--- EXPERIMENT NOTES --- EXPERIMENT PROPERTIES #Thu Jan 23 10:56:48 GMT 2020 codeml.models=0 1 2 7 8 mrbayes.mpich= mrbayes.ngen=1000000 tcoffee.alignMethod=MUSCLE tcoffee.params= tcoffee.maxSeqs=0 codeml.bin=codeml mrbayes.tburnin=2500 codeml.dir=/usr/bin/ input.sequences= mrbayes.pburnin=2500 mrbayes.bin=mb tcoffee.bin=t_coffee mrbayes.dir=/opt/mrbayes_3.2.2/src tcoffee.dir= tcoffee.minScore=3 input.fasta=/data/1res/fas/input.fasta input.names= mrbayes.params= codeml.params= --- PSRF SUMMARY Estimated marginal likelihoods for runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -12535.06 -12541.04 2 -12535.09 -12540.20 -------------------------------------- TOTAL -12535.07 -12540.71 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.879248 0.090306 0.363851 1.478028 0.838755 1457.70 1466.15 1.001 r(A<->C){all} 0.133463 0.015191 0.000008 0.388004 0.096346 173.57 229.18 1.002 r(A<->G){all} 0.233922 0.025442 0.000083 0.535425 0.209094 185.68 226.44 1.001 r(A<->T){all} 0.136774 0.014260 0.000087 0.378279 0.104085 200.40 232.73 1.000 r(C<->G){all} 0.162751 0.019604 0.000034 0.447756 0.123876 120.76 164.70 1.005 r(C<->T){all} 0.172432 0.020214 0.000006 0.460306 0.135185 132.16 134.70 1.003 r(G<->T){all} 0.160658 0.019758 0.000173 0.447910 0.120980 200.44 254.36 1.003 pi(A){all} 0.176839 0.000016 0.168610 0.184320 0.176773 762.04 947.92 1.002 pi(C){all} 0.284484 0.000022 0.275854 0.294049 0.284458 825.08 1063.37 1.000 pi(G){all} 0.330504 0.000024 0.321009 0.340309 0.330480 962.08 979.50 1.001 pi(T){all} 0.208172 0.000018 0.200131 0.216326 0.208253 1060.35 1226.99 1.001 alpha{1,2} 0.186094 0.077483 0.001098 0.666524 0.105206 1257.27 1293.96 1.000 alpha{3} 0.424106 0.224790 0.000175 1.377488 0.264408 1006.16 1120.72 1.000 pinvar{all} 0.999638 0.000000 0.999098 0.999994 0.999712 577.11 676.67 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 -12116.162373 Model 2: PositiveSelection -12115.782699 Model 0: one-ratio -12115.782559 Model 7: beta -12116.162369 Model 8: beta&w>1 -12115.784849 Model 0 vs 1 0.7596279999997932 Model 2 vs 1 0.7593479999995907 Model 8 vs 7 0.7550400000000081
>C1 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C2 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C3 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C4 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C5 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C6 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE: ], CPU=0.00 sec, SCORE=100, Nseq=6, Len=3076 C1 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C2 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C3 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C4 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C5 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C6 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ************************************************** C1 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C2 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C3 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C4 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C5 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C6 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE ************************************************** C1 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C2 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C3 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C4 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C5 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C6 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ ************************************************** C1 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C2 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C3 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C4 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C5 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C6 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV ************************************************** C1 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C2 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C3 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C4 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C5 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C6 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER ************************************************** C1 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C2 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C3 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C4 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C5 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C6 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG ************************************************** C1 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C2 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C3 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C4 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C5 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C6 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL ************************************************** C1 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C2 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C3 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C4 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C5 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C6 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL ************************************************** C1 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C2 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C3 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C4 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C5 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C6 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG ************************************************** C1 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C2 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C3 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C4 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C5 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C6 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA ************************************************** C1 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C2 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C3 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C4 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C5 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C6 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV ************************************************** C1 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C2 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C3 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C4 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C5 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C6 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC ************************************************** C1 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C2 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C3 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C4 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C5 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C6 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS ************************************************** C1 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C2 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C3 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C4 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C5 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C6 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD ************************************************** C1 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C2 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C3 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C4 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C5 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C6 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE ************************************************** C1 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C2 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C3 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C4 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C5 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C6 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV ************************************************** C1 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C2 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C3 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C4 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C5 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C6 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID ************************************************** C1 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C2 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C3 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C4 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C5 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C6 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR ************************************************** C1 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C2 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C3 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C4 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C5 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C6 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT ************************************************** C1 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C2 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C3 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C4 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C5 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C6 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID ************************************************** C1 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C2 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C3 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C4 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C5 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C6 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA ************************************************** C1 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C2 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C3 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C4 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C5 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C6 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS ************************************************** C1 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C2 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C3 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C4 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C5 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C6 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM ************************************************** C1 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C2 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C3 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C4 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C5 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C6 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ************************************************** C1 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C2 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C3 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C4 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C5 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C6 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP ************************************************** C1 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C2 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C3 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C4 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C5 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C6 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD ************************************************** C1 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C2 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C3 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C4 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C5 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C6 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM ************************************************** C1 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C2 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C3 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C4 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C5 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C6 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD ************************************************** C1 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C2 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C3 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C4 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C5 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C6 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV ************************************************** C1 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C2 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C3 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C4 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C5 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C6 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE ************************************************** C1 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C2 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C3 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C4 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C5 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C6 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL ************************************************** C1 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C2 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C3 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C4 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C5 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C6 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY ************************************************** C1 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C2 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C3 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C4 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C5 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C6 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV ************************************************** C1 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C2 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C3 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C4 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C5 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C6 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ************************************************** C1 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C2 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C3 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C4 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C5 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C6 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL ************************************************** C1 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C2 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C3 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C4 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C5 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C6 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE ************************************************** C1 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C2 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C3 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C4 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C5 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C6 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ************************************************** C1 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C2 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C3 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C4 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C5 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C6 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH ************************************************** C1 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C2 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C3 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C4 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C5 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C6 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG ************************************************** C1 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C2 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C3 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C4 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C5 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C6 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG ************************************************** C1 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C2 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C3 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C4 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C5 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C6 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE ************************************************** C1 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C2 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C3 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C4 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C5 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C6 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ************************************************** C1 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C2 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C3 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C4 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C5 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C6 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ************************************************** C1 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C2 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C3 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C4 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C5 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C6 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN ************************************************** C1 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C2 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C3 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C4 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C5 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C6 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW ************************************************** C1 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C2 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C3 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C4 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C5 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C6 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA ************************************************** C1 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C2 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C3 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C4 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C5 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C6 VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS *********************:**************************** C1 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C2 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C3 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C4 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C5 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C6 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED ************************************************** C1 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C2 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C3 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C4 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C5 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C6 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI ************************************************** C1 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C2 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C3 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C4 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C5 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C6 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY ************************************************** C1 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C2 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C3 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C4 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C5 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C6 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL ************************************************** C1 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C2 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C3 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C4 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C5 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C6 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR ************************************************** C1 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C2 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C3 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C4 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C5 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C6 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG ************************************************** C1 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C2 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C3 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C4 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C5 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C6 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI ************************************************** C1 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C2 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C3 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C4 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C5 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C6 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV ************************************************** C1 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C2 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C3 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C4 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C5 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C6 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE ************************************************** C1 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C2 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C3 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C4 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C5 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C6 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA ************************************************** C1 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C2 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C3 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C4 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C5 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C6 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA ************************************************** C1 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C2 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C3 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C4 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C5 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C6 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC ************************************************** C1 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C2 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C3 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C4 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C5 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C6 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA ************************************************** C1 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C2 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C3 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C4 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C5 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C6 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH ************************************************** C1 VPEKLQEAAMLLNPAARLGDGDAYIG C2 VPEKLQEAAMLLNPAARLGDGDAYIG C3 VPEKLQEAAMLLNPAARLGDGDAYIG C4 VPEKLQEAAMLLNPAARLGDGDAYIG C5 VPEKLQEAAMLLNPAARLGDGDAYIG C6 VPEKLQEAAMLLNPAARLGDGDAYIG ************************** PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432) -full_log S [0] -genepred_score S [0] nsd -run_name S [0] -mem_mode S [0] mem -extend D [1] 1 -extend_mode S [0] very_fast_triplet -max_n_pair D [0] 10 -seq_name_for_quadruplet S [0] all -compact S [0] default -clean S [0] no -do_self FL [0] 0 -do_normalise D [0] 1000 -template_file S [0] -setenv S [0] 0 -template_mode S [0] -flip D [0] 0 -remove_template_file D [0] 0 -profile_template_file S [0] -in S [0] -seq S [0] -aln S [0] -method_limits S [0] -method S [0] -lib S [0] -profile S [0] -profile1 S [0] -profile2 S [0] -pdb S [0] -relax_lib D [0] 1 -filter_lib D [0] 0 -shrink_lib D [0] 0 -out_lib W_F [0] no -out_lib_mode S [0] primary -lib_only D [0] 0 -outseqweight W_F [0] no -dpa FL [0] 0 -seq_source S [0] ANY -cosmetic_penalty D [0] 0 -gapopen D [0] 0 -gapext D [0] 0 -fgapopen D [0] 0 -fgapext D [0] 0 -nomatch D [0] 0 -newtree W_F [0] default -tree W_F [0] NO -usetree R_F [0] -tree_mode S [0] nj -distance_matrix_mode S [0] ktup -distance_matrix_sim_mode S [0] idmat_sim1 -quicktree FL [0] 0 -outfile W_F [0] default -maximise FL [1] 1 -output S [1] score_ascii html score_ascii -len D [0] 0 -infile R_F [1] input.prot.fasta.muscle_rs_0_0.fasta.aln -matrix S [0] default -tg_mode D [0] 1 -profile_mode S [0] cw_profile_profile -profile_comparison S [0] profile -dp_mode S [0] linked_pair_wise -ktuple D [0] 1 -ndiag D [0] 0 -diag_threshold D [0] 0 -diag_mode D [0] 0 -sim_matrix S [0] vasiliky -transform S [0] -extend_seq FL [0] 0 -outorder S [0] input -inorder S [0] aligned -seqnos S [0] off -case S [0] keep -cpu D [0] 0 -maxnseq D [0] 1000 -maxlen D [0] -1 -sample_dp D [0] 0 -weight S [0] default -seq_weight S [0] no -align FL [1] 1 -mocca FL [0] 0 -domain FL [0] 0 -start D [0] 0 -len D [0] 0 -scale D [0] 0 -mocca_interactive FL [0] 0 -method_evaluate_mode S [0] default -evaluate_mode S [1] t_coffee_fast -get_type FL [0] 0 -clean_aln D [0] 0 -clean_threshold D [1] 1 -clean_iteration D [1] 1 -clean_evaluate_mode S [0] t_coffee_fast -extend_matrix FL [0] 0 -prot_min_sim D [40] 40 -prot_max_sim D [90] 90 -prot_min_cov D [40] 40 -pdb_type S [0] d -pdb_min_sim D [35] 35 -pdb_max_sim D [100] 100 -pdb_min_cov D [50] 50 -pdb_blast_server W_F [0] EBI -blast W_F [0] -blast_server W_F [0] EBI -pdb_db W_F [0] pdb -protein_db W_F [0] uniprot -method_log W_F [0] no -struc_to_use S [0] -cache W_F [0] use -align_pdb_param_file W_F [0] no -align_pdb_hasch_mode W_F [0] hasch_ca_trace_bubble -external_aligner S [0] NO -msa_mode S [0] tree -master S [0] no -blast_nseq D [0] 0 -lalign_n_top D [0] 10 -iterate D [1] 0 -trim D [0] 0 -split D [0] 0 -trimfile S [0] default -split D [0] 0 -split_nseq_thres D [0] 0 -split_score_thres D [0] 0 -check_pdb_status D [0] 0 -clean_seq_name D [0] 0 -seq_to_keep S [0] -dpa_master_aln S [0] -dpa_maxnseq D [0] 0 -dpa_min_score1 D [0] -dpa_min_score2 D [0] -dpa_keep_tmpfile FL [0] 0 -dpa_debug D [0] 0 -multi_core S [0] templates_jobs_relax_msa_evaluate -n_core D [0] 0 -max_n_proc D [0] 0 -lib_list S [0] -prune_lib_mode S [0] 5 -tip S [0] none -rna_lib S [0] -no_warning D [0] 0 -run_local_script D [0] 0 -plugins S [0] default -proxy S [0] unset -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] -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: 6 SEQUENCES [PROTEIN] Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C1 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C2 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C3 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C4 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C5 Length 3076 type PROTEIN Struct Unchecked Input File input.prot.fasta.muscle_rs_0_0.fasta.aln Seq C6 Length 3076 type PROTEIN Struct Unchecked Multi Core Mode: 96 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: [92280] Library Relaxation: Multi_proc [96] Relaxation Summary: [92280]--->[92280] UN-WEIGHTED MODE: EVERY SEQUENCE WEIGHTS 1 OUTPUT RESULTS #### File Type= MSA Format= score_ascii Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii #### File Type= MSA Format= html Name= input.prot.fasta.muscle_rs_0_0.fasta.html #### File Type= MSA Format= score_ascii Name= input.prot.fasta.muscle_rs_0_0.fasta.score_ascii # Command Line: t_coffee -infile input.prot.fasta.muscle_rs_0_0.fasta.aln -output score_ascii -special_mode evaluate -evaluate_mode t_coffee_fast [PROGRAM:T-COFFEE] # T-COFFEE Memory Usage: Current= 30.245 Mb, Max= 34.872 Mb # Results Produced with T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432) # T-COFFEE is available from http://www.tcoffee.org # Register on: https://groups.google.com/group/tcoffee/ FORMAT of file input.prot.fasta.muscle_rs_0_0.fasta.ipi_i.fasta Not Supported[FATAL:T-COFFEE] CLUSTAL W (1.83) multiple sequence alignment C1 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C2 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C3 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C4 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C5 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE C6 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ************************************************** C1 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C2 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C3 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C4 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C5 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE C6 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE ************************************************** C1 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C2 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C3 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C4 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C5 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ C6 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ ************************************************** C1 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C2 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C3 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C4 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C5 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV C6 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV ************************************************** C1 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C2 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C3 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C4 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C5 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER C6 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER ************************************************** C1 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C2 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C3 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C4 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C5 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG C6 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG ************************************************** C1 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C2 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C3 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C4 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C5 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL C6 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL ************************************************** C1 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C2 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C3 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C4 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C5 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL C6 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL ************************************************** C1 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C2 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C3 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C4 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C5 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG C6 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG ************************************************** C1 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C2 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C3 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C4 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C5 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA C6 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA ************************************************** C1 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C2 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C3 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C4 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C5 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV C6 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV ************************************************** C1 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C2 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C3 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C4 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C5 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC C6 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC ************************************************** C1 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C2 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C3 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C4 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C5 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS C6 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS ************************************************** C1 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C2 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C3 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C4 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C5 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD C6 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD ************************************************** C1 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C2 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C3 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C4 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C5 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE C6 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE ************************************************** C1 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C2 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C3 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C4 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C5 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV C6 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV ************************************************** C1 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C2 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C3 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C4 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C5 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID C6 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID ************************************************** C1 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C2 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C3 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C4 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C5 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR C6 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR ************************************************** C1 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C2 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C3 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C4 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C5 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT C6 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT ************************************************** C1 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C2 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C3 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C4 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C5 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID C6 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID ************************************************** C1 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C2 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C3 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C4 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C5 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA C6 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA ************************************************** C1 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C2 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C3 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C4 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C5 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS C6 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS ************************************************** C1 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C2 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C3 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C4 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C5 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM C6 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM ************************************************** C1 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C2 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C3 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C4 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C5 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS C6 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ************************************************** C1 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C2 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C3 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C4 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C5 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP C6 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP ************************************************** C1 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C2 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C3 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C4 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C5 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD C6 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD ************************************************** C1 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C2 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C3 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C4 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C5 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM C6 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM ************************************************** C1 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C2 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C3 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C4 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C5 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD C6 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD ************************************************** C1 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C2 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C3 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C4 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C5 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV C6 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV ************************************************** C1 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C2 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C3 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C4 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C5 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE C6 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE ************************************************** C1 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C2 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C3 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C4 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C5 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL C6 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL ************************************************** C1 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C2 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C3 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C4 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C5 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY C6 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY ************************************************** C1 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C2 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C3 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C4 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C5 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV C6 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV ************************************************** C1 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C2 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C3 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C4 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C5 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL C6 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ************************************************** C1 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C2 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C3 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C4 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C5 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL C6 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL ************************************************** C1 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C2 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C3 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C4 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C5 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE C6 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE ************************************************** C1 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C2 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C3 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C4 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C5 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL C6 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ************************************************** C1 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C2 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C3 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C4 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C5 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH C6 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH ************************************************** C1 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C2 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C3 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C4 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C5 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG C6 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG ************************************************** C1 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C2 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C3 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C4 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C5 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG C6 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG ************************************************** C1 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C2 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C3 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C4 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C5 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE C6 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE ************************************************** C1 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C2 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C3 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C4 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C5 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH C6 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ************************************************** C1 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C2 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C3 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C4 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C5 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI C6 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ************************************************** C1 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C2 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C3 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C4 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C5 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN C6 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN ************************************************** C1 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C2 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C3 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C4 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C5 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW C6 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW ************************************************** C1 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C2 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C3 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C4 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C5 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA C6 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA ************************************************** C1 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C2 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C3 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C4 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C5 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS C6 VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS *********************:**************************** C1 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C2 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C3 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C4 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C5 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED C6 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED ************************************************** C1 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C2 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C3 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C4 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C5 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI C6 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI ************************************************** C1 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C2 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C3 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C4 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C5 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY C6 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY ************************************************** C1 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C2 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C3 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C4 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C5 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL C6 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL ************************************************** C1 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C2 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C3 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C4 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C5 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR C6 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR ************************************************** C1 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C2 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C3 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C4 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C5 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG C6 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG ************************************************** C1 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C2 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C3 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C4 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C5 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI C6 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI ************************************************** C1 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C2 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C3 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C4 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C5 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV C6 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV ************************************************** C1 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C2 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C3 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C4 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C5 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE C6 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE ************************************************** C1 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C2 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C3 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C4 