YC     4033.351228  1 0.0032  8867 | 1/94
 89 h-m-p  0.0018 0.0159   9.4691 +YCCC  4032.279863  3 0.0106  8970 | 1/94
 90 h-m-p  0.0002 0.0009 105.1713 ++     4030.712816  m 0.0009  9067 | 1/94
 91 h-m-p  0.0004 0.0018 113.9729 +CCC   4029.091297  2 0.0014  9169 | 1/94
 92 h-m-p  0.0009 0.0043  59.7107 CYC    4028.678696  2 0.0008  9269 | 1/94
 93 h-m-p  0.0022 0.0161  23.0564 YC     4028.551495  1 0.0009  9367 | 1/94
 94 h-m-p  0.0027 0.0165   8.1633 CC     4028.526418  1 0.0009  9466 | 1/94
 95 h-m-p  0.0026 0.0236   2.7892 CC     4028.504141  1 0.0029  9565 | 1/94
 96 h-m-p  0.0017 0.1102   4.8755 ++YYC  4028.065434  2 0.0240  9666 | 1/94
 97 h-m-p  0.0007 0.0033 121.5641 +YC    4026.766595  1 0.0029  9765 | 1/94
 98 h-m-p  0.0002 0.0010 133.8745 ++     4026.204218  m 0.0010  9862 | 1/94
 99 h-m-p  0.0037 0.0185  21.3994 CC     4026.113449  1 0.0014  9961 | 1/94
100 h-m-p  0.0068 0.0921   4.2916 CC     4026.092020  1 0.0024 10060 | 1/94
101 h-m-p  0.0040 0.0882   2.5581 +CCC   4025.912094  2 0.0238 10162 | 1/94
102 h-m-p  0.0017 0.0085  30.5840 ++     4025.028350  m 0.0085 10259 | 1/94
103 h-m-p  0.0040 0.0198  35.1511 YC     4024.858631  1 0.0017 10357 | 1/94
104 h-m-p  0.0175 0.0873   1.6321 ++     4024.339581  m 0.0873 10454 | 1/94
105 h-m-p  0.0020 0.0121  70.3144 YYC    4024.089305  2 0.0016 10553 | 1/94
106 h-m-p  0.0133 0.0663   0.9855 ++     4023.815548  m 0.0663 10650 | 2/94
107 h-m-p  0.0378 2.4130   1.7269 ++YYYC  4021.620500  3 0.5710 10845 | 2/94
108 h-m-p  0.4806 2.4030   1.1251 CCC    4019.897342  2 0.7069 10946 | 2/94
109 h-m-p  0.5541 2.7704   0.9003 YCC    4018.374796  2 0.9060 11046 | 2/94
110 h-m-p  0.2592 1.2959   1.0514 YCCC   4016.954940  3 0.6201 11240 | 1/94
111 h-m-p  0.0523 0.2617   5.5063 -C     4016.937084  0 0.0032 11338 | 1/94
112 h-m-p  0.0101 0.5339   1.7590 +++    4015.371222  m 0.5339 11436 | 2/94
113 h-m-p  0.4223 2.1117   0.7461 CCC    4014.673892  2 0.5458 11537 | 2/94
114 h-m-p  0.3659 1.8297   0.7898 CCCC   4014.302335  3 0.6013 11732 | 2/94
115 h-m-p  0.8131 4.0657   0.2164 CCC    4013.983693  2 0.8893 11925 | 2/94
116 h-m-p  0.9494 8.0000   0.2027 CCC    4013.758615  2 1.1477 12118 | 2/94
117 h-m-p  1.1791 8.0000   0.1973 YC     4013.662444  1 0.6813 12308 | 2/94
118 h-m-p  0.6255 4.6779   0.2149 CYC    4013.583615  2 0.5948 12500 | 2/94
119 h-m-p  1.6000 8.0000   0.0676 YCC    4013.530274  2 1.2206 12692 | 2/94
120 h-m-p  1.6000 8.0000   0.0408 CC     4013.497116  1 1.4088 12883 | 2/94
121 h-m-p  0.9241 8.0000   0.0622 CC     4013.470817  1 1.1826 13074 | 2/94
122 h-m-p  1.6000 8.0000   0.0380 C      4013.453423  0 1.6784 13263 | 2/94
123 h-m-p  1.6000 8.0000   0.0265 CC     4013.438921  1 2.0753 13454 | 2/94
124 h-m-p  1.0256 8.0000   0.0537 +YC    4013.409785  1 2.8216 13645 | 2/94
125 h-m-p  1.6000 8.0000   0.0717 YC     4013.358847  1 2.5268 13835 | 2/94
126 h-m-p  1.4015 8.0000   0.1293 CC     4013.326628  1 1.3948 14026 | 2/94
127 h-m-p  1.6000 8.0000   0.0596 YC     4013.309873  1 1.2610 14216 | 2/94
128 h-m-p  1.1516 8.0000   0.0653 CC     4013.302794  1 1.3259 14407 | 2/94
129 h-m-p  1.6000 8.0000   0.0207 C      4013.299255  0 1.5604 14596 | 2/94
130 h-m-p  1.3469 8.0000   0.0240 C      4013.297458  0 1.3469 14785 | 2/94
131 h-m-p  1.6000 8.0000   0.0115 C      4013.296664  0 1.5704 14974 | 2/94
132 h-m-p  1.6000 8.0000   0.0064 C      4013.296437  0 1.5194 15163 | 2/94
133 h-m-p  1.6000 8.0000   0.0031 C      4013.296334  0 1.6771 15352 | 2/94
134 h-m-p  1.6000 8.0000   0.0024 C      4013.296258  0 2.1798 15541 | 2/94
135 h-m-p  1.5337 8.0000   0.0034 C      4013.296191  0 1.7647 15730 | 2/94
136 h-m-p  1.6000 8.0000   0.0012 C      4013.296155  0 1.8421 15919 | 2/94
137 h-m-p  1.6000 8.0000   0.0007 Y      4013.296120  0 2.7214 16108 | 2/94
138 h-m-p  1.1912 8.0000   0.0015 Y      4013.296078  0 2.6223 16297 | 2/94
139 h-m-p  1.6000 8.0000   0.0014 C      4013.296050  0 2.1277 16486 | 2/94
140 h-m-p  1.6000 8.0000   0.0006 C      4013.296035  0 2.1966 16675 | 2/94
141 h-m-p  1.6000 8.0000   0.0007 C      4013.296029  0 1.7678 16864 | 2/94
142 h-m-p  1.6000 8.0000   0.0003 C      4013.296027  0 2.0919 17053 | 2/94
143 h-m-p  1.6000 8.0000   0.0002 C      4013.296026  0 2.0901 17242 | 2/94
144 h-m-p  1.6000 8.0000   0.0001 C      4013.296025  0 1.6552 17431 | 2/94
145 h-m-p  1.6000 8.0000   0.0001 C      4013.296025  0 1.4119 17620 | 2/94
146 h-m-p  1.6000 8.0000   0.0000 C      4013.296025  0 1.6000 17809 | 2/94
147 h-m-p  1.6000 8.0000   0.0000 Y      4013.296025  0 1.6000 17998 | 2/94
148 h-m-p  1.6000 8.0000   0.0000 -------C  4013.296025  0 0.0000 18194
Out..
lnL  = -4013.296025
18195 lfun, 72780 eigenQcodon, 4803480 P(t)

Time used: 1:07:39


Model 7: beta

TREE #  1

   1  3208.169309
   2  3179.673191
   3  3178.080142
   4  3177.920723
   5  3177.870285
   6  3177.869611
2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

    0.055806    0.091509    0.064593    0.031202    0.072461    0.061477    0.019351    0.313980    0.318336    0.052742    0.043267    0.045537    0.079445    0.033601    0.035654    0.070930    0.067327    0.027782    0.098139    0.091243    0.104799    0.038928    0.022051    0.046549    0.040724    0.078083    0.279303    0.080837    0.125426    0.069086    0.000000    0.013811    0.090298    0.037313    0.102265    0.031101    0.097979    0.022597    0.064826    0.272571    0.108409    0.036865    0.055316    0.071295    0.047430    0.048686    0.095543    0.047706    0.027705    0.060062    0.030193    0.029982    0.021020    0.072834    0.061101    0.104102    0.108135    0.077875    0.135377    0.096355    0.046337    0.046568    0.076869    0.055216    0.072061    0.092293    0.102571    0.055031    0.057844    0.071301    0.072187    0.066096    0.049744    0.068930    0.056934    0.073054    0.080945    0.045900    0.044304    0.057851    0.114675    0.055693    0.040125    0.009427    0.039422    0.020084    0.098010    0.087255    6.819099    0.319687    1.645245

ntime & nrate & np:    88     1    91

Bounds (np=91):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   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  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000  99.000000  99.000000
Qfactor_NS = 4.653560

np =    91
lnL0 = -4419.269126

Iterating by ming2
Initial: fx=  4419.269126
x=  0.05581  0.09151  0.06459  0.03120  0.07246  0.06148  0.01935  0.31398  0.31834  0.05274  0.04327  0.04554  0.07945  0.03360  0.03565  0.07093  0.06733  0.02778  0.09814  0.09124  0.10480  0.03893  0.02205  0.04655  0.04072  0.07808  0.27930  0.08084  0.12543  0.06909  0.00000  0.01381  0.09030  0.03731  0.10227  0.03110  0.09798  0.02260  0.06483  0.27257  0.10841  0.03687  0.05532  0.07130  0.04743  0.04869  0.09554  0.04771  0.02770  0.06006  0.03019  0.02998  0.02102  0.07283  0.06110  0.10410  0.10813  0.07788  0.13538  0.09636  0.04634  0.04657  0.07687  0.05522  0.07206  0.09229  0.10257  0.05503  0.05784  0.07130  0.07219  0.06610  0.04974  0.06893  0.05693  0.07305  0.08094  0.04590  0.04430  0.05785  0.11468  0.05569  0.04012  0.00943  0.03942  0.02008  0.09801  0.08726  6.81910  0.31969  1.64525

  1 h-m-p  0.0000 0.0003 1584.1229 +++    4290.649340  m 0.0003    97 | 0/91
  2 h-m-p  0.0000 0.0002 1126.9089 ++     4265.758426  m 0.0002   191 | 0/91
  3 h-m-p  0.0000 0.0001 1217.7313 +YYYYC  4258.130514  4 0.0001   290 | 0/91
  4 h-m-p  0.0000 0.0002 580.2631 ++     4245.956482  m 0.0002   384 | 0/91
  5 h-m-p  0.0000 0.0001 1872.6610 +YCCCC  4240.568151  4 0.0000   486 | 0/91
  6 h-m-p  0.0000 0.0001 1036.7283 ++     4230.533973  m 0.0001   580 | 1/91
  7 h-m-p  0.0001 0.0005 771.3940 ++     4195.609827  m 0.0005   674 | 1/91
  8 h-m-p  0.0000 0.0002 1329.6620 ++     4170.248253  m 0.0002   768 | 0/91
  9 h-m-p  0.0000 0.0000 2955.7951 +YYYYYYC  4160.778363  6 0.0000   869 | 0/91
 10 h-m-p  0.0000 0.0000 7325.4917 +YYYCC  4151.411625  4 0.0000   969 | 0/91
 11 h-m-p  0.0000 0.0000 12303.2131 +YYYCCC  4147.359683  5 0.0000  1071 | 0/91
 12 h-m-p  0.0000 0.0000 1330.0915 +YYYYC  4142.627101  4 0.0000  1170 | 0/91
 13 h-m-p  0.0000 0.0000 4477.6752 +CYYCC  4129.762370  4 0.0000  1271 | 0/91
 14 h-m-p  0.0000 0.0001 852.1137 ++     4120.745525  m 0.0001  1365 | 0/91
 15 h-m-p  0.0000 0.0002 617.6779 +YCYCCC  4111.402426  5 0.0002  1468 | 0/91
 16 h-m-p  0.0000 0.0002 212.5808 +YYCYC  4109.888110  4 0.0001  1568 | 0/91
 17 h-m-p  0.0000 0.0000 600.3092 ++     4108.727647  m 0.0000  1662 | 0/91
 18 h-m-p  0.0001 0.0003 314.8849 +YCCC  4105.525320  3 0.0003  1762 | 0/91
 19 h-m-p  0.0000 0.0001 256.3864 ++     4104.642932  m 0.0001  1856 | 0/91
 20 h-m-p  0.0001 0.0007 138.7582 +YCCC  4102.734806  3 0.0005  1956 | 0/91
 21 h-m-p  0.0000 0.0002 222.9472 +CC    4101.938218  1 0.0002  2053 | 0/91
 22 h-m-p  0.0002 0.0011 118.2874 YCCC   4100.817137  3 0.0004  2152 | 0/91
 23 h-m-p  0.0002 0.0011 141.4147 CCC    4100.102325  2 0.0003  2250 | 0/91
 24 h-m-p  0.0003 0.0014  85.0532 CCCC   4099.348818  3 0.0005  2350 | 0/91
 25 h-m-p  0.0004 0.0019 108.3328 CCC    4098.480043  2 0.0005  2448 | 0/91
 26 h-m-p  0.0002 0.0011  76.1820 YCCC   4097.949677  3 0.0004  2547 | 0/91
 27 h-m-p  0.0002 0.0010  92.9207 +CCC   4096.836232  2 0.0007  2646 | 0/91
 28 h-m-p  0.0000 0.0002 140.0573 ++     4096.012140  m 0.0002  2740 | 0/91
 29 h-m-p -0.0000 -0.0000 251.1560 
h-m-p:     -1.26086470e-21     -6.30432350e-21      2.51155964e+02  4096.012140
..  | 0/91
 30 h-m-p  0.0000 0.0003 642.7918 +YYCCC  4091.035769  4 0.0001  2932 | 0/91
 31 h-m-p  0.0001 0.0003 224.9885 ++     4081.440532  m 0.0003  3026 | 0/91
 32 h-m-p  0.0000 0.0000 2530.0971 +YYCCC  4079.653704  4 0.0000  3127 | 0/91
 33 h-m-p  0.0000 0.0000 1578.0490 +YYYYC  4075.385361  4 0.0000  3226 | 0/91
 34 h-m-p  0.0000 0.0000 730.0046 +YYCCC  4074.516032  4 0.0000  3327 | 0/91
 35 h-m-p  0.0000 0.0001 474.4957 ++     4068.913430  m 0.0001  3421 | 0/91
 36 h-m-p  0.0000 0.0001 297.9314 ++     4067.471809  m 0.0001  3515 | 1/91
 37 h-m-p  0.0000 0.0002 329.9705 ++     4061.753480  m 0.0002  3609 | 1/91
 38 h-m-p  0.0001 0.0004 250.7470 YCCCC  4059.988182  4 0.0002  3710 | 1/91
 39 h-m-p  0.0001 0.0005 185.4679 CCCC   4059.371690  3 0.0001  3810 | 1/91
 40 h-m-p  0.0001 0.0006  95.2647 YCCC   4058.694678  3 0.0003  3909 | 1/91
 41 h-m-p  0.0002 0.0009 130.6479 YCCC   4057.501587  3 0.0005  4008 | 1/91
 42 h-m-p  0.0000 0.0002 533.3219 +YC    4056.176873  1 0.0002  4104 | 1/91
 43 h-m-p  0.0001 0.0006 624.9408 YCCC   4053.776933  3 0.0002  4203 | 1/91
 44 h-m-p  0.0001 0.0005 302.4055 +YYCCC  4051.981109  4 0.0003  4304 | 1/91
 45 h-m-p  0.0001 0.0004 612.0766 YCCC   4050.310735  3 0.0002  4403 | 1/91
 46 h-m-p  0.0001 0.0004 633.3056 +YCCC  4048.378732  3 0.0002  4503 | 1/91
 47 h-m-p  0.0002 0.0013 557.2977 +YCCC  4042.949909  3 0.0007  4603 | 1/91
 48 h-m-p  0.0002 0.0009 531.6102 +YCCC  4038.174735  3 0.0006  4703 | 1/91
 49 h-m-p  0.0001 0.0004 567.5447 +YCCC  4036.414089  3 0.0002  4803 | 1/91
 50 h-m-p  0.0001 0.0007 455.6565 YCCC   4034.617622  3 0.0003  4902 | 1/91
 51 h-m-p  0.0003 0.0015 214.9497 YCCC   4032.798377  3 0.0006  5001 | 1/91
 52 h-m-p  0.0003 0.0013 236.6340 YCCC   4030.969199  3 0.0006  5100 | 1/91
 53 h-m-p  0.0004 0.0018 200.5066 CCC    4029.644522  2 0.0006  5198 | 1/91
 54 h-m-p  0.0002 0.0012 105.5142 CCCC   4029.210043  3 0.0004  5298 | 1/91
 55 h-m-p  0.0004 0.0018  36.7862 CCC    4029.034415  2 0.0006  5396 | 1/91
 56 h-m-p  0.0005 0.0028  42.1034 YCC    4028.926423  2 0.0004  5493 | 1/91
 57 h-m-p  0.0004 0.0027  40.1938 CCC    4028.781611  2 0.0006  5591 | 1/91
 58 h-m-p  0.0005 0.0024  33.9698 YC     4028.584236  1 0.0011  5686 | 1/91
 59 h-m-p  0.0002 0.0008  54.8064 ++     4028.283175  m 0.0008  5780 | 1/91
 60 h-m-p  0.0000 0.0000 100.7415 
h-m-p:      2.13180380e-21      1.06590190e-20      1.00741539e+02  4028.283175
..  | 1/91
 61 h-m-p  0.0000 0.0004 179.7072 ++YCCC  4026.675683  3 0.0001  5972 | 1/91
 62 h-m-p  0.0001 0.0005 107.1120 CYCCC  4025.668157  4 0.0002  6073 | 1/91
 63 h-m-p  0.0002 0.0010  77.7487 CC     4025.229351  1 0.0002  6169 | 1/91
 64 h-m-p  0.0002 0.0013 100.4398 YC     4024.606218  1 0.0003  6264 | 1/91
 65 h-m-p  0.0003 0.0015  71.8161 CCC    4024.195442  2 0.0004  6362 | 1/91
 66 h-m-p  0.0002 0.0008 123.9808 CC     4023.901863  1 0.0002  6458 | 1/91
 67 h-m-p  0.0001 0.0005  66.5936 CCCC   4023.788018  3 0.0001  6558 | 1/91
 68 h-m-p  0.0001 0.0006  39.2562 YC     4023.706665  1 0.0003  6653 | 1/91
 69 h-m-p  0.0001 0.0003  27.1335 ++     4023.654887  m 0.0003  6747 | 2/91
 70 h-m-p  0.0002 0.0022  29.9100 CCC    4023.602261  2 0.0004  6845 | 2/91
 71 h-m-p  0.0003 0.0039  40.8095 YC     4023.526818  1 0.0004  6940 | 2/91
 72 h-m-p  0.0003 0.0044  60.2645 YC     4023.393568  1 0.0005  7035 | 2/91
 73 h-m-p  0.0003 0.0017  94.5322 CCC    4023.247937  2 0.0004  7133 | 2/91
 74 h-m-p  0.0002 0.0018 174.0509 YCC    4022.936076  2 0.0005  7230 | 2/91
 75 h-m-p  0.0005 0.0025 159.5490 CCC    4022.601686  2 0.0006  7328 | 2/91
 76 h-m-p  0.0002 0.0010 221.6870 YCYC   4022.107145  3 0.0005  7426 | 2/91
 77 h-m-p  0.0001 0.0014 847.9902 YCCC   4021.432628  3 0.0002  7525 | 2/91
 78 h-m-p  0.0003 0.0016 479.4574 YCCC   4020.212157  3 0.0007  7624 | 2/91
 79 h-m-p  0.0004 0.0019 828.3983 CCC    4018.884047  2 0.0005  7722 | 2/91
 80 h-m-p  0.0004 0.0021 519.2058 CCC    4018.034120  2 0.0005  7820 | 2/91
 81 h-m-p  0.0003 0.0014 412.5233 CCCC   4017.444402  3 0.0004  7920 | 2/91
 82 h-m-p  0.0003 0.0016 262.1012 CCCC   4017.097084  3 0.0004  8020 | 2/91
 83 h-m-p  0.0006 0.0061 158.5223 CC     4016.759545  1 0.0006  8116 | 2/91
 84 h-m-p  0.0006 0.0031  95.5924 YC     4016.635523  1 0.0004  8211 | 2/91
 85 h-m-p  0.0006 0.0030  58.3014 YCC    4016.568544  2 0.0004  8308 | 2/91
 86 h-m-p  0.0010 0.0100  21.0176 YC     4016.542092  1 0.0005  8403 | 2/91
 87 h-m-p  0.0005 0.0099  21.0322 CC     4016.517331  1 0.0005  8499 | 2/91
 88 h-m-p  0.0010 0.0109  11.0711 CC     4016.509471  1 0.0004  8595 | 2/91
 89 h-m-p  0.0004 0.0141  10.1374 CC     4016.500265  1 0.0006  8691 | 2/91
 90 h-m-p  0.0005 0.0130  12.2380 CC     4016.490629  1 0.0006  8787 | 2/91
 91 h-m-p  0.0005 0.0181  12.9292 YC     4016.476149  1 0.0009  8882 | 2/91
 92 h-m-p  0.0003 0.0174  33.3680 YC     4016.444667  1 0.0008  8977 | 2/91
 93 h-m-p  0.0003 0.0069 100.1711 +CC    4016.281403  1 0.0013  9074 | 2/91
 94 h-m-p  0.0008 0.0057 176.9527 CYC    4016.134276  2 0.0007  9171 | 2/91
 95 h-m-p  0.0003 0.0047 396.7690 CC     4015.908703  1 0.0005  9267 | 2/91
 96 h-m-p  0.0008 0.0057 244.6895 CC     4015.578865  1 0.0011  9363 | 2/91
 97 h-m-p  0.0002 0.0012 217.9937 YC     4015.427515  1 0.0006  9458 | 2/91
 98 h-m-p  0.0006 0.0091 209.4805 YCCC   4015.354575  3 0.0003  9557 | 2/91
 99 h-m-p  0.0006 0.0030  93.7984 CC     4015.295006  1 0.0005  9653 | 2/91
100 h-m-p  0.0010 0.0099  49.2294 YC     4015.266999  1 0.0005  9748 | 2/91
101 h-m-p  0.0012 0.0204  19.9139 YC     4015.253073  1 0.0006  9843 | 2/91
102 h-m-p  0.0013 0.0445   9.8716 YC     4015.244505  1 0.0009  9938 | 2/91
103 h-m-p  0.0015 0.0222   5.8069 YC     4015.241307  1 0.0006 10033 | 2/91
104 h-m-p  0.0010 0.0797   3.8104 YC     4015.239535  1 0.0006 10128 | 2/91
105 h-m-p  0.0008 0.0649   2.7705 C      4015.237758  0 0.0009 10222 | 2/91
106 h-m-p  0.0010 0.1054   2.6610 YC     4015.234717  1 0.0017 10317 | 2/91
107 h-m-p  0.0009 0.0968   5.0660 +YC    4015.225845  1 0.0025 10413 | 2/91
108 h-m-p  0.0007 0.0628  18.7832 +CC    4015.186331  1 0.0030 10510 | 2/91
109 h-m-p  0.0010 0.0240  56.7321 YC     4015.111845  1 0.0018 10605 | 2/91
110 h-m-p  0.0007 0.0214 141.3771 YC     4014.944485  1 0.0017 10700 | 2/91
111 h-m-p  0.0012 0.0093 196.7571 C      4014.776247  0 0.0012 10794 | 2/91
112 h-m-p  0.0029 0.0160  82.2059 YC     4014.745538  1 0.0005 10889 | 2/91
113 h-m-p  0.0033 0.0423  13.3983 C      4014.737613  0 0.0009 10983 | 2/91
114 h-m-p  0.0030 0.0629   3.9340 CC     4014.736131  1 0.0006 11079 | 2/91
115 h-m-p  0.0015 0.1451   1.7522 C      4014.735168  0 0.0012 11173 | 2/91
116 h-m-p  0.0011 0.2653   2.0235 YC     4014.733157  1 0.0026 11268 | 2/91
117 h-m-p  0.0008 0.0791   6.3048 +YC    4014.728133  1 0.0021 11364 | 2/91
118 h-m-p  0.0006 0.1247  23.2730 +CC    4014.697941  1 0.0035 11461 | 2/91
119 h-m-p  0.0011 0.0514  75.2926 CC     4014.652589  1 0.0016 11557 | 2/91
120 h-m-p  0.0011 0.0247 110.2286 CC     4014.600636  1 0.0013 11653 | 2/91
121 h-m-p  0.0049 0.0367  28.5668 YC     4014.593040  1 0.0007 11748 | 2/91
122 h-m-p  0.0022 0.0470   9.5806 CC     4014.590478  1 0.0008 11844 | 2/91
123 h-m-p  0.0024 0.1557   3.1012 C      4014.589746  0 0.0008 11938 | 2/91
124 h-m-p  0.0028 0.4004   0.8390 C      4014.589542  0 0.0010 12032 | 2/91
125 h-m-p  0.0015 0.2766   0.5747 Y      4014.589428  0 0.0010 12215 | 2/91
126 h-m-p  0.0012 0.5750   0.6464 +C     4014.588708  0 0.0060 12399 | 2/91
127 h-m-p  0.0009 0.2615   4.4839 +C     4014.586100  0 0.0031 12583 | 2/91
128 h-m-p  0.0009 0.1321  15.1045 +YC    4014.577395  1 0.0031 12679 | 2/91
129 h-m-p  0.0008 0.0707  58.3549 +YC    4014.553272  1 0.0022 12775 | 2/91
130 h-m-p  0.0026 0.0141  49.7273 CC     4014.546212  1 0.0008 12871 | 2/91
131 h-m-p  0.0088 0.2421   4.2729 YC     4014.545105  1 0.0015 12966 | 2/91
132 h-m-p  0.0023 0.1199   2.6683 C      4014.544814  0 0.0007 13060 | 2/91
133 h-m-p  0.0045 0.8049   0.3902 C      4014.544774  0 0.0010 13154 | 2/91
134 h-m-p  0.0024 1.2058   0.2153 Y      4014.544748  0 0.0017 13337 | 2/91
135 h-m-p  0.0049 2.4253   0.2386 C      4014.544685  0 0.0046 13520 | 2/91
136 h-m-p  0.0036 1.7949   1.0865 C      4014.544484  0 0.0033 13703 | 2/91
137 h-m-p  0.0013 0.6262   3.4394 +CC    4014.543010  1 0.0077 13800 | 2/91
138 h-m-p  0.0012 0.1592  23.0137 CC     4014.541810  1 0.0009 13896 | 2/91
139 h-m-p  0.0018 0.1817  12.0627 YC     4014.541046  1 0.0012 13991 | 2/91
140 h-m-p  0.0102 0.2501   1.3715 -C     4014.540992  0 0.0007 14086 | 2/91
141 h-m-p  0.0074 1.3277   0.1380 Y      4014.540987  0 0.0011 14180 | 2/91
142 h-m-p  0.0045 2.2517   0.1075 C      4014.540971  0 0.0048 14363 | 2/91
143 h-m-p  0.0160 8.0000   0.1860 Y      4014.540810  0 0.0273 14546 | 2/91
144 h-m-p  0.0012 0.4071   4.2364 YC     4014.540463  1 0.0026 14730 | 2/91
145 h-m-p  0.0021 0.3313   5.2109 C      4014.540141  0 0.0020 14824 | 2/91
146 h-m-p  0.0240 2.1734   0.4260 -C     4014.540114  0 0.0022 14919 | 2/91
147 h-m-p  0.0191 5.3827   0.0485 -C     4014.540113  0 0.0016 15103 | 2/91
148 h-m-p  0.0160 8.0000   0.0352 Y      4014.540109  0 0.0094 15286 | 2/91
149 h-m-p  0.0160 8.0000   0.4595 C      4014.539979  0 0.0237 15469 | 2/91
150 h-m-p  0.0059 0.5860   1.8313 C      4014.539941  0 0.0017 15652 | 2/91
151 h-m-p  1.0739 8.0000   0.0030 C      4014.539929  0 0.8740 15746 | 2/91
152 h-m-p  1.6000 8.0000   0.0007 Y      4014.539928  0 0.9235 15929 | 2/91
153 h-m-p  1.6000 8.0000   0.0002 Y      4014.539928  0 0.8121 16112 | 2/91
154 h-m-p  1.6000 8.0000   0.0000 Y      4014.539928  0 0.9273 16295 | 2/91
155 h-m-p  1.6000 8.0000   0.0000 Y      4014.539928  0 0.7095 16478 | 2/91
156 h-m-p  1.6000 8.0000   0.0000 C      4014.539928  0 1.6000 16661 | 2/91
157 h-m-p  1.6000 8.0000   0.0000 ---------------Y  4014.539928  0 0.0000 16859
Out..
lnL  = -4014.539928
16860 lfun, 185460 eigenQcodon, 14836800 P(t)

Time used: 2:17:44


Model 8: beta&w>1

TREE #  1

   1  3369.028385
   2  3315.750490
   3  3313.529223
   4  3313.306969
   5  3313.284720
   6  3313.284323
2 node(s) used for scaling (Yang 2000 J Mol Evol 51:423-432):
 56 71

initial w for M8:NSbetaw>1 reset.

    0.078168    0.073890    0.097817    0.056154    0.032211    0.069070    0.007807    0.286087    0.291495    0.102237    0.039370    0.050260    0.061809    0.082110    0.072212    0.075565    0.059397    0.039277    0.085243    0.081622    0.059363    0.040417    0.011411    0.082501    0.000000    0.075401    0.267743    0.043484    0.133543    0.074833    0.029971    0.033103    0.046136    0.052978    0.088539    0.028431    0.097196    0.054623    0.047172    0.289079    0.071236    0.044284    0.046076    0.099560    0.095471    0.041218    0.090497    0.040983    0.011458    0.069336    0.073291    0.072920    0.025749    0.035715    0.065056    0.061401    0.079522    0.045124    0.119384    0.098299    0.035757    0.024859    0.018388    0.033449    0.014794    0.073376    0.061657    0.011283    0.079536    0.089242    0.062524    0.052756    0.041097    0.025355    0.077117    0.041765    0.079233    0.080505    0.122441    0.046099    0.042462    0.067684    0.036595    0.001336    0.081774    0.046390    0.070732    0.087528    6.756097    0.900000    0.319377    1.265083    2.014145

ntime & nrate & np:    88     2    93

Bounds (np=93):
   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   0.000004   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  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000  50.000000 999.000000   0.999990  99.000000  99.000000 999.000000
Qfactor_NS = 3.465819

np =    93
lnL0 = -4565.101427

Iterating by ming2
Initial: fx=  4565.101427
x=  0.07817  0.07389  0.09782  0.05615  0.03221  0.06907  0.00781  0.28609  0.29150  0.10224  0.03937  0.05026  0.06181  0.08211  0.07221  0.07557  0.05940  0.03928  0.08524  0.08162  0.05936  0.04042  0.01141  0.08250  0.00000  0.07540  0.26774  0.04348  0.13354  0.07483  0.02997  0.03310  0.04614  0.05298  0.08854  0.02843  0.09720  0.05462  0.04717  0.28908  0.07124  0.04428  0.04608  0.09956  0.09547  0.04122  0.09050  0.04098  0.01146  0.06934  0.07329  0.07292  0.02575  0.03572  0.06506  0.06140  0.07952  0.04512  0.11938  0.09830  0.03576  0.02486  0.01839  0.03345  0.01479  0.07338  0.06166  0.01128  0.07954  0.08924  0.06252  0.05276  0.04110  0.02535  0.07712  0.04176  0.07923  0.08051  0.12244  0.04610  0.04246  0.06768  0.03659  0.00134  0.08177  0.04639  0.07073  0.08753  6.75610  0.90000  0.31938  1.26508  2.01415