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C5 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA C6 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA ************************************************** C1 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C2 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C3 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C4 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C5 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA C6 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA ************************************************** C1 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C2 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C3 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C4 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C5 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC C6 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC ************************************************** C1 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C2 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C3 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C4 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C5 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA C6 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA ************************************************** C1 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C2 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C3 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C4 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C5 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH C6 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH ************************************************** C1 VPEKLQEAAMLLNPAARLGDGDAYIG C2 VPEKLQEAAMLLNPAARLGDGDAYIG C3 VPEKLQEAAMLLNPAARLGDGDAYIG C4 VPEKLQEAAMLLNPAARLGDGDAYIG C5 VPEKLQEAAMLLNPAARLGDGDAYIG C6 VPEKLQEAAMLLNPAARLGDGDAYIG ************************** 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 # PW_SEQ_DISTANCES BOT 0 1 100.00 C1 C2 100.00 TOP 1 0 100.00 C2 C1 100.00 BOT 0 2 100.00 C1 C3 100.00 TOP 2 0 100.00 C3 C1 100.00 BOT 0 3 100.00 C1 C4 100.00 TOP 3 0 100.00 C4 C1 100.00 BOT 0 4 100.00 C1 C5 100.00 TOP 4 0 100.00 C5 C1 100.00 BOT 0 5 99.97 C1 C6 99.97 TOP 5 0 99.97 C6 C1 99.97 BOT 1 2 100.00 C2 C3 100.00 TOP 2 1 100.00 C3 C2 100.00 BOT 1 3 100.00 C2 C4 100.00 TOP 3 1 100.00 C4 C2 100.00 BOT 1 4 100.00 C2 C5 100.00 TOP 4 1 100.00 C5 C2 100.00 BOT 1 5 99.97 C2 C6 99.97 TOP 5 1 99.97 C6 C2 99.97 BOT 2 3 100.00 C3 C4 100.00 TOP 3 2 100.00 C4 C3 100.00 BOT 2 4 100.00 C3 C5 100.00 TOP 4 2 100.00 C5 C3 100.00 BOT 2 5 99.97 C3 C6 99.97 TOP 5 2 99.97 C6 C3 99.97 BOT 3 4 100.00 C4 C5 100.00 TOP 4 3 100.00 C5 C4 100.00 BOT 3 5 99.97 C4 C6 99.97 TOP 5 3 99.97 C6 C4 99.97 BOT 4 5 99.97 C5 C6 99.97 TOP 5 4 99.97 C6 C5 99.97 AVG 0 C1 * 99.99 AVG 1 C2 * 99.99 AVG 2 C3 * 99.99 AVG 3 C4 * 99.99 AVG 4 C5 * 99.99 AVG 5 C6 * 99.97 TOT TOT * 99.99 CLUSTAL W (1.83) multiple sequence alignment C1 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG C2 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG C3 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG C4 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG C5 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG C6 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG ************************************************** C1 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT C2 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT C3 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT C4 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT C5 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT C6 CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ************************************************** C1 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA C2 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA C3 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA C4 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA C5 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA C6 ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA ************************************************** C1 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG C2 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG C3 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG C4 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG C5 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG C6 GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG ************************************************** C1 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC C2 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC C3 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC C4 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC C5 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC C6 TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC ************************************************** C1 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA C2 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA C3 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA C4 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA C5 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA C6 GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA ************************************************** C1 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC C2 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC C3 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC C4 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC C5 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC C6 GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC ************************************************** C1 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG C2 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG C3 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG C4 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG C5 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG C6 CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG ************************************************** C1 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG C2 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG C3 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG C4 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG C5 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG C6 GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG ************************************************** C1 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA C2 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA C3 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA C4 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA C5 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA C6 GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA ************************************************** C1 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC C2 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC C3 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC C4 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC C5 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC C6 GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC ************************************************** C1 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC C2 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC C3 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC C4 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC C5 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC C6 GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ************************************************** C1 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA C2 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA C3 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA C4 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA C5 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA C6 ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA ************************************************** C1 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC C2 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC C3 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC C4 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC C5 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC C6 GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC ************************************************** C1 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT C2 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT C3 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT C4 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT C5 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT C6 GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT ************************************************** C1 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT C2 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT C3 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT C4 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT C5 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT C6 TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT ************************************************** C1 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA C2 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA C3 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA C4 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA C5 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA C6 CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA ************************************************** C1 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC C2 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC C3 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC C4 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC C5 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC C6 TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC ************************************************** C1 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA C2 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA C3 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA C4 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA C5 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA C6 TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA ************************************************** C1 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC C2 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC C3 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC C4 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC C5 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC C6 GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ************************************************** C1 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG C2 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG C3 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG C4 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG C5 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG C6 ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ************************************************** C1 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC C2 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC C3 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC C4 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC C5 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC C6 ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC ************************************************** C1 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC C2 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC C3 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC C4 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC C5 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC C6 CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC ************************************************** C1 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT C2 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT C3 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT C4 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT C5 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT C6 CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT ************************************************** C1 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG C2 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG C3 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG C4 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG C5 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG C6 CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG ************************************************** C1 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA C2 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA C3 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA C4 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA C5 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA C6 TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA ************************************************** C1 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT C2 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT C3 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT C4 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT C5 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT C6 TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT ************************************************** C1 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG C2 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG C3 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG C4 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG C5 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG C6 GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ************************************************** C1 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC C2 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC C3 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC C4 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC C5 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC C6 ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC ************************************************** C1 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC C2 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC C3 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC C4 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC C5 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC C6 CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC ************************************************** C1 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT C2 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT C3 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT C4 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT C5 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT C6 CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT ************************************************** C1 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA C2 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA C3 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA C4 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA C5 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA C6 AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA ************************************************** C1 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG C2 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG C3 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG C4 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG C5 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG C6 TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ************************************************** C1 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA C2 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA C3 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA C4 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA C5 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA C6 ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA ************************************************** C1 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC C2 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC C3 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC C4 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC C5 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC C6 GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC ************************************************** C1 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC C2 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC C3 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC C4 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC C5 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC C6 TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC ************************************************** C1 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG C2 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG C3 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG C4 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG C5 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG C6 GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ************************************************** C1 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC C2 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC C3 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC C4 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC C5 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC C6 ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC ************************************************** C1 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG C2 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG C3 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG C4 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG C5 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG C6 TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG ************************************************** C1 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC C2 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC C3 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC C4 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC C5 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC C6 GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC ************************************************** C1 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG C2 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG C3 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG C4 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG C5 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG C6 CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ************************************************** C1 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC C2 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC C3 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC C4 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC C5 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC C6 ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC ************************************************** C1 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT C2 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT C3 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT C4 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT C5 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT C6 GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT ************************************************** C1 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA C2 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA C3 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA C4 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA C5 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA C6 CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA ************************************************** C1 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG C2 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG C3 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG C4 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG C5 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG C6 TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG ************************************************** C1 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA C2 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA C3 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA C4 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA C5 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA C6 GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA ************************************************** C1 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT C2 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT C3 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT C4 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT C5 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT C6 TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT ************************************************** C1 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG C2 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG C3 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG C4 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG C5 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG C6 TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG ************************************************** C1 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC C2 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC C3 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC C4 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC C5 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC C6 TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC ************************************************** C1 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA C2 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA C3 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA C4 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA C5 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA C6 AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA ************************************************** C1 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC C2 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC C3 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC C4 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC C5 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC C6 TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC ************************************************** C1 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA C2 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA C3 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA C4 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA C5 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA C6 AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA ************************************************** C1 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG C2 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG C3 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG C4 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG C5 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG C6 TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG ************************************************** C1 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC C2 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC C3 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC C4 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC C5 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC C6 TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC ************************************************** C1 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT C2 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT C3 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT C4 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT C5 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT C6 TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT ************************************************** C1 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG C2 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG C3 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG C4 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG C5 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG C6 GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG ************************************************** C1 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC C2 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC C3 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC C4 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC C5 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC C6 CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC ************************************************** C1 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA C2 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA C3 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA C4 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA C5 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA C6 AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA ************************************************** C1 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG C2 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG C3 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG C4 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG C5 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG C6 CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG ************************************************** C1 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC C2 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC C3 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC C4 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC C5 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC C6 AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ************************************************** C1 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT C2 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT C3 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT C4 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT C5 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT C6 ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ************************************************** C1 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG C2 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG C3 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG C4 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG C5 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG C6 ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG ************************************************** C1 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT C2 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT C3 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT C4 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT C5 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT C6 CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ************************************************** C1 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT C2 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT C3 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT C4 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT C5 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT C6 ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT ************************************************** C1 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG C2 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG C3 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG C4 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG C5 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG C6 CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ************************************************** C1 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC C2 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC C3 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC C4 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC C5 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC C6 ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC ************************************************** C1 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT C2 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT C3 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT C4 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT C5 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT C6 GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT ************************************************** C1 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG C2 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG C3 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG C4 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG C5 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG C6 GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG ************************************************** C1 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG C2 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG C3 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG C4 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG C5 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG C6 CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG ************************************************** C1 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA C2 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA C3 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA C4 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA C5 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA C6 GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA ************************************************** C1 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA C2 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA C3 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA C4 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA C5 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA C6 CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA ************************************************** C1 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT C2 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT C3 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT C4 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT C5 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT C6 CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT ************************************************** C1 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC C2 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC C3 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC C4 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC C5 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC C6 GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC ************************************************** C1 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC C2 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC C3 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC C4 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC C5 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC C6 CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC ************************************************** C1 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG C2 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG C3 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG C4 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG C5 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG C6 CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ************************************************** C1 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC C2 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC C3 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC C4 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC C5 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC C6 ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC ************************************************** C1 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC C2 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC C3 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC C4 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC C5 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC C6 TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC ************************************************** C1 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC C2 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC C3 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC C4 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC C5 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC C6 GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC ************************************************** C1 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT C2 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT C3 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT C4 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT C5 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT C6 CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT ************************************************** C1 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA C2 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA C3 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA C4 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA C5 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA C6 CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA ************************************************** C1 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG C2 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG C3 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG C4 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG C5 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG C6 CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG ************************************************** C1 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA C2 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA C3 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA C4 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA C5 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA C6 GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA ************************************************** C1 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG C2 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG C3 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG C4 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG C5 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG C6 CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ************************************************** C1 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT C2 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT C3 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT C4 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT C5 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT C6 ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT ************************************************** C1 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC C2 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC C3 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC C4 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC C5 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC C6 GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC ************************************************** C1 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG C2 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG C3 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG C4 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG C5 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG C6 GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG ************************************************** C1 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC C2 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC C3 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC C4 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC C5 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC C6 CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ************************************************** C1 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG C2 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG C3 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG C4 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG C5 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG C6 ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG ************************************************** C1 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT C2 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT C3 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT C4 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT C5 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT C6 GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ************************************************** C1 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG C2 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG C3 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG C4 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG C5 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG C6 ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG ************************************************** C1 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA C2 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA C3 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA C4 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA C5 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA C6 GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA ************************************************** C1 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG C2 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG C3 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG C4 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG C5 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG C6 GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG ************************************************** C1 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC C2 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC C3 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC C4 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC C5 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC C6 TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ************************************************** C1 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT C2 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT C3 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT C4 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT C5 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT C6 ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT ************************************************** C1 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG C2 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG C3 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG C4 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG C5 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG C6 CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ************************************************** C1 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC C2 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC C3 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC C4 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC C5 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC C6 ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ************************************************** C1 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA C2 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA C3 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA C4 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA C5 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA C6 ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA ************************************************** C1 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG C2 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG C3 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG C4 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG C5 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG C6 GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ************************************************** C1 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG C2 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG C3 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG C4 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG C5 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG C6 ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG ************************************************** C1 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA C2 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA C3 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA C4 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA C5 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA C6 TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA ************************************************** C1 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG C2 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG C3 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG C4 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG C5 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG C6 AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG ************************************************** C1 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC C2 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC C3 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC C4 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC C5 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC C6 AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC ************************************************** C1 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT C2 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT C3 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT C4 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT C5 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT C6 GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT ************************************************** C1 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC C2 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC C3 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC C4 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC C5 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC C6 GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC ************************************************** C1 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA C2 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA C3 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA C4 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA C5 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA C6 CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA ************************************************** C1 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT C2 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT C3 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT C4 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT C5 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT C6 CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT ************************************************** C1 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA C2 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA C3 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA C4 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA C5 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA C6 GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA ************************************************** C1 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG C2 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG C3 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG C4 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG C5 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG C6 CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG ************************************************** C1 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA C2 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA C3 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA C4 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA C5 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA C6 GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA ************************************************** C1 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG C2 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG C3 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG C4 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG C5 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG C6 CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG ************************************************** C1 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA C2 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA C3 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA C4 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA C5 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA C6 GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA ************************************************** C1 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA C2 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA C3 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA C4 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA C5 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA C6 GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA ************************************************** C1 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG C2 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG C3 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG C4 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG C5 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG C6 TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG ************************************************** C1 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC C2 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC C3 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC C4 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC C5 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC C6 CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC ************************************************** C1 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG C2 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG C3 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG C4 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG C5 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG C6 GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG ************************************************** C1 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG C2 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG C3 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG C4 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG C5 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG C6 GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG ************************************************** C1 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC C2 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC C3 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC C4 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC C5 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC C6 TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC ************************************************** C1 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA C2 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA C3 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA C4 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA C5 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA C6 GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA ************************************************** C1 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG C2 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG C3 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG C4 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG C5 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG C6 CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG ************************************************** C1 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA C2 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA C3 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA C4 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA C5 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA C6 TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA ************************************************** C1 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT C2 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT C3 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT C4 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT C5 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT C6 CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT ************************************************** C1 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG C2 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG C3 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG C4 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG C5 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG C6 TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ************************************************** C1 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG C2 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG C3 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG C4 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG C5 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG C6 ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG ************************************************** C1 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG C2 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG C3 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG C4 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG C5 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG C6 GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG ************************************************** C1 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC C2 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC C3 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC C4 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC C5 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC C6 GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC ************************************************** C1 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC C2 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC C3 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC C4 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC C5 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC C6 AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC ************************************************** C1 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG C2 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG C3 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG C4 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG C5 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG C6 GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG ************************************************** C1 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA C2 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA C3 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA C4 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA C5 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA C6 TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA ************************************************** C1 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA C2 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA C3 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA C4 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA C5 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA C6 TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA ************************************************** C1 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT C2 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT C3 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT C4 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT C5 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT C6 GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT ************************************************** C1 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA C2 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA C3 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA C4 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA C5 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA C6 GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ************************************************** C1 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC C2 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC C3 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC C4 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC C5 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC C6 ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC ************************************************** C1 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA C2 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA C3 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA C4 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA C5 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA C6 GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA ************************************************** C1 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT C2 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT C3 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT C4 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT C5 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT C6 GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT ************************************************** C1 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG C2 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG C3 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG C4 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG C5 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG C6 TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG ************************************************** C1 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA C2 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA C3 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA C4 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA C5 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA C6 GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA ************************************************** C1 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA C2 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA C3 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA C4 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA C5 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA C6 TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA ************************************************** C1 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC C2 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC C3 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC C4 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC C5 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC C6 TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC ************************************************** C1 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT C2 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT C3 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT C4 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT C5 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT C6 GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT ************************************************** C1 GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA C2 GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA C3 GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA C4 GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA C5 GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA C6 GGCACATGCGCTGGTTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA *************.************************************ C1 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC C2 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC C3 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC C4 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC C5 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC C6 ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ************************************************** C1 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA C2 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA C3 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA C4 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA C5 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA C6 ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA ************************************************** C1 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG C2 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG C3 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG C4 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG C5 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG C6 GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG ************************************************** C1 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT C2 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT C3 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT C4 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT C5 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT C6 GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT ************************************************** C1 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC C2 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC C3 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC C4 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC C5 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC C6 CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC ************************************************** C1 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT C2 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT C3 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT C4 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT C5 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT C6 GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT ************************************************** C1 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT C2 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT C3 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT C4 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT C5 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT C6 CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT ************************************************** C1 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA C2 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA C3 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA C4 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA C5 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA C6 GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA ************************************************** C1 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT C2 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT C3 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT C4 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT C5 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT C6 GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT ************************************************** C1 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT C2 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT C3 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT C4 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT C5 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT C6 GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT ************************************************** C1 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA C2 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA C3 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA C4 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA C5 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA C6 GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA ************************************************** C1 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG C2 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG C3 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG C4 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG C5 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG C6 CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG ************************************************** C1 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG C2 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG C3 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG C4 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG C5 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG C6 GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG ************************************************** C1 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT C2 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT C3 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT C4 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT C5 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT C6 GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT ************************************************** C1 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA C2 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA C3 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA C4 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA C5 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA C6 TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA ************************************************** C1 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA C2 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA C3 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA C4 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA C5 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA C6 GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA ************************************************** C1 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA C2 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA C3 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA C4 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA C5 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA C6 AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA ************************************************** C1 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG C2 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG C3 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG C4 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG C5 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG C6 TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG ************************************************** C1 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC C2 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC C3 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC C4 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC C5 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC C6 TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC ************************************************** C1 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA C2 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA C3 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA C4 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA C5 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA C6 TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA ************************************************** C1 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC C2 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC C3 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC C4 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC C5 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC C6 CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ************************************************** C1 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC C2 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC C3 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC C4 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC C5 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC C6 ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC ************************************************** C1 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA C2 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA C3 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA C4 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA C5 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA C6 TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA ************************************************** C1 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG C2 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG C3 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG C4 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG C5 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG C6 CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG ************************************************** C1 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA C2 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA C3 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA C4 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA C5 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA C6 TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA ************************************************** C1 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA C2 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA C3 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA C4 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA C5 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA C6 GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA ************************************************** C1 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG C2 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG C3 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG C4 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG C5 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG C6 TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ************************************************** C1 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA C2 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA C3 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA C4 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA C5 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA C6 ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA ************************************************** C1 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA C2 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA C3 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA C4 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA C5 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA C6 GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA ************************************************** C1 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG C2 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG C3 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG C4 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG C5 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG C6 GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ************************************************** C1 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA C2 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA C3 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA C4 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA C5 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA C6 ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA ************************************************** C1 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG C2 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG C3 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG C4 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG C5 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG C6 GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG ************************************************** C1 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC C2 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC C3 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC C4 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC C5 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC C6 TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC ************************************************** C1 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG C2 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG C3 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG C4 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG C5 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG C6 TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ************************************************** C1 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT C2 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT C3 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT C4 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT C5 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT C6 ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT ************************************************** C1 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT C2 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT C3 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT C4 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT C5 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT C6 CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT ************************************************** C1 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC C2 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC C3 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC C4 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC C5 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC C6 GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC ************************************************** C1 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC C2 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC C3 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC C4 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC C5 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC C6 GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC ************************************************** C1 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC C2 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC C3 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC C4 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC C5 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC C6 GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC ************************************************** C1 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG C2 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG C3 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG C4 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG C5 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG C6 TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG ************************************************** C1 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC C2 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC C3 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC C4 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC C5 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC C6 TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC ************************************************** C1 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG C2 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG C3 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG C4 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG C5 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG C6 GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG ************************************************** C1 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT C2 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT C3 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT C4 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT C5 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT C6 GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT ************************************************** C1 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG C2 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG C3 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG C4 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG C5 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG C6 GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG ************************************************** C1 GCTTGGTGACGGCGATGCTTATATCGGA C2 GCTTGGTGACGGCGATGCTTATATCGGA C3 GCTTGGTGACGGCGATGCTTATATCGGA C4 GCTTGGTGACGGCGATGCTTATATCGGA C5 GCTTGGTGACGGCGATGCTTATATCGGA C6 GCTTGGTGACGGCGATGCTTATATCGGA **************************** >C1 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C2 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C3 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C4 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C5 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C6 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGGTTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >C1 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C2 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C3 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C4 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C5 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >C6 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG 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 "/data/1res/fas/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 6 taxa and 9228 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 Successfully read matrix Setting default partition (does not divide up characters) Setting model defaults Seed (for generating default start values) = 1579776853 Setting output file names to "/data/1res/fas/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) = 1197157982 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 = 9000737026 Seed = 1560734156 Swapseed = 1579776853 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 5 unique site patterns Division 2 has 4 unique site patterns Division 3 has 4 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 -- -20656.108029 -- -24.965149 Chain 2 -- -20656.106014 -- -24.965149 Chain 3 -- -20656.108029 -- -24.965149 Chain 4 -- -20656.108029 -- -24.965149 Initial log likelihoods and log prior probs for run 2: Chain 1 -- -20656.109223 -- -24.965149 Chain 2 -- -20656.109223 -- -24.965149 Chain 3 -- -20656.106480 -- -24.965149 Chain 4 -- -20656.107674 -- -24.965149 Using a relative burnin of 25.0 % for diagnostics Chain results (1000000 generations requested): 0 -- [-20656.108] (-20656.106) (-20656.108) (-20656.108) * [-20656.109] (-20656.109) (-20656.106) (-20656.108) 500 -- [-12549.470] (-12682.009) (-12660.736) (-12578.033) * (-12678.588) (-12643.037) (-12601.459) [-12554.204] -- 0:00:00 1000 -- [-12545.450] (-12580.783) (-12556.247) (-12555.549) * (-12601.897) (-12559.969) [-12549.822] (-12547.683) -- 0:00:00 1500 -- (-12539.748) (-12566.362) (-12537.350) [-12541.715] * (-12547.652) (-12554.293) (-12549.226) [-12538.160] -- 0:00:00 2000 -- (-12541.419) (-12541.182) [-12540.752] (-12549.485) * [-12542.244] (-12548.205) (-12554.890) (-12544.175) -- 0:00:00 2500 -- (-12542.631) [-12546.555] (-12541.409) (-12542.702) * (-12544.958) [-12541.917] (-12538.087) (-12545.577) -- 0:00:00 3000 -- (-12539.972) (-12537.955) [-12547.826] (-12543.817) * (-12546.448) (-12549.338) [-12539.590] (-12542.390) -- 0:00:00 3500 -- (-12540.929) (-12543.206) [-12544.541] (-12534.325) * (-12538.295) [-12540.886] (-12540.438) (-12543.858) -- 0:00:00 4000 -- (-12542.057) (-12540.301) [-12535.345] (-12533.033) * (-12541.601) (-12539.175) (-12546.612) [-12535.020] -- 0:00:00 4500 -- (-12544.454) (-12541.748) [-12539.159] (-12544.057) * (-12544.593) [-12541.076] (-12538.921) (-12540.533) -- 0:03:41 5000 -- [-12537.020] (-12555.594) (-12544.452) (-12537.248) * (-12540.106) (-12537.897) (-12541.310) [-12541.627] -- 0:03:19 Average standard deviation of split frequencies: 0.119422 5500 -- (-12544.791) (-12534.778) [-12543.790] (-12536.371) * (-12543.424) (-12547.437) (-12537.935) [-12543.930] -- 0:03:00 6000 -- (-12546.599) (-12545.599) (-12546.321) [-12534.786] * (-12549.231) [-12540.302] (-12536.883) (-12538.943) -- 0:02:45 6500 -- (-12558.111) (-12539.120) (-12539.937) [-12539.890] * [-12540.517] (-12538.544) (-12543.608) (-12542.817) -- 0:02:32 7000 -- (-12540.108) [-12540.921] (-12542.564) (-12537.443) * (-12537.935) (-12541.616) [-12537.562] (-12548.684) -- 0:02:21 7500 -- (-12540.375) [-12536.107] (-12547.578) (-12538.808) * (-12536.353) [-12540.445] (-12538.248) (-12540.953) -- 0:02:12 8000 -- (-12539.099) [-12541.187] (-12546.390) (-12538.314) * [-12538.082] (-12540.846) (-12542.238) (-12547.355) -- 0:02:04 8500 -- (-12542.592) (-12539.216) (-12538.699) [-12542.981] * (-12545.960) [-12537.814] (-12538.615) (-12543.117) -- 0:01:56 9000 -- (-12540.404) (-12535.978) (-12538.830) [-12538.535] * (-12545.977) (-12535.441) [-12536.408] (-12535.409) -- 0:01:50 9500 -- (-12540.397) [-12537.388] (-12542.034) (-12542.998) * (-12540.899) (-12541.222) [-12535.759] (-12536.908) -- 0:01:44 10000 -- (-12539.152) [-12536.197] (-12544.897) (-12541.448) * (-12536.733) (-12539.424) (-12539.332) [-12537.374] -- 0:01:39 Average standard deviation of split frequencies: 0.086284 10500 -- (-12539.073) (-12537.797) (-12537.019) [-12538.556] * [-12537.091] (-12541.443) (-12538.458) (-12535.936) -- 0:01:34 11000 -- [-12540.685] (-12537.870) (-12538.849) (-12542.702) * (-12534.064) (-12540.384) (-12540.210) [-12540.152] -- 0:01:29 11500 -- (-12543.621) (-12539.729) [-12536.293] (-12548.814) * [-12539.472] (-12540.613) (-12539.208) (-12539.915) -- 0:01:25 12000 -- [-12541.462] (-12536.316) (-12535.202) (-12547.118) * (-12538.721) (-12536.169) (-12543.068) [-12540.097] -- 0:02:44 12500 -- (-12536.650) (-12534.298) [-12535.727] (-12541.116) * (-12540.777) [-12541.223] (-12539.360) (-12540.799) -- 0:02:38 13000 -- (-12542.453) (-12536.642) (-12539.625) [-12544.776] * (-12538.741) (-12536.759) (-12541.946) [-12533.386] -- 0:02:31 13500 -- (-12549.438) [-12536.296] (-12537.614) (-12535.584) * (-12540.822) [-12537.322] (-12539.777) (-12543.393) -- 0:02:26 14000 -- (-12548.980) (-12535.894) (-12534.595) [-12535.489] * (-12539.630) [-12541.538] (-12540.056) (-12545.478) -- 0:02:20 14500 -- (-12549.081) (-12546.195) (-12536.088) [-12537.419] * [-12537.071] (-12543.993) (-12548.848) (-12552.673) -- 0:02:15 15000 -- (-12542.758) [-12537.951] (-12535.536) (-12539.827) * [-12538.461] (-12542.300) (-12539.349) (-12537.558) -- 0:02:11 Average standard deviation of split frequencies: 0.065941 15500 -- (-12542.016) [-12541.477] (-12536.605) (-12550.597) * (-12538.211) [-12536.495] (-12542.546) (-12537.591) -- 0:02:07 16000 -- (-12541.299) [-12535.584] (-12535.450) (-12538.495) * (-12541.876) (-12544.705) [-12540.624] (-12537.570) -- 0:02:03 16500 -- (-12538.964) (-12538.661) (-12536.428) [-12540.976] * (-12541.656) (-12544.613) [-12540.033] (-12537.737) -- 0:01:59 17000 -- [-12535.620] (-12540.048) (-12536.305) (-12545.702) * (-12537.780) (-12539.522) [-12534.896] (-12537.699) -- 0:01:55 17500 -- [-12537.454] (-12537.707) (-12535.542) (-12542.342) * (-12546.694) [-12535.110] (-12539.174) (-12537.745) -- 0:01:52 18000 -- (-12533.550) (-12547.230) (-12538.563) [-12539.195] * (-12537.761) [-12537.599] (-12541.006) (-12538.916) -- 0:01:49 18500 -- (-12536.803) (-12537.122) [-12535.078] (-12542.574) * (-12541.653) [-12541.410] (-12544.626) (-12537.958) -- 0:01:46 19000 -- (-12537.483) [-12543.730] (-12534.158) (-12547.819) * (-12540.009) [-12536.704] (-12542.362) (-12536.744) -- 0:01:43 19500 -- (-12538.924) [-12534.496] (-12534.118) (-12543.078) * [-12541.087] (-12549.726) (-12538.120) (-12538.092) -- 0:02:30 20000 -- (-12539.736) (-12533.858) [-12534.970] (-12542.287) * (-12539.625) (-12553.867) (-12540.126) [-12533.572] -- 0:02:27 Average standard deviation of split frequencies: 0.054023 20500 -- (-12537.206) [-12538.721] (-12535.835) (-12542.750) * (-12544.461) (-12549.162) (-12546.319) [-12534.824] -- 0:02:23 21000 -- [-12538.748] (-12540.341) (-12535.373) (-12542.763) * (-12542.813) (-12538.117) (-12537.558) [-12539.119] -- 0:02:19 21500 -- (-12537.629) (-12549.532) [-12535.558] (-12543.983) * [-12536.481] (-12537.567) (-12542.871) (-12539.322) -- 0:02:16 22000 -- [-12538.255] (-12538.775) (-12535.614) (-12537.108) * (-12542.447) (-12539.961) [-12541.417] (-12540.313) -- 0:02:13 22500 -- (-12539.919) [-12530.929] (-12538.123) (-12548.335) * (-12543.212) (-12538.109) [-12542.622] (-12540.071) -- 0:02:10 23000 -- (-12538.408) (-12540.652) [-12535.697] (-12543.007) * (-12555.054) [-12537.288] (-12539.757) (-12541.970) -- 0:02:07 23500 -- [-12537.598] (-12544.701) (-12534.707) (-12539.721) * [-12540.488] (-12536.784) (-12544.355) (-12538.257) -- 0:02:04 24000 -- (-12536.414) [-12541.545] (-12535.827) (-12536.073) * (-12540.791) (-12537.164) [-12546.747] (-12538.118) -- 0:02:02 24500 -- (-12537.216) (-12539.174) (-12534.092) [-12541.714] * [-12540.219] (-12538.280) (-12536.586) (-12538.119) -- 0:01:59 25000 -- (-12535.263) (-12540.337) (-12538.217) [-12539.511] * (-12538.267) [-12539.594] (-12540.432) (-12540.239) -- 0:01:57 Average standard deviation of split frequencies: 0.035438 25500 -- [-12535.792] (-12542.315) (-12534.543) (-12537.648) * [-12545.623] (-12538.765) (-12534.066) (-12539.508) -- 0:01:54 26000 -- (-12538.943) (-12537.332) [-12534.597] (-12547.347) * [-12540.828] (-12539.740) (-12541.748) (-12539.342) -- 0:01:52 26500 -- (-12536.493) (-12539.723) (-12533.344) [-12538.486] * (-12542.346) (-12540.832) [-12547.710] (-12536.950) -- 0:01:50 27000 -- (-12540.165) (-12538.799) (-12533.557) [-12537.971] * (-12548.230) (-12538.366) [-12540.899] (-12535.831) -- 0:01:48 27500 -- [-12536.829] (-12538.715) (-12534.552) (-12539.073) * (-12551.314) [-12536.379] (-12540.565) (-12535.084) -- 0:02:21 28000 -- (-12538.907) (-12540.058) (-12538.818) [-12538.126] * (-12552.099) (-12539.586) [-12540.896] (-12536.251) -- 0:02:18 28500 -- (-12536.642) (-12536.974) (-12535.060) [-12537.917] * (-12547.529) (-12541.901) [-12539.078] (-12536.255) -- 0:02:16 29000 -- (-12538.648) (-12533.902) (-12536.822) [-12535.998] * (-12541.447) (-12536.746) (-12539.098) [-12536.703] -- 0:02:13 29500 -- (-12538.161) (-12533.192) [-12535.687] (-12538.831) * (-12539.750) [-12539.401] (-12543.218) (-12537.285) -- 0:02:11 30000 -- (-12540.213) [-12536.669] (-12535.266) (-12541.973) * [-12537.780] (-12537.471) (-12545.520) (-12536.737) -- 0:02:09 Average standard deviation of split frequencies: 0.043041 30500 -- (-12541.672) (-12534.818) (-12533.768) [-12536.784] * (-12537.526) (-12536.910) (-12544.923) [-12536.488] -- 0:02:07 31000 -- (-12541.811) (-12538.639) (-12534.252) [-12536.127] * (-12537.808) (-12535.826) [-12541.918] (-12538.874) -- 0:02:05 31500 -- (-12540.138) (-12540.042) (-12535.572) [-12537.324] * [-12537.633] (-12534.973) (-12548.562) (-12538.887) -- 0:02:02 32000 -- (-12540.830) (-12536.091) [-12534.139] (-12539.454) * (-12533.804) (-12537.774) [-12542.339] (-12535.490) -- 0:02:01 32500 -- (-12539.859) (-12536.794) [-12534.627] (-12537.627) * (-12534.521) (-12539.444) (-12539.772) [-12532.797] -- 0:01:59 33000 -- (-12535.955) (-12537.515) (-12534.693) [-12542.793] * (-12534.814) (-12536.108) [-12540.860] (-12533.581) -- 0:01:57 33500 -- (-12537.671) [-12534.393] (-12534.655) (-12538.695) * (-12535.644) (-12535.647) (-12539.486) [-12535.022] -- 0:01:55 34000 -- (-12537.534) (-12535.081) [-12535.451] (-12543.507) * (-12532.571) (-12536.547) [-12537.713] (-12535.125) -- 0:01:53 34500 -- (-12538.792) (-12534.815) [-12536.023] (-12542.919) * (-12534.074) (-12536.147) [-12537.874] (-12536.122) -- 0:01:51 35000 -- (-12539.370) [-12535.656] (-12534.124) (-12537.822) * (-12533.718) (-12537.106) [-12535.724] (-12536.467) -- 0:01:50 Average standard deviation of split frequencies: 0.036665 35500 -- (-12539.165) (-12537.252) (-12534.653) [-12538.856] * (-12537.306) (-12534.493) [-12538.178] (-12539.008) -- 0:02:15 36000 -- (-12540.063) (-12540.344) (-12533.715) [-12540.462] * (-12535.125) (-12535.660) [-12548.325] (-12537.353) -- 0:02:13 36500 -- (-12538.672) (-12539.710) [-12535.227] (-12537.387) * (-12536.157) [-12535.551] (-12542.683) (-12537.482) -- 0:02:11 37000 -- (-12540.283) (-12540.840) [-12535.459] (-12536.370) * (-12533.456) (-12536.914) [-12545.037] (-12536.872) -- 0:02:10 37500 -- [-12537.406] (-12538.022) (-12538.114) (-12536.969) * (-12535.355) [-12535.112] (-12547.265) (-12535.669) -- 0:02:08 38000 -- (-12540.645) (-12537.999) (-12537.548) [-12539.561] * (-12536.459) (-12540.290) [-12543.668] (-12536.877) -- 0:02:06 38500 -- (-12540.123) (-12538.197) (-12537.761) [-12537.157] * (-12535.023) (-12536.709) (-12542.967) [-12538.002] -- 0:02:04 39000 -- (-12541.058) (-12534.556) (-12536.014) [-12544.786] * (-12536.827) (-12536.696) [-12546.563] (-12534.410) -- 0:02:03 39500 -- (-12541.681) [-12536.919] (-12534.020) (-12549.338) * (-12537.922) (-12536.964) (-12536.088) [-12537.124] -- 0:02:01 40000 -- (-12540.399) (-12536.390) [-12533.564] (-12536.048) * (-12539.145) [-12534.740] (-12543.401) (-12535.473) -- 0:02:00 Average standard deviation of split frequencies: 0.039046 40500 -- (-12539.079) (-12538.789) [-12534.051] (-12553.528) * (-12535.836) (-12535.981) [-12540.340] (-12540.068) -- 0:01:58 41000 -- (-12541.490) (-12537.963) (-12535.201) [-12542.511] * (-12534.126) (-12538.980) (-12542.289) [-12538.738] -- 0:01:56 41500 -- (-12537.475) (-12540.158) (-12534.252) [-12539.049] * (-12537.063) (-12536.449) [-12544.941] (-12537.343) -- 0:01:55 42000 -- (-12535.451) (-12540.578) [-12533.342] (-12545.362) * [-12535.729] (-12538.945) (-12537.087) (-12540.680) -- 0:01:54 42500 -- (-12538.413) [-12540.248] (-12535.126) (-12538.843) * (-12534.847) [-12534.560] (-12539.631) (-12538.424) -- 0:01:52 43000 -- (-12539.049) (-12539.146) (-12533.545) [-12539.658] * (-12536.510) (-12534.618) (-12536.539) [-12536.046] -- 0:01:51 43500 -- [-12535.213] (-12537.607) (-12534.277) (-12541.930) * (-12535.895) (-12534.792) [-12539.900] (-12539.324) -- 0:02:11 44000 -- (-12537.716) [-12537.561] (-12535.091) (-12544.372) * (-12538.042) [-12534.564] (-12538.841) (-12539.582) -- 0:02:10 44500 -- (-12534.947) (-12537.030) [-12535.913] (-12540.024) * (-12537.280) (-12534.521) (-12539.933) [-12536.881] -- 0:02:08 45000 -- (-12539.535) (-12535.255) (-12535.356) [-12539.250] * (-12535.724) (-12532.996) (-12543.300) [-12539.735] -- 0:02:07 Average standard deviation of split frequencies: 0.030278 45500 -- (-12537.723) [-12534.847] (-12535.467) (-12536.548) * (-12535.153) (-12536.390) [-12536.781] (-12539.720) -- 0:02:05 46000 -- (-12539.535) (-12536.176) [-12535.052] (-12553.819) * [-12536.828] (-12534.808) (-12535.866) (-12538.613) -- 0:02:04 46500 -- (-12539.536) (-12533.488) (-12535.542) [-12539.825] * (-12534.453) (-12534.770) (-12544.927) [-12538.314] -- 0:02:03 47000 -- (-12536.734) [-12534.744] (-12538.045) (-12540.931) * [-12534.244] (-12535.564) (-12540.510) (-12539.419) -- 0:02:01 47500 -- [-12536.296] (-12535.796) (-12536.645) (-12539.705) * [-12533.666] (-12535.769) (-12543.212) (-12535.738) -- 0:02:00 48000 -- [-12536.276] (-12535.422) (-12536.003) (-12539.650) * [-12533.416] (-12538.928) (-12538.666) (-12537.374) -- 0:01:59 48500 -- (-12535.767) (-12534.268) [-12533.284] (-12543.025) * (-12535.078) (-12539.433) [-12537.046] (-12536.568) -- 0:01:57 49000 -- (-12537.421) (-12535.473) (-12535.376) [-12543.406] * (-12533.312) (-12539.433) [-12535.372] (-12535.128) -- 0:01:56 49500 -- (-12539.372) (-12534.639) (-12535.490) [-12538.353] * (-12535.582) [-12538.271] (-12533.643) (-12535.025) -- 0:01:55 50000 -- (-12538.605) (-12535.950) (-12534.211) [-12535.711] * (-12536.308) (-12536.136) [-12538.334] (-12535.887) -- 0:01:54 Average standard deviation of split frequencies: 0.031013 50500 -- (-12539.105) [-12536.818] (-12535.096) (-12545.471) * (-12535.209) (-12534.973) (-12555.045) [-12534.160] -- 0:01:52 51000 -- (-12534.791) [-12536.320] (-12536.515) (-12542.443) * [-12538.765] (-12536.441) (-12540.816) (-12536.570) -- 0:02:10 51500 -- (-12534.505) [-12536.029] (-12534.520) (-12539.807) * (-12535.197) [-12534.273] (-12540.836) (-12536.554) -- 0:02:08 52000 -- [-12535.104] (-12535.435) (-12535.885) (-12541.583) * [-12537.181] (-12533.499) (-12542.924) (-12541.513) -- 0:02:07 52500 -- (-12534.246) (-12536.867) (-12538.060) [-12542.955] * (-12538.238) (-12535.310) (-12537.809) [-12543.276] -- 0:02:06 53000 -- [-12534.780] (-12542.673) (-12536.616) (-12537.233) * (-12537.377) (-12535.670) [-12540.916] (-12538.585) -- 0:02:05 53500 -- [-12534.564] (-12540.824) (-12539.683) (-12540.857) * (-12538.802) (-12536.356) [-12535.184] (-12535.981) -- 0:02:03 54000 -- (-12535.144) (-12540.472) [-12538.120] (-12540.405) * (-12535.608) (-12535.413) [-12537.558] (-12536.263) -- 0:02:02 54500 -- [-12533.320] (-12538.108) (-12542.747) (-12538.904) * [-12535.072] (-12537.684) (-12539.032) (-12539.048) -- 0:02:01 55000 -- (-12539.642) (-12537.103) (-12546.040) [-12539.598] * (-12534.391) (-12535.764) [-12544.639] (-12537.556) -- 0:02:00 Average standard deviation of split frequencies: 0.030866 55500 -- (-12534.662) (-12537.558) (-12541.683) [-12544.084] * (-12535.450) (-12536.688) [-12538.304] (-12537.566) -- 0:01:59 56000 -- (-12534.553) (-12538.697) (-12544.133) [-12545.248] * (-12535.436) (-12535.425) [-12538.968] (-12537.200) -- 0:01:58 56500 -- (-12534.192) (-12538.850) (-12542.562) [-12540.234] * [-12535.609] (-12533.544) (-12542.777) (-12537.502) -- 0:01:56 57000 -- [-12534.786] (-12538.042) (-12541.028) (-12543.135) * (-12535.825) (-12534.087) (-12544.077) [-12534.626] -- 0:01:55 57500 -- [-12535.384] (-12537.769) (-12542.188) (-12540.012) * (-12535.601) [-12535.676] (-12535.305) (-12536.420) -- 0:01:54 58000 -- (-12536.681) (-12537.776) (-12546.463) [-12545.162] * [-12534.037] (-12538.003) (-12534.568) (-12535.646) -- 0:01:53 58500 -- (-12534.742) (-12539.130) (-12546.128) [-12543.404] * [-12536.858] (-12536.273) (-12537.990) (-12533.615) -- 0:01:52 59000 -- [-12537.438] (-12541.010) (-12546.648) (-12544.657) * (-12534.595) [-12536.091] (-12538.705) (-12536.608) -- 0:02:07 59500 -- (-12536.318) (-12538.238) (-12547.101) [-12543.034] * (-12538.125) (-12533.093) (-12537.343) [-12535.454] -- 0:02:06 60000 -- (-12536.407) (-12538.283) (-12544.984) [-12542.026] * (-12536.536) (-12534.231) (-12538.577) [-12536.248] -- 0:02:05 Average standard deviation of split frequencies: 0.027628 60500 -- [-12536.992] (-12538.283) (-12545.020) (-12537.753) * (-12536.114) (-12534.619) (-12537.964) [-12534.353] -- 0:02:04 61000 -- (-12536.088) (-12538.283) (-12542.795) [-12539.546] * (-12536.908) (-12533.350) (-12537.939) [-12535.795] -- 0:02:03 61500 -- [-12534.349] (-12538.282) (-12544.863) (-12543.701) * (-12537.525) (-12536.134) [-12536.891] (-12536.766) -- 0:02:02 62000 -- [-12536.151] (-12540.573) (-12543.140) (-12538.199) * (-12541.793) [-12533.579] (-12537.936) (-12539.639) -- 0:02:01 62500 -- [-12535.793] (-12540.573) (-12538.951) (-12544.940) * [-12541.572] (-12536.166) (-12536.105) (-12538.190) -- 0:02:00 63000 -- [-12534.093] (-12541.132) (-12538.232) (-12552.744) * [-12536.905] (-12534.473) (-12536.747) (-12538.076) -- 0:01:58 63500 -- [-12534.577] (-12540.559) (-12539.958) (-12547.414) * [-12535.829] (-12535.720) (-12541.412) (-12538.190) -- 0:01:57 64000 -- (-12533.085) (-12542.044) (-12538.492) [-12548.040] * (-12537.224) (-12537.439) [-12538.735] (-12538.165) -- 0:01:57 64500 -- [-12535.744] (-12539.677) (-12540.778) (-12545.727) * (-12539.155) [-12538.440] (-12542.481) (-12538.165) -- 0:01:56 65000 -- [-12535.737] (-12539.672) (-12537.601) (-12543.436) * [-12534.511] (-12538.965) (-12541.369) (-12538.189) -- 0:01:55 Average standard deviation of split frequencies: 0.022499 65500 -- (-12536.214) [-12539.683] (-12537.418) (-12548.973) * (-12534.463) [-12538.290] (-12541.151) (-12538.118) -- 0:01:54 66000 -- [-12534.851] (-12537.254) (-12536.839) (-12544.394) * (-12535.665) [-12537.747] (-12539.802) (-12537.353) -- 0:01:53 66500 -- (-12535.274) (-12538.813) (-12539.619) [-12542.026] * (-12535.856) [-12535.496] (-12541.812) (-12537.353) -- 0:02:06 67000 -- (-12535.195) (-12537.750) (-12539.246) [-12542.765] * (-12536.781) (-12536.266) [-12539.638] (-12537.353) -- 0:02:05 67500 -- [-12534.734] (-12537.750) (-12539.246) (-12546.011) * (-12535.332) [-12535.578] (-12540.926) (-12539.751) -- 0:02:04 68000 -- (-12538.012) (-12537.750) (-12539.858) [-12543.096] * (-12538.045) [-12534.424] (-12538.713) (-12539.751) -- 0:02:03 68500 -- (-12535.807) [-12537.774] (-12538.604) (-12548.219) * [-12535.332] (-12537.035) (-12535.959) (-12538.306) -- 0:02:02 69000 -- (-12537.233) (-12537.790) [-12541.193] (-12541.040) * [-12533.616] (-12542.016) (-12538.471) (-12538.301) -- 0:02:01 69500 -- (-12536.342) [-12537.688] (-12541.445) (-12541.097) * (-12534.145) (-12538.574) (-12539.875) [-12537.536] -- 0:02:00 70000 -- (-12536.028) (-12537.688) [-12538.444] (-12542.563) * [-12533.675] (-12537.869) (-12538.284) (-12538.112) -- 0:01:59 Average standard deviation of split frequencies: 0.025095 70500 -- (-12536.847) [-12537.688] (-12540.071) (-12540.044) * [-12535.424] (-12539.364) (-12536.931) (-12538.204) -- 0:01:58 71000 -- [-12537.021] (-12534.642) (-12538.131) (-12541.271) * (-12536.220) (-12537.897) [-12536.355] (-12538.204) -- 0:01:57 71500 -- (-12536.997) [-12535.885] (-12536.133) (-12537.845) * [-12533.367] (-12539.995) (-12538.965) (-12536.482) -- 0:01:56 72000 -- [-12536.869] (-12534.523) (-12537.652) (-12538.277) * [-12534.485] (-12540.371) (-12537.905) (-12535.714) -- 0:01:56 72500 -- (-12537.380) (-12537.609) (-12537.685) [-12537.822] * (-12537.423) (-12539.420) [-12536.098] (-12540.893) -- 0:01:55 73000 -- (-12536.237) (-12534.738) [-12538.596] (-12536.351) * (-12535.597) (-12538.166) (-12539.344) [-12542.058] -- 0:01:54 73500 -- (-12536.546) [-12536.057] (-12537.956) (-12537.336) * [-12535.911] (-12539.568) (-12537.970) (-12539.468) -- 0:01:53 74000 -- [-12537.365] (-12537.608) (-12538.102) (-12537.181) * [-12536.404] (-12539.384) (-12537.163) (-12540.118) -- 0:01:52 74500 -- (-12539.183) (-12537.938) (-12535.232) [-12537.006] * (-12534.092) [-12537.634] (-12534.236) (-12541.866) -- 0:02:04 75000 -- (-12539.873) [-12538.862] (-12536.267) (-12535.628) * (-12535.438) (-12537.291) [-12537.253] (-12538.899) -- 0:02:03 Average standard deviation of split frequencies: 0.025137 75500 -- (-12542.904) (-12539.656) (-12536.372) [-12535.837] * [-12534.220] (-12542.603) (-12538.297) (-12542.367) -- 0:02:02 76000 -- (-12542.775) [-12540.147] (-12537.932) (-12534.775) * [-12534.333] (-12535.923) (-12535.753) (-12538.909) -- 0:02:01 76500 -- (-12542.953) [-12538.007] (-12536.309) (-12536.941) * (-12533.857) (-12535.908) [-12535.994] (-12538.920) -- 0:02:00 77000 -- [-12541.900] (-12538.221) (-12534.639) (-12533.492) * [-12534.934] (-12536.278) (-12536.670) (-12538.919) -- 0:01:59 77500 -- (-12538.673) (-12538.623) [-12533.851] (-12532.426) * (-12534.337) (-12539.665) [-12539.831] (-12538.133) -- 0:01:59 78000 -- (-12538.673) (-12538.247) [-12534.876] (-12534.152) * (-12534.436) (-12539.058) [-12534.221] (-12538.033) -- 0:01:58 78500 -- (-12538.290) (-12538.247) (-12532.965) [-12532.914] * (-12533.705) (-12539.625) [-12534.628] (-12540.767) -- 0:01:57 79000 -- (-12538.125) (-12540.954) (-12533.205) [-12534.257] * (-12535.552) (-12539.712) [-12536.153] (-12540.765) -- 0:01:56 79500 -- (-12536.124) [-12540.418] (-12533.969) (-12536.760) * (-12534.504) (-12540.469) [-12534.881] (-12541.201) -- 0:01:55 80000 -- (-12541.240) (-12538.219) [-12535.845] (-12538.858) * (-12534.431) [-12536.170] (-12536.441) (-12541.219) -- 0:01:55 Average standard deviation of split frequencies: 0.020454 80500 -- (-12539.832) (-12537.448) [-12534.247] (-12535.893) * (-12537.467) (-12537.839) [-12537.583] (-12541.122) -- 0:01:54 81000 -- (-12540.111) (-12536.328) [-12536.658] (-12538.864) * (-12535.795) [-12536.269] (-12537.643) (-12540.685) -- 0:01:53 81500 -- (-12537.125) (-12539.454) [-12539.875] (-12538.068) * (-12535.115) (-12537.551) (-12537.640) [-12540.524] -- 0:01:52 82000 -- (-12536.894) (-12540.436) (-12540.706) [-12538.037] * (-12536.279) [-12538.881] (-12536.519) (-12540.679) -- 0:02:03 82500 -- (-12537.182) (-12538.311) (-12541.460) [-12535.522] * (-12536.164) (-12537.033) (-12535.246) [-12544.943] -- 0:02:02 83000 -- [-12536.290] (-12534.448) (-12540.071) (-12537.425) * (-12536.862) (-12537.786) [-12538.094] (-12544.741) -- 0:02:01 83500 -- [-12540.116] (-12537.580) (-12536.005) (-12535.952) * (-12537.162) [-12537.890] (-12539.149) (-12545.500) -- 0:02:00 84000 -- (-12538.825) (-12537.910) (-12539.508) [-12535.397] * (-12536.004) [-12536.824] (-12538.944) (-12540.010) -- 0:01:59 84500 -- (-12540.292) (-12539.011) (-12539.664) [-12535.686] * (-12537.156) [-12533.711] (-12539.363) (-12538.625) -- 0:01:59 85000 -- (-12541.183) (-12537.757) (-12539.852) [-12539.140] * (-12537.436) [-12536.553] (-12539.498) (-12539.066) -- 0:01:58 Average standard deviation of split frequencies: 0.016992 85500 -- (-12541.428) (-12535.727) (-12538.937) [-12536.193] * [-12536.464] (-12536.120) (-12539.541) (-12540.265) -- 0:01:57 86000 -- (-12537.697) (-12535.451) [-12536.690] (-12539.440) * (-12536.310) [-12538.269] (-12543.634) (-12535.907) -- 0:01:56 86500 -- (-12536.538) (-12539.763) (-12539.108) [-12537.494] * (-12537.404) (-12541.841) (-12539.953) [-12537.352] -- 0:01:56 87000 -- [-12535.904] (-12537.897) (-12538.250) (-12536.417) * (-12534.501) (-12539.321) [-12538.260] (-12538.618) -- 0:01:55 87500 -- (-12535.987) (-12537.009) (-12537.951) [-12537.403] * (-12536.097) [-12539.063] (-12537.854) (-12538.867) -- 0:01:54 88000 -- (-12536.836) [-12538.127] (-12540.532) (-12535.582) * [-12538.405] (-12540.023) (-12538.255) (-12539.260) -- 0:01:54 88500 -- (-12534.470) (-12540.246) (-12539.020) [-12536.831] * (-12536.181) (-12537.434) [-12535.745] (-12538.153) -- 0:01:53 89000 -- [-12535.363] (-12538.896) (-12540.299) (-12536.587) * [-12537.654] (-12540.591) (-12538.263) (-12541.072) -- 0:01:52 89500 -- (-12534.093) [-12538.198] (-12536.305) (-12540.647) * [-12539.800] (-12535.586) (-12538.263) (-12539.723) -- 0:01:51 90000 -- (-12537.861) (-12538.450) [-12535.810] (-12540.265) * (-12540.053) (-12537.541) [-12538.513] (-12536.529) -- 0:02:01 Average standard deviation of split frequencies: 0.016638 90500 -- [-12533.884] (-12534.920) (-12538.614) (-12538.822) * (-12540.257) (-12535.353) [-12534.901] (-12534.607) -- 0:02:00 91000 -- (-12533.648) (-12537.393) (-12537.726) [-12541.191] * (-12538.788) (-12538.264) [-12536.327] (-12536.597) -- 0:01:59 91500 -- (-12534.532) [-12536.671] (-12536.719) (-12541.448) * (-12545.946) [-12538.329] (-12535.780) (-12535.268) -- 0:01:59 92000 -- (-12534.058) [-12537.853] (-12536.842) (-12538.498) * (-12546.462) [-12539.354] (-12537.470) (-12535.280) -- 0:01:58 92500 -- [-12533.438] (-12538.822) (-12537.341) (-12538.443) * (-12539.834) (-12536.279) [-12538.890] (-12536.246) -- 0:01:57 93000 -- (-12534.098) (-12540.427) (-12538.349) [-12535.185] * (-12536.977) (-12537.183) (-12539.489) [-12536.773] -- 0:01:57 93500 -- (-12533.538) [-12536.809] (-12537.017) (-12536.558) * [-12535.370] (-12541.160) (-12538.655) (-12539.187) -- 0:01:56 94000 -- [-12534.014] (-12538.181) (-12537.159) (-12538.818) * (-12535.287) (-12540.904) (-12542.538) [-12538.142] -- 0:01:55 94500 -- (-12535.856) (-12534.031) [-12535.603] (-12538.194) * [-12535.097] (-12542.810) (-12541.204) (-12538.834) -- 0:01:54 95000 -- (-12534.727) [-12536.495] (-12538.231) (-12538.062) * (-12538.001) [-12541.906] (-12538.464) (-12535.790) -- 0:01:54 Average standard deviation of split frequencies: 0.017187 95500 -- (-12537.180) (-12537.155) (-12534.863) [-12538.183] * [-12536.692] (-12539.314) (-12538.545) (-12538.214) -- 0:01:53 96000 -- (-12535.179) (-12536.268) [-12536.300] (-12534.134) * (-12538.328) (-12538.700) [-12538.537] (-12536.929) -- 0:01:53 96500 -- (-12536.497) (-12536.171) [-12535.191] (-12539.143) * [-12540.833] (-12539.473) (-12539.026) (-12536.261) -- 0:01:52 97000 -- (-12538.111) (-12537.171) [-12534.318] (-12540.765) * (-12538.719) [-12536.683] (-12536.889) (-12534.620) -- 0:01:51 97500 -- (-12534.510) [-12537.442] (-12536.656) (-12538.304) * (-12536.768) (-12536.810) (-12538.322) [-12537.253] -- 0:01:51 98000 -- [-12534.059] (-12539.746) (-12535.061) (-12540.584) * [-12538.528] (-12539.663) (-12536.738) (-12535.524) -- 0:01:59 98500 -- [-12535.158] (-12536.494) (-12534.807) (-12537.268) * [-12536.437] (-12538.214) (-12533.673) (-12535.384) -- 0:01:58 99000 -- [-12534.498] (-12535.660) (-12534.029) (-12537.715) * (-12536.322) (-12537.357) (-12534.461) [-12537.596] -- 0:01:58 99500 -- [-12537.906] (-12534.995) (-12535.425) (-12537.260) * [-12534.236] (-12537.846) (-12534.914) (-12535.618) -- 0:01:57 100000 -- (-12534.655) [-12536.901] (-12539.180) (-12539.803) * (-12535.313) (-12534.144) (-12536.248) [-12535.405] -- 0:01:56 Average standard deviation of split frequencies: 0.020109 100500 -- (-12538.430) [-12535.833] (-12537.067) (-12539.033) * (-12535.555) [-12535.799] (-12538.842) (-12537.467) -- 0:01:56 101000 -- (-12540.106) (-12536.905) (-12534.154) [-12537.195] * (-12539.722) [-12533.667] (-12542.554) (-12537.156) -- 0:01:55 101500 -- [-12537.502] (-12538.428) (-12535.168) (-12540.264) * (-12537.337) [-12534.837] (-12537.897) (-12536.390) -- 0:01:55 102000 -- (-12537.659) (-12537.977) [-12534.972] (-12540.655) * (-12538.706) (-12535.839) (-12536.268) [-12536.336] -- 0:01:54 102500 -- (-12535.760) (-12536.473) (-12535.352) [-12538.053] * (-12536.653) [-12535.810] (-12538.145) (-12539.117) -- 0:01:53 103000 -- (-12536.616) (-12537.489) [-12538.239] (-12543.373) * (-12536.723) (-12537.673) [-12534.128] (-12535.603) -- 0:01:53 103500 -- (-12533.561) [-12539.580] (-12539.325) (-12542.463) * (-12534.867) (-12536.398) [-12533.980] (-12536.937) -- 0:01:52 104000 -- (-12534.126) (-12538.181) [-12535.014] (-12544.915) * (-12535.861) [-12536.473] (-12534.042) (-12537.310) -- 0:01:52 104500 -- (-12534.713) [-12542.288] (-12533.520) (-12539.918) * (-12536.338) (-12535.986) (-12534.289) [-12536.803] -- 0:01:51 105000 -- [-12538.133] (-12540.516) (-12533.662) (-12538.665) * (-12536.112) [-12536.060] (-12534.977) (-12536.715) -- 0:01:50 