  1 h-m-p  0.0000 0.0001 491245.2686 -YYCYCYC  4506.618641  6 0.0000   108 | 0/93
  2 h-m-p  0.0000 0.0002 1566.2635 ++     4339.805405  m 0.0002   204 | 1/93
  3 h-m-p  0.0001 0.0003 708.6380 ++     4251.457143  m 0.0003   300 | 1/93
  4 h-m-p  0.0000 0.0000 24358.2052 ++     4237.777416  m 0.0000   396 | 1/93
  5 h-m-p  0.0000 0.0000 2414.1180 ++     4220.967802  m 0.0000   492 | 1/93
  6 h-m-p  0.0000 0.0000 14564.1875 +CYCCC  4214.541916  4 0.0000   596 | 1/93
  7 h-m-p  0.0000 0.0000 1682.8781 +YCYCCC  4204.900766  5 0.0000   701 | 1/93
  8 h-m-p  0.0000 0.0000 1688.5266 ++     4198.486360  m 0.0000   797 | 1/93
  9 h-m-p  0.0000 0.0000 3145.3934 +YCCC  4192.618000  3 0.0000   899 | 1/93
 10 h-m-p  0.0000 0.0001 1712.8036 +YCCC  4182.171637  3 0.0000  1001 | 1/93
 11 h-m-p  0.0000 0.0002 1405.3090 +YCCCC  4165.918717  4 0.0001  1105 | 1/93
 12 h-m-p  0.0001 0.0005 458.2360 +YYCCC  4150.786252  4 0.0004  1208 | 1/93
 13 h-m-p  0.0001 0.0006 448.4654 YCCC   4142.850609  3 0.0003  1309 | 1/93
 14 h-m-p  0.0004 0.0020 296.6629 CCCCC  4130.766511  4 0.0007  1413 | 1/93
 15 h-m-p  0.0004 0.0021 130.7523 YCC    4127.059897  2 0.0007  1512 | 1/93
 16 h-m-p  0.0009 0.0056 105.8576 YCCCC  4125.678291  4 0.0006  1615 | 1/93
 17 h-m-p  0.0004 0.0020 126.6030 +YCCC  4122.522672  3 0.0010  1717 | 1/93
 18 h-m-p  0.0010 0.0059 129.1605 CCCC   4119.392658  3 0.0013  1819 | 1/93
 19 h-m-p  0.0004 0.0022 155.9949 YCCCC  4116.376170  4 0.0011  1922 | 1/93
 20 h-m-p  0.0007 0.0036 121.9465 CC     4115.016957  1 0.0008  2020 | 1/93
 21 h-m-p  0.0008 0.0039  74.9058 C      4114.273008  0 0.0008  2116 | 1/93
 22 h-m-p  0.0014 0.0114  42.0134 CCC    4113.383601  2 0.0020  2216 | 1/93
 23 h-m-p  0.0008 0.0067 104.4490 +YYCC  4110.503920  3 0.0027  2317 | 1/93
 24 h-m-p  0.0004 0.0019 501.4674 +YCCC  4104.971737  3 0.0011  2419 | 1/93
 25 h-m-p  0.0005 0.0025 680.2317 +YCCC  4096.255900  3 0.0013  2521 | 1/93
 26 h-m-p  0.0003 0.0014 688.8993 YC     4092.775778  1 0.0006  2618 | 1/93
 27 h-m-p  0.0004 0.0018 314.2011 YCCC   4090.331176  3 0.0008  2719 | 1/93
 28 h-m-p  0.0005 0.0027 182.9762 CCCC   4088.843591  3 0.0009  2821 | 1/93
 29 h-m-p  0.0003 0.0015 247.3938 YCCCC  4087.459937  4 0.0006  2924 | 1/93
 30 h-m-p  0.0003 0.0013 172.5310 +YCCC  4086.368394  3 0.0007  3026 | 1/93
 31 h-m-p  0.0005 0.0024  81.9149 YC     4085.818983  1 0.0008  3123 | 1/93
 32 h-m-p  0.0004 0.0019  97.3090 CCC    4085.474415  2 0.0005  3223 | 1/93
 33 h-m-p  0.0007 0.0034  59.5527 YYC    4085.225500  2 0.0006  3321 | 1/93
 34 h-m-p  0.0007 0.0061  47.0526 YCC    4084.816258  2 0.0012  3420 | 1/93
 35 h-m-p  0.0007 0.0037  76.0877 YC     4084.158731  1 0.0012  3517 | 1/93
 36 h-m-p  0.0004 0.0019 104.6581 +YC    4083.472834  1 0.0009  3615 | 1/93
 37 h-m-p  0.0003 0.0014  96.5293 YC     4083.079633  1 0.0006  3712 | 1/93
 38 h-m-p  0.0010 0.0048  45.4361 CC     4082.741085  1 0.0011  3810 | 1/93
 39 h-m-p  0.0009 0.0047  55.1782 CC     4082.338133  1 0.0010  3908 | 1/93
 40 h-m-p  0.0009 0.0057  62.4339 CCC    4081.668621  2 0.0014  4008 | 1/93
 41 h-m-p  0.0004 0.0022 115.7710 YCCC   4080.706038  3 0.0011  4109 | 1/93
 42 h-m-p  0.0003 0.0016 101.5213 YCCC   4080.195980  3 0.0006  4210 | 1/93
 43 h-m-p  0.0008 0.0042  58.2054 CYC    4079.781241  2 0.0009  4309 | 1/93
 44 h-m-p  0.0008 0.0052  61.8409 CCCC   4079.060373  3 0.0013  4411 | 1/93
 45 h-m-p  0.0009 0.0060  92.7713 CCC    4078.016979  2 0.0012  4511 | 1/93
 46 h-m-p  0.0008 0.0047 139.5915 YCCC   4075.815368  3 0.0017  4612 | 1/93
 47 h-m-p  0.0008 0.0038 290.6562 YC     4071.955294  1 0.0014  4709 | 1/93
 48 h-m-p  0.0003 0.0017 267.8082 YCCC   4070.228261  3 0.0007  4810 | 1/93
 49 h-m-p  0.0002 0.0012 174.0305 CCC    4069.639382  2 0.0004  4910 | 1/93
 50 h-m-p  0.0003 0.0016  79.2020 CCCC   4069.266117  3 0.0005  5012 | 1/93
 51 h-m-p  0.0007 0.0045  56.1217 CCC    4068.880697  2 0.0007  5112 | 1/93
 52 h-m-p  0.0005 0.0024  49.8343 YCCC   4068.429922  3 0.0009  5213 | 1/93
 53 h-m-p  0.0006 0.0032  63.0062 CCCC   4067.916026  3 0.0008  5315 | 1/93
 54 h-m-p  0.0005 0.0027  61.2558 CCCC   4067.539135  3 0.0006  5417 | 1/93
 55 h-m-p  0.0006 0.0046  64.9557 CCC    4067.013408  2 0.0009  5517 | 1/93
 56 h-m-p  0.0003 0.0017  88.6709 CCCC   4066.484519  3 0.0006  5619 | 1/93
 57 h-m-p  0.0005 0.0030 113.4027 YC     4065.248601  1 0.0012  5716 | 1/93
 58 h-m-p  0.0006 0.0040 219.5298 CCCC   4063.307947  3 0.0010  5818 | 1/93
 59 h-m-p  0.0004 0.0022 235.2449 YC     4061.348174  1 0.0010  5915 | 1/93
 60 h-m-p  0.0004 0.0019 142.8796 YC     4060.564936  1 0.0007  6012 | 1/93
 61 h-m-p  0.0006 0.0030  56.7850 CCC    4060.185995  2 0.0008  6112 | 1/93
 62 h-m-p  0.0014 0.0072  32.6213 YCC    4059.960203  2 0.0010  6211 | 1/93
 63 h-m-p  0.0006 0.0086  49.6790 YC     4059.513196  1 0.0014  6308 | 1/93
 64 h-m-p  0.0005 0.0029 125.4883 +YCCC  4058.164858  3 0.0016  6410 | 1/93
 65 h-m-p  0.0007 0.0040 299.8159 YCCC   4055.696650  3 0.0013  6511 | 1/93
 66 h-m-p  0.0002 0.0009 595.3918 +YCC   4053.599942  2 0.0006  6611 | 1/93
 67 h-m-p  0.0004 0.0020 204.0250 CCCC   4052.929508  3 0.0005  6713 | 1/93
 68 h-m-p  0.0003 0.0015 103.9180 CC     4052.649856  1 0.0005  6811 | 1/93
 69 h-m-p  0.0013 0.0148  37.1036 YC     4052.507688  1 0.0008  6908 | 1/93
 70 h-m-p  0.0015 0.0076  17.4375 CC     4052.468800  1 0.0005  7006 | 1/93
 71 h-m-p  0.0006 0.0056  14.8120 CC     4052.416082  1 0.0010  7104 | 1/93
 72 h-m-p  0.0009 0.0160  16.5926 YC     4052.289787  1 0.0021  7201 | 1/93
 73 h-m-p  0.0008 0.0056  46.2998 +YCC   4051.869494  2 0.0024  7301 | 1/93
 74 h-m-p  0.0009 0.0137 129.1400 +CCC   4049.406906  2 0.0051  7402 | 1/93
 75 h-m-p  0.0006 0.0028 836.3824 YCCC   4046.404804  3 0.0010  7503 | 1/93
 76 h-m-p  0.0013 0.0065 501.8453 YCCC   4044.622966  3 0.0010  7604 | 1/93
 77 h-m-p  0.0010 0.0049 178.9025 YCC    4044.125109  2 0.0008  7703 | 1/93
 78 h-m-p  0.0034 0.0171  36.2692 CC     4043.984865  1 0.0011  7801 | 1/93
 79 h-m-p  0.0021 0.0207  19.0918 YC     4043.907341  1 0.0013  7898 | 1/93
 80 h-m-p  0.0015 0.0509  16.2048 CCC    4043.796559  2 0.0024  7998 | 1/93
 81 h-m-p  0.0007 0.0175  54.2978 +CCCC  4043.113720  3 0.0042  8101 | 1/93
 82 h-m-p  0.0009 0.0061 258.3996 CCC    4042.171990  2 0.0013  8201 | 1/93
 83 h-m-p  0.0017 0.0087 113.3522 CCC    4041.694116  2 0.0015  8301 | 1/93
 84 h-m-p  0.0022 0.0108  27.5589 CC     4041.629542  1 0.0008  8399 | 1/93
 85 h-m-p  0.0043 0.0598   5.3552 CC     4041.606749  1 0.0015  8497 | 1/93
 86 h-m-p  0.0018 0.1651   4.5586 ++YC   4041.256336  1 0.0176  8596 | 1/93
 87 h-m-p  0.0013 0.0189  62.9645 +CYCCC  4038.515067  4 0.0086  8700 | 1/93
 88 h-m-p  0.0002 0.0012 710.8526 ++     4032.865214  m 0.0012  8796 | 1/93
 89 h-m-p  0.0007 0.0037 373.0330 CCCC   4030.890485  3 0.0011  8898 | 1/93
 90 h-m-p  0.0015 0.0073  39.5852 YCC    4030.758483  2 0.0008  8997 | 1/93
 91 h-m-p  0.0065 0.0324   3.6057 YC     4030.729412  1 0.0028  9094 | 1/93
 92 h-m-p  0.0017 0.0109   5.8525 +YC    4030.611270  1 0.0052  9192 | 1/93
 93 h-m-p  0.0003 0.0017  29.5368 ++     4030.182430  m 0.0017  9288 | 2/93
 94 h-m-p  0.0001 0.0017 600.6956 ++CC   4026.726373  1 0.0014  9388 | 2/93
 95 h-m-p  0.0012 0.0058  34.8513 YCCC   4026.644478  3 0.0007  9489 | 2/93
 96 h-m-p  0.0118 0.3715   1.9524 +++    4022.999498  m 0.3715  9586 | 2/93
 97 h-m-p  0.0000 0.0000   1.8267 
h-m-p:      2.89611739e-18      1.44805870e-17      1.82673680e+00  4022.999498
..  | 2/93
 98 h-m-p  0.0000 0.0003 722.4641 YYCYC  4021.508176  4 0.0000  9780 | 2/93
 99 h-m-p  0.0001 0.0003 104.1943 YCCC   4020.839799  3 0.0001  9881 | 2/93
100 h-m-p  0.0001 0.0006  72.1311 CCCC   4020.421974  3 0.0002  9983 | 2/93
101 h-m-p  0.0001 0.0007  90.4993 CC     4020.117587  1 0.0002 10081 | 2/93
102 h-m-p  0.0002 0.0027  66.5515 CCC    4019.935043  2 0.0002 10181 | 2/93
103 h-m-p  0.0002 0.0009  36.2027 CCC    4019.859331  2 0.0002 10281 | 2/93
104 h-m-p  0.0001 0.0006  45.4730 +YC    4019.730843  1 0.0004 10379 | 2/93
105 h-m-p  0.0000 0.0002  44.6871 ++     4019.656218  m 0.0002 10475 | 3/93
106 h-m-p  0.0001 0.0007  57.1642 CCC    4019.581675  2 0.0002 10575 | 3/93
107 h-m-p  0.0002 0.0027  60.1592 CC     4019.485648  1 0.0003 10673 | 3/93
108 h-m-p  0.0004 0.0025  45.3167 C      4019.400369  0 0.0004 10769 | 3/93
109 h-m-p  0.0003 0.0013  61.0539 C      4019.315720  0 0.0003 10865 | 3/93
110 h-m-p  0.0002 0.0033  97.7118 YC     4019.169041  1 0.0004 10962 | 3/93
111 h-m-p  0.0004 0.0026  77.4480 CYC    4019.038675  2 0.0004 11061 | 3/93
112 h-m-p  0.0003 0.0055 114.3910 CCC    4018.878621  2 0.0004 11161 | 3/93
113 h-m-p  0.0002 0.0010 154.1464 CCCC   4018.714152  3 0.0003 11263 | 3/93
114 h-m-p  0.0003 0.0047 122.6584 CC     4018.475788  1 0.0005 11361 | 3/93
115 h-m-p  0.0003 0.0014 171.9970 CCC    4018.190598  2 0.0005 11461 | 3/93
116 h-m-p  0.0004 0.0051 182.3409 YC     4017.648512  1 0.0009 11558 | 3/93
117 h-m-p  0.0002 0.0011 357.0900 YCCC   4017.133019  3 0.0004 11659 | 3/93
118 h-m-p  0.0003 0.0016 250.7258 YCC    4016.702395  2 0.0005 11758 | 3/93
119 h-m-p  0.0004 0.0020 359.3006 CCC    4016.195027  2 0.0004 11858 | 3/93
120 h-m-p  0.0002 0.0012 239.9129 YCC    4015.818757  2 0.0005 11957 | 3/93
121 h-m-p  0.0005 0.0025 137.4572 YCC    4015.664152  2 0.0003 12056 | 3/93
122 h-m-p  0.0007 0.0041  65.7180 YC     4015.579005  1 0.0004 12153 | 3/93
123 h-m-p  0.0004 0.0022  45.8055 CC     4015.528939  1 0.0004 12251 | 3/93
124 h-m-p  0.0007 0.0066  26.4318 YC     4015.496785  1 0.0005 12348 | 3/93
125 h-m-p  0.0005 0.0168  26.8502 CC     4015.463934  1 0.0005 12446 | 3/93
126 h-m-p  0.0011 0.0194  13.3529 YC     4015.451541  1 0.0005 12543 | 3/93
127 h-m-p  0.0005 0.0067  13.3603 YC     4015.444108  1 0.0003 12640 | 3/93
128 h-m-p  0.0006 0.0295   7.1534 CC     4015.436193  1 0.0008 12738 | 3/93
129 h-m-p  0.0006 0.0319   9.5683 CC     4015.430380  1 0.0005 12836 | 3/93
130 h-m-p  0.0008 0.0273   6.4636 CC     4015.426076  1 0.0007 12934 | 3/93
131 h-m-p  0.0006 0.0327   6.6455 YC     4015.423721  1 0.0004 13031 | 3/93
132 h-m-p  0.0003 0.0418   8.8377 +C     4015.414685  0 0.0013 13128 | 3/93
133 h-m-p  0.0006 0.0173  19.8969 YC     4015.399827  1 0.0009 13225 | 3/93
134 h-m-p  0.0004 0.0220  46.2602 +CC    4015.326743  1 0.0020 13324 | 3/93
135 h-m-p  0.0006 0.0128 156.5662 YC     4015.189401  1 0.0011 13421 | 3/93
136 h-m-p  0.0009 0.0050 204.0841 YCC    4015.083347  2 0.0007 13520 | 3/93
137 h-m-p  0.0006 0.0184 230.1908 YC     4014.871901  1 0.0012 13617 | 3/93
138 h-m-p  0.0008 0.0041 125.1838 CC     4014.803938  1 0.0007 13715 | 3/93
139 h-m-p  0.0022 0.0108  30.0407 C      4014.791479  0 0.0006 13811 | 3/93
140 h-m-p  0.0034 0.0195   5.0152 CC     4014.788976  1 0.0007 13909 | 3/93
141 h-m-p  0.0014 0.0796   2.7065 YC     4014.787436  1 0.0010 14006 | 3/93
142 h-m-p  0.0014 0.0824   2.0270 YC     4014.786357  1 0.0011 14103 | 3/93
143 h-m-p  0.0011 0.1029   2.0499 C      4014.785217  0 0.0012 14199 | 3/93
144 h-m-p  0.0008 0.1930   3.1994 CC     4014.783781  1 0.0009 14297 | 3/93
145 h-m-p  0.0006 0.0457   4.7008 CC     4014.781916  1 0.0008 14395 | 3/93
146 h-m-p  0.0008 0.1308   4.5976 +C     4014.774197  0 0.0034 14492 | 3/93
147 h-m-p  0.0010 0.0304  16.1371 +YC    4014.753136  1 0.0026 14590 | 3/93
148 h-m-p  0.0008 0.0265  50.9665 YC     4014.718936  1 0.0013 14687 | 3/93
149 h-m-p  0.0013 0.0208  52.9098 YC     4014.693837  1 0.0009 14784 | 3/93
150 h-m-p  0.0013 0.0341  37.3590 YC     4014.675069  1 0.0010 14881 | 3/93
151 h-m-p  0.0032 0.0455  11.7063 C      4014.670709  0 0.0008 14977 | 3/93
152 h-m-p  0.0032 0.0642   2.8088 YC     4014.670015  1 0.0006 15074 | 3/93
153 h-m-p  0.0017 0.1857   0.9468 C      4014.669351  0 0.0017 15170 | 3/93
154 h-m-p  0.0013 0.1418   1.2593 CC     4014.668311  1 0.0018 15358 | 3/93
155 h-m-p  0.0008 0.2852   2.7991 +YC    4014.665206  1 0.0022 15456 | 3/93
156 h-m-p  0.0010 0.0864   6.2707 +YC    4014.654909  1 0.0030 15554 | 3/93
157 h-m-p  0.0008 0.0345  23.8725 +YC    4014.626377  1 0.0022 15652 | 3/93
158 h-m-p  0.0013 0.0248  38.8766 YC     4014.604576  1 0.0010 15749 | 3/93
159 h-m-p  0.0021 0.0724  18.6449 YC     4014.593686  1 0.0011 15846 | 3/93
160 h-m-p  0.0036 0.0344   5.6423 YC     4014.591804  1 0.0007 15943 | 3/93
161 h-m-p  0.0017 0.0709   2.2984 YC     4014.591117  1 0.0008 16040 | 3/93
162 h-m-p  0.0019 0.2018   0.9353 YC     4014.590831  1 0.0011 16137 | 3/93
163 h-m-p  0.0011 0.4501   0.9428 +YC    4014.590119  1 0.0031 16325 | 3/93
164 h-m-p  0.0008 0.2242   3.7179 +YC    4014.587999  1 0.0024 16513 | 3/93
165 h-m-p  0.0012 0.3466   7.2635 +YC    4014.572450  1 0.0092 16611 | 3/93
166 h-m-p  0.0012 0.0796  54.1831 CC     4014.558472  1 0.0011 16709 | 3/93
167 h-m-p  0.0028 0.0324  21.5171 CC     4014.554277  1 0.0008 16807 | 3/93
168 h-m-p  0.0021 0.1008   8.5624 CC     4014.552799  1 0.0008 16905 | 3/93
169 h-m-p  0.0063 0.3010   1.0496 -Y     4014.552670  0 0.0007 17002 | 3/93
170 h-m-p  0.0030 1.0058   0.2348 Y      4014.552628  0 0.0016 17098 | 3/93
171 h-m-p  0.0028 1.4209   0.3240 Y      4014.552592  0 0.0012 17284 | 3/93
172 h-m-p  0.0032 1.6155   0.3404 YC     4014.552386  1 0.0067 17471 | 3/93
173 h-m-p  0.0010 0.4761   2.3088 +C     4014.551430  0 0.0046 17658 | 3/93
174 h-m-p  0.0012 0.3063   8.9912 YC     4014.549827  1 0.0020 17755 | 3/93
175 h-m-p  0.0010 0.0933  17.7664 CC     4014.547583  1 0.0014 17853 | 3/93
176 h-m-p  0.0027 0.1169   9.1596 CC     4014.546838  1 0.0009 17951 | 3/93
177 h-m-p  0.0044 0.3274   1.8721 C      4014.546681  0 0.0010 18047 | 3/93
178 h-m-p  0.0101 1.5853   0.1762 Y      4014.546660  0 0.0017 18143 | 3/93
179 h-m-p  0.0042 2.0981   0.1302 C      4014.546646  0 0.0016 18329 | 3/93
180 h-m-p  0.0078 3.8889   0.0956 C      4014.546563  0 0.0124 18515 | 3/93
181 h-m-p  0.0032 1.5909   0.9900 C      4014.546288  0 0.0039 18701 | 3/93
182 h-m-p  0.0009 0.3583   4.4658 +C     4014.544964  0 0.0042 18888 | 3/93
183 h-m-p  0.0036 0.1719   5.1969 YC     4014.544373  1 0.0016 18985 | 3/93
184 h-m-p  0.0029 0.3791   2.9129 YC     4014.544124  1 0.0012 19082 | 3/93
185 h-m-p  0.0691 2.3022   0.0517 --Y    4014.544120  0 0.0019 19180 | 3/93
186 h-m-p  0.0160 8.0000   0.0317 +Y     4014.544050  0 0.0424 19367 | 3/93
187 h-m-p  0.0019 0.9278   0.9584 ++CC   4014.542220  1 0.0356 19557 | 3/93
188 h-m-p  1.6000 8.0000   0.0199 YC     4014.541268  1 1.1999 19744 | 3/93
189 h-m-p  1.6000 8.0000   0.0089 Y      4014.541209  0 0.9279 19930 | 3/93
190 h-m-p  1.6000 8.0000   0.0041 Y      4014.541200  0 0.9832 20116 | 3/93
191 h-m-p  1.6000 8.0000   0.0016 C      4014.541198  0 1.4983 20302 | 3/93
192 h-m-p  1.6000 8.0000   0.0003 Y      4014.541198  0 1.0792 20488 | 3/93
193 h-m-p  1.6000 8.0000   0.0000 Y      4014.541198  0 0.9688 20674 | 3/93
194 h-m-p  1.6000 8.0000   0.0000 Y      4014.541198  0 0.8949 20860 | 3/93
195 h-m-p  1.6000 8.0000   0.0000 --------------Y  4014.541198  0 0.0000 21060
Out..
lnL  = -4014.541198
21061 lfun, 252732 eigenQcodon, 20387048 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 probability of data.
	log(fX) = -4037.306374  S = -3948.573323   -82.631275
Calculating f(w|X), posterior probabilities of site classes.

	did  10 / 126 patterns  3:53:17
	did  20 / 126 patterns  3:53:17
	did  30 / 126 patterns  3:53:17
	did  40 / 126 patterns  3:53:18
	did  50 / 126 patterns  3:53:18
	did  60 / 126 patterns  3:53:18
	did  70 / 126 patterns  3:53:18
	did  80 / 126 patterns  3:53:18
	did  90 / 126 patterns  3:53:18
	did 100 / 126 patterns  3:53:19
	did 110 / 126 patterns  3:53:19
	did 120 / 126 patterns  3:53:19
	did 126 / 126 patterns  3:53:19
Time used: 3:53:19
CodeML output code: -1

CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE:  ], CPU=0.00 sec, SCORE=100, Nseq=50, Len=127 

gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        SVLGDLKLEIGKLPQHLTIKARNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a       SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     SISGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                       SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a     SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a   SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a              SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SMTLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                    SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a       SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEVGGKAYNHALSELPE
gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a               SVSSDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPE
gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                   SIALDLVTEIGRVPSHLAYRTRSALDNLVMLHTSEHGGRAYRHAVEELPE
gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEVGGRAYTHALSELPE
gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       SLTLNLITEMGKLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a              SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYKHALSELPE
gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a               SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAVEELPD
gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                   SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                    SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLISEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                                 SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                            SITLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       SLTLSLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGKAYNHALSELPE
gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHALEELPD
gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 SLTLNLITEMGRLPTFMTHKAINALDNLAVLHTAEAGGRAYNHALSELPE
gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                          STTLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  SIALDLVTEIGRVPSHLAHKTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a      SIALDLVTEIGRVPSHLAHTVRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a         SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  SIALDLVTEIGRVPSHLVHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                     SLTLNLITEMGRLPTFMTQKARNALDDLAVLHTAEAGGRAYNHALSELPE
gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SISGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
                                                                                                                                     *   .:  *:. :* .:   .  ***::.:**.:* **:** **:.***:

gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        TIETLMRLGLIAVMTGGVTLFFLSGKGLGKTSNGLLCVMASSVLLWMASV
gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  TMETLLLLGLMILLTGGVMLFLISGKGIRKTSIGLICVIVSSGMLWMADV
gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a       SLETLMLVALLGAMTAGTFLFFMQGKGIGKLSMGLITIAVASGLLWVAEI
gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     TMETLLLLGLMILLTSGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                       TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a     TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIVTASILLWYAQI
gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a   TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASSLLWYAQI
gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a              TIETLMLLALIAVLTGGATLFFLSGKGLGKTSIGLLCVTASSALLWMASV
gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             TLETLLLLTLLATVTGGIFLFLMSGRGMGKMTLGTCCIITASILLWYAQI
gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                    TMETLLLLGLMILLTGGVMLFLISGKGVGKTSIGLICVVASSSMLWMADI
gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a       TLETLLLLTLLATVTGGIFLFLMSARGIGKMTLGMCCIITASILLWYAQI
gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a               TIETIMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVTSSSALLWMANV
gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAALTGGVTLFFLSGKGLGKTSIGLLCVMASSALLWMANV
gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       TLETLLLLTLLATVTGGIFLFLMSGRGIGRMPLGMCCIITASILLWYAQI
gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                   TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVVASSGMLWMADV
gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a              TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a               TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMSWMAEI
gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                   TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWHAQI
gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                    TLETLLLLTLLATVTGGIFLFLMSGKGVGKMTLGMCCIITASILLWYAQI
gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                                 SLETLMLVALLGAMTAGIFLFFMQGKGMGKLSMGLIAIAVASGLLWVAEI
gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                            SLETLMLVALLGALTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIIIAVASGLLWVAEI
gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIVTASILLWYAQI
gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                          SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMAEI
gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a      TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMADV
gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADI
gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a         TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                     TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TMETLLLLGLMVLLTGGALLFLISGKGIGKTSIGLICVIVSSGMLWMADV
gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSGLLWMASV
gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
                                                                                                                                     ::**:: : *:  :*.*  **::..:*: : . *   :  :* : * *.:

gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a       QPQWIAASIILEFFLMVLLIPEPEKQR
gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a     EPHWIAASIILEFFLMVLLIPEPDRQR
gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                       EPHWIAASITLEFFLMVLLIPEPDRQR
gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a     QPHWIAASIILEFFLIVLLIPEPEKQR
gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    QPHWIAASIILEFFLIVLLIPEPEKQR
gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    QPHWIAASIILEFFLIVLLIPEPEKQR
gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a   QPHWIAASIILEFFLIVLLIPEPEKQR
gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a              EPHWIAASIILEFFLMVLLIPEPDRQR
gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             QPHWIAASIILEFFLIVLLIPEPEKQR
gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      QPQWIAASIILEFFLMVLLVPEPEKQR
gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                    PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a       QPHWIAASIILEFFLIVLLIPEPEKQR
gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    QPHWIAASIILEFFLIVLLIPEPEKQR
gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a               EPHWIAASIILEFFLMVLLIPEPDRQR
gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       QPHWIAASIILEFFLIVLLIPEPEKQR
gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                   PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             EPHWIAASIILEFFLMVLLIPEPDRQR
gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASITLEFFLMVLLIPEPDRQR
gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a    QPHWIAASIILEFFLIVLLIPEPEKQR
gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       QPHWIAASIILEFFLIVLLIPEPEKQR
gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a              QPHWIAASIILEFFLIVLLIPEPEKQR
gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a               PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a        EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                   QPHWIAASIILEFFLIVLLIPEPEKQR
gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                    QPHWIAASIILEFFLMVLLIPEPEKQR
gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                                 QPQWIAASIILEFFLMALLIPEPEKQR
gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                            QPQWIAASIILEFFLMVLLIPEPEKQR
gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  QPQWIAASIILEFFLMVLLIPEPEKQR
gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                       QPHWIAASIILEFFLIVLLIPEPEKQR
gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 QPHWIAASIILEFFLIVLLIPEPEKQR
gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                          QPQWIAASIILEFFLMVLLIPEPEKQR
gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a      PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a         EPHWIAASIILEFFLKELLIPDADGQR
gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                     QPHWIAASIILEFFLIVLLIPEPEKQR
gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      PLQWIASAIVLEFFMMVLLIPEPEKQR
gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 QPHWIADSIILEFFLIVLLIPEPEKQR
gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      EPHWIAASIILEFFLMVLLIPEPDRQR
gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a      QPQWIAASIILEFFLMVLLVPEPEKQR
                                                                                                                                       :*** :* ****:  **:*:.: **

>gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTTTTAGGGGACCTAAAATTAGAAATAGGGAAACTTCCACAACATTT
GACGATAAAGGCCCGGAATGCCTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACACGCTATGGAAGAACTACCAGAC
ACCATAGAAACATTGATGCGCTTAGGTTTGATAGCTGTGATGACTGGTGG
AGTGACTCTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCAATG
GTCTACTCTGTGTGATGGCCTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGATAGACAGCGC
>gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCCTGGGACTCATGATCTTATTAACAGGTGG
AGTAATGCTTTTCTTGATATCAGGTAAAGGAATTAGAAAGACTTCAATAG
GACTTATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAACAAAGA
>gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACCTACCT
TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
TCACTGGAAACACTTATGCTTGTAGCTTTACTAGGTGCTATGACAGCAGG
TACCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
GTTTGATAACCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
ACTGTTGATACCGGAACCAGAAAAACAAAGG
>gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
AGCCCACAGAACAAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACACGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAAGTGG
AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAGAGA
>gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCATCTCAGGTGATCTAATACTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATTCTGGAGTTCTTCCTGATGGT
GTTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATTTAATATTGGAAATAGGGAAACTTCCACAACATCT
AACGCAAAGGGCCCAGAATGCCTTGGACAATCTGGTTATGCTGCACAACT
CTGAACAGGGAGGAAAAGCCTATAGACACGCCATGGAAGAACTACCAGAC
ACCATAGAAACGTTAATGCTCCTGGCTTTGATAGCTGTGCTGACTGGTGG
GGTGACGTTGTTCTTCCTATCAGGAAGGGGTCTAGGAAAAACATCCATTG
GCCTACTCTGCGTGATGGCCTCAAGTGCGCTGTTATGGATGGCCAGTGTG
GAACCCCATTGGATAGCGGCCTCTATCACACTGGAGTTCTTTCTGATGGT
GTTGCTTATTCCAGAACCGGACAGACAGCGC
>gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACATTCAT
GACTCAGAAGACAAGAGACGCACTGGATAACCTAGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTAGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACAGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGCATCCTTCTATGGTACGCACAGATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCAGAAAAACAGAGA
>gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTCTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACGTTCAT
GACCCAGAAGACAAGAGACGCACTGGATAACTTAGCAGTGCTGCACACGG
CCGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCCACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTAG
GAATGTGCTGCATAGTCACGGCTAGCATCCTTCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATTACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAAACGCACTGGACAACTTGGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGCAGCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTACAGACATGCTATGGAGGAACTACCAGAC
ACTATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGCGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAACCAGACAGACAGCGC
>gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTAACCCTGAACCTAATCACAGAGATGGGCAGACTCCCAACTTTTAT
GACTCAGAAGGCCAGAGATGCACTAGACAACTTGGCGGTGTTGCACACGG
CTGAAGCGGGTGGAAAGGCATACAATCATGCTCTCAGTGAATTACCGGAG
ACCCTGGAGACATTGCTTTTGCTGACACTGTTGGCCACAGTCACGGGAGG
AATCTTCCTATTCCTGATGAGCGGAAGGGGTATGGGGAAGATGACCCTGG
GAACGTGCTGCATAATCACGGCCAGCATCCTCTTATGGTATGCACAAATA
CAACCACATTGGATAGCAGCCTCAATAATATTGGAGTTCTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGG
>gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTATGACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCCAGGGCCAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
CATCTTCCTATTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTAGCAGAAATC
CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
GCTGTTGGTACCAGAACCAGAAAAACAAAGG
>gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCGATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACATTT
AGCTCACAGAACGAGAAACGCTCTGGACAATCTGGTGATGTTGCACACGT
CAGAACACGGTGGGAGGGCCTACAGGCATGCAGTGGAGGAATTACCAGAA
ACAATGGAAACACTTCTACTCCTGGGACTTATGATCCTGTTAACAGGTGG
GGTGATGCTTTTCTTGATATCAGGCAAAGGGGTTGGAAAGACTTCAATAG
GACTCATTTGTGTAGTTGCTTCCAGCAGCATGTTATGGATGGCTGATATC
CCACTCCAATGGATCGCGTCGGCCATAGTTCTGGAGTTTTTTATGATGGT
GCTACTTATACCAGAACCAGAAAAGCAGAGA
>gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a
TCTCTGACCCTGAACCTAATCACAGAAATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
CTGAGGCAGGTGGAAGGGCGTACAACCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGCAAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGCATCCTCCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCTGAAAAACAGAGA
>gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATCACAGAAATGGGCAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGTAGGTGGAAAGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGTATAATCACGGCCAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTCCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAAGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATCT
AACGCAAAGGGCCCAGAATGCTTTGGATAATCTGGTTATGCTGCACAACT
CTGAACAAGGAGGAAAAGCTTATAGACACGCCATGGAAGAATTGCCAGAC
ACCATAGAGACAATAATGCTCCTAGCTCTGATAGCTGTGCTGACTGGCGG
AGTGACGCTGTTCTTCCTATCAGGAAGAGGCTTAGGGAAAACATCCATAG
GCCTACTCTGCGTGACGTCCTCAAGTGCACTGTTATGGATGGCCAATGTG
GAGCCCCATTGGATAGCGGCCTCTATTATACTAGAGTTCTTTCTGATGGT
GTTGCTCATTCCAGAGCCAGATAGACAGCGC
>gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACATGCTATGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTCCTAGCTTTGATAGCTGCGCTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTGCTCTGTGTGATGGCCTCAAGCGCACTGTTATGGATGGCCAATGTG
GAGCCACATTGGATAGCGGCCTCCATCATACTAGAATTCTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGC
>gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCTTGACCCTGAACCTAATCACAGAAATGGGAAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCATTGGACAACCTGGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACATTACTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
AATCTTTTTGTTCTTGATGAGCGGAAGAGGTATAGGGAGGATGCCCTTAG
GAATGTGCTGCATAATCACGGCCAGTATTCTTCTATGGTACGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATATTGGAATTTTTTCTCATAGT
TCTGCTTATTCCAGAACCAGAAAAGCAGAGA
>gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATTTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAG
ACTATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGCACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATTGCTCTTGATCTTGTGACAGAGATAGGAAGAGTGCCTTCACACTT
AGCCTACAGAACGAGAAGCGCCCTGGATAATCTGGTGATGTTGCACACAT
CAGAACACGGCGGGAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCTTACTCCTGGGACTCATGATCCTGTTAACAGGTGG
GGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAGTTGCTTCCAGCGGTATGTTATGGATGGCTGATGTC
CCACTCCAATGGATCGCATCGGCCATAGTCCTGGAGTTTTTTATGATGGT
GCTACTCATACCAGAACCAGAAAAGCAGAGA
>gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTTTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAACTACCAGAC
ACCATAGAAACATTGATGCTACTAGCCTTGATAGCTGTGCTGACTGGTGG
AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTACTTTGTGTAATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGT
>gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAGCTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTCATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAATTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCTTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCACACTGGAGTTCTTCCTAATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAAACGCATTGGACAACTTGGCTGTGCTGCATACGG
CTGAGGTAGGTGGAAGGGCGTACACTCATGCTCTCAGTGAACTGCCGGAG
ACTCTGGAGACACTGCTTCTACTGACACTCCTGGCAACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACTCTGG
GAATGTGTTGCATAATCACAGCTAGCATTCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTCTGACCCTGAACCTAATCACAGAAATGGGTAAGCTTCCAACATTCAT
GACTCAGAAGACAAGAGACGCACTGGACAACTTAGCAGTGCTGCACACGG
CTGAAGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTTCTGGCTACAGTCACGGGAGG
GATCTTTTTATTCTTGATGAGCGGGAGGGGCATAGGGAAGATGACCCTGG
GAATGTGCTGTATAATCACGGCTAGCATCCTTCTATGGTACGCTCAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTTATTCCAGAACCAGAAAAACAGAGA
>gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCTTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGACAACTTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAAACATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCCACAGTCACAGGAGG
AATCTTCTTATTCTTAATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCTAGCATTCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
AGCCCATAGAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGTGGCATGTCGTGGATGGCCGAAATC
CCACTCCAATGGATCGCGTCGGCTATAGTCTTGGAGTTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAGCAGAGA
>gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGCTAAGAGCCCAGAATGCTCTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTACAGACATGCTGTGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTATTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCTTGCTCTGTGTGACGGCCTCAAGCGCACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAACCAGACAGACAGCGC
>gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCATACGG
CTGAAGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCAGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGCATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCTTGACCCTGAACCTAATCACAGAAATGGGTAGGCTTCCAACTTTCAT
GACTCAGAAGGCAAGAGACGCACTGGATAACCTAGCTGTGCTGCATACGG
CTGAGGCAGGTGGAAGGGCGTACAATCATGCTCTCAGTGAACTGCCGGAG
ACCCTGGAGACACTGCTTTTACTGACACTCCTGGCTACAGTCACGGGAGG
AATTTTCTTATTCTTAATGAGCGGAAAAGGTGTAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCTAGTATCCTCCTATGGTATGCACAGATA
CAACCACACTGGATAGCAGCTTCAATAATATTGGAGTTTTTTCTCATGGT
TTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATTTAATATCAGAAATAGGGAAGCTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACACTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
GCCTACTCTGCGTAATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATTATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
AGCATAACCCTTGACATCCTAACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCTAGAGCTAAGCTTGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAAGGCCTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTACTAGGAGCTATGACAGCAGG
CATCTTCTTGTTCTTCATGCAAGGAAAAGGAATGGGGAAATTGTCAATGG
GTTTGATAGCCATCGCGGTAGCTAGTGGCTTGCTCTGGGTAGCAGAAATC
CAGCCCCAGTGGATAGCAGCCTCAATCATATTGGAGTTTTTTCTCATGGC
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
AGCATAACTCTTGACATCCTAACAGAGATTGCTACTTTGCCAACTTACCT
TTCCTCTAAGGCCAAGCTAGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAATGAACTCCCGGAG
TCACTGGAAACACTCATGCTTGTAGCCCTACTAGGTGCTTTGACAGCCGG
TATCTTCCTGTTTTTCATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
GTCTGATAGCCATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCAGAAATT
CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTATAACTCTCGACATCCTAACAGAGATTGCCAGTTTGCCAACTTACCT
TTCCTCTAGGGCCAAGCTCGCCCTTGATAACATAGTCATGCTCCACACAA
CAGAAAGAGGAGGGAGGGCCTATCAACACGCCCTGAACGAACTTCCGGAG
TCACTGGAAACACTCATGCTTGTAGCTTTGCTAGGTGCTATGACAGCAGG
TATCTTCCTGTTTTTCATGCAAGGGAAAGGAATAGGGAAATTGTCAATGG
GTTTGATAATCATTGCGGTGGCTAGTGGCTTGCTCTGGGTAGCAGAAATT
CAACCCCAGTGGATAGCGGCCTCAATCATACTAGAGTTTTTTCTCATGGT
ACTGTTGATACCGGAACCAGAAAAACAAAGG
>gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTGACCCTGAGTCTAATCACCGAGATGGGTAGGCTCCCAACCTTCAT
GACCCAGAAAGCAAGGAATGCATTGGACAACTTAGCAGTCCTACACACGG
CTGAAGCAGGCGGAAAGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACTCTGGAGACATTGCTTTTACTGACACTTTTGGCCACAGTCACAGGCGG
AATCTTCCTGTTCTTGATGAGCGGAAAGGGTATAGGGAAGATGACCCTGG
GAATGTGCTGCATAGTCACAGCCAGTATTCTTCTATGGTATGCACAAATA
CAGCCACATTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACATTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CTGAACAAGGAGGAAGAGCTTATAGACATGCACTGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATTG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAACCCCATTGGATAGCGGCCTCCATCATATTGGAGTTCTTCCTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAACGC
>gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACCCACAAAGCAATAAATGCACTGGATAACTTAGCAGTCTTGCATACAG
CTGAAGCAGGCGGAAGGGCGTATAATCATGCTCTTAGTGAACTGCCGGAG
ACTCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTGTTCTTGATGAGCGGAAAAGGTATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTATTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAACAGAGA
>gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
AGCACAACTCTTGACATCCTAACAGAGATTGCCACTTTGCCAACCTACCT
TTCCTCTAAGGCCAAACTAGCCCTTGACAACATAGTCATGCTCCACACAA
CAGAAAAAGGAGGGAGGGCCTACCAACACGCCCTGAACGAACTCCCGGAG
TCACTGGAAACACTCATGCTCGTAGCCCTACTAGGTGCTATGACAGCCGG
TATCTTCCTGTTTTTTATGCAGGGGAAAGGAATAGGGAAATTGTCAATGG
GTCTGATAGCTATAGCTGTGGCCAGTGGCTTGCTCTGGGTAGCGGAAATT
CAGCCCCAGTGGATAGCAGCTTCAATCATACTGGAGTTTTTTCTTATGGT
GCTGTTGATACCAGAACCAGAAAAACAAAGG
>gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACCT
AGCCCATAAAACGAGAAACGCTCTGGACAATCTGGTGATGCTGCATACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCGGTGGAGGAACTACCAGAG
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTGTTGACAGGTGG
AGCAATGCTTTTCTTAATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTGTGGATGGCCGAAATC
CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
GTTGCTCATACCAGAACCAGAAAAGCAGAGA
>gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCCCACACAGTACGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACGATGGAAACACTCTTACTCCTGGGACTGATGATCTTGTTAACAGGTGG
AGCAATGCTCTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTAATTGCTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTCCAATGGATCGCGTCGGCTATAGTCCTGGAGTTTTTTATGATGGT
GTTGCTCATACCAGAACCAGAAAAGCAGAGA
>gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
AGCAATGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATATC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAAAGA
>gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTGTCTCAGGTGACCTAATATTAGAAATAGGGAAACTTCCACAGCATTT
GACGCTAAGGGCCCAGAATGCTTTGGACAACTTGGTCATGTTGCACAATT
CCGAACAAGGGGGAAAAGCCTATAGACATGCTATGGAAGAATTACCAGAC
ACCATAGAAACATTGATGCTACTGGCTTTGATAGCTGTGCTGACTGGTGG
AGTTACGTTGTTTTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATTG
GCCTACTTTGTGTGATGGCCTCAAGTGTACTGTTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTTTTTCTGAAGGA
GCTGCTCATTCCAGATGCAGACGGACAGCGT
>gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGTCCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGGCATGCAGTGGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGATCTTATTAACAGGTGG
AGCAATGCTTTTCCTGATATCAGGTAAAGGAATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGCGGCATGTTATGGATGGCTGATGTC
CCACTTCAATGGATCGCGTCGGCTATAGTCCTGGAATTTTTTATGATGGT
GTTGCTTATACCAGAACCAGAAAAACAAAGA
>gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTCACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACTCAGAAAGCAAGGAACGCACTAGACGACTTAGCAGTCCTGCATACGG
CTGAGGCAGGCGGAAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGCTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGCTTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
TCAATCGCCCTTGATCTTGTGACAGAAATAGGAAGAGTGCCTTCACACTT
AGCTCACAGAACGAGAAACGCCCTGGACAATTTGGTGATGCTGCACACGT
CAGAACATGGCGGTAGGGCCTACAGACATGCAGTTGAGGAACTACCAGAA
ACAATGGAAACACTCCTACTCTTGGGACTCATGGTCTTATTAACAGGTGG
AGCACTGCTTTTCTTGATATCAGGTAAAGGGATTGGAAAGACTTCAATAG
GACTCATTTGTGTTATTGTTTCCAGTGGCATGTTATGGATGGCTGATGTC
CCACTTCAGTGGATCGCGTCGGCTATAGTCCTGGAATTTTTCATGATGGT
GTTGCTCATACCAGAACCAGAAAAACAAAGA
>gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGAGCCCAGAATGCCTTGGACAATCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTGATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGTACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
TCCCTGACCCTGAATCTAATCACAGAGATGGGTAGGCTCCCAACCTTCAT
GACCCAAAAAGCAAGGAACGCACTAGACAACTTAGCAGTCCTGCACACAG
CTGAAGCAGGTGGTAGGGCGTACAATCATGCTCTTAGTGAACTGCCGGAG
ACCCTGGAGACATTGCTTTTACTGACACTCTTGGCCACAGTCACGGGCGG
AATCTTCCTATTCTTGATGAGCGGAAAAGGCATAGGGAAGATGACCCTGG
GAATGTGTTGCATAATCACGGCCAGTGTTCTCCTATGGTATGCACAAATA
CAGCCACACTGGATAGCAGATTCAATAATACTGGAGTTTTTTCTCATAGT
CTTGCTCATTCCAGAACCAGAAAAGCAGAGA
>gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTATCTCAGGTGACCTAATATTGGAAATAGGGAAACTTCCACAACATTT
GACGTTAAGAGCCCAGAATGCTCTGGATAACTTGGTCATGTTGCACAATT
CCGAACAAGGAGGAAAAGCCTATAGACATGCCATGGAGGAACTACCAGAC
ACCATAGAAACATTGATGCTTCTAGCTTTGATAGCTGTGTTGACTGGTGG
AGTGACGCTGTTCTTCCTATCAGGAAAAGGTCTAGGGAAAACATCCATCG
GCCTACTCTGTGTGACGGCTTCAAGCGCACTGTTGTGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTAGAGTTCTTTTTGATGGT
GCTGCTCATTCCAGAGCCAGACAGACAGCGC
>gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGCGTCTCAGGTGATCTAATATTAGAAATAGGGAAACTTCCACAACACTT
GACGCAAAGGGCCCAGAATGCCTTGGACAACCTGGTTATGTTGCACAACT
CCGAACAAGGAGGAAGAGCCTATAGACATGCAATGGAAGAACTGCCAGAC
ACCATAGAAACGTTAATGCTCCTAGCTTTGATAGCTGTGTTAACTGGTGG
AGTGATGCTGTTCTTCCTATCAGGAAGGGGCCTAGGGAAAACATCTATCG
GCCTACTCTGCGTGATGGCTTCAAGCGGACTGCTATGGATGGCCAGTGTG
GAGCCCCATTGGATAGCGGCCTCCATCATACTGGAGTTCTTCCTGATGGT
GCTGCTTATTCCAGAGCCAGACAGACAACGC
>gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
AGTATAACTCTCGACATCTTGACAGAAATTGCCAGTTTGCCAACGTACCT
TTCCTCCAGGGCTAAGCTCGCCCTTGACAACATAGTCATGCTCCATACAA
CAGAAAGAGGAGGGAAGGCTTACCAACACGCTCTGAACGAACTCCCAGAG
TCACTAGAAACACTCATGCTTGTAGCTTTATTAGGAGCCATGACAGCAGG
CATCTTCCTGTTCTTCATGCAAGGAAAAGGAATAGGAAAATTGTCAATGG
GTTTGATAGCCATTGCGGTAGCTAGTGGCTTACTCTGGGTGGCAGAAATC
CAGCCCCAATGGATAGCGGCCTCAATCATATTGGAGTTTTTTCTCATGGT
GCTGTTGGTACCAGAACCAGAAAAACAAAGG

>gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVLGDLKLEIGKLPQHLTIKARNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMRLGLIAVMTGGVTLFFLSGKGLGKTSNGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGIRKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGTFLFFMQGKGIGKLSMGLITIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTSGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SISGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASSLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGATLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGMGKMTLGTCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SMTLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR
>gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGVMLFLISGKGVGKTSIGLICVVASSSMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSARGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEVGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSSDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETIMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVTSSSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAALTGGVTLFFLSGKGLGKTSIGLLCVMASSALLWMANV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGRMPLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPE
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAYRTRSALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVVASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASITLEFFLMVLLIPEPDRQR
>gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEVGGRAYTHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGKLPTFMTQKTRDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGRGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYKHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMSWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAVEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWHAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARDALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGVGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLMVLLIPEPEKQR
>gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLISEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGMGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMALLIPEPEKQR
>gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
SITLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGALTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIIIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLSLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGKAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIVTASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHALEELPD
TIETLMLLALIAVLTGGVTLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTHKAINALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASILLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a
STTLDILTEIATLPTYLSSKAKLALDNIVMLHTTEKGGRAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLIPEPEKQR
>gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHKTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMAEI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHTVRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIASSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADI
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLKELLIPDADGQR
>gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLVHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMILLTGGAMLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARNALDDLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIAASIILEFFLIVLLIPEPEKQR
>gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SIALDLVTEIGRVPSHLAHRTRNALDNLVMLHTSEHGGRAYRHAVEELPE
TMETLLLLGLMVLLTGGALLFLISGKGIGKTSIGLICVIVSSGMLWMADV
PLQWIASAIVLEFFMMVLLIPEPEKQR
>gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSVLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a
SLTLNLITEMGRLPTFMTQKARNALDNLAVLHTAEAGGRAYNHALSELPE
TLETLLLLTLLATVTGGIFLFLMSGKGIGKMTLGMCCIITASVLLWYAQI
QPHWIADSIILEFFLIVLLIPEPEKQR
>gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SISGDLILEIGKLPQHLTLRAQNALDNLVMLHNSEQGGKAYRHAMEELPD
TIETLMLLALIAVLTGGVTLFFLSGKGLGKTSIGLLCVTASSALLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SVSGDLILEIGKLPQHLTQRAQNALDNLVMLHNSEQGGRAYRHAMEELPD
TIETLMLLALIAVLTGGVMLFFLSGRGLGKTSIGLLCVMASSGLLWMASV
EPHWIAASIILEFFLMVLLIPEPDRQR
>gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a
SITLDILTEIASLPTYLSSRAKLALDNIVMLHTTERGGKAYQHALNELPE
SLETLMLVALLGAMTAGIFLFFMQGKGIGKLSMGLIAIAVASGLLWVAEI
QPQWIAASIILEFFLMVLLVPEPEKQR

Reading sequence file aligned.fasta
Allocating space for 50 taxa and 381 sites
Alignment looks like a valid DNA alignment.
Estimated diversity is (pairwise deletion - ignoring missing/ambig): 30.3%
Found 232 informative sites.
Writing alignment of informative sites to: Phi.inf.sites
Writing list of informative sites to:      Phi.inf.list
Using a window size of 100 with k as 61

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 168 polymorphic sites

       p-Value(s)
       ----------

NSS:                 1.01e-01  (1000 permutations)
Max Chi^2:           9.47e-01  (1000 permutations)
PHI (Permutation):   9.77e-01  (1000 permutations)
PHI (Normal):        9.72e-01

#NEXUS

[ID: 6974038327]
begin taxa;
	dimensions ntax=50;
	taxlabels
		gb_JQ922546|Organism_Dengue_virus_1|Strain_Name_DENV-1/IND/715393/1971|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KU509280|Organism_Dengue_virus_3|Strain_Name_DENV3-1631|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KY586823|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq1|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KY586796|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_Bangkok_Seq72|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KY586400|Organism_Dengue_virus|Strain_Name_Ser1_Thailand_BangkokSeq_78|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_FJ196845|Organism_Dengue_virus_1|Strain_Name_GD03/91|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_EU482472|Organism_Dengue_virus_2|Strain_Name_DENV-2/VN/BID-V927/2004|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_FJ639828|Organism_Dengue_virus_2|Strain_Name_DENV-2/TH/BID-V2153/2001|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_EU529701|Organism_Dengue_virus_2|Strain_Name_DENV-2/US/BID-V1087/1991|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_AF208496|Organism_Dengue_virus_2|Strain_Name_DEN2/H/IMTSSA-MART/98-703|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KP188542|Organism_Dengue_virus_1|Strain_Name_BR/SJRP/395/2011|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_HM582114|Organism_Dengue_virus_2|Strain_Name_D2/TO/UH39/1974|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KY586890|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq28|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KC762684|Organism_Dengue_virus_3|Strain_Name_MKS-0098|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_CS477302|Organism_Dengue_virus|Strain_Name_patent_WO2006134433_40|Protein_Name_ns4a_protein_[Dengue_virus]|Gene_Symbol_NS4a
		gb_EU569718|Organism_Dengue_virus_2|Strain_Name_DENV-2/US/BID-V1401/1997|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JQ915071|Organism_Dengue_virus_1|Strain_Name_PF07/230407-201|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_FJ205872|Organism_Dengue_virus_1|Strain_Name_DENV-1/US/BID-V1739/1998|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KJ734727|Organism_Dengue_virus_2|Strain_Name_PL046|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_FJ639671|Organism_Dengue_virus_1|Strain_Name_DENV-1/KH/BID-V1981/2001|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KU509279|Organism_Dengue_virus_3|Strain_Name_DENV3-632|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JF960211|Organism_Dengue_virus_1|Strain_Name_SG_EHI_D1/0091Y09|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_FJ898396|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V2858/2006|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_GQ199892|Organism_Dengue_virus_2|Strain_Name_DENV-2/JM/BID-V2963/2007|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_AF100462|Organism_Dengue_virus_2|Strain_Name_C0390|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JX669487|Organism_Dengue_virus_2|Strain_Name_72144/BR-PE/00|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JF808122|Organism_Dengue_virus_3|Strain_Name_D3PY/SUS/2003|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KP188541|Organism_Dengue_virus_1|Strain_Name_DENV1_BR/SJRP/354/2011|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KU509269|Organism_Dengue_virus_2|Strain_Name_DENV2-973|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_AF119661|Organism_Dengue_virus_2|Strain_Name_China_04|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_EU726780|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V1556/2007|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KX845005|Organism_Dengue_virus_4|Strain_Name_UOH_23916|Protein_Name_NS4A_protein|Gene_Symbol_NS4a
		gb_JX024757|Organism_Dengue_virus_4|Strain_Name_EHI310A129CY10|Protein_Name_NS4A_protein|Gene_Symbol_NS4a
		gb_KF907503|Organism_Dengue_virus|Strain_Name_Dakar_HD_34460|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KX452021|Organism_Dengue_virus_2|Strain_Name_TM101|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KY586309|Organism_Dengue_virus|Strain_Name_Ser1_Thailand_BangkokSeq_4|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_EU179859|Organism_Dengue_virus_2|Strain_Name_DS09-280106|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JQ915090|Organism_Dengue_virus_4|Strain_Name_WF09/010409-0001|Protein_Name_NS4A_protein|Gene_Symbol_NS4a
		gb_AY679147|Organism_Dengue_virus_3|Strain_Name_BR74886/02|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_JQ922554|Organism_Dengue_virus_3|Strain_Name_DENV-3/USA/633798/1963|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KY586766|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_nonBKK_Seq17|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_JQ922548|Organism_Dengue_virus_1|Strain_Name_DENV-1/IND/55290/2005|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KU509284|Organism_Dengue_virus_3|Strain_Name_DENV3-3847|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_FJ196852|Organism_Dengue_virus_2|Strain_Name_GD01/01|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KY586711|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_Bangkok_Seq7|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_EU660402|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V1501/2006|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KU509277|Organism_Dengue_virus_2|Strain_Name_DENV2-14706|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a
		gb_KF955427|Organism_Dengue_virus_1|Strain_Name_DENV-1/MX/BID-V3705/2007|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_GQ868619|Organism_Dengue_virus_1|Strain_Name_DENV-1/KH/BID-V1991/2003|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		gb_KY586888|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq26|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		;
end;
begin trees;
	translate
		1	gb_JQ922546|Organism_Dengue_virus_1|Strain_Name_DENV-1/IND/715393/1971|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		2	gb_KU509280|Organism_Dengue_virus_3|Strain_Name_DENV3-1631|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		3	gb_KY586823|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq1|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		4	gb_KY586796|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_Bangkok_Seq72|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		5	gb_KY586400|Organism_Dengue_virus|Strain_Name_Ser1_Thailand_BangkokSeq_78|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		6	gb_FJ196845|Organism_Dengue_virus_1|Strain_Name_GD03/91|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		7	gb_EU482472|Organism_Dengue_virus_2|Strain_Name_DENV-2/VN/BID-V927/2004|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		8	gb_FJ639828|Organism_Dengue_virus_2|Strain_Name_DENV-2/TH/BID-V2153/2001|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		9	gb_EU529701|Organism_Dengue_virus_2|Strain_Name_DENV-2/US/BID-V1087/1991|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		10	gb_AF208496|Organism_Dengue_virus_2|Strain_Name_DEN2/H/IMTSSA-MART/98-703|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		11	gb_KP188542|Organism_Dengue_virus_1|Strain_Name_BR/SJRP/395/2011|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		12	gb_HM582114|Organism_Dengue_virus_2|Strain_Name_D2/TO/UH39/1974|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		13	gb_KY586890|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq28|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		14	gb_KC762684|Organism_Dengue_virus_3|Strain_Name_MKS-0098|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		15	gb_CS477302|Organism_Dengue_virus|Strain_Name_patent_WO2006134433_40|Protein_Name_ns4a_protein_[Dengue_virus]|Gene_Symbol_NS4a,
		16	gb_EU569718|Organism_Dengue_virus_2|Strain_Name_DENV-2/US/BID-V1401/1997|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		17	gb_JQ915071|Organism_Dengue_virus_1|Strain_Name_PF07/230407-201|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		18	gb_FJ205872|Organism_Dengue_virus_1|Strain_Name_DENV-1/US/BID-V1739/1998|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		19	gb_KJ734727|Organism_Dengue_virus_2|Strain_Name_PL046|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		20	gb_FJ639671|Organism_Dengue_virus_1|Strain_Name_DENV-1/KH/BID-V1981/2001|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		21	gb_KU509279|Organism_Dengue_virus_3|Strain_Name_DENV3-632|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		22	gb_JF960211|Organism_Dengue_virus_1|Strain_Name_SG_EHI_D1/0091Y09|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		23	gb_FJ898396|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V2858/2006|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		24	gb_GQ199892|Organism_Dengue_virus_2|Strain_Name_DENV-2/JM/BID-V2963/2007|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		25	gb_AF100462|Organism_Dengue_virus_2|Strain_Name_C0390|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		26	gb_JX669487|Organism_Dengue_virus_2|Strain_Name_72144/BR-PE/00|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		27	gb_JF808122|Organism_Dengue_virus_3|Strain_Name_D3PY/SUS/2003|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		28	gb_KP188541|Organism_Dengue_virus_1|Strain_Name_DENV1_BR/SJRP/354/2011|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		29	gb_KU509269|Organism_Dengue_virus_2|Strain_Name_DENV2-973|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		30	gb_AF119661|Organism_Dengue_virus_2|Strain_Name_China_04|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		31	gb_EU726780|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V1556/2007|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		32	gb_KX845005|Organism_Dengue_virus_4|Strain_Name_UOH_23916|Protein_Name_NS4A_protein|Gene_Symbol_NS4a,
		33	gb_JX024757|Organism_Dengue_virus_4|Strain_Name_EHI310A129CY10|Protein_Name_NS4A_protein|Gene_Symbol_NS4a,
		34	gb_KF907503|Organism_Dengue_virus|Strain_Name_Dakar_HD_34460|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		35	gb_KX452021|Organism_Dengue_virus_2|Strain_Name_TM101|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		36	gb_KY586309|Organism_Dengue_virus|Strain_Name_Ser1_Thailand_BangkokSeq_4|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		37	gb_EU179859|Organism_Dengue_virus_2|Strain_Name_DS09-280106|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		38	gb_JQ915090|Organism_Dengue_virus_4|Strain_Name_WF09/010409-0001|Protein_Name_NS4A_protein|Gene_Symbol_NS4a,
		39	gb_AY679147|Organism_Dengue_virus_3|Strain_Name_BR74886/02|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		40	gb_JQ922554|Organism_Dengue_virus_3|Strain_Name_DENV-3/USA/633798/1963|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		41	gb_KY586766|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_nonBKK_Seq17|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		42	gb_JQ922548|Organism_Dengue_virus_1|Strain_Name_DENV-1/IND/55290/2005|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		43	gb_KU509284|Organism_Dengue_virus_3|Strain_Name_DENV3-3847|Protein_Name_nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		44	gb_FJ196852|Organism_Dengue_virus_2|Strain_Name_GD01/01|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		45	gb_KY586711|Organism_Dengue_virus|Strain_Name_Ser3_Thailand_Bangkok_Seq7|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		46	gb_EU660402|Organism_Dengue_virus_1|Strain_Name_DENV-1/VN/BID-V1501/2006|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		47	gb_KU509277|Organism_Dengue_virus_2|Strain_Name_DENV2-14706|Protein_Name_Nonstructural_protein_NS4A|Gene_Symbol_NS4a,
		48	gb_KF955427|Organism_Dengue_virus_1|Strain_Name_DENV-1/MX/BID-V3705/2007|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		49	gb_GQ868619|Organism_Dengue_virus_1|Strain_Name_DENV-1/KH/BID-V1991/2003|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a,
		50	gb_KY586888|Organism_Dengue_virus|Strain_Name_Ser4_Thailand_nonBKK_Seq26|Protein_Name_nonstructural_protein_4A|Gene_Symbol_NS4a
		;
   [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 = (1:0.1028425,(22:0.01442616,42:0.04137079)0.996:0.05663305,(((((((2:0.02297992,43:0.01366932)0.905:0.01444315,(4:0.02824813,(41:0.008644728,45:0.02869352)0.742:0.008397586)0.809:0.01490468)0.968:0.04362437,(14:0.08894129,21:0.05518231)0.814:0.05445551,(27:0.02219738,39:0.00804402)0.950:0.06786539,40:0.04818213)1.000:0.7963065,((((3:0.01413563,34:0.0310186)0.967:0.04040695,((13:0.01623777,50:0.0147806)0.991:0.06956689,32:0.04713724)0.919:0.07846789)0.616:0.04835508,(33:0.01838034,38:0.03758212)0.932:0.07248706)1.000:0.9729239,((((7:0.0290923,8:0.04444411)0.524:0.007043453,25:0.01869371)0.965:0.0290559,15:0.03080276)0.927:0.03929726,(((9:0.008384767,16:0.02821081)0.765:0.009282237,(10:0.008913252,24:0.03624699)0.855:0.02233116,26:0.01191089)0.598:0.02094817,30:0.03703961)0.581:0.05410825,(12:0.1833598,(((29:0.01309785,44:0.01791432)0.534:0.007375498,47:0.0400014)0.889:0.02134512,(35:0.07308635,37:0.04662557)0.779:0.02074196)0.911:0.07136171)0.736:0.04534555,19:0.09291639)1.000:1.075706)1.000:0.6386772)1.000:0.8434877,(5:0.02777928,20:0.02159687,23:0.03205212,31:0.0336637,36:0.0337409,(46:0.01267077,49:0.01204398)0.737:0.007828224)0.523:0.07722545)0.546:0.07581695,(6:0.08851109,17:0.109349)0.759:0.06615001)0.898:0.06075439,(((11:0.0122026,28:0.01288713)0.976:0.02851074,48:0.03891252)0.938:0.02105064,18:0.03013917)0.942:0.03384989)0.563:0.01059647);

   [Note: This tree contains information only on the topology
          and branch lengths (median of the posterior probability density).]
   tree con_50_majrule = (1:0.1028425,(22:0.01442616,42:0.04137079):0.05663305,(((((((2:0.02297992,43:0.01366932):0.01444315,(4:0.02824813,(41:0.008644728,45:0.02869352):0.008397586):0.01490468):0.04362437,(14:0.08894129,21:0.05518231):0.05445551,(27:0.02219738,39:0.00804402):0.06786539,40:0.04818213):0.7963065,((((3:0.01413563,34:0.0310186):0.04040695,((13:0.01623777,50:0.0147806):0.06956689,32:0.04713724):0.07846789):0.04835508,(33:0.01838034,38:0.03758212):0.07248706):0.9729239,((((7:0.0290923,8:0.04444411):0.007043453,25:0.01869371):0.0290559,15:0.03080276):0.03929726,(((9:0.008384767,16:0.02821081):0.009282237,(10:0.008913252,24:0.03624699):0.02233116,26:0.01191089):0.02094817,30:0.03703961):0.05410825,(12:0.1833598,(((29:0.01309785,44:0.01791432):0.007375498,47:0.0400014):0.02134512,(35:0.07308635,37:0.04662557):0.02074196):0.07136171):0.04534555,19:0.09291639):1.075706):0.6386772):0.8434877,(5:0.02777928,20:0.02159687,23:0.03205212,31:0.0336637,36:0.0337409,(46:0.01267077,49:0.01204398):0.007828224):0.07722545):0.07581695,(6:0.08851109,17:0.109349):0.06615001):0.06075439,(((11:0.0122026,28:0.01288713):0.02851074,48:0.03891252):0.02105064,18:0.03013917):0.03384989):0.01059647);
end;

      Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
(Use the harmonic mean for Bayes factor comparisons of models)

(Values are saved to the file /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)

Run   Arithmetic mean   Harmonic mean
--------------------------------------
1      -4199.36         -4240.41
2      -4197.50         -4244.43
--------------------------------------
TOTAL    -4198.04         -4243.76
--------------------------------------


Model parameter summaries over the runs sampled in files
"/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p":
Summaries are based on a total of 3002 samples from 2 runs.
Each run produced 2001 samples of which 1501 samples were included.
Parameter summaries saved to file "/opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".