Average standard deviation of split frequencies: 0.022236 105500 -- (-12537.528) (-12545.420) [-12532.777] (-12538.658) * (-12535.367) (-12537.408) (-12537.252) [-12541.150] -- 0:01:58 106000 -- (-12536.984) (-12543.423) [-12535.604] (-12538.953) * (-12535.171) (-12536.113) (-12537.582) [-12540.335] -- 0:01:58 106500 -- (-12536.362) (-12544.788) (-12535.198) [-12538.432] * (-12535.893) [-12535.625] (-12534.454) (-12537.233) -- 0:01:57 107000 -- (-12536.340) (-12537.897) [-12537.135] (-12538.408) * (-12539.992) (-12538.308) (-12537.575) [-12540.147] -- 0:01:56 107500 -- (-12538.822) (-12537.288) [-12535.386] (-12536.088) * (-12538.903) (-12534.585) (-12536.650) [-12537.576] -- 0:01:56 108000 -- (-12536.055) (-12542.284) [-12535.379] (-12536.482) * (-12535.957) (-12536.622) [-12535.983] (-12538.869) -- 0:01:55 108500 -- (-12537.387) (-12536.362) (-12536.925) [-12538.468] * [-12534.564] (-12536.865) (-12537.532) (-12540.123) -- 0:01:55 109000 -- [-12536.367] (-12535.181) (-12534.787) (-12538.122) * [-12536.249] (-12539.571) (-12536.931) (-12542.589) -- 0:01:54 109500 -- (-12534.806) (-12535.411) (-12536.016) [-12537.970] * [-12534.537] (-12538.906) (-12535.738) (-12541.144) -- 0:01:53 110000 -- [-12537.322] (-12537.433) (-12534.290) (-12539.342) * (-12539.337) (-12541.560) [-12536.327] (-12542.422) -- 0:01:53 Average standard deviation of split frequencies: 0.019405 110500 -- [-12538.477] (-12536.786) (-12535.264) (-12537.685) * [-12536.970] (-12538.601) (-12535.036) (-12540.750) -- 0:01:52 111000 -- (-12537.910) [-12535.521] (-12535.876) (-12537.510) * (-12537.737) (-12540.862) [-12536.900] (-12539.613) -- 0:01:52 111500 -- (-12534.922) (-12536.591) (-12534.626) [-12535.316] * [-12538.186] (-12539.076) (-12538.251) (-12538.255) -- 0:01:51 112000 -- (-12536.217) [-12535.058] (-12532.983) (-12535.899) * (-12535.554) (-12538.866) (-12538.379) [-12538.464] -- 0:01:51 112500 -- [-12534.264] (-12540.561) (-12537.425) (-12538.819) * (-12538.640) (-12543.270) [-12538.380] (-12535.964) -- 0:01:50 113000 -- (-12538.152) (-12533.930) [-12537.537] (-12539.241) * (-12537.716) [-12539.734] (-12538.665) (-12536.587) -- 0:01:49 113500 -- (-12536.987) [-12534.645] (-12537.290) (-12537.238) * [-12537.716] (-12537.631) (-12538.665) (-12537.426) -- 0:01:57 114000 -- (-12534.986) (-12536.253) [-12537.177] (-12539.675) * [-12538.189] (-12539.404) (-12537.409) (-12538.615) -- 0:01:56 114500 -- (-12537.268) (-12535.590) [-12535.280] (-12534.284) * (-12536.114) (-12540.563) (-12537.409) [-12534.242] -- 0:01:56 115000 -- (-12536.403) (-12534.679) [-12533.979] (-12535.777) * (-12534.880) [-12540.590] (-12537.764) (-12534.369) -- 0:01:55 Average standard deviation of split frequencies: 0.017836 115500 -- (-12539.231) (-12538.105) [-12532.751] (-12534.835) * (-12536.226) (-12540.374) (-12539.749) [-12536.497] -- 0:01:54 116000 -- [-12538.334] (-12535.777) (-12537.226) (-12535.304) * (-12534.909) (-12538.575) [-12536.432] (-12536.430) -- 0:01:54 116500 -- [-12535.303] (-12537.265) (-12532.913) (-12538.356) * [-12536.682] (-12538.517) (-12537.151) (-12538.929) -- 0:01:53 117000 -- (-12540.176) (-12538.323) (-12534.238) [-12538.224] * (-12534.713) [-12537.240] (-12536.551) (-12537.714) -- 0:01:53 117500 -- (-12536.932) [-12537.624] (-12535.852) (-12537.745) * (-12534.043) (-12539.648) (-12536.428) [-12538.076] -- 0:01:52 118000 -- (-12540.517) (-12540.514) [-12535.145] (-12537.847) * (-12533.861) [-12538.181] (-12538.799) (-12536.521) -- 0:01:52 118500 -- (-12538.928) (-12540.514) (-12536.352) [-12536.386] * (-12535.398) [-12536.317] (-12536.773) (-12537.188) -- 0:01:51 119000 -- (-12539.978) [-12538.655] (-12533.430) (-12538.317) * (-12533.681) [-12538.196] (-12536.069) (-12535.924) -- 0:01:51 119500 -- (-12535.969) (-12538.656) (-12535.634) [-12536.622] * (-12533.724) (-12542.165) (-12534.939) [-12534.115] -- 0:01:50 120000 -- (-12536.694) [-12538.047] (-12537.710) (-12538.143) * (-12534.917) (-12540.121) (-12539.408) [-12534.240] -- 0:01:50 Average standard deviation of split frequencies: 0.017695 120500 -- (-12535.243) (-12538.854) [-12534.543] (-12540.163) * (-12534.552) (-12538.266) (-12546.409) [-12532.719] -- 0:01:49 121000 -- (-12537.077) (-12536.048) (-12537.458) [-12540.033] * [-12534.845] (-12538.223) (-12540.653) (-12535.851) -- 0:01:56 121500 -- (-12539.978) [-12534.634] (-12534.634) (-12543.362) * (-12534.675) [-12537.250] (-12540.774) (-12536.715) -- 0:01:55 122000 -- (-12538.050) [-12533.991] (-12534.324) (-12539.725) * (-12534.789) [-12535.948] (-12538.984) (-12534.466) -- 0:01:55 122500 -- (-12535.431) (-12535.651) [-12539.512] (-12539.663) * (-12533.974) [-12536.268] (-12538.984) (-12536.810) -- 0:01:54 123000 -- [-12536.449] (-12538.776) (-12535.719) (-12540.008) * (-12533.460) (-12536.139) [-12536.406] (-12536.562) -- 0:01:54 123500 -- (-12534.778) (-12534.900) [-12537.397] (-12536.262) * (-12533.511) [-12535.457] (-12535.430) (-12537.837) -- 0:01:53 124000 -- (-12535.456) (-12534.349) (-12538.988) [-12537.901] * (-12533.735) (-12535.020) (-12535.684) [-12540.078] -- 0:01:53 124500 -- (-12539.177) (-12533.282) [-12536.459] (-12538.900) * (-12535.154) (-12536.596) [-12535.216] (-12541.344) -- 0:01:52 125000 -- (-12536.981) (-12535.885) [-12539.153] (-12539.920) * (-12537.430) [-12535.273] (-12534.437) (-12538.005) -- 0:01:52 Average standard deviation of split frequencies: 0.019538 125500 -- (-12545.062) (-12535.513) [-12535.447] (-12538.639) * (-12534.822) [-12537.325] (-12533.773) (-12541.710) -- 0:01:51 126000 -- (-12543.114) (-12544.311) [-12536.984] (-12541.085) * [-12533.856] (-12537.588) (-12537.902) (-12540.997) -- 0:01:50 126500 -- (-12538.772) (-12537.687) [-12537.036] (-12540.371) * (-12533.776) (-12537.600) [-12534.446] (-12537.932) -- 0:01:50 127000 -- (-12536.691) (-12538.511) (-12542.001) [-12538.097] * (-12536.845) (-12533.734) [-12534.862] (-12538.296) -- 0:01:49 127500 -- (-12540.315) (-12538.346) (-12542.536) [-12536.268] * [-12536.281] (-12534.886) (-12538.086) (-12539.197) -- 0:01:49 128000 -- [-12537.002] (-12537.609) (-12539.411) (-12535.288) * [-12534.658] (-12537.527) (-12537.411) (-12537.426) -- 0:01:49 128500 -- (-12538.362) (-12537.871) [-12543.579] (-12533.604) * (-12534.749) (-12537.613) [-12537.384] (-12536.439) -- 0:01:48 129000 -- (-12539.424) (-12537.410) (-12545.936) [-12536.179] * [-12533.349] (-12537.730) (-12539.626) (-12536.774) -- 0:01:54 129500 -- (-12538.744) [-12538.133] (-12545.040) (-12535.562) * [-12536.054] (-12535.806) (-12541.412) (-12539.083) -- 0:01:54 130000 -- (-12537.908) [-12535.761] (-12543.708) (-12536.856) * (-12535.376) (-12536.508) (-12539.792) [-12542.025] -- 0:01:53 Average standard deviation of split frequencies: 0.019642 130500 -- (-12545.517) (-12537.394) (-12538.420) [-12533.988] * (-12533.839) (-12534.292) [-12539.455] (-12543.080) -- 0:01:53 131000 -- (-12542.644) (-12539.770) [-12537.721] (-12534.393) * [-12535.334] (-12533.414) (-12539.897) (-12557.152) -- 0:01:52 131500 -- [-12541.062] (-12541.386) (-12537.671) (-12534.180) * [-12534.439] (-12533.667) (-12543.143) (-12552.721) -- 0:01:52 132000 -- (-12539.377) [-12537.505] (-12537.490) (-12534.224) * [-12535.682] (-12537.880) (-12543.922) (-12545.073) -- 0:01:51 132500 -- (-12540.380) [-12537.967] (-12537.659) (-12535.951) * (-12534.485) [-12534.600] (-12543.824) (-12538.326) -- 0:01:51 133000 -- (-12538.609) [-12537.921] (-12540.299) (-12533.918) * (-12534.162) [-12534.771] (-12538.811) (-12537.796) -- 0:01:50 133500 -- (-12540.483) (-12537.938) (-12538.522) [-12534.892] * (-12534.146) [-12536.017] (-12538.811) (-12540.289) -- 0:01:50 134000 -- (-12542.708) (-12538.216) [-12535.995] (-12536.725) * (-12533.483) (-12535.320) [-12538.315] (-12539.007) -- 0:01:49 134500 -- (-12538.924) (-12537.319) (-12538.457) [-12536.402] * (-12533.908) (-12532.996) (-12539.607) [-12541.185] -- 0:01:49 135000 -- (-12538.750) (-12538.742) (-12534.075) [-12535.486] * (-12535.582) (-12534.386) (-12539.606) [-12535.400] -- 0:01:48 Average standard deviation of split frequencies: 0.017138 135500 -- (-12538.359) [-12538.303] (-12535.565) (-12536.085) * (-12537.683) (-12537.571) (-12539.413) [-12535.178] -- 0:01:48 136000 -- (-12538.887) [-12535.477] (-12535.071) (-12536.344) * (-12537.461) (-12535.495) [-12539.314] (-12535.798) -- 0:01:48 136500 -- [-12535.321] (-12536.066) (-12537.811) (-12538.908) * [-12537.563] (-12536.246) (-12539.366) (-12537.407) -- 0:01:53 137000 -- (-12536.489) (-12535.542) [-12533.805] (-12539.213) * (-12538.075) (-12537.093) [-12535.967] (-12535.224) -- 0:01:53 137500 -- [-12536.073] (-12536.154) (-12533.929) (-12538.633) * [-12538.192] (-12535.521) (-12536.989) (-12538.311) -- 0:01:52 138000 -- (-12538.269) [-12537.210] (-12536.256) (-12540.196) * (-12538.192) [-12536.470] (-12537.054) (-12536.474) -- 0:01:52 138500 -- (-12534.049) (-12535.276) (-12535.814) [-12537.563] * (-12538.192) (-12537.441) [-12535.531] (-12538.286) -- 0:01:51 139000 -- (-12537.695) (-12536.710) [-12536.785] (-12534.003) * (-12540.197) (-12537.287) [-12534.965] (-12538.286) -- 0:01:51 139500 -- (-12538.652) (-12535.829) [-12534.209] (-12534.479) * (-12540.197) [-12540.095] (-12532.804) (-12537.964) -- 0:01:51 140000 -- [-12536.727] (-12540.581) (-12535.393) (-12536.415) * (-12539.802) (-12538.332) [-12533.687] (-12539.769) -- 0:01:50 Average standard deviation of split frequencies: 0.017742 140500 -- (-12540.871) (-12541.939) [-12536.060] (-12538.600) * (-12538.220) [-12538.296] (-12536.241) (-12538.631) -- 0:01:50 141000 -- (-12538.155) (-12542.013) [-12535.580] (-12537.839) * (-12538.599) (-12537.506) (-12535.258) [-12537.711] -- 0:01:49 141500 -- [-12537.564] (-12540.713) (-12534.349) (-12535.846) * (-12538.024) (-12538.924) [-12534.860] (-12537.951) -- 0:01:49 142000 -- (-12541.745) (-12539.266) (-12535.790) [-12536.470] * (-12537.391) (-12542.147) [-12533.886] (-12537.739) -- 0:01:48 142500 -- (-12542.091) (-12537.237) [-12537.423] (-12535.678) * (-12536.539) (-12541.031) [-12538.323] (-12537.247) -- 0:01:48 143000 -- (-12540.340) (-12542.503) [-12536.539] (-12538.726) * (-12535.189) [-12538.758] (-12537.894) (-12538.104) -- 0:01:47 143500 -- (-12535.136) (-12537.181) (-12534.314) [-12539.018] * [-12536.292] (-12539.183) (-12539.660) (-12534.296) -- 0:01:47 144000 -- [-12537.850] (-12538.277) (-12538.727) (-12539.775) * (-12539.217) (-12542.669) (-12539.420) [-12536.714] -- 0:01:47 144500 -- (-12535.155) [-12538.277] (-12535.077) (-12538.343) * (-12535.790) (-12539.041) [-12535.975] (-12537.676) -- 0:01:52 145000 -- (-12534.425) [-12538.277] (-12535.288) (-12537.443) * (-12536.970) (-12540.917) [-12534.470] (-12537.905) -- 0:01:52 Average standard deviation of split frequencies: 0.019373 145500 -- (-12536.283) [-12537.204] (-12535.022) (-12538.297) * (-12539.678) (-12538.949) [-12534.668] (-12535.449) -- 0:01:51 146000 -- (-12534.268) [-12537.204] (-12536.267) (-12538.120) * (-12535.992) (-12538.559) (-12536.500) [-12535.580] -- 0:01:51 146500 -- (-12534.838) (-12539.988) [-12537.025] (-12538.253) * (-12537.474) (-12539.428) [-12533.926] (-12535.954) -- 0:01:50 147000 -- (-12535.192) [-12540.194] (-12535.631) (-12538.430) * [-12533.948] (-12536.775) (-12533.896) (-12537.250) -- 0:01:50 147500 -- [-12534.949] (-12540.187) (-12537.221) (-12538.430) * (-12534.268) [-12538.223] (-12532.391) (-12539.004) -- 0:01:49 148000 -- (-12537.625) [-12539.634] (-12539.835) (-12537.567) * (-12537.815) [-12536.427] (-12535.643) (-12537.391) -- 0:01:49 148500 -- (-12536.995) (-12539.155) (-12538.867) [-12537.998] * (-12538.735) (-12538.589) [-12535.143] (-12539.740) -- 0:01:48 149000 -- (-12535.973) [-12536.695] (-12537.299) (-12537.996) * (-12534.179) (-12535.457) [-12533.023] (-12539.740) -- 0:01:48 149500 -- [-12535.633] (-12538.463) (-12537.120) (-12541.446) * (-12534.667) [-12534.291] (-12536.757) (-12539.723) -- 0:01:48 150000 -- [-12535.054] (-12537.667) (-12536.721) (-12537.758) * (-12534.520) [-12536.270] (-12535.115) (-12539.740) -- 0:01:47 Average standard deviation of split frequencies: 0.019816 150500 -- (-12538.093) [-12537.805] (-12536.606) (-12537.700) * (-12533.791) [-12535.724] (-12533.172) (-12539.740) -- 0:01:47 151000 -- [-12536.135] (-12538.012) (-12536.345) (-12538.800) * (-12534.031) (-12534.497) (-12537.435) [-12538.683] -- 0:01:46 151500 -- (-12535.590) (-12539.186) (-12536.111) [-12535.018] * (-12537.842) [-12534.464] (-12534.992) (-12538.683) -- 0:01:46 152000 -- (-12534.601) (-12539.509) [-12537.054] (-12536.928) * [-12535.316] (-12535.706) (-12534.661) (-12538.991) -- 0:01:51 152500 -- (-12534.848) [-12539.014] (-12535.972) (-12536.062) * (-12537.550) (-12534.796) [-12536.111] (-12538.984) -- 0:01:51 153000 -- (-12535.339) (-12538.501) [-12537.486] (-12538.615) * (-12533.226) [-12534.730] (-12537.770) (-12538.241) -- 0:01:50 153500 -- (-12534.660) (-12537.638) [-12536.033] (-12542.392) * (-12534.692) [-12535.757] (-12538.634) (-12538.254) -- 0:01:50 154000 -- (-12534.395) (-12537.177) [-12534.867] (-12538.778) * [-12533.717] (-12535.272) (-12538.692) (-12539.435) -- 0:01:49 154500 -- (-12536.036) [-12535.438] (-12535.077) (-12537.292) * (-12534.487) (-12535.122) [-12537.408] (-12538.278) -- 0:01:49 155000 -- [-12533.275] (-12537.185) (-12538.130) (-12535.631) * (-12534.577) (-12533.805) [-12535.129] (-12538.278) -- 0:01:49 Average standard deviation of split frequencies: 0.019474 155500 -- (-12534.840) (-12538.596) [-12534.503] (-12534.591) * (-12535.491) [-12534.657] (-12534.345) (-12537.170) -- 0:01:48 156000 -- (-12541.677) (-12535.950) [-12535.851] (-12532.767) * (-12538.386) (-12535.445) (-12534.193) [-12537.170] -- 0:01:48 156500 -- (-12543.215) (-12535.749) (-12536.543) [-12539.657] * (-12537.861) [-12537.331] (-12534.543) (-12537.156) -- 0:01:47 157000 -- [-12541.361] (-12534.884) (-12534.752) (-12535.724) * (-12534.467) [-12534.592] (-12536.371) (-12537.170) -- 0:01:47 157500 -- (-12541.185) [-12534.930] (-12536.336) (-12533.984) * [-12533.271] (-12536.204) (-12538.118) (-12537.170) -- 0:01:46 158000 -- (-12540.631) [-12534.085] (-12538.177) (-12532.812) * (-12538.392) (-12538.109) [-12538.835] (-12537.167) -- 0:01:46 158500 -- (-12539.922) [-12533.208] (-12538.759) (-12533.952) * (-12535.193) (-12537.559) (-12547.356) [-12534.888] -- 0:01:46 159000 -- (-12538.940) (-12537.949) [-12538.674] (-12533.326) * (-12536.514) [-12536.877] (-12538.121) (-12537.296) -- 0:01:45 159500 -- (-12539.261) (-12538.254) (-12538.733) [-12534.481] * (-12538.032) (-12535.637) (-12538.121) [-12537.424] -- 0:01:45 160000 -- [-12536.918] (-12537.895) (-12542.901) (-12532.221) * (-12538.430) [-12538.470] (-12538.121) (-12537.667) -- 0:01:50 Average standard deviation of split frequencies: 0.020884 160500 -- (-12535.227) [-12536.197] (-12538.388) (-12533.144) * (-12538.429) (-12537.659) [-12535.767] (-12537.885) -- 0:01:49 161000 -- (-12535.381) (-12535.886) (-12545.109) [-12534.044] * (-12539.416) (-12537.947) (-12535.662) [-12536.408] -- 0:01:49 161500 -- (-12534.245) [-12539.884] (-12541.658) (-12535.028) * (-12537.272) (-12537.947) [-12535.655] (-12537.440) -- 0:01:49 162000 -- [-12535.783] (-12539.863) (-12541.545) (-12534.237) * (-12540.645) (-12539.310) [-12534.439] (-12537.573) -- 0:01:48 162500 -- [-12535.423] (-12539.561) (-12541.646) (-12534.345) * [-12536.122] (-12539.309) (-12535.282) (-12538.903) -- 0:01:48 163000 -- (-12535.055) (-12536.033) (-12545.453) [-12536.125] * (-12538.657) (-12538.131) [-12533.708] (-12537.326) -- 0:01:47 163500 -- [-12535.628] (-12536.771) (-12539.642) (-12534.729) * [-12538.194] (-12540.445) (-12533.645) (-12535.514) -- 0:01:47 164000 -- (-12535.701) [-12536.514] (-12537.755) (-12535.826) * (-12534.218) [-12540.652] (-12534.674) (-12534.784) -- 0:01:47 164500 -- [-12536.122] (-12536.945) (-12539.288) (-12536.845) * [-12534.803] (-12541.904) (-12537.295) (-12536.231) -- 0:01:46 165000 -- (-12535.089) [-12536.891] (-12538.614) (-12534.589) * (-12536.593) (-12542.039) [-12535.683] (-12535.661) -- 0:01:46 Average standard deviation of split frequencies: 0.021549 165500 -- [-12532.524] (-12536.266) (-12537.838) (-12535.908) * [-12534.604] (-12540.446) (-12535.078) (-12535.751) -- 0:01:45 166000 -- [-12537.706] (-12535.697) (-12539.481) (-12539.352) * (-12532.976) (-12540.562) (-12534.849) [-12534.857] -- 0:01:45 166500 -- [-12538.194] (-12539.406) (-12540.410) (-12539.586) * (-12533.835) [-12540.647] (-12535.794) (-12536.673) -- 0:01:45 167000 -- (-12537.532) (-12537.325) (-12540.899) [-12537.758] * [-12532.076] (-12540.729) (-12541.220) (-12536.364) -- 0:01:44 167500 -- [-12538.896] (-12538.898) (-12537.784) (-12535.501) * (-12532.055) (-12540.206) [-12538.676] (-12536.320) -- 0:01:44 168000 -- [-12539.133] (-12537.804) (-12537.785) (-12536.868) * (-12533.826) [-12540.062] (-12539.480) (-12535.964) -- 0:01:48 168500 -- (-12537.730) (-12536.659) (-12537.786) [-12535.356] * (-12535.966) (-12540.861) [-12538.128] (-12536.934) -- 0:01:48 169000 -- [-12535.210] (-12536.388) (-12537.365) (-12544.200) * (-12533.546) (-12540.874) (-12536.166) [-12536.533] -- 0:01:48 169500 -- (-12536.677) [-12535.760] (-12537.344) (-12544.457) * [-12533.496] (-12538.404) (-12535.881) (-12536.366) -- 0:01:47 170000 -- [-12536.477] (-12535.245) (-12537.355) (-12538.774) * [-12532.900] (-12537.531) (-12536.137) (-12536.176) -- 0:01:47 Average standard deviation of split frequencies: 0.017873 170500 -- (-12536.069) [-12535.197] (-12539.455) (-12535.825) * [-12532.760] (-12538.067) (-12537.191) (-12534.626) -- 0:01:47 171000 -- (-12540.350) (-12532.562) [-12540.037] (-12535.329) * (-12532.608) [-12537.880] (-12538.337) (-12535.520) -- 0:01:46 171500 -- [-12540.004] (-12537.385) (-12540.875) (-12536.569) * (-12533.514) (-12537.875) [-12539.856] (-12538.366) -- 0:01:46 172000 -- (-12540.066) (-12534.427) (-12538.111) [-12535.770] * (-12532.142) (-12538.001) (-12535.808) [-12537.569] -- 0:01:45 172500 -- (-12539.932) [-12540.820] (-12538.866) (-12536.921) * (-12534.531) [-12537.999] (-12539.187) (-12534.973) -- 0:01:45 173000 -- (-12537.883) (-12540.664) (-12537.138) [-12535.474] * (-12534.127) (-12537.403) (-12540.679) [-12534.588] -- 0:01:45 173500 -- [-12534.233] (-12543.072) (-12535.033) (-12535.870) * [-12533.443] (-12535.182) (-12538.075) (-12538.454) -- 0:01:44 174000 -- (-12536.676) (-12542.172) (-12540.878) [-12538.818] * [-12534.444] (-12535.273) (-12537.975) (-12539.158) -- 0:01:44 174500 -- [-12540.703] (-12544.273) (-12539.702) (-12535.469) * [-12532.771] (-12533.558) (-12540.872) (-12538.211) -- 0:01:44 175000 -- [-12534.932] (-12544.753) (-12542.537) (-12540.125) * [-12537.904] (-12534.696) (-12539.328) (-12534.714) -- 0:01:43 Average standard deviation of split frequencies: 0.017646 175500 -- [-12534.495] (-12537.874) (-12538.203) (-12540.281) * (-12536.938) [-12533.432] (-12539.334) (-12534.402) -- 0:01:48 176000 -- [-12535.670] (-12537.773) (-12539.180) (-12536.431) * [-12536.292] (-12534.682) (-12539.046) (-12537.660) -- 0:01:47 176500 -- [-12535.005] (-12540.202) (-12539.689) (-12536.637) * (-12536.778) [-12537.489] (-12537.588) (-12535.047) -- 0:01:47 177000 -- (-12534.386) (-12538.625) [-12535.182] (-12537.016) * [-12537.253] (-12536.691) (-12537.978) (-12535.728) -- 0:01:46 177500 -- (-12534.654) (-12538.530) (-12534.724) [-12536.108] * (-12536.213) (-12535.052) (-12535.360) [-12535.088] -- 0:01:46 178000 -- (-12536.467) (-12537.794) [-12536.196] (-12536.469) * (-12535.561) [-12534.607] (-12534.767) (-12535.239) -- 0:01:46 178500 -- [-12536.274] (-12538.878) (-12536.523) (-12536.352) * [-12534.166] (-12533.497) (-12536.925) (-12537.168) -- 0:01:45 179000 -- (-12536.655) (-12544.110) (-12537.642) [-12538.337] * (-12533.938) (-12534.142) (-12534.605) [-12533.749] -- 0:01:45 179500 -- [-12540.858] (-12545.259) (-12538.520) (-12536.750) * [-12534.610] (-12535.718) (-12536.297) (-12534.338) -- 0:01:45 180000 -- [-12536.276] (-12546.785) (-12537.976) (-12540.715) * (-12535.108) [-12533.497] (-12535.302) (-12535.633) -- 0:01:44 Average standard deviation of split frequencies: 0.019032 180500 -- (-12534.465) (-12541.522) [-12537.973] (-12542.777) * (-12534.997) (-12534.854) (-12534.330) [-12535.903] -- 0:01:44 181000 -- (-12536.607) (-12542.653) (-12537.770) [-12537.508] * (-12534.943) (-12537.076) [-12534.624] (-12536.886) -- 0:01:44 181500 -- [-12534.960] (-12543.730) (-12537.854) (-12538.287) * (-12533.125) [-12536.893] (-12534.379) (-12539.149) -- 0:01:43 182000 -- (-12533.385) (-12543.495) (-12537.813) [-12539.825] * [-12534.905] (-12534.918) (-12536.128) (-12534.662) -- 0:01:43 182500 -- (-12536.973) (-12539.168) [-12537.813] (-12536.291) * [-12538.837] (-12534.629) (-12535.219) (-12535.456) -- 0:01:43 183000 -- [-12532.603] (-12536.425) (-12536.267) (-12536.472) * (-12538.973) (-12536.282) (-12536.946) [-12533.970] -- 0:01:42 183500 -- (-12534.755) [-12535.016] (-12536.301) (-12538.056) * (-12535.252) (-12536.017) (-12533.711) [-12534.616] -- 0:01:46 184000 -- (-12532.951) [-12536.416] (-12537.744) (-12543.205) * (-12537.427) (-12535.074) (-12535.128) [-12534.109] -- 0:01:46 184500 -- (-12536.984) (-12537.186) [-12537.806] (-12541.071) * (-12538.978) (-12536.585) [-12533.562] (-12534.571) -- 0:01:46 185000 -- (-12535.568) (-12533.406) [-12537.879] (-12540.828) * (-12541.805) [-12536.061] (-12534.660) (-12537.937) -- 0:01:45 Average standard deviation of split frequencies: 0.019232 185500 -- [-12539.733] (-12533.584) (-12537.994) (-12545.604) * (-12538.744) [-12533.081] (-12535.479) (-12536.430) -- 0:01:45 186000 -- [-12539.733] (-12538.626) (-12537.755) (-12543.873) * (-12538.143) (-12534.008) (-12537.092) [-12534.084] -- 0:01:45 186500 -- (-12540.978) [-12535.428] (-12537.887) (-12541.731) * [-12538.386] (-12534.513) (-12535.711) (-12535.841) -- 0:01:44 187000 -- (-12541.326) (-12535.760) [-12535.028] (-12538.337) * (-12535.416) [-12535.358] (-12536.962) (-12534.776) -- 0:01:44 187500 -- (-12539.878) (-12537.664) (-12536.403) [-12537.901] * [-12537.879] (-12535.771) (-12537.976) (-12537.371) -- 0:01:44 188000 -- (-12536.097) [-12537.987] (-12536.620) (-12538.803) * (-12534.343) (-12534.785) (-12541.143) [-12535.543] -- 0:01:43 188500 -- (-12535.805) (-12536.718) [-12532.928] (-12536.555) * (-12534.864) (-12536.251) [-12537.245] (-12535.849) -- 0:01:43 189000 -- (-12537.068) (-12538.712) [-12533.939] (-12533.940) * (-12541.130) (-12536.589) [-12540.349] (-12534.484) -- 0:01:42 189500 -- [-12534.982] (-12538.961) (-12535.365) (-12534.563) * (-12538.462) [-12533.815] (-12540.444) (-12536.119) -- 0:01:42 190000 -- (-12535.421) [-12537.641] (-12533.529) (-12534.873) * (-12538.650) (-12537.759) [-12535.828] (-12535.493) -- 0:01:42 Average standard deviation of split frequencies: 0.019197 190500 -- [-12534.667] (-12537.368) (-12533.667) (-12537.972) * (-12538.474) (-12542.195) [-12538.189] (-12536.676) -- 0:01:41 191000 -- (-12537.089) [-12537.705] (-12533.840) (-12540.685) * [-12538.077] (-12535.868) (-12538.053) (-12534.256) -- 0:01:41 191500 -- (-12539.549) (-12537.705) [-12536.329] (-12536.714) * [-12536.933] (-12534.011) (-12535.633) (-12534.637) -- 0:01:45 192000 -- [-12535.727] (-12538.674) (-12535.656) (-12535.749) * [-12539.314] (-12534.165) (-12539.444) (-12537.118) -- 0:01:45 192500 -- (-12537.007) [-12540.190] (-12535.479) (-12535.467) * (-12536.928) (-12534.864) [-12536.057] (-12535.714) -- 0:01:44 193000 -- [-12540.282] (-12540.112) (-12536.278) (-12538.416) * (-12542.627) [-12535.243] (-12534.620) (-12534.846) -- 0:01:44 193500 -- [-12537.939] (-12539.334) (-12535.527) (-12540.184) * (-12537.989) [-12539.457] (-12538.235) (-12534.299) -- 0:01:44 194000 -- (-12535.298) (-12538.808) [-12536.329] (-12540.607) * (-12536.407) [-12536.261] (-12538.372) (-12535.177) -- 0:01:43 194500 -- (-12537.093) (-12538.797) [-12538.910] (-12539.775) * (-12537.175) [-12534.666] (-12538.392) (-12536.255) -- 0:01:43 195000 -- (-12535.777) (-12537.675) (-12537.584) [-12539.005] * [-12535.078] (-12535.393) (-12538.216) (-12537.614) -- 0:01:43 Average standard deviation of split frequencies: 0.020043 195500 -- (-12535.159) (-12542.363) [-12537.154] (-12538.326) * (-12534.925) [-12534.735] (-12538.146) (-12535.228) -- 0:01:42 196000 -- (-12536.479) (-12538.793) [-12538.276] (-12538.387) * (-12535.663) (-12534.365) (-12533.771) [-12535.490] -- 0:01:42 196500 -- (-12534.854) (-12542.475) (-12539.924) [-12537.985] * (-12535.985) (-12535.928) [-12534.810] (-12536.852) -- 0:01:42 197000 -- (-12536.062) (-12542.710) [-12538.701] (-12538.351) * (-12535.201) (-12534.629) [-12537.968] (-12539.186) -- 0:01:41 197500 -- [-12537.109] (-12540.198) (-12537.780) (-12541.431) * [-12535.071] (-12535.574) (-12537.941) (-12538.686) -- 0:01:41 198000 -- [-12535.175] (-12540.198) (-12538.969) (-12541.637) * (-12536.896) (-12540.065) [-12538.085] (-12533.708) -- 0:01:41 198500 -- [-12532.697] (-12539.791) (-12536.750) (-12538.953) * (-12536.796) (-12537.146) (-12536.327) [-12532.848] -- 0:01:40 199000 -- (-12535.959) (-12541.713) (-12538.190) [-12535.528] * [-12536.658] (-12535.647) (-12538.973) (-12533.560) -- 0:01:40 199500 -- (-12540.304) (-12540.212) (-12535.586) [-12535.021] * (-12536.819) (-12543.015) [-12538.469] (-12534.158) -- 0:01:44 200000 -- (-12532.812) (-12543.324) [-12537.414] (-12535.791) * [-12532.733] (-12537.548) (-12536.881) (-12533.396) -- 0:01:43 Average standard deviation of split frequencies: 0.019761 200500 -- (-12534.182) (-12538.126) [-12535.230] (-12537.082) * [-12534.141] (-12536.438) (-12538.768) (-12533.144) -- 0:01:43 201000 -- (-12534.245) (-12537.658) [-12535.786] (-12537.618) * [-12533.852] (-12535.630) (-12537.985) (-12534.167) -- 0:01:43 201500 -- (-12534.755) (-12538.742) [-12536.586] (-12536.193) * (-12533.112) (-12538.761) (-12540.149) [-12533.727] -- 0:01:43 202000 -- (-12534.457) (-12537.705) (-12534.628) [-12537.090] * (-12533.354) (-12538.031) (-12537.366) [-12533.185] -- 0:01:42 202500 -- [-12536.205] (-12537.180) (-12535.050) (-12539.197) * [-12534.565] (-12534.829) (-12537.579) (-12534.332) -- 0:01:42 203000 -- (-12534.874) [-12536.366] (-12536.277) (-12534.602) * [-12533.649] (-12534.972) (-12537.505) (-12534.578) -- 0:01:42 203500 -- (-12535.893) (-12539.567) (-12534.554) [-12538.229] * (-12537.341) [-12539.847] (-12536.626) (-12535.976) -- 0:01:41 204000 -- [-12535.751] (-12539.535) (-12535.944) (-12538.098) * (-12534.262) (-12538.534) (-12535.593) [-12539.581] -- 0:01:41 204500 -- (-12536.476) [-12538.654] (-12537.013) (-12537.143) * (-12534.755) (-12538.029) (-12536.402) [-12538.960] -- 0:01:41 205000 -- (-12534.470) (-12538.185) (-12536.935) [-12536.844] * (-12534.199) [-12535.519] (-12535.606) (-12541.634) -- 0:01:40 Average standard deviation of split frequencies: 0.020214 205500 -- [-12535.440] (-12540.054) (-12535.956) (-12538.018) * (-12539.926) (-12535.906) [-12537.456] (-12541.342) -- 0:01:40 206000 -- (-12538.288) (-12539.101) (-12536.476) [-12535.803] * (-12539.378) [-12535.764] (-12534.983) (-12540.389) -- 0:01:40 206500 -- (-12535.454) (-12539.099) (-12537.749) [-12537.125] * [-12534.449] (-12534.693) (-12537.348) (-12538.711) -- 0:01:39 207000 -- (-12535.094) [-12539.228] (-12535.932) (-12535.660) * [-12536.154] (-12539.128) (-12537.758) (-12538.574) -- 0:01:43 207500 -- (-12534.143) (-12537.953) [-12537.388] (-12537.912) * (-12536.380) [-12537.905] (-12538.962) (-12535.500) -- 0:01:43 208000 -- (-12535.495) (-12536.347) [-12537.388] (-12535.793) * (-12533.882) (-12537.926) (-12537.559) [-12536.126] -- 0:01:42 208500 -- [-12532.619] (-12541.022) (-12534.131) (-12536.210) * (-12534.866) (-12535.551) (-12539.390) [-12534.555] -- 0:01:42 209000 -- (-12534.376) (-12539.633) (-12533.560) [-12537.972] * (-12538.543) [-12536.994] (-12539.498) (-12535.939) -- 0:01:42 209500 -- (-12535.693) (-12543.519) [-12536.383] (-12537.973) * (-12537.420) [-12538.931] (-12540.515) (-12534.529) -- 0:01:41 210000 -- [-12537.792] (-12541.373) (-12534.893) (-12541.774) * (-12533.921) (-12541.173) (-12541.757) [-12537.189] -- 0:01:41 Average standard deviation of split frequencies: 0.020666 210500 -- (-12539.500) (-12539.169) (-12534.796) [-12540.505] * [-12534.627] (-12538.132) (-12538.445) (-12536.523) -- 0:01:41 211000 -- (-12535.619) (-12536.573) [-12533.615] (-12539.511) * (-12535.600) (-12536.737) (-12537.624) [-12535.170] -- 0:01:40 211500 -- (-12537.130) (-12539.038) (-12537.340) [-12540.236] * (-12538.299) (-12539.498) (-12537.149) [-12534.262] -- 0:01:40 212000 -- (-12535.916) (-12538.825) [-12535.211] (-12543.089) * (-12538.299) (-12537.848) (-12537.653) [-12534.807] -- 0:01:40 212500 -- [-12535.854] (-12539.651) (-12535.420) (-12534.849) * (-12538.934) [-12537.752] (-12534.868) (-12534.451) -- 0:01:40 213000 -- (-12535.565) (-12536.640) [-12536.305] (-12537.505) * (-12538.097) (-12538.860) (-12537.433) [-12536.412] -- 0:01:39 213500 -- [-12536.018] (-12538.609) (-12536.490) (-12537.461) * (-12537.008) (-12536.062) (-12536.439) [-12535.068] -- 0:01:39 214000 -- (-12538.187) (-12538.067) (-12536.842) [-12538.173] * (-12538.955) (-12533.225) [-12536.691] (-12538.116) -- 0:01:39 214500 -- (-12536.991) [-12538.639] (-12536.933) (-12535.156) * (-12539.344) [-12534.075] (-12538.063) (-12538.793) -- 0:01:38 215000 -- (-12537.450) (-12538.362) (-12536.134) [-12534.451] * (-12539.321) (-12533.998) [-12534.178] (-12538.600) -- 0:01:42 Average standard deviation of split frequencies: 0.020155 215500 -- [-12536.948] (-12536.250) (-12537.513) (-12537.583) * (-12541.687) (-12533.886) [-12539.175] (-12537.234) -- 0:01:41 216000 -- (-12534.209) (-12538.534) [-12536.118] (-12533.819) * (-12537.291) (-12536.816) [-12536.346] (-12536.517) -- 0:01:41 216500 -- (-12535.260) (-12535.983) (-12536.127) [-12534.478] * (-12535.903) (-12534.218) [-12535.834] (-12537.020) -- 0:01:41 217000 -- (-12542.528) [-12535.321] (-12534.092) (-12538.336) * (-12533.987) (-12536.271) (-12536.757) [-12533.274] -- 0:01:41 217500 -- (-12539.268) (-12535.147) [-12537.554] (-12539.448) * (-12536.207) (-12534.848) (-12535.963) [-12533.015] -- 0:01:40 218000 -- (-12535.301) (-12533.497) (-12539.962) [-12537.986] * (-12534.140) [-12534.383] (-12534.688) (-12533.571) -- 0:01:40 218500 -- (-12536.251) [-12535.412] (-12536.988) (-12538.154) * (-12535.559) [-12536.737] (-12540.973) (-12536.239) -- 0:01:40 219000 -- (-12535.557) (-12536.622) [-12538.997] (-12541.390) * [-12534.526] (-12535.863) (-12540.135) (-12542.213) -- 0:01:39 219500 -- [-12536.346] (-12535.794) (-12537.935) (-12535.767) * (-12535.340) (-12539.937) (-12536.000) [-12537.539] -- 0:01:39 220000 -- (-12535.915) [-12536.772] (-12533.803) (-12537.744) * (-12538.146) [-12537.754] (-12536.573) (-12534.505) -- 0:01:39 Average standard deviation of split frequencies: 0.018849 220500 -- [-12535.180] (-12535.341) (-12534.747) (-12537.043) * (-12540.944) (-12538.071) (-12534.575) [-12534.152] -- 0:01:38 221000 -- [-12536.296] (-12536.512) (-12538.131) (-12537.343) * [-12539.215] (-12538.314) (-12535.338) (-12537.992) -- 0:01:38 221500 -- (-12535.106) (-12536.350) [-12537.290] (-12539.070) * (-12538.948) (-12537.355) (-12532.926) [-12538.466] -- 0:01:38 222000 -- [-12540.177] (-12539.291) (-12540.041) (-12536.062) * (-12539.378) (-12538.962) [-12535.638] (-12538.214) -- 0:01:38 222500 -- (-12544.079) (-12539.036) (-12538.422) [-12538.512] * (-12538.320) [-12539.151] (-12535.722) (-12543.223) -- 0:01:41 223000 -- (-12543.551) [-12540.921] (-12538.496) (-12539.099) * [-12536.385] (-12539.151) (-12535.602) (-12537.823) -- 0:01:41 223500 -- (-12542.677) (-12541.992) [-12536.421] (-12537.715) * (-12534.242) (-12541.755) (-12534.220) [-12535.714] -- 0:01:40 224000 -- (-12540.472) (-12537.591) [-12539.293] (-12539.958) * (-12537.671) (-12536.987) (-12532.985) [-12536.639] -- 0:01:40 224500 -- [-12538.014] (-12540.772) (-12535.477) (-12538.887) * (-12536.965) (-12537.539) [-12534.341] (-12533.165) -- 0:01:40 225000 -- [-12537.844] (-12540.522) (-12539.230) (-12537.500) * (-12537.508) (-12537.629) [-12533.503] (-12533.403) -- 0:01:39 Average standard deviation of split frequencies: 0.019141 225500 -- (-12541.901) [-12540.770] (-12534.909) (-12539.853) * (-12540.272) (-12537.629) [-12534.079] (-12534.411) -- 0:01:39 226000 -- (-12543.872) (-12536.086) (-12536.812) [-12537.541] * (-12542.478) (-12538.045) [-12533.758] (-12536.253) -- 0:01:39 226500 -- [-12536.957] (-12535.952) (-12537.287) (-12538.968) * (-12542.886) [-12537.754] (-12538.642) (-12536.898) -- 0:01:39 227000 -- (-12538.520) [-12535.931] (-12534.603) (-12537.315) * (-12539.230) [-12535.895] (-12534.566) (-12539.050) -- 0:01:38 227500 -- (-12537.141) [-12537.848] (-12535.128) (-12539.390) * (-12541.466) (-12539.773) [-12535.746] (-12536.730) -- 0:01:38 228000 -- (-12539.780) [-12534.125] (-12535.812) (-12538.586) * (-12540.279) [-12536.213] (-12540.676) (-12534.596) -- 0:01:38 228500 -- [-12539.072] (-12533.484) (-12538.560) (-12540.029) * (-12538.370) [-12535.058] (-12537.806) (-12534.127) -- 0:01:37 229000 -- (-12539.060) (-12535.637) [-12536.809] (-12538.492) * (-12537.669) [-12535.070] (-12536.723) (-12533.532) -- 0:01:37 229500 -- (-12534.857) (-12535.093) [-12540.314] (-12540.949) * (-12540.416) (-12534.621) (-12536.453) [-12533.459] -- 0:01:37 230000 -- (-12541.815) (-12537.718) (-12534.096) [-12539.838] * [-12539.482] (-12533.953) (-12536.216) (-12534.890) -- 0:01:37 Average standard deviation of split frequencies: 0.017912 230500 -- (-12537.713) (-12535.919) (-12534.725) [-12541.032] * (-12540.381) (-12534.812) [-12534.749] (-12535.940) -- 0:01:40 231000 -- (-12536.247) [-12536.112] (-12534.917) (-12540.078) * (-12540.381) (-12534.849) (-12535.336) [-12534.516] -- 0:01:39 231500 -- (-12541.407) [-12539.899] (-12534.188) (-12538.956) * (-12539.372) [-12534.964] (-12535.144) (-12538.670) -- 0:01:39 232000 -- (-12535.759) (-12533.852) (-12536.820) [-12536.842] * [-12536.267] (-12535.517) (-12536.765) (-12538.366) -- 0:01:39 232500 -- (-12540.321) [-12538.467] (-12536.302) (-12539.770) * [-12537.646] (-12537.214) (-12542.306) (-12539.081) -- 0:01:39 233000 -- (-12546.813) (-12537.258) [-12536.006] (-12541.344) * (-12537.622) [-12535.954] (-12543.452) (-12538.753) -- 0:01:38 233500 -- (-12541.913) [-12535.971] (-12537.960) (-12543.595) * (-12537.892) [-12535.960] (-12539.409) (-12540.378) -- 0:01:38 234000 -- (-12540.763) (-12532.789) (-12534.812) [-12539.340] * [-12537.785] (-12535.227) (-12539.725) (-12534.854) -- 0:01:38 234500 -- (-12537.811) (-12534.203) [-12534.345] (-12536.038) * [-12538.154] (-12537.818) (-12541.712) (-12536.027) -- 0:01:37 235000 -- [-12535.865] (-12533.771) (-12534.471) (-12535.981) * [-12538.150] (-12536.356) (-12538.724) (-12537.001) -- 0:01:37 Average standard deviation of split frequencies: 0.016215 235500 -- (-12535.470) (-12533.746) [-12535.451] (-12537.553) * (-12537.979) [-12533.912] (-12538.452) (-12544.834) -- 0:01:37 236000 -- (-12536.395) (-12533.235) [-12537.757] (-12537.451) * (-12537.979) (-12534.658) (-12537.906) [-12534.232] -- 0:01:37 236500 -- (-12538.381) (-12533.973) (-12541.326) [-12538.997] * (-12538.419) (-12534.341) (-12538.723) [-12533.705] -- 0:01:36 237000 -- (-12533.326) [-12533.435] (-12539.815) (-12540.227) * (-12536.413) [-12534.313] (-12540.487) (-12537.607) -- 0:01:36 237500 -- (-12534.089) (-12534.424) [-12535.933] (-12540.601) * (-12538.001) (-12534.773) (-12537.344) [-12536.027] -- 0:01:36 238000 -- (-12534.576) (-12534.515) [-12538.851] (-12541.392) * (-12535.696) (-12534.903) (-12535.900) [-12536.560] -- 0:01:36 238500 -- (-12534.506) (-12535.337) (-12544.019) [-12538.026] * [-12537.497] (-12539.713) (-12535.174) (-12537.367) -- 0:01:38 239000 -- (-12538.713) [-12536.015] (-12545.452) (-12537.736) * (-12538.619) (-12535.194) [-12536.505] (-12538.013) -- 0:01:38 239500 -- (-12538.318) [-12534.837] (-12539.272) (-12536.887) * (-12536.559) (-12534.462) (-12537.607) [-12535.788] -- 0:01:38 240000 -- [-12538.119] (-12535.447) (-12539.511) (-12537.537) * (-12538.342) (-12538.726) (-12536.820) [-12534.231] -- 0:01:38 Average standard deviation of split frequencies: 0.015209 240500 -- (-12535.852) (-12540.401) [-12538.025] (-12533.585) * (-12537.308) (-12540.311) [-12538.746] (-12539.217) -- 0:01:37 241000 -- (-12538.475) (-12540.153) [-12543.981] (-12534.060) * [-12535.881] (-12539.304) (-12539.344) (-12534.554) -- 0:01:37 241500 -- (-12540.593) (-12535.389) (-12540.035) [-12536.893] * (-12533.799) [-12539.100] (-12538.853) (-12536.836) -- 0:01:37 242000 -- (-12540.385) (-12536.280) (-12539.587) [-12537.128] * [-12537.632] (-12540.337) (-12538.231) (-12535.024) -- 0:01:37 242500 -- (-12537.801) (-12536.993) (-12541.760) [-12538.037] * (-12537.005) (-12539.534) [-12541.050] (-12537.135) -- 0:01:36 243000 -- (-12537.094) [-12535.749] (-12543.814) (-12538.847) * (-12536.781) (-12539.516) (-12541.054) [-12535.440] -- 0:01:36 243500 -- [-12537.721] (-12533.790) (-12539.294) (-12535.867) * (-12537.393) (-12540.287) [-12537.671] (-12535.550) -- 0:01:36 244000 -- (-12538.591) [-12533.499] (-12539.742) (-12537.209) * [-12540.707] (-12540.144) (-12535.487) (-12537.203) -- 0:01:36 244500 -- (-12537.603) (-12532.903) [-12538.440] (-12535.909) * [-12538.449] (-12540.209) (-12535.824) (-12538.806) -- 0:01:35 245000 -- (-12535.223) (-12534.850) (-12537.041) [-12536.142] * (-12535.613) [-12539.381] (-12533.419) (-12534.766) -- 0:01:35 Average standard deviation of split frequencies: 0.015330 245500 -- (-12533.674) (-12534.475) (-12538.529) [-12535.594] * (-12537.509) (-12542.851) [-12533.059] (-12536.917) -- 0:01:35 246000 -- [-12534.003] (-12534.683) (-12536.590) (-12536.056) * (-12533.610) (-12544.062) [-12534.013] (-12536.725) -- 0:01:38 246500 -- (-12534.864) (-12534.563) [-12536.239] (-12535.371) * [-12535.965] (-12542.204) (-12534.278) (-12537.855) -- 0:01:37 247000 -- (-12535.097) (-12537.693) [-12538.162] (-12537.650) * (-12539.717) (-12540.450) (-12534.338) [-12539.043] -- 0:01:37 247500 -- [-12536.223] (-12537.904) (-12538.431) (-12535.122) * (-12536.549) (-12539.871) (-12539.303) [-12539.070] -- 0:01:37 248000 -- (-12536.210) (-12540.100) (-12536.157) [-12535.093] * (-12533.983) (-12540.838) (-12538.364) [-12538.087] -- 0:01:37 248500 -- (-12533.327) (-12540.068) [-12536.239] (-12537.129) * [-12536.242] (-12539.340) (-12540.167) (-12535.592) -- 0:01:36 249000 -- [-12533.995] (-12540.154) (-12534.552) (-12536.052) * (-12538.851) (-12538.989) (-12537.982) [-12535.598] -- 0:01:36 249500 -- (-12534.233) (-12539.988) (-12535.021) [-12534.654] * (-12539.403) (-12538.997) (-12538.620) [-12537.962] -- 0:01:36 250000 -- (-12533.916) (-12540.023) [-12533.886] (-12534.653) * (-12538.713) (-12534.581) [-12542.718] (-12534.205) -- 0:01:36 Average standard deviation of split frequencies: 0.015672 250500 -- (-12533.925) (-12541.563) (-12532.632) [-12534.426] * (-12538.320) (-12536.133) [-12539.492] (-12533.200) -- 0:01:35 251000 -- (-12533.794) [-12540.235] (-12533.054) (-12534.269) * (-12534.737) [-12534.961] (-12539.181) (-12534.523) -- 0:01:35 251500 -- [-12533.015] (-12540.049) (-12535.654) (-12536.864) * (-12536.727) (-12539.487) (-12538.143) [-12533.659] -- 0:01:35 252000 -- [-12534.748] (-12541.605) (-12533.128) (-12538.821) * (-12536.989) (-12540.878) (-12536.445) [-12535.918] -- 0:01:34 252500 -- [-12535.613] (-12538.568) (-12533.590) (-12535.946) * [-12536.166] (-12539.814) (-12541.002) (-12534.447) -- 0:01:34 253000 -- (-12536.657) (-12536.833) (-12533.932) [-12537.135] * (-12536.389) (-12540.289) (-12541.141) [-12534.239] -- 0:01:34 253500 -- (-12536.907) (-12540.115) [-12536.486] (-12538.705) * (-12535.760) (-12538.951) (-12542.836) [-12535.061] -- 0:01:34 254000 -- (-12536.941) (-12541.260) (-12538.272) [-12535.007] * (-12536.333) (-12538.860) (-12543.154) [-12534.987] -- 0:01:36 254500 -- (-12536.829) (-12537.518) [-12534.523] (-12535.077) * (-12533.838) (-12539.030) [-12540.036] (-12537.612) -- 0:01:36 255000 -- (-12537.320) (-12538.154) [-12534.864] (-12536.203) * [-12537.255] (-12541.200) (-12537.194) (-12536.458) -- 0:01:36 Average standard deviation of split frequencies: 0.015754 255500 -- (-12536.711) (-12537.758) [-12533.085] (-12537.338) * (-12537.448) [-12538.750] (-12537.615) (-12539.157) -- 0:01:36 256000 -- (-12540.604) (-12535.777) [-12538.267] (-12535.851) * (-12538.498) (-12534.791) [-12535.264] (-12534.309) -- 0:01:35 256500 -- (-12539.188) [-12535.300] (-12536.161) (-12533.842) * (-12540.672) (-12535.889) [-12540.504] (-12534.401) -- 0:01:35 257000 -- (-12537.304) (-12538.072) [-12534.788] (-12539.260) * [-12539.102] (-12535.342) (-12536.653) (-12538.744) -- 0:01:35 257500 -- (-12536.539) (-12536.118) [-12537.701] (-12539.247) * (-12538.121) (-12536.158) (-12537.742) [-12538.895] -- 0:01:35 258000 -- [-12538.465] (-12535.042) (-12536.302) (-12538.010) * (-12537.356) [-12534.088] (-12538.098) (-12539.722) -- 0:01:34 258500 -- [-12538.477] (-12537.659) (-12534.668) (-12537.481) * (-12538.058) (-12536.977) (-12537.758) [-12537.719] -- 0:01:34 259000 -- [-12534.511] (-12537.582) (-12536.145) (-12535.597) * [-12534.395] (-12534.809) (-12540.461) (-12538.603) -- 0:01:34 259500 -- [-12534.293] (-12537.040) (-12536.956) (-12535.325) * (-12537.281) [-12534.474] (-12535.818) (-12538.488) -- 0:01:34 260000 -- [-12534.383] (-12535.985) (-12536.238) (-12535.387) * (-12537.068) (-12536.220) (-12539.666) [-12534.645] -- 0:01:33 Average standard deviation of split frequencies: 0.015744 260500 -- (-12536.995) [-12535.307] (-12536.180) (-12539.021) * (-12535.611) (-12537.769) (-12536.685) [-12535.338] -- 0:01:36 261000 -- (-12540.371) (-12534.381) [-12536.701] (-12538.208) * (-12535.571) [-12537.673] (-12536.178) (-12538.960) -- 0:01:36 261500 -- (-12542.663) (-12539.551) [-12535.441] (-12536.298) * (-12535.162) (-12538.318) [-12539.596] (-12540.895) -- 0:01:36 262000 -- (-12542.077) (-12538.851) [-12536.801] (-12538.345) * (-12540.374) (-12536.154) [-12536.890] (-12539.562) -- 0:01:35 262500 -- (-12537.455) (-12539.249) [-12535.025] (-12534.818) * [-12539.850] (-12537.587) (-12537.048) (-12541.786) -- 0:01:35 263000 -- (-12539.051) (-12538.412) (-12534.405) [-12534.811] * (-12536.721) (-12538.583) [-12536.016] (-12536.601) -- 0:01:35 263500 -- (-12544.247) (-12535.027) [-12534.212] (-12536.028) * (-12538.913) (-12537.499) (-12533.905) [-12536.000] -- 0:01:35 264000 -- (-12540.348) (-12535.577) (-12536.341) [-12533.591] * (-12538.668) [-12534.476] (-12533.935) (-12538.361) -- 0:01:34 264500 -- [-12540.010] (-12536.312) (-12534.723) (-12533.409) * (-12533.489) (-12535.160) [-12537.884] (-12535.992) -- 0:01:34 265000 -- (-12536.205) (-12539.070) [-12533.496] (-12536.726) * [-12535.744] (-12535.036) (-12535.322) (-12538.564) -- 0:01:34 Average standard deviation of split frequencies: 0.016575 265500 -- [-12535.463] (-12534.202) (-12534.753) (-12534.228) * (-12534.334) [-12534.529] (-12538.533) (-12535.070) -- 0:01:34 266000 -- (-12540.160) (-12534.736) [-12534.921] (-12534.245) * (-12534.666) (-12535.760) [-12541.128] (-12537.665) -- 0:01:33 266500 -- (-12535.741) (-12534.891) (-12538.410) [-12537.242] * [-12536.904] (-12535.086) (-12540.717) (-12535.249) -- 0:01:33 267000 -- (-12536.864) [-12534.473] (-12537.597) (-12536.400) * (-12534.793) (-12535.926) [-12539.559] (-12539.199) -- 0:01:33 267500 -- (-12536.632) [-12539.828] (-12537.597) (-12536.958) * (-12535.805) (-12534.331) [-12539.811] (-12536.277) -- 0:01:35 268000 -- (-12534.134) (-12539.266) (-12537.650) [-12536.882] * (-12536.108) (-12538.593) (-12539.275) [-12536.798] -- 0:01:35 268500 -- (-12534.876) (-12535.746) (-12537.650) [-12537.659] * (-12538.806) [-12538.067] (-12539.971) (-12538.651) -- 0:01:35 269000 -- (-12534.680) (-12534.570) [-12534.557] (-12538.995) * [-12535.974] (-12540.366) (-12538.205) (-12535.877) -- 0:01:35 269500 -- [-12533.163] (-12534.492) (-12534.189) (-12538.652) * [-12536.219] (-12538.165) (-12538.571) (-12536.848) -- 0:01:34 270000 -- (-12537.402) [-12535.324] (-12534.322) (-12539.638) * [-12534.194] (-12539.311) (-12538.933) (-12537.160) -- 0:01:34 Average standard deviation of split frequencies: 0.015675 270500 -- (-12535.214) (-12538.367) [-12538.073] (-12540.845) * (-12539.300) (-12536.770) (-12538.912) [-12533.628] -- 0:01:34 271000 -- [-12534.042] (-12536.062) (-12537.849) (-12539.192) * (-12537.078) (-12535.741) (-12538.275) [-12538.443] -- 0:01:34 271500 -- (-12532.304) (-12538.314) [-12537.727] (-12537.114) * (-12535.948) (-12535.006) [-12536.247] (-12540.150) -- 0:01:33 272000 -- [-12534.870] (-12536.726) (-12536.916) (-12539.734) * (-12535.330) [-12536.368] (-12537.107) (-12537.907) -- 0:01:33 272500 -- (-12538.393) (-12537.897) (-12536.624) [-12536.440] * (-12535.828) (-12534.049) (-12538.048) [-12539.418] -- 0:01:33 273000 -- (-12538.595) [-12535.073] (-12536.960) (-12535.941) * (-12536.786) (-12534.808) [-12536.770] (-12538.745) -- 0:01:33 273500 -- [-12537.393] (-12535.713) (-12538.881) (-12535.795) * (-12539.399) [-12533.263] (-12536.416) (-12538.806) -- 0:01:32 274000 -- (-12536.554) (-12537.322) [-12539.070] (-12537.618) * (-12535.255) (-12534.141) [-12540.178] (-12538.229) -- 0:01:32 274500 -- (-12536.113) (-12535.338) (-12538.605) [-12535.347] * [-12535.774] (-12533.954) (-12539.847) (-12535.122) -- 0:01:32 275000 -- (-12538.053) [-12535.628] (-12538.617) (-12538.123) * (-12535.811) [-12536.390] (-12541.661) (-12536.518) -- 0:01:32 Average standard deviation of split frequencies: 0.014468 275500 -- (-12538.245) (-12540.028) (-12538.251) [-12535.266] * (-12535.802) (-12537.373) (-12541.395) [-12534.889] -- 0:01:34 276000 -- (-12539.711) (-12539.228) (-12538.251) [-12534.124] * (-12537.294) (-12537.455) [-12537.253] (-12537.468) -- 0:01:34 276500 -- [-12536.114] (-12539.228) (-12540.357) (-12535.161) * [-12536.393] (-12537.453) (-12539.513) (-12539.705) -- 0:01:34 277000 -- (-12536.050) (-12539.910) [-12539.112] (-12536.126) * (-12537.865) [-12534.451] (-12539.261) (-12538.884) -- 0:01:33 277500 -- (-12539.114) (-12537.899) [-12537.738] (-12536.138) * (-12539.137) (-12536.830) [-12537.824] (-12535.089) -- 0:01:33 278000 -- (-12542.502) [-12535.916] (-12537.912) (-12537.454) * (-12536.745) (-12533.249) [-12536.839] (-12535.700) -- 0:01:33 278500 -- (-12541.960) [-12535.149] (-12540.866) (-12537.129) * [-12537.710] (-12533.529) (-12539.651) (-12535.491) -- 0:01:33 279000 -- [-12536.539] (-12539.417) (-12541.789) (-12537.934) * (-12539.121) [-12533.922] (-12534.647) (-12539.188) -- 0:01:33 279500 -- (-12538.398) (-12535.234) [-12541.840] (-12536.344) * (-12537.234) (-12536.243) [-12539.240] (-12538.051) -- 0:01:32 280000 -- (-12536.647) (-12537.491) (-12534.727) [-12535.583] * [-12535.732] (-12536.933) (-12536.519) (-12540.897) -- 0:01:32 Average standard deviation of split frequencies: 0.014622 280500 -- (-12534.983) [-12537.504] (-12536.152) (-12536.413) * (-12538.031) (-12535.623) [-12536.827] (-12536.583) -- 0:01:32 281000 -- (-12538.101) (-12537.310) [-12538.815] (-12535.712) * (-12543.406) (-12536.446) [-12536.112] (-12534.878) -- 0:01:32 281500 -- (-12534.836) [-12537.310] (-12535.535) (-12539.285) * (-12538.980) (-12535.204) (-12535.799) [-12537.162] -- 0:01:31 282000 -- (-12535.102) (-12537.143) (-12540.450) [-12537.953] * (-12537.026) (-12540.973) [-12535.064] (-12535.208) -- 0:01:31 282500 -- [-12533.721] (-12537.279) (-12539.495) (-12545.639) * [-12538.120] (-12540.226) (-12536.170) (-12536.677) -- 0:01:31 283000 -- [-12534.732] (-12537.279) (-12537.100) (-12538.160) * [-12536.959] (-12534.726) (-12535.445) (-12536.965) -- 0:01:33 283500 -- [-12537.016] (-12542.325) (-12539.593) (-12540.768) * (-12537.815) [-12535.118] (-12538.839) (-12537.505) -- 0:01:33 284000 -- (-12535.524) (-12542.890) [-12535.057] (-12540.676) * [-12537.496] (-12534.014) (-12538.940) (-12538.885) -- 0:01:33 284500 -- (-12536.652) (-12542.797) (-12537.621) [-12539.773] * (-12535.664) (-12536.779) [-12535.215] (-12537.961) -- 0:01:33 285000 -- (-12538.637) [-12542.757] (-12537.741) (-12539.359) * (-12537.120) [-12535.552] (-12539.580) (-12535.701) -- 0:01:32 Average standard deviation of split frequencies: 0.015513 285500 -- (-12536.994) (-12539.224) [-12538.727] (-12539.974) * (-12540.191) [-12537.984] (-12539.570) (-12538.108) -- 0:01:32 286000 -- [-12534.687] (-12536.671) (-12539.804) (-12539.214) * (-12539.505) (-12536.011) [-12537.476] (-12538.106) -- 0:01:32 286500 -- (-12534.830) (-12537.722) [-12535.647] (-12539.214) * (-12535.940) [-12534.177] (-12537.536) (-12538.070) -- 0:01:32 287000 -- (-12536.045) (-12535.997) [-12536.591] (-12539.133) * (-12540.554) (-12533.803) [-12540.304] (-12538.107) -- 0:01:31 287500 -- (-12535.529) [-12539.205] (-12538.246) (-12539.194) * (-12542.022) (-12537.556) [-12535.658] (-12540.146) -- 0:01:31 288000 -- (-12533.535) (-12540.077) (-12538.528) [-12538.632] * (-12537.408) (-12538.428) [-12534.306] (-12539.274) -- 0:01:31 288500 -- (-12540.274) (-12537.051) [-12537.651] (-12538.594) * (-12538.293) (-12537.360) (-12536.430) [-12538.267] -- 0:01:31 289000 -- (-12540.447) (-12537.433) (-12541.751) [-12538.671] * (-12537.736) (-12537.319) [-12536.423] (-12535.503) -- 0:01:31 289500 -- (-12537.929) (-12536.144) [-12538.645] (-12536.094) * (-12537.963) (-12537.578) [-12535.936] (-12535.657) -- 0:01:30 290000 -- (-12539.241) (-12536.216) [-12538.645] (-12538.085) * (-12537.802) (-12537.125) (-12533.830) [-12535.076] -- 0:01:30 Average standard deviation of split frequencies: 0.014310 290500 -- (-12534.652) [-12535.551] (-12537.580) (-12537.332) * [-12534.869] (-12540.741) (-12538.761) (-12537.729) -- 0:01:32 291000 -- (-12536.781) (-12541.541) [-12534.233] (-12537.256) * [-12535.263] (-12543.793) (-12542.185) (-12537.910) -- 0:01:32 291500 -- [-12533.977] (-12538.770) (-12538.876) (-12535.498) * (-12537.473) (-12540.184) [-12539.227] (-12542.503) -- 0:01:32 292000 -- (-12536.657) (-12539.093) (-12535.694) [-12542.340] * (-12543.327) [-12539.574] (-12540.741) (-12538.402) -- 0:01:32 292500 -- (-12536.335) [-12537.681] (-12538.546) (-12540.035) * (-12534.260) (-12538.713) (-12540.655) [-12536.603] -- 0:01:31 293000 -- (-12535.635) (-12539.116) (-12536.655) [-12539.567] * (-12535.745) [-12539.160] (-12536.758) (-12537.082) -- 0:01:31 293500 -- (-12536.195) (-12538.388) [-12538.582] (-12534.900) * (-12535.270) (-12539.081) [-12534.250] (-12536.261) -- 0:01:31 294000 -- [-12535.590] (-12537.195) (-12539.528) (-12534.532) * (-12533.648) [-12538.579] (-12534.488) (-12538.286) -- 0:01:31 294500 -- (-12534.675) (-12537.222) (-12541.734) [-12534.614] * (-12534.463) (-12538.244) (-12533.291) [-12537.074] -- 0:01:31 295000 -- [-12536.448] (-12535.961) (-12540.935) (-12534.283) * (-12532.658) [-12535.546] (-12535.331) (-12536.761) -- 0:01:30 Average standard deviation of split frequencies: 0.013959 295500 -- (-12536.371) (-12542.974) (-12539.114) [-12533.651] * (-12534.597) (-12536.829) [-12537.008] (-12538.231) -- 0:01:30 296000 -- (-12537.938) (-12540.709) [-12538.454] (-12536.370) * (-12534.470) [-12537.072] (-12537.349) (-12541.943) -- 0:01:30 296500 -- [-12535.813] (-12538.907) (-12535.902) (-12539.008) * (-12533.648) [-12535.577] (-12533.653) (-12537.323) -- 0:01:30 297000 -- (-12539.409) (-12540.025) [-12534.822] (-12536.921) * (-12534.954) (-12536.138) [-12538.266] (-12537.553) -- 0:01:29 297500 -- (-12539.539) [-12540.895] (-12538.062) (-12536.788) * (-12535.679) [-12535.859] (-12536.024) (-12539.556) -- 0:01:29 298000 -- (-12536.913) (-12537.899) (-12538.325) [-12540.938] * [-12537.102] (-12535.408) (-12539.658) (-12540.576) -- 0:01:29 298500 -- (-12536.752) (-12538.140) (-12538.208) [-12539.463] * (-12541.493) (-12534.310) (-12534.100) [-12541.552] -- 0:01:31 299000 -- (-12536.593) [-12536.132] (-12538.919) (-12537.127) * (-12540.743) (-12533.625) [-12537.453] (-12537.167) -- 0:01:31 299500 -- [-12535.357] (-12536.713) (-12535.363) (-12537.349) * (-12540.743) (-12533.627) [-12535.095] (-12539.758) -- 0:01:31 300000 -- (-12537.234) (-12538.159) (-12539.512) [-12534.694] * (-12539.746) (-12535.083) [-12536.239] (-12539.684) -- 0:01:30 Average standard deviation of split frequencies: 0.014013 300500 -- (-12537.603) (-12536.868) (-12539.985) [-12537.966] * (-12540.301) [-12533.538] (-12534.494) (-12537.047) -- 0:01:30 301000 -- (-12534.946) (-12536.982) [-12535.149] (-12537.614) * [-12540.293] (-12538.620) (-12534.690) (-12537.046) -- 0:01:30 301500 -- (-12536.922) (-12541.033) [-12534.779] (-12535.272) * [-12534.715] (-12535.749) (-12537.651) (-12536.924) -- 0:01:30 302000 -- (-12534.683) [-12539.798] (-12535.911) (-12535.119) * (-12535.355) (-12533.960) [-12535.331] (-12541.476) -- 0:01:30 302500 -- (-12533.419) (-12539.776) [-12537.672] (-12536.910) * (-12536.383) (-12535.702) [-12534.269] (-12541.125) -- 0:01:29 303000 -- (-12536.345) (-12539.529) (-12538.151) [-12536.622] * [-12537.322] (-12535.130) (-12534.683) (-12538.798) -- 0:01:29 303500 -- (-12535.149) (-12538.446) (-12536.197) [-12537.701] * (-12539.577) (-12535.018) (-12534.615) [-12539.701] -- 0:01:29 304000 -- [-12535.503] (-12538.446) (-12536.764) (-12534.409) * (-12540.607) (-12534.468) [-12534.796] (-12539.067) -- 0:01:29 304500 -- (-12534.117) (-12538.897) (-12534.437) [-12537.438] * (-12535.094) (-12536.007) [-12534.457] (-12539.045) -- 0:01:29 305000 -- (-12536.552) (-12537.628) (-12536.324) [-12537.603] * (-12533.827) (-12534.900) [-12533.775] (-12539.067) -- 0:01:28 Average standard deviation of split frequencies: 0.014680 305500 -- (-12536.503) (-12537.634) [-12534.204] (-12535.021) * (-12536.313) (-12537.216) [-12534.651] (-12539.067) -- 0:01:28 306000 -- (-12540.761) (-12538.431) [-12534.600] (-12538.516) * (-12534.451) (-12535.416) [-12536.549] (-12539.811) -- 0:01:30 306500 -- (-12540.060) (-12539.221) [-12537.841] (-12535.529) * (-12536.950) (-12536.216) [-12535.592] (-12539.766) -- 0:01:30 307000 -- (-12544.890) (-12537.744) [-12534.995] (-12535.185) * [-12534.092] (-12537.195) (-12537.335) (-12538.268) -- 0:01:30 307500 -- (-12541.558) (-12537.744) [-12534.263] (-12534.745) * (-12533.097) (-12538.370) (-12537.462) [-12535.455] -- 0:01:30 308000 -- (-12534.686) (-12536.036) (-12536.717) [-12533.418] * [-12534.678] (-12535.883) (-12533.871) (-12535.293) -- 0:01:29 308500 -- (-12538.136) [-12538.514] (-12535.998) (-12535.548) * [-12534.210] (-12537.751) (-12535.017) (-12537.509) -- 0:01:29 309000 -- (-12536.306) [-12534.344] (-12534.907) (-12537.480) * (-12535.668) [-12537.833] (-12533.834) (-12538.174) -- 0:01:29 309500 -- (-12536.300) [-12539.108] (-12534.826) (-12533.520) * [-12535.804] (-12538.958) (-12535.396) (-12536.638) -- 0:01:29 310000 -- (-12540.065) (-12537.859) [-12533.370] (-12535.069) * (-12533.299) (-12537.839) (-12536.650) [-12538.060] -- 0:01:29 Average standard deviation of split frequencies: 0.013924 310500 -- (-12540.522) (-12535.283) (-12534.054) [-12535.037] * [-12533.438] (-12537.838) (-12536.036) (-12535.343) -- 0:01:28 311000 -- (-12538.303) [-12535.732] (-12533.351) (-12536.597) * (-12535.009) (-12536.015) (-12534.316) [-12534.552] -- 0:01:28 311500 -- (-12536.704) (-12537.398) (-12534.093) [-12535.319] * (-12534.275) (-12537.793) (-12535.770) [-12533.141] -- 0:01:28 312000 -- (-12535.745) (-12537.523) (-12533.933) [-12537.257] * [-12533.703] (-12535.500) (-12536.924) (-12536.843) -- 0:01:28 312500 -- (-12534.550) (-12536.828) (-12534.060) [-12535.933] * [-12533.575] (-12537.301) (-12534.185) (-12538.933) -- 0:01:28 313000 -- (-12533.623) [-12537.060] (-12541.002) (-12536.628) * [-12533.741] (-12536.580) (-12536.803) (-12538.721) -- 0:01:27 313500 -- [-12533.912] (-12537.674) (-12537.484) (-12535.465) * [-12537.114] (-12539.794) (-12534.565) (-12537.747) -- 0:01:27 314000 -- (-12534.973) (-12537.412) (-12539.412) [-12539.178] * (-12532.876) (-12540.118) [-12535.080] (-12538.715) -- 0:01:29 314500 -- [-12534.534] (-12537.830) (-12536.895) (-12538.586) * (-12533.841) (-12542.009) [-12538.072] (-12540.751) -- 0:01:29 315000 -- [-12535.081] (-12538.856) (-12535.027) (-12538.666) * [-12533.034] (-12542.009) (-12538.072) (-12535.563) -- 0:01:29 Average standard deviation of split frequencies: 0.012285 315500 -- [-12536.623] (-12538.884) (-12538.018) (-12538.113) * [-12532.933] (-12537.809) (-12536.627) (-12534.076) -- 0:01:28 316000 -- (-12536.865) (-12537.130) [-12537.312] (-12535.749) * (-12536.107) (-12537.624) (-12543.427) [-12534.645] -- 0:01:28 316500 -- (-12535.772) (-12537.529) [-12538.052] (-12538.106) * (-12536.303) (-12537.996) (-12537.217) [-12538.084] -- 0:01:28 317000 -- (-12535.133) (-12539.629) [-12534.320] (-12538.020) * (-12533.491) (-12536.203) (-12537.678) [-12535.839] -- 0:01:28 317500 -- (-12535.124) [-12539.166] (-12534.511) (-12538.386) * [-12535.289] (-12537.800) (-12536.308) (-12542.074) -- 0:01:28 318000 -- (-12535.348) (-12539.139) [-12534.809] (-12537.145) * [-12533.600] (-12535.115) (-12537.788) (-12538.729) -- 0:01:27 318500 -- (-12537.121) [-12537.042] (-12534.347) (-12537.215) * [-12533.246] (-12539.658) (-12535.798) (-12539.971) -- 0:01:27 319000 -- (-12534.236) (-12537.519) (-12534.653) [-12533.185] * (-12536.950) (-12538.884) [-12535.623] (-12539.143) -- 0:01:27 319500 -- [-12533.402] (-12536.667) (-12534.756) (-12532.877) * (-12536.899) [-12535.995] (-12534.547) (-12539.563) -- 0:01:27 320000 -- (-12533.872) (-12535.993) (-12534.580) [-12534.780] * (-12534.412) (-12536.284) (-12537.712) [-12539.049] -- 0:01:27 Average standard deviation of split frequencies: 0.011588 320500 -- (-12535.778) [-12536.464] (-12535.769) (-12534.345) * [-12535.406] (-12538.615) (-12537.861) (-12535.303) -- 0:01:26 321000 -- (-12536.816) (-12536.043) (-12534.925) [-12533.752] * (-12536.082) (-12539.458) [-12533.627] (-12536.277) -- 0:01:26 321500 -- [-12536.107] (-12536.563) (-12534.264) (-12535.526) * [-12536.887] (-12541.206) (-12534.202) (-12536.225) -- 0:01:28 322000 -- (-12536.998) [-12534.156] (-12535.925) (-12536.520) * [-12536.983] (-12542.320) (-12533.197) (-12539.403) -- 0:01:28 322500 -- (-12535.930) (-12537.582) (-12539.580) [-12534.971] * (-12535.507) (-12545.737) [-12533.774] (-12537.232) -- 0:01:28 323000 -- (-12536.483) (-12534.789) (-12537.758) [-12534.121] * (-12537.209) (-12537.078) [-12533.798] (-12538.796) -- 0:01:28 323500 -- (-12537.565) [-12534.191] (-12536.218) (-12533.990) * (-12536.349) (-12539.728) [-12536.447] (-12535.485) -- 0:01:27 324000 -- (-12537.439) [-12532.176] (-12537.745) (-12534.084) * [-12538.302] (-12537.815) (-12537.838) (-12537.577) -- 0:01:27 324500 -- (-12539.440) (-12537.456) [-12536.504] (-12538.864) * (-12538.167) [-12535.330] (-12534.921) (-12535.539) -- 0:01:27 325000 -- [-12539.246] (-12535.560) (-12535.555) (-12541.168) * (-12538.783) (-12536.971) (-12538.750) [-12535.034] -- 0:01:27 Average standard deviation of split frequencies: 0.011994 325500 -- [-12535.931] (-12535.797) (-12536.929) (-12535.884) * (-12537.986) (-12536.194) (-12536.438) [-12537.858] -- 0:01:27 326000 -- (-12536.341) (-12534.778) (-12541.429) [-12533.268] * [-12538.267] (-12536.250) (-12537.844) (-12537.427) -- 0:01:26 326500 -- (-12535.680) (-12534.622) (-12538.629) [-12533.719] * (-12539.251) [-12537.434] (-12536.148) (-12537.938) -- 0:01:26 327000 -- (-12536.451) (-12535.053) (-12535.535) [-12534.761] * (-12533.825) (-12536.520) (-12535.392) [-12536.726] -- 0:01:26 327500 -- (-12537.969) (-12535.149) (-12537.402) [-12533.436] * (-12533.254) (-12538.011) (-12535.167) [-12535.865] -- 0:01:26 328000 -- (-12537.463) (-12534.819) (-12535.865) [-12539.172] * [-12534.248] (-12535.017) (-12536.600) (-12536.147) -- 0:01:26 328500 -- (-12538.145) (-12538.524) (-12535.088) [-12535.324] * (-12541.259) (-12538.928) (-12537.557) [-12537.384] -- 0:01:25 329000 -- (-12537.309) (-12539.653) [-12536.665] (-12537.038) * (-12536.187) [-12537.645] (-12542.748) (-12536.901) -- 0:01:25 329500 -- [-12537.156] (-12536.950) (-12536.353) (-12533.449) * (-12535.718) (-12537.580) [-12543.311] (-12536.551) -- 0:01:27 330000 -- (-12540.042) [-12535.490] (-12535.810) (-12533.853) * (-12537.597) (-12538.019) [-12537.773] (-12536.718) -- 0:01:27 Average standard deviation of split frequencies: 0.011494 330500 -- (-12538.621) [-12536.127] (-12538.939) (-12535.596) * (-12539.660) (-12538.335) [-12535.052] (-12538.004) -- 0:01:27 331000 -- (-12538.261) (-12536.065) (-12538.102) [-12537.628] * (-12537.024) [-12539.714] (-12534.913) (-12536.283) -- 0:01:26 331500 -- [-12535.374] (-12538.299) (-12538.264) (-12537.278) * (-12536.143) (-12535.635) [-12534.570] (-12539.017) -- 0:01:26 332000 -- (-12537.455) [-12537.784] (-12539.147) (-12533.155) * (-12534.069) [-12537.430] (-12533.610) (-12540.817) -- 0:01:26 332500 -- (-12537.668) [-12536.895] (-12540.903) (-12534.982) * (-12536.868) (-12538.143) [-12535.073] (-12537.981) -- 0:01:26 333000 -- (-12538.540) (-12533.654) [-12537.594] (-12535.178) * (-12536.373) (-12538.098) [-12534.187] (-12539.867) -- 0:01:26 333500 -- [-12538.874] (-12537.801) (-12540.296) (-12537.838) * (-12536.265) (-12539.753) [-12532.847] (-12539.295) -- 0:01:25 334000 -- (-12539.880) (-12536.276) [-12547.343] (-12537.857) * [-12539.378] (-12541.435) (-12535.310) (-12539.535) -- 0:01:25 334500 -- (-12540.714) (-12540.144) [-12541.955] (-12538.818) * (-12540.297) (-12541.937) [-12539.851] (-12536.140) -- 0:01:25 335000 -- [-12539.111] (-12536.273) (-12535.403) (-12538.072) * (-12540.636) (-12538.092) (-12538.945) [-12537.286] -- 0:01:25 Average standard deviation of split frequencies: 0.012861 335500 -- (-12540.261) (-12537.139) (-12535.435) [-12539.774] * (-12539.614) (-12538.191) (-12537.104) [-12537.138] -- 0:01:25 336000 -- (-12539.011) (-12539.613) [-12535.115] (-12535.471) * (-12539.421) [-12538.115] (-12537.563) (-12536.438) -- 0:01:24 336500 -- (-12537.220) (-12541.069) [-12536.313] (-12535.611) * (-12539.483) (-12538.115) (-12539.312) [-12535.077] -- 0:01:24 337000 -- (-12538.082) (-12540.087) [-12538.760] (-12537.994) * (-12538.373) (-12544.524) [-12538.916] (-12535.907) -- 0:01:26 337500 -- (-12536.486) (-12537.171) [-12535.466] (-12539.586) * (-12536.835) (-12544.585) (-12535.913) [-12537.040] -- 0:01:26 338000 -- (-12534.888) [-12535.111] (-12536.520) (-12536.314) * (-12536.994) [-12537.954] (-12534.967) (-12535.598) -- 0:01:26 338500 -- (-12537.719) (-12536.833) (-12542.737) [-12536.114] * (-12534.096) (-12540.422) [-12534.976] (-12535.857) -- 0:01:25 339000 -- (-12536.338) [-12535.770] (-12542.534) (-12541.303) * (-12536.635) (-12538.082) (-12534.626) [-12535.291] -- 0:01:25 339500 -- (-12538.013) [-12536.879] (-12539.358) (-12541.183) * (-12534.658) [-12540.070] (-12534.065) (-12533.774) -- 0:01:25 340000 -- (-12538.530) (-12534.590) (-12536.158) [-12534.857] * (-12537.017) (-12537.533) [-12532.708] (-12536.291) -- 0:01:25 Average standard deviation of split frequencies: 0.012942 340500 -- [-12539.960] (-12537.781) (-12537.068) (-12534.414) * (-12535.520) [-12535.102] (-12533.876) (-12533.855) -- 0:01:25 341000 -- (-12541.339) (-12535.501) (-12537.219) [-12533.996] * [-12532.579] (-12542.678) (-12534.295) (-12540.280) -- 0:01:25 341500 -- [-12538.257] (-12534.137) (-12535.003) (-12535.926) * (-12533.300) [-12538.581] (-12533.675) (-12539.277) -- 0:01:24 342000 -- (-12542.125) [-12535.523] (-12534.444) (-12535.162) * (-12537.162) (-12537.360) [-12533.211] (-12535.345) -- 0:01:24 342500 -- (-12542.289) [-12535.011] (-12535.307) (-12537.807) * (-12540.688) (-12536.361) (-12536.752) [-12538.894] -- 0:01:24 343000 -- [-12538.413] (-12537.409) (-12535.494) (-12538.000) * (-12539.644) (-12539.154) [-12534.391] (-12535.649) -- 0:01:24 343500 -- (-12539.074) (-12536.837) (-12535.168) [-12539.405] * [-12537.607] (-12537.830) (-12536.332) (-12536.108) -- 0:01:24 344000 -- (-12546.114) [-12535.518] (-12534.817) (-12544.539) * (-12539.260) (-12537.151) (-12538.370) [-12536.726] -- 0:01:23 344500 -- (-12542.328) (-12533.763) (-12540.835) [-12537.166] * (-12538.957) (-12535.722) [-12540.436] (-12538.172) -- 0:01:23 345000 -- (-12537.179) (-12538.477) [-12538.716] (-12538.196) * (-12540.486) (-12538.501) (-12540.568) [-12537.102] -- 0:01:25 Average standard deviation of split frequencies: 0.013397 345500 -- (-12535.716) (-12539.395) (-12537.344) [-12537.263] * (-12537.795) [-12536.051] (-12540.670) (-12538.628) -- 0:01:25 346000 -- (-12536.649) (-12537.842) [-12536.904] (-12534.497) * [-12537.377] (-12534.821) (-12540.671) (-12540.015) -- 0:01:25 346500 -- (-12543.629) [-12535.646] (-12536.401) (-12538.809) * [-12535.956] (-12537.803) (-12541.203) (-12540.986) -- 0:01:24 347000 -- (-12543.644) [-12533.720] (-12534.663) (-12535.613) * (-12538.096) (-12540.088) [-12536.402] (-12540.562) -- 0:01:24 347500 -- (-12539.808) [-12535.081] (-12534.784) (-12535.512) * (-12538.086) (-12539.441) (-12539.739) [-12538.229] -- 0:01:24 348000 -- (-12543.644) (-12534.006) (-12535.001) [-12539.978] * (-12538.867) [-12538.348] (-12540.268) (-12535.843) -- 0:01:24 348500 -- (-12540.592) (-12534.759) [-12533.659] (-12537.552) * (-12539.286) [-12536.837] (-12538.268) (-12535.922) -- 0:01:24 349000 -- [-12540.250] (-12534.234) (-12535.917) (-12539.455) * (-12535.520) (-12534.023) (-12539.731) [-12537.008] -- 0:01:23 349500 -- (-12540.037) (-12538.303) (-12534.781) [-12535.696] * [-12533.786] (-12535.194) (-12539.564) (-12539.209) -- 0:01:23 350000 -- (-12540.695) (-12535.863) (-12534.879) [-12535.008] * (-12535.191) [-12535.880] (-12533.456) (-12538.095) -- 0:01:23 Average standard deviation of split frequencies: 0.013966 350500 -- (-12542.921) (-12535.704) [-12536.031] (-12534.264) * [-12534.888] (-12536.731) (-12533.532) (-12538.001) -- 0:01:23 351000 -- (-12540.104) (-12539.093) [-12537.243] (-12534.642) * (-12534.413) (-12534.672) [-12533.896] (-12542.154) -- 0:01:23 351500 -- (-12535.296) (-12539.050) (-12535.344) [-12534.980] * (-12536.143) (-12536.269) (-12534.038) [-12535.942] -- 0:01:23 352000 -- (-12535.956) [-12539.067] (-12540.270) (-12534.240) * (-12537.179) (-12535.424) (-12535.721) [-12534.862] -- 0:01:22 352500 -- (-12536.842) (-12535.877) (-12538.616) [-12536.129] * (-12537.226) [-12535.544] (-12537.706) (-12541.129) -- 0:01:22 353000 -- [-12537.815] (-12538.043) (-12542.023) (-12538.089) * (-12541.078) (-12535.085) (-12537.262) [-12540.189] -- 0:01:24 353500 -- [-12540.287] (-12536.439) (-12539.171) (-12535.493) * [-12534.649] (-12534.504) (-12537.139) (-12541.337) -- 0:01:24 354000 -- (-12540.626) [-12537.353] (-12537.502) (-12536.724) * (-12535.978) [-12534.369] (-12534.718) (-12540.644) -- 0:01:23 354500 -- [-12538.147] (-12535.395) (-12537.463) (-12535.388) * [-12534.603] (-12535.573) (-12536.334) (-12541.201) -- 0:01:23 355000 -- [-12537.856] (-12533.002) (-12537.463) (-12542.039) * [-12535.973] (-12538.331) (-12533.063) (-12538.490) -- 0:01:23 Average standard deviation of split frequencies: 0.013242 355500 -- (-12538.667) [-12533.208] (-12534.375) (-12543.342) * (-12534.899) (-12533.944) [-12534.756] (-12534.603) -- 0:01:23 356000 -- (-12537.891) [-12534.547] (-12537.477) (-12537.918) * (-12536.672) (-12536.427) [-12534.862] (-12538.596) -- 0:01:23 356500 -- [-12537.549] (-12535.293) (-12537.179) (-12535.791) * [-12534.402] (-12536.721) (-12537.745) (-12538.328) -- 0:01:23 357000 -- (-12538.072) [-12540.775] (-12537.880) (-12538.399) * [-12533.808] (-12535.085) (-12537.622) (-12538.329) -- 0:01:22 357500 -- [-12538.240] (-12543.296) (-12535.652) (-12537.214) * [-12534.011] (-12537.476) (-12537.969) (-12538.185) -- 0:01:22 358000 -- (-12539.045) (-12543.911) (-12536.519) [-12539.321] * (-12539.262) (-12534.569) (-12543.307) [-12538.341] -- 0:01:22 358500 -- (-12541.730) [-12537.199] (-12533.496) (-12539.872) * (-12536.942) [-12537.034] (-12539.436) (-12538.102) -- 0:01:22 359000 -- (-12541.685) (-12538.020) (-12536.143) [-12540.200] * (-12543.235) (-12537.381) [-12537.248] (-12537.000) -- 0:01:22 359500 -- [-12537.782] (-12536.918) (-12539.659) (-12539.766) * (-12538.257) (-12538.749) (-12533.920) [-12535.655] -- 0:01:21 360000 -- (-12537.813) (-12536.066) (-12540.771) [-12534.557] * (-12536.408) (-12541.268) (-12534.525) [-12534.737] -- 0:01:21 Average standard deviation of split frequencies: 0.013143 360500 -- (-12538.299) (-12537.857) [-12536.316] (-12536.144) * (-12541.816) (-12539.431) (-12538.118) [-12535.420] -- 0:01:21 361000 -- (-12537.076) [-12535.481] (-12539.299) (-12542.387) * (-12547.574) (-12534.807) (-12538.118) [-12536.556] -- 0:01:23 361500 -- [-12535.702] (-12535.237) (-12538.604) (-12536.673) * (-12542.646) [-12535.348] (-12538.118) (-12533.932) -- 0:01:23 362000 -- [-12536.038] (-12535.010) (-12537.788) (-12537.174) * (-12539.838) [-12538.659] (-12538.118) (-12536.247) -- 0:01:22 362500 -- (-12538.438) (-12534.261) (-12538.121) [-12536.025] * [-12536.893] (-12538.659) (-12538.892) (-12535.861) -- 0:01:22 363000 -- (-12539.125) (-12535.184) (-12536.137) [-12536.767] * [-12537.982] (-12533.423) (-12538.620) (-12536.292) -- 0:01:22 363500 -- [-12537.836] (-12534.655) (-12536.222) (-12535.261) * (-12535.858) (-12536.613) [-12535.523] (-12537.643) -- 0:01:22 364000 -- (-12539.041) (-12534.648) [-12538.182] (-12538.215) * (-12539.859) [-12536.559] (-12537.775) (-12538.279) -- 0:01:22 364500 -- (-12536.285) (-12535.817) (-12538.936) [-12539.806] * (-12536.406) (-12538.475) [-12538.176] (-12535.946) -- 0:01:21 365000 -- [-12538.336] (-12535.851) (-12538.782) (-12538.372) * (-12536.136) [-12534.936] (-12540.196) (-12537.751) -- 0:01:21 Average standard deviation of split frequencies: 0.013460 365500 -- (-12538.980) (-12533.774) [-12538.411] (-12535.607) * [-12539.008] (-12536.824) (-12538.939) (-12536.571) -- 0:01:21 366000 -- (-12539.785) (-12536.821) [-12540.322] (-12536.124) * (-12542.857) (-12536.231) (-12535.452) [-12535.284] -- 0:01:21 366500 -- (-12539.697) (-12537.413) [-12534.915] (-12537.213) * (-12538.470) [-12534.330] (-12537.559) (-12534.678) -- 0:01:21 367000 -- [-12538.973] (-12537.193) (-12538.824) (-12537.107) * (-12545.119) (-12536.038) [-12537.152] (-12535.480) -- 0:01:21 367500 -- (-12537.390) [-12534.974] (-12548.005) (-12537.776) * (-12540.147) [-12532.870] (-12537.663) (-12537.411) -- 0:01:20 368000 -- (-12538.760) (-12534.788) (-12534.309) [-12536.258] * [-12540.203] (-12533.519) (-12539.611) (-12536.643) -- 0:01:20 368500 -- (-12536.778) (-12534.933) [-12535.380] (-12534.221) * (-12540.930) [-12537.453] (-12538.435) (-12537.810) -- 0:01:22 369000 -- (-12537.855) [-12534.321] (-12534.521) (-12534.905) * (-12545.458) (-12535.585) [-12539.694] (-12536.580) -- 0:01:22 369500 -- (-12548.357) (-12534.742) (-12538.362) [-12538.100] * (-12543.883) [-12535.040] (-12539.694) (-12536.974) -- 0:01:21 370000 -- (-12547.035) (-12538.111) (-12537.860) [-12536.320] * (-12547.700) (-12533.845) (-12539.957) [-12538.863] -- 0:01:21 Average standard deviation of split frequencies: 0.011820 370500 -- (-12540.072) (-12539.703) (-12538.842) [-12534.915] * (-12542.465) [-12535.029] (-12535.573) (-12536.124) -- 0:01:21 371000 -- (-12540.131) (-12538.315) [-12535.201] (-12539.014) * (-12539.010) (-12537.044) [-12535.293] (-12537.193) -- 0:01:21 371500 -- (-12533.928) (-12537.772) [-12539.991] (-12538.945) * (-12535.586) (-12538.335) [-12535.322] (-12540.521) -- 0:01:21 372000 -- [-12538.770] (-12537.441) (-12535.003) (-12537.141) * [-12534.997] (-12539.310) (-12535.397) (-12539.644) -- 0:01:21 372500 -- (-12540.273) (-12537.441) [-12535.576] (-12539.698) * (-12533.696) (-12533.912) [-12535.839] (-12541.321) -- 0:01:20 373000 -- (-12541.431) (-12534.353) (-12534.830) [-12538.539] * (-12534.523) [-12535.115] (-12535.645) (-12540.499) -- 0:01:20 373500 -- (-12534.738) (-12533.073) [-12535.339] (-12542.897) * (-12534.814) (-12535.176) (-12535.150) [-12539.038] -- 0:01:20 374000 -- [-12534.738] (-12535.548) (-12535.302) (-12538.562) * (-12537.307) (-12534.830) [-12537.927] (-12538.793) -- 0:01:20 374500 -- (-12535.606) (-12535.153) [-12536.046] (-12543.164) * [-12537.305] (-12536.249) (-12537.632) (-12539.719) -- 0:01:20 375000 -- (-12535.042) (-12537.123) (-12536.529) [-12538.675] * (-12537.268) (-12533.514) [-12537.925] (-12539.265) -- 0:01:20 Average standard deviation of split frequencies: 0.011210 375500 -- [-12537.642] (-12537.365) (-12536.214) (-12537.589) * (-12537.424) (-12537.038) (-12536.728) [-12537.319] -- 0:01:19 376000 -- (-12538.094) (-12537.254) [-12535.072] (-12536.756) * (-12537.355) [-12535.543] (-12538.202) (-12537.170) -- 0:01:19 376500 -- (-12538.195) (-12537.219) (-12538.078) [-12534.093] * [-12533.257] (-12537.543) (-12536.597) (-12540.136) -- 0:01:21 377000 -- (-12538.177) [-12536.397] (-12534.668) (-12537.949) * (-12534.965) [-12535.440] (-12536.051) (-12539.301) -- 0:01:20 377500 -- (-12540.895) [-12535.636] (-12539.295) (-12535.184) * (-12536.331) (-12537.848) (-12538.747) [-12537.747] -- 0:01:20 378000 -- (-12538.740) [-12534.267] (-12543.163) (-12534.837) * [-12533.881] (-12533.273) (-12534.787) (-12537.553) -- 0:01:20 378500 -- (-12539.654) (-12539.789) (-12539.192) [-12536.391] * (-12533.884) [-12534.281] (-12535.036) (-12539.121) -- 0:01:20 379000 -- (-12534.541) (-12544.968) (-12536.511) [-12538.882] * [-12536.933] (-12533.572) (-12537.818) (-12539.117) -- 0:01:20 379500 -- (-12537.199) [-12538.798] (-12537.189) (-12534.643) * (-12533.355) [-12537.338] (-12534.651) (-12538.335) -- 0:01:20 380000 -- (-12534.416) (-12538.798) [-12537.861] (-12541.149) * (-12534.076) (-12534.795) [-12535.218] (-12538.335) -- 0:01:19 Average standard deviation of split frequencies: 0.010139 380500 -- (-12537.152) (-12540.642) (-12539.731) [-12541.311] * [-12536.327] (-12533.960) (-12535.069) (-12535.534) -- 0:01:19 381000 -- (-12534.859) [-12540.642] (-12538.130) (-12541.083) * (-12535.626) [-12534.384] (-12540.789) (-12537.957) -- 0:01:19 381500 -- (-12538.131) (-12537.593) (-12537.023) [-12535.023] * (-12535.688) (-12537.729) [-12536.282] (-12538.335) -- 0:01:19 382000 -- (-12541.135) [-12540.601] (-12540.232) (-12533.574) * [-12533.139] (-12535.748) (-12535.001) (-12539.321) -- 0:01:19 382500 -- (-12541.910) [-12536.836] (-12536.832) (-12537.833) * [-12537.146] (-12541.870) (-12536.753) (-12538.139) -- 0:01:19 383000 -- (-12535.698) (-12537.289) [-12538.568] (-12533.878) * (-12534.795) (-12537.363) [-12538.053] (-12537.464) -- 0:01:18 383500 -- (-12540.598) [-12536.351] (-12541.871) (-12536.596) * (-12534.168) (-12536.558) (-12538.999) [-12537.547] -- 0:01:18 384000 -- (-12534.519) (-12534.735) (-12540.974) [-12534.600] * [-12538.915] (-12537.594) (-12535.789) (-12535.678) -- 0:01:18 384500 -- (-12540.861) (-12536.398) [-12540.853] (-12534.888) * [-12535.231] (-12538.022) (-12537.180) (-12536.910) -- 0:01:20 385000 -- [-12534.398] (-12538.311) (-12542.148) (-12534.857) * [-12535.878] (-12537.441) (-12537.944) (-12534.818) -- 0:01:19 Average standard deviation of split frequencies: 0.010610 385500 -- (-12535.638) (-12538.551) (-12541.481) [-12539.445] * (-12535.890) (-12536.766) [-12537.841] (-12537.335) -- 0:01:19 386000 -- (-12535.675) [-12534.939] (-12541.552) (-12540.087) * (-12537.488) (-12536.238) [-12538.106] (-12535.629) -- 0:01:19 386500 -- [-12536.853] (-12539.335) (-12539.679) (-12541.219) * (-12537.458) (-12535.088) (-12539.417) [-12536.462] -- 0:01:19 387000 -- (-12538.489) (-12539.641) [-12536.620] (-12537.211) * [-12539.237] (-12538.661) (-12539.097) (-12534.372) -- 0:01:19 387500 -- (-12537.423) [-12535.915] (-12536.541) (-12536.486) * (-12539.617) (-12537.974) (-12536.273) [-12535.397] -- 0:01:19 388000 -- (-12540.300) [-12539.881] (-12536.079) (-12538.126) * (-12540.738) (-12537.492) [-12536.107] (-12533.732) -- 0:01:18 388500 -- [-12539.995] (-12536.710) (-12542.543) (-12541.589) * (-12541.201) (-12537.670) (-12538.621) [-12534.952] -- 0:01:18 389000 -- (-12534.785) [-12538.046] (-12549.940) (-12542.420) * [-12536.767] (-12537.670) (-12535.952) (-12534.709) -- 0:01:18 389500 -- (-12539.891) (-12540.146) [-12539.271] (-12545.377) * [-12538.013] (-12537.671) (-12538.919) (-12534.186) -- 0:01:18 390000 -- [-12538.426] (-12540.216) (-12538.724) (-12544.755) * [-12538.251] (-12537.671) (-12540.667) (-12538.163) -- 0:01:18 Average standard deviation of split frequencies: 0.010332 390500 -- (-12540.991) (-12538.472) [-12537.568] (-12546.337) * (-12538.251) [-12535.412] (-12536.536) (-12535.239) -- 0:01:18 391000 -- (-12538.824) (-12535.094) [-12534.897] (-12540.225) * (-12538.110) (-12537.129) (-12540.601) [-12534.225] -- 0:01:17 391500 -- (-12539.295) (-12539.107) [-12535.384] (-12538.036) * [-12538.099] (-12536.333) (-12539.880) (-12533.593) -- 0:01:17 392000 -- [-12537.204] (-12538.579) (-12535.198) (-12539.704) * [-12536.497] (-12537.118) (-12539.087) (-12533.888) -- 0:01:19 392500 -- (-12536.538) [-12534.733] (-12537.496) (-12536.150) * (-12535.158) [-12538.121] (-12537.327) (-12536.005) -- 0:01:18 393000 -- (-12539.782) (-12536.567) [-12537.283] (-12535.871) * (-12538.414) (-12538.108) (-12541.577) [-12534.520] -- 0:01:18 393500 -- (-12538.440) (-12538.018) [-12537.383] (-12535.750) * [-12536.009] (-12538.108) (-12539.746) (-12536.519) -- 0:01:18 394000 -- (-12535.952) [-12536.257] (-12541.446) (-12537.182) * [-12535.732] (-12538.108) (-12538.993) (-12539.367) -- 0:01:18 394500 -- (-12537.374) [-12535.234] (-12541.444) (-12536.324) * [-12534.505] (-12538.409) (-12534.126) (-12538.967) -- 0:01:18 395000 -- (-12538.829) (-12534.759) (-12537.700) [-12539.408] * (-12535.907) (-12538.409) [-12538.455] (-12539.344) -- 0:01:18 Average standard deviation of split frequencies: 0.009970 395500 -- [-12533.893] (-12537.584) (-12534.664) (-12535.164) * (-12537.513) (-12537.029) (-12534.686) [-12539.344] -- 0:01:17 396000 -- (-12534.228) [-12537.339] (-12535.435) (-12539.417) * (-12533.524) [-12534.251] (-12535.258) (-12539.344) -- 0:01:17 396500 -- (-12537.163) (-12536.712) (-12536.452) [-12535.535] * [-12535.136] (-12534.707) (-12535.075) (-12539.097) -- 0:01:17 397000 -- [-12537.665] (-12537.556) (-12539.065) (-12533.725) * (-12535.063) [-12537.501] (-12538.599) (-12538.962) -- 0:01:17 397500 -- (-12541.043) (-12536.501) (-12537.196) [-12533.665] * [-12536.724] (-12537.804) (-12535.370) (-12535.890) -- 0:01:17 398000 -- (-12538.545) (-12539.009) [-12535.704] (-12537.684) * (-12537.027) [-12539.249] (-12535.414) (-12535.082) -- 0:01:17 398500 -- (-12539.277) (-12535.824) [-12536.567] (-12535.072) * (-12536.178) (-12539.777) (-12537.118) [-12533.965] -- 0:01:16 399000 -- (-12533.146) (-12536.314) [-12536.638] (-12537.655) * [-12538.004] (-12543.789) (-12535.165) (-12534.541) -- 0:01:16 399500 -- (-12535.611) (-12538.139) [-12536.364] (-12535.983) * (-12537.370) [-12543.241] (-12534.388) (-12534.630) -- 0:01:16 400000 -- [-12535.092] (-12537.493) (-12536.552) (-12537.557) * (-12536.384) (-12539.129) [-12534.750] (-12535.265) -- 0:01:18 Average standard deviation of split frequencies: 0.010295 400500 -- (-12537.241) [-12537.378] (-12537.090) (-12539.023) * (-12534.811) (-12537.153) [-12536.691] (-12536.034) -- 0:01:17 401000 -- (-12538.809) (-12538.208) (-12534.524) [-12537.033] * (-12535.309) (-12535.498) [-12536.232] (-12536.738) -- 0:01:17 401500 -- [-12534.755] (-12537.479) (-12536.415) (-12538.059) * (-12535.971) [-12535.078] (-12534.520) (-12539.138) -- 0:01:17 402000 -- (-12535.757) [-12535.688] (-12535.470) (-12535.664) * (-12536.892) [-12538.736] (-12536.660) (-12539.287) -- 0:01:17 402500 -- (-12535.758) (-12535.974) (-12539.536) [-12535.535] * [-12538.651] (-12537.500) (-12534.378) (-12538.087) -- 0:01:17 403000 -- [-12535.117] (-12535.989) (-12536.136) (-12534.086) * (-12533.923) (-12540.292) [-12533.191] (-12538.087) -- 0:01:17 403500 -- [-12536.817] (-12537.403) (-12535.349) (-12534.641) * [-12535.175] (-12536.880) (-12535.565) (-12538.452) -- 0:01:16 404000 -- (-12533.884) (-12542.569) [-12537.182] (-12535.893) * [-12536.106] (-12537.507) (-12538.484) (-12538.453) -- 0:01:16 404500 -- (-12533.862) (-12540.498) (-12542.914) [-12534.983] * (-12540.659) (-12539.516) [-12537.057] (-12537.893) -- 0:01:16 405000 -- (-12534.380) (-12536.108) [-12538.376] (-12537.015) * (-12536.480) (-12539.142) [-12534.296] (-12537.879) -- 0:01:16 Average standard deviation of split frequencies: 0.011288 405500 -- (-12535.272) [-12538.579] (-12537.802) (-12541.358) * (-12535.596) [-12535.903] (-12535.975) (-12537.370) -- 0:01:16 406000 -- [-12538.331] (-12538.056) (-12536.173) (-12537.195) * (-12536.732) (-12533.891) [-12535.672] (-12535.210) -- 0:01:16 406500 -- (-12537.596) [-12537.847] (-12536.088) (-12537.759) * (-12539.079) (-12536.112) [-12537.387] (-12534.569) -- 0:01:15 407000 -- (-12537.761) [-12535.711] (-12534.420) (-12539.361) * (-12537.758) (-12537.651) (-12536.497) [-12537.929] -- 0:01:15 407500 -- (-12542.643) (-12538.490) [-12536.185] (-12543.576) * (-12538.610) [-12538.385] (-12535.423) (-12534.974) -- 0:01:17 408000 -- (-12541.560) (-12534.139) [-12536.419] (-12541.133) * (-12546.390) (-12538.212) [-12535.118] (-12539.650) -- 0:01:16 408500 -- (-12536.175) (-12533.982) (-12537.052) [-12536.666] * (-12548.023) [-12538.235] (-12533.550) (-12539.758) -- 0:01:16 409000 -- (-12535.353) [-12533.618] (-12538.066) (-12537.005) * (-12542.519) (-12539.048) [-12536.271] (-12539.984) -- 0:01:16 409500 -- (-12538.924) [-12536.364] (-12537.645) (-12539.713) * (-12534.038) (-12544.114) (-12534.487) [-12537.232] -- 0:01:16 410000 -- (-12542.087) (-12533.502) [-12537.546] (-12538.580) * [-12535.875] (-12542.616) (-12534.647) (-12535.846) -- 0:01:16 Average standard deviation of split frequencies: 0.011276 410500 -- (-12537.444) (-12537.352) [-12538.357] (-12535.064) * (-12537.235) (-12539.315) (-12538.778) [-12536.480] -- 0:01:16 411000 -- (-12540.330) (-12535.020) [-12537.548] (-12537.755) * (-12539.612) (-12539.032) [-12537.865] (-12536.391) -- 0:01:15 411500 -- (-12540.330) [-12536.180] (-12538.218) (-12533.218) * (-12534.464) (-12536.103) (-12537.723) [-12535.985] -- 0:01:15 412000 -- (-12540.330) (-12535.150) (-12539.269) [-12534.913] * (-12538.155) (-12539.037) (-12536.851) [-12537.943] -- 0:01:15 412500 -- (-12538.937) [-12534.890] (-12534.853) (-12534.259) * (-12539.993) (-12540.956) [-12534.843] (-12537.980) -- 0:01:15 413000 -- (-12537.840) [-12535.579] (-12536.532) (-12535.156) * (-12533.975) [-12541.306] (-12534.374) (-12537.976) -- 0:01:15 413500 -- (-12539.460) [-12538.040] (-12536.130) (-12542.351) * (-12538.133) (-12542.744) (-12533.287) [-12536.793] -- 0:01:15 414000 -- (-12538.355) [-12537.040] (-12535.149) (-12539.400) * (-12543.700) (-12539.972) [-12535.910] (-12537.559) -- 0:01:15 414500 -- (-12538.188) (-12535.254) [-12535.407] (-12542.209) * (-12538.851) (-12535.898) (-12535.386) [-12537.386] -- 0:01:14 415000 -- [-12533.807] (-12540.256) (-12537.466) (-12543.388) * [-12536.206] (-12537.290) (-12540.119) (-12537.480) -- 0:01:14 Average standard deviation of split frequencies: 0.010694 415500 -- [-12535.858] (-12539.530) (-12538.043) (-12539.991) * (-12537.914) (-12539.721) (-12540.437) [-12536.859] -- 0:01:15 416000 -- (-12537.524) [-12536.655] (-12537.903) (-12535.626) * (-12533.650) (-12536.592) (-12540.454) [-12546.624] -- 0:01:15 416500 -- (-12536.549) [-12534.782] (-12535.652) (-12534.354) * (-12537.364) (-12534.409) [-12537.263] (-12546.072) -- 0:01:15 417000 -- [-12534.243] (-12538.904) (-12533.385) (-12538.373) * [-12537.963] (-12535.656) (-12537.594) (-12539.618) -- 0:01:15 417500 -- (-12535.220) (-12537.048) (-12539.997) [-12534.915] * (-12534.378) (-12534.644) (-12535.285) [-12536.720] -- 0:01:15 418000 -- [-12534.510] (-12536.540) (-12537.718) (-12535.541) * (-12535.022) (-12537.924) [-12537.931] (-12539.978) -- 0:01:15 418500 -- [-12535.011] (-12536.676) (-12534.557) (-12536.096) * (-12537.019) [-12534.660] (-12540.141) (-12539.016) -- 0:01:15 419000 -- (-12535.323) (-12534.639) (-12537.546) [-12534.337] * (-12534.191) [-12534.700] (-12540.400) (-12535.818) -- 0:01:14 419500 -- (-12534.076) (-12534.782) (-12540.459) [-12534.603] * (-12533.947) [-12535.766] (-12541.551) (-12535.380) -- 0:01:14 420000 -- [-12535.869] (-12537.013) (-12539.533) (-12541.286) * [-12534.586] (-12535.211) (-12541.645) (-12538.984) -- 0:01:14 Average standard deviation of split frequencies: 0.010646 420500 -- (-12535.101) [-12535.690] (-12533.929) (-12536.681) * (-12536.085) (-12535.894) (-12541.687) [-12533.399] -- 0:01:14 421000 -- [-12536.830] (-12534.580) (-12537.185) (-12537.873) * (-12535.422) (-12534.907) [-12536.879] (-12536.441) -- 0:01:14 421500 -- (-12537.274) (-12536.027) [-12540.862] (-12537.892) * (-12535.451) (-12537.487) (-12540.587) [-12536.182] -- 0:01:14 422000 -- (-12536.520) [-12538.357] (-12539.222) (-12545.744) * (-12534.685) (-12533.230) (-12538.355) [-12534.860] -- 0:01:13 422500 -- (-12538.992) (-12538.600) [-12537.909] (-12538.895) * [-12535.432] (-12535.833) (-12539.249) (-12536.099) -- 0:01:13 423000 -- (-12538.181) [-12533.616] (-12541.121) (-12542.946) * (-12536.928) (-12536.743) (-12540.215) [-12534.245] -- 0:01:13 423500 -- (-12535.327) [-12534.539] (-12538.728) (-12537.959) * (-12537.065) (-12541.138) [-12539.446] (-12534.929) -- 0:01:14 424000 -- [-12534.932] (-12535.344) (-12537.844) (-12539.825) * (-12536.551) (-12534.924) (-12542.590) [-12537.915] -- 0:01:14 424500 -- (-12538.046) [-12535.707] (-12539.154) (-12536.242) * [-12533.790] (-12537.193) (-12538.814) (-12536.433) -- 0:01:14 425000 -- [-12538.269] (-12539.647) (-12541.135) (-12537.375) * (-12536.189) (-12537.287) (-12540.245) [-12540.089] -- 0:01:14 Average standard deviation of split frequencies: 0.010582 425500 -- [-12542.102] (-12539.874) (-12539.061) (-12537.937) * [-12538.902] (-12537.127) (-12542.917) (-12537.108) -- 0:01:14 426000 -- (-12541.718) (-12537.651) [-12534.847] (-12538.936) * (-12535.863) [-12533.014] (-12539.231) (-12538.938) -- 0:01:14 426500 -- (-12541.660) [-12539.613] (-12538.434) (-12535.710) * [-12537.299] (-12538.238) (-12536.197) (-12539.206) -- 0:01:13 427000 -- (-12542.219) (-12539.015) [-12536.391] (-12534.893) * (-12540.004) (-12533.521) [-12537.229] (-12537.750) -- 0:01:13 427500 -- (-12540.156) [-12538.125] (-12534.646) (-12534.906) * (-12539.304) (-12533.815) [-12534.195] (-12535.870) -- 0:01:13 428000 -- (-12538.415) (-12536.254) (-12536.735) [-12536.064] * (-12535.695) [-12535.257] (-12537.002) (-12535.328) -- 0:01:13 428500 -- (-12540.615) [-12535.841] (-12538.797) (-12535.252) * (-12537.977) (-12538.812) (-12535.500) [-12535.007] -- 0:01:13 429000 -- (-12545.983) [-12535.286] (-12536.641) (-12536.854) * (-12534.202) (-12538.826) [-12535.284] (-12533.881) -- 0:01:13 429500 -- (-12542.590) (-12537.942) [-12537.660] (-12534.773) * (-12536.140) [-12534.726] (-12540.357) (-12535.280) -- 0:01:13 430000 -- (-12536.928) [-12535.415] (-12539.655) (-12539.191) * (-12535.541) (-12535.275) (-12538.063) [-12536.024] -- 0:01:12 Average standard deviation of split frequencies: 0.010535 430500 -- [-12533.734] (-12533.986) (-12538.770) (-12543.388) * (-12537.695) (-12534.566) [-12537.305] (-12536.571) -- 0:01:12 431000 -- [-12534.036] (-12536.006) (-12537.022) (-12541.555) * (-12538.061) [-12536.054] (-12541.791) (-12537.878) -- 0:01:13 431500 -- (-12537.134) (-12535.779) (-12536.105) [-12538.626] * (-12535.496) [-12535.692] (-12542.722) (-12539.112) -- 0:01:13 432000 -- (-12535.226) [-12533.138] (-12541.764) (-12537.826) * [-12535.278] (-12535.459) (-12542.747) (-12538.148) -- 0:01:13 432500 -- (-12533.571) [-12533.062] (-12541.732) (-12539.082) * [-12535.434] (-12539.055) (-12540.181) (-12537.205) -- 0:01:13 433000 -- (-12534.302) (-12534.746) (-12539.601) [-12535.525] * (-12533.859) (-12535.917) (-12539.781) [-12536.371] -- 0:01:13 433500 -- (-12535.359) [-12533.608] (-12542.554) (-12537.259) * (-12536.485) (-12538.481) (-12542.035) [-12535.461] -- 0:01:13 434000 -- [-12534.850] (-12534.024) (-12540.288) (-12535.995) * (-12536.983) [-12539.407] (-12542.462) (-12538.881) -- 0:01:13 434500 -- (-12533.984) (-12535.918) [-12538.468] (-12536.524) * (-12539.122) (-12539.150) (-12537.176) [-12538.793] -- 0:01:12 435000 -- [-12534.269] (-12534.499) (-12536.731) (-12534.546) * [-12535.597] (-12537.774) (-12538.040) (-12540.294) -- 0:01:12 Average standard deviation of split frequencies: 0.010542 435500 -- [-12533.578] (-12535.586) (-12536.119) (-12538.184) * [-12535.794] (-12538.903) (-12538.982) (-12539.443) -- 0:01:12 436000 -- (-12532.606) [-12534.733] (-12539.893) (-12542.994) * (-12536.114) (-12535.049) [-12537.023] (-12538.159) -- 0:01:12 436500 -- (-12533.057) (-12536.343) [-12537.419] (-12534.117) * (-12536.353) (-12539.228) [-12535.196] (-12539.905) -- 0:01:12 437000 -- (-12535.186) (-12541.453) (-12538.399) [-12535.302] * [-12534.484] (-12539.187) (-12538.076) (-12537.455) -- 0:01:12 437500 -- (-12535.446) (-12537.809) (-12536.251) [-12535.638] * (-12533.142) (-12533.344) [-12536.326] (-12537.794) -- 0:01:12 438000 -- (-12537.422) (-12536.059) (-12538.606) [-12536.455] * (-12536.579) [-12536.007] (-12540.759) (-12537.611) -- 0:01:11 438500 -- (-12533.710) (-12537.184) [-12538.992] (-12536.792) * (-12537.942) (-12537.384) [-12536.893] (-12535.694) -- 0:01:11 439000 -- [-12536.292] (-12539.410) (-12536.918) (-12534.330) * (-12535.345) (-12537.990) [-12540.266] (-12537.421) -- 0:01:12 439500 -- (-12539.049) (-12537.250) [-12538.879] (-12538.223) * [-12533.517] (-12538.340) (-12542.774) (-12535.114) -- 0:01:12 440000 -- (-12536.792) [-12535.645] (-12539.900) (-12537.755) * (-12534.760) (-12536.409) (-12536.060) [-12536.029] -- 0:01:12 Average standard deviation of split frequencies: 0.009293 440500 -- (-12535.288) (-12541.788) (-12542.901) [-12538.003] * (-12537.132) (-12540.361) (-12534.666) [-12536.844] -- 0:01:12 441000 -- (-12535.284) [-12536.795] (-12542.496) (-12536.534) * (-12536.932) (-12536.381) [-12534.114] (-12541.403) -- 0:01:12 441500 -- [-12534.235] (-12543.299) (-12545.284) (-12535.725) * (-12536.784) (-12535.990) [-12535.208] (-12537.818) -- 0:01:12 442000 -- [-12533.664] (-12537.740) (-12539.587) (-12537.915) * (-12539.844) (-12537.894) [-12535.047] (-12537.198) -- 0:01:11 442500 -- (-12536.863) (-12538.630) (-12541.063) [-12538.707] * (-12540.636) (-12537.510) (-12537.323) [-12537.802] -- 0:01:11 443000 -- (-12535.480) (-12539.817) (-12542.860) [-12537.497] * [-12539.862] (-12538.981) (-12539.072) (-12538.974) -- 0:01:11 443500 -- (-12535.900) (-12541.202) [-12538.793] (-12539.913) * (-12541.116) (-12538.927) (-12536.238) [-12538.734] -- 0:01:11 444000 -- (-12537.774) [-12540.446] (-12540.495) (-12538.049) * (-12539.018) (-12539.831) (-12536.003) [-12540.091] -- 0:01:11 444500 -- (-12537.441) [-12542.469] (-12542.737) (-12537.019) * (-12538.700) (-12540.614) [-12536.420] (-12539.407) -- 0:01:11 445000 -- (-12535.683) (-12534.487) (-12541.381) [-12537.025] * [-12538.880] (-12536.774) (-12537.929) (-12535.010) -- 0:01:11 Average standard deviation of split frequencies: 0.009579 445500 -- (-12536.103) (-12535.470) (-12541.454) [-12537.898] * [-12538.739] (-12536.760) (-12537.103) (-12535.296) -- 0:01:10 446000 -- (-12535.023) [-12535.058] (-12540.443) (-12539.061) * (-12538.726) [-12534.217] (-12534.145) (-12536.338) -- 0:01:10 446500 -- [-12538.048] (-12537.378) (-12541.759) (-12538.918) * (-12535.338) (-12534.382) (-12536.898) [-12535.918] -- 0:01:11 447000 -- (-12535.117) (-12533.761) (-12541.508) [-12538.748] * (-12534.976) [-12536.131] (-12536.411) (-12534.695) -- 0:01:11 447500 -- (-12537.350) (-12538.720) (-12537.947) [-12540.896] * (-12535.780) [-12536.735] (-12534.750) (-12536.905) -- 0:01:11 448000 -- (-12535.030) (-12538.705) (-12541.675) [-12539.269] * (-12537.933) [-12536.054] (-12540.141) (-12537.688) -- 0:01:11 448500 -- (-12536.586) [-12538.517] (-12537.228) (-12539.932) * (-12534.678) (-12537.407) [-12540.252] (-12536.198) -- 0:01:11 449000 -- (-12534.241) [-12536.661] (-12542.074) (-12542.121) * (-12534.484) [-12533.922] (-12536.330) (-12537.005) -- 0:01:11 449500 -- (-12538.897) [-12536.612] (-12543.372) (-12542.176) * (-12538.193) (-12534.146) (-12537.333) [-12535.610] -- 0:01:11 450000 -- [-12538.098] (-12536.011) (-12545.570) (-12541.213) * (-12538.193) (-12534.542) (-12534.484) [-12538.226] -- 0:01:10 Average standard deviation of split frequencies: 0.009414 450500 -- [-12537.405] (-12537.436) (-12534.819) (-12540.471) * [-12533.263] (-12536.095) (-12535.810) (-12535.541) -- 0:01:10 451000 -- (-12536.544) (-12537.214) (-12534.867) [-12538.895] * (-12537.463) (-12535.762) (-12535.021) [-12535.679] -- 0:01:10 451500 -- (-12536.840) [-12536.510] (-12538.528) (-12534.405) * (-12537.460) [-12533.541] (-12532.710) (-12536.263) -- 0:01:10 452000 -- [-12534.982] (-12534.778) (-12538.689) (-12536.278) * (-12535.217) [-12538.003] (-12536.221) (-12539.306) -- 0:01:10 452500 -- (-12535.737) [-12535.807] (-12537.987) (-12534.796) * (-12534.967) [-12537.013] (-12540.424) (-12537.502) -- 0:01:10 453000 -- [-12535.610] (-12537.033) (-12537.228) (-12535.890) * (-12534.727) (-12533.915) [-12540.174] (-12538.780) -- 0:01:10 453500 -- (-12537.429) (-12538.054) (-12537.802) [-12537.825] * (-12537.918) (-12534.485) (-12539.592) [-12538.252] -- 0:01:09 454000 -- (-12546.251) (-12538.054) (-12537.520) [-12534.863] * (-12541.421) [-12537.295] (-12536.935) (-12536.210) -- 0:01:09 454500 -- (-12546.117) [-12538.890] (-12533.664) (-12538.412) * (-12541.177) (-12538.662) (-12536.985) [-12532.972] -- 0:01:10 455000 -- (-12538.302) (-12539.953) (-12534.238) [-12535.354] * (-12542.419) (-12533.258) [-12534.415] (-12534.834) -- 0:01:10 Average standard deviation of split frequencies: 0.008658 455500 -- (-12535.825) (-12539.114) (-12536.083) [-12534.945] * (-12540.108) (-12533.722) (-12535.239) [-12534.447] -- 0:01:10 456000 -- (-12540.236) (-12536.178) [-12535.832] (-12535.794) * (-12538.897) (-12536.421) [-12534.223] (-12537.587) -- 0:01:10 456500 -- (-12541.680) (-12539.354) [-12535.597] (-12538.369) * [-12539.456] (-12538.898) (-12537.035) (-12537.616) -- 0:01:10 457000 -- (-12541.680) (-12540.383) [-12535.598] (-12538.554) * (-12534.043) (-12537.209) (-12536.768) [-12537.381] -- 0:01:10 457500 -- [-12540.569] (-12537.692) (-12536.611) (-12538.554) * (-12536.667) (-12534.894) [-12537.077] (-12535.527) -- 0:01:09 458000 -- (-12540.556) (-12537.589) [-12535.581] (-12537.926) * [-12538.181] (-12536.938) (-12539.465) (-12539.186) -- 0:01:09 458500 -- (-12538.923) [-12534.042] (-12538.174) (-12538.185) * (-12538.339) [-12539.276] (-12535.439) (-12537.003) -- 0:01:09 459000 -- (-12536.363) [-12538.687] (-12538.174) (-12538.785) * [-12540.701] (-12538.715) (-12536.363) (-12537.951) -- 0:01:09 459500 -- (-12537.014) (-12538.251) (-12539.760) [-12535.041] * [-12536.472] (-12537.416) (-12539.836) (-12538.086) -- 0:01:09 460000 -- (-12537.262) (-12536.765) (-12538.991) [-12535.646] * (-12536.978) [-12534.314] (-12536.792) (-12536.740) -- 0:01:09 Average standard deviation of split frequencies: 0.008698 460500 -- (-12538.845) (-12537.895) (-12538.721) [-12533.489] * [-12535.925] (-12535.802) (-12539.534) (-12535.160) -- 0:01:09 461000 -- (-12536.634) (-12537.382) (-12542.366) [-12532.867] * (-12535.890) (-12537.267) (-12535.425) [-12535.298] -- 0:01:08 461500 -- (-12535.160) [-12535.423] (-12539.520) (-12535.838) * [-12538.122] (-12537.743) (-12543.188) (-12538.931) -- 0:01:08 462000 -- (-12539.613) [-12536.101] (-12536.975) (-12536.740) * (-12537.660) (-12540.176) (-12537.645) [-12534.311] -- 0:01:08 462500 -- (-12539.412) (-12534.991) (-12536.991) [-12535.868] * [-12534.303] (-12540.570) (-12537.099) (-12539.334) -- 0:01:09 463000 -- [-12534.306] (-12540.404) (-12535.294) (-12534.489) * (-12537.214) (-12537.463) (-12534.694) [-12538.826] -- 0:01:09 463500 -- (-12534.814) (-12537.392) (-12535.697) [-12534.727] * (-12537.214) (-12535.198) (-12537.770) [-12540.145] -- 0:01:09 464000 -- (-12538.011) [-12536.883] (-12537.514) (-12533.624) * (-12537.399) [-12536.093] (-12539.280) (-12541.369) -- 0:01:09 464500 -- (-12539.506) (-12535.440) [-12536.089] (-12537.757) * [-12537.399] (-12535.304) (-12539.461) (-12539.047) -- 0:01:09 465000 -- (-12539.472) (-12536.864) (-12538.227) [-12537.860] * (-12537.728) (-12537.679) [-12533.641] (-12536.563) -- 0:01:09 Average standard deviation of split frequencies: 0.008662 465500 -- [-12539.202] (-12536.249) (-12535.990) (-12535.078) * (-12538.663) (-12539.589) [-12540.304] (-12537.803) -- 0:01:08 466000 -- (-12537.012) (-12536.203) (-12536.796) [-12537.051] * (-12539.134) [-12536.860] (-12535.427) (-12536.471) -- 0:01:08 466500 -- (-12534.864) (-12538.585) (-12538.771) [-12534.731] * (-12540.677) (-12537.251) (-12533.436) [-12536.588] -- 0:01:08 467000 -- (-12535.948) (-12537.947) (-12538.208) [-12534.303] * (-12539.433) (-12538.367) [-12534.481] (-12535.502) -- 0:01:08 467500 -- [-12535.242] (-12537.947) (-12539.426) (-12535.665) * (-12544.315) (-12540.354) [-12536.034] (-12537.933) -- 0:01:08 468000 -- (-12534.225) (-12537.808) [-12542.057] (-12537.818) * [-12539.549] (-12539.875) (-12536.696) (-12537.294) -- 0:01:08 468500 -- (-12533.908) [-12534.683] (-12539.867) (-12536.322) * (-12539.145) (-12540.708) (-12537.884) [-12534.579] -- 0:01:08 469000 -- [-12533.454] (-12535.102) (-12545.806) (-12536.403) * (-12541.487) (-12535.525) [-12536.393] (-12535.485) -- 0:01:07 469500 -- (-12534.475) (-12534.010) (-12541.333) [-12534.699] * (-12539.982) (-12533.358) [-12534.631] (-12534.338) -- 0:01:07 470000 -- (-12536.855) (-12534.040) (-12538.511) [-12535.871] * (-12542.680) (-12534.471) (-12537.598) [-12536.034] -- 0:01:07 Average standard deviation of split frequencies: 0.008013 470500 -- (-12537.167) (-12534.325) [-12537.783] (-12535.487) * (-12541.554) (-12535.625) (-12533.579) [-12533.715] -- 0:01:08 471000 -- (-12540.722) (-12534.754) [-12537.001] (-12536.754) * (-12540.972) (-12534.749) (-12534.390) [-12534.124] -- 0:01:08 471500 -- (-12535.669) [-12536.857] (-12540.502) (-12536.226) * (-12538.047) [-12533.146] (-12536.327) (-12533.637) -- 0:01:08 472000 -- [-12534.244] (-12538.813) (-12538.696) (-12538.568) * (-12536.011) [-12535.454] (-12540.261) (-12538.284) -- 0:01:08 472500 -- [-12536.082] (-12538.870) (-12534.082) (-12536.520) * (-12538.293) (-12538.067) [-12538.328] (-12538.177) -- 0:01:08 473000 -- [-12536.535] (-12540.628) (-12535.156) (-12536.408) * (-12535.579) (-12543.154) (-12540.480) [-12532.862] -- 0:01:07 473500 -- (-12537.475) (-12541.778) (-12536.613) [-12537.862] * [-12535.381] (-12535.579) (-12535.911) (-12536.098) -- 0:01:07 474000 -- (-12533.719) (-12535.783) (-12539.776) [-12538.990] * (-12535.348) (-12536.120) (-12535.569) [-12534.894] -- 0:01:07 474500 -- [-12538.094] (-12535.880) (-12535.437) (-12536.172) * (-12536.143) [-12535.422] (-12534.942) (-12536.402) -- 0:01:07 475000 -- [-12534.169] (-12534.159) (-12535.989) (-12535.322) * (-12537.506) [-12536.406] (-12535.179) (-12535.669) -- 0:01:07 Average standard deviation of split frequencies: 0.007489 475500 -- (-12534.914) (-12535.780) (-12538.317) [-12536.196] * (-12539.010) (-12538.849) [-12535.020] (-12538.674) -- 0:01:07 476000 -- (-12535.689) (-12538.597) [-12537.302] (-12536.236) * (-12541.018) [-12539.082] (-12536.786) (-12538.034) -- 0:01:07 476500 -- (-12534.636) (-12539.534) [-12536.082] (-12535.236) * (-12537.414) (-12538.776) (-12536.685) [-12534.507] -- 0:01:07 477000 -- (-12535.547) (-12538.562) (-12538.287) [-12535.072] * (-12537.027) (-12536.418) [-12537.215] (-12534.035) -- 0:01:06 477500 -- (-12536.352) (-12538.346) (-12537.525) [-12537.185] * [-12538.127] (-12536.143) (-12536.156) (-12537.448) -- 0:01:06 478000 -- (-12540.841) (-12537.928) (-12536.838) [-12537.204] * (-12537.146) [-12537.421] (-12538.554) (-12537.448) -- 0:01:07 478500 -- (-12540.769) (-12540.597) (-12533.712) [-12540.210] * (-12537.835) [-12535.292] (-12538.510) (-12537.448) -- 0:01:07 479000 -- [-12542.738] (-12539.343) (-12537.359) (-12536.923) * (-12537.870) (-12533.498) [-12538.295] (-12534.672) -- 0:01:07 479500 -- (-12536.773) [-12535.876] (-12538.446) (-12535.887) * (-12537.140) (-12533.020) (-12536.214) [-12534.997] -- 0:01:07 480000 -- (-12537.143) [-12540.360] (-12540.852) (-12535.006) * [-12536.701] (-12532.529) (-12538.869) (-12534.854) -- 0:01:07 Average standard deviation of split frequencies: 0.007355 480500 -- (-12534.952) [-12533.008] (-12538.759) (-12536.664) * (-12538.696) [-12538.341] (-12537.736) (-12538.289) -- 0:01:07 481000 -- (-12536.296) [-12537.541] (-12544.284) (-12537.074) * (-12536.604) (-12536.562) [-12536.566] (-12538.408) -- 0:01:06 481500 -- (-12537.572) [-12537.041] (-12540.989) (-12544.292) * (-12538.736) [-12533.298] (-12535.911) (-12536.089) -- 0:01:06 482000 -- (-12539.335) (-12536.077) (-12538.241) [-12535.503] * (-12538.136) (-12537.381) [-12535.539] (-12535.802) -- 0:01:06 482500 -- [-12544.867] (-12537.128) (-12535.257) (-12536.181) * (-12539.930) (-12536.097) [-12538.303] (-12539.417) -- 0:01:06 483000 -- [-12539.204] (-12536.198) (-12535.809) (-12536.254) * (-12538.619) (-12537.979) (-12538.555) [-12535.823] -- 0:01:06 483500 -- (-12536.900) [-12534.475] (-12535.228) (-12537.706) * (-12539.342) (-12537.778) [-12537.712] (-12535.987) -- 0:01:06 484000 -- [-12535.642] (-12536.369) (-12536.131) (-12538.793) * (-12539.746) [-12536.451] (-12536.108) (-12538.690) -- 0:01:06 484500 -- [-12538.774] (-12537.702) (-12539.912) (-12536.292) * (-12538.028) (-12538.046) [-12536.403] (-12538.819) -- 0:01:05 485000 -- (-12539.204) [-12536.549] (-12538.013) (-12539.291) * [-12537.460] (-12538.118) (-12538.826) (-12538.874) -- 0:01:05 Average standard deviation of split frequencies: 0.007988 485500 -- [-12538.164] (-12536.524) (-12538.433) (-12541.101) * (-12535.384) (-12535.424) (-12538.794) [-12535.047] -- 0:01:05 486000 -- (-12540.664) (-12536.034) [-12535.654] (-12536.916) * (-12535.784) [-12535.759] (-12537.267) (-12538.655) -- 0:01:06 486500 -- (-12534.595) (-12536.563) [-12537.522] (-12541.010) * (-12537.579) (-12536.082) (-12535.244) [-12536.664] -- 0:01:06 487000 -- (-12535.647) [-12534.712] (-12536.252) (-12538.804) * (-12538.213) [-12538.005] (-12535.002) (-12534.276) -- 0:01:06 487500 -- (-12535.761) [-12535.129] (-12536.140) (-12539.111) * (-12537.969) (-12534.435) [-12537.337] (-12536.234) -- 0:01:06 488000 -- (-12540.517) [-12535.840] (-12535.911) (-12540.641) * (-12538.961) [-12535.781] (-12537.884) (-12538.566) -- 0:01:06 488500 -- (-12537.695) (-12535.196) [-12535.692] (-12539.337) * [-12538.914] (-12539.837) (-12538.337) (-12535.397) -- 0:01:05 489000 -- (-12535.908) [-12536.223] (-12535.380) (-12538.933) * (-12537.015) (-12540.556) [-12537.962] (-12537.397) -- 0:01:05 489500 -- (-12539.666) (-12538.364) (-12534.309) [-12536.435] * (-12539.999) (-12541.242) (-12537.951) [-12536.594] -- 0:01:05 490000 -- (-12539.157) (-12540.760) [-12535.057] (-12535.756) * (-12538.930) (-12539.927) [-12538.700] (-12537.568) -- 0:01:05 Average standard deviation of split frequencies: 0.007506 490500 -- (-12534.308) (-12536.329) [-12537.932] (-12535.021) * [-12535.241] (-12541.111) (-12539.453) (-12537.361) -- 0:01:05 491000 -- (-12534.655) (-12534.362) (-12538.141) [-12533.067] * (-12534.248) (-12539.075) (-12540.238) [-12542.710] -- 0:01:05 491500 -- (-12536.550) [-12535.558] (-12538.141) (-12535.800) * (-12534.860) (-12538.745) [-12533.795] (-12538.078) -- 0:01:05 492000 -- [-12536.954] (-12534.292) (-12535.141) (-12535.194) * (-12536.045) (-12540.822) (-12535.625) [-12536.980] -- 0:01:05 492500 -- (-12538.468) [-12534.132] (-12539.068) (-12535.713) * [-12537.039] (-12537.020) (-12539.822) (-12536.581) -- 0:01:04 493000 -- (-12538.345) (-12535.107) (-12540.604) [-12537.945] * [-12535.609] (-12536.352) (-12536.338) (-12539.564) -- 0:01:04 493500 -- [-12537.815] (-12536.043) (-12540.898) (-12535.830) * (-12538.609) [-12535.081] (-12538.562) (-12537.250) -- 0:01:04 494000 -- (-12535.027) (-12538.355) (-12541.543) [-12533.667] * [-12534.298] (-12537.841) (-12540.459) (-12532.394) -- 0:01:05 494500 -- (-12535.447) [-12538.545] (-12547.073) (-12538.512) * [-12534.373] (-12536.244) (-12539.419) (-12533.160) -- 0:01:05 495000 -- (-12534.676) [-12537.438] (-12545.857) (-12537.245) * (-12536.394) (-12539.600) (-12536.340) [-12538.510] -- 0:01:05 Average standard deviation of split frequencies: 0.007350 495500 -- (-12536.407) (-12535.460) [-12536.572] (-12537.271) * (-12536.530) (-12538.746) (-12538.510) [-12536.369] -- 0:01:05 496000 -- (-12538.812) (-12532.750) (-12540.189) [-12537.413] * (-12534.780) (-12536.423) [-12539.675] (-12532.508) -- 0:01:05 496500 -- [-12534.976] (-12540.864) (-12534.545) (-12539.208) * [-12537.324] (-12535.046) (-12536.577) (-12534.590) -- 0:01:04 497000 -- (-12533.809) (-12536.245) [-12535.750] (-12536.194) * (-12539.200) (-12535.819) (-12536.258) [-12534.050] -- 0:01:04 497500 -- (-12534.215) [-12535.307] (-12537.023) (-12538.726) * (-12537.625) (-12534.589) [-12534.014] (-12535.031) -- 0:01:04 498000 -- [-12535.721] (-12535.713) (-12538.625) (-12538.780) * (-12534.337) [-12532.654] (-12535.748) (-12534.727) -- 0:01:04 498500 -- (-12533.758) [-12534.614] (-12540.283) (-12538.780) * (-12537.467) (-12536.550) [-12538.244] (-12536.633) -- 0:01:04 499000 -- [-12537.799] (-12534.813) (-12537.766) (-12541.332) * [-12536.954] (-12537.112) (-12536.393) (-12534.166) -- 0:01:04 499500 -- (-12534.656) [-12538.227] (-12535.541) (-12543.077) * (-12537.746) [-12540.401] (-12537.379) (-12534.831) -- 0:01:04 500000 -- (-12536.917) (-12536.738) [-12534.429] (-12540.635) * (-12537.748) (-12539.623) [-12536.806] (-12534.580) -- 0:01:04 Average standard deviation of split frequencies: 0.006465 500500 -- (-12536.300) (-12537.161) (-12536.641) [-12540.615] * (-12538.196) (-12535.618) [-12536.584] (-12536.370) -- 0:01:03 501000 -- (-12535.379) (-12539.484) (-12535.462) [-12536.083] * (-12538.381) (-12534.860) (-12542.837) [-12538.662] -- 0:01:03 501500 -- (-12537.214) (-12537.448) [-12539.218] (-12539.365) * (-12537.844) [-12534.745] (-12539.790) (-12539.731) -- 0:01:04 502000 -- (-12536.813) (-12539.200) [-12538.606] (-12538.974) * (-12538.634) [-12535.545] (-12538.469) (-12538.001) -- 0:01:04 502500 -- (-12537.613) (-12539.050) (-12538.118) [-12537.926] * [-12538.814] (-12538.683) (-12535.178) (-12536.484) -- 0:01:04 503000 -- (-12537.540) (-12536.135) (-12533.953) [-12537.371] * (-12538.478) (-12538.254) (-12533.638) [-12537.500] -- 0:01:04 503500 -- [-12535.532] (-12540.483) (-12535.761) (-12538.763) * (-12541.510) (-12540.406) (-12534.850) [-12535.402] -- 0:01:04 504000 -- [-12537.540] (-12539.098) (-12537.612) (-12541.102) * (-12543.087) [-12537.494] (-12538.224) (-12533.271) -- 0:01:03 504500 -- [-12533.763] (-12539.485) (-12538.352) (-12536.850) * (-12540.171) (-12536.874) (-12536.658) [-12534.558] -- 0:01:03 505000 -- (-12539.776) (-12537.984) (-12537.448) [-12533.467] * (-12533.616) (-12537.504) (-12534.226) [-12533.859] -- 0:01:03 Average standard deviation of split frequencies: 0.006335 505500 -- (-12539.417) [-12536.227] (-12541.273) (-12538.792) * (-12533.272) [-12536.667] (-12536.575) (-12533.372) -- 0:01:03 506000 -- (-12539.037) (-12546.698) (-12541.279) [-12535.500] * (-12536.683) (-12536.076) (-12535.267) [-12533.832] -- 