95% HPD Interval
--------------------
Parameter         Mean      Variance     Lower       Upper       Median    min ESS*  avg ESS    PSRF+
------------------------------------------------------------------------------------------------------
TL{all}         7.764362    0.310361    6.717556    8.902902    7.735326   1006.27   1149.29    1.003
r(A<->C){all}   0.042299    0.000080    0.025496    0.059154    0.041914    725.37    872.11    1.000
r(A<->G){all}   0.219197    0.000516    0.177559    0.263306    0.218269    534.82    615.87    1.002
r(A<->T){all}   0.057318    0.000114    0.037177    0.078997    0.056936    825.85    919.19    1.000
r(C<->G){all}   0.030973    0.000070    0.015135    0.046944    0.030301    746.24    760.67    1.002
r(C<->T){all}   0.610259    0.000805    0.557076    0.664697    0.610838    516.75    586.39    1.001
r(G<->T){all}   0.039955    0.000089    0.022357    0.058293    0.039240    858.03    933.58    1.001
pi(A){all}      0.304337    0.000243    0.273248    0.334181    0.304511    787.68    788.67    1.001
pi(C){all}      0.238327    0.000206    0.209992    0.265187    0.237820    778.89    850.42    1.000
pi(G){all}      0.239077    0.000218    0.211503    0.269449    0.238938    859.17    912.96    1.000
pi(T){all}      0.218259    0.000186    0.191953    0.244496    0.218567    685.71    700.46    1.002
alpha{1,2}      0.289034    0.000822    0.235654    0.345959    0.286655   1332.68   1360.78    1.000
alpha{3}        4.496912    0.962501    2.745290    6.471351    4.387735   1295.13   1398.07    1.001
pinvar{all}     0.030159    0.000494    0.000014    0.073195    0.025915   1092.85   1264.29    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

CODONML (in paml version 4.8, March 2014)  /opt/ADOPS1/DNG_A2/NS4A_5/batch/allfiles/codeml/input.fasta.fasta.pnxs
Model: One dN/dS ratio for branches, 
Codon frequency model: F3x4
Site-class models: 
ns =  50  ls = 127

Codon usage in sequences
--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   2   2   3   1   0   1 | Ser TCT   0   0   1   0   1   2 | Tyr TAT   1   0   0   0   1   1 | Cys TGT   1   1   0   1   0   0
    TTC   2   1   2   2   4   3 |     TCC   3   1   1   1   2   1 |     TAC   0   1   2   1   0   0 |     TGC   0   0   0   0   1   1
Leu TTA   3   4   1   4   1   3 |     TCA   2   5   3   5   3   3 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   6   3   5   4   6   5 |     TCG   0   1   0   1   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   1   6   4   4   2   2 | Pro CCT   0   1   0   1   0   0 | His CAT   2   2   0   2   2   2 | Arg CGT   0   0   0   0   0   0
    CTC   2   3   6   5   2   2 |     CCC   1   0   1   0   1   1 |     CAC   2   3   2   3   2   2 |     CGC   2   0   0   0   1   1
    CTA   7   2   3   2   7   5 |     CCA   4   4   2   4   4   3 | Gln CAA   2   2   4   1   4   2 |     CGA   0   0   0   0   0   0
    CTG   4   4   4   3   6   7 |     CCG   0   0   2   0   0   1 |     CAG   1   0   1   1   1   3 |     CGG   1   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   1   3   3   3   2   2 | Thr ACT   2   1   1   1   1   1 | Asn AAT   3   1   0   1   1   2 | Ser AGT   2   0   2   2   1   2
    ATC   1   3   2   3   3   1 |     ACC   1   0   3   0   1   1 |     AAC   1   1   2   1   2   1 |     AGC   1   1   1   0   2   1
    ATA   6   5   7   5   5   5 |     ACA   2   4   5   5   1   2 | Lys AAA   5   2   3   2   2   3 | Arg AGA   2   5   1   4   3   2
Met ATG   7   8   6   8   6   6 |     ACG   1   2   0   1   3   3 |     AAG   1   1   1   1   1   0 |     AGG   0   2   3   2   1   2
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   1   2   0   2   0   1 | Ala GCT   2   2   3   2   3   2 | Asp GAT   1   2   1   2   1   1 | Gly GGT   4   3   3   2   2   3
    GTC   1   2   1   2   1   1 |     GCC   6   4   6   4   5   7 |     GAC   3   1   1   1   3   3 |     GGC   0   2   1   2   2   1
    GTA   1   1   3   0   1   0 |     GCA   0   1   2   2   1   0 | Glu GAA   5   8   6   8   5   7 |     GGA   4   5   2   5   4   4
    GTG   5   5   1   5   5   5 |     GCG   1   1   2   1   1   2 |     GAG   3   1   3   1   3   1 |     GGG   3   0   3   1   2   2
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   3   3   2   2   1   2 | Ser TCT   1   1   1   1   0   0 | Tyr TAT   0   0   1   1   0   1 | Cys TGT   0   0   1   1   1   0
    TTC   2   2   3   3   3   3 |     TCC   0   0   0   0   3   1 |     TAC   2   2   1   1   1   1 |     TGC   2   2   1   1   0   2
Leu TTA   2   3   4   2   1   2 |     TCA   1   1   1   1   3   1 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   3   2   2   3   9   7 |     TCG   0   0   0   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   5   4   2   2   2   1 | Pro CCT   0   0   0   0   0   0 | His CAT   1   1   2   2   3   2 | Arg CGT   0   0   0   0   0   0
    CTC   2   3   5   5   2   5 |     CCC   0   0   0   0   1   0 |     CAC   2   2   1   1   1   1 |     CGC   0   0   0   0   1   0
    CTA   4   3   2   3   8   4 |     CCA   4   4   4   4   4   4 | Gln CAA   0   1   1   1   2   2 |     CGA   0   0   0   0   0   0
    CTG   9  10  10  10   3   6 |     CCG   1   1   1   1   0   1 |     CAG   4   3   3   3   2   2 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   1   2   2   1   2   1 | Thr ACT   1   0   2   2   2   2 | Asn AAT   1   1   1   1   2   1 | Ser AGT   1   1   2   1   2   1
    ATC   4   2   3   3   1   4 |     ACC   3   4   3   3   0   3 |     AAC   2   2   2   3   1   2 |     AGC   2   2   1   3   1   2
    ATA   7   7   7   7   6   6 |     ACA   7   5   5   5   2   4 | Lys AAA   1   1   2   2   4   0 | Arg AGA   2   2   2   2   3   2
Met ATG   5   5   5   5   5   5 |     ACG   2   4   2   2   3   4 |     AAG   2   2   3   2   0   4 |     AGG   3   3   1   2   0   2
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   1   1   1   1   0   0 | Ala GCT   5   3   5   5   4   2 | Asp GAT   1   1   0   0   0   1 | Gly GGT   2   2   3   3   3   2
    GTC   1   2   1   1   2   2 |     GCC   0   2   1   0   5   4 |     GAC   1   1   2   1   4   1 |     GGC   1   1   0   0   1   1
    GTA   0   0   0   0   0   0 |     GCA   5   5   5   6   1   4 | Glu GAA   5   5   4   4   5   4 |     GGA   3   3   5   5   4   5
    GTG   1   1   1   1   4   1 |     GCG   1   1   1   1   2   2 |     GAG   3   3   4   4   3   4 |     GGG   3   3   1   1   2   1
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   2   2   3   1   1   1 | Ser TCT   0   0   1   1   2   0 | Tyr TAT   0   0   0   1   1   1 | Cys TGT   0   1   0   2   0   1
    TTC   3   1   2   4   3   3 |     TCC   2   1   0   0   2   3 |     TAC   2   1   2   1   0   0 |     TGC   0   0   2   0   1   0
Leu TTA   3   4   3   4   2   1 |     TCA   3   4   1   1   3   3 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   6   2   3   2   4   6 |     TCG   0   2   0   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   3   6   3   2   1   1 | Pro CCT   0   1   1   0   0   0 | His CAT   1   2   1   2   2   3 | Arg CGT   0   0   0   0   0   0
    CTC   7   3   4   5   3   3 |     CCC   1   0   0   0   1   0 |     CAC   1   3   2   1   2   1 |     CGC   0   0   0   0   1   1
    CTA   2   2   2   2   6   7 |     CCA   4   4   3   4   4   5 | Gln CAA   4   1   1   1   3   2 |     CGA   0   0   0   0   0   0
    CTG   2   5  10  10   7   7 |     CCG   0   0   1   1   0   0 |     CAG   1   1   3   3   2   2 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   2   1   1   1   2   2 | Thr ACT   1   1   1   2   1   1 | Asn AAT   0   1   0   1   3   3 | Ser AGT   3   0   1   2   2   1
    ATC   4   4   4   4   0   1 |     ACC   0   0   4   3   1   1 |     AAC   2   1   3   2   1   1 |     AGC   0   2   2   1   1   1
    ATA   5   5   7   7   8   6 |     ACA   5   4   4   5   2   2 | Lys AAA   3   1   1   2   3   4 | Arg AGA   1   4   2   2   3   3
Met ATG   7   8   5   5   5   6 |     ACG   1   2   3   2   3   2 |     AAG   2   2   2   3   0   0 |     AGG   2   2   3   1   1   0
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   0   3   1   1   1   0 | Ala GCT   3   4   5   4   4   4 | Asp GAT   0   2   0   0   2   1 | Gly GGT   1   2   2   2   0   3
    GTC   1   0   1   1   1   2 |     GCC   7   3   0   2   4   5 |     GAC   2   1   2   2   2   3 |     GGC   2   1   1   1   3   1
    GTA   4   1   0   1   0   0 |     GCA   2   1   7   4   1   1 | Glu GAA   7   7   4   4   4   5 |     GGA   5   4   3   5   4   4
    GTG   1   6   1   1   5   4 |     GCG   2   1   1   1   1   2 |     GAG   2   2   4   4   4   3 |     GGG   1   3   2   1   2   2
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   3   0   2   3   0   2 | Ser TCT   0   1   0   0   1   1 | Tyr TAT   0   1   0   1   1   1 | Cys TGT   0   0   1   1   0   1
    TTC   2   4   1   1   4   3 |     TCC   1   2   1   3   2   0 |     TAC   2   0   2   0   0   1 |     TGC   2   1   0   0   1   1
Leu TTA   3   3   4   2   2   2 |     TCA   1   3   5   3   3   1 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   5   5   2   7   7   4 |     TCG   0   0   1   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   4   2   3   2   2   2 | Pro CCT   0   0   1   0   0   0 | His CAT   1   2   1   3   2   2 | Arg CGT   0   0   0   1   0   0
    CTC   3   2   6   1   2   5 |     CCC   1   1   0   1   1   0 |     CAC   2   2   3   1   2   1 |     CGC   0   1   0   0   1   0
    CTA   2   5   2   9   6   3 |     CCA   4   4   4   4   4   4 | Gln CAA   1   4   1   1   4   1 |     CGA   0   0   0   0   0   0
    CTG   8   7   5   4   5   9 |     CCG   1   0   0   0   0   1 |     CAG   3   1   1   3   1   3 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   2   1   3   2   1   2 | Thr ACT   2   2   1   1   1   5 | Asn AAT   1   1   1   2   1   0 | Ser AGT   2   1   0   3   1   1
    ATC   3   2   2   1   2   3 |     ACC   2   0   0   1   1   1 |     AAC   2   2   0   1   2   3 |     AGC   1   2   2   0   2   2
    ATA   7   6   5   6   5   7 |     ACA   4   1   5   2   2   6 | Lys AAA   0   2   1   4   1   2 | Arg AGA   3   3   4   2   3   2
Met ATG   5   6   8   6   6   5 |     ACG   3   3   1   2   3   1 |     AAG   2   0   2   0   1   2 |     AGG   3   2   2   1   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   1   0   1   2   0   1 | Ala GCT   4   3   3   3   3   5 | Asp GAT   0   1   3   0   1   0 | Gly GGT   2   2   3   3   2   3
    GTC   1   2   2   1   2   1 |     GCC   1   5   4   6   5   0 |     GAC   2   2   0   4   3   1 |     GGC   0   2   1   1   2   0
    GTA   0   0   1   2   1   1 |     GCA   6   2   3   0   1   5 | Glu GAA   6   5   6   5   5   4 |     GGA   6   4   4   3   4   5
    GTG   1   5   5   3   5   1 |     GCG   1   1   0   1   1   1 |     GAG   2   4   3   3   3   4 |     GGG   1   2   3   3   2   1
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   3   2   2   1   2   2 | Ser TCT   1   1   0   0   0   0 | Tyr TAT   0   1   0   0   0   1 | Cys TGT   1   1   1   1   0   0
    TTC   2   3   1   3   3   3 |     TCC   0   0   1   3   1   1 |     TAC   2   1   1   1   1   1 |     TGC   1   1   0   0   2   2
Leu TTA   3   4   1   1   2   3 |     TCA   1   1   5   3   1   1 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   2   2   5   9   4   3 |     TCG   0   0   2   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   5   2   4   2   2   2 | Pro CCT   0   0   1   0   0   0 | His CAT   1   2   4   3   3   2 | Arg CGT   0   0   0   0   0   0
    CTC   2   5   5   2   5   5 |     CCC   0   0   0   1   0   0 |     CAC   2   1   1   1   1   1 |     CGC   0   0   0   1   0   0
    CTA   2   2   3   7   4   3 |     CCA   4   4   4   4   5   4 | Gln CAA   1   1   1   2   1   1 |     CGA   0   0   0   0   0   0
    CTG  11  10   3   4   8   9 |     CCG   1   1   0   0   0   1 |     CAG   3   3   1   2   3   3 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   1   2   3   2   1   2 | Thr ACT   1   2   1   1   1   2 | Asn AAT   1   0   1   2   2   1 | Ser AGT   1   1   1   2   2   2
    ATC   4   3   4   1   3   3 |     ACC   3   3   0   1   4   3 |     AAC   2   2   1   1   2   2 |     AGC   2   2   0   1   1   1
    ATA   7   7   5   6   7   5 |     ACA   6   5   4   2   4   4 | Lys AAA   1   3   1   4   2   2 | Arg AGA   2   2   4   3   1   2
Met ATG   5   5   8   4   5   6 |     ACG   3   2   2   3   3   3 |     AAG   3   2   2   0   2   2 |     AGG   2   2   2   0   3   2
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   1   1   0   0   1   1 | Ala GCT   6   5   3   4   3   6 | Asp GAT   0   0   1   0   0   1 | Gly GGT   2   3   3   3   1   3
    GTC   1   1   1   2   3   1 |     GCC   0   1   4   5   2   0 |     GAC   2   2   1   4   1   1 |     GGC   1   0   2   1   3   0
    GTA   0   0   1   0   0   1 |     GCA   4   5   1   1   6   5 | Glu GAA   5   4   7   5   4   4 |     GGA   3   5   5   4   4   5
    GTG   1   1   5   6   0   1 |     GCG   1   1   2   1   1   1 |     GAG   3   4   3   3   4   4 |     GGG   3   1   1   2   1   1
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   0   2   3   3   2   0 | Ser TCT   1   1   1   1   0   2 | Tyr TAT   1   0   0   1   1   1 | Cys TGT   0   0   0   0   0   0
    TTC   4   3   2   2   3   4 |     TCC   2   1   1   1   1   1 |     TAC   0   2   2   1   1   0 |     TGC   1   0   0   0   2   1
Leu TTA   2   1   0   0   2   2 |     TCA   4   3   3   3   1   3 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   5   7   5   6   5   6 |     TCG   0   0   0   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   2   5   5   4   4   1 | Pro CCT   0   0   0   0   0   0 | His CAT   2   0   0   0   2   3 | Arg CGT   0   0   0   0   0   0
    CTC   2   5   4   6   3   3 |     CCC   1   1   1   1   0   1 |     CAC   2   2   2   2   1   1 |     CGC   1   0   0   0   0   1
    CTA   5   3   4   3   3   6 |     CCA   4   4   3   2   4   4 | Gln CAA   4   3   2   4   1   4 |     CGA   0   0   0   0   0   0
    CTG   7   2   6   4   8   7 |     CCG   0   0   1   2   1   0 |     CAG   1   2   3   1   3   1 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   3   1   2   3   2   2 | Thr ACT   1   0   3   2   1   1 | Asn AAT   1   0   1   0   2   1 | Ser AGT   1   2   1   3   3   1
    ATC   0   5   3   4   2   1 |     ACC   1   1   0   0   5   1 |     AAC   2   2   1   2   1   2 |     AGC   2   1   1   0   1   2
    ATA   6   6   8   7   7   6 |     ACA   2   5   5   5   5   1 | Lys AAA   1   3   4   3   1   2 | Arg AGA   3   2   0   1   1   3
Met ATG   6   7   5   6   5   5 |     ACG   2   1   0   0   1   3 |     AAG   1   2   2   1   4   0 |     AGG   2   1   2   3   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   1   0   0   0   0   1 | Ala GCT   3   5   4   3   3   4 | Asp GAT   1   0   0   1   0   1 | Gly GGT   2   1   3   3   2   2
    GTC   1   1   1   1   4   1 |     GCC   5   5   8   6   2   4 |     GAC   3   2   2   1   1   3 |     GGC   2   2   1   1   2   2
    GTA   2   3   2   3   0   1 |     GCA   1   3   2   2   6   1 | Glu GAA   5   7   6   6   4   6 |     GGA   4   4   2   2   4   4
    GTG   4   0   2   1   0   5 |     GCG   1   2   0   2   1   1 |     GAG   3   2   3   3   4   2 |     GGG   2   2   3   3   1   2
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   2   4   2   2   1   3 | Ser TCT   0   1   0   0   0   0 | Tyr TAT   2   0   0   0   0   1 | Cys TGT   0   0   1   1   1   1
    TTC   3   1   1   1   2   1 |     TCC   1   1   1   1   1   3 |     TAC   0   2   1   1   1   0 |     TGC   2   0   0   0   0   0
Leu TTA   2   0   1   4   4   3 |     TCA   1   3   5   5   5   3 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   5   4   5   4   4   7 |     TCG   0   0   1   1   1   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   2   4   3   2   4   2 | Pro CCT   0   0   1   1   1   0 | His CAT   2   0   4   2   2   3 | Arg CGT   0   0   0   0   0   1
    CTC   5   5   6   6   5   1 |     CCC   0   1   0   0   0   1 |     CAC   2   2   1   3   3   1 |     CGC   0   0   0   0   0   0
    CTA   2   4   3   1   2   7 |     CCA   4   3   4   4   4   3 | Gln CAA   1   2   1   1   2   1 |     CGA   0   0   0   1   0   0
    CTG   9   6   4   5   3   5 |     CCG   1   1   0   0   0   0 |     CAG   2   3   1   1   0   3 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   2   2   3   3   3   2 | Thr ACT   1   2   1   1   1   1 | Asn AAT   3   0   1   1   1   2 | Ser AGT   2   1   0   0   1   3
    ATC   3   3   4   3   4   1 |     ACC   4   1   0   0   0   1 |     AAC   1   2   1   1   1   1 |     AGC   1   1   1   1   0   0
    ATA   8   7   5   5   5   6 |     ACA   5   6   4   4   4   2 | Lys AAA   3   5   2   1   2   4 | Arg AGA   1   0   3   2   4   1
Met ATG   5   6   8   8   8   5 |     ACG   2   0   2   2   2   2 |     AAG   1   1   2   2   1   1 |     AGG   2   2   2   2   2   1
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   0   0   0   0   2   1 | Ala GCT   3   4   3   3   3   4 | Asp GAT   1   0   1   2   2   1 | Gly GGT   2   3   3   3   3   3
    GTC   3   1   1   2   1   2 |     GCC   2   8   4   4   3   5 |     GAC   0   2   1   1   1   4 |     GGC   2   1   2   2   2   1
    GTA   0   2   1   2   0   1 |     GCA   6   1   1   2   2   1 | Glu GAA   4   6   7   7   8   5 |     GGA   4   2   5   5   5   4
    GTG   0   2   5   5   5   3 |     GCG   1   1   2   1   1   1 |     GAG   4   3   3   2   1   3 |     GGG   1   3   1   1   1   3
--------------------------------------------------------------------------------------------------------------------------------------

--------------------------------------------------------------------------------------------------------------------------------------
Phe TTT   2   2   1   0   2   1 | Ser TCT   0   0   0   1   0   0 | Tyr TAT   0   1   0   1   1   1 | Cys TGT   1   0   1   0   1   1
    TTC   1   3   2   4   3   3 |     TCC   1   1   1   2   1   3 |     TAC   1   1   1   0   1   0 |     TGC   0   2   0   1   1   0
Leu TTA   4   2   4   2   2   1 |     TCA   5   1   5   3   1   3 | *** TAA   0   0   0   0   0   0 | *** TGA   0   0   0   0   0   0
    TTG   3   4   4   5   4   9 |     TCG   1   0   1   0   0   0 |     TAG   0   0   0   0   0   0 | Trp TGG   2   2   2   2   2   2
--------------------------------------------------------------------------------------------------------------------------------------
Leu CTT   5   2   4   2   2   2 | Pro CCT   1   0   1   0   0   0 | His CAT   2   2   2   2   1   3 | Arg CGT   0   0   0   0   0   0
    CTC   4   6   5   2   5   2 |     CCC   0   0   0   1   0   1 |     CAC   3   1   3   2   2   1 |     CGC   0   0   0   1   0   1
    CTA   2   4   2   6   4   7 |     CCA   4   4   4   4   4   4 | Gln CAA   2   1   1   4   2   2 |     CGA   0   0   0   0   0   0
    CTG   4   7   4   7   8   4 |     CCG   0   1   0   0   1   0 |     CAG   0   3   1   1   2   2 |     CGG   0   0   0   0   0   0
--------------------------------------------------------------------------------------------------------------------------------------
Ile ATT   3   1   3   1   1   1 | Thr ACT   1   1   1   1   0   1 | Asn AAT   1   2   1   2   2   2 | Ser AGT   0   2   1   1   2   2
    ATC   3   3   2   2   3   3 |     ACC   0   4   0   1   5   1 |     AAC   1   1   1   1   2   1 |     AGC   1   1   0   2   1   1
    ATA   5   7   5   6   7   6 |     ACA   4   4   4   1   5   2 | Lys AAA   2   2   2   2   2   4 | Arg AGA   4   1   5   4   1   3
Met ATG   8   5   7   7   5   5 |     ACG   2   3   2   2   2   3 |     AAG   1   2   1   0   2   0 |     AGG   2   3   1   1   3   0
--------------------------------------------------------------------------------------------------------------------------------------
Val GTT   2   1   3   1   1   0 | Ala GCT   2   3   3   3   2   4 | Asp GAT   2   0   2   1   1   1 | Gly GGT   3   1   3   2   3   3
    GTC   3   3   3   1   3   1 |     GCC   3   2   3   5   2   5 |     GAC   1   2   1   3   1   3 |     GGC   2   3   2   2   2   1
    GTA   0   0   0   1   0   0 |     GCA   2   6   2   1   6   1 | Glu GAA   8   3   8   5   4   4 |     GGA   6   4   5   4   3   4
    GTG   5   0   4   5   0   5 |     GCG   1   1   1   1   1   1 |     GAG   1   5   1   3   4   4 |     GGG   0   1   1   2   1   2
--------------------------------------------------------------------------------------------------------------------------------------

----------------------------------------------------------------------
Phe TTT   0   2 | Ser TCT   1   0 | Tyr TAT   1   0 | Cys TGT   0   0
    TTC   4   3 |     TCC   2   2 |     TAC   0   2 |     TGC   1   0
Leu TTA   3   3 |     TCA   3   3 | *** TAA   0   0 | *** TGA   0   0
    TTG   4   6 |     TCG   0   0 |     TAG   0   0 | Trp TGG   2   2
----------------------------------------------------------------------
Leu CTT   2   3 | Pro CCT   0   0 | His CAT   2   1 | Arg CGT   0   0
    CTC   2   7 |     CCC   1   1 |     CAC   2   1 |     CGC   1   0
    CTA   6   1 |     CCA   4   4 | Gln CAA   4   4 |     CGA   0   0
    CTG   7   3 |     CCG   0   0 |     CAG   1   1 |     CGG   0   0
----------------------------------------------------------------------
Ile ATT   1   2 | Thr ACT   1   1 | Asn AAT   1   0 | Ser AGT   1   3
    ATC   2   4 |     ACC   1   0 |     AAC   2   2 |     AGC   2   0
    ATA   6   6 |     ACA   1   5 | Lys AAA   2   3 | Arg AGA   3   1
Met ATG   7   6 |     ACG   2   1 |     AAG   0   2 |     AGG   2   2
----------------------------------------------------------------------
Val GTT   1   0 | Ala GCT   3   5 | Asp GAT   1   0 | Gly GGT   2   1
    GTC   1   1 |     GCC   5   5 |     GAC   3   2 |     GGC   2   2
    GTA   0   3 |     GCA   1   2 | Glu GAA   5   7 |     GGA   5   5
    GTG   5   2 |     GCG   1   2 |     GAG   3   2 |     GGG   2   1
----------------------------------------------------------------------

Codon position x base (3x4) table for each sequence.

#1: gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             
position  1:    T:0.17323    C:0.22835    A:0.28346    G:0.31496
position  2:    T:0.39370    C:0.19685    A:0.23622    G:0.17323
position  3:    T:0.18110    C:0.20472    A:0.33858    G:0.27559
Average         T:0.24934    C:0.20997    A:0.28609    G:0.25459

#2: gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a             
position  1:    T:0.16535    C:0.21260    A:0.30709    G:0.31496
position  2:    T:0.42520    C:0.21260    A:0.19685    G:0.16535
position  3:    T:0.20472    C:0.18110    A:0.37795    G:0.23622
Average         T:0.26509    C:0.20210    A:0.29396    G:0.23885

#3: gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             
position  1:    T:0.15748    C:0.22835    A:0.31496    G:0.29921
position  2:    T:0.40157    C:0.25197    A:0.20472    G:0.14173
position  3:    T:0.16535    C:0.24409    A:0.33071    G:0.25984
Average         T:0.24147    C:0.24147    A:0.28346    G:0.23360

#4: gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             
position  1:    T:0.17323    C:0.20472    A:0.30709    G:0.31496
position  2:    T:0.41732    C:0.22047    A:0.19685    G:0.16535
position  3:    T:0.18898    C:0.19685    A:0.37008    G:0.24409
Average         T:0.25984    C:0.20735    A:0.29134    G:0.24147

#5: gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             
position  1:    T:0.16535    C:0.25197    A:0.27559    G:0.30709
position  2:    T:0.40157    C:0.21260    A:0.22047    G:0.16535
position  3:    T:0.13386    C:0.25197    A:0.32283    G:0.29134
Average         T:0.23360    C:0.23885    A:0.27297    G:0.25459

#6: gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a             
position  1:    T:0.17323    C:0.24409    A:0.26772    G:0.31496
position  2:    T:0.38583    C:0.22835    A:0.22047    G:0.16535
position  3:    T:0.17323    C:0.21260    A:0.30709    G:0.30709
Average         T:0.24409    C:0.22835    A:0.26509    G:0.26247

#7: gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             
position  1:    T:0.14173    C:0.25197    A:0.34646    G:0.25984
position  2:    T:0.39370    C:0.24409    A:0.19685    G:0.16535
position  3:    T:0.18110    C:0.18898    A:0.32283    G:0.30709
Average         T:0.23885    C:0.22835    A:0.28871    G:0.24409

#8: gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             
position  1:    T:0.14173    C:0.25197    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.19685    G:0.16535
position  3:    T:0.15748    C:0.21260    A:0.31496    G:0.31496
Average         T:0.23097    C:0.23622    A:0.28346    G:0.24934

#9: gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a             
position  1:    T:0.14961    C:0.24409    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.21260    G:0.14961
position  3:    T:0.19685    C:0.18898    A:0.33071    G:0.28346
Average         T:0.24672    C:0.22572    A:0.29396    G:0.23360

#10: gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14173    C:0.25197    A:0.34646    G:0.25984
position  2:    T:0.38583    C:0.24409    A:0.20472    G:0.16535
position  3:    T:0.18110    C:0.19685    A:0.33071    G:0.29134
Average         T:0.23622    C:0.23097    A:0.29396    G:0.23885

#11: gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18898    C:0.22835    A:0.26772    G:0.31496
position  2:    T:0.38583    C:0.23622    A:0.22047    G:0.15748
position  3:    T:0.17323    C:0.21260    A:0.33858    G:0.27559
Average         T:0.24934    C:0.22572    A:0.27559    G:0.24934

#12: gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.22047    A:0.33858    G:0.26772
position  2:    T:0.38583    C:0.25197    A:0.20472    G:0.15748
position  3:    T:0.12598    C:0.25197    A:0.29921    G:0.32283
Average         T:0.22835    C:0.24147    A:0.28084    G:0.24934

#13: gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18110    C:0.20472    A:0.29921    G:0.31496
position  2:    T:0.40945    C:0.24409    A:0.21260    G:0.13386
position  3:    T:0.12598    C:0.26772    A:0.37795    G:0.22835
Average         T:0.23885    C:0.23885    A:0.29659    G:0.22572

#14: gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.15748    C:0.22047    A:0.29921    G:0.32283
position  2:    T:0.41732    C:0.22047    A:0.19685    G:0.16535
position  3:    T:0.20472    C:0.16535    A:0.33071    G:0.29921
Average         T:0.25984    C:0.20210    A:0.27559    G:0.26247

#15: gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.25197    A:0.19685    G:0.15748
position  3:    T:0.15748    C:0.22835    A:0.29921    G:0.31496
Average         T:0.23360    C:0.24147    A:0.27822    G:0.24672

#16: gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33858    G:0.26772
position  2:    T:0.40157    C:0.23622    A:0.21260    G:0.14961
position  3:    T:0.17323    C:0.21260    A:0.33071    G:0.28346
Average         T:0.24147    C:0.23097    A:0.29396    G:0.23360

#17: gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.25197    A:0.28346    G:0.29921
position  2:    T:0.38583    C:0.22835    A:0.22835    G:0.15748
position  3:    T:0.17323    C:0.20472    A:0.33858    G:0.28346
Average         T:0.24147    C:0.22835    A:0.28346    G:0.24672

#18: gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.25197    A:0.26772    G:0.31496
position  2:    T:0.39370    C:0.22835    A:0.22835    G:0.14961
position  3:    T:0.17323    C:0.20472    A:0.33858    G:0.28346
Average         T:0.24409    C:0.22835    A:0.27822    G:0.24934

#19: gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.23622    A:0.33071    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.18898    G:0.17323
position  3:    T:0.17323    C:0.19685    A:0.33858    G:0.29134
Average         T:0.24409    C:0.22572    A:0.28609    G:0.24409

#20: gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.24409    A:0.26772    G:0.31496
position  2:    T:0.39370    C:0.22047    A:0.21260    G:0.17323
position  3:    T:0.13386    C:0.23622    A:0.33071    G:0.29921
Average         T:0.23360    C:0.23360    A:0.27034    G:0.26247

#21: gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.21260    A:0.29134    G:0.33071
position  2:    T:0.40945    C:0.22835    A:0.18898    G:0.17323
position  3:    T:0.18110    C:0.18898    A:0.35433    G:0.27559
Average         T:0.25197    C:0.20997    A:0.27822    G:0.25984

#22: gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18110    C:0.23622    A:0.26772    G:0.31496
position  2:    T:0.40945    C:0.21260    A:0.22047    G:0.15748
position  3:    T:0.21260    C:0.17323    A:0.33858    G:0.27559
Average         T:0.26772    C:0.20735    A:0.27559    G:0.24934

#23: gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18110    C:0.23622    A:0.26772    G:0.31496
position  2:    T:0.39370    C:0.22047    A:0.21260    G:0.17323
position  3:    T:0.12598    C:0.25197    A:0.32283    G:0.29921
Average         T:0.23360    C:0.23622    A:0.26772    G:0.26247

#24: gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.34646    G:0.25984
position  2:    T:0.40157    C:0.24409    A:0.19685    G:0.15748
position  3:    T:0.20472    C:0.17323    A:0.33858    G:0.28346
Average         T:0.25197    C:0.22047    A:0.29396    G:0.23360

#25: gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14173    C:0.25197    A:0.34646    G:0.25984
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.18898    C:0.18898    A:0.30709    G:0.31496
Average         T:0.24147    C:0.22835    A:0.28609    G:0.24409

#26: gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.18110    C:0.19685    A:0.33858    G:0.28346
Average         T:0.24147    C:0.22835    A:0.29396    G:0.23622

#27: gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.21260    A:0.30709    G:0.31496
position  2:    T:0.40157    C:0.23622    A:0.19685    G:0.16535
position  3:    T:0.19685    C:0.17323    A:0.33071    G:0.29921
Average         T:0.25459    C:0.20735    A:0.27822    G:0.25984

#28: gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18898    C:0.22835    A:0.25984    G:0.32283
position  2:    T:0.39370    C:0.22835    A:0.22047    G:0.15748
position  3:    T:0.16535    C:0.22047    A:0.33071    G:0.28346
Average         T:0.24934    C:0.22572    A:0.27034    G:0.25459

#29: gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14173    C:0.25197    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.14173    C:0.25197    A:0.32283    G:0.28346
Average         T:0.22572    C:0.24934    A:0.28871    G:0.23622

#30: gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33071    G:0.27559
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.19685    C:0.18898    A:0.31496    G:0.29921
Average         T:0.24672    C:0.22572    A:0.28346    G:0.24409

#31: gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.24409    A:0.26772    G:0.31496
position  2:    T:0.39370    C:0.22047    A:0.21260    G:0.17323
position  3:    T:0.14961    C:0.22835    A:0.33858    G:0.28346
Average         T:0.23885    C:0.23097    A:0.27297    G:0.25722

#32: gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.21260    A:0.30709    G:0.30709
position  2:    T:0.40157    C:0.25197    A:0.21260    G:0.13386
position  3:    T:0.13386    C:0.25984    A:0.37008    G:0.23622
Average         T:0.23622    C:0.24147    A:0.29659    G:0.22572

#33: gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.29921    G:0.30709
position  2:    T:0.40945    C:0.25197    A:0.22047    G:0.11811
position  3:    T:0.18110    C:0.22835    A:0.32283    G:0.26772
Average         T:0.24672    C:0.24147    A:0.28084    G:0.23097

#34: gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.15748    C:0.22835    A:0.31496    G:0.29921
position  2:    T:0.41732    C:0.23622    A:0.20472    G:0.14173
position  3:    T:0.18898    C:0.22047    A:0.32283    G:0.26772
Average         T:0.25459    C:0.22835    A:0.28084    G:0.23622

#35: gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.15748    C:0.23622    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.17323    C:0.22835    A:0.30709    G:0.29134
Average         T:0.24147    C:0.23622    A:0.28346    G:0.23885

#36: gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.25197    A:0.25984    G:0.31496
position  2:    T:0.40157    C:0.21260    A:0.21260    G:0.17323
position  3:    T:0.15748    C:0.22047    A:0.33858    G:0.28346
Average         T:0.24409    C:0.22835    A:0.27034    G:0.25722

#37: gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.15748    C:0.23622    A:0.34646    G:0.25984
position  2:    T:0.40157    C:0.24409    A:0.20472    G:0.14961
position  3:    T:0.17323    C:0.22835    A:0.32283    G:0.27559
Average         T:0.24409    C:0.23622    A:0.29134    G:0.22835

#38: gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a            
position  1:    T:0.14173    C:0.24409    A:0.30709    G:0.30709
position  2:    T:0.40157    C:0.25984    A:0.22047    G:0.11811
position  3:    T:0.16535    C:0.24409    A:0.32283    G:0.26772
Average         T:0.23622    C:0.24934    A:0.28346    G:0.23097

#39: gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.15748    C:0.22047    A:0.30709    G:0.31496
position  2:    T:0.40945    C:0.22835    A:0.20472    G:0.15748
position  3:    T:0.18110    C:0.18898    A:0.33071    G:0.29921
Average         T:0.24934    C:0.21260    A:0.28084    G:0.25722

#40: gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.21260    A:0.28346    G:0.33071
position  2:    T:0.41732    C:0.22835    A:0.19685    G:0.15748
position  3:    T:0.16535    C:0.20472    A:0.34646    G:0.28346
Average         T:0.25197    C:0.21522    A:0.27559    G:0.25722

#41: gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.20472    A:0.30709    G:0.31496
position  2:    T:0.41732    C:0.22047    A:0.19685    G:0.16535
position  3:    T:0.19685    C:0.18898    A:0.37008    G:0.24409
Average         T:0.26247    C:0.20472    A:0.29134    G:0.24147

#42: gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18898    C:0.22047    A:0.25984    G:0.33071
position  2:    T:0.39370    C:0.21260    A:0.23622    G:0.15748
position  3:    T:0.22047    C:0.17323    A:0.32283    G:0.28346
Average         T:0.26772    C:0.20210    A:0.27297    G:0.25722

#43: gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.21260    A:0.29921    G:0.32283
position  2:    T:0.42520    C:0.21260    A:0.19685    G:0.16535
position  3:    T:0.19685    C:0.18898    A:0.37795    G:0.23622
Average         T:0.26247    C:0.20472    A:0.29134    G:0.24147

#44: gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33071    G:0.27559
position  2:    T:0.39370    C:0.24409    A:0.20472    G:0.15748
position  3:    T:0.14173    C:0.25984    A:0.30709    G:0.29134
Average         T:0.22835    C:0.24934    A:0.28084    G:0.24147

#45: gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.17323    C:0.21260    A:0.28346    G:0.33071
position  2:    T:0.41732    C:0.22047    A:0.19685    G:0.16535
position  3:    T:0.20472    C:0.18898    A:0.37008    G:0.23622
Average         T:0.26509    C:0.20735    A:0.28346    G:0.24409

#46: gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.25197    A:0.26772    G:0.31496
position  2:    T:0.40945    C:0.20472    A:0.21260    G:0.17323
position  3:    T:0.14173    C:0.23622    A:0.33858    G:0.28346
Average         T:0.23885    C:0.23097    A:0.27297    G:0.25722

#47: gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a            
position  1:    T:0.14961    C:0.24409    A:0.33858    G:0.26772
position  2:    T:0.39370    C:0.23622    A:0.21260    G:0.15748
position  3:    T:0.14961    C:0.25197    A:0.32283    G:0.27559
Average         T:0.23097    C:0.24409    A:0.29134    G:0.23360

#48: gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18898    C:0.22835    A:0.27559    G:0.30709
position  2:    T:0.39370    C:0.22835    A:0.22047    G:0.15748
position  3:    T:0.17323    C:0.21260    A:0.32283    G:0.29134
Average         T:0.25197    C:0.22310    A:0.27297    G:0.25197

#49: gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.16535    C:0.25197    A:0.26772    G:0.31496
position  2:    T:0.40157    C:0.20472    A:0.21260    G:0.18110
position  3:    T:0.13386    C:0.24409    A:0.33858    G:0.28346
Average         T:0.23360    C:0.23360    A:0.27297    G:0.25984

#50: gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a            
position  1:    T:0.18110    C:0.20472    A:0.29921    G:0.31496
position  2:    T:0.40945    C:0.24409    A:0.21260    G:0.13386
position  3:    T:0.14173    C:0.25197    A:0.37008    G:0.23622
Average         T:0.24409    C:0.23360    A:0.29396    G:0.22835

Sums of codon usage counts
------------------------------------------------------------------------------
Phe F TTT      88 | Ser S TCT      26 | Tyr Y TAT      27 | Cys C TGT      25
      TTC     126 |       TCC      64 |       TAC      47 |       TGC      35
Leu L TTA     119 |       TCA     135 | *** * TAA       0 | *** * TGA       0
      TTG     235 |       TCG      12 |       TAG       0 | Trp W TGG     100
------------------------------------------------------------------------------
Leu L CTT     143 | Pro P CCT      11 | His H CAT      93 | Arg R CGT       2
      CTC     194 |       CCC      23 |       CAC      87 |       CGC      15
      CTA     194 |       CCA     193 | Gln Q CAA      99 |       CGA       1
      CTG     310 |       CCG      23 |       CAG      95 |       CGG       1
------------------------------------------------------------------------------
Ile I ATT      95 | Thr T ACT      65 | Asn N AAT      60 | Ser S AGT      73
      ATC     133 |       ACC      76 |       AAC      78 |       AGC      59
      ATA     308 |       ACA     188 | Lys K AAA     114 | Arg R AGA     119
Met M ATG     300 |       ACG     103 |       AAG      71 |       AGG      90
------------------------------------------------------------------------------
Val V GTT      39 | Ala A GCT     177 | Asp D GAT      41 | Gly G GGT     120
      GTC      76 |       GCC     184 |       GAC      94 |       GGC      70
      GTA      40 |       GCA     136 | Glu E GAA     272 |       GGA     207
      GTG     145 |       GCG      59 |       GAG     148 |       GGG      87
------------------------------------------------------------------------------


Codon position x base (3x4) table, overall

position  1:    T:0.16362    C:0.23370    A:0.30425    G:0.29843
position  2:    T:0.40079    C:0.23228    A:0.20882    G:0.15811
position  3:    T:0.17087    C:0.21433    A:0.33465    G:0.28016
Average         T:0.24509    C:0.22677    A:0.28257    G:0.24556


Nei & Gojobori 1986. dN/dS (dN, dS)
(Note: This matrix is not used in later ML. analysis.
Use runmode = -2 for ML pairwise comparison.)

gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  
gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                  -1.0000 (0.2591 -1.0000)
gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                   0.2047 (0.3785 1.8492)-1.0000 (0.3249 -1.0000)
gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  -1.0000 (0.2635 -1.0000) 0.0925 (0.0105 0.1140)-1.0000 (0.3205 -1.0000)
gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                   0.1125 (0.0450 0.4004) 0.0807 (0.2192 2.7164) 0.1127 (0.3433 3.0453)-1.0000 (0.2234 -1.0000)
gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                   0.0791 (0.0469 0.5930) 0.0802 (0.2488 3.1011)-1.0000 (0.3612 -1.0000) 0.0742 (0.2531 3.4102) 0.0356 (0.0178 0.4984)
gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                   0.1098 (0.3966 3.6108) 0.1451 (0.3364 2.3183) 0.1159 (0.2948 2.5428) 0.0876 (0.3439 3.9237) 0.1568 (0.3633 2.3172)-1.0000 (0.3749 -1.0000)
gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                   0.0778 (0.3990 5.1271) 0.1531 (0.3340 2.1817) 0.1187 (0.2908 2.4490) 0.1441 (0.3415 2.3700)-1.0000 (0.3636 -1.0000)-1.0000 (0.3753 -1.0000) 0.0262 (0.0035 0.1349)
gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  -1.0000 (0.3841 -1.0000) 0.1755 (0.3386 1.9287) 0.1097 (0.2892 2.6357) 0.1937 (0.3461 1.7865)-1.0000 (0.3626 -1.0000)-1.0000 (0.3743 -1.0000) 0.0391 (0.0106 0.2715) 0.0497 (0.0142 0.2857)
gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.1389 (0.3863 2.7815) 0.1772 (0.3171 1.7895) 0.0811 (0.2766 3.4089) 0.1713 (0.3244 1.8940)-1.0000 (0.3535 -1.0000)-1.0000 (0.3688 -1.0000) 0.0524 (0.0142 0.2709) 0.0537 (0.0178 0.3318) 0.1974 (0.0106 0.0538)
gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1564 (0.0432 0.2762) 0.0792 (0.2440 3.0803) 0.1737 (0.3426 1.9726) 0.0706 (0.2386 3.3789) 0.0412 (0.0214 0.5186) 0.0272 (0.0178 0.6539) 0.1425 (0.3896 2.7337) 0.1276 (0.3910 3.0633) 0.1321 (0.3772 2.8553) 0.1731 (0.3737 2.1589)
gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.1588 (0.3880 2.4431)-1.0000 (0.3470 -1.0000)-1.0000 (0.3200 -1.0000)-1.0000 (0.3545 -1.0000)-1.0000 (0.3627 -1.0000)-1.0000 (0.3657 -1.0000) 0.0172 (0.0142 0.8228) 0.0243 (0.0178 0.7319) 0.0160 (0.0106 0.6601) 0.0337 (0.0213 0.6335) 0.2217 (0.3822 1.7235)
gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.2059 (0.3717 1.8054) 0.1704 (0.3403 1.9967) 0.0441 (0.0176 0.3994) 0.1273 (0.3469 2.7250) 0.1513 (0.3517 2.3243)-1.0000 (0.3555 -1.0000) 0.1301 (0.3020 2.3219) 0.1324 (0.2979 2.2505) 0.1537 (0.2860 1.8608) 0.1485 (0.2837 1.9104) 0.2326 (0.3482 1.4970)-1.0000 (0.3219 -1.0000)
gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2672 -1.0000) 0.0571 (0.0213 0.3731)-1.0000 (0.3346 -1.0000) 0.0662 (0.0249 0.3758) 0.0914 (0.2268 2.4804) 0.1062 (0.2567 2.4176) 0.1629 (0.3285 2.0168) 0.1097 (0.3153 2.8747) 0.1057 (0.3306 3.1269) 0.1189 (0.3094 2.6023) 0.1452 (0.2527 1.7405) 0.1540 (0.3362 2.1838) 0.0740 (0.3521 4.7582)
gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a                 -1.0000 (0.3991 -1.0000) 0.1102 (0.3471 3.1490) 0.0695 (0.2997 4.3091)-1.0000 (0.3546 -1.0000) 0.1018 (0.3657 3.5917)-1.0000 (0.3774 -1.0000) 0.0440 (0.0071 0.1608) 0.0614 (0.0106 0.1733) 0.0369 (0.0106 0.2874) 0.0495 (0.0142 0.2868) 0.1276 (0.3921 3.0742) 0.0223 (0.0142 0.6339) 0.1150 (0.3069 2.6688) 0.0978 (0.3390 3.4661)
gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3841 -1.0000) 0.1878 (0.3386 1.8030) 0.0613 (0.2892 4.7195) 0.2299 (0.3461 1.5051)-1.0000 (0.3626 -1.0000)-1.0000 (0.3743 -1.0000) 0.0447 (0.0142 0.3174) 0.0487 (0.0178 0.3654) 0.0653 (0.0035 0.0539) 0.1613 (0.0142 0.0880) 0.1321 (0.3772 2.8553) 0.0223 (0.0142 0.6353) 0.1318 (0.2860 2.1700) 0.1250 (0.3306 2.6456) 0.0424 (0.0142 0.3346)
gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1431 (0.0678 0.4735)-1.0000 (0.2345 -1.0000) 0.1409 (0.3550 2.5203)-1.0000 (0.2388 -1.0000) 0.0622 (0.0341 0.5486) 0.0583 (0.0214 0.3671) 0.1536 (0.3715 2.4189)-1.0000 (0.3728 -1.0000)-1.0000 (0.3709 -1.0000) 0.0690 (0.3673 5.3235) 0.0453 (0.0268 0.5918) 0.1345 (0.3681 2.7357)-1.0000 (0.3494 -1.0000)-1.0000 (0.2431 -1.0000)-1.0000 (0.3740 -1.0000)-1.0000 (0.3709 -1.0000)
gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1996 (0.0433 0.2168)-1.0000 (0.2323 -1.0000) 0.1225 (0.3395 2.7702)-1.0000 (0.2366 -1.0000) 0.0469 (0.0214 0.4562) 0.0307 (0.0178 0.5793) 0.1251 (0.3632 2.9029) 0.1037 (0.3635 3.5066)-1.0000 (0.3512 -1.0000) 0.1233 (0.3478 2.8203) 0.1151 (0.0142 0.1234) 0.1757 (0.3560 2.0260) 0.1289 (0.3341 2.5911) 0.0973 (0.2401 2.4682)-1.0000 (0.3656 -1.0000)-1.0000 (0.3512 -1.0000) 0.0604 (0.0269 0.4446)
gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.1735 (0.4020 2.3174) 0.1581 (0.3466 2.1921) 0.0403 (0.3098 7.6952) 0.1485 (0.3542 2.3856) 0.1345 (0.3681 2.7357) 0.1167 (0.3798 3.2539) 0.0318 (0.0106 0.3342) 0.0370 (0.0142 0.3833) 0.0351 (0.0142 0.4041) 0.0441 (0.0178 0.4031) 0.1047 (0.3945 3.7694) 0.0248 (0.0177 0.7144) 0.0940 (0.3171 3.3714) 0.1492 (0.3386 2.2692) 0.0302 (0.0106 0.3518) 0.0439 (0.0178 0.4041) 0.1776 (0.3706 2.0870) 0.1386 (0.3680 2.6553)
gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1375 (0.0525 0.3820) 0.0358 (0.2287 6.3909) 0.1602 (0.3519 2.1965)-1.0000 (0.2330 -1.0000) 0.2631 (0.0142 0.0539) 0.0222 (0.0106 0.4776) 0.1077 (0.3550 3.2971)-1.0000 (0.3553 -1.0000)-1.0000 (0.3657 -1.0000)-1.0000 (0.3509 -1.0000) 0.0467 (0.0214 0.4579)-1.0000 (0.3573 -1.0000) 0.1837 (0.3575 1.9461) 0.0846 (0.2365 2.7964)-1.0000 (0.3574 -1.0000)-1.0000 (0.3657 -1.0000) 0.0471 (0.0268 0.5693) 0.0490 (0.0214 0.4366) 0.1233 (0.3597 2.9176)
gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2623 -1.0000) 0.0633 (0.0213 0.3372)-1.0000 (0.3115 -1.0000) 0.0521 (0.0177 0.3396)-1.0000 (0.2269 -1.0000)-1.0000 (0.2568 -1.0000) 0.1036 (0.3541 3.4172) 0.1155 (0.3405 2.9490)-1.0000 (0.3563 -1.0000) 0.0677 (0.3343 4.9379) 0.0768 (0.2418 3.1473)-1.0000 (0.3649 -1.0000) 0.1213 (0.3377 2.7829) 0.0874 (0.0213 0.2444)-1.0000 (0.3650 -1.0000)-1.0000 (0.3563 -1.0000)-1.0000 (0.2432 -1.0000)-1.0000 (0.2389 -1.0000) 0.1220 (0.3645 2.9887)-1.0000 (0.2365 -1.0000)
gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1385 (0.0322 0.2323)-1.0000 (0.2358 -1.0000) 0.1379 (0.3499 2.5364)-1.0000 (0.2401 -1.0000) 0.0189 (0.0106 0.5621) 0.0216 (0.0142 0.6548)-1.0000 (0.3577 -1.0000)-1.0000 (0.3580 -1.0000) 0.1456 (0.3458 2.3755) 0.1698 (0.3536 2.0821) 0.0333 (0.0106 0.3190)-1.0000 (0.3487 -1.0000) 0.1527 (0.3425 2.2432) 0.0533 (0.2436 4.5712)-1.0000 (0.3601 -1.0000) 0.1456 (0.3458 2.3755) 0.0514 (0.0305 0.5926) 0.0414 (0.0106 0.2567) 0.1659 (0.3624 2.1852) 0.0329 (0.0178 0.5393)-1.0000 (0.2425 -1.0000)
gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1144 (0.0469 0.4100)-1.0000 (0.2405 -1.0000) 0.1773 (0.3628 2.0466)-1.0000 (0.2448 -1.0000) 0.1199 (0.0106 0.0884) 0.0130 (0.0071 0.5407) 0.1466 (0.3603 2.4574)-1.0000 (0.3606 -1.0000)-1.0000 (0.3711 -1.0000)-1.0000 (0.3618 -1.0000) 0.0522 (0.0250 0.4788)-1.0000 (0.3626 -1.0000) 0.2009 (0.3684 1.8341) 0.0786 (0.2484 3.1580) 0.0637 (0.3627 5.6940)-1.0000 (0.3711 -1.0000) 0.0555 (0.0305 0.5493) 0.0548 (0.0250 0.4568) 0.1581 (0.3651 2.3087) 0.1383 (0.0106 0.0766)-1.0000 (0.2485 -1.0000) 0.0252 (0.0142 0.5628)
gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.0740 (0.3760 5.0818) 0.1486 (0.3192 2.1481)-1.0000 (0.2905 -1.0000) 0.1403 (0.3266 2.3274)-1.0000 (0.3436 -1.0000)-1.0000 (0.3663 -1.0000) 0.0512 (0.0178 0.3480) 0.0516 (0.0214 0.4154) 0.1274 (0.0142 0.1114) 0.1985 (0.0106 0.0535) 0.1444 (0.3692 2.5574) 0.0327 (0.0250 0.7629) 0.1492 (0.2959 1.9835)-1.0000 (0.3123 -1.0000) 0.0487 (0.0178 0.3658) 0.0716 (0.0106 0.1483)-1.0000 (0.3629 -1.0000)-1.0000 (0.3434 -1.0000) 0.0509 (0.0214 0.4199)-1.0000 (0.3466 -1.0000)-1.0000 (0.3374 -1.0000) 0.1413 (0.3436 2.4318)-1.0000 (0.3518 -1.0000)
gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.1555 (0.3905 2.5111) 0.1830 (0.3363 1.8376) 0.0755 (0.2999 3.9742) 0.1492 (0.3438 2.3035) 0.1170 (0.3575 3.0552)-1.0000 (0.3690 -1.0000) 0.0403 (0.0035 0.0875) 0.0639 (0.0071 0.1108) 0.0470 (0.0142 0.3021) 0.0590 (0.0178 0.3015) 0.1740 (0.3836 2.2048) 0.0251 (0.0178 0.7085) 0.0993 (0.3071 3.0931) 0.1742 (0.3283 1.8851) 0.0954 (0.0106 0.1114) 0.0560 (0.0178 0.3178)-1.0000 (0.3656 -1.0000) 0.1218 (0.3573 2.9344) 0.0424 (0.0142 0.3346)-1.0000 (0.3492 -1.0000)-1.0000 (0.3540 -1.0000) 0.0835 (0.3519 4.2117) 0.1009 (0.3545 3.5146) 0.0561 (0.0214 0.3819)
gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.0997 (0.3844 3.8542) 0.1592 (0.3279 2.0595) 0.0663 (0.2791 4.2081) 0.1513 (0.3353 2.2166)-1.0000 (0.3516 -1.0000)-1.0000 (0.3746 -1.0000) 0.0415 (0.0106 0.2562) 0.0473 (0.0142 0.3003) 0.2221 (0.0071 0.0318) 0.2492 (0.0106 0.0426) 0.1537 (0.3775 2.4566) 0.0280 (0.0177 0.6335) 0.1333 (0.2862 2.1468) 0.0749 (0.3200 4.2722) 0.0413 (0.0106 0.2570) 0.1633 (0.0106 0.0650)-1.0000 (0.3711 -1.0000) 0.0883 (0.3515 3.9830) 0.0368 (0.0142 0.3855)-1.0000 (0.3546 -1.0000) 0.0701 (0.3454 4.9255) 0.1316 (0.3461 2.6298)-1.0000 (0.3599 -1.0000) 0.1518 (0.0124 0.0818) 0.0496 (0.0142 0.2862)
gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2708 -1.0000) 0.0770 (0.0213 0.2765)-1.0000 (0.3063 -1.0000) 0.0634 (0.0177 0.2784)-1.0000 (0.2326 -1.0000) 0.1255 (0.2603 2.0747)-1.0000 (0.3283 -1.0000)-1.0000 (0.3259 -1.0000) 0.1777 (0.3304 1.8595) 0.1563 (0.3092 1.9781) 0.0671 (0.2456 3.6586)-1.0000 (0.3360 -1.0000) 0.1731 (0.3322 1.9196) 0.0522 (0.0213 0.4082)-1.0000 (0.3388 -1.0000) 0.1895 (0.3304 1.7441)-1.0000 (0.2466 -1.0000)-1.0000 (0.2444 -1.0000) 0.1743 (0.3384 1.9412)-1.0000 (0.2424 -1.0000) 0.0526 (0.0213 0.4055)-1.0000 (0.2471 -1.0000)-1.0000 (0.2544 -1.0000) 0.1282 (0.3121 2.4342) 0.0956 (0.3281 3.4324) 0.1363 (0.3199 2.3472)
gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1578 (0.0433 0.2744) 0.0939 (0.2348 2.5003) 0.1712 (0.3499 2.0439) 0.0913 (0.2391 2.6202) 0.0451 (0.0214 0.4746) 0.0296 (0.0178 0.6008) 0.1751 (0.3827 2.1863) 0.1650 (0.3841 2.3274) 0.1653 (0.3704 2.2402) 0.1977 (0.3669 1.8559) 0.3375 (0.0071 0.0209) 0.2438 (0.3753 1.5393) 0.2480 (0.3444 1.3885) 0.1512 (0.2434 1.6096) 0.1654 (0.3852 2.3291) 0.1653 (0.3704 2.2402) 0.0458 (0.0269 0.5870) 0.1160 (0.0142 0.1227) 0.1541 (0.3876 2.5158) 0.0471 (0.0214 0.4545) 0.0957 (0.2423 2.5332) 0.0335 (0.0106 0.3169) 0.0572 (0.0250 0.4371) 0.1425 (0.3624 2.5438) 0.1997 (0.3767 1.8864) 0.1817 (0.3707 2.0397) 0.0907 (0.2461 2.7132)
gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3774 -1.0000) 0.1398 (0.3214 2.2991)-1.0000 (0.2866 -1.0000) 0.1503 (0.3261 2.1696)-1.0000 (0.3449 -1.0000)-1.0000 (0.3657 -1.0000) 0.0332 (0.0178 0.5358) 0.0452 (0.0214 0.4735) 0.0352 (0.0142 0.4029) 0.0232 (0.0106 0.4571) 0.1268 (0.3706 2.9224) 0.0459 (0.0249 0.5433) 0.1297 (0.2938 2.2652)-1.0000 (0.3243 -1.0000) 0.0462 (0.0178 0.3846) 0.0422 (0.0178 0.4209) 0.0961 (0.3642 3.7918)-1.0000 (0.3448 -1.0000) 0.0446 (0.0214 0.4788)-1.0000 (0.3479 -1.0000) 0.1395 (0.3387 2.4287)-1.0000 (0.3394 -1.0000)-1.0000 (0.3531 -1.0000) 0.0276 (0.0142 0.5150) 0.0469 (0.0214 0.4563) 0.0369 (0.0142 0.3844) 0.1554 (0.3134 2.0167) 0.1603 (0.3638 2.2693)
gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3839 -1.0000)-1.0000 (0.3330 -1.0000) 0.1068 (0.2839 2.6583) 0.0924 (0.3404 3.6841)-1.0000 (0.3512 -1.0000)-1.0000 (0.3741 -1.0000) 0.0552 (0.0142 0.2570) 0.0535 (0.0178 0.3329) 0.1060 (0.0106 0.1000) 0.1144 (0.0142 0.1239)-1.0000 (0.3771 -1.0000) 0.0301 (0.0195 0.6485) 0.1209 (0.2910 2.4071)-1.0000 (0.3143 -1.0000) 0.0468 (0.0142 0.3031) 0.1038 (0.0142 0.1366) 0.1637 (0.3707 2.2639)-1.0000 (0.3511 -1.0000) 0.0554 (0.0177 0.3201)-1.0000 (0.3542 -1.0000)-1.0000 (0.3505 -1.0000)-1.0000 (0.3457 -1.0000)-1.0000 (0.3595 -1.0000) 0.0949 (0.0178 0.1874) 0.0559 (0.0178 0.3182) 0.0949 (0.0106 0.1118) 0.1494 (0.3249 2.1744) 0.1293 (0.3703 2.8627) 0.0422 (0.0178 0.4214)
gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1170 (0.0488 0.4171)-1.0000 (0.2312 -1.0000) 0.1150 (0.3483 3.0302)-1.0000 (0.2355 -1.0000) 0.1172 (0.0124 0.1058) 0.0286 (0.0142 0.4965) 0.1495 (0.3458 2.3127)-1.0000 (0.3462 -1.0000)-1.0000 (0.3564 -1.0000)-1.0000 (0.3474 -1.0000) 0.0447 (0.0250 0.5591)-1.0000 (0.3481 -1.0000) 0.1447 (0.3539 2.4464) 0.0928 (0.2390 2.5746) 0.0979 (0.3482 3.5584)-1.0000 (0.3564 -1.0000) 0.0537 (0.0305 0.5682) 0.0508 (0.0250 0.4934) 0.1602 (0.3505 2.1876) 0.1390 (0.0106 0.0764)-1.0000 (0.2391 -1.0000) 0.0253 (0.0142 0.5598) 0.0631 (0.0071 0.1119)-1.0000 (0.3375 -1.0000) 0.1119 (0.3401 3.0397)-1.0000 (0.3455 -1.0000)-1.0000 (0.2449 -1.0000) 0.0489 (0.0251 0.5126)-1.0000 (0.3388 -1.0000)-1.0000 (0.3451 -1.0000)
gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                  0.2008 (0.3699 1.8421) 0.1361 (0.3432 2.5206) 0.0508 (0.0176 0.3466)-1.0000 (0.3497 -1.0000) 0.1771 (0.3462 1.9545) 0.1399 (0.3528 2.5220) 0.1380 (0.3047 2.2072) 0.1401 (0.3006 2.1458) 0.1391 (0.2886 2.0747) 0.1337 (0.2863 2.1409) 0.2371 (0.3455 1.4569) 0.0584 (0.3087 5.2848) 0.0583 (0.0140 0.2400)-1.0000 (0.3522 -1.0000) 0.1242 (0.3096 2.4933) 0.1144 (0.2886 2.5220) 0.1195 (0.3467 2.9019) 0.1637 (0.3314 2.0251) 0.1649 (0.3198 1.9395) 0.2146 (0.3547 1.6528) 0.0813 (0.3405 4.1888) 0.1847 (0.3398 1.8398) 0.2322 (0.3657 1.5747) 0.1332 (0.2986 2.2414) 0.1104 (0.3098 2.8074) 0.1163 (0.2888 2.4845) 0.1554 (0.3350 2.1554) 0.2523 (0.3417 1.3539) 0.1106 (0.2964 2.6802) 0.1214 (0.2911 2.3987) 0.1799 (0.3512 1.9525)
gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                  0.2010 (0.3754 1.8679)-1.0000 (0.3084 -1.0000) 0.0778 (0.0213 0.2741)-1.0000 (0.3130 -1.0000) 0.1506 (0.3374 2.2403)-1.0000 (0.3581 -1.0000) 0.1501 (0.2840 1.8916) 0.1554 (0.2817 1.8126) 0.1545 (0.2784 1.8023) 0.1343 (0.2660 1.9800) 0.1570 (0.3488 2.2213) 0.1340 (0.3142 2.3453) 0.0432 (0.0249 0.5749)-1.0000 (0.3216 -1.0000) 0.1401 (0.2888 2.0612) 0.1341 (0.2784 2.0757) 0.1476 (0.3500 2.3713)-1.0000 (0.3364 -1.0000) 0.1750 (0.2988 1.7073) 0.1882 (0.3460 1.8378) 0.1114 (0.3058 2.7451) 0.1723 (0.3449 2.0020) 0.1873 (0.3597 1.9203) 0.1171 (0.2797 2.3896) 0.1495 (0.2839 1.8991) 0.1306 (0.2685 2.0559) 0.0588 (0.3032 5.1591) 0.1756 (0.3449 1.9647) 0.1582 (0.2759 1.7443) 0.1310 (0.2732 2.0860) 0.1666 (0.3424 2.0559) 0.0631 (0.0249 0.3936)
gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.2430 (0.3740 1.5394)-1.0000 (0.3189 -1.0000) 0.1056 (0.0070 0.0664)-1.0000 (0.3253 -1.0000) 0.1312 (0.3390 2.5834) 0.0962 (0.3568 3.7105) 0.1097 (0.2892 2.6359) 0.1127 (0.2851 2.5301) 0.1173 (0.2836 2.4177) 0.0931 (0.2711 2.9130) 0.1907 (0.3494 1.8318)-1.0000 (0.3141 -1.0000) 0.0418 (0.0176 0.4202)-1.0000 (0.3304 -1.0000)-1.0000 (0.2940 -1.0000) 0.0851 (0.2836 3.3313) 0.1555 (0.3507 2.2556) 0.1657 (0.3352 2.0227)-1.0000 (0.3040 -1.0000) 0.1726 (0.3475 2.0132)-1.0000 (0.3163 -1.0000) 0.1743 (0.3437 1.9723) 0.1894 (0.3584 1.8925)-1.0000 (0.2849 -1.0000) 0.0563 (0.2942 5.2286) 0.0848 (0.2736 3.2248)-1.0000 (0.3110 -1.0000) 0.1827 (0.3456 1.8915)-1.0000 (0.2811 -1.0000) 0.0821 (0.2784 3.3909) 0.1335 (0.3440 2.5762) 0.0438 (0.0176 0.4014) 0.0696 (0.0213 0.3064)
gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3884 -1.0000) 0.0680 (0.3427 5.0417)-1.0000 (0.3009 -1.0000) 0.1001 (0.3475 3.4715) 0.0875 (0.3650 4.1702)-1.0000 (0.3786 -1.0000) 0.0353 (0.0214 0.6054) 0.0331 (0.0178 0.5369) 0.0181 (0.0106 0.5860) 0.0216 (0.0142 0.6558) 0.1495 (0.3825 2.5584) 0.0334 (0.0213 0.6385)-1.0000 (0.2959 -1.0000)-1.0000 (0.3248 -1.0000) 0.0411 (0.0214 0.5196) 0.0232 (0.0142 0.6092) 0.1265 (0.3761 2.9728)-1.0000 (0.3554 -1.0000) 0.0459 (0.0249 0.5433) 0.0844 (0.3700 4.3848)-1.0000 (0.3502 -1.0000)-1.0000 (0.3500 -1.0000) 0.0679 (0.3754 5.5283) 0.0305 (0.0178 0.5825) 0.0445 (0.0250 0.5610) 0.0316 (0.0178 0.5621)-1.0000 (0.3354 -1.0000) 0.1476 (0.3757 2.5447) 0.0878 (0.0177 0.2021) 0.0324 (0.0213 0.6587) 0.0876 (0.3588 4.0979) 0.1414 (0.2986 2.1115) 0.1867 (0.2917 1.5624)-1.0000 (0.2952 -1.0000)
gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1291 (0.0489 0.3789)-1.0000 (0.2293 -1.0000) 0.1033 (0.3500 3.3890)-1.0000 (0.2336 -1.0000) 0.0862 (0.0106 0.1233) 0.0326 (0.0142 0.4356)-1.0000 (0.3475 -1.0000)-1.0000 (0.3478 -1.0000)-1.0000 (0.3582 -1.0000)-1.0000 (0.3490 -1.0000) 0.0508 (0.0251 0.4928) 0.1440 (0.3498 2.4287) 0.1371 (0.3556 2.5941) 0.0903 (0.2371 2.6255)-1.0000 (0.3499 -1.0000)-1.0000 (0.3582 -1.0000) 0.0661 (0.0306 0.4621) 0.0579 (0.0251 0.4329) 0.1383 (0.3522 2.5475) 0.0958 (0.0106 0.1110)-1.0000 (0.2371 -1.0000) 0.0266 (0.0142 0.5344) 0.0477 (0.0071 0.1482)-1.0000 (0.3391 -1.0000)-1.0000 (0.3418 -1.0000)-1.0000 (0.3472 -1.0000)-1.0000 (0.2430 -1.0000) 0.0476 (0.0215 0.4506)-1.0000 (0.3405 -1.0000) 0.0926 (0.3468 3.7451) 0.0576 (0.0071 0.1229) 0.1741 (0.3529 2.0274) 0.1117 (0.3441 3.0800) 0.1255 (0.3457 2.7536)-1.0000 (0.3624 -1.0000)
gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                  0.1235 (0.3951 3.2002) 0.1064 (0.3271 3.0727) 0.0994 (0.2964 2.9810) 0.1203 (0.3318 2.7582) 0.1254 (0.3611 2.8793)-1.0000 (0.3843 -1.0000) 0.0293 (0.0178 0.6063) 0.0431 (0.0214 0.4963) 0.0307 (0.0142 0.4611) 0.0204 (0.0106 0.5200) 0.1718 (0.3843 2.2369) 0.0405 (0.0249 0.6152) 0.0979 (0.3036 3.1014)-1.0000 (0.3193 -1.0000) 0.0370 (0.0177 0.4797) 0.0369 (0.0177 0.4806) 0.1620 (0.3808 2.3505) 0.1824 (0.3581 1.9633) 0.0392 (0.0213 0.5440) 0.1172 (0.3641 3.1065) 0.1681 (0.3445 2.0499) 0.1120 (0.3527 3.1500) 0.1147 (0.3695 3.2199) 0.0263 (0.0142 0.5393) 0.0380 (0.0214 0.5617) 0.0321 (0.0142 0.4409)-1.0000 (0.3191 -1.0000) 0.1693 (0.3775 2.2294) 0.1113 (0.0159 0.1433) 0.0401 (0.0177 0.4426) 0.1238 (0.3549 2.8676) 0.1246 (0.3063 2.4576) 0.1806 (0.2856 1.5814) 0.0532 (0.2908 5.4664) 0.1067 (0.0195 0.1829) 0.0718 (0.3566 4.9632)
gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a                  0.1988 (0.3750 1.8870) 0.1258 (0.3215 2.5553) 0.0698 (0.0213 0.3057)-1.0000 (0.3261 -1.0000) 0.1302 (0.3510 2.6950)-1.0000 (0.3691 -1.0000) 0.1115 (0.2872 2.5755) 0.1192 (0.2848 2.3901) 0.1054 (0.2816 2.6713) 0.0768 (0.2691 3.5021) 0.1255 (0.3597 2.8656) 0.0995 (0.3193 3.2103) 0.0348 (0.0230 0.6614)-1.0000 (0.3348 -1.0000) 0.1107 (0.2920 2.6382) 0.1303 (0.2816 2.1607) 0.1324 (0.3610 2.7261) 0.0945 (0.3472 3.6745) 0.1383 (0.3021 2.1838) 0.1739 (0.3597 2.0683) 0.1615 (0.3188 1.9739) 0.1757 (0.3558 2.0251) 0.1622 (0.3707 2.2861)-1.0000 (0.2829 -1.0000) 0.1461 (0.2871 1.9648) 0.0604 (0.2716 4.4970) 0.1304 (0.3135 2.4043) 0.1510 (0.3558 2.3561) 0.1117 (0.2790 2.4992)-1.0000 (0.2764 -1.0000) 0.1494 (0.3561 2.3838) 0.0551 (0.0248 0.4506) 0.0805 (0.0071 0.0878) 0.0570 (0.0213 0.3733) 0.1417 (0.2949 2.0812)-1.0000 (0.3578 -1.0000) 0.1511 (0.2862 1.8939)
gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2583 -1.0000) 0.0813 (0.0213 0.2616)-1.0000 (0.3062 -1.0000) 0.0671 (0.0177 0.2634)-1.0000 (0.2302 -1.0000) 0.1147 (0.2603 2.2692) 0.0752 (0.3147 4.1828) 0.1151 (0.3124 2.7142) 0.1757 (0.3169 1.8030) 0.1758 (0.2960 1.6839) 0.1085 (0.2456 2.2625)-1.0000 (0.3251 -1.0000) 0.1463 (0.3322 2.2699) 0.0545 (0.0213 0.3906)-1.0000 (0.3251 -1.0000) 0.1869 (0.3169 1.6954)-1.0000 (0.2466 -1.0000)-1.0000 (0.2443 -1.0000) 0.1184 (0.3247 2.7417)-1.0000 (0.2399 -1.0000) 0.0603 (0.0213 0.3538)-1.0000 (0.2471 -1.0000)-1.0000 (0.2519 -1.0000) 0.1524 (0.2989 1.9607) 0.1026 (0.3146 3.0653) 0.1603 (0.3065 1.9125) 0.2181 (0.0070 0.0322) 0.1221 (0.2461 2.0164) 0.1541 (0.3002 1.9478) 0.1225 (0.3114 2.5426)-1.0000 (0.2425 -1.0000) 0.1244 (0.3350 2.6917) 0.0523 (0.2927 5.5968)-1.0000 (0.3110 -1.0000) 0.0760 (0.3218 4.2342)-1.0000 (0.2405 -1.0000) 0.0686 (0.3057 4.4571) 0.1255 (0.3029 2.4124)
gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2498 -1.0000) 0.1260 (0.0219 0.1739)-1.0000 (0.3228 -1.0000) 0.0998 (0.0177 0.1772) 0.0870 (0.2126 2.4424) 0.1116 (0.2420 2.1674) 0.1552 (0.3482 2.2443) 0.1886 (0.3458 1.8334) 0.1921 (0.3393 1.7663) 0.1922 (0.3178 1.6531) 0.1224 (0.2276 1.8600) 0.1622 (0.3477 2.1433) 0.1030 (0.3494 3.3915) 0.0873 (0.0292 0.3345) 0.1184 (0.3478 2.9377) 0.2039 (0.3393 1.6640)-1.0000 (0.2326 -1.0000) 0.0818 (0.2256 2.7575) 0.1489 (0.3473 2.3324) 0.0671 (0.2221 3.3103) 0.0860 (0.0220 0.2555) 0.0560 (0.2291 4.0924)-1.0000 (0.2338 -1.0000) 0.1675 (0.3208 1.9150) 0.1935 (0.3481 1.7992) 0.1758 (0.3286 1.8696) 0.0852 (0.0219 0.2575) 0.1335 (0.2281 1.7085) 0.1808 (0.3221 1.7817) 0.0982 (0.3337 3.3993) 0.0769 (0.2246 2.9203)-1.0000 (0.3522 -1.0000)-1.0000 (0.3171 -1.0000)-1.0000 (0.3277 -1.0000) 0.1672 (0.3444 2.0597) 0.0742 (0.2226 2.9998) 0.1394 (0.3305 2.3700) 0.1083 (0.3303 3.0495) 0.0854 (0.0183 0.2146)
gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                 -1.0000 (0.2662 -1.0000) 0.1357 (0.0106 0.0778)-1.0000 (0.3084 -1.0000) 0.1273 (0.0070 0.0550) 0.0491 (0.2259 4.6002)-1.0000 (0.2558 -1.0000) 0.0512 (0.3304 6.4562) 0.0937 (0.3280 3.5003) 0.1816 (0.3326 1.8311) 0.1600 (0.3113 1.9454)-1.0000 (0.2412 -1.0000)-1.0000 (0.3409 -1.0000) 0.1361 (0.3344 2.4573) 0.0451 (0.0177 0.3925)-1.0000 (0.3410 -1.0000) 0.2165 (0.3326 1.5359)-1.0000 (0.2414 -1.0000)-1.0000 (0.2392 -1.0000) 0.1369 (0.3405 2.4870)-1.0000 (0.2356 -1.0000) 0.0498 (0.0177 0.3554)-1.0000 (0.2427 -1.0000)-1.0000 (0.2474 -1.0000) 0.1295 (0.3134 2.4203) 0.1380 (0.3303 2.3934) 0.1402 (0.3220 2.2964) 0.0402 (0.0106 0.2626) 0.0719 (0.2417 3.3629) 0.1470 (0.3156 2.1466) 0.0711 (0.3270 4.6002)-1.0000 (0.2381 -1.0000) 0.0754 (0.3372 4.4720)-1.0000 (0.3027 -1.0000)-1.0000 (0.3131 -1.0000)-1.0000 (0.3367 -1.0000)-1.0000 (0.2362 -1.0000)-1.0000 (0.3212 -1.0000) 0.0657 (0.3156 4.8019) 0.0426 (0.0106 0.2480) 0.0973 (0.0183 0.1880)
gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.2045 (0.0506 0.2474)-1.0000 (0.2600 -1.0000) 0.1753 (0.3867 2.2061)-1.0000 (0.2644 -1.0000) 0.0527 (0.0286 0.5422) 0.0573 (0.0323 0.5632)-1.0000 (0.3891 -1.0000)-1.0000 (0.3895 -1.0000) 0.1642 (0.3767 2.2946) 0.1899 (0.3848 2.0260) 0.0991 (0.0286 0.2887) 0.1343 (0.3797 2.8269) 0.1892 (0.3788 2.0021) 0.1126 (0.2680 2.3802)-1.0000 (0.3916 -1.0000) 0.1642 (0.3767 2.2946) 0.0926 (0.0490 0.5287) 0.1179 (0.0286 0.2429) 0.1857 (0.3940 2.1214) 0.0691 (0.0359 0.5199)-1.0000 (0.2669 -1.0000) 0.3284 (0.0177 0.0540) 0.0643 (0.0322 0.5010) 0.1597 (0.3745 2.3453) 0.1067 (0.3831 3.5900) 0.1496 (0.3770 2.5194)-1.0000 (0.2717 -1.0000) 0.0999 (0.0287 0.2868)-1.0000 (0.3701 -1.0000) 0.1128 (0.3795 3.3644) 0.0553 (0.0323 0.5840) 0.2192 (0.3703 1.6893) 0.1658 (0.3816 2.3023) 0.2115 (0.3802 1.7972)-1.0000 (0.3810 -1.0000) 0.0628 (0.0323 0.5152) 0.1304 (0.3838 2.9436) 0.1681 (0.3930 2.3379)-1.0000 (0.2716 -1.0000) 0.0815 (0.2531 3.1048)-1.0000 (0.2670 -1.0000)
gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.2651 -1.0000) 0.3286 (0.0106 0.0322)-1.0000 (0.3197 -1.0000) 0.0691 (0.0070 0.1016) 0.0515 (0.2248 4.3647)-1.0000 (0.2547 -1.0000) 0.1158 (0.3422 2.9547) 0.1274 (0.3398 2.6662) 0.1535 (0.3444 2.2428) 0.1582 (0.3227 2.0401)-1.0000 (0.2401 -1.0000)-1.0000 (0.3528 -1.0000) 0.1614 (0.3461 2.1443) 0.0640 (0.0249 0.3897)-1.0000 (0.3529 -1.0000) 0.1672 (0.3444 2.0595)-1.0000 (0.2403 -1.0000)-1.0000 (0.2381 -1.0000) 0.1309 (0.3525 2.6918)-1.0000 (0.2345 -1.0000) 0.0503 (0.0177 0.3529)-1.0000 (0.2416 -1.0000)-1.0000 (0.2463 -1.0000) 0.1247 (0.3248 2.6048) 0.1623 (0.3421 2.1076) 0.1361 (0.3336 2.4507) 0.0679 (0.0177 0.2609) 0.0726 (0.2406 3.3145) 0.1122 (0.3271 2.9140)-1.0000 (0.3387 -1.0000)-1.0000 (0.2370 -1.0000) 0.1224 (0.3489 2.8520)-1.0000 (0.3140 -1.0000)-1.0000 (0.3245 -1.0000)-1.0000 (0.3485 -1.0000)-1.0000 (0.2351 -1.0000)-1.0000 (0.3328 -1.0000) 0.1129 (0.3271 2.8979) 0.0719 (0.0177 0.2463) 0.0981 (0.0183 0.1869) 0.1063 (0.0070 0.0660)-1.0000 (0.2660 -1.0000)
gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3840 -1.0000) 0.1201 (0.3249 2.7042)-1.0000 (0.2891 -1.0000) 0.1320 (0.3295 2.4961)-1.0000 (0.3485 -1.0000)-1.0000 (0.3723 -1.0000) 0.0399 (0.0214 0.5365) 0.0434 (0.0214 0.4937) 0.0482 (0.0178 0.3686) 0.0337 (0.0142 0.4204) 0.1039 (0.3772 3.6317) 0.0458 (0.0249 0.5440) 0.0918 (0.3014 3.2833)-1.0000 (0.3278 -1.0000) 0.0483 (0.0178 0.3679) 0.0554 (0.0214 0.3858)-1.0000 (0.3708 -1.0000)-1.0000 (0.3512 -1.0000) 0.0521 (0.0250 0.4794)-1.0000 (0.3543 -1.0000) 0.0893 (0.3423 3.8308)-1.0000 (0.3458 -1.0000)-1.0000 (0.3596 -1.0000) 0.0374 (0.0178 0.4755) 0.0449 (0.0214 0.4761) 0.0506 (0.0178 0.3509) 0.1396 (0.3169 2.2693) 0.1488 (0.3703 2.4891) 0.2215 (0.0071 0.0319) 0.0553 (0.0214 0.3862)-1.0000 (0.3452 -1.0000)-1.0000 (0.2989 -1.0000) 0.1541 (0.2784 1.8059)-1.0000 (0.2835 -1.0000) 0.0821 (0.0177 0.2161)-1.0000 (0.3468 -1.0000) 0.1021 (0.0159 0.1561) 0.1102 (0.2832 2.5688) 0.1396 (0.3036 2.1745) 0.1664 (0.3256 1.9564) 0.1297 (0.3190 2.4602)-1.0000 (0.3766 -1.0000) 0.0646 (0.3306 5.1134)
gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                 -1.0000 (0.2607 -1.0000) 0.1260 (0.0142 0.1124)-1.0000 (0.3046 -1.0000) 0.1188 (0.0106 0.0890) 0.0688 (0.2222 3.2318) 0.0572 (0.2520 4.4033)-1.0000 (0.3266 -1.0000) 0.0865 (0.3242 3.7485) 0.1765 (0.3287 1.8620) 0.1553 (0.3075 1.9802) 0.0553 (0.2374 4.2909)-1.0000 (0.3371 -1.0000) 0.1099 (0.3296 3.0005) 0.0649 (0.0286 0.4409)-1.0000 (0.3371 -1.0000) 0.2108 (0.3287 1.5595)-1.0000 (0.2376 -1.0000)-1.0000 (0.2354 -1.0000) 0.1320 (0.3367 2.5505)-1.0000 (0.2318 -1.0000) 0.0533 (0.0214 0.4016)-1.0000 (0.2390 -1.0000)-1.0000 (0.2437 -1.0000) 0.1249 (0.3095 2.4789) 0.1332 (0.3264 2.4505) 0.1486 (0.3181 2.1413) 0.0701 (0.0213 0.3046) 0.0754 (0.2355 3.1237) 0.1544 (0.3117 2.0188)-1.0000 (0.3232 -1.0000)-1.0000 (0.2328 -1.0000) 0.0997 (0.3324 3.3351)-1.0000 (0.2989 -1.0000)-1.0000 (0.3093 -1.0000)-1.0000 (0.3328 -1.0000)-1.0000 (0.2300 -1.0000) 0.0925 (0.3174 3.4314) 0.0956 (0.3118 3.2629) 0.0738 (0.0213 0.2893) 0.0970 (0.0220 0.2266) 0.3296 (0.0106 0.0321)-1.0000 (0.2633 -1.0000) 0.1058 (0.0106 0.1002) 0.1388 (0.3152 2.2700)
gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1290 (0.0506 0.3922) 0.0922 (0.2238 2.4259) 0.0993 (0.3514 3.5406)-1.0000 (0.2280 -1.0000) 0.1622 (0.0106 0.0653) 0.0308 (0.0142 0.4599) 0.1144 (0.3517 3.0751)-1.0000 (0.3521 -1.0000)-1.0000 (0.3624 -1.0000)-1.0000 (0.3533 -1.0000) 0.0521 (0.0250 0.4791)-1.0000 (0.3541 -1.0000) 0.1352 (0.3571 2.6400) 0.1117 (0.2314 2.0711)-1.0000 (0.3542 -1.0000)-1.0000 (0.3624 -1.0000) 0.0600 (0.0305 0.5076) 0.0596 (0.0250 0.4199) 0.1285 (0.3565 2.7747) 0.1965 (0.0106 0.0540) 0.0687 (0.2315 3.3684) 0.0252 (0.0142 0.5632) 0.0796 (0.0070 0.0885)-1.0000 (0.3434 -1.0000)-1.0000 (0.3460 -1.0000)-1.0000 (0.3514 -1.0000)-1.0000 (0.2373 -1.0000) 0.0572 (0.0250 0.4374)-1.0000 (0.3447 -1.0000)-1.0000 (0.3510 -1.0000) 0.1072 (0.0088 0.0824) 0.1996 (0.3543 1.7751) 0.1456 (0.3456 2.3734) 0.1235 (0.3471 2.8108) 0.0989 (0.3667 3.7063) 0.0711 (0.0071 0.0994) 0.1233 (0.3608 2.9271) 0.1213 (0.3593 2.9624)-1.0000 (0.2349 -1.0000) 0.0974 (0.2171 2.2302) 0.0730 (0.2305 3.1587) 0.0593 (0.0322 0.5432) 0.0735 (0.2295 3.1225)-1.0000 (0.3511 -1.0000) 0.0828 (0.2268 2.7379)
gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a                 -1.0000 (0.3817 -1.0000) 0.1589 (0.3286 2.0687) 0.1150 (0.2914 2.5334) 0.1692 (0.3333 1.9701)-1.0000 (0.3509 -1.0000)-1.0000 (0.3719 -1.0000) 0.0305 (0.0178 0.5821) 0.0450 (0.0214 0.4755) 0.0321 (0.0142 0.4412) 0.0213 (0.0106 0.4985) 0.0970 (0.3768 3.8826) 0.0422 (0.0249 0.5905) 0.1290 (0.2986 2.3140)-1.0000 (0.3316 -1.0000) 0.0421 (0.0178 0.4219) 0.0386 (0.0177 0.4602)-1.0000 (0.3704 -1.0000)-1.0000 (0.3508 -1.0000) 0.0409 (0.0213 0.5217)-1.0000 (0.3539 -1.0000) 0.1733 (0.3461 1.9971)-1.0000 (0.3454 -1.0000)-1.0000 (0.3592 -1.0000) 0.0253 (0.0142 0.5599) 0.0430 (0.0214 0.4975) 0.0336 (0.0142 0.4216) 0.1491 (0.3206 2.1507) 0.1459 (0.3700 2.5354) 0.0798 (0.0071 0.0884) 0.0355 (0.0177 0.5004)-1.0000 (0.3448 -1.0000) 0.1369 (0.3012 2.1996) 0.1975 (0.2806 1.4213)-1.0000 (0.2858 -1.0000) 0.0768 (0.0177 0.2308)-1.0000 (0.3465 -1.0000) 0.1018 (0.0159 0.1565) 0.1559 (0.2838 1.8209) 0.1485 (0.3072 2.0688) 0.1988 (0.3293 1.6569) 0.1397 (0.3227 2.3103)-1.0000 (0.3763 -1.0000) 0.1354 (0.3343 2.4687) 0.0703 (0.0070 0.1003) 0.1482 (0.3189 2.1521)-1.0000 (0.3507 -1.0000)
gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1650 (0.0432 0.2618)-1.0000 (0.2329 -1.0000) 0.1694 (0.3414 2.0156)-1.0000 (0.2372 -1.0000) 0.0335 (0.0142 0.4224) 0.0271 (0.0178 0.6558)-1.0000 (0.3903 -1.0000)-1.0000 (0.3917 -1.0000)-1.0000 (0.3779 -1.0000)-1.0000 (0.3743 -1.0000) 0.0517 (0.0071 0.1366) 0.0979 (0.3780 3.8627) 0.1548 (0.3387 2.1880) 0.1084 (0.2415 2.2278)-1.0000 (0.3928 -1.0000)-1.0000 (0.3779 -1.0000) 0.0551 (0.0268 0.4868) 0.1148 (0.0142 0.1236)-1.0000 (0.3952 -1.0000) 0.0529 (0.0214 0.4036) 0.0679 (0.2356 3.4691) 0.0332 (0.0106 0.3198) 0.0590 (0.0250 0.4229)-1.0000 (0.3699 -1.0000)-1.0000 (0.3843 -1.0000)-1.0000 (0.3782 -1.0000)-1.0000 (0.2442 -1.0000) 0.0521 (0.0071 0.1357)-1.0000 (0.3712 -1.0000)-1.0000 (0.3778 -1.0000) 0.0502 (0.0250 0.4975) 0.1784 (0.3333 1.8683) 0.1475 (0.3365 2.2818) 0.2045 (0.3371 1.6486)-1.0000 (0.3832 -1.0000) 0.0574 (0.0250 0.4363) 0.1533 (0.3894 2.5394) 0.1150 (0.3472 3.0199) 0.0927 (0.2442 2.6354) 0.0915 (0.2263 2.4738)-1.0000 (0.2398 -1.0000) 0.0938 (0.0286 0.3048)-1.0000 (0.2387 -1.0000)-1.0000 (0.3749 -1.0000)-1.0000 (0.2361 -1.0000) 0.0644 (0.0250 0.3874)-1.0000 (0.3775 -1.0000)
gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1452 (0.0544 0.3745) 0.0659 (0.2191 3.3245) 0.1403 (0.3459 2.4660)-1.0000 (0.2233 -1.0000) 0.2623 (0.0142 0.0540) 0.0322 (0.0142 0.4406) 0.1403 (0.3584 2.5550)-1.0000 (0.3588 -1.0000)-1.0000 (0.3692 -1.0000)-1.0000 (0.3487 -1.0000) 0.0501 (0.0250 0.4988)-1.0000 (0.3607 -1.0000) 0.1650 (0.3515 2.1308) 0.0928 (0.2275 2.4512)-1.0000 (0.3608 -1.0000)-1.0000 (0.3692 -1.0000) 0.0576 (0.0286 0.4972) 0.0571 (0.0250 0.4380) 0.1813 (0.3632 2.0028) 0.2476 (0.0106 0.0428)-1.0000 (0.2268 -1.0000) 0.0328 (0.0178 0.5411) 0.1379 (0.0106 0.0768)-1.0000 (0.3500 -1.0000) 0.0874 (0.3526 4.0348)-1.0000 (0.3581 -1.0000)-1.0000 (0.2325 -1.0000) 0.0549 (0.0250 0.4559)-1.0000 (0.3503 -1.0000)-1.0000 (0.3576 -1.0000) 0.1750 (0.0124 0.0708) 0.1969 (0.3488 1.7718) 0.1708 (0.3401 1.9907) 0.1542 (0.3417 2.2159)-1.0000 (0.3735 -1.0000) 0.1212 (0.0106 0.0877) 0.1041 (0.3676 3.5318) 0.1547 (0.3537 2.2861)-1.0000 (0.2301 -1.0000) 0.0758 (0.2125 2.8048)-1.0000 (0.2258 -1.0000) 0.0688 (0.0359 0.5217)-1.0000 (0.2247 -1.0000)-1.0000 (0.3568 -1.0000)-1.0000 (0.2221 -1.0000) 0.1099 (0.0035 0.0320)-1.0000 (0.3564 -1.0000) 0.0617 (0.0250 0.4048)
gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a                  0.1928 (0.3666 1.9017) 0.1500 (0.3327 2.2176) 0.0324 (0.0141 0.4345) 0.0953 (0.3392 3.5591) 0.1275 (0.3439 2.6962)-1.0000 (0.3505 -1.0000) 0.1134 (0.3051 2.6902) 0.1168 (0.3010 2.5762) 0.1417 (0.2890 2.0397) 0.1363 (0.2866 2.1027) 0.1960 (0.3432 1.7511)-1.0000 (0.3197 -1.0000) 0.0784 (0.0035 0.0444)-1.0000 (0.3443 -1.0000) 0.0916 (0.3100 3.3859) 0.1176 (0.2890 2.4578) 0.0788 (0.3444 4.3723) 0.1138 (0.3292 2.8933) 0.1117 (0.3202 2.8674) 0.1709 (0.3524 2.0619) 0.0886 (0.3300 3.7264) 0.1394 (0.3375 2.4208) 0.1879 (0.3633 1.9334) 0.1360 (0.2990 2.1976)-1.0000 (0.3102 -1.0000) 0.1193 (0.2892 2.4235) 0.1534 (0.3246 2.1161) 0.2118 (0.3394 1.6021) 0.1141 (0.2968 2.6015) 0.1036 (0.2940 2.8369) 0.1298 (0.3489 2.6873) 0.0439 (0.0105 0.2389) 0.0344 (0.0213 0.6182) 0.0308 (0.0140 0.4564) 0.0789 (0.2989 3.7897) 0.1550 (0.3506 2.2621) 0.1129 (0.3067 2.7175) 0.0305 (0.0213 0.6966) 0.1243 (0.3246 2.6112)-1.0000 (0.3416 -1.0000) 0.1114 (0.3268 2.9334) 0.1756 (0.3736 2.1277) 0.1397 (0.3384 2.4217)-1.0000 (0.2993 -1.0000) 0.0606 (0.3220 5.3164) 0.1185 (0.3520 2.9702) 0.1125 (0.3016 2.6806) 0.1332 (0.3310 2.4848) 0.1519 (0.3465 2.2818)