0:01:03 506500 -- (-12539.035) (-12543.397) (-12539.080) [-12534.415] * [-12533.686] (-12535.688) (-12534.458) (-12538.468) -- 0:01:03 507000 -- [-12540.343] (-12542.365) (-12540.179) (-12534.783) * (-12535.092) (-12538.435) [-12538.222] (-12534.790) -- 0:01:03 507500 -- (-12535.111) (-12541.132) (-12542.034) [-12534.741] * (-12533.748) (-12536.811) [-12538.073] (-12534.067) -- 0:01:03 508000 -- (-12534.633) (-12540.680) (-12543.467) [-12535.618] * (-12536.467) (-12534.951) (-12536.578) [-12534.838] -- 0:01:02 508500 -- (-12540.836) (-12538.506) [-12538.476] (-12536.322) * (-12537.537) (-12541.506) (-12535.809) [-12534.558] -- 0:01:02 509000 -- (-12541.300) (-12539.621) (-12537.582) [-12538.330] * (-12537.167) (-12536.197) (-12536.327) [-12540.115] -- 0:01:02 509500 -- [-12535.567] (-12538.695) (-12535.032) (-12537.867) * (-12539.846) (-12535.872) (-12535.826) [-12537.674] -- 0:01:03 510000 -- [-12535.295] (-12534.248) (-12538.421) (-12543.682) * (-12539.844) (-12540.271) (-12538.116) [-12534.914] -- 0:01:03 Average standard deviation of split frequencies: 0.005908 510500 -- (-12538.771) (-12539.537) (-12536.311) [-12537.776] * (-12536.929) (-12544.140) [-12536.081] (-12535.049) -- 0:01:03 511000 -- (-12539.264) (-12534.410) (-12536.663) [-12538.976] * (-12539.285) (-12544.244) (-12536.938) [-12538.091] -- 0:01:03 511500 -- [-12534.470] (-12539.079) (-12539.354) (-12541.043) * (-12535.213) [-12537.140] (-12536.879) (-12536.901) -- 0:01:03 512000 -- (-12535.507) (-12539.114) (-12541.254) [-12541.256] * (-12541.211) (-12538.285) [-12535.410] (-12537.008) -- 0:01:02 512500 -- (-12538.933) [-12541.596] (-12541.717) (-12541.722) * (-12538.547) [-12535.149] (-12536.766) (-12535.935) -- 0:01:02 513000 -- (-12539.698) (-12539.366) [-12540.360] (-12537.170) * (-12536.628) (-12535.926) [-12536.008] (-12532.825) -- 0:01:02 513500 -- [-12536.398] (-12539.516) (-12536.396) (-12542.092) * (-12538.025) (-12538.799) (-12538.331) [-12536.726] -- 0:01:02 514000 -- (-12536.459) [-12540.362] (-12534.114) (-12542.992) * (-12538.502) [-12536.672] (-12536.849) (-12539.132) -- 0:01:02 514500 -- [-12538.723] (-12538.365) (-12537.551) (-12539.063) * (-12533.274) (-12535.271) (-12541.273) [-12535.503] -- 0:01:02 515000 -- (-12540.074) (-12538.983) [-12538.068] (-12540.252) * (-12538.021) (-12535.808) [-12538.029] (-12539.651) -- 0:01:02 Average standard deviation of split frequencies: 0.006167 515500 -- (-12534.151) (-12538.499) [-12533.260] (-12540.656) * (-12537.257) (-12537.378) (-12541.859) [-12534.101] -- 0:01:02 516000 -- (-12538.047) (-12539.699) (-12534.934) [-12534.741] * (-12540.209) (-12536.989) (-12541.937) [-12535.845] -- 0:01:01 516500 -- (-12540.470) (-12539.281) [-12535.868] (-12537.210) * (-12540.802) (-12534.015) (-12540.305) [-12540.174] -- 0:01:01 517000 -- (-12538.785) (-12537.827) [-12535.658] (-12535.174) * (-12538.097) (-12538.077) (-12540.186) [-12537.403] -- 0:01:01 517500 -- (-12537.464) (-12541.001) (-12535.624) [-12537.509] * (-12536.274) (-12535.074) [-12540.271] (-12534.848) -- 0:01:02 518000 -- (-12540.742) (-12537.985) [-12537.286] (-12542.083) * (-12534.443) [-12536.217] (-12537.849) (-12537.565) -- 0:01:02 518500 -- (-12539.199) (-12542.964) [-12537.560] (-12535.299) * [-12532.683] (-12538.888) (-12535.080) (-12541.105) -- 0:01:02 519000 -- (-12538.145) (-12540.866) (-12537.552) [-12536.441] * (-12533.947) (-12537.139) [-12537.852] (-12546.144) -- 0:01:02 519500 -- (-12535.581) (-12537.787) (-12535.374) [-12538.464] * (-12535.462) (-12538.327) (-12540.737) [-12540.133] -- 0:01:01 520000 -- (-12538.600) (-12537.499) (-12534.534) [-12539.847] * (-12537.432) (-12538.450) [-12535.783] (-12538.410) -- 0:01:01 Average standard deviation of split frequencies: 0.006111 520500 -- (-12535.690) (-12539.803) [-12535.403] (-12540.098) * (-12537.834) (-12538.459) (-12537.086) [-12537.645] -- 0:01:01 521000 -- (-12537.469) [-12539.885] (-12536.385) (-12542.404) * (-12534.491) (-12533.152) [-12538.267] (-12544.251) -- 0:01:01 521500 -- (-12537.385) (-12540.796) (-12535.284) [-12537.831] * (-12537.649) [-12536.131] (-12538.848) (-12539.055) -- 0:01:01 522000 -- [-12535.904] (-12534.552) (-12535.285) (-12538.259) * [-12534.878] (-12536.361) (-12537.677) (-12541.832) -- 0:01:01 522500 -- (-12539.120) (-12539.338) (-12536.216) [-12538.180] * (-12534.067) [-12537.666] (-12539.112) (-12539.707) -- 0:01:01 523000 -- (-12538.521) [-12537.146] (-12537.077) (-12535.279) * (-12534.561) (-12536.594) [-12540.030] (-12539.767) -- 0:01:01 523500 -- (-12537.529) (-12539.724) (-12538.631) [-12536.218] * (-12535.918) [-12534.837] (-12535.929) (-12542.529) -- 0:01:00 524000 -- [-12537.137] (-12537.852) (-12535.496) (-12536.922) * [-12537.304] (-12537.254) (-12536.775) (-12537.927) -- 0:01:00 524500 -- (-12537.247) [-12537.288] (-12538.231) (-12534.939) * [-12536.975] (-12537.999) (-12536.151) (-12537.598) -- 0:01:00 525000 -- [-12538.256] (-12541.533) (-12539.818) (-12539.394) * (-12534.556) [-12535.408] (-12541.647) (-12543.571) -- 0:01:01 Average standard deviation of split frequencies: 0.006273 525500 -- (-12537.706) (-12538.681) [-12538.187] (-12539.571) * (-12535.106) (-12534.032) (-12539.216) [-12541.879] -- 0:01:01 526000 -- (-12536.833) [-12535.815] (-12535.415) (-12538.294) * (-12534.657) [-12533.668] (-12535.302) (-12539.411) -- 0:01:01 526500 -- [-12537.577] (-12534.972) (-12534.370) (-12536.669) * (-12537.317) [-12537.895] (-12539.813) (-12539.273) -- 0:01:01 527000 -- [-12539.293] (-12535.498) (-12533.960) (-12539.834) * [-12534.200] (-12537.081) (-12539.825) (-12539.273) -- 0:01:01 527500 -- (-12539.256) [-12536.312] (-12538.661) (-12536.389) * [-12533.593] (-12533.755) (-12538.690) (-12539.206) -- 0:01:00 528000 -- (-12538.437) (-12536.256) (-12540.282) [-12535.960] * (-12536.381) (-12533.815) (-12534.484) [-12536.572] -- 0:01:00 528500 -- (-12538.490) [-12533.851] (-12543.380) (-12537.879) * (-12536.567) (-12535.966) [-12537.106] (-12537.029) -- 0:01:00 529000 -- (-12534.014) (-12538.350) [-12534.130] (-12535.039) * (-12536.210) (-12533.747) (-12538.523) [-12535.849] -- 0:01:00 529500 -- (-12535.084) (-12535.930) (-12537.797) [-12535.794] * (-12534.320) (-12533.188) (-12535.466) [-12534.950] -- 0:01:00 530000 -- [-12536.034] (-12537.292) (-12543.371) (-12535.008) * (-12539.316) (-12536.183) (-12535.114) [-12534.507] -- 0:01:00 Average standard deviation of split frequencies: 0.006662 530500 -- (-12543.108) [-12539.084] (-12534.272) (-12538.445) * (-12540.135) (-12533.774) (-12535.961) [-12535.794] -- 0:01:00 531000 -- (-12538.388) (-12540.757) [-12537.430] (-12540.207) * [-12536.580] (-12536.791) (-12534.543) (-12535.296) -- 0:01:00 531500 -- (-12537.940) (-12540.074) (-12538.835) [-12538.087] * (-12535.820) [-12538.169] (-12537.639) (-12534.374) -- 0:00:59 532000 -- (-12534.346) [-12537.666] (-12542.667) (-12538.204) * [-12533.759] (-12545.161) (-12534.363) (-12534.462) -- 0:00:59 532500 -- [-12534.810] (-12534.041) (-12534.790) (-12539.475) * (-12538.740) (-12538.713) [-12534.759] (-12534.849) -- 0:00:59 533000 -- [-12535.464] (-12538.122) (-12536.742) (-12537.928) * (-12538.705) [-12538.503] (-12538.377) (-12536.073) -- 0:01:00 533500 -- (-12535.672) [-12536.860] (-12535.831) (-12536.267) * (-12536.464) (-12538.424) (-12543.883) [-12536.460] -- 0:01:00 534000 -- (-12536.694) [-12534.484] (-12537.975) (-12538.672) * [-12534.112] (-12540.207) (-12540.825) (-12537.504) -- 0:01:00 534500 -- (-12536.033) [-12537.183] (-12536.184) (-12538.672) * (-12537.407) [-12535.932] (-12540.322) (-12534.510) -- 0:01:00 535000 -- (-12535.924) (-12537.942) [-12536.391] (-12534.955) * (-12536.094) [-12536.392] (-12539.321) (-12535.154) -- 0:00:59 Average standard deviation of split frequencies: 0.006156 535500 -- (-12536.893) (-12539.875) [-12535.525] (-12534.875) * (-12535.593) [-12534.814] (-12536.846) (-12537.410) -- 0:00:59 536000 -- [-12538.464] (-12537.189) (-12537.633) (-12537.388) * (-12534.612) [-12533.848] (-12541.889) (-12537.799) -- 0:00:59 536500 -- [-12536.981] (-12537.612) (-12536.451) (-12537.977) * (-12534.796) (-12534.424) [-12539.289] (-12536.718) -- 0:00:59 537000 -- [-12534.131] (-12536.527) (-12534.027) (-12539.073) * [-12535.464] (-12534.404) (-12538.909) (-12534.229) -- 0:00:59 537500 -- (-12536.149) [-12537.433] (-12539.460) (-12539.899) * (-12539.630) (-12534.782) (-12536.550) [-12535.320] -- 0:00:59 538000 -- (-12535.062) (-12537.008) (-12538.709) [-12534.457] * (-12536.890) [-12534.937] (-12535.561) (-12536.787) -- 0:00:59 538500 -- (-12539.070) (-12536.919) [-12537.507] (-12534.453) * [-12534.699] (-12536.527) (-12536.446) (-12535.291) -- 0:00:59 539000 -- (-12543.167) (-12540.158) (-12538.697) [-12535.834] * [-12536.057] (-12537.547) (-12538.059) (-12538.278) -- 0:00:59 539500 -- [-12536.486] (-12538.203) (-12540.041) (-12538.842) * (-12536.632) (-12535.424) [-12539.113] (-12536.726) -- 0:00:58 540000 -- [-12538.434] (-12539.067) (-12539.789) (-12537.751) * [-12537.709] (-12538.663) (-12540.113) (-12534.959) -- 0:00:58 Average standard deviation of split frequencies: 0.005590 540500 -- (-12540.008) [-12533.675] (-12541.353) (-12535.900) * (-12538.090) (-12533.022) (-12537.690) [-12540.957] -- 0:00:59 541000 -- [-12537.581] (-12534.573) (-12538.273) (-12536.279) * (-12538.326) [-12532.697] (-12541.537) (-12536.149) -- 0:00:59 541500 -- (-12536.989) [-12532.429] (-12540.793) (-12534.832) * (-12538.010) [-12536.987] (-12539.798) (-12538.100) -- 0:00:59 542000 -- (-12537.643) (-12535.771) [-12539.710] (-12536.062) * [-12540.372] (-12538.308) (-12536.551) (-12539.092) -- 0:00:59 542500 -- [-12535.977] (-12539.161) (-12538.561) (-12535.793) * (-12539.549) (-12538.097) [-12538.637] (-12537.751) -- 0:00:59 543000 -- (-12535.012) (-12534.207) [-12538.695] (-12538.456) * [-12541.837] (-12538.308) (-12541.460) (-12535.440) -- 0:00:58 543500 -- [-12536.623] (-12535.972) (-12536.819) (-12538.138) * (-12539.517) (-12537.381) (-12538.534) [-12535.228] -- 0:00:58 544000 -- (-12538.738) (-12535.490) (-12537.596) [-12538.138] * [-12536.828] (-12539.907) (-12539.253) (-12536.984) -- 0:00:58 544500 -- (-12533.497) (-12536.164) (-12539.488) [-12535.986] * [-12540.487] (-12538.318) (-12538.049) (-12540.499) -- 0:00:58 545000 -- [-12534.847] (-12537.815) (-12538.995) (-12535.224) * (-12542.671) [-12537.820] (-12540.887) (-12538.072) -- 0:00:58 Average standard deviation of split frequencies: 0.005282 545500 -- (-12533.209) [-12535.315] (-12538.748) (-12537.394) * (-12538.185) (-12536.529) (-12539.841) [-12542.748] -- 0:00:58 546000 -- [-12535.363] (-12537.830) (-12539.427) (-12538.453) * [-12535.535] (-12536.389) (-12540.781) (-12537.738) -- 0:00:58 546500 -- (-12535.173) [-12534.588] (-12537.072) (-12538.098) * (-12536.967) (-12537.446) [-12542.783] (-12538.425) -- 0:00:58 547000 -- (-12537.876) (-12535.396) (-12537.789) [-12535.908] * (-12536.791) [-12537.751] (-12541.328) (-12536.004) -- 0:00:57 547500 -- (-12537.192) [-12534.068] (-12538.839) (-12535.626) * (-12537.247) (-12536.328) (-12538.429) [-12534.658] -- 0:00:57 548000 -- [-12537.808] (-12533.797) (-12539.359) (-12535.613) * (-12535.724) (-12538.671) (-12535.555) [-12535.081] -- 0:00:57 548500 -- (-12535.183) (-12538.390) [-12540.270] (-12535.833) * (-12534.986) (-12533.997) [-12540.582] (-12542.249) -- 0:00:58 549000 -- (-12535.733) [-12535.065] (-12538.581) (-12536.097) * [-12536.014] (-12536.568) (-12537.950) (-12538.263) -- 0:00:58 549500 -- (-12535.809) (-12534.400) [-12542.630] (-12539.010) * [-12536.939] (-12534.501) (-12535.052) (-12535.976) -- 0:00:58 550000 -- (-12535.887) (-12533.057) (-12536.436) [-12538.458] * (-12535.116) [-12538.537] (-12539.678) (-12540.199) -- 0:00:58 Average standard deviation of split frequencies: 0.005590 550500 -- (-12534.936) (-12536.247) [-12534.393] (-12536.586) * (-12535.471) (-12540.168) (-12539.899) [-12537.300] -- 0:00:57 551000 -- (-12537.381) (-12536.149) [-12534.239] (-12537.670) * [-12539.390] (-12538.609) (-12539.781) (-12534.973) -- 0:00:57 551500 -- [-12533.943] (-12533.191) (-12535.986) (-12538.589) * (-12538.793) (-12533.426) [-12539.397] (-12535.594) -- 0:00:57 552000 -- [-12533.364] (-12535.938) (-12534.661) (-12535.358) * (-12536.079) (-12533.259) [-12538.670] (-12538.577) -- 0:00:57 552500 -- [-12536.346] (-12535.992) (-12537.180) (-12539.953) * (-12538.952) [-12534.314] (-12537.895) (-12538.728) -- 0:00:57 553000 -- (-12536.687) (-12537.323) (-12540.217) [-12541.619] * (-12536.521) (-12533.097) (-12537.991) [-12541.960] -- 0:00:57 553500 -- [-12536.241] (-12535.181) (-12535.579) (-12542.837) * (-12536.620) (-12532.914) [-12541.304] (-12538.162) -- 0:00:57 554000 -- (-12533.911) [-12533.786] (-12533.340) (-12542.554) * (-12539.555) [-12537.199] (-12536.049) (-12538.980) -- 0:00:57 554500 -- (-12537.583) [-12537.314] (-12535.153) (-12544.170) * (-12540.174) (-12536.295) (-12536.079) [-12536.988] -- 0:00:57 555000 -- (-12535.506) (-12535.528) (-12537.506) [-12543.153] * [-12541.984] (-12539.627) (-12535.749) (-12534.376) -- 0:00:56 Average standard deviation of split frequencies: 0.005829 555500 -- (-12534.563) (-12534.392) (-12538.547) [-12538.228] * (-12539.104) (-12535.986) [-12535.156] (-12539.112) -- 0:00:56 556000 -- [-12533.722] (-12538.719) (-12534.911) (-12540.282) * (-12540.401) (-12536.252) [-12536.490] (-12537.322) -- 0:00:56 556500 -- (-12538.961) [-12536.597] (-12535.989) (-12540.855) * (-12544.653) (-12536.854) [-12540.074] (-12540.424) -- 0:00:57 557000 -- (-12533.653) (-12540.704) (-12537.025) [-12540.432] * (-12536.821) (-12538.987) [-12540.610] (-12537.532) -- 0:00:57 557500 -- (-12534.439) (-12542.443) (-12537.211) [-12536.270] * (-12534.250) (-12537.523) [-12541.470] (-12537.573) -- 0:00:57 558000 -- [-12536.041] (-12538.211) (-12538.174) (-12535.514) * (-12534.381) (-12537.650) (-12539.341) [-12537.673] -- 0:00:57 558500 -- (-12536.604) [-12540.410] (-12535.234) (-12537.561) * (-12536.488) (-12537.438) [-12538.645] (-12535.305) -- 0:00:56 559000 -- [-12537.304] (-12536.868) (-12534.673) (-12536.960) * (-12535.972) [-12534.281] (-12538.649) (-12544.159) -- 0:00:56 559500 -- (-12535.727) (-12537.168) (-12536.991) [-12543.447] * (-12536.170) [-12535.470] (-12540.606) (-12539.053) -- 0:00:56 560000 -- (-12535.850) (-12534.232) [-12537.204] (-12541.502) * (-12535.863) (-12537.783) [-12538.137] (-12540.098) -- 0:00:56 Average standard deviation of split frequencies: 0.005213 560500 -- (-12533.589) (-12535.609) [-12537.733] (-12536.349) * (-12537.504) (-12536.287) (-12540.933) [-12537.369] -- 0:00:56 561000 -- [-12534.766] (-12535.859) (-12537.365) (-12535.636) * [-12536.205] (-12537.933) (-12542.867) (-12536.484) -- 0:00:56 561500 -- [-12534.914] (-12536.866) (-12534.747) (-12539.887) * (-12536.914) [-12541.426] (-12542.714) (-12535.639) -- 0:00:56 562000 -- (-12535.642) [-12535.133] (-12534.354) (-12537.371) * (-12539.868) (-12540.947) (-12544.073) [-12534.737] -- 0:00:56 562500 -- (-12534.233) [-12535.919] (-12535.623) (-12542.336) * (-12538.175) (-12539.998) (-12540.213) [-12534.308] -- 0:00:56 563000 -- (-12535.252) (-12537.017) [-12534.602] (-12542.583) * [-12537.431] (-12542.675) (-12538.294) (-12538.904) -- 0:00:55 563500 -- (-12534.124) [-12537.584] (-12534.293) (-12542.653) * (-12537.355) [-12540.721] (-12539.503) (-12538.562) -- 0:00:55 564000 -- (-12532.744) [-12537.555] (-12536.667) (-12542.539) * (-12535.255) (-12537.845) (-12538.023) [-12537.472] -- 0:00:56 564500 -- (-12535.918) (-12538.339) [-12535.764] (-12535.960) * (-12534.111) [-12533.398] (-12541.405) (-12539.837) -- 0:00:56 565000 -- (-12535.468) [-12535.040] (-12536.753) (-12533.478) * [-12534.689] (-12535.745) (-12537.282) (-12539.390) -- 0:00:56 Average standard deviation of split frequencies: 0.005101 565500 -- (-12536.604) (-12535.917) (-12534.706) [-12535.660] * [-12535.570] (-12537.059) (-12533.619) (-12539.287) -- 0:00:56 566000 -- (-12539.089) (-12541.764) (-12536.152) [-12536.607] * (-12536.749) (-12539.422) [-12535.495] (-12536.116) -- 0:00:55 566500 -- (-12534.920) (-12535.572) [-12535.582] (-12538.641) * (-12539.998) (-12535.379) [-12535.469] (-12541.281) -- 0:00:55 567000 -- (-12534.927) (-12536.224) [-12536.284] (-12540.174) * (-12539.601) (-12536.438) (-12535.106) [-12539.836] -- 0:00:55 567500 -- (-12534.750) (-12537.187) (-12536.005) [-12536.919] * [-12534.508] (-12538.641) (-12535.229) (-12536.960) -- 0:00:55 568000 -- (-12535.768) (-12534.321) (-12534.925) [-12536.439] * (-12538.897) (-12535.652) [-12535.701] (-12539.582) -- 0:00:55 568500 -- (-12534.820) [-12539.241] (-12541.816) (-12535.586) * (-12537.376) (-12536.705) [-12534.973] (-12539.286) -- 0:00:55 569000 -- (-12537.781) [-12536.572] (-12538.370) (-12536.917) * [-12538.061] (-12535.135) (-12534.141) (-12541.931) -- 0:00:55 569500 -- (-12538.419) (-12540.335) (-12538.680) [-12535.748] * (-12537.671) [-12538.567] (-12538.345) (-12540.005) -- 0:00:55 570000 -- (-12540.603) (-12537.184) (-12536.792) [-12538.503] * [-12537.906] (-12538.733) (-12537.445) (-12537.091) -- 0:00:55 Average standard deviation of split frequencies: 0.005628 570500 -- (-12534.231) [-12536.829] (-12539.058) (-12536.571) * (-12538.945) (-12536.909) [-12535.935] (-12536.777) -- 0:00:54 571000 -- (-12535.935) (-12537.431) (-12536.091) [-12537.219] * (-12538.483) [-12538.154] (-12536.009) (-12537.335) -- 0:00:54 571500 -- [-12534.047] (-12537.378) (-12535.383) (-12537.382) * (-12536.977) (-12538.798) [-12535.416] (-12534.634) -- 0:00:54 572000 -- (-12536.482) (-12539.096) [-12534.760] (-12536.956) * (-12534.431) (-12536.471) [-12536.149] (-12539.834) -- 0:00:55 572500 -- [-12537.430] (-12534.763) (-12533.315) (-12537.859) * [-12537.754] (-12538.509) (-12537.722) (-12539.497) -- 0:00:55 573000 -- (-12535.552) (-12540.265) [-12534.945] (-12534.607) * (-12534.747) (-12535.836) (-12536.478) [-12538.198] -- 0:00:55 573500 -- [-12535.368] (-12539.605) (-12535.828) (-12534.327) * (-12535.416) [-12542.242] (-12538.247) (-12533.868) -- 0:00:55 574000 -- (-12537.895) (-12540.233) (-12534.654) [-12533.224] * [-12534.639] (-12537.395) (-12539.325) (-12534.686) -- 0:00:54 574500 -- [-12535.381] (-12542.957) (-12539.097) (-12535.381) * (-12538.053) (-12534.867) (-12533.982) [-12536.271] -- 0:00:54 575000 -- (-12536.953) (-12539.914) [-12537.352] (-12537.047) * (-12538.053) (-12535.954) [-12533.486] (-12537.920) -- 0:00:54 Average standard deviation of split frequencies: 0.005729 575500 -- (-12535.104) [-12537.675] (-12539.490) (-12534.037) * (-12534.670) (-12534.625) (-12536.313) [-12540.374] -- 0:00:54 576000 -- [-12536.989] (-12537.844) (-12540.032) (-12537.348) * (-12535.216) (-12535.359) (-12535.664) [-12540.452] -- 0:00:54 576500 -- (-12541.803) (-12538.969) (-12537.578) [-12536.589] * (-12535.256) (-12535.584) [-12534.395] (-12537.733) -- 0:00:54 577000 -- (-12540.925) (-12535.004) (-12536.344) [-12540.096] * (-12533.430) [-12536.337] (-12535.685) (-12538.928) -- 0:00:54 577500 -- (-12535.566) (-12534.780) (-12541.206) [-12535.046] * (-12534.390) (-12537.223) (-12536.039) [-12536.825] -- 0:00:54 578000 -- (-12541.357) (-12535.039) [-12540.389] (-12537.473) * [-12534.679] (-12537.080) (-12538.798) (-12534.562) -- 0:00:54 578500 -- (-12542.501) (-12538.629) (-12539.840) [-12533.052] * (-12535.001) (-12535.958) (-12539.047) [-12535.772] -- 0:00:53 579000 -- (-12542.213) (-12535.988) [-12535.775] (-12533.263) * (-12533.738) (-12534.658) [-12539.293] (-12539.548) -- 0:00:53 579500 -- [-12542.949] (-12534.498) (-12535.020) (-12533.639) * (-12537.614) (-12539.548) [-12540.247] (-12536.086) -- 0:00:53 580000 -- (-12537.461) [-12534.072] (-12534.641) (-12535.473) * (-12537.596) (-12535.261) (-12536.258) [-12535.886] -- 0:00:54 Average standard deviation of split frequencies: 0.004709 580500 -- (-12538.087) [-12534.484] (-12533.650) (-12538.333) * [-12537.513] (-12536.778) (-12534.886) (-12540.156) -- 0:00:54 581000 -- (-12537.860) [-12534.171] (-12536.112) (-12536.996) * (-12535.534) [-12535.471] (-12535.074) (-12537.904) -- 0:00:54 581500 -- (-12538.624) (-12535.018) [-12533.483] (-12541.341) * (-12537.816) (-12534.222) [-12540.525] (-12539.258) -- 0:00:53 582000 -- (-12537.917) (-12536.556) [-12534.434] (-12538.922) * (-12540.946) (-12536.511) [-12536.220] (-12539.704) -- 0:00:53 582500 -- (-12538.274) (-12537.965) [-12536.975] (-12535.198) * (-12539.388) [-12535.234] (-12537.998) (-12536.334) -- 0:00:53 583000 -- (-12543.649) (-12533.613) (-12532.864) [-12535.066] * (-12537.044) [-12536.053] (-12543.215) (-12537.418) -- 0:00:53 583500 -- (-12538.795) (-12533.599) (-12533.587) [-12536.994] * (-12537.001) (-12536.057) (-12540.709) [-12534.149] -- 0:00:53 584000 -- [-12536.732] (-12539.765) (-12534.442) (-12536.732) * [-12537.682] (-12534.481) (-12538.890) (-12543.100) -- 0:00:53 584500 -- (-12535.922) (-12538.016) (-12536.141) [-12537.999] * (-12537.521) (-12538.368) (-12535.954) [-12536.790] -- 0:00:53 585000 -- (-12537.348) (-12537.797) [-12535.230] (-12534.727) * (-12534.595) (-12533.859) [-12536.365] (-12540.713) -- 0:00:53 Average standard deviation of split frequencies: 0.005726 585500 -- (-12533.849) (-12536.193) (-12540.040) [-12536.968] * (-12535.436) [-12536.783] (-12541.839) (-12538.413) -- 0:00:53 586000 -- (-12539.934) (-12537.187) (-12536.353) [-12536.533] * (-12534.168) (-12535.137) (-12543.467) [-12537.167] -- 0:00:52 586500 -- (-12535.532) (-12533.691) [-12532.902] (-12537.162) * (-12537.786) [-12535.964] (-12542.494) (-12540.124) -- 0:00:52 587000 -- (-12537.741) [-12535.106] (-12539.490) (-12540.217) * (-12534.121) [-12535.753] (-12537.722) (-12536.964) -- 0:00:52 587500 -- (-12538.125) (-12533.890) [-12538.830] (-12539.006) * (-12536.828) (-12533.677) (-12537.699) [-12536.494] -- 0:00:52 588000 -- (-12538.662) (-12535.632) (-12536.040) [-12533.704] * (-12537.832) [-12535.957] (-12536.750) (-12534.992) -- 0:00:53 588500 -- (-12538.595) (-12537.414) (-12537.122) [-12535.978] * (-12536.746) [-12535.577] (-12536.288) (-12535.986) -- 0:00:53 589000 -- (-12539.189) [-12537.001] (-12537.343) (-12535.723) * [-12541.812] (-12535.666) (-12535.377) (-12534.589) -- 0:00:53 589500 -- [-12538.117] (-12535.787) (-12533.498) (-12538.811) * (-12540.239) (-12535.319) [-12538.534] (-12534.558) -- 0:00:52 590000 -- [-12541.434] (-12535.646) (-12538.007) (-12540.414) * [-12539.309] (-12536.299) (-12539.324) (-12536.493) -- 0:00:52 Average standard deviation of split frequencies: 0.006197 590500 -- (-12540.200) [-12538.280] (-12539.114) (-12536.736) * (-12535.900) (-12535.394) (-12536.936) [-12537.836] -- 0:00:52 591000 -- (-12536.040) (-12534.584) [-12538.997] (-12535.726) * [-12534.552] (-12536.752) (-12538.989) (-12543.509) -- 0:00:52 591500 -- [-12536.721] (-12537.356) (-12536.876) (-12540.476) * (-12537.699) (-12539.248) [-12535.037] (-12535.878) -- 0:00:52 592000 -- (-12538.039) (-12536.380) [-12543.327] (-12536.187) * (-12536.423) [-12536.924] (-12534.411) (-12536.160) -- 0:00:52 592500 -- (-12536.364) (-12540.276) [-12538.698] (-12533.887) * (-12540.103) [-12536.408] (-12533.854) (-12535.947) -- 0:00:52 593000 -- (-12538.894) (-12537.911) (-12534.435) [-12535.371] * [-12537.744] (-12536.919) (-12533.807) (-12536.296) -- 0:00:52 593500 -- (-12536.595) (-12536.654) [-12535.407] (-12535.996) * (-12541.319) (-12540.123) [-12535.057] (-12537.371) -- 0:00:52 594000 -- (-12540.863) [-12534.803] (-12537.862) (-12534.532) * (-12538.544) (-12537.386) (-12533.880) [-12537.786] -- 0:00:51 594500 -- (-12542.612) [-12536.278] (-12537.481) (-12533.197) * (-12535.120) (-12540.738) [-12535.444] (-12537.706) -- 0:00:51 595000 -- (-12540.366) (-12534.653) (-12536.110) [-12536.037] * [-12537.235] (-12537.494) (-12534.190) (-12536.968) -- 0:00:51 Average standard deviation of split frequencies: 0.005676 595500 -- (-12538.359) [-12534.982] (-12540.616) (-12537.518) * (-12539.569) (-12538.195) [-12535.334] (-12537.378) -- 0:00:52 596000 -- [-12537.913] (-12535.936) (-12540.798) (-12537.061) * (-12547.126) (-12534.493) [-12536.251] (-12542.809) -- 0:00:52 596500 -- [-12538.441] (-12535.154) (-12537.630) (-12537.034) * (-12546.599) [-12533.946] (-12539.911) (-12541.149) -- 0:00:52 597000 -- (-12538.000) (-12539.893) (-12534.498) [-12533.939] * (-12541.204) (-12538.485) (-12539.142) [-12541.216] -- 0:00:51 597500 -- (-12536.683) (-12540.107) [-12534.983] (-12537.017) * (-12536.762) [-12534.103] (-12538.078) (-12534.760) -- 0:00:51 598000 -- [-12537.403] (-12539.732) (-12534.927) (-12535.587) * (-12539.592) (-12537.949) (-12535.149) [-12534.494] -- 0:00:51 598500 -- [-12537.862] (-12555.922) (-12535.802) (-12538.914) * (-12538.897) (-12535.948) (-12536.355) [-12533.968] -- 0:00:51 599000 -- (-12536.576) (-12545.573) [-12535.262] (-12536.933) * (-12535.849) (-12536.376) (-12536.491) [-12534.902] -- 0:00:51 599500 -- (-12535.962) (-12535.538) (-12538.808) [-12533.280] * (-12536.935) (-12539.848) [-12536.607] (-12534.276) -- 0:00:51 600000 -- (-12538.009) [-12535.332] (-12539.237) (-12536.659) * (-12536.365) (-12536.782) (-12538.393) [-12538.731] -- 0:00:51 Average standard deviation of split frequencies: 0.005355 600500 -- (-12534.263) (-12534.128) [-12535.194] (-12538.083) * (-12541.992) [-12535.707] (-12535.445) (-12540.010) -- 0:00:51 601000 -- (-12536.509) [-12533.426] (-12537.875) (-12538.042) * (-12539.930) [-12533.786] (-12535.659) (-12540.010) -- 0:00:51 601500 -- (-12541.148) [-12533.824] (-12539.570) (-12537.019) * (-12539.427) [-12533.944] (-12539.947) (-12539.591) -- 0:00:51 602000 -- (-12537.419) [-12534.067] (-12538.150) (-12535.622) * (-12538.236) [-12533.658] (-12540.321) (-12536.528) -- 0:00:50 602500 -- [-12533.126] (-12536.019) (-12538.160) (-12538.376) * (-12538.243) [-12535.562] (-12540.983) (-12537.659) -- 0:00:50 603000 -- (-12535.677) (-12536.523) (-12538.498) [-12539.749] * [-12534.290] (-12534.892) (-12541.112) (-12535.931) -- 0:00:50 603500 -- [-12535.737] (-12534.846) (-12534.601) (-12537.668) * (-12537.041) [-12537.632] (-12539.066) (-12539.396) -- 0:00:51 604000 -- [-12537.387] (-12535.494) (-12537.205) (-12540.739) * (-12538.239) (-12533.767) (-12537.414) [-12538.303] -- 0:00:51 604500 -- (-12536.938) (-12535.070) (-12533.645) [-12536.670] * (-12535.561) (-12537.952) [-12533.673] (-12538.685) -- 0:00:51 605000 -- (-12538.243) (-12535.067) [-12535.875] (-12537.160) * (-12533.537) (-12538.719) (-12535.729) [-12538.685] -- 0:00:50 Average standard deviation of split frequencies: 0.006086 605500 -- (-12538.746) (-12536.717) (-12535.656) [-12541.090] * [-12535.542] (-12538.212) (-12538.500) (-12542.505) -- 0:00:50 606000 -- (-12537.887) (-12536.951) (-12535.889) [-12540.262] * (-12539.003) (-12540.496) [-12535.504] (-12538.196) -- 0:00:50 606500 -- [-12533.848] (-12533.293) (-12535.597) (-12538.995) * [-12535.538] (-12541.312) (-12536.341) (-12534.118) -- 0:00:50 607000 -- (-12534.997) [-12533.555] (-12538.232) (-12539.070) * [-12537.453] (-12535.865) (-12535.365) (-12538.830) -- 0:00:50 607500 -- (-12536.932) (-12533.122) [-12536.832] (-12539.241) * (-12536.654) (-12536.197) [-12535.441] (-12541.301) -- 0:00:50 608000 -- [-12538.541] (-12538.129) (-12534.715) (-12539.325) * (-12534.617) (-12534.564) (-12538.613) [-12534.338] -- 0:00:50 608500 -- (-12534.402) (-12536.015) [-12533.594] (-12536.478) * (-12537.385) (-12538.244) (-12539.699) [-12534.907] -- 0:00:50 609000 -- [-12536.543] (-12540.940) (-12536.838) (-12537.587) * (-12533.805) (-12537.896) [-12534.179] (-12537.462) -- 0:00:50 609500 -- (-12536.634) (-12540.247) (-12539.490) [-12539.442] * (-12534.444) [-12537.217] (-12537.208) (-12536.773) -- 0:00:49 610000 -- [-12535.066] (-12536.891) (-12534.261) (-12541.421) * [-12536.335] (-12536.802) (-12536.007) (-12533.972) -- 0:00:49 Average standard deviation of split frequencies: 0.005812 610500 -- (-12535.151) (-12540.370) (-12534.326) [-12539.870] * (-12536.130) [-12534.049] (-12535.648) (-12536.758) -- 0:00:49 611000 -- (-12535.333) (-12538.358) [-12534.713] (-12539.992) * [-12537.923] (-12534.805) (-12536.792) (-12533.016) -- 0:00:50 611500 -- (-12533.959) (-12533.433) [-12535.008] (-12540.525) * (-12537.170) (-12534.021) [-12536.579] (-12536.459) -- 0:00:50 612000 -- (-12538.015) (-12534.415) [-12536.963] (-12537.377) * (-12538.865) [-12533.801] (-12542.040) (-12537.791) -- 0:00:50 612500 -- (-12537.653) (-12536.650) [-12537.883] (-12537.100) * (-12539.692) (-12538.149) [-12535.102] (-12536.330) -- 0:00:49 613000 -- [-12537.160] (-12533.003) (-12536.109) (-12536.268) * (-12541.428) (-12540.167) [-12535.976] (-12536.507) -- 0:00:49 613500 -- (-12538.160) (-12532.735) [-12536.762] (-12538.293) * (-12540.214) [-12536.407] (-12542.769) (-12535.603) -- 0:00:49 614000 -- (-12537.432) [-12534.066] (-12536.420) (-12542.285) * (-12538.895) (-12536.616) [-12539.698] (-12535.187) -- 0:00:49 614500 -- [-12536.701] (-12538.205) (-12535.860) (-12541.178) * (-12539.823) (-12536.145) [-12536.770] (-12533.219) -- 0:00:49 615000 -- (-12539.287) (-12539.379) (-12534.951) [-12540.400] * (-12536.330) [-12535.290] (-12534.573) (-12533.723) -- 0:00:49 Average standard deviation of split frequencies: 0.004639 615500 -- (-12538.370) (-12537.882) [-12532.743] (-12537.931) * (-12539.328) (-12534.524) (-12533.996) [-12534.451] -- 0:00:49 616000 -- (-12537.425) (-12533.787) [-12533.262] (-12540.062) * (-12538.557) (-12537.467) [-12535.033] (-12537.090) -- 0:00:49 616500 -- (-12536.789) (-12536.310) [-12534.888] (-12538.936) * [-12540.709] (-12536.373) (-12538.233) (-12537.089) -- 0:00:49 617000 -- (-12538.479) (-12538.221) [-12537.040] (-12541.610) * (-12540.525) [-12536.275] (-12538.954) (-12534.616) -- 0:00:49 617500 -- (-12533.523) [-12535.131] (-12534.196) (-12540.034) * (-12540.628) (-12532.984) [-12535.515] (-12537.279) -- 0:00:48 618000 -- (-12539.537) (-12538.568) [-12533.335] (-12538.974) * (-12539.856) (-12537.490) (-12540.386) [-12535.554] -- 0:00:48 618500 -- [-12537.489] (-12538.506) (-12537.529) (-12538.919) * [-12540.562] (-12533.217) (-12538.035) (-12537.748) -- 0:00:48 619000 -- (-12540.546) (-12539.806) [-12535.121] (-12534.415) * (-12535.180) [-12537.169] (-12537.959) (-12540.865) -- 0:00:49 619500 -- (-12538.000) [-12539.310] (-12539.054) (-12537.094) * (-12537.778) (-12533.932) [-12540.074] (-12537.336) -- 0:00:49 620000 -- (-12538.136) (-12536.380) [-12535.446] (-12539.212) * (-12536.191) [-12534.097] (-12535.983) (-12538.320) -- 0:00:49 Average standard deviation of split frequencies: 0.005127 620500 -- (-12536.515) (-12536.340) [-12535.504] (-12544.313) * (-12538.703) (-12535.127) (-12537.110) [-12536.304] -- 0:00:48 621000 -- (-12537.275) [-12538.110] (-12535.242) (-12543.291) * [-12537.430] (-12535.207) (-12537.515) (-12540.317) -- 0:00:48 621500 -- (-12538.883) (-12538.107) [-12535.502] (-12544.816) * (-12537.126) [-12537.678] (-12541.243) (-12537.784) -- 0:00:48 622000 -- (-12535.299) [-12537.051] (-12536.168) (-12541.982) * (-12536.244) (-12538.619) [-12539.157] (-12533.696) -- 0:00:48 622500 -- [-12536.143] (-12533.141) (-12535.263) (-12538.576) * (-12539.545) (-12538.120) [-12535.819] (-12534.508) -- 0:00:48 623000 -- [-12538.406] (-12536.403) (-12535.216) (-12552.280) * (-12538.644) (-12537.060) [-12534.847] (-12537.299) -- 0:00:48 623500 -- (-12534.589) (-12538.824) [-12535.550] (-12546.631) * (-12538.747) (-12535.769) (-12538.626) [-12535.718] -- 0:00:48 624000 -- [-12538.203] (-12538.094) (-12535.384) (-12539.041) * (-12538.947) (-12537.490) [-12538.712] (-12540.707) -- 0:00:48 624500 -- (-12534.452) (-12540.853) [-12533.974] (-12535.284) * (-12538.174) [-12533.341] (-12539.258) (-12536.600) -- 0:00:48 625000 -- (-12535.540) (-12539.320) (-12533.622) [-12535.982] * [-12538.374] (-12534.848) (-12535.745) (-12541.541) -- 0:00:48 Average standard deviation of split frequencies: 0.004565 625500 -- (-12537.883) (-12544.133) [-12533.822] (-12534.642) * [-12536.670] (-12537.857) (-12534.992) (-12537.223) -- 0:00:47 626000 -- (-12539.907) [-12544.798] (-12537.386) (-12539.152) * (-12537.621) (-12538.772) (-12533.976) [-12536.767] -- 0:00:47 626500 -- (-12540.919) (-12542.803) (-12534.349) [-12536.710] * (-12536.674) (-12536.631) [-12533.716] (-12536.035) -- 0:00:47 627000 -- (-12538.921) (-12540.325) [-12534.360] (-12538.159) * [-12537.240] (-12542.319) (-12538.986) (-12536.778) -- 0:00:48 627500 -- (-12535.087) [-12536.287] (-12535.932) (-12538.517) * (-12538.565) (-12537.272) (-12536.262) [-12535.941] -- 0:00:48 628000 -- (-12538.400) (-12535.185) (-12534.819) [-12537.926] * (-12538.518) (-12538.468) [-12536.596] (-12534.357) -- 0:00:47 628500 -- (-12538.784) [-12535.499] (-12534.954) (-12538.130) * (-12538.539) (-12537.905) (-12533.475) [-12535.453] -- 0:00:47 629000 -- (-12537.637) [-12537.455] (-12535.462) (-12539.588) * (-12535.043) (-12535.030) (-12534.609) [-12540.708] -- 0:00:47 629500 -- (-12537.041) [-12534.010] (-12537.467) (-12540.642) * (-12538.316) [-12533.986] (-12532.539) (-12541.748) -- 0:00:47 630000 -- [-12535.492] (-12535.476) (-12538.092) (-12536.305) * (-12539.404) (-12538.263) [-12533.287] (-12540.761) -- 0:00:47 Average standard deviation of split frequencies: 0.003887 630500 -- (-12538.188) [-12535.802] (-12537.972) (-12536.895) * [-12538.092] (-12532.803) (-12538.187) (-12537.277) -- 0:00:47 631000 -- (-12538.588) (-12538.714) [-12534.667] (-12537.384) * (-12538.112) (-12534.759) [-12534.862] (-12541.304) -- 0:00:47 631500 -- (-12536.929) (-12538.943) [-12538.418] (-12536.977) * (-12537.193) (-12536.091) (-12537.636) [-12536.597] -- 0:00:47 632000 -- (-12538.886) [-12537.183] (-12539.917) (-12537.528) * (-12536.385) (-12535.854) (-12536.038) [-12535.517] -- 0:00:47 632500 -- (-12539.164) (-12539.101) [-12536.263] (-12538.648) * (-12535.659) (-12535.621) [-12538.071] (-12537.447) -- 0:00:47 633000 -- (-12534.765) (-12539.081) [-12537.179] (-12537.170) * [-12535.514] (-12534.682) (-12534.041) (-12537.046) -- 0:00:46 633500 -- [-12536.390] (-12536.353) (-12540.539) (-12538.028) * (-12537.340) [-12533.851] (-12536.090) (-12534.378) -- 0:00:46 634000 -- (-12538.866) (-12537.681) [-12539.474] (-12537.611) * (-12535.618) (-12538.375) (-12536.339) [-12535.210] -- 0:00:46 634500 -- [-12538.886] (-12535.783) (-12538.839) (-12537.446) * (-12538.294) (-12539.394) (-12533.804) [-12534.557] -- 0:00:46 635000 -- (-12535.832) (-12538.862) (-12535.703) [-12536.789] * [-12538.757] (-12538.977) (-12537.413) (-12535.537) -- 0:00:47 Average standard deviation of split frequencies: 0.003904 635500 -- (-12534.976) [-12539.263] (-12535.979) (-12536.509) * [-12536.532] (-12536.931) (-12536.739) (-12535.858) -- 0:00:47 636000 -- (-12541.952) (-12535.855) [-12539.003] (-12537.968) * (-12538.386) [-12535.750] (-12536.702) (-12534.283) -- 0:00:46 636500 -- (-12539.356) [-12537.059] (-12541.860) (-12537.741) * (-12535.821) (-12535.248) [-12538.387] (-12533.911) -- 0:00:46 637000 -- (-12540.169) (-12537.600) (-12537.175) [-12537.983] * [-12534.238] (-12543.476) (-12535.657) (-12534.900) -- 0:00:46 637500 -- (-12538.738) (-12535.900) (-12535.528) [-12537.823] * (-12537.598) [-12537.789] (-12539.435) (-12534.730) -- 0:00:46 638000 -- (-12536.264) (-12540.277) (-12537.751) [-12536.056] * (-12535.697) (-12534.906) (-12540.007) [-12533.724] -- 0:00:46 638500 -- (-12537.260) (-12539.194) (-12538.186) [-12536.746] * (-12534.432) (-12535.555) (-12540.959) [-12535.184] -- 0:00:46 639000 -- (-12534.881) [-12538.842] (-12541.456) (-12539.819) * (-12535.484) [-12535.592] (-12535.356) (-12536.497) -- 0:00:46 639500 -- (-12535.329) (-12537.493) [-12534.993] (-12539.712) * (-12538.911) (-12536.340) (-12537.244) [-12536.196] -- 0:00:46 640000 -- (-12536.072) [-12536.562] (-12540.422) (-12535.612) * [-12535.070] (-12537.062) (-12536.244) (-12535.145) -- 0:00:46 Average standard deviation of split frequencies: 0.004170 640500 -- (-12535.414) [-12536.388] (-12538.365) (-12537.142) * (-12533.498) [-12534.262] (-12535.171) (-12539.480) -- 0:00:46 641000 -- (-12538.884) [-12538.332] (-12536.348) (-12537.748) * (-12539.013) (-12535.725) [-12535.418] (-12535.999) -- 0:00:45 641500 -- (-12538.310) [-12538.095] (-12534.182) (-12538.334) * [-12537.290] (-12536.232) (-12537.026) (-12537.743) -- 0:00:45 642000 -- [-12536.695] (-12541.139) (-12536.520) (-12545.923) * (-12537.398) [-12538.714] (-12536.179) (-12540.429) -- 0:00:45 642500 -- (-12534.974) (-12535.309) [-12536.595] (-12538.241) * [-12535.764] (-12534.646) (-12540.204) (-12536.577) -- 0:00:46 643000 -- (-12538.123) [-12534.344] (-12539.143) (-12535.089) * (-12536.070) (-12535.682) [-12540.315] (-12537.121) -- 0:00:46 643500 -- (-12533.768) (-12536.408) [-12536.735] (-12535.347) * [-12537.430] (-12535.416) (-12538.041) (-12538.369) -- 0:00:45 644000 -- (-12536.202) [-12534.469] (-12537.877) (-12538.504) * (-12537.958) [-12534.642] (-12539.049) (-12545.676) -- 0:00:45 644500 -- (-12534.877) (-12536.771) (-12538.126) [-12533.502] * [-12535.205] (-12536.122) (-12540.137) (-12539.495) -- 0:00:45 645000 -- (-12539.127) (-12539.286) (-12538.676) [-12537.007] * (-12534.587) [-12536.653] (-12536.765) (-12534.876) -- 0:00:45 Average standard deviation of split frequencies: 0.004971 645500 -- (-12535.851) (-12538.603) [-12539.269] (-12539.671) * [-12536.570] (-12539.599) (-12538.339) (-12535.465) -- 0:00:45 646000 -- (-12538.861) (-12540.036) [-12535.149] (-12538.608) * (-12540.394) (-12536.110) (-12538.105) [-12534.497] -- 0:00:45 646500 -- (-12539.473) [-12533.266] (-12535.287) (-12536.153) * (-12539.178) (-12539.505) [-12536.187] (-12535.185) -- 0:00:45 647000 -- (-12539.742) (-12534.159) [-12536.212] (-12534.967) * (-12536.294) (-12539.312) [-12536.111] (-12535.384) -- 0:00:45 647500 -- (-12542.622) [-12532.866] (-12541.724) (-12537.953) * (-12538.579) (-12540.358) (-12536.999) [-12541.291] -- 0:00:45 648000 -- (-12542.997) (-12537.004) [-12537.727] (-12538.401) * [-12538.250] (-12539.369) (-12534.459) (-12539.230) -- 0:00:45 648500 -- (-12539.282) [-12533.593] (-12536.873) (-12533.723) * (-12538.829) (-12539.800) [-12537.082] (-12538.975) -- 0:00:44 649000 -- (-12540.060) (-12533.574) (-12534.228) [-12531.935] * (-12540.541) (-12541.103) [-12538.027] (-12538.455) -- 0:00:44 649500 -- (-12539.545) [-12537.001] (-12536.124) (-12533.596) * (-12541.656) (-12534.999) (-12540.877) [-12539.291] -- 0:00:44 650000 -- (-12537.346) (-12534.056) (-12532.421) [-12533.836] * (-12535.974) [-12534.505] (-12539.596) (-12542.808) -- 0:00:44 Average standard deviation of split frequencies: 0.004685 650500 -- (-12539.863) (-12535.978) (-12535.919) [-12535.662] * (-12541.784) [-12534.990] (-12537.992) (-12535.172) -- 0:00:45 651000 -- (-12539.870) [-12538.154] (-12537.471) (-12537.413) * (-12539.909) [-12537.719] (-12540.973) (-12539.206) -- 0:00:45 651500 -- (-12536.810) (-12533.976) [-12534.917] (-12538.057) * (-12542.051) [-12535.602] (-12544.342) (-12539.062) -- 0:00:44 652000 -- (-12538.623) (-12538.221) (-12534.314) [-12538.600] * (-12539.941) [-12533.991] (-12538.625) (-12538.976) -- 0:00:44 652500 -- [-12537.181] (-12539.498) (-12537.269) (-12534.281) * [-12540.398] (-12534.871) (-12538.352) (-12535.820) -- 0:00:44 653000 -- [-12537.049] (-12535.274) (-12535.836) (-12540.311) * (-12540.342) (-12535.597) [-12536.481] (-12535.174) -- 0:00:44 653500 -- (-12536.454) (-12535.618) (-12538.202) [-12536.161] * (-12540.357) (-12534.093) (-12534.434) [-12537.197] -- 0:00:44 654000 -- (-12538.727) (-12534.242) (-12537.965) [-12536.333] * [-12535.679] (-12537.039) (-12538.685) (-12536.659) -- 0:00:44 654500 -- (-12539.678) (-12538.512) (-12538.549) [-12534.445] * (-12537.362) (-12541.834) (-12541.775) [-12535.083] -- 0:00:44 655000 -- (-12537.127) (-12532.221) [-12538.879] (-12534.728) * (-12536.353) (-12537.032) (-12538.726) [-12538.625] -- 0:00:44 Average standard deviation of split frequencies: 0.004839 655500 -- (-12537.837) (-12537.658) [-12541.932] (-12536.990) * (-12536.309) [-12534.290] (-12537.224) (-12537.121) -- 0:00:44 656000 -- (-12537.675) [-12535.953] (-12539.078) (-12539.286) * [-12533.670] (-12535.700) (-12535.689) (-12536.578) -- 0:00:44 656500 -- (-12535.789) (-12535.958) (-12535.059) [-12535.574] * (-12537.429) (-12537.664) [-12536.190] (-12537.481) -- 0:00:43 657000 -- [-12536.921] (-12533.900) (-12534.755) (-12538.899) * (-12535.620) [-12540.658] (-12538.772) (-12534.905) -- 0:00:43 657500 -- (-12537.419) (-12534.106) (-12534.712) [-12534.949] * [-12536.332] (-12538.707) (-12534.209) (-12537.179) -- 0:00:43 658000 -- (-12538.967) (-12537.035) [-12533.601] (-12534.163) * (-12538.013) [-12538.659] (-12536.835) (-12536.674) -- 0:00:43 658500 -- (-12539.438) (-12538.468) (-12534.404) [-12540.437] * (-12538.026) (-12537.579) [-12539.206] (-12537.437) -- 0:00:44 659000 -- (-12538.298) (-12535.671) (-12537.625) [-12535.929] * [-12536.830] (-12538.508) (-12542.607) (-12533.956) -- 0:00:43 659500 -- (-12536.711) (-12537.314) (-12534.755) [-12535.350] * (-12534.130) (-12536.747) [-12540.218] (-12534.618) -- 0:00:43 660000 -- (-12546.208) [-12539.964] (-12536.028) (-12534.141) * [-12537.082] (-12537.603) (-12539.247) (-12534.974) -- 0:00:43 Average standard deviation of split frequencies: 0.005441 660500 -- (-12546.020) [-12537.925] (-12536.296) (-12535.028) * [-12536.940] (-12536.322) (-12535.984) (-12536.454) -- 0:00:43 661000 -- (-12536.283) (-12533.856) [-12535.390] (-12534.836) * (-12544.288) (-12538.664) (-12537.999) [-12535.004] -- 0:00:43 661500 -- (-12534.887) (-12535.072) [-12535.468] (-12534.006) * [-12536.396] (-12534.901) (-12538.928) (-12533.408) -- 0:00:43 662000 -- (-12534.440) (-12539.619) (-12537.663) [-12535.592] * [-12534.264] (-12534.849) (-12540.476) (-12534.286) -- 0:00:43 662500 -- [-12534.847] (-12536.935) (-12538.003) (-12534.510) * [-12535.040] (-12543.847) (-12537.067) (-12538.321) -- 0:00:43 663000 -- (-12537.406) (-12538.258) (-12539.386) [-12534.657] * (-12536.879) (-12541.772) [-12536.835] (-12537.263) -- 0:00:43 663500 -- (-12536.783) [-12536.823] (-12542.438) (-12534.009) * (-12535.592) (-12539.854) [-12533.316] (-12535.827) -- 0:00:43 664000 -- (-12544.551) (-12535.260) (-12537.929) [-12534.685] * (-12536.408) (-12538.165) [-12535.311] (-12536.530) -- 0:00:43 664500 -- (-12548.317) (-12536.421) [-12543.380] (-12535.514) * (-12536.078) [-12535.149] (-12537.401) (-12534.249) -- 0:00:42 665000 -- (-12540.184) [-12534.126] (-12537.513) (-12539.435) * (-12536.476) [-12534.196] (-12541.463) (-12534.980) -- 0:00:42 Average standard deviation of split frequencies: 0.005441 665500 -- (-12538.126) [-12539.014] (-12538.832) (-12540.177) * [-12534.676] (-12535.378) (-12539.000) (-12534.919) -- 0:00:42 666000 -- (-12535.394) (-12536.740) (-12534.870) [-12537.412] * (-12536.991) [-12534.886] (-12536.345) (-12538.348) -- 0:00:42 666500 -- (-12539.605) (-12538.036) (-12536.506) [-12538.535] * (-12536.738) (-12537.313) [-12534.519] (-12534.245) -- 0:00:43 667000 -- [-12536.759] (-12535.496) (-12538.012) (-12537.124) * (-12533.592) (-12535.705) [-12534.015] (-12535.547) -- 0:00:42 667500 -- [-12535.945] (-12538.365) (-12537.877) (-12540.601) * (-12535.074) (-12539.783) (-12535.303) [-12534.608] -- 0:00:42 668000 -- (-12539.101) (-12536.479) (-12538.145) [-12536.505] * (-12537.367) (-12541.915) (-12538.543) [-12533.395] -- 0:00:42 668500 -- [-12539.336] (-12537.248) (-12539.600) (-12541.564) * (-12537.252) (-12539.026) (-12536.034) [-12534.027] -- 0:00:42 669000 -- (-12539.336) [-12534.817] (-12538.311) (-12535.413) * [-12536.879] (-12538.470) (-12534.717) (-12537.262) -- 0:00:42 669500 -- (-12537.908) (-12540.484) (-12541.070) [-12536.463] * (-12534.219) (-12534.743) (-12535.806) [-12536.034] -- 0:00:42 670000 -- (-12537.638) [-12538.088] (-12540.283) (-12539.404) * (-12539.215) (-12538.477) [-12535.580] (-12536.535) -- 0:00:42 Average standard deviation of split frequencies: 0.005623 670500 -- (-12536.673) [-12539.662] (-12534.906) (-12538.428) * [-12536.692] (-12540.630) (-12537.688) (-12535.959) -- 0:00:42 671000 -- (-12535.504) (-12540.551) [-12537.306] (-12537.760) * [-12537.033] (-12538.331) (-12533.765) (-12536.433) -- 0:00:42 671500 -- (-12537.332) (-12541.475) [-12535.513] (-12538.103) * (-12536.086) (-12538.211) (-12540.923) [-12535.456] -- 0:00:42 672000 -- (-12534.336) (-12540.955) (-12541.627) [-12539.627] * (-12535.975) (-12536.721) (-12539.031) [-12534.686] -- 0:00:41 672500 -- (-12538.077) (-12538.367) [-12534.623] (-12539.605) * (-12533.627) (-12536.651) (-12535.667) [-12536.857] -- 0:00:41 673000 -- (-12539.294) [-12535.697] (-12533.645) (-12539.052) * (-12538.050) (-12537.419) [-12536.666] (-12535.531) -- 0:00:41 673500 -- (-12540.254) [-12535.117] (-12537.375) (-12535.055) * (-12539.616) (-12537.121) [-12535.914] (-12535.598) -- 0:00:41 674000 -- [-12536.016] (-12539.453) (-12538.552) (-12536.990) * (-12538.495) [-12533.648] (-12536.361) (-12534.553) -- 0:00:42 674500 -- [-12537.579] (-12537.322) (-12535.459) (-12539.601) * (-12537.070) (-12535.559) (-12537.875) [-12534.739] -- 0:00:41 675000 -- (-12541.582) (-12539.530) [-12536.563] (-12535.946) * (-12537.137) (-12535.237) (-12540.838) [-12537.490] -- 0:00:41 Average standard deviation of split frequencies: 0.005666 675500 -- (-12540.078) [-12540.180] (-12541.089) (-12537.879) * (-12537.213) (-12538.256) [-12535.928] (-12535.563) -- 0:00:41 676000 -- (-12540.164) [-12538.367] (-12536.827) (-12539.029) * (-12538.426) (-12534.466) [-12537.012] (-12538.468) -- 0:00:41 676500 -- (-12535.225) [-12538.975] (-12544.130) (-12536.108) * (-12535.590) (-12535.480) [-12537.840] (-12538.819) -- 0:00:41 677000 -- (-12536.184) (-12532.982) (-12542.264) [-12536.521] * (-12536.915) (-12535.224) (-12535.760) [-12535.319] -- 0:00:41 677500 -- (-12537.302) (-12538.122) [-12537.906] (-12537.431) * (-12538.355) [-12537.503] (-12537.775) (-12534.887) -- 0:00:41 678000 -- (-12536.956) (-12533.999) [-12536.393] (-12537.290) * (-12538.085) [-12535.393] (-12538.114) (-12534.881) -- 0:00:41 678500 -- [-12533.484] (-12535.063) (-12534.866) (-12536.162) * (-12538.145) (-12539.905) (-12540.391) [-12533.965] -- 0:00:41 679000 -- (-12535.915) [-12536.190] (-12535.579) (-12535.686) * [-12540.165] (-12537.916) (-12539.753) (-12533.501) -- 0:00:41 679500 -- [-12537.685] (-12539.782) (-12533.965) (-12534.831) * (-12539.662) [-12535.308] (-12542.966) (-12534.578) -- 0:00:41 680000 -- (-12534.892) (-12537.255) (-12533.602) [-12536.266] * (-12540.627) [-12536.026] (-12541.838) (-12534.096) -- 0:00:40 Average standard deviation of split frequencies: 0.005587 680500 -- (-12536.244) [-12537.891] (-12533.300) (-12540.060) * (-12540.885) (-12540.344) [-12537.423] (-12537.217) -- 0:00:40 681000 -- (-12537.210) (-12540.458) (-12533.569) [-12537.492] * (-12540.327) [-12536.347] (-12538.952) (-12538.160) -- 0:00:40 681500 -- (-12534.230) [-12535.111] (-12536.599) (-12540.141) * (-12538.399) (-12535.746) [-12534.209] (-12534.927) -- 0:00:40 682000 -- (-12537.136) (-12535.759) [-12534.948] (-12536.344) * (-12537.523) (-12539.996) [-12537.802] (-12537.859) -- 0:00:41 682500 -- (-12536.765) (-12538.934) (-12534.397) [-12539.122] * [-12536.432] (-12543.828) (-12539.152) (-12535.735) -- 0:00:40 683000 -- [-12539.478] (-12537.162) (-12537.286) (-12538.749) * (-12538.458) (-12539.434) (-12536.288) [-12532.881] -- 0:00:40 683500 -- [-12537.575] (-12539.803) (-12535.474) (-12536.533) * (-12539.654) [-12536.541] (-12539.858) (-12534.664) -- 0:00:40 684000 -- (-12539.653) [-12538.623] (-12535.515) (-12540.814) * (-12542.419) (-12533.901) [-12537.796] (-12536.965) -- 0:00:40 684500 -- [-12538.368] (-12539.988) (-12538.075) (-12539.119) * [-12542.315] (-12537.203) (-12535.643) (-12538.002) -- 0:00:40 685000 -- [-12534.926] (-12536.941) (-12536.345) (-12536.785) * (-12540.345) [-12534.484] (-12539.549) (-12541.786) -- 0:00:40 Average standard deviation of split frequencies: 0.005497 685500 -- (-12534.035) (-12534.856) (-12534.128) [-12536.849] * (-12538.803) (-12536.611) (-12535.598) [-12538.539] -- 0:00:40 686000 -- (-12539.726) (-12534.170) (-12533.510) [-12537.464] * (-12538.362) (-12538.603) (-12537.486) [-12534.177] -- 0:00:40 686500 -- (-12538.759) [-12538.863] (-12534.216) (-12533.247) * (-12539.488) [-12535.524] (-12539.215) (-12536.038) -- 0:00:40 687000 -- (-12537.054) (-12538.757) [-12535.970] (-12534.957) * [-12535.134] (-12534.961) (-12540.815) (-12539.763) -- 0:00:40 687500 -- (-12536.624) (-12534.979) [-12538.476] (-12537.340) * (-12537.043) [-12538.400] (-12537.038) (-12539.583) -- 0:00:40 688000 -- (-12540.616) (-12533.735) [-12534.398] (-12537.941) * (-12536.408) [-12536.714] (-12536.688) (-12541.168) -- 0:00:39 688500 -- (-12534.539) (-12538.929) [-12539.293] (-12537.799) * (-12536.900) (-12537.331) (-12540.843) [-12536.108] -- 0:00:39 689000 -- (-12535.446) [-12538.265] (-12542.871) (-12534.110) * (-12540.216) (-12538.272) [-12535.163] (-12534.627) -- 0:00:39 689500 -- (-12535.337) [-12535.717] (-12541.973) (-12536.952) * (-12534.616) [-12539.432] (-12537.530) (-12537.311) -- 0:00:40 690000 -- (-12535.009) (-12535.246) (-12543.085) [-12536.692] * [-12541.679] (-12540.189) (-12539.260) (-12534.715) -- 0:00:39 Average standard deviation of split frequencies: 0.005369 690500 -- (-12535.786) (-12536.159) (-12540.256) [-12534.143] * [-12535.618] (-12540.463) (-12534.303) (-12538.887) -- 0:00:39 691000 -- (-12533.167) (-12536.874) (-12538.994) [-12534.680] * (-12538.565) (-12541.001) (-12533.433) [-12533.258] -- 0:00:39 691500 -- (-12537.940) (-12533.336) (-12540.995) [-12535.158] * (-12540.827) (-12539.195) [-12535.110] (-12533.886) -- 0:00:39 692000 -- (-12534.110) (-12535.512) (-12540.660) [-12537.524] * (-12542.529) [-12537.404] (-12537.890) (-12537.508) -- 0:00:39 692500 -- (-12533.589) (-12536.831) [-12536.702] (-12538.894) * (-12540.537) [-12536.123] (-12532.406) (-12537.162) -- 0:00:39 693000 -- (-12535.792) (-12535.491) [-12534.873] (-12535.005) * (-12535.950) (-12536.064) (-12537.671) [-12535.062] -- 0:00:39 693500 -- (-12537.779) (-12537.429) (-12534.248) [-12534.017] * (-12538.701) [-12536.791] (-12537.527) (-12540.629) -- 0:00:39 694000 -- (-12535.831) [-12534.424] (-12534.115) (-12534.752) * [-12533.852] (-12535.655) (-12539.176) (-12541.692) -- 0:00:39 694500 -- (-12544.109) (-12534.455) [-12534.254] (-12534.333) * (-12533.919) (-12538.031) (-12540.853) [-12537.618] -- 0:00:39 695000 -- (-12535.647) (-12537.860) [-12537.466] (-12536.942) * [-12533.061] (-12538.513) (-12533.975) (-12535.717) -- 0:00:39 Average standard deviation of split frequencies: 0.005102 695500 -- [-12535.897] (-12540.448) (-12537.335) (-12538.693) * (-12533.314) (-12537.230) [-12534.621] (-12536.805) -- 0:00:38 696000 -- (-12535.981) (-12538.801) (-12533.565) [-12539.211] * (-12537.283) (-12539.146) [-12533.549] (-12536.975) -- 0:00:38 696500 -- (-12539.798) (-12541.969) [-12533.854] (-12536.344) * [-12536.939] (-12536.079) (-12535.531) (-12535.365) -- 0:00:38 697000 -- (-12533.929) (-12535.845) (-12538.780) [-12537.223] * (-12538.670) (-12537.731) [-12537.965] (-12536.445) -- 0:00:38 697500 -- [-12535.110] (-12538.819) (-12539.932) (-12539.865) * [-12534.529] (-12538.740) (-12534.998) (-12535.611) -- 0:00:39 698000 -- [-12536.358] (-12536.458) (-12539.718) (-12539.419) * (-12541.417) (-12536.083) [-12534.089] (-12540.570) -- 0:00:38 698500 -- (-12539.306) (-12539.239) (-12536.863) [-12541.045] * (-12538.555) (-12535.356) (-12533.337) [-12538.999] -- 0:00:38 699000 -- (-12538.773) (-12540.583) [-12535.991] (-12538.063) * (-12543.905) (-12537.422) [-12535.909] (-12535.464) -- 0:00:38 699500 -- (-12538.816) (-12537.259) [-12535.224] (-12539.852) * (-12540.885) [-12538.676] (-12535.627) (-12535.562) -- 0:00:38 700000 -- (-12540.094) [-12535.533] (-12540.040) (-12535.701) * (-12540.993) [-12536.029] (-12538.848) (-12536.211) -- 0:00:38 Average standard deviation of split frequencies: 0.004754 700500 -- (-12538.420) (-12537.576) [-12534.146] (-12536.871) * (-12536.638) [-12536.455] (-12536.329) (-12534.621) -- 0:00:38 701000 -- (-12540.093) (-12534.933) [-12534.292] (-12534.243) * (-12536.354) (-12536.625) [-12533.696] (-12539.511) -- 0:00:38 701500 -- [-12536.963] (-12539.885) (-12534.700) (-12533.619) * [-12536.650] (-12535.474) (-12533.608) (-12539.982) -- 0:00:38 702000 -- [-12533.318] (-12540.853) (-12537.223) (-12540.196) * (-12541.010) [-12537.600] (-12535.635) (-12537.912) -- 0:00:38 702500 -- (-12537.054) (-12534.742) [-12537.181] (-12538.225) * (-12535.412) [-12536.278] (-12536.107) (-12536.316) -- 0:00:38 703000 -- (-12535.693) [-12536.311] (-12535.394) (-12537.496) * (-12534.336) (-12540.329) [-12534.403] (-12537.341) -- 0:00:38 703500 -- (-12538.477) (-12540.058) (-12535.766) [-12537.180] * (-12535.704) (-12541.010) (-12535.033) [-12534.513] -- 0:00:37 704000 -- (-12541.872) [-12534.881] (-12535.869) (-12536.437) * (-12537.938) (-12541.457) (-12535.286) [-12534.557] -- 0:00:37 704500 -- (-12538.810) [-12533.639] (-12539.129) (-12535.849) * [-12533.432] (-12541.379) (-12537.279) (-12535.845) -- 0:00:37 705000 -- (-12539.881) [-12536.965] (-12539.235) (-12541.578) * (-12535.518) [-12537.171] (-12537.664) (-12537.866) -- 0:00:37 Average standard deviation of split frequencies: 0.005030 705500 -- (-12534.647) (-12534.568) (-12537.722) [-12540.362] * (-12537.164) (-12533.545) (-12536.734) [-12538.978] -- 0:00:37 706000 -- (-12536.928) (-12536.974) (-12538.823) [-12536.735] * (-12536.817) (-12538.594) [-12533.601] (-12538.869) -- 0:00:37 706500 -- [-12535.168] (-12537.620) (-12536.908) (-12536.249) * (-12535.874) [-12538.044] (-12532.785) (-12537.043) -- 