Model 0: one-ratio


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 90):  -4063.961190      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.168578 0.087214 0.018154 0.065574 0.014903 0.110152 0.147346 2.025922 1.889370 0.069213 0.017096 0.034073 0.017325 0.018074 0.042833 0.008593 0.008558 0.043228 0.095485 0.158470 0.091013 0.120906 0.033757 0.009054 0.085574 1.672812 2.135665 0.000004 0.056262 0.021671 0.048974 0.148708 0.115779 0.025949 0.017341 0.079620 0.164884 0.029955 0.057690 2.486666 0.087610 0.042095 0.007283 0.042196 0.068487 0.025613 0.046365 0.092860 0.038166 0.012536 0.007742 0.042127 0.037896 0.008642 0.058656 0.021000 0.051080 0.072966 0.301405 0.128310 0.030361 0.006129 0.016688 0.025375 0.062341 0.028753 0.119045 0.074323 0.172633 0.000004 0.048425 0.040056 0.056918 0.060544 0.068791 0.009856 0.016467 0.016591 0.116760 0.129629 0.206012 0.047166 0.032358 0.040436 0.016660 0.016062 0.061585 0.042823 5.886240 0.080638

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  15.19827

(1: 0.168578, (22: 0.018154, 42: 0.065574): 0.087214, (((((((2: 0.034073, 43: 0.017325): 0.017096, (4: 0.042833, (41: 0.008558, 45: 0.043228): 0.008593): 0.018074): 0.069213, (14: 0.158470, 21: 0.091013): 0.095485, (27: 0.033757, 39: 0.009054): 0.120906, 40: 0.085574): 1.889370, ((((3: 0.021671, 34: 0.048974): 0.056262, ((13: 0.025949, 50: 0.017341): 0.115779, 32: 0.079620): 0.148708): 0.000004, (33: 0.029955, 38: 0.057690): 0.164884): 2.135665, ((((7: 0.042196, 8: 0.068487): 0.007283, 25: 0.025613): 0.042095, 15: 0.046365): 0.087610, (((9: 0.007742, 16: 0.042127): 0.012536, (10: 0.008642, 24: 0.058656): 0.037896, 26: 0.021000): 0.038166, 30: 0.051080): 0.092860, (12: 0.301405, (((29: 0.016688, 44: 0.025375): 0.006129, 47: 0.062341): 0.030361, (35: 0.119045, 37: 0.074323): 0.028753): 0.128310): 0.072966, 19: 0.172633): 2.486666): 1.672812): 2.025922, (5: 0.048425, 20: 0.040056, 23: 0.056918, 31: 0.060544, 36: 0.068791, (46: 0.016467, 49: 0.016591): 0.009856): 0.000004): 0.147346, (6: 0.129629, 17: 0.206012): 0.116760): 0.110152, (((11: 0.016660, 28: 0.016062): 0.040436, 48: 0.061585): 0.032358, 18: 0.042823): 0.047166): 0.014903);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.168578, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018154, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065574): 0.087214, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034073, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017325): 0.017096, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.042833, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008558, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043228): 0.008593): 0.018074): 0.069213, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.158470, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.091013): 0.095485, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.033757, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.009054): 0.120906, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.085574): 1.889370, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021671, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048974): 0.056262, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.025949, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.017341): 0.115779, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.079620): 0.148708): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.029955, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.057690): 0.164884): 2.135665, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042196, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.068487): 0.007283, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025613): 0.042095, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046365): 0.087610, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007742, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042127): 0.012536, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008642, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.058656): 0.037896, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021000): 0.038166, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051080): 0.092860, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.301405, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016688, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025375): 0.006129, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.062341): 0.030361, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.119045, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.074323): 0.028753): 0.128310): 0.072966, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.172633): 2.486666): 1.672812): 2.025922, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048425, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.040056, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.056918, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060544, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.068791, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016467, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016591): 0.009856): 0.000004): 0.147346, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.129629, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.206012): 0.116760): 0.110152, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016660, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016062): 0.040436, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.061585): 0.032358, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.042823): 0.047166): 0.014903);

Detailed output identifying parameters

kappa (ts/tv) =  5.88624

omega (dN/dS) =  0.08064

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1      0.169   260.5   120.5  0.0806  0.0122  0.1513   3.2  18.2
  51..52     0.087   260.5   120.5  0.0806  0.0063  0.0783   1.6   9.4
  52..22     0.018   260.5   120.5  0.0806  0.0013  0.0163   0.3   2.0
  52..42     0.066   260.5   120.5  0.0806  0.0047  0.0589   1.2   7.1
  51..53     0.015   260.5   120.5  0.0806  0.0011  0.0134   0.3   1.6
  53..54     0.110   260.5   120.5  0.0806  0.0080  0.0989   2.1  11.9
  54..55     0.147   260.5   120.5  0.0806  0.0107  0.1322   2.8  15.9
  55..56     2.026   260.5   120.5  0.0806  0.1466  1.8183  38.2 219.1
  56..57     1.889   260.5   120.5  0.0806  0.1367  1.6957  35.6 204.3
  57..58     0.069   260.5   120.5  0.0806  0.0050  0.0621   1.3   7.5
  58..59     0.017   260.5   120.5  0.0806  0.0012  0.0153   0.3   1.8
  59..2      0.034   260.5   120.5  0.0806  0.0025  0.0306   0.6   3.7
  59..43     0.017   260.5   120.5  0.0806  0.0013  0.0155   0.3   1.9
  58..60     0.018   260.5   120.5  0.0806  0.0013  0.0162   0.3   2.0
  60..4      0.043   260.5   120.5  0.0806  0.0031  0.0384   0.8   4.6
  60..61     0.009   260.5   120.5  0.0806  0.0006  0.0077   0.2   0.9
  61..41     0.009   260.5   120.5  0.0806  0.0006  0.0077   0.2   0.9
  61..45     0.043   260.5   120.5  0.0806  0.0031  0.0388   0.8   4.7
  57..62     0.095   260.5   120.5  0.0806  0.0069  0.0857   1.8  10.3
  62..14     0.158   260.5   120.5  0.0806  0.0115  0.1422   3.0  17.1
  62..21     0.091   260.5   120.5  0.0806  0.0066  0.0817   1.7   9.8
  57..63     0.121   260.5   120.5  0.0806  0.0088  0.1085   2.3  13.1
  63..27     0.034   260.5   120.5  0.0806  0.0024  0.0303   0.6   3.7
  63..39     0.009   260.5   120.5  0.0806  0.0007  0.0081   0.2   1.0
  57..40     0.086   260.5   120.5  0.0806  0.0062  0.0768   1.6   9.3
  56..64     1.673   260.5   120.5  0.0806  0.1211  1.5014  31.5 180.9
  64..65     2.136   260.5   120.5  0.0806  0.1546  1.9168  40.3 231.0
  65..66     0.000   260.5   120.5  0.0806  0.0000  0.0000   0.0   0.0
  66..67     0.056   260.5   120.5  0.0806  0.0041  0.0505   1.1   6.1
  67..3      0.022   260.5   120.5  0.0806  0.0016  0.0194   0.4   2.3
  67..34     0.049   260.5   120.5  0.0806  0.0035  0.0440   0.9   5.3
  66..68     0.149   260.5   120.5  0.0806  0.0108  0.1335   2.8  16.1
  68..69     0.116   260.5   120.5  0.0806  0.0084  0.1039   2.2  12.5
  69..13     0.026   260.5   120.5  0.0806  0.0019  0.0233   0.5   2.8
  69..50     0.017   260.5   120.5  0.0806  0.0013  0.0156   0.3   1.9
  68..32     0.080   260.5   120.5  0.0806  0.0058  0.0715   1.5   8.6
  65..70     0.165   260.5   120.5  0.0806  0.0119  0.1480   3.1  17.8
  70..33     0.030   260.5   120.5  0.0806  0.0022  0.0269   0.6   3.2
  70..38     0.058   260.5   120.5  0.0806  0.0042  0.0518   1.1   6.2
  64..71     2.487   260.5   120.5  0.0806  0.1800  2.2318  46.9 268.9
  71..72     0.088   260.5   120.5  0.0806  0.0063  0.0786   1.7   9.5
  72..73     0.042   260.5   120.5  0.0806  0.0030  0.0378   0.8   4.6
  73..74     0.007   260.5   120.5  0.0806  0.0005  0.0065   0.1   0.8
  74..7      0.042   260.5   120.5  0.0806  0.0031  0.0379   0.8   4.6
  74..8      0.068   260.5   120.5  0.0806  0.0050  0.0615   1.3   7.4
  73..25     0.026   260.5   120.5  0.0806  0.0019  0.0230   0.5   2.8
  72..15     0.046   260.5   120.5  0.0806  0.0034  0.0416   0.9   5.0
  71..75     0.093   260.5   120.5  0.0806  0.0067  0.0833   1.8  10.0
  75..76     0.038   260.5   120.5  0.0806  0.0028  0.0343   0.7   4.1
  76..77     0.013   260.5   120.5  0.0806  0.0009  0.0113   0.2   1.4
  77..9      0.008   260.5   120.5  0.0806  0.0006  0.0069   0.1   0.8
  77..16     0.042   260.5   120.5  0.0806  0.0030  0.0378   0.8   4.6
  76..78     0.038   260.5   120.5  0.0806  0.0027  0.0340   0.7   4.1
  78..10     0.009   260.5   120.5  0.0806  0.0006  0.0078   0.2   0.9
  78..24     0.059   260.5   120.5  0.0806  0.0042  0.0526   1.1   6.3
  76..26     0.021   260.5   120.5  0.0806  0.0015  0.0188   0.4   2.3
  75..30     0.051   260.5   120.5  0.0806  0.0037  0.0458   1.0   5.5
  71..79     0.073   260.5   120.5  0.0806  0.0053  0.0655   1.4   7.9
  79..12     0.301   260.5   120.5  0.0806  0.0218  0.2705   5.7  32.6
  79..80     0.128   260.5   120.5  0.0806  0.0093  0.1152   2.4  13.9
  80..81     0.030   260.5   120.5  0.0806  0.0022  0.0272   0.6   3.3
  81..82     0.006   260.5   120.5  0.0806  0.0004  0.0055   0.1   0.7
  82..29     0.017   260.5   120.5  0.0806  0.0012  0.0150   0.3   1.8
  82..44     0.025   260.5   120.5  0.0806  0.0018  0.0228   0.5   2.7
  81..47     0.062   260.5   120.5  0.0806  0.0045  0.0560   1.2   6.7
  80..83     0.029   260.5   120.5  0.0806  0.0021  0.0258   0.5   3.1
  83..35     0.119   260.5   120.5  0.0806  0.0086  0.1068   2.2  12.9
  83..37     0.074   260.5   120.5  0.0806  0.0054  0.0667   1.4   8.0
  71..19     0.173   260.5   120.5  0.0806  0.0125  0.1549   3.3  18.7
  55..84     0.000   260.5   120.5  0.0806  0.0000  0.0000   0.0   0.0
  84..5      0.048   260.5   120.5  0.0806  0.0035  0.0435   0.9   5.2
  84..20     0.040   260.5   120.5  0.0806  0.0029  0.0360   0.8   4.3
  84..23     0.057   260.5   120.5  0.0806  0.0041  0.0511   1.1   6.2
  84..31     0.061   260.5   120.5  0.0806  0.0044  0.0543   1.1   6.5
  84..36     0.069   260.5   120.5  0.0806  0.0050  0.0617   1.3   7.4
  84..85     0.010   260.5   120.5  0.0806  0.0007  0.0088   0.2   1.1
  85..46     0.016   260.5   120.5  0.0806  0.0012  0.0148   0.3   1.8
  85..49     0.017   260.5   120.5  0.0806  0.0012  0.0149   0.3   1.8
  54..86     0.117   260.5   120.5  0.0806  0.0085  0.1048   2.2  12.6
  86..6      0.130   260.5   120.5  0.0806  0.0094  0.1163   2.4  14.0
  86..17     0.206   260.5   120.5  0.0806  0.0149  0.1849   3.9  22.3
  53..87     0.047   260.5   120.5  0.0806  0.0034  0.0423   0.9   5.1
  87..88     0.032   260.5   120.5  0.0806  0.0023  0.0290   0.6   3.5
  88..89     0.040   260.5   120.5  0.0806  0.0029  0.0363   0.8   4.4
  89..11     0.017   260.5   120.5  0.0806  0.0012  0.0150   0.3   1.8
  89..28     0.016   260.5   120.5  0.0806  0.0012  0.0144   0.3   1.7
  88..48     0.062   260.5   120.5  0.0806  0.0045  0.0553   1.2   6.7
  87..18     0.043   260.5   120.5  0.0806  0.0031  0.0384   0.8   4.6

tree length for dN:       1.1000
tree length for dS:      13.6407


Time used:  7:27


Model 1: NearlyNeutral (2 categories)


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 91):  -4045.346287      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.172461 0.091639 0.018665 0.065226 0.010730 0.111171 0.149265 2.171019 2.109024 0.070691 0.017505 0.034844 0.017731 0.018458 0.043771 0.008796 0.008755 0.044199 0.098533 0.163316 0.092559 0.123261 0.034406 0.009187 0.087535 2.027205 2.289282 0.000004 0.055882 0.021478 0.048952 0.148230 0.115448 0.024549 0.018488 0.079504 0.165047 0.031077 0.056983 2.755667 0.088264 0.042594 0.007417 0.042700 0.069194 0.025867 0.046749 0.093765 0.038459 0.012649 0.007870 0.042600 0.038612 0.008664 0.059677 0.021308 0.051733 0.075658 0.305068 0.128305 0.028812 0.006601 0.016917 0.025703 0.062913 0.031106 0.120057 0.075609 0.174263 0.000004 0.048486 0.040129 0.057020 0.060580 0.068843 0.009846 0.016496 0.016738 0.114062 0.132635 0.204628 0.046923 0.032093 0.041196 0.016755 0.016254 0.062184 0.043279 6.583735 0.942497 0.066349

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  16.38783

(1: 0.172461, (22: 0.018665, 42: 0.065226): 0.091639, (((((((2: 0.034844, 43: 0.017731): 0.017505, (4: 0.043771, (41: 0.008755, 45: 0.044199): 0.008796): 0.018458): 0.070691, (14: 0.163316, 21: 0.092559): 0.098533, (27: 0.034406, 39: 0.009187): 0.123261, 40: 0.087535): 2.109024, ((((3: 0.021478, 34: 0.048952): 0.055882, ((13: 0.024549, 50: 0.018488): 0.115448, 32: 0.079504): 0.148230): 0.000004, (33: 0.031077, 38: 0.056983): 0.165047): 2.289282, ((((7: 0.042700, 8: 0.069194): 0.007417, 25: 0.025867): 0.042594, 15: 0.046749): 0.088264, (((9: 0.007870, 16: 0.042600): 0.012649, (10: 0.008664, 24: 0.059677): 0.038612, 26: 0.021308): 0.038459, 30: 0.051733): 0.093765, (12: 0.305068, (((29: 0.016917, 44: 0.025703): 0.006601, 47: 0.062913): 0.028812, (35: 0.120057, 37: 0.075609): 0.031106): 0.128305): 0.075658, 19: 0.174263): 2.755667): 2.027205): 2.171019, (5: 0.048486, 20: 0.040129, 23: 0.057020, 31: 0.060580, 36: 0.068843, (46: 0.016496, 49: 0.016738): 0.009846): 0.000004): 0.149265, (6: 0.132635, 17: 0.204628): 0.114062): 0.111171, (((11: 0.016755, 28: 0.016254): 0.041196, 48: 0.062184): 0.032093, 18: 0.043279): 0.046923): 0.010730);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.172461, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018665, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065226): 0.091639, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034844, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017731): 0.017505, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043771, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008755, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.044199): 0.008796): 0.018458): 0.070691, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.163316, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.092559): 0.098533, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034406, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.009187): 0.123261, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.087535): 2.109024, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021478, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048952): 0.055882, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.024549, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018488): 0.115448, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.079504): 0.148230): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.031077, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.056983): 0.165047): 2.289282, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042700, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.069194): 0.007417, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025867): 0.042594, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046749): 0.088264, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007870, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042600): 0.012649, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008664, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.059677): 0.038612, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021308): 0.038459, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051733): 0.093765, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.305068, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016917, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025703): 0.006601, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.062913): 0.028812, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.120057, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.075609): 0.031106): 0.128305): 0.075658, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.174263): 2.755667): 2.027205): 2.171019, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048486, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.040129, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.057020, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060580, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.068843, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016496, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016738): 0.009846): 0.000004): 0.149265, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.132635, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.204628): 0.114062): 0.111171, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016755, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016254): 0.041196, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.062184): 0.032093, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043279): 0.046923): 0.010730);

Detailed output identifying parameters

kappa (ts/tv) =  6.58373


dN/dS (w) for site classes (K=2)

p:   0.94250  0.05750
w:   0.06635  1.00000

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1       0.172    259.8    121.2   0.1200   0.0173   0.1437    4.5   17.4
  51..52      0.092    259.8    121.2   0.1200   0.0092   0.0764    2.4    9.3
  52..22      0.019    259.8    121.2   0.1200   0.0019   0.0156    0.5    1.9
  52..42      0.065    259.8    121.2   0.1200   0.0065   0.0544    1.7    6.6
  51..53      0.011    259.8    121.2   0.1200   0.0011   0.0089    0.3    1.1
  53..54      0.111    259.8    121.2   0.1200   0.0111   0.0926    2.9   11.2
  54..55      0.149    259.8    121.2   0.1200   0.0149   0.1244    3.9   15.1
  55..56      2.171    259.8    121.2   0.1200   0.2172   1.8091   56.4  219.3
  56..57      2.109    259.8    121.2   0.1200   0.2110   1.7575   54.8  213.0
  57..58      0.071    259.8    121.2   0.1200   0.0071   0.0589    1.8    7.1
  58..59      0.018    259.8    121.2   0.1200   0.0018   0.0146    0.5    1.8
  59..2       0.035    259.8    121.2   0.1200   0.0035   0.0290    0.9    3.5
  59..43      0.018    259.8    121.2   0.1200   0.0018   0.0148    0.5    1.8
  58..60      0.018    259.8    121.2   0.1200   0.0018   0.0154    0.5    1.9
  60..4       0.044    259.8    121.2   0.1200   0.0044   0.0365    1.1    4.4
  60..61      0.009    259.8    121.2   0.1200   0.0009   0.0073    0.2    0.9
  61..41      0.009    259.8    121.2   0.1200   0.0009   0.0073    0.2    0.9
  61..45      0.044    259.8    121.2   0.1200   0.0044   0.0368    1.1    4.5
  57..62      0.099    259.8    121.2   0.1200   0.0099   0.0821    2.6   10.0
  62..14      0.163    259.8    121.2   0.1200   0.0163   0.1361    4.2   16.5
  62..21      0.093    259.8    121.2   0.1200   0.0093   0.0771    2.4    9.3
  57..63      0.123    259.8    121.2   0.1200   0.0123   0.1027    3.2   12.5
  63..27      0.034    259.8    121.2   0.1200   0.0034   0.0287    0.9    3.5
  63..39      0.009    259.8    121.2   0.1200   0.0009   0.0077    0.2    0.9
  57..40      0.088    259.8    121.2   0.1200   0.0088   0.0729    2.3    8.8
  56..64      2.027    259.8    121.2   0.1200   0.2028   1.6893   52.7  204.8
  64..65      2.289    259.8    121.2   0.1200   0.2290   1.9077   59.5  231.3
  65..66      0.000    259.8    121.2   0.1200   0.0000   0.0000    0.0    0.0
  66..67      0.056    259.8    121.2   0.1200   0.0056   0.0466    1.5    5.6
  67..3       0.021    259.8    121.2   0.1200   0.0021   0.0179    0.6    2.2
  67..34      0.049    259.8    121.2   0.1200   0.0049   0.0408    1.3    4.9
  66..68      0.148    259.8    121.2   0.1200   0.0148   0.1235    3.9   15.0
  68..69      0.115    259.8    121.2   0.1200   0.0115   0.0962    3.0   11.7
  69..13      0.025    259.8    121.2   0.1200   0.0025   0.0205    0.6    2.5
  69..50      0.018    259.8    121.2   0.1200   0.0018   0.0154    0.5    1.9
  68..32      0.080    259.8    121.2   0.1200   0.0080   0.0663    2.1    8.0
  65..70      0.165    259.8    121.2   0.1200   0.0165   0.1375    4.3   16.7
  70..33      0.031    259.8    121.2   0.1200   0.0031   0.0259    0.8    3.1
  70..38      0.057    259.8    121.2   0.1200   0.0057   0.0475    1.5    5.8
  64..71      2.756    259.8    121.2   0.1200   0.2756   2.2963   71.6  278.4
  71..72      0.088    259.8    121.2   0.1200   0.0088   0.0736    2.3    8.9
  72..73      0.043    259.8    121.2   0.1200   0.0043   0.0355    1.1    4.3
  73..74      0.007    259.8    121.2   0.1200   0.0007   0.0062    0.2    0.7
  74..7       0.043    259.8    121.2   0.1200   0.0043   0.0356    1.1    4.3
  74..8       0.069    259.8    121.2   0.1200   0.0069   0.0577    1.8    7.0
  73..25      0.026    259.8    121.2   0.1200   0.0026   0.0216    0.7    2.6
  72..15      0.047    259.8    121.2   0.1200   0.0047   0.0390    1.2    4.7
  71..75      0.094    259.8    121.2   0.1200   0.0094   0.0781    2.4    9.5
  75..76      0.038    259.8    121.2   0.1200   0.0038   0.0320    1.0    3.9
  76..77      0.013    259.8    121.2   0.1200   0.0013   0.0105    0.3    1.3
  77..9       0.008    259.8    121.2   0.1200   0.0008   0.0066    0.2    0.8
  77..16      0.043    259.8    121.2   0.1200   0.0043   0.0355    1.1    4.3
  76..78      0.039    259.8    121.2   0.1200   0.0039   0.0322    1.0    3.9
  78..10      0.009    259.8    121.2   0.1200   0.0009   0.0072    0.2    0.9
  78..24      0.060    259.8    121.2   0.1200   0.0060   0.0497    1.6    6.0
  76..26      0.021    259.8    121.2   0.1200   0.0021   0.0178    0.6    2.2
  75..30      0.052    259.8    121.2   0.1200   0.0052   0.0431    1.3    5.2
  71..79      0.076    259.8    121.2   0.1200   0.0076   0.0630    2.0    7.6
  79..12      0.305    259.8    121.2   0.1200   0.0305   0.2542    7.9   30.8
  79..80      0.128    259.8    121.2   0.1200   0.0128   0.1069    3.3   13.0
  80..81      0.029    259.8    121.2   0.1200   0.0029   0.0240    0.7    2.9
  81..82      0.007    259.8    121.2   0.1200   0.0007   0.0055    0.2    0.7
  82..29      0.017    259.8    121.2   0.1200   0.0017   0.0141    0.4    1.7
  82..44      0.026    259.8    121.2   0.1200   0.0026   0.0214    0.7    2.6
  81..47      0.063    259.8    121.2   0.1200   0.0063   0.0524    1.6    6.4
  80..83      0.031    259.8    121.2   0.1200   0.0031   0.0259    0.8    3.1
  83..35      0.120    259.8    121.2   0.1200   0.0120   0.1000    3.1   12.1
  83..37      0.076    259.8    121.2   0.1200   0.0076   0.0630    2.0    7.6
  71..19      0.174    259.8    121.2   0.1200   0.0174   0.1452    4.5   17.6
  55..84      0.000    259.8    121.2   0.1200   0.0000   0.0000    0.0    0.0
  84..5       0.048    259.8    121.2   0.1200   0.0048   0.0404    1.3    4.9
  84..20      0.040    259.8    121.2   0.1200   0.0040   0.0334    1.0    4.1
  84..23      0.057    259.8    121.2   0.1200   0.0057   0.0475    1.5    5.8
  84..31      0.061    259.8    121.2   0.1200   0.0061   0.0505    1.6    6.1
  84..36      0.069    259.8    121.2   0.1200   0.0069   0.0574    1.8    7.0
  84..85      0.010    259.8    121.2   0.1200   0.0010   0.0082    0.3    1.0
  85..46      0.016    259.8    121.2   0.1200   0.0017   0.0137    0.4    1.7
  85..49      0.017    259.8    121.2   0.1200   0.0017   0.0139    0.4    1.7
  54..86      0.114    259.8    121.2   0.1200   0.0114   0.0950    3.0   11.5
  86..6       0.133    259.8    121.2   0.1200   0.0133   0.1105    3.4   13.4
  86..17      0.205    259.8    121.2   0.1200   0.0205   0.1705    5.3   20.7
  53..87      0.047    259.8    121.2   0.1200   0.0047   0.0391    1.2    4.7
  87..88      0.032    259.8    121.2   0.1200   0.0032   0.0267    0.8    3.2
  88..89      0.041    259.8    121.2   0.1200   0.0041   0.0343    1.1    4.2
  89..11      0.017    259.8    121.2   0.1200   0.0017   0.0140    0.4    1.7
  89..28      0.016    259.8    121.2   0.1200   0.0016   0.0135    0.4    1.6
  88..48      0.062    259.8    121.2   0.1200   0.0062   0.0518    1.6    6.3
  87..18      0.043    259.8    121.2   0.1200   0.0043   0.0361    1.1    4.4


Time used: 22:16


Model 2: PositiveSelection (3 categories)


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 93):  -4045.346287      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.172461 0.091638 0.018664 0.065226 0.010730 0.111171 0.149266 2.171008 2.109030 0.070691 0.017505 0.034844 0.017731 0.018458 0.043771 0.008795 0.008755 0.044199 0.098532 0.163316 0.092559 0.123260 0.034406 0.009187 0.087535 2.027202 2.289277 0.000004 0.055881 0.021478 0.048952 0.148230 0.115448 0.024549 0.018487 0.079504 0.165047 0.031077 0.056983 2.755667 0.088264 0.042594 0.007417 0.042700 0.069194 0.025867 0.046749 0.093765 0.038459 0.012649 0.007870 0.042600 0.038612 0.008664 0.059677 0.021308 0.051733 0.075659 0.305068 0.128304 0.028812 0.006601 0.016917 0.025703 0.062913 0.031106 0.120056 0.075609 0.174263 0.000004 0.048486 0.040129 0.057020 0.060580 0.068843 0.009846 0.016496 0.016738 0.114062 0.132635 0.204628 0.046923 0.032093 0.041196 0.016755 0.016254 0.062184 0.043279 6.583723 0.942497 0.057503 0.066349 11.542381

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  16.38781

(1: 0.172461, (22: 0.018664, 42: 0.065226): 0.091638, (((((((2: 0.034844, 43: 0.017731): 0.017505, (4: 0.043771, (41: 0.008755, 45: 0.044199): 0.008795): 0.018458): 0.070691, (14: 0.163316, 21: 0.092559): 0.098532, (27: 0.034406, 39: 0.009187): 0.123260, 40: 0.087535): 2.109030, ((((3: 0.021478, 34: 0.048952): 0.055881, ((13: 0.024549, 50: 0.018487): 0.115448, 32: 0.079504): 0.148230): 0.000004, (33: 0.031077, 38: 0.056983): 0.165047): 2.289277, ((((7: 0.042700, 8: 0.069194): 0.007417, 25: 0.025867): 0.042594, 15: 0.046749): 0.088264, (((9: 0.007870, 16: 0.042600): 0.012649, (10: 0.008664, 24: 0.059677): 0.038612, 26: 0.021308): 0.038459, 30: 0.051733): 0.093765, (12: 0.305068, (((29: 0.016917, 44: 0.025703): 0.006601, 47: 0.062913): 0.028812, (35: 0.120056, 37: 0.075609): 0.031106): 0.128304): 0.075659, 19: 0.174263): 2.755667): 2.027202): 2.171008, (5: 0.048486, 20: 0.040129, 23: 0.057020, 31: 0.060580, 36: 0.068843, (46: 0.016496, 49: 0.016738): 0.009846): 0.000004): 0.149266, (6: 0.132635, 17: 0.204628): 0.114062): 0.111171, (((11: 0.016755, 28: 0.016254): 0.041196, 48: 0.062184): 0.032093, 18: 0.043279): 0.046923): 0.010730);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.172461, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018664, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065226): 0.091638, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034844, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017731): 0.017505, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043771, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008755, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.044199): 0.008795): 0.018458): 0.070691, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.163316, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.092559): 0.098532, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034406, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.009187): 0.123260, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.087535): 2.109030, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021478, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048952): 0.055881, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.024549, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018487): 0.115448, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.079504): 0.148230): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.031077, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.056983): 0.165047): 2.289277, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042700, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.069194): 0.007417, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025867): 0.042594, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046749): 0.088264, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007870, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042600): 0.012649, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008664, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.059677): 0.038612, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021308): 0.038459, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051733): 0.093765, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.305068, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016917, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025703): 0.006601, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.062913): 0.028812, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.120056, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.075609): 0.031106): 0.128304): 0.075659, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.174263): 2.755667): 2.027202): 2.171008, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048486, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.040129, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.057020, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060580, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.068843, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016496, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016738): 0.009846): 0.000004): 0.149266, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.132635, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.204628): 0.114062): 0.111171, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016755, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016254): 0.041196, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.062184): 0.032093, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043279): 0.046923): 0.010730);

Detailed output identifying parameters

kappa (ts/tv) =  6.58372


dN/dS (w) for site classes (K=3)

p:   0.94250  0.05750  0.00000
w:   0.06635  1.00000 11.54238
(note that p[2] is zero)


dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1       0.172    259.8    121.2   0.1200   0.0173   0.1437    4.5   17.4
  51..52      0.092    259.8    121.2   0.1200   0.0092   0.0764    2.4    9.3
  52..22      0.019    259.8    121.2   0.1200   0.0019   0.0156    0.5    1.9
  52..42      0.065    259.8    121.2   0.1200   0.0065   0.0544    1.7    6.6
  51..53      0.011    259.8    121.2   0.1200   0.0011   0.0089    0.3    1.1
  53..54      0.111    259.8    121.2   0.1200   0.0111   0.0926    2.9   11.2
  54..55      0.149    259.8    121.2   0.1200   0.0149   0.1244    3.9   15.1
  55..56      2.171    259.8    121.2   0.1200   0.2172   1.8091   56.4  219.3
  56..57      2.109    259.8    121.2   0.1200   0.2110   1.7575   54.8  213.0
  57..58      0.071    259.8    121.2   0.1200   0.0071   0.0589    1.8    7.1
  58..59      0.018    259.8    121.2   0.1200   0.0018   0.0146    0.5    1.8
  59..2       0.035    259.8    121.2   0.1200   0.0035   0.0290    0.9    3.5
  59..43      0.018    259.8    121.2   0.1200   0.0018   0.0148    0.5    1.8
  58..60      0.018    259.8    121.2   0.1200   0.0018   0.0154    0.5    1.9
  60..4       0.044    259.8    121.2   0.1200   0.0044   0.0365    1.1    4.4
  60..61      0.009    259.8    121.2   0.1200   0.0009   0.0073    0.2    0.9
  61..41      0.009    259.8    121.2   0.1200   0.0009   0.0073    0.2    0.9
  61..45      0.044    259.8    121.2   0.1200   0.0044   0.0368    1.1    4.5
  57..62      0.099    259.8    121.2   0.1200   0.0099   0.0821    2.6   10.0
  62..14      0.163    259.8    121.2   0.1200   0.0163   0.1361    4.2   16.5
  62..21      0.093    259.8    121.2   0.1200   0.0093   0.0771    2.4    9.3
  57..63      0.123    259.8    121.2   0.1200   0.0123   0.1027    3.2   12.5
  63..27      0.034    259.8    121.2   0.1200   0.0034   0.0287    0.9    3.5
  63..39      0.009    259.8    121.2   0.1200   0.0009   0.0077    0.2    0.9
  57..40      0.088    259.8    121.2   0.1200   0.0088   0.0729    2.3    8.8
  56..64      2.027    259.8    121.2   0.1200   0.2028   1.6893   52.7  204.8
  64..65      2.289    259.8    121.2   0.1200   0.2290   1.9077   59.5  231.3
  65..66      0.000    259.8    121.2   0.1200   0.0000   0.0000    0.0    0.0
  66..67      0.056    259.8    121.2   0.1200   0.0056   0.0466    1.5    5.6
  67..3       0.021    259.8    121.2   0.1200   0.0021   0.0179    0.6    2.2
  67..34      0.049    259.8    121.2   0.1200   0.0049   0.0408    1.3    4.9
  66..68      0.148    259.8    121.2   0.1200   0.0148   0.1235    3.9   15.0
  68..69      0.115    259.8    121.2   0.1200   0.0115   0.0962    3.0   11.7
  69..13      0.025    259.8    121.2   0.1200   0.0025   0.0205    0.6    2.5
  69..50      0.018    259.8    121.2   0.1200   0.0018   0.0154    0.5    1.9
  68..32      0.080    259.8    121.2   0.1200   0.0080   0.0663    2.1    8.0
  65..70      0.165    259.8    121.2   0.1200   0.0165   0.1375    4.3   16.7
  70..33      0.031    259.8    121.2   0.1200   0.0031   0.0259    0.8    3.1
  70..38      0.057    259.8    121.2   0.1200   0.0057   0.0475    1.5    5.8
  64..71      2.756    259.8    121.2   0.1200   0.2756   2.2963   71.6  278.4
  71..72      0.088    259.8    121.2   0.1200   0.0088   0.0736    2.3    8.9
  72..73      0.043    259.8    121.2   0.1200   0.0043   0.0355    1.1    4.3
  73..74      0.007    259.8    121.2   0.1200   0.0007   0.0062    0.2    0.7
  74..7       0.043    259.8    121.2   0.1200   0.0043   0.0356    1.1    4.3
  74..8       0.069    259.8    121.2   0.1200   0.0069   0.0577    1.8    7.0
  73..25      0.026    259.8    121.2   0.1200   0.0026   0.0216    0.7    2.6
  72..15      0.047    259.8    121.2   0.1200   0.0047   0.0390    1.2    4.7
  71..75      0.094    259.8    121.2   0.1200   0.0094   0.0781    2.4    9.5
  75..76      0.038    259.8    121.2   0.1200   0.0038   0.0320    1.0    3.9
  76..77      0.013    259.8    121.2   0.1200   0.0013   0.0105    0.3    1.3
  77..9       0.008    259.8    121.2   0.1200   0.0008   0.0066    0.2    0.8
  77..16      0.043    259.8    121.2   0.1200   0.0043   0.0355    1.1    4.3
  76..78      0.039    259.8    121.2   0.1200   0.0039   0.0322    1.0    3.9
  78..10      0.009    259.8    121.2   0.1200   0.0009   0.0072    0.2    0.9
  78..24      0.060    259.8    121.2   0.1200   0.0060   0.0497    1.6    6.0
  76..26      0.021    259.8    121.2   0.1200   0.0021   0.0178    0.6    2.2
  75..30      0.052    259.8    121.2   0.1200   0.0052   0.0431    1.3    5.2
  71..79      0.076    259.8    121.2   0.1200   0.0076   0.0630    2.0    7.6
  79..12      0.305    259.8    121.2   0.1200   0.0305   0.2542    7.9   30.8
  79..80      0.128    259.8    121.2   0.1200   0.0128   0.1069    3.3   13.0
  80..81      0.029    259.8    121.2   0.1200   0.0029   0.0240    0.7    2.9
  81..82      0.007    259.8    121.2   0.1200   0.0007   0.0055    0.2    0.7
  82..29      0.017    259.8    121.2   0.1200   0.0017   0.0141    0.4    1.7
  82..44      0.026    259.8    121.2   0.1200   0.0026   0.0214    0.7    2.6
  81..47      0.063    259.8    121.2   0.1200   0.0063   0.0524    1.6    6.4
  80..83      0.031    259.8    121.2   0.1200   0.0031   0.0259    0.8    3.1
  83..35      0.120    259.8    121.2   0.1200   0.0120   0.1000    3.1   12.1
  83..37      0.076    259.8    121.2   0.1200   0.0076   0.0630    2.0    7.6
  71..19      0.174    259.8    121.2   0.1200   0.0174   0.1452    4.5   17.6
  55..84      0.000    259.8    121.2   0.1200   0.0000   0.0000    0.0    0.0
  84..5       0.048    259.8    121.2   0.1200   0.0048   0.0404    1.3    4.9
  84..20      0.040    259.8    121.2   0.1200   0.0040   0.0334    1.0    4.1
  84..23      0.057    259.8    121.2   0.1200   0.0057   0.0475    1.5    5.8
  84..31      0.061    259.8    121.2   0.1200   0.0061   0.0505    1.6    6.1
  84..36      0.069    259.8    121.2   0.1200   0.0069   0.0574    1.8    7.0
  84..85      0.010    259.8    121.2   0.1200   0.0010   0.0082    0.3    1.0
  85..46      0.016    259.8    121.2   0.1200   0.0017   0.0137    0.4    1.7
  85..49      0.017    259.8    121.2   0.1200   0.0017   0.0139    0.4    1.7
  54..86      0.114    259.8    121.2   0.1200   0.0114   0.0950    3.0   11.5
  86..6       0.133    259.8    121.2   0.1200   0.0133   0.1105    3.4   13.4
  86..17      0.205    259.8    121.2   0.1200   0.0205   0.1705    5.3   20.7
  53..87      0.047    259.8    121.2   0.1200   0.0047   0.0391    1.2    4.7
  87..88      0.032    259.8    121.2   0.1200   0.0032   0.0267    0.8    3.2
  88..89      0.041    259.8    121.2   0.1200   0.0041   0.0343    1.1    4.2
  89..11      0.017    259.8    121.2   0.1200   0.0017   0.0140    0.4    1.7
  89..28      0.016    259.8    121.2   0.1200   0.0016   0.0135    0.4    1.6
  88..48      0.062    259.8    121.2   0.1200   0.0062   0.0518    1.6    6.3
  87..18      0.043    259.8    121.2   0.1200   0.0043   0.0361    1.1    4.4


Naive Empirical Bayes (NEB) analysis
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: gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a)

            Pr(w>1)     post mean +- SE for w




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:   0.220  0.089  0.087  0.086  0.086  0.086  0.086  0.086  0.086  0.086

Posterior for p0-p1 (see the ternary graph)

 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 0.434
 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 0.041 0.525

sum of density on p0-p1 =   1.000000

Time used: 45:10


Model 3: discrete (3 categories)


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 94):  -4013.296025      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.170758 0.089704 0.018188 0.065229 0.012358 0.110709 0.148249 2.543355 2.462553 0.070078 0.017277 0.034413 0.017492 0.018256 0.043249 0.008695 0.008614 0.043802 0.097231 0.161350 0.092327 0.122566 0.034300 0.008867 0.086652 2.339015 2.909435 0.000004 0.055873 0.021469 0.049113 0.150216 0.116526 0.025512 0.017553 0.078817 0.166785 0.030423 0.057630 3.375349 0.088172 0.042460 0.007316 0.042466 0.068924 0.025761 0.046620 0.093673 0.038281 0.012690 0.007794 0.042410 0.038120 0.008664 0.059115 0.021038 0.051674 0.073630 0.306802 0.130941 0.029447 0.006005 0.016810 0.025569 0.063077 0.029758 0.119849 0.075323 0.174637 0.000004 0.048293 0.039946 0.056784 0.060417 0.068769 0.009814 0.016428 0.016606 0.115783 0.130329 0.206620 0.047041 0.032186 0.040686 0.016622 0.016080 0.061625 0.042847 6.819099 0.621321 0.314043 0.022988 0.153467 0.439774

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  18.65390

(1: 0.170758, (22: 0.018188, 42: 0.065229): 0.089704, (((((((2: 0.034413, 43: 0.017492): 0.017277, (4: 0.043249, (41: 0.008614, 45: 0.043802): 0.008695): 0.018256): 0.070078, (14: 0.161350, 21: 0.092327): 0.097231, (27: 0.034300, 39: 0.008867): 0.122566, 40: 0.086652): 2.462553, ((((3: 0.021469, 34: 0.049113): 0.055873, ((13: 0.025512, 50: 0.017553): 0.116526, 32: 0.078817): 0.150216): 0.000004, (33: 0.030423, 38: 0.057630): 0.166785): 2.909435, ((((7: 0.042466, 8: 0.068924): 0.007316, 25: 0.025761): 0.042460, 15: 0.046620): 0.088172, (((9: 0.007794, 16: 0.042410): 0.012690, (10: 0.008664, 24: 0.059115): 0.038120, 26: 0.021038): 0.038281, 30: 0.051674): 0.093673, (12: 0.306802, (((29: 0.016810, 44: 0.025569): 0.006005, 47: 0.063077): 0.029447, (35: 0.119849, 37: 0.075323): 0.029758): 0.130941): 0.073630, 19: 0.174637): 3.375349): 2.339015): 2.543355, (5: 0.048293, 20: 0.039946, 23: 0.056784, 31: 0.060417, 36: 0.068769, (46: 0.016428, 49: 0.016606): 0.009814): 0.000004): 0.148249, (6: 0.130329, 17: 0.206620): 0.115783): 0.110709, (((11: 0.016622, 28: 0.016080): 0.040686, 48: 0.061625): 0.032186, 18: 0.042847): 0.047041): 0.012358);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.170758, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018188, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065229): 0.089704, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034413, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017492): 0.017277, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043249, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008614, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043802): 0.008695): 0.018256): 0.070078, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.161350, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.092327): 0.097231, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034300, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008867): 0.122566, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.086652): 2.462553, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021469, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.049113): 0.055873, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.025512, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.017553): 0.116526, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.078817): 0.150216): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.030423, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.057630): 0.166785): 2.909435, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042466, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.068924): 0.007316, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025761): 0.042460, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046620): 0.088172, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007794, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042410): 0.012690, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008664, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.059115): 0.038120, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021038): 0.038281, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051674): 0.093673, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.306802, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016810, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025569): 0.006005, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.063077): 0.029447, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.119849, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.075323): 0.029758): 0.130941): 0.073630, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.174637): 3.375349): 2.339015): 2.543355, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048293, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.039946, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.056784, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060417, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.068769, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016428, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016606): 0.009814): 0.000004): 0.148249, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.130329, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.206620): 0.115783): 0.110709, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016622, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016080): 0.040686, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.061625): 0.032186, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.042847): 0.047041): 0.012358);

Detailed output identifying parameters

kappa (ts/tv) =  6.81910


dN/dS (w) for site classes (K=3)

p:   0.62132  0.31404  0.06464
w:   0.02299  0.15347  0.43977

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1       0.171    259.6    121.4   0.0909   0.0136   0.1495    3.5   18.2
  51..52      0.090    259.6    121.4   0.0909   0.0071   0.0785    1.9    9.5
  52..22      0.018    259.6    121.4   0.0909   0.0014   0.0159    0.4    1.9
  52..42      0.065    259.6    121.4   0.0909   0.0052   0.0571    1.3    6.9
  51..53      0.012    259.6    121.4   0.0909   0.0010   0.0108    0.3    1.3
  53..54      0.111    259.6    121.4   0.0909   0.0088   0.0969    2.3   11.8
  54..55      0.148    259.6    121.4   0.0909   0.0118   0.1298    3.1   15.8
  55..56      2.543    259.6    121.4   0.0909   0.2025   2.2271   52.5  270.5
  56..57      2.463    259.6    121.4   0.0909   0.1960   2.1563   50.9  261.9
  57..58      0.070    259.6    121.4   0.0909   0.0056   0.0614    1.4    7.5
  58..59      0.017    259.6    121.4   0.0909   0.0014   0.0151    0.4    1.8
  59..2       0.034    259.6    121.4   0.0909   0.0027   0.0301    0.7    3.7
  59..43      0.017    259.6    121.4   0.0909   0.0014   0.0153    0.4    1.9
  58..60      0.018    259.6    121.4   0.0909   0.0015   0.0160    0.4    1.9
  60..4       0.043    259.6    121.4   0.0909   0.0034   0.0379    0.9    4.6
  60..61      0.009    259.6    121.4   0.0909   0.0007   0.0076    0.2    0.9
  61..41      0.009    259.6    121.4   0.0909   0.0007   0.0075    0.2    0.9
  61..45      0.044    259.6    121.4   0.0909   0.0035   0.0384    0.9    4.7
  57..62      0.097    259.6    121.4   0.0909   0.0077   0.0851    2.0   10.3
  62..14      0.161    259.6    121.4   0.0909   0.0128   0.1413    3.3   17.2
  62..21      0.092    259.6    121.4   0.0909   0.0073   0.0808    1.9    9.8
  57..63      0.123    259.6    121.4   0.0909   0.0098   0.1073    2.5   13.0
  63..27      0.034    259.6    121.4   0.0909   0.0027   0.0300    0.7    3.6
  63..39      0.009    259.6    121.4   0.0909   0.0007   0.0078    0.2    0.9
  57..40      0.087    259.6    121.4   0.0909   0.0069   0.0759    1.8    9.2
  56..64      2.339    259.6    121.4   0.0909   0.1862   2.0482   48.3  248.7
  64..65      2.909    259.6    121.4   0.0909   0.2316   2.5477   60.1  309.4
  65..66      0.000    259.6    121.4   0.0909   0.0000   0.0000    0.0    0.0
  66..67      0.056    259.6    121.4   0.0909   0.0044   0.0489    1.2    5.9
  67..3       0.021    259.6    121.4   0.0909   0.0017   0.0188    0.4    2.3
  67..34      0.049    259.6    121.4   0.0909   0.0039   0.0430    1.0    5.2
  66..68      0.150    259.6    121.4   0.0909   0.0120   0.1315    3.1   16.0
  68..69      0.117    259.6    121.4   0.0909   0.0093   0.1020    2.4   12.4
  69..13      0.026    259.6    121.4   0.0909   0.0020   0.0223    0.5    2.7
  69..50      0.018    259.6    121.4   0.0909   0.0014   0.0154    0.4    1.9
  68..32      0.079    259.6    121.4   0.0909   0.0063   0.0690    1.6    8.4
  65..70      0.167    259.6    121.4   0.0909   0.0133   0.1460    3.4   17.7
  70..33      0.030    259.6    121.4   0.0909   0.0024   0.0266    0.6    3.2
  70..38      0.058    259.6    121.4   0.0909   0.0046   0.0505    1.2    6.1
  64..71      3.375    259.6    121.4   0.0909   0.2687   2.9556   69.7  358.9
  71..72      0.088    259.6    121.4   0.0909   0.0070   0.0772    1.8    9.4
  72..73      0.042    259.6    121.4   0.0909   0.0034   0.0372    0.9    4.5
  73..74      0.007    259.6    121.4   0.0909   0.0006   0.0064    0.2    0.8
  74..7       0.042    259.6    121.4   0.0909   0.0034   0.0372    0.9    4.5
  74..8       0.069    259.6    121.4   0.0909   0.0055   0.0604    1.4    7.3
  73..25      0.026    259.6    121.4   0.0909   0.0021   0.0226    0.5    2.7
  72..15      0.047    259.6    121.4   0.0909   0.0037   0.0408    1.0    5.0
  71..75      0.094    259.6    121.4   0.0909   0.0075   0.0820    1.9   10.0
  75..76      0.038    259.6    121.4   0.0909   0.0030   0.0335    0.8    4.1
  76..77      0.013    259.6    121.4   0.0909   0.0010   0.0111    0.3    1.3
  77..9       0.008    259.6    121.4   0.0909   0.0006   0.0068    0.2    0.8
  77..16      0.042    259.6    121.4   0.0909   0.0034   0.0371    0.9    4.5
  76..78      0.038    259.6    121.4   0.0909   0.0030   0.0334    0.8    4.1
  78..10      0.009    259.6    121.4   0.0909   0.0007   0.0076    0.2    0.9
  78..24      0.059    259.6    121.4   0.0909   0.0047   0.0518    1.2    6.3
  76..26      0.021    259.6    121.4   0.0909   0.0017   0.0184    0.4    2.2
  75..30      0.052    259.6    121.4   0.0909   0.0041   0.0452    1.1    5.5
  71..79      0.074    259.6    121.4   0.0909   0.0059   0.0645    1.5    7.8
  79..12      0.307    259.6    121.4   0.0909   0.0244   0.2687    6.3   32.6
  79..80      0.131    259.6    121.4   0.0909   0.0104   0.1147    2.7   13.9
  80..81      0.029    259.6    121.4   0.0909   0.0023   0.0258    0.6    3.1
  81..82      0.006    259.6    121.4   0.0909   0.0005   0.0053    0.1    0.6
  82..29      0.017    259.6    121.4   0.0909   0.0013   0.0147    0.3    1.8
  82..44      0.026    259.6    121.4   0.0909   0.0020   0.0224    0.5    2.7
  81..47      0.063    259.6    121.4   0.0909   0.0050   0.0552    1.3    6.7
  80..83      0.030    259.6    121.4   0.0909   0.0024   0.0261    0.6    3.2
  83..35      0.120    259.6    121.4   0.0909   0.0095   0.1049    2.5   12.7
  83..37      0.075    259.6    121.4   0.0909   0.0060   0.0660    1.6    8.0
  71..19      0.175    259.6    121.4   0.0909   0.0139   0.1529    3.6   18.6
  55..84      0.000    259.6    121.4   0.0909   0.0000   0.0000    0.0    0.0
  84..5       0.048    259.6    121.4   0.0909   0.0038   0.0423    1.0    5.1
  84..20      0.040    259.6    121.4   0.0909   0.0032   0.0350    0.8    4.2
  84..23      0.057    259.6    121.4   0.0909   0.0045   0.0497    1.2    6.0
  84..31      0.060    259.6    121.4   0.0909   0.0048   0.0529    1.2    6.4
  84..36      0.069    259.6    121.4   0.0909   0.0055   0.0602    1.4    7.3
  84..85      0.010    259.6    121.4   0.0909   0.0008   0.0086    0.2    1.0
  85..46      0.016    259.6    121.4   0.0909   0.0013   0.0144    0.3    1.7
  85..49      0.017    259.6    121.4   0.0909   0.0013   0.0145    0.3    1.8
  54..86      0.116    259.6    121.4   0.0909   0.0092   0.1014    2.4   12.3
  86..6       0.130    259.6    121.4   0.0909   0.0104   0.1141    2.7   13.9
  86..17      0.207    259.6    121.4   0.0909   0.0164   0.1809    4.3   22.0
  53..87      0.047    259.6    121.4   0.0909   0.0037   0.0412    1.0    5.0
  87..88      0.032    259.6    121.4   0.0909   0.0026   0.0282    0.7    3.4
  88..89      0.041    259.6    121.4   0.0909   0.0032   0.0356    0.8    4.3
  89..11      0.017    259.6    121.4   0.0909   0.0013   0.0146    0.3    1.8
  89..28      0.016    259.6    121.4   0.0909   0.0013   0.0141    0.3    1.7
  88..48      0.062    259.6    121.4   0.0909   0.0049   0.0540    1.3    6.6
  87..18      0.043    259.6    121.4   0.0909   0.0034   0.0375    0.9    4.6


Naive Empirical Bayes (NEB) analysis
Time used: 1:07:39


Model 7: beta (10 categories)


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 91):  -4014.539928      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.170560 0.089235 0.018199 0.065546 0.013134 0.110794 0.148464 2.529812 2.399017 0.070067 0.017282 0.034415 0.017498 0.018257 0.043258 0.008693 0.008620 0.043809 0.097047 0.161146 0.092369 0.122595 0.034346 0.008837 0.086642 2.277009 2.900436 0.000004 0.056110 0.021497 0.049261 0.150535 0.116871 0.025655 0.017538 0.078911 0.167004 0.030435 0.057801 3.329539 0.088428 0.042599 0.007340 0.042604 0.069153 0.025847 0.046780 0.093973 0.038444 0.012734 0.007819 0.042546 0.038202 0.008704 0.059262 0.021095 0.051809 0.073872 0.307452 0.131187 0.029752 0.006026 0.016854 0.025636 0.063214 0.029575 0.120134 0.075558 0.175146 0.000004 0.048469 0.040089 0.056986 0.060631 0.069008 0.009844 0.016486 0.016646 0.116656 0.130476 0.207241 0.047306 0.032277 0.040815 0.016671 0.016141 0.061826 0.042970 6.756097 0.604954 5.808288

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  18.47054

(1: 0.170560, (22: 0.018199, 42: 0.065546): 0.089235, (((((((2: 0.034415, 43: 0.017498): 0.017282, (4: 0.043258, (41: 0.008620, 45: 0.043809): 0.008693): 0.018257): 0.070067, (14: 0.161146, 21: 0.092369): 0.097047, (27: 0.034346, 39: 0.008837): 0.122595, 40: 0.086642): 2.399017, ((((3: 0.021497, 34: 0.049261): 0.056110, ((13: 0.025655, 50: 0.017538): 0.116871, 32: 0.078911): 0.150535): 0.000004, (33: 0.030435, 38: 0.057801): 0.167004): 2.900436, ((((7: 0.042604, 8: 0.069153): 0.007340, 25: 0.025847): 0.042599, 15: 0.046780): 0.088428, (((9: 0.007819, 16: 0.042546): 0.012734, (10: 0.008704, 24: 0.059262): 0.038202, 26: 0.021095): 0.038444, 30: 0.051809): 0.093973, (12: 0.307452, (((29: 0.016854, 44: 0.025636): 0.006026, 47: 0.063214): 0.029752, (35: 0.120134, 37: 0.075558): 0.029575): 0.131187): 0.073872, 19: 0.175146): 3.329539): 2.277009): 2.529812, (5: 0.048469, 20: 0.040089, 23: 0.056986, 31: 0.060631, 36: 0.069008, (46: 0.016486, 49: 0.016646): 0.009844): 0.000004): 0.148464, (6: 0.130476, 17: 0.207241): 0.116656): 0.110794, (((11: 0.016671, 28: 0.016141): 0.040815, 48: 0.061826): 0.032277, 18: 0.042970): 0.047306): 0.013134);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.170560, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018199, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065546): 0.089235, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034415, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017498): 0.017282, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043258, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008620, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043809): 0.008693): 0.018257): 0.070067, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.161146, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.092369): 0.097047, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034346, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008837): 0.122595, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.086642): 2.399017, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021497, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.049261): 0.056110, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.025655, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.017538): 0.116871, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.078911): 0.150535): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.030435, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.057801): 0.167004): 2.900436, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042604, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.069153): 0.007340, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025847): 0.042599, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046780): 0.088428, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007819, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042546): 0.012734, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008704, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.059262): 0.038202, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021095): 0.038444, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051809): 0.093973, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.307452, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016854, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025636): 0.006026, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.063214): 0.029752, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.120134, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.075558): 0.029575): 0.131187): 0.073872, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.175146): 3.329539): 2.277009): 2.529812, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048469, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.040089, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.056986, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060631, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.069008, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016486, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016646): 0.009844): 0.000004): 0.148464, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.130476, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.207241): 0.116656): 0.110794, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016671, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016141): 0.040815, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.061826): 0.032277, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.042970): 0.047306): 0.013134);

Detailed output identifying parameters

kappa (ts/tv) =  6.75610

Parameters in M7 (beta):
 p =   0.60495  q =   5.80829


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:   0.00105  0.00656  0.01568  0.02839  0.04519  0.06710  0.09605  0.13598  0.19673  0.32028

dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1       0.171    259.6    121.4   0.0913   0.0136   0.1493    3.5   18.1
  51..52      0.089    259.6    121.4   0.0913   0.0071   0.0781    1.9    9.5
  52..22      0.018    259.6    121.4   0.0913   0.0015   0.0159    0.4    1.9
  52..42      0.066    259.6    121.4   0.0913   0.0052   0.0574    1.4    7.0
  51..53      0.013    259.6    121.4   0.0913   0.0010   0.0115    0.3    1.4
  53..54      0.111    259.6    121.4   0.0913   0.0089   0.0970    2.3   11.8
  54..55      0.148    259.6    121.4   0.0913   0.0119   0.1300    3.1   15.8
  55..56      2.530    259.6    121.4   0.0913   0.2022   2.2145   52.5  268.8
  56..57      2.399    259.6    121.4   0.0913   0.1917   2.1000   49.8  254.9
  57..58      0.070    259.6    121.4   0.0913   0.0056   0.0613    1.5    7.4
  58..59      0.017    259.6    121.4   0.0913   0.0014   0.0151    0.4    1.8
  59..2       0.034    259.6    121.4   0.0913   0.0028   0.0301    0.7    3.7
  59..43      0.017    259.6    121.4   0.0913   0.0014   0.0153    0.4    1.9
  58..60      0.018    259.6    121.4   0.0913   0.0015   0.0160    0.4    1.9
  60..4       0.043    259.6    121.4   0.0913   0.0035   0.0379    0.9    4.6
  60..61      0.009    259.6    121.4   0.0913   0.0007   0.0076    0.2    0.9
  61..41      0.009    259.6    121.4   0.0913   0.0007   0.0075    0.2    0.9
  61..45      0.044    259.6    121.4   0.0913   0.0035   0.0383    0.9    4.7
  57..62      0.097    259.6    121.4   0.0913   0.0078   0.0849    2.0   10.3
  62..14      0.161    259.6    121.4   0.0913   0.0129   0.1411    3.3   17.1
  62..21      0.092    259.6    121.4   0.0913   0.0074   0.0809    1.9    9.8
  57..63      0.123    259.6    121.4   0.0913   0.0098   0.1073    2.5   13.0
  63..27      0.034    259.6    121.4   0.0913   0.0027   0.0301    0.7    3.6
  63..39      0.009    259.6    121.4   0.0913   0.0007   0.0077    0.2    0.9
  57..40      0.087    259.6    121.4   0.0913   0.0069   0.0758    1.8    9.2
  56..64      2.277    259.6    121.4   0.0913   0.1820   1.9932   47.2  241.9
  64..65      2.900    259.6    121.4   0.0913   0.2318   2.5389   60.2  308.2
  65..66      0.000    259.6    121.4   0.0913   0.0000   0.0000    0.0    0.0
  66..67      0.056    259.6    121.4   0.0913   0.0045   0.0491    1.2    6.0
  67..3       0.021    259.6    121.4   0.0913   0.0017   0.0188    0.4    2.3
  67..34      0.049    259.6    121.4   0.0913   0.0039   0.0431    1.0    5.2
  66..68      0.151    259.6    121.4   0.0913   0.0120   0.1318    3.1   16.0
  68..69      0.117    259.6    121.4   0.0913   0.0093   0.1023    2.4   12.4
  69..13      0.026    259.6    121.4   0.0913   0.0021   0.0225    0.5    2.7
  69..50      0.018    259.6    121.4   0.0913   0.0014   0.0154    0.4    1.9
  68..32      0.079    259.6    121.4   0.0913   0.0063   0.0691    1.6    8.4
  65..70      0.167    259.6    121.4   0.0913   0.0133   0.1462    3.5   17.7
  70..33      0.030    259.6    121.4   0.0913   0.0024   0.0266    0.6    3.2
  70..38      0.058    259.6    121.4   0.0913   0.0046   0.0506    1.2    6.1
  64..71      3.330    259.6    121.4   0.0913   0.2661   2.9145   69.1  353.8
  71..72      0.088    259.6    121.4   0.0913   0.0071   0.0774    1.8    9.4
  72..73      0.043    259.6    121.4   0.0913   0.0034   0.0373    0.9    4.5
  73..74      0.007    259.6    121.4   0.0913   0.0006   0.0064    0.2    0.8
  74..7       0.043    259.6    121.4   0.0913   0.0034   0.0373    0.9    4.5
  74..8       0.069    259.6    121.4   0.0913   0.0055   0.0605    1.4    7.3
  73..25      0.026    259.6    121.4   0.0913   0.0021   0.0226    0.5    2.7
  72..15      0.047    259.6    121.4   0.0913   0.0037   0.0409    1.0    5.0
  71..75      0.094    259.6    121.4   0.0913   0.0075   0.0823    1.9   10.0
  75..76      0.038    259.6    121.4   0.0913   0.0031   0.0337    0.8    4.1
  76..77      0.013    259.6    121.4   0.0913   0.0010   0.0111    0.3    1.4
  77..9       0.008    259.6    121.4   0.0913   0.0006   0.0068    0.2    0.8
  77..16      0.043    259.6    121.4   0.0913   0.0034   0.0372    0.9    4.5
  76..78      0.038    259.6    121.4   0.0913   0.0031   0.0334    0.8    4.1
  78..10      0.009    259.6    121.4   0.0913   0.0007   0.0076    0.2    0.9
  78..24      0.059    259.6    121.4   0.0913   0.0047   0.0519    1.2    6.3
  76..26      0.021    259.6    121.4   0.0913   0.0017   0.0185    0.4    2.2
  75..30      0.052    259.6    121.4   0.0913   0.0041   0.0454    1.1    5.5
  71..79      0.074    259.6    121.4   0.0913   0.0059   0.0647    1.5    7.8
  79..12      0.307    259.6    121.4   0.0913   0.0246   0.2691    6.4   32.7
  79..80      0.131    259.6    121.4   0.0913   0.0105   0.1148    2.7   13.9
  80..81      0.030    259.6    121.4   0.0913   0.0024   0.0260    0.6    3.2
  81..82      0.006    259.6    121.4   0.0913   0.0005   0.0053    0.1    0.6
  82..29      0.017    259.6    121.4   0.0913   0.0013   0.0148    0.3    1.8
  82..44      0.026    259.6    121.4   0.0913   0.0020   0.0224    0.5    2.7
  81..47      0.063    259.6    121.4   0.0913   0.0051   0.0553    1.3    6.7
  80..83      0.030    259.6    121.4   0.0913   0.0024   0.0259    0.6    3.1
  83..35      0.120    259.6    121.4   0.0913   0.0096   0.1052    2.5   12.8
  83..37      0.076    259.6    121.4   0.0913   0.0060   0.0661    1.6    8.0
  71..19      0.175    259.6    121.4   0.0913   0.0140   0.1533    3.6   18.6
  55..84      0.000    259.6    121.4   0.0913   0.0000   0.0000    0.0    0.0
  84..5       0.048    259.6    121.4   0.0913   0.0039   0.0424    1.0    5.1
  84..20      0.040    259.6    121.4   0.0913   0.0032   0.0351    0.8    4.3
  84..23      0.057    259.6    121.4   0.0913   0.0046   0.0499    1.2    6.1
  84..31      0.061    259.6    121.4   0.0913   0.0048   0.0531    1.3    6.4
  84..36      0.069    259.6    121.4   0.0913   0.0055   0.0604    1.4    7.3
  84..85      0.010    259.6    121.4   0.0913   0.0008   0.0086    0.2    1.0
  85..46      0.016    259.6    121.4   0.0913   0.0013   0.0144    0.3    1.8
  85..49      0.017    259.6    121.4   0.0913   0.0013   0.0146    0.3    1.8
  54..86      0.117    259.6    121.4   0.0913   0.0093   0.1021    2.4   12.4
  86..6       0.130    259.6    121.4   0.0913   0.0104   0.1142    2.7   13.9
  86..17      0.207    259.6    121.4   0.0913   0.0166   0.1814    4.3   22.0
  53..87      0.047    259.6    121.4   0.0913   0.0038   0.0414    1.0    5.0
  87..88      0.032    259.6    121.4   0.0913   0.0026   0.0283    0.7    3.4
  88..89      0.041    259.6    121.4   0.0913   0.0033   0.0357    0.8    4.3
  89..11      0.017    259.6    121.4   0.0913   0.0013   0.0146    0.3    1.8
  89..28      0.016    259.6    121.4   0.0913   0.0013   0.0141    0.3    1.7
  88..48      0.062    259.6    121.4   0.0913   0.0049   0.0541    1.3    6.6
  87..18      0.043    259.6    121.4   0.0913   0.0034   0.0376    0.9    4.6


Time used: 2:17:44


Model 8: beta&w>1 (11 categories)


TREE #  1:  (1, (22, 42), (((((((2, 43), (4, (41, 45))), (14, 21), (27, 39), 40), ((((3, 34), ((13, 50), 32)), (33, 38)), ((((7, 8), 25), 15), (((9, 16), (10, 24), 26), 30), (12, (((29, 44), 47), (35, 37))), 19))), (5, 20, 23, 31, 36, (46, 49))), (6, 17)), (((11, 28), 48), 18)));   MP score: 755
lnL(ntime: 88  np: 93):  -4014.541198      +0.000000
  51..1    51..52   52..22   52..42   51..53   53..54   54..55   55..56   56..57   57..58   58..59   59..2    59..43   58..60   60..4    60..61   61..41   61..45   57..62   62..14   62..21   57..63   63..27   63..39   57..40   56..64   64..65   65..66   66..67   67..3    67..34   66..68   68..69   69..13   69..50   68..32   65..70   70..33   70..38   64..71   71..72   72..73   73..74   74..7    74..8    73..25   72..15   71..75   75..76   76..77   77..9    77..16   76..78   78..10   78..24   76..26   75..30   71..79   79..12   79..80   80..81   81..82   82..29   82..44   81..47   80..83   83..35   83..37   71..19   55..84   84..5    84..20   84..23   84..31   84..36   84..85   85..46   85..49   54..86   86..6    86..17   53..87   87..88   88..89   89..11   89..28   88..48   87..18 
 0.170589 0.089250 0.018203 0.065557 0.013137 0.110813 0.148489 2.530240 2.399423 0.070079 0.017285 0.034421 0.017501 0.018260 0.043265 0.008695 0.008621 0.043817 0.097063 0.161174 0.092385 0.122616 0.034352 0.008839 0.086657 2.277395 2.900926 0.000004 0.056119 0.021501 0.049269 0.150560 0.116891 0.025659 0.017541 0.078925 0.167032 0.030440 0.057810 3.330102 0.088443 0.042607 0.007341 0.042612 0.069164 0.025852 0.046788 0.093989 0.038451 0.012736 0.007820 0.042554 0.038209 0.008706 0.059272 0.021099 0.051818 0.073885 0.307504 0.131209 0.029757 0.006027 0.016857 0.025640 0.063225 0.029580 0.120154 0.075571 0.175175 0.000004 0.048477 0.040096 0.056996 0.060641 0.069019 0.009846 0.016489 0.016649 0.116676 0.130498 0.207277 0.047314 0.032282 0.040822 0.016674 0.016143 0.061837 0.042977 6.756097 0.999990 0.604954 5.808287 9.549397

Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site).

tree length =  18.47366

(1: 0.170589, (22: 0.018203, 42: 0.065557): 0.089250, (((((((2: 0.034421, 43: 0.017501): 0.017285, (4: 0.043265, (41: 0.008621, 45: 0.043817): 0.008695): 0.018260): 0.070079, (14: 0.161174, 21: 0.092385): 0.097063, (27: 0.034352, 39: 0.008839): 0.122616, 40: 0.086657): 2.399423, ((((3: 0.021501, 34: 0.049269): 0.056119, ((13: 0.025659, 50: 0.017541): 0.116891, 32: 0.078925): 0.150560): 0.000004, (33: 0.030440, 38: 0.057810): 0.167032): 2.900926, ((((7: 0.042612, 8: 0.069164): 0.007341, 25: 0.025852): 0.042607, 15: 0.046788): 0.088443, (((9: 0.007820, 16: 0.042554): 0.012736, (10: 0.008706, 24: 0.059272): 0.038209, 26: 0.021099): 0.038451, 30: 0.051818): 0.093989, (12: 0.307504, (((29: 0.016857, 44: 0.025640): 0.006027, 47: 0.063225): 0.029757, (35: 0.120154, 37: 0.075571): 0.029580): 0.131209): 0.073885, 19: 0.175175): 3.330102): 2.277395): 2.530240, (5: 0.048477, 20: 0.040096, 23: 0.056996, 31: 0.060641, 36: 0.069019, (46: 0.016489, 49: 0.016649): 0.009846): 0.000004): 0.148489, (6: 0.130498, 17: 0.207277): 0.116676): 0.110813, (((11: 0.016674, 28: 0.016143): 0.040822, 48: 0.061837): 0.032282, 18: 0.042977): 0.047314): 0.013137);

(gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.170589, (gb:JF960211|Organism:Dengue_virus_1|Strain_Name:SG(EHI)D1/0091Y09|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.018203, gb:JQ922548|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/55290/2005|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.065557): 0.089250, (((((((gb:KU509280|Organism:Dengue_virus_3|Strain_Name:DENV3-1631|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034421, gb:KU509284|Organism:Dengue_virus_3|Strain_Name:DENV3-3847|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.017501): 0.017285, (gb:KY586796|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq72|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043265, (gb:KY586766|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_nonBKK_Seq17|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.008621, gb:KY586711|Organism:Dengue_virus|Strain_Name:Ser3_Thailand_Bangkok_Seq7|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.043817): 0.008695): 0.018260): 0.070079, (gb:KC762684|Organism:Dengue_virus_3|Strain_Name:MKS-0098|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.161174, gb:KU509279|Organism:Dengue_virus_3|Strain_Name:DENV3-632|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.092385): 0.097063, (gb:JF808122|Organism:Dengue_virus_3|Strain_Name:D3PY/SUS/2003|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.034352, gb:AY679147|Organism:Dengue_virus_3|Strain_Name:BR74886/02|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008839): 0.122616, gb:JQ922554|Organism:Dengue_virus_3|Strain_Name:DENV-3/USA/633798/1963|Protein_Name:nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.086657): 2.399423, ((((gb:KY586823|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq1|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.021501, gb:KF907503|Organism:Dengue_virus|Strain_Name:Dakar_HD_34460|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.049269): 0.056119, ((gb:KY586890|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq28|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.025659, gb:KY586888|Organism:Dengue_virus|Strain_Name:Ser4_Thailand_nonBKK_Seq26|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.017541): 0.116891, gb:KX845005|Organism:Dengue_virus_4|Strain_Name:UOH_23916|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.078925): 0.150560): 0.000004, (gb:JX024757|Organism:Dengue_virus_4|Strain_Name:EHI310A129CY10|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.030440, gb:JQ915090|Organism:Dengue_virus_4|Strain_Name:WF09/010409-0001|Protein_Name:NS4A_protein|Gene_Symbol:NS4a: 0.057810): 0.167032): 2.900926, ((((gb:EU482472|Organism:Dengue_virus_2|Strain_Name:DENV-2/VN/BID-V927/2004|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042612, gb:FJ639828|Organism:Dengue_virus_2|Strain_Name:DENV-2/TH/BID-V2153/2001|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.069164): 0.007341, gb:AF100462|Organism:Dengue_virus_2|Strain_Name:C0390|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025852): 0.042607, gb:CS477302|Organism:Dengue_virus|Strain_Name:patent_WO2006134433_40|Protein_Name:ns4a_protein_[Dengue_virus]|Gene_Symbol:NS4a: 0.046788): 0.088443, (((gb:EU529701|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1087/1991|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.007820, gb:EU569718|Organism:Dengue_virus_2|Strain_Name:DENV-2/US/BID-V1401/1997|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.042554): 0.012736, (gb:AF208496|Organism:Dengue_virus_2|Strain_Name:DEN2/H/IMTSSA-MART/98-703|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.008706, gb:GQ199892|Organism:Dengue_virus_2|Strain_Name:DENV-2/JM/BID-V2963/2007|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.059272): 0.038209, gb:JX669487|Organism:Dengue_virus_2|Strain_Name:72144/BR-PE/00|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.021099): 0.038451, gb:AF119661|Organism:Dengue_virus_2|Strain_Name:China_04|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.051818): 0.093989, (gb:HM582114|Organism:Dengue_virus_2|Strain_Name:D2/TO/UH39/1974|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.307504, (((gb:KU509269|Organism:Dengue_virus_2|Strain_Name:DENV2-973|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.016857, gb:FJ196852|Organism:Dengue_virus_2|Strain_Name:GD01/01|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.025640): 0.006027, gb:KU509277|Organism:Dengue_virus_2|Strain_Name:DENV2-14706|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.063225): 0.029757, (gb:KX452021|Organism:Dengue_virus_2|Strain_Name:TM101|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.120154, gb:EU179859|Organism:Dengue_virus_2|Strain_Name:DS09-280106|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.075571): 0.029580): 0.131209): 0.073885, gb:KJ734727|Organism:Dengue_virus_2|Strain_Name:PL046|Protein_Name:Nonstructural_protein_NS4A|Gene_Symbol:NS4a: 0.175175): 3.330102): 2.277395): 2.530240, (gb:KY586400|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_78|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.048477, gb:FJ639671|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1981/2001|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.040096, gb:FJ898396|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V2858/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.056996, gb:EU726780|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1556/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.060641, gb:KY586309|Organism:Dengue_virus|Strain_Name:Ser1_Thailand_BangkokSeq_4|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.069019, (gb:EU660402|Organism:Dengue_virus_1|Strain_Name:DENV-1/VN/BID-V1501/2006|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016489, gb:GQ868619|Organism:Dengue_virus_1|Strain_Name:DENV-1/KH/BID-V1991/2003|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016649): 0.009846): 0.000004): 0.148489, (gb:FJ196845|Organism:Dengue_virus_1|Strain_Name:GD03/91|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.130498, gb:JQ915071|Organism:Dengue_virus_1|Strain_Name:PF07/230407-201|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.207277): 0.116676): 0.110813, (((gb:KP188542|Organism:Dengue_virus_1|Strain_Name:BR/SJRP/395/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016674, gb:KP188541|Organism:Dengue_virus_1|Strain_Name:DENV1_BR/SJRP/354/2011|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.016143): 0.040822, gb:KF955427|Organism:Dengue_virus_1|Strain_Name:DENV-1/MX/BID-V3705/2007|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.061837): 0.032282, gb:FJ205872|Organism:Dengue_virus_1|Strain_Name:DENV-1/US/BID-V1739/1998|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a: 0.042977): 0.047314): 0.013137);

Detailed output identifying parameters

kappa (ts/tv) =  6.75610

Parameters in M8 (beta&w>1):
  p0 =   0.99999  p =   0.60495 q =   5.80829
 (p1 =   0.00001) w =   9.54940


dN/dS (w) for site classes (K=11)

p:   0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.10000  0.00001
w:   0.00105  0.00656  0.01568  0.02839  0.04519  0.06710  0.09605  0.13598  0.19673  0.32028  9.54940
(note that p[10] is zero)


dN & dS for each branch

 branch          t       N       S   dN/dS      dN      dS  N*dN  S*dS

  51..1       0.171    259.6    121.4   0.0914   0.0136   0.1493    3.5   18.1
  51..52      0.089    259.6    121.4   0.0914   0.0071   0.0781    1.9    9.5
  52..22      0.018    259.6    121.4   0.0914   0.0015   0.0159    0.4    1.9
  52..42      0.066    259.6    121.4   0.0914   0.0052   0.0574    1.4    7.0
  51..53      0.013    259.6    121.4   0.0914   0.0011   0.0115    0.3    1.4
  53..54      0.111    259.6    121.4   0.0914   0.0089   0.0970    2.3   11.8
  54..55      0.148    259.6    121.4   0.0914   0.0119   0.1300    3.1   15.8
  55..56      2.530    259.6    121.4   0.0914   0.2024   2.2145   52.5  268.8
  56..57      2.399    259.6    121.4   0.0914   0.1919   2.1000   49.8  254.9
  57..58      0.070    259.6    121.4   0.0914   0.0056   0.0613    1.5    7.4
  58..59      0.017    259.6    121.4   0.0914   0.0014   0.0151    0.4    1.8
  59..2       0.034    259.6    121.4   0.0914   0.0028   0.0301    0.7    3.7
  59..43      0.018    259.6    121.4   0.0914   0.0014   0.0153    0.4    1.9
  58..60      0.018    259.6    121.4   0.0914   0.0015   0.0160    0.4    1.9
  60..4       0.043    259.6    121.4   0.0914   0.0035   0.0379    0.9    4.6
  60..61      0.009    259.6    121.4   0.0914   0.0007   0.0076    0.2    0.9
  61..41      0.009    259.6    121.4   0.0914   0.0007   0.0075    0.2    0.9
  61..45      0.044    259.6    121.4   0.0914   0.0035   0.0383    0.9    4.7
  57..62      0.097    259.6    121.4   0.0914   0.0078   0.0849    2.0   10.3
  62..14      0.161    259.6    121.4   0.0914   0.0129   0.1411    3.3   17.1
  62..21      0.092    259.6    121.4   0.0914   0.0074   0.0809    1.9    9.8
  57..63      0.123    259.6    121.4   0.0914   0.0098   0.1073    2.5   13.0
  63..27      0.034    259.6    121.4   0.0914   0.0027   0.0301    0.7    3.6
  63..39      0.009    259.6    121.4   0.0914   0.0007   0.0077    0.2    0.9
  57..40      0.087    259.6    121.4   0.0914   0.0069   0.0758    1.8    9.2
  56..64      2.277    259.6    121.4   0.0914   0.1822   1.9932   47.3  241.9
  64..65      2.901    259.6    121.4   0.0914   0.2320   2.5389   60.2  308.2
  65..66      0.000    259.6    121.4   0.0914   0.0000   0.0000    0.0    0.0
  66..67      0.056    259.6    121.4   0.0914   0.0045   0.0491    1.2    6.0
  67..3       0.022    259.6    121.4   0.0914   0.0017   0.0188    0.4    2.3
  67..34      0.049    259.6    121.4   0.0914   0.0039   0.0431    1.0    5.2
  66..68      0.151    259.6    121.4   0.0914   0.0120   0.1318    3.1   16.0
  68..69      0.117    259.6    121.4   0.0914   0.0093   0.1023    2.4   12.4
  69..13      0.026    259.6    121.4   0.0914   0.0021   0.0225    0.5    2.7
  69..50      0.018    259.6    121.4   0.0914   0.0014   0.0154    0.4    1.9
  68..32      0.079    259.6    121.4   0.0914   0.0063   0.0691    1.6    8.4
  65..70      0.167    259.6    121.4   0.0914   0.0134   0.1462    3.5   17.7
  70..33      0.030    259.6    121.4   0.0914   0.0024   0.0266    0.6    3.2
  70..38      0.058    259.6    121.4   0.0914   0.0046   0.0506    1.2    6.1
  64..71      3.330    259.6    121.4   0.0914   0.2664   2.9145   69.2  353.8
  71..72      0.088    259.6    121.4   0.0914   0.0071   0.0774    1.8    9.4
  72..73      0.043    259.6    121.4   0.0914   0.0034   0.0373    0.9    4.5
  73..74      0.007    259.6    121.4   0.0914   0.0006   0.0064    0.2    0.8
  74..7       0.043    259.6    121.4   0.0914   0.0034   0.0373    0.9    4.5
  74..8       0.069    259.6    121.4   0.0914   0.0055   0.0605    1.4    7.3
  73..25      0.026    259.6    121.4   0.0914   0.0021   0.0226    0.5    2.7
  72..15      0.047    259.6    121.4   0.0914   0.0037   0.0409    1.0    5.0
  71..75      0.094    259.6    121.4   0.0914   0.0075   0.0823    2.0   10.0
  75..76      0.038    259.6    121.4   0.0914   0.0031   0.0337    0.8    4.1
  76..77      0.013    259.6    121.4   0.0914   0.0010   0.0111    0.3    1.4
  77..9       0.008    259.6    121.4   0.0914   0.0006   0.0068    0.2    0.8
  77..16      0.043    259.6    121.4   0.0914   0.0034   0.0372    0.9    4.5
  76..78      0.038    259.6    121.4   0.0914   0.0031   0.0334    0.8    4.1
  78..10      0.009    259.6    121.4   0.0914   0.0007   0.0076    0.2    0.9
  78..24      0.059    259.6    121.4   0.0914   0.0047   0.0519    1.2    6.3
  76..26      0.021    259.6    121.4   0.0914   0.0017   0.0185    0.4    2.2
  75..30      0.052    259.6    121.4   0.0914   0.0041   0.0454    1.1    5.5
  71..79      0.074    259.6    121.4   0.0914   0.0059   0.0647    1.5    7.8
  79..12      0.308    259.6    121.4   0.0914   0.0246   0.2691    6.4   32.7
  79..80      0.131    259.6    121.4   0.0914   0.0105   0.1148    2.7   13.9
  80..81      0.030    259.6    121.4   0.0914   0.0024   0.0260    0.6    3.2
  81..82      0.006    259.6    121.4   0.0914   0.0005   0.0053    0.1    0.6
  82..29      0.017    259.6    121.4   0.0914   0.0013   0.0148    0.4    1.8
  82..44      0.026    259.6    121.4   0.0914   0.0021   0.0224    0.5    2.7
  81..47      0.063    259.6    121.4   0.0914   0.0051   0.0553    1.3    6.7
  80..83      0.030    259.6    121.4   0.0914   0.0024   0.0259    0.6    3.1
  83..35      0.120    259.6    121.4   0.0914   0.0096   0.1052    2.5   12.8
  83..37      0.076    259.6    121.4   0.0914   0.0060   0.0661    1.6    8.0
  71..19      0.175    259.6    121.4   0.0914   0.0140   0.1533    3.6   18.6
  55..84      0.000    259.6    121.4   0.0914   0.0000   0.0000    0.0    0.0
  84..5       0.048    259.6    121.4   0.0914   0.0039   0.0424    1.0    5.1
  84..20      0.040    259.6    121.4   0.0914   0.0032   0.0351    0.8    4.3
  84..23      0.057    259.6    121.4   0.0914   0.0046   0.0499    1.2    6.1
  84..31      0.061    259.6    121.4   0.0914   0.0049   0.0531    1.3    6.4
  84..36      0.069    259.6    121.4   0.0914   0.0055   0.0604    1.4    7.3
  84..85      0.010    259.6    121.4   0.0914   0.0008   0.0086    0.2    1.0
  85..46      0.016    259.6    121.4   0.0914   0.0013   0.0144    0.3    1.8
  85..49      0.017    259.6    121.4   0.0914   0.0013   0.0146    0.3    1.8
  54..86      0.117    259.6    121.4   0.0914   0.0093   0.1021    2.4   12.4
  86..6       0.130    259.6    121.4   0.0914   0.0104   0.1142    2.7   13.9
  86..17      0.207    259.6    121.4   0.0914   0.0166   0.1814    4.3   22.0
  53..87      0.047    259.6    121.4   0.0914   0.0038   0.0414    1.0    5.0
  87..88      0.032    259.6    121.4   0.0914   0.0026   0.0283    0.7    3.4
  88..89      0.041    259.6    121.4   0.0914   0.0033   0.0357    0.8    4.3
  89..11      0.017    259.6    121.4   0.0914   0.0013   0.0146    0.3    1.8
  89..28      0.016    259.6    121.4   0.0914   0.0013   0.0141    0.3    1.7
  88..48      0.062    259.6    121.4   0.0914   0.0049   0.0541    1.3    6.6
  87..18      0.043    259.6    121.4   0.0914   0.0034   0.0376    0.9    4.6


Naive Empirical Bayes (NEB) analysis
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: gb:JQ922546|Organism:Dengue_virus_1|Strain_Name:DENV-1/IND/715393/1971|Protein_Name:nonstructural_protein_4A|Gene_Symbol:NS4a)

            Pr(w>1)     post mean +- SE for w




The grid 

p0:   0.050  0.150  0.250  0.350  0.450  0.550  0.650  0.750  0.850  0.950
p :   0.100  0.300  0.500  0.700  0.900  1.100  1.300  1.500  1.700  1.900
q :   0.100  0.300  0.500  0.700  0.900  1.100  1.300  1.500  1.700  1.900
ws:   1.500  2.500  3.500  4.500  5.500  6.500  7.500  8.500  9.500 10.500


Posterior on the grid

p0:   0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  1.000
p :   0.996  0.004  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000
q :   0.000  0.000  0.000  0.003  0.033  0.115  0.205  0.244  0.225  0.175
ws:   0.184  0.093  0.090  0.090  0.090  0.090  0.090  0.090  0.090  0.090

Time used: 3:53:19

Model 1: NearlyNeutral	-4045.346287
Model 2: PositiveSelection	-4045.346287
Model 0: one-ratio	-4063.96119
Model 3: discrete	-4013.296025
Model 7: beta	-4014.539928
Model 8: beta&w>1	-4014.541198


Model 0 vs 1	37.22980600000028

Model 2 vs 1	0.0

Model 8 vs 7	0.002539999999498832