0:00:37 707000 -- (-12536.466) (-12534.511) (-12536.320) [-12536.883] * [-12535.981] (-12540.983) (-12534.232) (-12536.781) -- 0:00:37 707500 -- (-12537.555) [-12535.411] (-12536.423) (-12537.070) * (-12537.613) (-12543.079) [-12539.606] (-12536.981) -- 0:00:37 708000 -- (-12533.875) (-12539.327) (-12534.940) [-12534.087] * [-12537.535] (-12541.992) (-12543.004) (-12534.481) -- 0:00:37 708500 -- (-12538.112) (-12539.831) [-12538.868] (-12538.355) * (-12534.260) (-12541.169) [-12538.823] (-12535.463) -- 0:00:37 709000 -- (-12539.252) [-12536.183] (-12538.785) (-12535.267) * [-12535.323] (-12536.593) (-12538.036) (-12537.643) -- 0:00:37 709500 -- (-12539.249) (-12535.458) (-12539.930) [-12539.343] * [-12534.647] (-12538.646) (-12536.580) (-12534.579) -- 0:00:37 710000 -- (-12541.285) (-12535.382) (-12538.617) [-12538.124] * [-12532.997] (-12539.502) (-12538.432) (-12542.277) -- 0:00:37 Average standard deviation of split frequencies: 0.005041 710500 -- (-12539.481) (-12540.108) [-12534.135] (-12534.262) * [-12535.017] (-12537.074) (-12537.199) (-12539.328) -- 0:00:37 711000 -- (-12538.256) (-12535.935) [-12533.915] (-12533.826) * [-12534.440] (-12534.357) (-12538.583) (-12538.921) -- 0:00:36 711500 -- (-12536.456) (-12534.842) [-12533.486] (-12537.200) * [-12533.146] (-12538.384) (-12536.660) (-12536.101) -- 0:00:36 712000 -- (-12536.694) [-12536.030] (-12539.654) (-12538.905) * (-12537.192) (-12538.330) (-12534.534) [-12536.862] -- 0:00:36 712500 -- (-12535.207) (-12536.913) (-12537.860) [-12535.764] * (-12534.729) (-12536.612) (-12535.219) [-12535.192] -- 0:00:36 713000 -- (-12536.724) (-12539.279) [-12539.450] (-12533.799) * (-12537.002) [-12534.223] (-12538.280) (-12536.653) -- 0:00:37 713500 -- [-12537.887] (-12538.275) (-12537.705) (-12538.234) * [-12534.538] (-12539.723) (-12533.544) (-12535.053) -- 0:00:36 714000 -- (-12536.692) [-12536.374] (-12538.578) (-12538.284) * (-12536.580) (-12537.986) (-12533.603) [-12535.725] -- 0:00:36 714500 -- (-12535.460) (-12534.893) [-12537.327] (-12536.824) * [-12537.241] (-12539.516) (-12536.283) (-12539.931) -- 0:00:36 715000 -- [-12536.099] (-12536.070) (-12542.712) (-12534.465) * (-12540.602) (-12540.862) [-12535.298] (-12538.628) -- 0:00:36 Average standard deviation of split frequencies: 0.004960 715500 -- (-12534.390) [-12534.466] (-12537.644) (-12536.880) * (-12536.454) (-12535.620) (-12537.258) [-12535.416] -- 0:00:36 716000 -- (-12538.731) (-12533.822) (-12537.112) [-12539.476] * (-12539.265) (-12541.455) (-12536.457) [-12538.181] -- 0:00:36 716500 -- (-12536.680) (-12536.804) [-12538.924] (-12536.114) * [-12536.738] (-12536.818) (-12537.341) (-12537.517) -- 0:00:36 717000 -- (-12541.425) [-12535.535] (-12537.470) (-12537.046) * (-12536.256) (-12536.504) [-12539.986] (-12537.644) -- 0:00:36 717500 -- (-12536.079) [-12536.014] (-12538.081) (-12536.270) * [-12540.617] (-12534.621) (-12539.340) (-12535.916) -- 0:00:36 718000 -- (-12540.286) [-12537.323] (-12534.560) (-12537.711) * (-12538.902) (-12536.634) [-12535.921] (-12537.859) -- 0:00:36 718500 -- (-12538.615) (-12538.969) (-12536.819) [-12534.529] * [-12534.659] (-12535.750) (-12534.968) (-12539.788) -- 0:00:36 719000 -- [-12537.423] (-12534.196) (-12537.776) (-12533.834) * (-12534.518) (-12537.520) [-12533.788] (-12536.311) -- 0:00:35 719500 -- (-12534.157) (-12535.334) (-12538.565) [-12538.999] * (-12536.647) [-12537.535] (-12537.184) (-12540.081) -- 0:00:35 720000 -- [-12534.126] (-12533.713) (-12535.591) (-12538.999) * (-12534.675) [-12534.064] (-12538.269) (-12534.858) -- 0:00:35 Average standard deviation of split frequencies: 0.004797 720500 -- (-12532.989) (-12533.543) [-12535.349] (-12533.311) * (-12537.111) (-12534.688) [-12538.295] (-12534.508) -- 0:00:35 721000 -- (-12538.125) (-12532.392) (-12539.939) [-12532.453] * (-12534.295) (-12540.703) (-12536.508) [-12536.757] -- 0:00:35 721500 -- (-12538.389) (-12538.385) [-12536.594] (-12534.337) * (-12535.996) (-12533.916) [-12535.075] (-12538.578) -- 0:00:35 722000 -- (-12538.466) [-12538.053] (-12538.535) (-12534.502) * (-12534.899) [-12533.848] (-12532.774) (-12536.807) -- 0:00:35 722500 -- (-12534.402) (-12535.808) (-12535.729) [-12533.530] * [-12533.943] (-12537.780) (-12538.132) (-12538.910) -- 0:00:35 723000 -- (-12537.113) (-12538.863) (-12537.228) [-12533.288] * [-12534.950] (-12532.445) (-12540.811) (-12537.573) -- 0:00:35 723500 -- (-12538.965) (-12536.721) (-12536.030) [-12536.886] * (-12536.215) (-12540.668) [-12535.949] (-12534.734) -- 0:00:35 724000 -- (-12536.379) (-12538.028) [-12534.862] (-12536.982) * (-12536.021) [-12537.836] (-12534.105) (-12536.960) -- 0:00:35 724500 -- [-12536.766] (-12537.986) (-12534.608) (-12535.575) * (-12534.497) [-12533.911] (-12538.071) (-12537.741) -- 0:00:35 725000 -- (-12539.006) [-12535.810] (-12534.524) (-12536.457) * (-12534.547) [-12534.605] (-12534.820) (-12539.017) -- 0:00:35 Average standard deviation of split frequencies: 0.004026 725500 -- (-12538.093) [-12534.207] (-12538.017) (-12536.445) * (-12535.591) [-12535.903] (-12537.372) (-12538.894) -- 0:00:35 726000 -- [-12535.494] (-12537.981) (-12535.881) (-12540.886) * (-12535.905) (-12537.042) (-12536.655) [-12535.677] -- 0:00:35 726500 -- (-12539.899) (-12534.942) [-12533.604] (-12540.196) * [-12536.262] (-12539.349) (-12534.849) (-12532.915) -- 0:00:35 727000 -- (-12539.747) (-12537.330) (-12534.658) [-12537.493] * [-12535.495] (-12535.996) (-12539.216) (-12538.285) -- 0:00:34 727500 -- (-12539.219) [-12536.657] (-12535.511) (-12536.933) * [-12538.170] (-12538.927) (-12540.100) (-12539.782) -- 0:00:34 728000 -- [-12539.092] (-12538.530) (-12533.803) (-12536.656) * (-12538.259) [-12535.328] (-12544.142) (-12540.057) -- 0:00:34 728500 -- (-12538.940) (-12534.853) (-12538.796) [-12535.880] * (-12536.215) (-12533.895) (-12536.720) [-12538.988] -- 0:00:34 729000 -- (-12542.161) [-12538.720] (-12535.750) (-12537.467) * (-12536.123) [-12534.931] (-12536.277) (-12536.452) -- 0:00:34 729500 -- (-12539.947) (-12535.731) [-12535.918] (-12538.997) * [-12538.379] (-12539.534) (-12536.652) (-12537.299) -- 0:00:34 730000 -- (-12536.133) [-12534.425] (-12536.100) (-12539.689) * (-12535.727) (-12538.488) [-12537.429] (-12538.892) -- 0:00:34 Average standard deviation of split frequencies: 0.004344 730500 -- [-12535.824] (-12533.586) (-12534.617) (-12534.932) * (-12534.653) [-12538.745] (-12536.386) (-12541.223) -- 0:00:34 731000 -- (-12536.484) [-12534.089] (-12533.783) (-12536.330) * [-12535.335] (-12543.045) (-12535.268) (-12538.686) -- 0:00:34 731500 -- (-12533.461) (-12535.802) (-12538.645) [-12536.140] * (-12535.620) (-12536.232) (-12536.818) [-12537.483] -- 0:00:34 732000 -- [-12535.410] (-12536.370) (-12535.171) (-12537.448) * (-12538.914) [-12535.524] (-12535.356) (-12536.661) -- 0:00:34 732500 -- (-12540.387) [-12539.437] (-12535.760) (-12535.188) * (-12535.664) (-12535.219) (-12538.018) [-12534.163] -- 0:00:34 733000 -- (-12539.885) (-12540.068) (-12533.376) [-12534.569] * [-12535.514] (-12534.391) (-12540.466) (-12534.790) -- 0:00:34 733500 -- (-12539.765) (-12542.101) (-12533.687) [-12535.667] * (-12533.048) [-12532.303] (-12535.730) (-12535.194) -- 0:00:34 734000 -- [-12536.662] (-12534.795) (-12536.656) (-12535.549) * (-12535.057) [-12534.254] (-12537.930) (-12538.970) -- 0:00:34 734500 -- (-12535.279) (-12534.916) (-12533.702) [-12535.478] * [-12532.781] (-12534.794) (-12537.283) (-12534.035) -- 0:00:33 735000 -- (-12536.665) (-12538.332) (-12533.036) [-12535.591] * (-12536.315) [-12539.772] (-12537.433) (-12537.669) -- 0:00:33 Average standard deviation of split frequencies: 0.004099 735500 -- [-12536.567] (-12534.395) (-12537.104) (-12534.045) * (-12535.751) (-12534.978) (-12535.532) [-12535.535] -- 0:00:33 736000 -- (-12537.235) (-12538.017) [-12536.022] (-12535.892) * (-12536.084) (-12535.852) (-12536.474) [-12537.733] -- 0:00:33 736500 -- (-12535.894) (-12542.400) (-12534.777) [-12534.917] * (-12535.812) [-12534.691] (-12535.943) (-12538.062) -- 0:00:33 737000 -- (-12535.163) (-12536.985) [-12537.566] (-12537.282) * (-12534.288) (-12539.743) (-12538.309) [-12536.362] -- 0:00:33 737500 -- (-12538.979) (-12538.276) [-12533.401] (-12535.872) * [-12535.610] (-12539.919) (-12536.477) (-12533.904) -- 0:00:33 738000 -- (-12540.899) (-12540.270) [-12535.228] (-12536.025) * (-12535.259) [-12535.805] (-12539.761) (-12532.802) -- 0:00:33 738500 -- [-12534.895] (-12540.361) (-12535.085) (-12534.287) * (-12533.907) (-12535.887) (-12535.626) [-12535.355] -- 0:00:33 739000 -- (-12535.134) (-12536.398) [-12533.060] (-12532.914) * [-12534.164] (-12537.599) (-12536.851) (-12535.458) -- 0:00:33 739500 -- (-12538.083) (-12536.571) (-12538.469) [-12534.977] * (-12534.083) [-12534.382] (-12536.986) (-12534.174) -- 0:00:33 740000 -- (-12537.555) (-12537.895) [-12533.509] (-12533.844) * (-12537.105) (-12537.551) (-12532.981) [-12536.700] -- 0:00:33 Average standard deviation of split frequencies: 0.004370 740500 -- [-12533.616] (-12536.323) (-12537.927) (-12536.587) * (-12537.116) [-12534.845] (-12534.404) (-12535.389) -- 0:00:33 741000 -- (-12534.196) (-12536.686) [-12539.404] (-12536.363) * [-12538.727] (-12536.424) (-12537.475) (-12538.868) -- 0:00:33 741500 -- (-12536.645) (-12536.244) [-12533.017] (-12541.841) * (-12538.278) [-12536.146] (-12535.163) (-12535.703) -- 0:00:33 742000 -- (-12534.626) (-12539.116) [-12535.347] (-12536.730) * (-12543.603) (-12534.559) (-12535.089) [-12536.784] -- 0:00:33 742500 -- (-12539.602) (-12538.504) (-12536.178) [-12534.420] * (-12542.873) [-12537.465] (-12535.163) (-12535.183) -- 0:00:32 743000 -- (-12540.614) [-12535.664] (-12540.645) (-12535.928) * (-12536.545) (-12537.053) [-12537.361] (-12537.080) -- 0:00:32 743500 -- (-12538.711) [-12537.730] (-12536.322) (-12535.046) * (-12536.452) (-12537.027) [-12538.473] (-12537.383) -- 0:00:32 744000 -- (-12538.221) (-12540.275) (-12535.764) [-12537.040] * (-12536.866) (-12541.511) [-12537.706] (-12533.497) -- 0:00:32 744500 -- (-12533.617) (-12539.787) (-12535.532) [-12540.748] * (-12533.684) [-12537.234] (-12535.110) (-12533.612) -- 0:00:32 745000 -- (-12538.301) (-12534.816) [-12535.572] (-12536.907) * (-12534.458) [-12535.423] (-12535.257) (-12535.269) -- 0:00:32 Average standard deviation of split frequencies: 0.004339 745500 -- (-12534.679) [-12536.206] (-12542.017) (-12536.919) * (-12535.124) (-12534.425) [-12535.591] (-12536.033) -- 0:00:32 746000 -- (-12534.518) [-12536.604] (-12537.439) (-12537.055) * (-12535.802) (-12536.859) (-12538.340) [-12537.761] -- 0:00:32 746500 -- (-12537.883) [-12535.431] (-12539.342) (-12539.910) * (-12536.895) (-12534.635) (-12537.955) [-12540.329] -- 0:00:32 747000 -- (-12537.953) (-12534.717) [-12533.041] (-12541.176) * (-12537.444) (-12538.261) (-12537.011) [-12534.728] -- 0:00:32 747500 -- (-12537.349) (-12539.688) (-12534.565) [-12536.525] * (-12541.875) (-12539.431) [-12540.742] (-12536.234) -- 0:00:32 748000 -- (-12539.740) [-12540.053] (-12535.380) (-12537.397) * [-12538.383] (-12534.287) (-12538.132) (-12535.968) -- 0:00:32 748500 -- [-12537.991] (-12547.571) (-12538.656) (-12541.413) * (-12539.193) (-12536.873) [-12539.403] (-12536.402) -- 0:00:32 749000 -- [-12536.659] (-12542.316) (-12533.493) (-12540.109) * (-12539.139) [-12539.008] (-12535.389) (-12537.180) -- 0:00:32 749500 -- (-12535.225) (-12542.592) [-12536.242] (-12541.325) * [-12539.025] (-12540.110) (-12539.118) (-12535.964) -- 0:00:32 750000 -- (-12536.009) (-12543.404) (-12539.144) [-12541.926] * (-12538.952) (-12537.779) (-12540.288) [-12535.947] -- 0:00:32 Average standard deviation of split frequencies: 0.004773 750500 -- (-12533.626) (-12538.205) (-12535.073) [-12535.385] * (-12537.994) (-12541.118) (-12538.079) [-12534.783] -- 0:00:31 751000 -- (-12534.007) (-12539.523) [-12533.669] (-12535.464) * (-12537.513) (-12545.190) (-12538.182) [-12535.663] -- 0:00:31 751500 -- [-12535.301] (-12540.437) (-12534.551) (-12539.316) * (-12536.749) [-12538.347] (-12537.934) (-12541.040) -- 0:00:31 752000 -- (-12536.078) (-12538.342) [-12535.660] (-12538.364) * (-12541.554) (-12536.544) [-12536.614] (-12541.595) -- 0:00:31 752500 -- (-12535.163) (-12539.555) [-12535.875] (-12539.273) * (-12541.232) [-12533.496] (-12543.408) (-12538.469) -- 0:00:31 753000 -- [-12535.397] (-12537.909) (-12535.931) (-12536.086) * [-12536.541] (-12535.423) (-12537.311) (-12537.547) -- 0:00:31 753500 -- [-12534.422] (-12538.171) (-12534.878) (-12539.956) * [-12539.102] (-12538.039) (-12536.559) (-12536.605) -- 0:00:31 754000 -- (-12533.887) [-12535.305] (-12534.012) (-12537.748) * [-12538.264] (-12535.106) (-12536.403) (-12536.371) -- 0:00:31 754500 -- (-12536.542) (-12534.726) [-12533.356] (-12537.644) * (-12537.457) (-12538.859) (-12540.824) [-12535.994] -- 0:00:31 755000 -- (-12537.351) [-12534.306] (-12533.174) (-12537.996) * [-12537.124] (-12537.946) (-12540.549) (-12536.488) -- 0:00:31 Average standard deviation of split frequencies: 0.005072 755500 -- (-12533.127) (-12534.547) [-12536.936] (-12538.957) * (-12537.268) (-12537.867) (-12542.498) [-12534.742] -- 0:00:31 756000 -- (-12536.046) [-12535.512] (-12536.084) (-12537.181) * [-12535.434] (-12536.449) (-12536.654) (-12538.840) -- 0:00:31 756500 -- (-12538.387) (-12539.162) [-12536.615] (-12536.000) * (-12535.326) [-12537.449] (-12533.522) (-12540.220) -- 0:00:31 757000 -- (-12538.656) (-12538.402) [-12533.451] (-12535.362) * (-12538.127) [-12539.611] (-12533.606) (-12543.273) -- 0:00:31 757500 -- (-12541.190) [-12536.428] (-12537.955) (-12539.622) * (-12537.488) (-12538.175) [-12533.684] (-12538.973) -- 0:00:31 758000 -- (-12537.466) [-12535.418] (-12539.292) (-12538.477) * (-12539.242) (-12538.288) [-12536.276] (-12535.539) -- 0:00:30 758500 -- [-12535.817] (-12534.699) (-12538.079) (-12540.596) * (-12536.825) (-12540.482) (-12538.151) [-12537.937] -- 0:00:30 759000 -- [-12539.584] (-12538.797) (-12535.264) (-12539.062) * [-12534.441] (-12537.542) (-12535.481) (-12539.459) -- 0:00:30 759500 -- [-12539.056] (-12537.699) (-12533.855) (-12537.499) * (-12537.223) (-12539.441) (-12534.166) [-12536.945] -- 0:00:30 760000 -- (-12536.996) [-12535.529] (-12535.173) (-12537.113) * (-12535.859) (-12541.890) (-12535.071) [-12533.966] -- 0:00:30 Average standard deviation of split frequencies: 0.004916 760500 -- (-12536.474) (-12537.028) [-12533.801] (-12535.153) * (-12535.876) (-12540.506) [-12537.344] (-12535.693) -- 0:00:30 761000 -- (-12535.173) [-12537.971] (-12538.781) (-12538.185) * (-12535.544) (-12537.295) (-12535.186) [-12533.709] -- 0:00:30 761500 -- (-12537.999) (-12538.436) [-12535.578] (-12538.086) * (-12536.841) (-12535.190) (-12535.198) [-12533.757] -- 0:00:30 762000 -- [-12536.907] (-12538.424) (-12538.669) (-12536.104) * (-12538.478) (-12538.833) [-12533.843] (-12536.414) -- 0:00:30 762500 -- (-12533.964) (-12537.685) (-12536.089) [-12538.103] * (-12537.597) (-12536.240) (-12535.048) [-12534.473] -- 0:00:30 763000 -- (-12540.013) (-12537.575) [-12535.515] (-12536.244) * (-12537.324) (-12543.403) (-12533.861) [-12536.651] -- 0:00:30 763500 -- (-12533.476) (-12536.272) [-12535.054] (-12533.154) * [-12535.614] (-12534.528) (-12536.657) (-12539.757) -- 0:00:30 764000 -- [-12535.509] (-12535.194) (-12538.681) (-12536.574) * (-12537.982) [-12535.614] (-12550.246) (-12534.496) -- 0:00:30 764500 -- [-12533.550] (-12539.931) (-12536.575) (-12533.310) * [-12537.052] (-12536.921) (-12534.828) (-12533.874) -- 0:00:30 765000 -- (-12537.847) (-12537.042) [-12537.545] (-12535.619) * (-12537.922) (-12533.392) [-12536.935] (-12541.543) -- 0:00:30 Average standard deviation of split frequencies: 0.004349 765500 -- [-12537.408] (-12537.252) (-12537.329) (-12535.406) * (-12535.719) [-12535.358] (-12539.011) (-12539.490) -- 0:00:30 766000 -- (-12537.445) (-12536.573) [-12536.425] (-12537.128) * [-12535.979] (-12539.344) (-12534.099) (-12535.081) -- 0:00:29 766500 -- (-12538.477) [-12540.943] (-12542.620) (-12540.607) * (-12538.544) (-12535.948) (-12535.993) [-12534.998] -- 0:00:29 767000 -- [-12536.643] (-12535.847) (-12542.089) (-12541.726) * (-12538.644) (-12536.372) (-12535.442) [-12535.698] -- 0:00:29 767500 -- (-12539.279) (-12533.363) [-12538.241] (-12534.072) * [-12534.557] (-12535.292) (-12535.037) (-12537.214) -- 0:00:29 768000 -- (-12534.198) (-12541.377) [-12534.908] (-12534.206) * (-12538.675) (-12534.489) (-12534.204) [-12541.272] -- 0:00:29 768500 -- (-12537.843) [-12537.759] (-12533.571) (-12541.675) * (-12536.022) (-12541.001) [-12533.422] (-12537.109) -- 0:00:29 769000 -- [-12539.939] (-12538.242) (-12537.246) (-12543.972) * (-12539.192) (-12533.012) (-12534.968) [-12538.088] -- 0:00:29 769500 -- [-12539.422] (-12538.826) (-12534.713) (-12544.643) * (-12538.958) (-12541.563) (-12537.618) [-12535.581] -- 0:00:29 770000 -- [-12538.589] (-12538.333) (-12535.122) (-12539.723) * (-12538.080) (-12533.621) [-12537.573] (-12536.927) -- 0:00:29 Average standard deviation of split frequencies: 0.004771 770500 -- [-12541.101] (-12538.350) (-12535.367) (-12541.603) * [-12537.673] (-12537.857) (-12536.539) (-12542.407) -- 0:00:29 771000 -- (-12534.977) [-12535.345] (-12537.839) (-12539.778) * (-12538.632) (-12534.004) [-12533.010] (-12537.225) -- 0:00:29 771500 -- (-12534.063) (-12537.935) [-12537.241] (-12542.526) * (-12537.130) (-12533.435) [-12538.008] (-12536.604) -- 0:00:29 772000 -- (-12534.925) (-12536.236) (-12538.611) [-12541.414] * (-12537.701) (-12538.048) (-12537.567) [-12538.031] -- 0:00:29 772500 -- [-12533.711] (-12540.216) (-12538.771) (-12534.710) * (-12534.610) [-12533.981] (-12534.365) (-12535.477) -- 0:00:29 773000 -- [-12534.717] (-12536.738) (-12539.010) (-12536.353) * (-12534.812) (-12534.185) (-12535.570) [-12537.353] -- 0:00:29 773500 -- [-12534.693] (-12536.257) (-12539.774) (-12538.002) * (-12534.221) [-12533.524] (-12537.731) (-12536.837) -- 0:00:28 774000 -- [-12534.641] (-12541.237) (-12534.801) (-12539.715) * (-12535.742) (-12536.411) [-12537.442] (-12535.773) -- 0:00:28 774500 -- (-12534.052) [-12535.923] (-12534.430) (-12540.430) * (-12536.613) [-12536.246] (-12540.164) (-12539.945) -- 0:00:28 775000 -- [-12535.261] (-12542.205) (-12535.520) (-12537.326) * (-12536.532) (-12541.242) (-12536.392) [-12533.728] -- 0:00:28 Average standard deviation of split frequencies: 0.005265 775500 -- (-12536.021) [-12535.770] (-12535.969) (-12537.649) * [-12534.965] (-12539.496) (-12538.598) (-12539.472) -- 0:00:28 776000 -- [-12536.044] (-12539.205) (-12535.743) (-12540.576) * [-12534.385] (-12538.950) (-12536.709) (-12534.196) -- 0:00:28 776500 -- (-12540.478) [-12532.693] (-12538.988) (-12539.122) * (-12536.716) (-12538.131) (-12533.580) [-12535.290] -- 0:00:28 777000 -- (-12541.171) (-12534.875) [-12534.281] (-12539.420) * [-12537.336] (-12538.332) (-12535.006) (-12536.903) -- 0:00:28 777500 -- (-12539.742) (-12534.259) [-12533.803] (-12533.812) * (-12534.974) [-12538.983] (-12535.808) (-12537.909) -- 0:00:28 778000 -- (-12536.748) (-12538.785) [-12536.833] (-12535.342) * (-12533.789) (-12539.847) (-12541.005) [-12533.799] -- 0:00:28 778500 -- [-12537.789] (-12540.028) (-12534.984) (-12538.942) * [-12536.930] (-12537.782) (-12536.333) (-12535.503) -- 0:00:28 779000 -- (-12534.610) (-12535.129) [-12536.354] (-12535.163) * (-12535.105) [-12535.229] (-12534.566) (-12535.852) -- 0:00:28 779500 -- [-12535.107] (-12536.299) (-12534.330) (-12538.643) * (-12539.882) (-12536.791) (-12535.814) [-12534.741] -- 0:00:28 780000 -- (-12533.611) (-12538.482) (-12536.791) [-12538.131] * (-12539.560) (-12535.909) (-12536.662) [-12534.042] -- 0:00:28 Average standard deviation of split frequencies: 0.005193 780500 -- (-12533.594) (-12538.422) (-12534.889) [-12538.571] * (-12537.331) (-12537.127) (-12535.163) [-12535.327] -- 0:00:28 781000 -- [-12538.677] (-12536.729) (-12533.981) (-12535.533) * (-12541.081) (-12536.001) [-12535.668] (-12541.919) -- 0:00:28 781500 -- (-12538.610) (-12538.908) [-12537.716] (-12538.794) * (-12539.569) [-12538.974] (-12535.721) (-12536.970) -- 0:00:27 782000 -- (-12538.633) [-12534.517] (-12536.253) (-12537.573) * [-12539.567] (-12542.988) (-12540.383) (-12535.413) -- 0:00:27 782500 -- (-12536.410) [-12534.146] (-12536.104) (-12541.695) * (-12539.403) (-12538.522) (-12538.046) [-12535.795] -- 0:00:27 783000 -- (-12534.320) (-12535.195) (-12540.431) [-12538.732] * (-12539.403) (-12539.023) (-12538.018) [-12535.322] -- 0:00:27 783500 -- (-12535.754) [-12538.405] (-12535.114) (-12534.469) * (-12536.006) (-12535.965) (-12533.881) [-12539.086] -- 0:00:27 784000 -- (-12533.992) (-12535.657) (-12534.615) [-12533.311] * (-12538.325) (-12540.967) (-12535.489) [-12536.865] -- 0:00:27 784500 -- (-12537.737) [-12537.320] (-12536.293) (-12538.601) * (-12538.309) (-12540.866) [-12535.495] (-12535.108) -- 0:00:27 785000 -- [-12533.619] (-12534.447) (-12535.037) (-12534.154) * (-12538.008) (-12539.329) (-12541.452) [-12534.135] -- 0:00:27 Average standard deviation of split frequencies: 0.004958 785500 -- (-12535.657) [-12533.313] (-12535.739) (-12536.434) * (-12537.943) (-12534.737) (-12538.514) [-12534.946] -- 0:00:27 786000 -- (-12537.523) (-12533.943) (-12539.515) [-12533.976] * (-12538.110) (-12533.828) (-12534.996) [-12535.704] -- 0:00:27 786500 -- (-12536.728) (-12534.119) (-12543.165) [-12538.938] * (-12536.957) (-12538.586) (-12534.500) [-12545.647] -- 0:00:27 787000 -- (-12537.650) (-12536.368) [-12538.949] (-12539.662) * (-12546.709) [-12536.377] (-12535.873) (-12535.856) -- 0:00:27 787500 -- (-12535.923) (-12536.779) (-12540.964) [-12536.246] * (-12537.893) (-12538.560) [-12536.389] (-12538.220) -- 0:00:27 788000 -- [-12536.038] (-12534.965) (-12544.433) (-12537.174) * (-12540.151) (-12538.053) (-12538.016) [-12535.555] -- 0:00:27 788500 -- (-12534.682) [-12533.876] (-12539.466) (-12537.102) * (-12540.036) (-12540.599) [-12536.102] (-12537.525) -- 0:00:27 789000 -- (-12538.714) (-12535.370) (-12540.463) [-12536.565] * (-12541.438) [-12538.077] (-12538.105) (-12541.879) -- 0:00:27 789500 -- [-12534.587] (-12535.952) (-12540.960) (-12536.869) * (-12535.090) [-12537.944] (-12539.617) (-12539.541) -- 0:00:26 790000 -- [-12536.516] (-12544.372) (-12535.716) (-12539.916) * (-12538.981) (-12538.821) (-12537.272) [-12538.240] -- 0:00:26 Average standard deviation of split frequencies: 0.005515 790500 -- [-12534.307] (-12541.110) (-12537.941) (-12541.870) * (-12538.491) (-12539.216) (-12538.876) [-12537.449] -- 0:00:26 791000 -- (-12539.676) [-12537.741] (-12534.415) (-12540.609) * (-12539.713) (-12538.491) [-12535.141] (-12536.183) -- 0:00:26 791500 -- [-12535.725] (-12535.326) (-12535.388) (-12539.202) * (-12538.754) [-12538.533] (-12536.661) (-12539.215) -- 0:00:26 792000 -- (-12538.619) (-12536.780) (-12539.280) [-12536.117] * (-12538.859) (-12534.899) [-12536.337] (-12536.147) -- 0:00:26 792500 -- (-12535.107) (-12538.094) [-12538.958] (-12535.453) * (-12540.516) [-12535.437] (-12536.408) (-12539.138) -- 0:00:26 793000 -- (-12535.102) [-12536.613] (-12535.094) (-12536.515) * [-12536.195] (-12535.918) (-12535.923) (-12535.533) -- 0:00:26 793500 -- (-12536.748) (-12538.555) [-12536.731] (-12537.763) * (-12538.629) [-12536.066] (-12537.667) (-12533.603) -- 0:00:26 794000 -- [-12538.986] (-12535.385) (-12534.126) (-12540.288) * (-12538.404) (-12537.718) (-12538.451) [-12537.328] -- 0:00:26 794500 -- (-12536.156) [-12538.498] (-12534.321) (-12540.706) * [-12535.255] (-12537.718) (-12533.594) (-12539.995) -- 0:00:26 795000 -- [-12539.154] (-12535.470) (-12534.013) (-12544.117) * [-12537.274] (-12537.421) (-12536.358) (-12543.259) -- 0:00:26 Average standard deviation of split frequencies: 0.005369 795500 -- (-12535.167) (-12537.088) [-12535.774] (-12536.119) * (-12538.768) (-12536.515) (-12542.884) [-12537.255] -- 0:00:26 796000 -- (-12536.596) (-12544.214) [-12539.833] (-12534.733) * (-12538.240) [-12537.775] (-12535.018) (-12536.798) -- 0:00:26 796500 -- (-12536.781) (-12537.254) (-12538.398) [-12535.832] * (-12536.238) (-12535.217) (-12537.948) [-12535.279] -- 0:00:26 797000 -- [-12537.401] (-12537.101) (-12539.859) (-12537.311) * (-12538.067) (-12536.535) (-12536.302) [-12534.084] -- 0:00:25 797500 -- [-12536.781] (-12538.794) (-12534.700) (-12542.386) * (-12535.822) (-12534.111) [-12533.428] (-12537.373) -- 0:00:25 798000 -- (-12534.307) (-12538.189) [-12537.921] (-12535.084) * (-12535.361) (-12538.775) (-12536.442) [-12537.991] -- 0:00:25 798500 -- (-12538.765) (-12540.122) (-12535.937) [-12538.443] * (-12534.232) [-12535.983] (-12536.252) (-12536.945) -- 0:00:25 799000 -- (-12539.864) (-12537.232) (-12536.433) [-12536.259] * [-12535.570] (-12538.902) (-12542.524) (-12536.376) -- 0:00:25 799500 -- [-12542.264] (-12538.168) (-12534.469) (-12537.164) * (-12539.771) (-12540.051) (-12540.196) [-12539.605] -- 0:00:25 800000 -- (-12543.496) (-12540.944) [-12536.503] (-12534.525) * (-12540.476) [-12535.819] (-12537.878) (-12537.800) -- 0:00:25 Average standard deviation of split frequencies: 0.005103 800500 -- (-12538.768) (-12537.534) (-12533.532) [-12534.536] * (-12535.635) (-12536.865) [-12534.675] (-12536.261) -- 0:00:25 801000 -- (-12539.833) [-12535.021] (-12533.292) (-12533.960) * (-12536.299) (-12540.514) (-12534.907) [-12534.431] -- 0:00:25 801500 -- [-12541.638] (-12535.361) (-12538.953) (-12534.407) * (-12537.531) [-12539.504] (-12532.615) (-12537.409) -- 0:00:25 802000 -- (-12541.411) (-12536.000) (-12538.763) [-12534.232] * (-12534.560) [-12533.596] (-12544.246) (-12538.804) -- 0:00:25 802500 -- (-12536.873) [-12537.269] (-12534.795) (-12533.687) * (-12537.959) (-12533.417) (-12536.423) [-12538.322] -- 0:00:25 803000 -- (-12537.882) (-12534.931) [-12536.591] (-12534.489) * (-12537.405) (-12534.634) [-12533.869] (-12536.755) -- 0:00:25 803500 -- [-12537.649] (-12538.621) (-12537.886) (-12537.612) * (-12536.913) [-12536.095] (-12534.179) (-12539.473) -- 0:00:25 804000 -- (-12534.865) (-12536.714) (-12541.372) [-12535.606] * [-12537.522] (-12535.842) (-12535.680) (-12538.656) -- 0:00:25 804500 -- (-12536.749) [-12536.506] (-12537.876) (-12536.557) * (-12539.591) (-12538.711) (-12534.497) [-12538.775] -- 0:00:25 805000 -- (-12542.016) (-12535.248) (-12538.117) [-12534.534] * (-12537.884) (-12536.748) [-12535.699] (-12534.186) -- 0:00:24 Average standard deviation of split frequencies: 0.005447 805500 -- (-12535.794) (-12533.513) [-12540.889] (-12534.888) * [-12538.823] (-12536.535) (-12538.930) (-12536.781) -- 0:00:24 806000 -- (-12537.345) [-12541.643] (-12538.545) (-12535.320) * (-12537.505) (-12539.292) (-12542.601) [-12539.448] -- 0:00:24 806500 -- (-12538.278) (-12536.939) (-12539.642) [-12538.429] * (-12537.495) (-12538.218) (-12540.361) [-12538.110] -- 0:00:24 807000 -- [-12538.278] (-12537.328) (-12537.255) (-12536.906) * (-12539.606) (-12535.040) [-12539.192] (-12534.814) -- 0:00:24 807500 -- (-12534.703) [-12538.050] (-12535.622) (-12538.946) * [-12538.384] (-12535.892) (-12538.333) (-12536.631) -- 0:00:24 808000 -- (-12535.625) [-12537.339] (-12538.545) (-12536.513) * [-12535.684] (-12538.219) (-12539.017) (-12536.934) -- 0:00:24 808500 -- (-12535.887) [-12534.018] (-12538.543) (-12535.090) * (-12538.253) (-12538.686) (-12536.637) [-12538.908] -- 0:00:24 809000 -- [-12536.571] (-12539.346) (-12535.515) (-12538.176) * (-12534.600) [-12537.458] (-12538.650) (-12541.395) -- 0:00:24 809500 -- (-12536.057) [-12538.665] (-12540.168) (-12539.592) * [-12534.776] (-12537.523) (-12540.002) (-12541.122) -- 0:00:24 810000 -- (-12533.902) [-12539.235] (-12535.602) (-12536.150) * [-12537.786] (-12534.573) (-12537.940) (-12541.888) -- 0:00:24 Average standard deviation of split frequencies: 0.005488 810500 -- (-12538.356) (-12536.865) (-12537.066) [-12534.547] * (-12536.459) (-12537.025) [-12536.415] (-12534.854) -- 0:00:24 811000 -- [-12536.501] (-12538.397) (-12536.958) (-12536.824) * (-12537.507) (-12535.459) (-12538.693) [-12535.277] -- 0:00:24 811500 -- [-12540.517] (-12542.255) (-12543.172) (-12533.764) * (-12537.674) [-12536.768] (-12533.983) (-12535.449) -- 0:00:24 812000 -- (-12539.711) (-12538.920) (-12543.967) [-12537.997] * [-12535.320] (-12535.937) (-12538.472) (-12538.663) -- 0:00:24 812500 -- (-12540.329) (-12537.997) (-12540.198) [-12538.372] * (-12538.944) (-12541.480) (-12536.396) [-12536.019] -- 0:00:24 813000 -- (-12535.191) (-12542.146) [-12541.923] (-12534.919) * [-12539.413] (-12536.444) (-12533.898) (-12537.304) -- 0:00:23 813500 -- (-12534.045) (-12535.296) [-12541.941] (-12537.635) * (-12535.096) [-12538.477] (-12537.402) (-12537.834) -- 0:00:23 814000 -- (-12538.532) [-12534.207] (-12539.031) (-12539.991) * [-12536.201] (-12535.391) (-12534.319) (-12541.355) -- 0:00:23 814500 -- (-12540.928) [-12534.916] (-12538.684) (-12536.108) * (-12537.999) (-12535.672) [-12535.582] (-12536.074) -- 0:00:23 815000 -- (-12536.665) [-12534.514] (-12537.371) (-12537.051) * (-12538.704) (-12538.730) (-12534.378) [-12535.136] -- 0:00:23 Average standard deviation of split frequencies: 0.005122 815500 -- (-12539.183) [-12535.754] (-12538.977) (-12535.209) * [-12535.885] (-12538.450) (-12533.179) (-12535.750) -- 0:00:23 816000 -- (-12534.846) [-12536.617] (-12535.295) (-12534.962) * (-12538.728) [-12538.854] (-12537.096) (-12533.671) -- 0:00:23 816500 -- [-12535.147] (-12540.305) (-12539.889) (-12539.928) * (-12538.258) (-12538.162) (-12535.204) [-12535.970] -- 0:00:23 817000 -- (-12543.452) (-12535.231) (-12536.061) [-12537.621] * (-12535.598) (-12539.080) [-12534.275] (-12536.096) -- 0:00:23 817500 -- (-12539.099) (-12538.831) [-12536.953] (-12539.079) * (-12535.868) [-12534.442] (-12535.371) (-12538.197) -- 0:00:23 818000 -- (-12537.992) (-12536.703) (-12541.228) [-12534.398] * (-12537.974) (-12536.931) (-12534.840) [-12538.456] -- 0:00:23 818500 -- (-12536.221) (-12538.178) (-12541.621) [-12533.400] * (-12537.979) (-12535.334) (-12538.038) [-12537.587] -- 0:00:23 819000 -- (-12537.797) (-12539.181) [-12534.445] (-12534.740) * (-12533.361) (-12535.998) [-12535.397] (-12541.433) -- 0:00:23 819500 -- (-12540.634) (-12537.622) (-12534.196) [-12535.229] * (-12533.970) (-12535.792) [-12536.172] (-12540.537) -- 0:00:23 820000 -- (-12536.228) [-12536.866] (-12537.699) (-12534.155) * (-12539.638) (-12540.092) [-12533.941] (-12539.338) -- 0:00:23 Average standard deviation of split frequencies: 0.005208 820500 -- (-12538.051) (-12537.963) [-12534.241] (-12535.389) * [-12536.086] (-12536.948) (-12538.547) (-12538.021) -- 0:00:22 821000 -- (-12535.494) (-12539.587) [-12539.606] (-12536.048) * (-12536.558) (-12537.188) [-12535.053] (-12541.718) -- 0:00:22 821500 -- (-12537.775) [-12533.568] (-12540.130) (-12534.713) * [-12538.313] (-12539.531) (-12534.231) (-12534.070) -- 0:00:22 822000 -- (-12538.293) (-12534.835) [-12540.653] (-12534.847) * (-12534.673) (-12538.966) (-12534.877) [-12538.293] -- 0:00:22 822500 -- (-12535.747) [-12536.486] (-12538.071) (-12533.921) * (-12537.032) [-12535.205] (-12537.688) (-12539.939) -- 0:00:22 823000 -- (-12533.990) (-12537.394) [-12537.944] (-12535.287) * (-12538.156) (-12538.691) [-12537.328] (-12535.539) -- 0:00:22 823500 -- (-12537.846) (-12541.322) [-12535.207] (-12538.001) * [-12536.620] (-12538.255) (-12535.835) (-12532.665) -- 0:00:22 824000 -- (-12537.971) [-12536.535] (-12536.389) (-12540.169) * [-12538.692] (-12534.302) (-12535.098) (-12534.508) -- 0:00:22 824500 -- (-12538.417) [-12538.051] (-12535.126) (-12534.636) * (-12535.374) (-12534.567) (-12535.903) [-12534.597] -- 0:00:22 825000 -- (-12543.259) (-12537.458) [-12533.299] (-12537.418) * [-12534.923] (-12537.594) (-12537.295) (-12534.209) -- 0:00:22 Average standard deviation of split frequencies: 0.005707 825500 -- (-12537.725) (-12535.840) (-12540.069) [-12538.550] * (-12536.940) (-12535.764) [-12533.177] (-12535.891) -- 0:00:22 826000 -- (-12536.709) (-12536.638) [-12541.367] (-12540.031) * (-12538.695) (-12540.494) [-12536.105] (-12534.059) -- 0:00:22 826500 -- (-12543.757) [-12537.192] (-12537.864) (-12534.760) * (-12533.801) (-12537.009) (-12536.571) [-12535.699] -- 0:00:22 827000 -- (-12538.349) (-12539.381) (-12540.515) [-12537.395] * (-12534.570) (-12536.998) (-12534.310) [-12533.311] -- 0:00:22 827500 -- (-12536.130) (-12533.153) (-12537.218) [-12535.560] * (-12536.829) (-12536.171) (-12535.390) [-12534.052] -- 0:00:22 828000 -- (-12534.495) (-12534.390) [-12540.458] (-12538.600) * (-12536.607) (-12541.842) (-12534.674) [-12532.632] -- 0:00:22 828500 -- (-12534.630) (-12540.873) [-12538.938] (-12539.452) * [-12534.127] (-12536.811) (-12534.296) (-12534.293) -- 0:00:21 829000 -- [-12537.513] (-12535.799) (-12544.434) (-12539.528) * [-12533.910] (-12535.563) (-12534.657) (-12535.109) -- 0:00:21 829500 -- (-12537.472) (-12533.680) [-12532.809] (-12535.927) * (-12537.614) (-12540.341) [-12534.886] (-12541.238) -- 0:00:21 830000 -- [-12535.346] (-12536.218) (-12538.304) (-12534.830) * (-12535.960) (-12536.605) (-12542.851) [-12537.893] -- 0:00:21 Average standard deviation of split frequencies: 0.004994 830500 -- (-12536.484) (-12535.241) [-12535.053] (-12538.407) * (-12537.802) [-12537.601] (-12536.884) (-12535.664) -- 0:00:21 831000 -- (-12534.793) (-12535.375) (-12536.299) [-12539.772] * (-12535.800) (-12535.763) (-12539.610) [-12535.942] -- 0:00:21 831500 -- (-12536.250) (-12536.246) (-12539.633) [-12535.224] * (-12534.554) [-12536.389] (-12533.171) (-12535.787) -- 0:00:21 832000 -- [-12536.058] (-12541.699) (-12535.938) (-12538.467) * (-12540.495) [-12538.521] (-12535.799) (-12538.769) -- 0:00:21 832500 -- [-12534.304] (-12538.354) (-12537.432) (-12539.449) * (-12535.659) [-12538.670] (-12537.717) (-12535.217) -- 0:00:21 833000 -- (-12537.625) (-12537.962) (-12535.294) [-12536.841] * (-12532.819) (-12537.335) (-12537.955) [-12534.406] -- 0:00:21 833500 -- (-12537.420) [-12535.521] (-12536.876) (-12534.574) * [-12538.556] (-12539.156) (-12534.971) (-12534.912) -- 0:00:21 834000 -- (-12539.072) (-12540.454) (-12537.835) [-12535.624] * (-12539.460) [-12536.735] (-12534.236) (-12536.059) -- 0:00:21 834500 -- (-12537.616) [-12537.524] (-12534.682) (-12538.019) * [-12534.765] (-12537.628) (-12535.403) (-12540.379) -- 0:00:21 835000 -- (-12540.778) (-12533.629) (-12538.922) [-12538.232] * [-12535.302] (-12538.844) (-12536.129) (-12539.937) -- 0:00:21 Average standard deviation of split frequencies: 0.004962 835500 -- (-12542.693) (-12534.789) [-12537.238] (-12537.535) * (-12539.440) (-12537.642) (-12536.261) [-12535.253] -- 0:00:21 836000 -- (-12541.371) (-12535.303) [-12538.119] (-12533.048) * (-12538.927) (-12536.225) (-12538.266) [-12536.396] -- 0:00:20 836500 -- [-12536.433] (-12534.846) (-12539.533) (-12537.447) * (-12534.914) (-12536.675) [-12536.623] (-12537.666) -- 0:00:20 837000 -- (-12541.368) [-12538.619] (-12537.557) (-12538.216) * (-12534.649) [-12537.465] (-12535.469) (-12539.957) -- 0:00:20 837500 -- [-12537.516] (-12537.181) (-12537.754) (-12539.488) * (-12535.409) [-12539.758] (-12535.119) (-12539.750) -- 0:00:20 838000 -- (-12538.552) (-12536.686) (-12537.558) [-12535.227] * (-12536.552) [-12536.822] (-12538.328) (-12534.522) -- 0:00:20 838500 -- (-12534.440) [-12537.438] (-12536.346) (-12534.025) * [-12537.708] (-12535.791) (-12536.659) (-12535.343) -- 0:00:20 839000 -- (-12538.490) (-12535.010) [-12536.402] (-12535.342) * (-12545.937) (-12537.951) [-12539.305] (-12534.897) -- 0:00:20 839500 -- (-12535.608) [-12534.475] (-12536.144) (-12537.825) * (-12542.736) (-12535.450) [-12539.435] (-12536.844) -- 0:00:20 840000 -- (-12536.610) [-12540.144] (-12541.775) (-12539.645) * (-12535.185) (-12537.528) (-12539.575) [-12535.916] -- 0:00:20 Average standard deviation of split frequencies: 0.004523 840500 -- [-12538.809] (-12538.231) (-12545.155) (-12536.095) * (-12538.254) [-12538.451] (-12538.815) (-12534.563) -- 0:00:20 841000 -- (-12537.346) (-12537.127) [-12539.487] (-12533.607) * (-12534.787) [-12534.396] (-12537.506) (-12534.647) -- 0:00:20 841500 -- (-12538.144) (-12534.761) (-12539.342) [-12534.541] * [-12535.143] (-12536.645) (-12539.285) (-12538.982) -- 0:00:20 842000 -- (-12542.431) (-12535.378) [-12539.007] (-12537.443) * [-12535.970] (-12539.492) (-12540.079) (-12539.138) -- 0:00:20 842500 -- (-12538.115) (-12533.668) [-12533.483] (-12539.723) * (-12537.439) (-12536.089) [-12541.607] (-12539.442) -- 0:00:20 843000 -- [-12537.336] (-12536.029) (-12535.646) (-12536.428) * (-12538.603) (-12538.969) (-12535.406) [-12540.784] -- 0:00:20 843500 -- [-12535.098] (-12535.632) (-12539.929) (-12536.599) * (-12535.872) (-12535.016) [-12538.271] (-12536.950) -- 0:00:20 844000 -- (-12540.220) (-12538.199) [-12534.802] (-12540.041) * (-12534.669) [-12537.610] (-12537.957) (-12538.074) -- 0:00:19 844500 -- (-12546.612) (-12535.957) [-12536.421] (-12536.534) * (-12534.212) [-12544.779] (-12538.467) (-12540.726) -- 0:00:19 845000 -- (-12539.954) (-12537.977) [-12538.629] (-12537.051) * [-12534.303] (-12538.019) (-12538.969) (-12541.001) -- 0:00:19 Average standard deviation of split frequencies: 0.004866 845500 -- (-12536.623) [-12537.704] (-12539.621) (-12536.895) * (-12537.632) (-12537.820) [-12540.542] (-12535.358) -- 0:00:19 846000 -- (-12535.633) [-12538.593] (-12535.691) (-12540.091) * (-12534.422) (-12537.035) (-12538.831) [-12537.192] -- 0:00:19 846500 -- [-12534.611] (-12540.708) (-12536.441) (-12541.117) * [-12534.917] (-12540.649) (-12536.876) (-12538.148) -- 0:00:19 847000 -- [-12535.229] (-12539.313) (-12537.804) (-12540.440) * (-12534.246) [-12533.847] (-12535.496) (-12539.802) -- 0:00:19 847500 -- (-12539.136) (-12535.215) (-12537.453) [-12535.757] * (-12540.480) (-12537.821) [-12538.954] (-12539.193) -- 0:00:19 848000 -- (-12535.494) (-12538.064) [-12536.763] (-12534.934) * (-12536.046) (-12541.116) [-12538.307] (-12535.977) -- 0:00:19 848500 -- (-12534.407) (-12539.085) (-12536.210) [-12538.325] * (-12536.415) (-12537.523) (-12539.550) [-12533.973] -- 0:00:19 849000 -- (-12536.354) (-12535.160) (-12535.521) [-12532.860] * [-12536.346] (-12539.247) (-12540.094) (-12537.814) -- 0:00:19 849500 -- (-12536.246) [-12535.743] (-12536.134) (-12536.837) * [-12539.583] (-12537.309) (-12540.734) (-12537.803) -- 0:00:19 850000 -- [-12539.476] (-12538.891) (-12536.289) (-12537.171) * (-12540.178) [-12535.988] (-12536.304) (-12541.515) -- 0:00:19 Average standard deviation of split frequencies: 0.004884 850500 -- (-12538.703) [-12538.671] (-12538.196) (-12539.099) * [-12538.038] (-12537.910) (-12542.228) (-12541.371) -- 0:00:19 851000 -- (-12537.510) (-12534.515) [-12535.708] (-12543.207) * (-12534.765) [-12540.197] (-12540.123) (-12538.744) -- 0:00:19 851500 -- [-12538.559] (-12537.732) (-12534.553) (-12538.014) * (-12535.046) (-12540.403) [-12542.282] (-12543.212) -- 0:00:19 852000 -- (-12535.644) [-12539.214] (-12535.872) (-12537.274) * (-12535.155) (-12536.471) (-12547.042) [-12538.780] -- 0:00:18 852500 -- [-12538.345] (-12536.703) (-12534.665) (-12535.120) * [-12535.688] (-12537.246) (-12544.586) (-12539.283) -- 0:00:18 853000 -- (-12537.372) [-12538.205] (-12538.022) (-12535.630) * (-12537.968) (-12537.933) [-12543.410] (-12537.837) -- 0:00:18 853500 -- (-12538.331) [-12538.117] (-12534.862) (-12534.594) * (-12536.288) (-12534.244) [-12535.854] (-12536.642) -- 0:00:18 854000 -- [-12534.764] (-12535.433) (-12535.625) (-12538.187) * (-12538.057) [-12537.406] (-12535.551) (-12537.973) -- 0:00:18 854500 -- [-12534.353] (-12538.167) (-12537.492) (-12538.161) * (-12539.001) (-12535.481) [-12534.879] (-12543.760) -- 0:00:18 855000 -- (-12533.865) (-12536.167) [-12534.410] (-12534.841) * (-12537.223) (-12542.779) (-12535.188) [-12540.242] -- 0:00:18 Average standard deviation of split frequencies: 0.004222 855500 -- (-12532.444) (-12536.254) (-12535.121) [-12537.710] * (-12537.503) [-12537.940] (-12537.686) (-12544.946) -- 0:00:18 856000 -- [-12533.503] (-12539.668) (-12534.589) (-12537.212) * (-12538.147) [-12535.373] (-12534.933) (-12540.860) -- 0:00:18 856500 -- (-12534.989) (-12537.919) [-12538.576] (-12535.737) * (-12537.991) (-12538.734) [-12539.959] (-12541.707) -- 0:00:18 857000 -- (-12537.127) [-12540.221] (-12535.975) (-12539.118) * (-12536.410) [-12536.428] (-12537.440) (-12540.334) -- 0:00:18 857500 -- (-12534.336) (-12537.408) (-12536.017) [-12540.025] * [-12535.880] (-12537.177) (-12537.569) (-12540.048) -- 0:00:18 858000 -- [-12537.306] (-12538.373) (-12535.034) (-12539.522) * (-12537.534) (-12535.657) [-12537.804] (-12537.460) -- 0:00:18 858500 -- [-12534.974] (-12537.019) (-12534.683) (-12537.598) * (-12534.866) (-12536.226) [-12534.288] (-12539.190) -- 0:00:18 859000 -- (-12535.325) (-12536.591) [-12533.232] (-12537.378) * (-12535.196) (-12535.107) [-12537.043] (-12539.376) -- 0:00:18 859500 -- [-12537.695] (-12534.359) (-12532.275) (-12536.064) * (-12536.445) [-12534.902] (-12538.572) (-12540.472) -- 0:00:17 860000 -- (-12539.881) (-12538.322) (-12536.198) [-12535.611] * (-12538.809) (-12537.623) [-12536.290] (-12536.127) -- 0:00:17 Average standard deviation of split frequencies: 0.004345 860500 -- (-12533.879) (-12537.404) (-12539.832) [-12538.780] * (-12535.493) (-12535.281) [-12536.712] (-12537.527) -- 0:00:17 861000 -- [-12536.229] (-12538.952) (-12537.907) (-12539.180) * [-12535.846] (-12538.084) (-12538.107) (-12534.385) -- 0:00:17 861500 -- [-12540.231] (-12540.310) (-12536.124) (-12539.145) * (-12540.834) (-12536.464) [-12536.359] (-12535.889) -- 0:00:17 862000 -- (-12538.178) (-12535.139) (-12546.164) [-12533.753] * [-12535.029] (-12540.424) (-12533.674) (-12541.631) -- 0:00:17 862500 -- [-12538.325] (-12537.873) (-12541.136) (-12534.137) * (-12534.774) (-12539.591) [-12533.395] (-12539.830) -- 0:00:17 863000 -- [-12536.569] (-12535.117) (-12534.692) (-12537.470) * (-12535.847) (-12536.313) [-12534.690] (-12542.465) -- 0:00:17 863500 -- (-12538.181) [-12536.847] (-12534.826) (-12540.666) * (-12535.892) (-12536.298) [-12536.047] (-12538.197) -- 0:00:17 864000 -- (-12536.280) [-12535.446] (-12535.584) (-12538.082) * [-12536.711] (-12537.279) (-12535.645) (-12542.357) -- 0:00:17 864500 -- [-12535.569] (-12538.327) (-12534.477) (-12540.954) * (-12534.722) [-12537.556] (-12537.526) (-12538.637) -- 0:00:17 865000 -- (-12535.648) (-12533.651) (-12534.614) [-12537.511] * [-12532.604] (-12543.375) (-12535.679) (-12536.620) -- 0:00:17 Average standard deviation of split frequencies: 0.005035 865500 -- (-12539.591) (-12535.727) [-12535.444] (-12537.317) * (-12535.289) (-12541.626) (-12543.304) [-12537.167] -- 0:00:17 866000 -- (-12534.701) [-12538.518] (-12532.786) (-12539.810) * (-12534.603) [-12534.962] (-12536.855) (-12540.648) -- 0:00:17 866500 -- (-12539.653) (-12535.864) [-12532.993] (-12533.611) * [-12536.164] (-12534.510) (-12540.080) (-12534.636) -- 0:00:17 867000 -- (-12538.805) (-12536.749) (-12537.518) [-12536.224] * [-12535.226] (-12536.800) (-12540.084) (-12539.492) -- 0:00:17 867500 -- (-12535.656) [-12538.718] (-12536.475) (-12538.209) * (-12535.765) (-12539.026) [-12537.496] (-12536.895) -- 0:00:16 868000 -- (-12532.741) (-12537.452) [-12535.084] (-12536.507) * (-12536.068) (-12533.883) [-12540.333] (-12537.277) -- 0:00:16 868500 -- (-12533.121) [-12538.538] (-12538.953) (-12537.325) * (-12534.839) (-12535.045) (-12538.278) [-12535.946] -- 0:00:16 869000 -- [-12533.527] (-12537.870) (-12539.656) (-12536.733) * [-12535.332] (-12542.281) (-12537.335) (-12535.268) -- 0:00:16 869500 -- (-12539.489) (-12539.492) (-12533.056) [-12539.011] * (-12535.967) (-12540.398) [-12534.930] (-12539.425) -- 0:00:16 870000 -- (-12538.255) (-12536.590) [-12534.770] (-12534.983) * (-12541.922) [-12536.037] (-12538.632) (-12538.021) -- 0:00:16 Average standard deviation of split frequencies: 0.004974 870500 -- (-12537.639) [-12533.814] (-12535.915) (-12537.038) * (-12533.694) (-12537.923) (-12534.576) [-12536.420] -- 0:00:16 871000 -- [-12532.801] (-12537.370) (-12536.871) (-12537.949) * [-12540.404] (-12541.333) (-12535.954) (-12537.355) -- 0:00:16 871500 -- (-12536.813) [-12534.401] (-12540.003) (-12538.142) * (-12536.363) (-12535.427) [-12534.482] (-12535.650) -- 0:00:16 872000 -- (-12536.061) (-12537.915) (-12532.847) [-12541.722] * (-12534.877) (-12538.061) (-12536.520) [-12537.350] -- 0:00:16 872500 -- (-12538.103) [-12533.806] (-12534.798) (-12540.964) * (-12535.954) (-12536.327) (-12538.708) [-12535.882] -- 0:00:16 873000 -- (-12541.170) [-12536.532] (-12538.836) (-12542.584) * (-12536.318) (-12538.837) [-12535.469] (-12534.547) -- 0:00:16 873500 -- (-12537.702) [-12536.081] (-12538.934) (-12541.634) * [-12538.339] (-12539.844) (-12536.813) (-12532.996) -- 0:00:16 874000 -- (-12536.836) [-12536.162] (-12538.638) (-12535.688) * [-12538.179] (-12534.265) (-12536.940) (-12535.493) -- 0:00:16 874500 -- (-12535.291) (-12539.208) (-12537.552) [-12538.050] * (-12538.922) (-12534.462) (-12539.216) [-12534.815] -- 0:00:16 875000 -- [-12536.925] (-12539.107) (-12538.845) (-12536.582) * [-12538.293] (-12539.009) (-12538.178) (-12539.400) -- 0:00:16 Average standard deviation of split frequencies: 0.005415 875500 -- (-12541.010) (-12541.162) [-12537.499] (-12539.251) * (-12534.768) [-12536.626] (-12537.615) (-12536.335) -- 0:00:15 876000 -- (-12536.974) (-12534.395) [-12538.080] (-12535.137) * [-12535.793] (-12539.850) (-12539.284) (-12534.383) -- 0:00:15 876500 -- (-12539.035) [-12534.181] (-12538.730) (-12535.924) * [-12535.433] (-12533.491) (-12540.216) (-12540.202) -- 0:00:15 877000 -- (-12536.648) (-12535.977) [-12540.088] (-12536.901) * (-12534.765) [-12535.106] (-12535.674) (-12536.677) -- 0:00:15 877500 -- [-12540.822] (-12534.442) (-12538.896) (-12542.181) * (-12539.735) (-12538.601) (-12538.602) [-12533.670] -- 0:00:15 878000 -- (-12543.927) [-12537.324] (-12534.595) (-12541.410) * [-12540.794] (-12533.701) (-12539.345) (-12539.542) -- 0:00:15 878500 -- (-12539.042) (-12539.161) (-12535.972) [-12539.875] * (-12538.996) (-12538.817) (-12539.092) [-12536.139] -- 0:00:15 879000 -- [-12534.843] (-12534.742) (-12536.264) (-12536.283) * (-12536.529) (-12539.219) (-12536.160) [-12534.566] -- 0:00:15 879500 -- (-12538.328) (-12537.953) [-12534.425] (-12537.099) * (-12534.562) (-12539.163) [-12536.229] (-12535.189) -- 0:00:15 880000 -- (-12537.629) (-12536.114) (-12538.127) [-12537.616] * (-12539.285) (-12537.540) [-12538.316] (-12535.338) -- 0:00:15 Average standard deviation of split frequencies: 0.005520 880500 -- (-12540.060) (-12537.598) [-12537.526] (-12537.245) * (-12536.616) (-12535.003) [-12537.273] (-12536.604) -- 0:00:15 881000 -- (-12538.795) (-12534.915) (-12538.144) [-12537.296] * (-12537.324) (-12538.189) [-12539.038] (-12535.779) -- 0:00:15 881500 -- (-12536.786) (-12535.148) [-12537.994] (-12537.108) * [-12534.978] (-12537.375) (-12540.389) (-12534.880) -- 0:00:15 882000 -- (-12538.332) (-12534.891) [-12538.298] (-12538.892) * (-12533.442) (-12536.078) (-12534.591) [-12535.780] -- 0:00:15 882500 -- (-12537.662) (-12536.948) [-12536.111] (-12538.714) * (-12535.713) (-12534.335) (-12536.285) [-12540.275] -- 0:00:15 883000 -- (-12537.945) [-12541.532] (-12537.787) (-12539.397) * [-12536.068] (-12533.809) (-12539.254) (-12534.299) -- 0:00:14 883500 -- [-12535.634] (-12535.029) (-12537.031) (-12535.248) * (-12535.359) (-12534.599) [-12538.502] (-12535.376) -- 0:00:14 884000 -- (-12535.769) (-12534.478) [-12539.936] (-12539.299) * [-12538.240] (-12537.267) (-12540.701) (-12537.602) -- 0:00:14 884500 -- (-12536.051) (-12538.728) [-12533.685] (-12542.427) * [-12535.040] (-12534.184) (-12539.816) (-12536.844) -- 0:00:14 885000 -- (-12537.240) [-12538.649] (-12542.367) (-12545.024) * (-12536.246) (-12533.945) [-12537.932] (-12539.595) -- 0:00:14 Average standard deviation of split frequencies: 0.005387 885500 -- (-12538.859) [-12538.202] (-12534.810) (-12539.723) * (-12536.656) [-12534.382] (-12539.289) (-12540.437) -- 0:00:14 886000 -- (-12535.164) (-12540.967) (-12539.222) [-12538.546] * (-12537.057) (-12535.431) (-12536.193) [-12535.126] -- 0:00:14 886500 -- [-12536.987] (-12537.889) (-12537.509) (-12537.671) * [-12538.765] (-12537.914) (-12535.312) (-12537.773) -- 0:00:14 887000 -- [-12537.942] (-12537.937) (-12538.110) (-12533.338) * (-12538.575) (-12536.138) [-12535.580] (-12536.894) -- 0:00:14 887500 -- (-12543.521) (-12538.096) (-12532.746) [-12534.634] * (-12535.590) (-12536.563) (-12536.899) [-12537.893] -- 0:00:14 888000 -- (-12538.205) [-12536.704] (-12534.610) (-12535.456) * (-12537.436) (-12541.383) (-12538.137) [-12536.060] -- 0:00:14 888500 -- (-12538.402) (-12539.222) (-12535.094) [-12532.996] * (-12535.787) (-12540.557) (-12536.835) [-12535.628] -- 0:00:14 889000 -- (-12539.715) (-12535.858) (-12535.484) [-12534.057] * [-12534.647] (-12535.242) (-12536.693) (-12533.324) -- 0:00:14 889500 -- (-12538.297) [-12533.122] (-12534.270) (-12536.517) * [-12535.719] (-12534.674) (-12538.941) (-12538.805) -- 0:00:14 890000 -- [-12538.041] (-12534.620) (-12537.524) (-12538.592) * (-12536.797) (-12538.962) [-12532.998] (-12538.882) -- 0:00:14 Average standard deviation of split frequencies: 0.005491 890500 -- (-12540.119) (-12537.689) [-12534.207] (-12533.569) * (-12536.412) (-12537.569) (-12542.874) [-12534.657] -- 0:00:14 891000 -- (-12539.101) [-12538.211] (-12536.177) (-12535.634) * (-12534.314) (-12538.266) [-12537.286] (-12534.953) -- 0:00:13 891500 -- (-12537.710) [-12538.668] (-12536.043) (-12537.879) * [-12534.584] (-12537.816) (-12535.027) (-12535.753) -- 0:00:13 892000 -- (-12539.990) [-12536.872] (-12537.160) (-12535.283) * [-12537.897] (-12534.722) (-12536.657) (-12536.736) -- 0:00:13 892500 -- (-12535.386) (-12538.454) (-12534.680) [-12536.345] * (-12534.873) [-12535.386] (-12538.209) (-12538.336) -- 0:00:13 893000 -- (-12538.112) [-12533.614] (-12534.913) (-12535.894) * (-12535.181) [-12538.438] (-12533.834) (-12536.661) -- 0:00:13 893500 -- (-12534.993) [-12537.580] (-12535.532) (-12534.150) * (-12534.423) (-12536.092) [-12534.058] (-12540.673) -- 0:00:13 894000 -- (-12538.133) (-12534.215) [-12537.304] (-12534.890) * (-12536.034) (-12536.427) (-12534.994) [-12537.085] -- 0:00:13 894500 -- [-12534.392] (-12538.540) (-12538.846) (-12536.736) * (-12537.901) (-12538.253) (-12535.975) [-12535.788] -- 0:00:13 895000 -- (-12535.428) (-12536.555) [-12538.592] (-12534.625) * (-12540.978) [-12537.535] (-12533.995) (-12536.717) -- 0:00:13 Average standard deviation of split frequencies: 0.005031 895500 -- (-12534.390) (-12535.297) (-12547.413) [-12534.627] * [-12540.821] (-12538.410) (-12538.911) (-12536.084) -- 0:00:13 896000 -- [-12537.449] (-12533.141) (-12539.314) (-12533.815) * [-12537.297] (-12538.011) (-12539.249) (-12537.559) -- 0:00:13 896500 -- (-12540.585) (-12537.280) [-12540.385] (-12534.644) * (-12535.041) [-12534.783] (-12537.539) (-12534.448) -- 0:00:13 897000 -- (-12538.105) [-12531.895] (-12533.501) (-12536.973) * (-12536.152) [-12537.025] (-12539.464) (-12533.661) -- 0:00:13 897500 -- [-12534.628] (-12533.616) (-12535.340) (-12535.284) * (-12538.470) (-12540.771) [-12538.770] (-12536.352) -- 0:00:13 898000 -- [-12534.718] (-12537.164) (-12534.957) (-12535.665) * (-12537.537) (-12540.782) [-12536.046] (-12538.025) -- 0:00:13 898500 -- [-12536.670] (-12534.724) (-12535.120) (-12534.786) * [-12537.347] (-12545.402) (-12538.281) (-12536.388) -- 0:00:12 899000 -- [-12536.895] (-12535.271) (-12535.017) (-12542.346) * [-12542.588] (-12538.553) (-12537.862) (-12537.750) -- 0:00:12 899500 -- (-12538.398) (-12539.298) (-12537.267) [-12538.344] * (-12536.226) (-12538.472) (-12539.730) [-12540.210] -- 0:00:12 900000 -- (-12535.004) (-12538.471) [-12538.889] (-12535.552) * (-12535.999) (-12539.079) (-12539.480) [-12537.355] -- 0:00:12 Average standard deviation of split frequencies: 0.005201 900500 -- (-12539.684) (-12534.617) (-12536.872) [-12537.069] * (-12537.605) (-12535.427) (-12537.128) [-12535.456] -- 0:00:12 901000 -- (-12536.632) (-12537.559) [-12537.151] (-12534.806) * [-12535.244] (-12536.938) (-12540.147) (-12535.787) -- 0:00:12 901500 -- (-12539.811) (-12534.976) [-12532.901] (-12533.819) * (-12535.929) [-12541.184] (-12539.986) (-12535.795) -- 0:00:12 902000 -- (-12543.131) (-12534.218) (-12538.800) [-12537.246] * [-12537.954] (-12539.985) (-12534.365) (-12536.072) -- 0:00:12 902500 -- (-12539.548) (-12535.814) (-12541.003) [-12538.177] * [-12536.464] (-12543.938) (-12535.337) (-12535.892) -- 0:00:12 903000 -- (-12541.000) (-12535.816) (-12536.249) [-12535.260] * (-12541.427) (-12539.055) [-12539.491] (-12535.820) -- 0:00:12 903500 -- (-12537.819) (-12535.224) (-12538.870) [-12538.430] * [-12541.062] (-12537.822) (-12537.108) (-12538.143) -- 0:00:12 904000 -- [-12537.291] (-12533.886) (-12539.241) (-12535.386) * (-12537.207) [-12537.600] (-12535.054) (-12536.194) -- 0:00:12 904500 -- [-12537.577] (-12534.429) (-12537.055) (-12536.643) * [-12540.563] (-12538.483) (-12537.380) (-12534.864) -- 0:00:12 905000 -- (-12535.678) (-12535.077) [-12535.253] (-12537.659) * (-12533.981) (-12539.135) [-12535.025] (-12533.010) -- 0:00:12 Average standard deviation of split frequencies: 0.005333 905500 -- (-12541.347) [-12534.922] (-12538.051) (-12538.973) * (-12535.107) [-12535.626] (-12535.732) (-12533.344) -- 0:00:12 906000 -- (-12533.707) [-12542.845] (-12538.352) (-12537.198) * (-12536.819) (-12537.139) [-12535.498] (-12533.255) -- 0:00:12 906500 -- (-12534.716) (-12536.822) [-12535.954] (-12541.441) * [-12536.237] (-12539.220) (-12535.437) (-12536.981) -- 0:00:11 907000 -- [-12535.810] (-12539.893) (-12534.636) (-12539.484) * [-12536.224] (-12536.025) (-12538.397) (-12534.788) -- 0:00:11 907500 -- [-12533.439] (-12534.505) (-12535.328) (-12535.674) * [-12539.618] (-12538.140) (-12537.650) (-12537.225) -- 0:00:11 908000 -- (-12535.391) (-12534.055) [-12537.060] (-12537.046) * (-12537.929) [-12535.640] (-12535.871) (-12536.289) -- 0:00:11 908500 -- (-12533.166) (-12534.179) [-12538.258] (-12538.183) * (-12537.094) [-12538.561] (-12535.423) (-12536.406) -- 0:00:11 909000 -- (-12532.712) (-12534.636) (-12533.900) [-12537.267] * [-12540.525] (-12539.850) (-12537.156) (-12539.409) -- 0:00:11 909500 -- [-12534.160] (-12537.356) (-12535.298) (-12539.882) * (-12542.749) (-12539.510) (-12540.182) [-12536.716] -- 0:00:11 910000 -- (-12538.002) (-12539.948) [-12540.106] (-12539.183) * (-12539.987) (-12539.794) [-12535.904] (-12533.840) -- 0:00:11 Average standard deviation of split frequencies: 0.005209 910500 -- (-12534.785) (-12541.240) (-12538.257) [-12536.615] * [-12537.690] (-12539.909) (-12538.593) (-12533.960) -- 0:00:11 911000 -- (-12538.606) (-12534.278) [-12535.940] (-12540.454) * (-12536.897) (-12540.118) [-12537.449] (-12534.719) -- 0:00:11 911500 -- (-12534.182) [-12538.926] (-12542.094) (-12537.039) * [-12537.668] (-12538.379) (-12540.844) (-12535.973) -- 0:00:11 912000 -- (-12535.389) [-12537.295] (-12542.763) (-12538.352) * (-12538.453) [-12538.537] (-12537.766) (-12534.595) -- 0:00:11 912500 -- (-12537.095) [-12541.517] (-12536.568) (-12539.654) * (-12536.535) [-12538.647] (-12533.739) (-12534.037) -- 0:00:11 913000 -- (-12538.698) [-12540.240] (-12537.350) (-12536.697) * [-12536.958] (-12542.140) (-12536.303) (-12535.188) -- 0:00:11 913500 -- (-12541.144) (-12540.853) (-12534.919) [-12536.050] * [-12536.453] (-12536.027) (-12534.708) (-12535.176) -- 0:00:11 914000 -- [-12538.557] (-12534.383) (-12539.700) (-12534.810) * (-12535.885) (-12538.849) (-12538.039) [-12535.836] -- 0:00:11 914500 -- [-12537.749] (-12535.957) (-12535.560) (-12537.508) * (-12535.948) [-12534.914] (-12538.897) (-12535.046) -- 0:00:10 915000 -- (-12539.014) (-12539.567) (-12538.453) [-12538.741] * (-12535.532) [-12534.203] (-12538.897) (-12541.610) -- 0:00:10 Average standard deviation of split frequencies: 0.005082 915500 -- [-12539.014] (-12539.312) (-12537.667) (-12537.243) * (-12533.990) [-12535.681] (-12537.135) (-12536.143) -- 0:00:10 916000 -- (-12537.232) (-12534.014) (-12540.462) [-12534.240] * (-12534.777) (-12538.497) [-12538.765] (-12534.530) -- 0:00:10 916500 -- (-12536.200) [-12534.173] (-12542.444) (-12538.576) * (-12534.755) [-12535.588] (-12538.920) (-12536.564) -- 0:00:10 917000 -- (-12534.424) (-12534.326) (-12538.019) [-12535.333] * (-12537.124) (-12537.696) [-12534.721] (-12539.631) -- 0:00:10 917500 -- (-12536.639) [-12534.016] (-12536.787) (-12534.782) * (-12536.412) (-12539.236) [-12535.332] (-12537.982) -- 0:00:10 918000 -- (-12541.983) [-12534.346] (-12537.854) (-12536.583) * (-12538.146) (-12539.029) (-12536.205) [-12536.624] -- 0:00:10 918500 -- [-12536.797] (-12534.893) (-12537.142) (-12535.482) * (-12538.538) (-12540.518) [-12534.237] (-12534.947) -- 0:00:10 919000 -- (-12538.072) [-12533.870] (-12537.204) (-12533.553) * (-12538.136) (-12542.256) [-12534.187] (-12538.115) -- 0:00:10 919500 -- (-12536.631) (-12541.087) [-12535.794] (-12535.092) * [-12537.235] (-12537.040) (-12536.339) (-12533.102) -- 0:00:10 920000 -- (-12536.555) (-12537.227) (-12538.681) [-12541.894] * (-12536.734) (-12535.296) [-12537.873] (-12533.662) -- 0:00:10 Average standard deviation of split frequencies: 0.005088 920500 -- (-12535.772) (-12534.782) (-12538.988) [-12536.697] * [-12538.340] (-12537.522) (-12534.495) (-12535.663) -- 0:00:10 921000 -- (-12537.376) (-12539.265) (-12537.923) [-12536.516] * [-12537.656] (-12536.835) (-12535.364) (-12536.779) -- 0:00:10 921500 -- (-12540.698) (-12539.373) (-12540.227) [-12535.266] * [-12539.049] (-12534.597) (-12534.299) (-12535.904) -- 0:00:10 922000 -- [-12534.189] (-12536.564) (-12539.149) (-12536.214) * [-12535.053] (-12536.188) (-12534.433) (-12535.573) -- 0:00:09 922500 -- (-12539.213) (-12536.368) (-12533.500) [-12533.610] * (-12538.105) [-12535.042] (-12539.435) (-12534.583) -- 0:00:09 923000 -- (-12539.511) [-12538.754] (-12539.069) (-12535.862) * (-12538.865) (-12537.987) (-12537.061) [-12536.250] -- 0:00:09 923500 -- (-12535.020) [-12536.150] (-12539.793) (-12537.070) * (-12539.364) (-12533.858) [-12537.592] (-12536.093) -- 0:00:09 924000 -- [-12535.443] (-12535.635) (-12539.887) (-12536.523) * (-12540.141) (-12537.705) (-12540.497) [-12537.197] -- 0:00:09 924500 -- (-12536.817) [-12536.538] (-12539.542) (-12539.237) * (-12540.146) (-12538.480) [-12537.370] (-12534.125) -- 0:00:09 925000 -- [-12535.218] (-12541.505) (-12540.097) (-12539.346) * (-12541.461) (-12540.375) (-12543.865) [-12533.906] -- 0:00:09 Average standard deviation of split frequencies: 0.005313 925500 -- [-12536.194] (-12538.141) (-12536.472) (-12538.492) * (-12535.778) [-12536.310] (-12537.460) (-12537.321) -- 0:00:09 926000 -- [-12536.092] (-12536.549) (-12539.128) (-12542.162) * (-12539.362) (-12535.309) [-12537.069] (-12536.125) -- 0:00:09 926500 -- [-12537.714] (-12539.782) (-12537.460) (-12541.243) * [-12539.376] (-12535.067) (-12534.840) (-12536.630) -- 0:00:09 927000 -- (-12542.169) (-12536.337) [-12535.960] (-12537.386) * (-12535.782) (-12534.221) (-12537.676) [-12535.317] -- 0:00:09 927500 -- (-12538.967) [-12535.329] (-12533.279) (-12537.500) * (-12537.572) [-12535.335] (-12536.254) (-12534.712) -- 0:00:09 928000 -- (-12540.711) [-12535.425] (-12535.720) (-12536.725) * (-12535.163) [-12538.296] (-12537.844) (-12537.068) -- 0:00:09 928500 -- (-12539.845) [-12534.098] (-12535.588) (-12536.469) * (-12534.285) (-12533.567) (-12536.003) [-12535.953] -- 0:00:09 929000 -- (-12537.596) [-12532.720] (-12535.510) (-12537.174) * [-12534.322] (-12539.337) (-12538.062) (-12535.819) -- 0:00:09 929500 -- [-12534.425] (-12536.166) (-12533.793) (-12538.093) * [-12535.568] (-12539.431) (-12536.599) (-12538.631) -- 0:00:09 930000 -- (-12539.120) (-12537.298) [-12538.337] (-12535.249) * [-12536.286] (-12535.311) (-12536.200) (-12536.274) -- 0:00:08 Average standard deviation of split frequencies: 0.005350 930500 -- (-12539.203) (-12534.556) (-12536.903) [-12537.400] * (-12546.301) (-12535.239) (-12538.507) [-12537.593] -- 0:00:08 931000 -- (-12535.325) [-12533.804] (-12535.665) (-12537.753) * [-12538.026] (-12539.080) (-12536.321) (-12534.935) -- 0:00:08 931500 -- (-12536.484) [-12539.039] (-12536.997) (-12542.124) * (-12542.732) [-12540.956] (-12538.333) (-12538.068) -- 0:00:08 932000 -- (-12534.920) (-12540.011) (-12534.284) [-12540.418] * (-12536.461) [-12537.173] (-12536.232) (-12538.790) -- 0:00:08 932500 -- [-12534.091] (-12540.991) (-12538.870) (-12538.561) * (-12538.753) (-12539.231) [-12536.126] (-12538.248) -- 0:00:08 933000 -- [-12534.568] (-12540.556) (-12537.380) (-12538.416) * (-12538.992) (-12541.744) [-12536.201] (-12536.204) -- 0:00:08 933500 -- (-12537.277) (-12537.231) (-12539.275) [-12535.661] * (-12538.615) (-12535.117) [-12538.627] (-12539.039) -- 0:00:08 934000 -- (-12537.397) (-12537.986) [-12535.195] (-12535.049) * (-12541.376) (-12535.030) [-12536.102] (-12536.280) -- 0:00:08 934500 -- [-12534.460] (-12538.646) (-12536.927) (-12539.125) * (-12537.936) [-12532.982] (-12539.427) (-12534.001) -- 0:00:08 935000 -- (-12535.964) (-12543.130) [-12535.974] (-12536.512) * (-12534.106) [-12534.461] (-12535.626) (-12534.298) -- 0:00:08 Average standard deviation of split frequencies: 0.005446 935500 -- [-12537.901] (-12535.490) (-12534.397) (-12538.494) * (-12542.370) (-12534.732) (-12535.704) [-12535.447] -- 0:00:08 936000 -- (-12534.514) (-12538.329) (-12543.372) [-12536.484] * (-12539.483) (-12536.531) [-12539.305] (-12537.573) -- 0:00:08 936500 -- (-12539.764) [-12538.200] (-12535.163) (-12538.343) * (-12535.710) (-12535.680) [-12533.801] (-12537.101) -- 0:00:08 937000 -- (-12539.095) (-12535.970) (-12535.134) [-12538.329] * (-12537.891) (-12535.764) (-12534.011) [-12536.486] -- 0:00:08 937500 -- (-12539.818) [-12535.609] (-12536.561) (-12537.853) * (-12537.571) (-12540.362) [-12536.278] (-12537.128) -- 0:00:08 938000 -- (-12540.044) [-12535.993] (-12535.018) (-12532.728) * [-12536.766] (-12537.748) (-12538.667) (-12542.262) -- 0:00:07 938500 -- (-12537.262) (-12537.405) [-12535.748] (-12534.986) * (-12537.518) (-12534.876) (-12536.768) [-12545.286] -- 0:00:07 939000 -- (-12537.316) (-12534.947) (-12542.812) [-12536.512] * [-12535.130] (-12534.805) (-12536.616) (-12537.893) -- 0:00:07 939500 -- (-12539.083) (-12538.989) (-12536.582) [-12536.962] * (-12537.877) (-12535.764) (-12537.198) [-12538.667] -- 0:00:07 940000 -- [-12533.404] (-12535.491) (-12533.059) (-12540.773) * (-12536.035) (-12537.640) [-12534.785] (-12537.461) -- 0:00:07 Average standard deviation of split frequencies: 0.005888 940500 -- [-12534.739] (-12534.429) (-12540.296) (-12542.444) * [-12534.431] (-12542.872) (-12534.474) (-12538.449) -- 0:00:07 941000 -- [-12534.365] (-12541.636) (-12535.531) (-12538.991) * (-12539.449) (-12548.031) (-12534.787) [-12536.338] -- 0:00:07 941500 -- (-12534.524) (-12536.340) [-12536.339] (-12538.176) * (-12536.178) (-12536.614) (-12537.332) [-12536.004] -- 0:00:07 942000 -- [-12534.120] (-12539.281) (-12537.130) (-12537.997) * (-12537.018) (-12540.521) [-12535.376] (-12535.225) -- 0:00:07 942500 -- [-12532.681] (-12537.604) (-12536.096) (-12539.558) * [-12536.284] (-12538.580) (-12539.337) (-12535.134) -- 0:00:07 943000 -- (-12534.961) [-12536.305] (-12537.901) (-12539.597) * (-12537.541) (-12536.812) (-12544.537) [-12536.261] -- 0:00:07 943500 -- (-12536.811) (-12539.416) [-12539.164] (-12541.127) * [-12540.606] (-12539.644) (-12546.336) (-12535.755) -- 0:00:07 944000 -- (-12539.050) [-12537.078] (-12538.450) (-12544.261) * [-12537.718] (-12538.170) (-12548.516) (-12536.662) -- 0:00:07 944500 -- (-12541.140) [-12536.521] (-12534.717) (-12541.755) * [-12538.674] (-12534.010) (-12550.536) (-12535.159) -- 0:00:07 945000 -- (-12535.439) (-12534.357) (-12534.015) [-12539.046] * (-12534.910) (-12535.299) [-12534.526] (-12537.398) -- 0:00:07 Average standard deviation of split frequencies: 0.005575 945500 -- (-12542.087) (-12539.727) [-12538.121] (-12537.784) * [-12535.474] (-12535.586) (-12537.462) (-12536.803) -- 0:00:06 946000 -- (-12538.739) (-12535.852) [-12538.218] (-12534.860) * [-12533.183] (-12538.201) (-12538.258) (-12535.945) -- 0:00:06 946500 -- (-12537.365) [-12535.739] (-12540.984) (-12542.206) * (-12534.959) (-12539.123) (-12540.123) [-12536.315] -- 0:00:06 947000 -- (-12537.882) (-12537.307) (-12537.999) [-12547.499] * (-12536.074) (-12540.596) (-12540.554) [-12538.500] -- 0:00:06 947500 -- [-12534.985] (-12542.810) (-12534.359) (-12540.852) * (-12539.242) [-12537.403] (-12537.582) (-12538.076) -- 0:00:06 948000 -- (-12537.379) (-12535.788) [-12533.374] (-12538.263) * [-12535.461] (-12536.652) (-12539.216) (-12533.901) -- 0:00:06 948500 -- (-12538.823) [-12535.357] (-12535.587) (-12536.183) * (-12536.740) [-12534.561] (-12540.458) (-12534.809) -- 0:00:06 949000 -- (-12542.492) (-12543.386) (-12538.158) [-12537.547] * [-12533.974] (-12536.867) (-12541.943) (-12534.445) -- 0:00:06 949500 -- (-12544.340) (-12538.251) (-12533.934) [-12535.132] * (-12535.098) (-12535.172) (-12538.863) [-12532.956] -- 0:00:06 950000 -- [-12541.019] (-12535.572) (-12535.598) (-12536.412) * [-12534.802] (-12543.777) (-12538.440) (-12538.233) -- 0:00:06 Average standard deviation of split frequencies: 0.005424 950500 -- (-12537.294) (-12534.131) (-12536.819) [-12536.765] * [-12537.243] (-12538.689) (-12537.864) (-12536.560) -- 0:00:06 951000 -- (-12539.062) (-12543.766) (-12536.848) [-12538.443] * (-12538.101) [-12537.737] (-12538.816) (-12536.551) -- 0:00:06 951500 -- [-12536.281] (-12543.895) (-12533.853) (-12535.069) * (-12538.913) (-12537.793) (-12536.014) [-12538.207] -- 0:00:06 952000 -- (-12536.315) (-12534.435) [-12532.586] (-12539.740) * (-12535.710) [-12537.973] (-12538.492) (-12536.668) -- 0:00:06 952500 -- (-12538.043) (-12538.577) [-12537.907] (-12536.747) * [-12535.600] (-12538.380) (-12541.718) (-12535.815) -- 0:00:06 953000 -- (-12537.530) (-12543.330) (-12538.347) [-12535.885] * (-12540.760) (-12538.049) [-12539.001] (-12536.418) -- 0:00:06 953500 -- (-12538.138) (-12536.591) [-12536.975] (-12535.718) * (-12539.280) (-12541.038) (-12535.746) [-12532.997] -- 0:00:05 954000 -- (-12539.292) (-12537.233) [-12536.136] (-12537.554) * [-12534.369] (-12536.258) (-12536.546) (-12534.767) -- 0:00:05 954500 -- (-12539.694) (-12542.288) (-12536.466) [-12534.507] * [-12536.438] (-12534.294) (-12540.998) (-12534.219) -- 0:00:05 955000 -- (-12537.600) [-12537.676] (-12535.549) (-12537.233) * (-12538.558) (-12534.666) (-12537.799) [-12537.600] -- 0:00:05 Average standard deviation of split frequencies: 0.005486 955500 -- (-12542.109) [-12539.913] (-12536.830) (-12534.844) * (-12541.368) (-12533.629) (-12538.112) [-12535.251] -- 0:00:05 956000 -- [-12538.609] (-12541.118) (-12536.985) (-12539.920) * (-12535.213) (-12535.871) (-12537.897) [-12533.220] -- 0:00:05 956500 -- (-12535.891) (-12538.107) [-12537.531] (-12541.040) * (-12537.483) (-12534.495) [-12533.273] (-12533.929) -- 0:00:05 957000 -- (-12536.404) (-12537.407) (-12534.999) [-12536.662] * (-12539.574) (-12533.698) [-12533.906] (-12535.175) -- 0:00:05 957500 -- (-12535.253) (-12540.098) (-12537.103) [-12534.384] * (-12535.415) (-12538.264) [-12535.605] (-12535.229) -- 0:00:05 958000 -- (-12535.550) [-12536.296] (-12535.698) (-12535.004) * (-12535.336) (-12539.250) (-12541.120) [-12535.283] -- 0:00:05 958500 -- (-12537.173) (-12538.974) (-12535.354) [-12532.921] * (-12534.968) (-12539.122) (-12536.302) [-12534.472] -- 0:00:05 959000 -- [-12536.233] (-12538.525) (-12535.299) (-12534.684) * (-12536.633) (-12540.454) (-12535.711) [-12535.855] -- 0:00:05 959500 -- (-12539.309) (-12539.885) [-12535.213] (-12532.474) * [-12538.060] (-12537.139) (-12538.923) (-12533.329) -- 0:00:05 960000 -- [-12534.847] (-12538.945) (-12538.428) (-12538.765) * (-12534.830) [-12535.335] (-12538.490) (-12539.678) -- 0:00:05 Average standard deviation of split frequencies: 0.005005 960500 -- (-12537.387) (-12539.433) [-12533.792] (-12535.761) * (-12536.927) (-12532.802) [-12536.946] (-12537.300) -- 0:00:05 961000 -- [-12533.626] (-12541.569) (-12535.829) (-12534.020) * (-12534.488) [-12533.897] (-12537.097) (-12536.995) -- 0:00:04 961500 -- (-12539.500) (-12537.872) [-12537.155] (-12536.959) * (-12535.619) [-12533.403] (-12537.434) (-12533.917) -- 0:00:04 962000 -- [-12537.571] (-12549.912) (-12537.732) (-12538.999) * [-12537.470] (-12533.640) (-12536.412) (-12537.729) -- 0:00:04 962500 -- (-12537.690) (-12536.024) [-12541.221] (-12538.728) * (-12538.162) [-12534.304] (-12540.478) (-12535.922) -- 0:00:04 963000 -- (-12538.568) (-12538.685) [-12537.537] (-12539.951) * (-12537.387) (-12535.135) (-12541.789) [-12539.499] -- 0:00:04 963500 -- (-12535.445) [-12535.298] (-12537.224) (-12534.373) * (-12537.521) [-12537.732] (-12534.387) (-12536.569) -- 0:00:04 964000 -- (-12536.952) (-12535.142) (-12535.234) [-12535.823] * [-12536.119] (-12534.672) (-12539.570) (-12536.156) -- 0:00:04 964500 -- (-12538.922) (-12539.350) [-12540.554] (-12539.426) * (-12538.440) (-12537.257) (-12534.803) [-12536.825] -- 0:00:04 965000 -- (-12535.028) (-12537.308) [-12537.390] (-12537.468) * (-12534.208) [-12535.979] (-12540.637) (-12533.643) -- 0:00:04 Average standard deviation of split frequencies: 0.005531 965500 -- [-12539.269] (-12536.556) (-12534.665) (-12536.787) * (-12535.059) [-12535.050] (-12539.253) (-12533.969) -- 0:00:04 966000 -- (-12541.174) (-12538.584) [-12538.171] (-12538.454) * [-12537.046] (-12537.786) (-12536.749) (-12536.794) -- 0:00:04 966500 -- (-12536.777) (-12539.478) [-12534.171] (-12539.672) * (-12536.802) (-12538.068) [-12536.935] (-12534.267) -- 0:00:04 967000 -- (-12534.161) [-12537.713] (-12536.944) (-12539.468) * (-12538.865) (-12538.536) [-12538.640] (-12537.391) -- 0:00:04 967500 -- (-12540.623) (-12541.731) (-12537.783) [-12534.171] * [-12537.855] (-12534.220) (-12541.095) (-12539.495) -- 0:00:04 968000 -- (-12535.455) [-12543.324] (-12534.069) (-12538.424) * (-12533.268) [-12534.232] (-12537.778) (-12542.286) -- 0:00:04 968500 -- (-12538.455) (-12539.783) [-12535.071] (-12537.233) * (-12534.718) [-12533.220] (-12535.938) (-12544.851) -- 0:00:04 969000 -- (-12535.036) (-12536.584) (-12536.137) [-12539.554] * (-12536.831) (-12535.097) [-12538.029] (-12539.576) -- 0:00:03 969500 -- (-12535.630) (-12538.742) [-12535.921] (-12537.711) * (-12537.158) (-12537.681) (-12541.051) [-12532.064] -- 0:00:03 970000 -- (-12536.357) (-12536.310) [-12536.369] (-12535.213) * [-12535.140] (-12537.230) (-12541.431) (-12535.387) -- 0:00:03 Average standard deviation of split frequencies: 0.005666 970500 -- (-12537.964) [-12538.649] (-12533.942) (-12535.515) * (-12536.505) (-12536.403) (-12540.573) [-12535.537] -- 0:00:03 971000 -- (-12535.684) (-12539.195) [-12536.960] (-12535.384) * (-12537.591) (-12535.858) [-12536.393] (-12535.485) -- 0:00:03 971500 -- (-12540.102) (-12540.578) [-12533.538] (-12539.645) * (-12536.480) (-12539.238) (-12535.743) [-12536.229] -- 0:00:03 972000 -- (-12542.396) [-12539.264] (-12534.263) (-12537.331) * (-12537.126) (-12540.135) (-12533.062) [-12535.568] -- 0:00:03 972500 -- (-12546.675) [-12538.693] (-12533.283) (-12540.312) * (-12537.838) [-12540.211] (-12539.478) (-12538.042) -- 0:00:03 973000 -- (-12538.770) [-12540.149] (-12540.612) (-12535.763) * [-12534.235] (-12539.481) (-12536.991) (-12538.763) -- 0:00:03 973500 -- (-12536.327) [-12535.046] (-12538.499) (-12536.493) * (-12535.259) (-12535.915) [-12536.950] (-12542.933) -- 0:00:03 974000 -- [-12537.535] (-12537.259) (-12536.080) (-12535.263) * [-12537.568] (-12537.518) (-12540.240) (-12536.833) -- 0:00:03 974500 -- (-12534.282) [-12536.837] (-12541.834) (-12536.432) * [-12535.568] (-12537.537) (-12535.040) (-12537.439) -- 0:00:03 975000 -- (-12534.008) (-12538.634) (-12540.620) [-12538.519] * (-12535.148) (-12534.802) (-12540.270) [-12535.955] -- 0:00:03 Average standard deviation of split frequencies: 0.005732 975500 -- (-12534.922) (-12537.300) (-12538.318) [-12532.672] * [-12533.598] (-12537.449) (-12537.618) (-12538.047) -- 0:00:03 976000 -- (-12536.808) [-12540.505] (-12536.051) (-12537.445) * (-12538.952) (-12537.208) [-12535.808] (-12537.311) -- 0:00:03 976500 -- [-12536.103] (-12536.230) (-12535.961) (-12538.946) * (-12536.795) [-12538.669] (-12535.720) (-12538.845) -- 0:00:03 977000 -- (-12535.195) (-12538.096) (-12534.216) [-12533.046] * [-12535.468] (-12536.195) (-12538.922) (-12538.112) -- 0:00:02 977500 -- (-12535.761) (-12539.069) (-12536.347) [-12536.365] * (-12535.630) (-12535.718) [-12535.045] (-12538.111) -- 0:00:02 978000 -- (-12535.943) [-12536.524] (-12537.628) (-12533.739) * (-12539.329) (-12541.225) (-12539.701) [-12536.229] -- 0:00:02 978500 -- (-12536.967) (-12540.544) [-12534.942] (-12539.696) * (-12535.601) (-12536.604) (-12539.389) [-12537.302] -- 0:00:02 979000 -- (-12538.294) (-12541.173) [-12534.048] (-12533.926) * (-12535.569) [-12534.399] (-12537.271) (-12539.953) -- 0:00:02 979500 -- [-12537.514] (-12539.173) (-12535.888) (-12537.104) * [-12538.266] (-12535.878) (-12541.111) (-12536.206) -- 0:00:02 980000 -- (-12539.248) [-12535.467] (-12535.986) (-12535.732) * (-12535.657) [-12534.248] (-12541.546) (-12538.155) -- 0:00:02 Average standard deviation of split frequencies: 0.006185 980500 -- [-12544.146] (-12539.228) (-12541.970) (-12538.943) * [-12532.648] (-12536.547) (-12533.868) (-12539.296) -- 0:00:02 981000 -- (-12537.327) [-12539.036] (-12539.997) (-12541.288) * (-12537.305) (-12541.487) (-12535.886) [-12536.453] -- 0:00:02 981500 -- (-12542.826) [-12537.066] (-12540.865) (-12541.676) * (-12537.168) (-12543.662) (-12534.927) [-12535.590] -- 0:00:02 982000 -- [-12538.400] (-12535.141) (-12536.681) (-12539.360) * (-12534.485) (-12534.572) (-12534.766) [-12536.630] -- 0:00:02 982500 -- (-12536.786) (-12539.532) [-12534.368] (-12540.189) * (-12539.210) (-12534.618) [-12536.949] (-12539.620) -- 0:00:02 983000 -- [-12534.863] (-12538.284) (-12539.473) (-12536.046) * (-12535.766) (-12536.617) (-12536.219) [-12536.526] -- 0:00:02 983500 -- (-12536.093) [-12535.511] (-12542.004) (-12536.951) * [-12535.502] (-12539.490) (-12535.019) (-12533.326) -- 0:00:02 984000 -- [-12538.195] (-12538.926) (-12535.897) (-12537.464) * (-12539.495) (-12538.491) (-12535.473) [-12535.017] -- 0:00:02 984500 -- [-12537.478] (-12543.294) (-12537.699) (-12536.446) * [-12539.514] (-12536.867) (-12537.133) (-12532.488) -- 0:00:01 985000 -- (-12535.532) [-12539.995] (-12539.001) (-12537.590) * (-12540.090) (-12537.916) [-12535.409] (-12540.158) -- 0:00:01 Average standard deviation of split frequencies: 0.006634 985500 -- (-12536.876) [-12538.539] (-12536.857) (-12537.062) * (-12533.926) [-12538.410] (-12535.743) (-12535.014) -- 0:00:01 986000 -- (-12537.698) [-12533.885] (-12538.864) (-12536.834) * (-12540.005) [-12538.626] (-12541.530) (-12536.173) -- 0:00:01 986500 -- (-12540.504) [-12537.704] (-12540.389) (-12535.881) * [-12540.048] (-12539.311) (-12537.099) (-12533.861) -- 0:00:01 987000 -- [-12535.276] (-12539.372) (-12538.008) (-12538.112) * (-12540.048) (-12537.753) [-12539.373] (-12536.167) -- 0:00:01 987500 -- (-12537.455) (-12537.960) (-12536.898) [-12534.665] * (-12537.019) [-12537.611] (-12537.294) (-12534.145) -- 0:00:01 988000 -- (-12540.768) [-12539.962] (-12543.619) (-12539.063) * [-12532.842] (-12537.537) (-12536.734) (-12539.525) -- 0:00:01 988500 -- (-12539.017) (-12540.568) (-12539.827) [-12537.266] * (-12533.056) (-12538.881) [-12533.715] (-12535.629) -- 0:00:01 989000 -- (-12538.172) (-12543.005) (-12538.386) [-12534.700] * (-12536.101) (-12537.122) (-12538.308) [-12534.318] -- 0:00:01 989500 -- (-12542.379) [-12538.448] (-12540.402) (-12535.533) * (-12538.164) (-12536.960) (-12538.342) [-12538.339] -- 0:00:01 990000 -- [-12537.490] (-12541.650) (-12537.054) (-12540.626) * (-12537.748) [-12538.969] (-12537.994) (-12538.858) -- 0:00:01 Average standard deviation of split frequencies: 0.006900 990500 -- (-12539.560) (-12540.614) [-12536.042] (-12538.558) * (-12535.053) (-12536.692) [-12539.515] (-12537.620) -- 0:00:01 991000 -- [-12535.785] (-12538.824) (-12538.298) (-12537.688) * (-12537.417) (-12540.582) (-12541.001) [-12534.316] -- 0:00:01 991500 -- [-12536.097] (-12539.238) (-12536.485) (-12534.022) * (-12535.885) [-12539.311] (-12539.328) (-12536.625) -- 0:00:01 992000 -- (-12536.572) (-12539.238) [-12536.648] (-12537.662) * [-12534.862] (-12538.585) (-12539.464) (-12535.447) -- 0:00:01 992500 -- (-12535.722) (-12539.205) [-12535.908] (-12535.736) * (-12538.764) (-12537.805) (-12542.880) [-12538.949] -- 0:00:00 993000 -- (-12537.324) (-12538.957) [-12535.082] (-12536.304) * (-12537.044) (-12541.417) [-12533.381] (-12539.254) -- 0:00:00 993500 -- (-12540.653) (-12538.024) [-12536.056] (-12540.179) * (-12537.248) (-12536.104) (-12534.661) [-12536.719] -- 0:00:00 994000 -- (-12538.607) (-12541.386) (-12535.244) [-12540.919] * (-12537.531) (-12534.749) (-12538.948) [-12535.329] -- 0:00:00 994500 -- (-12541.935) (-12538.697) [-12537.895] (-12538.529) * (-12535.940) (-12534.712) [-12536.800] (-12534.979) -- 0:00:00 995000 -- (-12542.174) (-12537.743) [-12537.669] (-12540.745) * [-12542.041] (-12534.496) (-12539.870) (-12537.400) -- 0:00:00 Average standard deviation of split frequencies: 0.006715 995500 -- (-12536.268) [-12536.941] (-12533.902) (-12538.392) * (-12538.036) [-12538.454] (-12537.664) (-12535.774) -- 0:00:00 996000 -- (-12540.320) [-12536.849] (-12535.006) (-12539.730) * (-12535.540) (-12539.403) [-12537.056] (-12537.818) -- 0:00:00 996500 -- [-12541.560] (-12534.362) (-12535.299) (-12535.893) * [-12539.030] (-12539.542) (-12534.231) (-12535.166) -- 0:00:00 997000 -- (-12541.454) (-12538.592) [-12536.690] (-12537.245) * [-12537.171] (-12537.673) (-12533.434) (-12536.218) -- 0:00:00 997500 -- [-12536.794] (-12534.867) (-12540.776) (-12537.222) * (-12538.165) (-12538.570) [-12538.387] (-12537.899) -- 0:00:00 998000 -- (-12537.295) [-12534.542] (-12535.653) (-12537.658) * (-12541.918) (-12538.119) [-12534.367] (-12537.687) -- 0:00:00 998500 -- (-12537.455) (-12536.001) [-12536.911] (-12537.053) * (-12537.831) (-12536.933) [-12536.988] (-12536.688) -- 0:00:00 999000 -- (-12535.317) [-12533.436] (-12536.843) (-12538.612) * (-12539.433) (-12541.328) (-12535.725) [-12535.733] -- 0:00:00 999500 -- (-12537.735) (-12535.777) (-12536.411) [-12536.436] * (-12538.381) [-12538.200] (-12534.789) (-12536.235) -- 0:00:00 1000000 -- (-12534.025) [-12535.329] (-12537.707) (-12536.929) * (-12537.573) (-12537.260) [-12535.369] (-12536.592) -- 0:00:00 Average standard deviation of split frequencies: 0.006654 Analysis completed in 2 mins 8 seconds Analysis used 127.05 seconds of CPU time Likelihood of best state for "cold" chain of run 1 was -12530.84 Likelihood of best state for "cold" chain of run 2 was -12531.50 Acceptance rates for the moves in the "cold" chain of run 1: With prob. (last 100) chain accepted proposals by move 75.0 % ( 68 %) Dirichlet(Revmat{all}) 98.0 % ( 93 %) Slider(Revmat{all}) 5.4 % ( 8 %) Dirichlet(Pi{all}) 18.6 % ( 26 %) Slider(Pi{all}) 50.9 % ( 34 %) Multiplier(Alpha{1,2}) 79.4 % ( 54 %) Multiplier(Alpha{3}) 7.4 % ( 8 %) Slider(Pinvar{all}) 97.8 % ( 99 %) ExtSPR(Tau{all},V{all}) 69.4 % ( 59 %) ExtTBR(Tau{all},V{all}) 98.8 % (100 %) NNI(Tau{all},V{all}) 88.3 % ( 85 %) ParsSPR(Tau{all},V{all}) 28.0 % ( 27 %) Multiplier(V{all}) 94.2 % ( 94 %) Nodeslider(V{all}) 30.3 % ( 21 %) TLMultiplier(V{all}) Acceptance rates for the moves in the "cold" chain of run 2: With prob. (last 100) chain accepted proposals by move 75.1 % ( 72 %) Dirichlet(Revmat{all}) 97.8 % ( 99 %) Slider(Revmat{all}) 5.0 % ( 8 %) Dirichlet(Pi{all}) 19.0 % ( 27 %) Slider(Pi{all}) 50.4 % ( 37 %) Multiplier(Alpha{1,2}) 79.1 % ( 51 %) Multiplier(Alpha{3}) 6.7 % ( 14 %) Slider(Pinvar{all}) 97.7 % (100 %) ExtSPR(Tau{all},V{all}) 69.5 % ( 64 %) ExtTBR(Tau{all},V{all}) 98.8 % ( 99 %) NNI(Tau{all},V{all}) 88.3 % ( 85 %) ParsSPR(Tau{all},V{all}) 28.0 % ( 28 %) Multiplier(V{all}) 94.2 % ( 97 %) Nodeslider(V{all}) 30.4 % ( 23 %) TLMultiplier(V{all}) Chain swap information for run 1: 1 2 3 4 ---------------------------------- 1 | 0.79 0.61 0.46 2 | 166980 0.81 0.64 3 | 166087 166723 0.82 4 | 166512 166699 166999 Chain swap information for run 2: 1 2 3 4 ---------------------------------- 1 | 0.79 0.61 0.47 2 | 166844 0.81 0.64 3 | 166645 167018 0.82 4 | 166614 166433 166446 Upper diagonal: Proportion of successful state exchanges between chains Lower diagonal: Number of attempted state exchanges between chains Chain information: ID -- Heat ----------- 1 -- 1.00 (cold chain) 2 -- 0.91 3 -- 0.83 4 -- 0.77 Heat = 1 / (1 + T * (ID - 1)) (where T = 0.10 is the temperature and ID is the chain number) Setting burn-in to 2500 Summarizing parameters in files /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p and /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p Writing summary statistics to file /data/1res/fas/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) +------------------------------------------------------------+ -12535.21 | 2 | | 2* | |1 2 1 2 2 2 | | 1 1 2 2 *2 11 | | 1 2 1 1 1 21 * 221 1 1 | | 2 2 1 11 * 1 2 * 12 | | 2 * * 212 11 2 2 2 * 1 22* 2 | | 2 2 2 2 2 22 2 2* 2 1 1| |2212 1 1 12 1 1 1 2 1 21 12| | 2 1 1 1 2 1 1 | | 1 1 1 1 1 2 | | 1 1 2 1 | | 1 2 2 1 | | | | 2 | +------+-----+-----+-----+-----+-----+-----+-----+-----+-----+ -12538.19 ^ ^ 250000 1000000 Estimated marginal likelihoods for runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -12535.06 -12541.04 2 -12535.09 -12540.20 -------------------------------------- TOTAL -12535.07 -12540.71 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.879248 0.090306 0.363851 1.478028 0.838755 1457.70 1466.15 1.001 r(A<->C){all} 0.133463 0.015191 0.000008 0.388004 0.096346 173.57 229.18 1.002 r(A<->G){all} 0.233922 0.025442 0.000083 0.535425 0.209094 185.68 226.44 1.001 r(A<->T){all} 0.136774 0.014260 0.000087 0.378279 0.104085 200.40 232.73 1.000 r(C<->G){all} 0.162751 0.019604 0.000034 0.447756 0.123876 120.76 164.70 1.005 r(C<->T){all} 0.172432 0.020214 0.000006 0.460306 0.135185 132.16 134.70 1.003 r(G<->T){all} 0.160658 0.019758 0.000173 0.447910 0.120980 200.44 254.36 1.003 pi(A){all} 0.176839 0.000016 0.168610 0.184320 0.176773 762.04 947.92 1.002 pi(C){all} 0.284484 0.000022 0.275854 0.294049 0.284458 825.08 1063.37 1.000 pi(G){all} 0.330504 0.000024 0.321009 0.340309 0.330480 962.08 979.50 1.001 pi(T){all} 0.208172 0.000018 0.200131 0.216326 0.208253 1060.35 1226.99 1.001 alpha{1,2} 0.186094 0.077483 0.001098 0.666524 0.105206 1257.27 1293.96 1.000 alpha{3} 0.424106 0.224790 0.000175 1.377488 0.264408 1006.16 1120.72 1.000 pinvar{all} 0.999638 0.000000 0.999098 0.999994 0.999712 577.11 676.67 1.000 ------------------------------------------------------------------------------------------------------ * Convergence diagnostic (ESS = Estimated Sample Size); min and avg values correspond to minimal and average ESS among runs. ESS value below 100 may indicate that the parameter is undersampled. + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge. Setting sumt conformat to Simple Setting urn-in to 2500 Summarizing trees in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.t" and "/data/1res/fas/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 /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.<parts|tstat|vstat|trprobs|con> Examining first file ... Found one tree block in file "/data/1res/fas/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 Key to taxon bipartitions (saved to file "/data/1res/fas/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 -- ..***. ------------ Summary statistics for informative taxon bipartitions (saved to file "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.tstat"): ID #obs Probab. Sd(s)+ Min(s) Max(s) Nruns ---------------------------------------------------------------- 7 484 0.161226 0.001884 0.159893 0.162558 2 8 473 0.157562 0.006124 0.153231 0.161892 2 9 456 0.151899 0.003769 0.149234 0.154564 2 10 443 0.147568 0.014604 0.137242 0.157895 2 11 441 0.146902 0.010835 0.139241 0.154564 2 12 427 0.142239 0.004240 0.139241 0.145237 2 13 425 0.141572 0.012719 0.132578 0.150566 2 14 423 0.140906 0.007066 0.135909 0.145903 2 15 423 0.140906 0.008009 0.135243 0.146569 2 16 420 0.139907 0.007537 0.134577 0.145237 2 17 419 0.139574 0.001413 0.138574 0.140573 2 18 412 0.137242 0.000000 0.137242 0.137242 2 19 399 0.132911 0.005182 0.129247 0.136576 2 20 386 0.128581 0.000000 0.128581 0.128581 2 21 384 0.127915 0.009422 0.121252 0.134577 2 22 279 0.092938 0.013662 0.083278 0.102598 2 ---------------------------------------------------------------- + Convergence diagnostic (standard deviation of split frequencies) should approach 0.0 as runs converge. Summary statistics for branch and node parameters (saved to file "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.vstat"): 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median PSRF+ Nruns ------------------------------------------------------------------------------------------- length{all}[1] 0.088421 0.008351 0.000046 0.277629 0.060132 1.000 2 length{all}[2] 0.084748 0.007346 0.000014 0.252277 0.058157 1.000 2 length{all}[3] 0.092408 0.009891 0.000012 0.291777 0.059979 1.001 2 length{all}[4] 0.090373 0.008219 0.000006 0.269527 0.061172 1.000 2 length{all}[5] 0.088050 0.008039 0.000076 0.275989 0.060679 1.000 2 length{all}[6] 0.162493 0.017022 0.000000 0.411418 0.130522 1.000 2 length{all}[7] 0.092933 0.010603 0.000004 0.303897 0.059567 0.999 2 length{all}[8] 0.090007 0.008654 0.000056 0.277291 0.065029 0.998 2 length{all}[9] 0.097369 0.009359 0.000313 0.274823 0.063557 1.007 2 length{all}[10] 0.090106 0.009084 0.000260 0.257245 0.060246 1.003 2 length{all}[11] 0.090447 0.007771 0.000009 0.275062 0.070495 1.000 2 length{all}[12] 0.093226 0.008728 0.000358 0.297996 0.062473 1.001 2 length{all}[13] 0.083951 0.007327 0.000461 0.245472 0.060245 0.998 2 length{all}[14] 0.096608 0.011572 0.000181 0.317821 0.059719 0.998 2 length{all}[15] 0.082386 0.008068 0.000023 0.273438 0.051873 0.998 2 length{all}[16] 0.094242 0.010367 0.000022 0.290693 0.063908 0.998 2 length{all}[17] 0.091737 0.008318 0.000022 0.271861 0.064162 0.999 2 length{all}[18] 0.083528 0.006886 0.000426 0.245131 0.057666 0.998 2 length{all}[19] 0.083311 0.006469 0.000190 0.256298 0.057051 0.998 2 length{all}[20] 0.088359 0.008927 0.000403 0.299479 0.060380 0.998 2 length{all}[21] 0.095106 0.010758 0.000019 0.316774 0.062450 0.997 2 length{all}[22] 0.087438 0.007700 0.000108 0.286564 0.062802 1.005 2 ------------------------------------------------------------------------------------------- + Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman and Rubin, 1992) should approach 1.0 as runs converge. NA is reported when deviation of parameter values within all runs is 0 or when a parameter value (a branch length, for instance) is not sampled in all runs. Summary statistics for partitions with frequency >= 0.10 in at least one run: Average standard deviation of split frequencies = 0.006654 Maximum standard deviation of split frequencies = 0.014604 Average PSRF for parameter values ( excluding NA and >10.0 ) = 1.000 Maximum PSRF for parameter values = 1.007 Clade credibility values: /------------------------------------------------------------------------ C1 (1) | |------------------------------------------------------------------------ C2 (2) | |------------------------------------------------------------------------ C3 (3) + |------------------------------------------------------------------------ C4 (4) | |------------------------------------------------------------------------ C5 (5) | \------------------------------------------------------------------------ C6 (6) Phylogram (based on average branch lengths): /--------------------------------- C1 (1) | |-------------------------------- C2 (2) | |--------------------------------- C3 (3) + |---------------------------------- C4 (4) | |--------------------------------- C5 (5) | \------------------------------------------------------------------------ C6 (6) |----------| 0.020 expected changes per site Calculating tree probabilities... Credible sets of trees (105 trees sampled): 50 % credible set contains 45 trees 90 % credible set contains 90 trees 95 % credible set contains 97 trees 99 % credible set contains 103 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 4.9h, March 2018 ---------------------------------------------- Phe F TTT | Ser S TCT | Tyr Y TAT | Cys C TGT TTC | TCC | TAC | TGC Leu L TTA | TCA | *** * TAA | *** * TGA TTG | TCG | TAG | Trp W TGG ---------------------------------------------- Leu L CTT | Pro P CCT | His H CAT | Arg R CGT CTC | CCC | CAC | CGC CTA | CCA | Gln Q CAA | CGA CTG | CCG | CAG | CGG ---------------------------------------------- Ile I ATT | Thr T ACT | Asn N AAT | Ser S AGT ATC | ACC | AAC | AGC ATA | ACA | Lys K AAA | Arg R AGA Met M ATG | ACG | AAG | AGG ---------------------------------------------- Val V GTT | Ala A GCT | Asp D GAT | Gly G GGT GTC | GCC | GAC | GGC GTA | GCA | Glu E GAA | GGA GTG | GCG | GAG | GGG ---------------------------------------------- Nice code, uuh? NSsites batch run (ncatG as in YNGP2000): 0 1 2 7 8 seq file is not paml/phylip format. Trying nexus format.ns = 6 ls = 9228 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 Sequences read.. Counting site patterns.. 0:00 Compressing, 62 patterns at 3076 / 3076 sites (100.0%), 0:00 Collecting fpatt[] & pose[], 62 patterns at 3076 / 3076 sites (100.0%), 0:00 Counting codons.. 120 bytes for distance 60512 bytes for conP 5456 bytes for fhK 5000000 bytes for space Model 0: one-ratio TREE # 1 (1, 2, 3, 4, 5, 6); MP score: 1 0.096181 0.070066 0.079854 0.023942 0.058102 0.063364 0.300000 1.300000 ntime & nrate & np: 6 2 8 Bounds (np=8): 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 999.000000 999.000000 np = 8 lnL0 = -13297.215973 Iterating by ming2 Initial: fx= 13297.215973 x= 0.09618 0.07007 0.07985 0.02394 0.05810 0.06336 0.30000 1.30000 1 h-m-p 0.0000 0.0000 7371.2319 ++ 12867.762763 m 0.0000 13 | 1/8 2 h-m-p 0.0000 0.0000 2590.9199 ++ 12779.637098 m 0.0000 24 | 1/8 3 h-m-p 0.0001 0.0006 825.9759 ++ 12432.271450 m 0.0006 35 | 2/8 4 h-m-p 0.0000 0.0000 23760.0480 ++ 12303.131443 m 0.0000 46 | 3/8 5 h-m-p 0.0000 0.0000 3505.1591 ++ 12216.755522 m 0.0000 57 | 4/8 6 h-m-p 0.0000 0.0000 2325.9907 ++ 12120.597192 m 0.0000 68 | 5/8 7 h-m-p 0.0169 0.2564 5.4268 +YCCC 12119.844470 3 0.1249 85 | 5/8 8 h-m-p 1.6000 8.0000 0.1138 ++ 12117.497412 m 8.0000 96 | 5/8 9 h-m-p 1.6000 8.0000 0.2308 ++ 12116.677005 m 8.0000 110 | 5/8 10 h-m-p 1.6000 8.0000 0.7045 +YCCC 12116.403785 3 4.4275 130 | 5/8 11 h-m-p 1.6000 8.0000 0.0207 ++ 12116.392794 m 8.0000 144 | 5/8 12 h-m-p 0.0348 4.8507 4.7497 +++YY 12116.065683 1 1.9252 162 | 5/8 13 h-m-p 1.6000 8.0000 1.7228 +CCC 12115.983430 2 5.3253 178 | 5/8 14 h-m-p 1.6000 8.0000 3.8596 YCCC 12115.911805 3 3.3651 194 | 5/8 15 h-m-p 1.6000 8.0000 5.8504 YC 12115.871182 1 3.6594 206 | 5/8 16 h-m-p 1.6000 8.0000 9.1703 YC 12115.840847 1 2.7195 218 | 5/8 17 h-m-p 1.6000 8.0000 13.3589 +YC 12115.818027 1 4.9164 231 | 5/8 18 h-m-p 1.6000 8.0000 20.5006 CC 12115.806407 1 2.2008 244 | 5/8 19 h-m-p 1.6000 8.0000 27.3805 +C 12115.795451 0 6.4000 256 | 5/8 20 h-m-p 1.6000 8.0000 51.1953 CC 12115.790887 1 1.9511 269 | 5/8 21 h-m-p 1.6000 8.0000 61.6079 ++ 12115.786209 m 8.0000 280 | 5/8 22 h-m-p 0.3842 1.9209 104.0744 +Y 12115.784304 0 1.6742 292 | 5/8 23 h-m-p 0.0371 0.1855 138.3842 ++ 12115.784199 m 0.1855 303 | 6/8 24 h-m-p 0.0391 1.1959 336.3901 +++ 12115.782560 m 1.1959 315 | 7/8 25 h-m-p 1.6000 8.0000 0.0000 C 12115.782559 0 0.6361 326 | 7/8 26 h-m-p 1.1938 8.0000 0.0000 ------N 12115.782559 0 0.0001 344 Out.. lnL = -12115.782559 345 lfun, 345 eigenQcodon, 2070 P(t) Time used: 0:01 Model 1: NearlyNeutral TREE # 1 (1, 2, 3, 4, 5, 6); MP score: 1 0.097890 0.092151 0.086747 0.038498 0.104316 0.027907 999.000000 0.588672 0.218492 ntime & nrate & np: 6 2 9 Bounds (np=9): 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 999.000000 0.999990 1.000000 Qfactor_NS = 0.026952 np = 9 lnL0 = -13399.591957 Iterating by ming2 Initial: fx= 13399.591957 x= 0.09789 0.09215 0.08675 0.03850 0.10432 0.02791 951.42857 0.58867 0.21849 1 h-m-p 0.0000 0.0000 6667.9093 ++ 12949.291028 m 0.0000 14 | 0/9 2 h-m-p 0.0000 0.0000 35509.2619 h-m-p: 2.80562337e-21 1.40281169e-20 3.55092619e+04 12949.291028 .. | 0/9 3 h-m-p 0.0000 0.0000 234025.9747 ---YYCYYC 12945.769610 5 0.0000 45 | 0/9 4 h-m-p 0.0000 0.0000 6326.1790 ++ 12801.614648 m 0.0000 57 | 1/9 5 h-m-p 0.0000 0.0001 1984.2390 ++ 12396.229192 m 0.0001 69 | 2/9 6 h-m-p 0.0000 0.0002 199.0075 ++ 12388.727598 m 0.0002 81 | 3/9 7 h-m-p 0.0000 0.0000 2059.0988 ++ 12304.183160 m 0.0000 93 | 4/9 8 h-m-p 0.0000 0.0002 280.7729 ++ 12270.522808 m 0.0002 105 | 5/9 9 h-m-p 0.0007 0.0084 45.8839 -----------.. | 5/9 10 h-m-p 0.0000 0.0000 2916.8329 +CYCCC 12262.118085 4 0.0000 147 | 5/9 11 h-m-p 0.0000 0.0000 303023.8816 ++ 12118.940484 m 0.0000 159 | 6/9 12 h-m-p 0.0004 0.2056 2.9810 +++++ 12117.656467 m 0.2056 174 | 7/9 13 h-m-p 1.6000 8.0000 0.0000 ++ 12116.561488 m 8.0000 186 | 7/9 14 h-m-p 1.6000 8.0000 0.0000 ++ 12116.166703 m 8.0000 200 | 7/9 15 h-m-p 1.6000 8.0000 0.0000 YC 12116.162373 1 2.9241 215 | 7/9 16 h-m-p 1.6000 8.0000 0.0000 ------------Y 12116.162373 0 0.0000 241 Out.. lnL = -12116.162373 242 lfun, 726 eigenQcodon, 2904 P(t) Time used: 0:01 Model 2: PositiveSelection TREE # 1 (1, 2, 3, 4, 5, 6); MP score: 1 0.033110 0.068210 0.011994 0.108975 0.031257 0.081391 951.428693 0.848644 0.482443 0.471052 1105.101297 ntime & nrate & np: 6 3 11 Bounds (np=11): 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 999.000000 99.000000 99.000000 1.000000 999.000000 Qfactor_NS = 0.000136 np = 11 lnL0 = -12592.701711 Iterating by ming2 Initial: fx= 12592.701711 x= 0.03311 0.06821 0.01199 0.10898 0.03126 0.08139 951.42869 0.84864 0.48244 0.47105 951.42857 1 h-m-p 0.0000 0.0000 1626.9097 ++ 12544.359737 m 0.0000 16 | 1/11 2 h-m-p 0.0001 0.0027 309.9554 +++ 12299.508029 m 0.0027 31 | 2/11 3 h-m-p 0.0000 0.0000 16305.7264 ++ 12261.074833 m 0.0000 45 | 3/11 4 h-m-p 0.0000 0.0000 80419.1195 +YCYYCC 12249.888091 5 0.0000 68 | 3/11 5 h-m-p 0.0000 0.0001 7331.9375 ++ 12135.518996 m 0.0001 82 | 4/11 6 h-m-p 0.0000 0.0000 128274.2428 ++ 12122.901702 m 0.0000 96 | 5/11 7 h-m-p 0.0681 0.3405 1.1300 +YCYYYCCCC 12115.791128 8 0.3096 123 | 5/11 8 h-m-p 1.6000 8.0000 0.0014 -Y 12115.791126 0 0.0769 138 | 5/11 9 h-m-p 0.0440 8.0000 0.0024 ++++ 12115.791075 m 8.0000 160 | 5/11 10 h-m-p 1.0688 8.0000 0.0178 C 12115.791072 0 0.3437 180 | 5/11 11 h-m-p 0.2274 8.0000 0.0270 Y 12115.791060 0 0.5468 200 | 5/11 12 h-m-p 0.4044 8.0000 0.0365 Y 12115.791034 0 0.8612 220 | 5/11 13 h-m-p 0.6012 8.0000 0.0523 +Y 12115.790947 0 1.6587 241 | 5/11 14 h-m-p 1.0118 8.0000 0.0857 +Y 12115.790372 0 4.8580 262 | 5/11 15 h-m-p 1.6000 8.0000 0.1778 ++ 12115.786720 m 8.0000 282 | 5/11 16 h-m-p 1.6000 8.0000 0.0041 C 12115.786706 0 0.4373 302 | 5/11 17 h-m-p 0.0339 8.0000 0.0524 +C 12115.786705 0 0.1611 323 | 5/11 18 h-m-p 0.1009 8.0000 0.0836 C 12115.786704 0 0.1441 343 | 5/11 19 h-m-p 0.1202 8.0000 0.1003 C 12115.786703 0 0.1404 363 | 5/11 20 h-m-p 0.1285 8.0000 0.1095 C 12115.786703 0 0.1457 383 | 5/11 21 h-m-p 0.1382 8.0000 0.1154 C 12115.786702 0 0.1587 403 | 5/11 22 h-m-p 0.1522 8.0000 0.1203 C 12115.786701 0 0.1798 423 | 5/11 23 h-m-p 0.1728 8.0000 0.1252 C 12115.786699 0 0.2103 443 | 5/11 24 h-m-p 0.2028 8.0000 0.1298 C 12115.786697 0 0.2543 463 | 5/11 25 h-m-p 0.2435 8.0000 0.1356 C 12115.786694 0 0.3207 483 | 5/11 26 h-m-p 0.3040 8.0000 0.1431 C 12115.786689 0 0.4284 503 | 5/11 27 h-m-p 0.4001 8.0000 0.1532 C 12115.786679 0 0.6255 523 | 5/11 28 h-m-p 0.5666 8.0000 0.1691 Y 12115.786652 0 1.0612 543 | 5/11 29 h-m-p 0.8995 8.0000 0.1995 +Y 12115.786538 0 2.4553 564 | 5/11 30 h-m-p 1.6000 8.0000 0.2816 ++ 12115.785258 m 8.0000 584 | 5/11 31 h-m-p 1.6000 8.0000 1.2487 YC 12115.783106 1 3.6247 605 | 5/11 32 h-m-p 1.6000 8.0000 0.4550 +Y 12115.782915 0 4.2235 620 | 5/11 33 h-m-p 1.2090 8.0000 1.5894 C 12115.782908 0 0.3498 640 | 5/11 34 h-m-p 0.2242 8.0000 2.4804 ++Y 12115.782703 0 5.3817 656 | 5/11 35 h-m-p 1.6000 8.0000 0.0648 +Y 12115.782701 0 4.8383 671 | 5/11 36 h-m-p 0.6619 8.0000 0.4736 --Y 12115.782701 0 0.0182 693 | 5/11 37 h-m-p 0.0160 8.0000 2.6171 ----Y 12115.782701 0 0.0000 717 | 5/11 38 h-m-p 0.0160 8.0000 0.1848 +++++ 12115.782701 m 8.0000 734 | 5/11 39 h-m-p 0.3792 8.0000 3.8994 ++C 12115.782699 0 5.1856 756 | 5/11 40 h-m-p 1.6000 8.0000 0.7046 +C 12115.782699 0 5.7086 771 | 5/11 41 h-m-p 1.0925 8.0000 3.6820 -----C 12115.782699 0 0.0003 796 | 5/11 42 h-m-p 1.6000 8.0000 0.0001 -Y 12115.782699 0 0.1000 811 | 5/11 43 h-m-p 0.0160 8.0000 0.0010 Y 12115.782699 0 0.0040 831 Out.. lnL = -12115.782699 832 lfun, 3328 eigenQcodon, 14976 P(t) BEBing (dim = 4). This may take several minutes. Calculating f(x_h|w): 10 categories 21 w sets. Calculating f(X), the marginal likelihood. log(fX) = -12120.669187 S = -12119.230084 -2.367526 Calculating f(w|X), posterior probabilities of site classes. did 10 / 62 patterns 0:05 did 20 / 62 patterns 0:05 did 30 / 62 patterns 0:05 did 40 / 62 patterns 0:05 did 50 / 62 patterns 0:05 did 60 / 62 patterns 0:06 did 62 / 62 patterns 0:06 Time used: 0:06 Model 7: beta TREE # 1 (1, 2, 3, 4, 5, 6); MP score: 1 0.033069 0.051765 0.099836 0.076747 0.079066 0.026690 951.527266 1.134178 1.767610 ntime & nrate & np: 6 1 9 Bounds (np=9): 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 999.000000 99.000000 99.000000 Qfactor_NS = 0.031871 np = 9 lnL0 = -13199.128300 Iterating by ming2 Initial: fx= 13199.128300 x= 0.03307 0.05177 0.09984 0.07675 0.07907 0.02669 951.52727 1.13418 1.76761 1 h-m-p 0.0000 0.0000 7013.6310 ++ 12745.848802 m 0.0000 14 | 0/9 2 h-m-p 0.0000 0.0000 37765.1677 h-m-p: 3.36705028e-21 1.68352514e-20 3.77651677e+04 12745.848802 .. | 0/9 3 h-m-p 0.0000 0.0000 233981.1501 --CCYYYYCCCC 12742.357388 9 0.0000 51 | 0/9 4 h-m-p 0.0000 0.0000 6593.0963 ++ 12653.593487 m 0.0000 63 | 1/9 5 h-m-p 0.0001 0.0069 121.2165 ++++ 12620.721707 m 0.0069 77 | 2/9 6 h-m-p 0.0000 0.0000 13915.2521 ++ 12409.834062 m 0.0000 89 | 3/9 7 h-m-p 0.0004 0.0035 1102.1505 ++ 12227.999347 m 0.0035 101 | 4/9 8 h-m-p 0.0006 0.0031 1674.2491 ++ 12177.130017 m 0.0031 113 | 4/9 9 h-m-p 0.0006 0.0030 39.3539 CYCC 12176.048686 3 0.0004 130 | 4/9 10 h-m-p 0.0001 0.0007 91.0902 -YC 12176.048012 1 0.0000 144 | 4/9 11 h-m-p 0.0510 4.8856 0.0311 --------------.. | 4/9 12 h-m-p 0.0000 0.0000 3129.0847 +YYCYCYC 12166.267556 6 0.0000 195 | 4/9 13 h-m-p 0.0000 0.0000 383953.7886 ++ 12118.502731 m 0.0000 207 | 5/9 14 h-m-p 0.0014 0.0070 1.7008 Y QuantileBeta(0.05, 0.00770, 0.10745) = 1.140152e-160 2000 rounds CYCCC 12118.210207 5 0.0034 227 | 5/9 15 h-m-p 0.0127 0.0643 0.4603 ++ 12118.192475 m 0.0643 239 | 5/9 16 h-m-p -0.0000 -0.0000 0.4333 h-m-p: -0.00000000e+00 -0.00000000e+00 4.33271840e-01 12118.192475 .. | 5/9 17 h-m-p 0.0000 0.0044 11246.7829 ---CYYYC 12117.594200 4 0.0000 276 | 5/9 18 h-m-p 0.0000 0.0050 194.8329 ++++YYC 12116.207904 2 0.0030 294 | 5/9 19 h-m-p 0.0096 0.0478 0.6431 ++ 12116.189558 m 0.0478 306 QuantileBeta(0.85, 0.57624, 0.00494) = 1.000000e+00 2000 rounds | 6/9 20 h-m-p 0.0937 8.0000 0.0235 ++++ 12116.180956 m 8.0000 324 | 6/9 21 h-m-p 0.2380 8.0000 0.7917 + QuantileBeta(0.85, 3.77864, 0.00500) = 1.000000e+00 2000 rounds C QuantileBeta(0.85, 2.81650, 0.00500) = 1.000000e+00 2000 rounds YC 12116.162369 2 1.2369 343 | 6/9 22 h-m-p 1.6000 8.0000 0.0406 ----------C 12116.162369 0 0.0000 368 | 6/9 23 h-m-p 0.0160 8.0000 0.0016 ----N 12116.162369 0 0.0000 387 | 6/9 24 h-m-p 0.0160 8.0000 0.0029 +++Y 12116.162369 0 0.8259 405 | 6/9 25 h-m-p 0.0312 8.0000 0.0769 ----Y 12116.162369 0 0.0000 424 | 6/9 26 h-m-p 0.0160 8.0000 0.6698 ---------Y 12116.162369 0 0.0000 448 | 6/9 27 h-m-p 0.0160 8.0000 0.1462 ----------Y 12116.162369 0 0.0000 473 | 6/9 28 h-m-p 0.0160 8.0000 0.0001 +Y 12116.162369 0 0.0534 489 Out.. lnL = -12116.162369 490 lfun, 5390 eigenQcodon, 29400 P(t) Time used: 0:13 Model 8: beta&w>1 TREE # 1 (1, 2, 3, 4, 5, 6); MP score: 1 0.015581 0.100214 0.010268 0.108228 0.103965 0.077711 951.527278 0.900000 0.287689 1.612234 999.000000 ntime & nrate & np: 6 2 11 Bounds (np=11): 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 999.000000 0.999990 99.000000 99.000000 999.000000 Qfactor_NS = 0.000274 np = 11 lnL0 = -12410.909040 Iterating by ming2 Initial: fx= 12410.909040 x= 0.01558 0.10021 0.01027 0.10823 0.10396 0.07771 951.52728 0.90000 0.28769 1.61223 951.42857 1 h-m-p 0.0000 0.0000 2516.2156 +YYYYYCYCYC 12206.782190 10 0.0000 29 | 0/11 2 h-m-p 0.0000 0.0000 317.6643 ++ 12204.409283 m 0.0000 43 | 1/11 3 h-m-p 0.0000 0.0000 517.3678 ++ 12202.362454 m 0.0000 57 | 2/11 4 h-m-p 0.0000 0.0003 510.8241 +++ 12140.100381 m 0.0003 72 | 3/11 5 h-m-p 0.0001 0.0003 87.1819 +CCYCYYYC 12130.453323 7 0.0003 97 | 3/11 6 h-m-p 0.0002 0.0009 35.0278 CYYC 12130.424191 3 0.0001 115 | 3/11 7 h-m-p 0.0000 0.0001 136.3716 ++ 12129.755028 m 0.0001 129 | 4/11 8 h-m-p 0.0311 8.0000 0.2650 --------------.. | 4/11 9 h-m-p 0.0000 0.0000 1725.8016 +YYYCYCCC 12126.776477 7 0.0000 187 | 4/11 10 h-m-p 0.0000 0.0000 5638.1238 +YYCYCCC 12124.319726 6 0.0000 211 | 4/11 11 h-m-p 0.0000 0.0000 1318.1040 ++ 12118.117346 m 0.0000 225 | 5/11 12 h-m-p 0.0131 0.0656 0.0975 +YYCYC 12117.767477 4 0.0443 245 | 5/11 13 h-m-p 0.3446 1.7230 0.0073 ---------------.. | 5/11 14 h-m-p 0.0000 0.0002 302152.3188 -----YCYYYCCCC 12116.012718 8 0.0000 315 | 5/11 15 h-m-p 0.0000 0.0092 108.7250 +++YYY 12115.789046 2 0.0016 334 | 5/11 16 h-m-p 1.6000 8.0000 0.0000 ++ 12115.788479 m 8.0000 348 | 5/11 17 h-m-p 0.2029 8.0000 0.0008 ++YC 12115.784849 1 2.3677 371 | 5/11 18 h-m-p 1.6000 8.0000 0.0002 ----------Y 12115.784849 0 0.0000 401 Out.. lnL = -12115.784849 402 lfun, 4824 eigenQcodon, 26532 P(t) BEBing (dim = 4). This may take several minutes. Calculating f(x_h|w): 10 categories 20 w sets. Calculating f(X), the marginal likelihood. log(fX) = -12118.718794 S = -12117.516367 -1.988465 Calculating f(w|X), posterior probabilities of site classes. did 10 / 62 patterns 0:20 did 20 / 62 patterns 0:20 did 30 / 62 patterns 0:20 did 40 / 62 patterns 0:20 did 50 / 62 patterns 0:21 did 60 / 62 patterns 0:21 did 62 / 62 patterns 0:21 Time used: 0:21 CodeML output code: -1
CLUSTAL FORMAT for T-COFFEE Version_10.00.r1613 [http://www.tcoffee.org] [MODE: ], CPU=0.02 sec, SCORE=100, Nseq=6, Len=3076 NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE NC_002677_1_NP_301868_1_740_fas VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE NC_002677_1_NP_301868_1_740_fas ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ NC_002677_1_NP_301868_1_740_fas DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV NC_002677_1_NP_301868_1_740_fas GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER NC_002677_1_NP_301868_1_740_fas TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG NC_002677_1_NP_301868_1_740_fas YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL NC_002677_1_NP_301868_1_740_fas WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL NC_002677_1_NP_301868_1_740_fas TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG NC_002677_1_NP_301868_1_740_fas PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA NC_002677_1_NP_301868_1_740_fas GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV NC_002677_1_NP_301868_1_740_fas RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC NC_002677_1_NP_301868_1_740_fas IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS NC_002677_1_NP_301868_1_740_fas VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD NC_002677_1_NP_301868_1_740_fas VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE NC_002677_1_NP_301868_1_740_fas EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV NC_002677_1_NP_301868_1_740_fas GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID NC_002677_1_NP_301868_1_740_fas LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR NC_002677_1_NP_301868_1_740_fas KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NC_002677_1_NP_301868_1_740_fas FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID NC_002677_1_NP_301868_1_740_fas NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA NC_002677_1_NP_301868_1_740_fas IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS NC_002677_1_NP_301868_1_740_fas IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM NC_002677_1_NP_301868_1_740_fas AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS NC_002677_1_NP_301868_1_740_fas GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP NC_002677_1_NP_301868_1_740_fas ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD NC_002677_1_NP_301868_1_740_fas IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM NC_002677_1_NP_301868_1_740_fas RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD NC_002677_1_NP_301868_1_740_fas DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV NC_002677_1_NP_301868_1_740_fas GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE NC_002677_1_NP_301868_1_740_fas MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL NC_002677_1_NP_301868_1_740_fas VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY NC_002677_1_NP_301868_1_740_fas TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV NC_002677_1_NP_301868_1_740_fas IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL NC_002677_1_NP_301868_1_740_fas LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL NC_002677_1_NP_301868_1_740_fas ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE NC_002677_1_NP_301868_1_740_fas PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL NC_002677_1_NP_301868_1_740_fas EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH NC_002677_1_NP_301868_1_740_fas ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG NC_002677_1_NP_301868_1_740_fas VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG NC_002677_1_NP_301868_1_740_fas VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE NC_002677_1_NP_301868_1_740_fas PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH NC_002677_1_NP_301868_1_740_fas DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI NC_002677_1_NP_301868_1_740_fas ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN NC_002677_1_NP_301868_1_740_fas ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW NC_002677_1_NP_301868_1_740_fas EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA NC_002677_1_NP_301868_1_740_fas AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS NC_002677_1_NP_301868_1_740_fas VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS *********************:**************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED NC_002677_1_NP_301868_1_740_fas TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI NC_002677_1_NP_301868_1_740_fas HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY NC_002677_1_NP_301868_1_740_fas VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL NC_002677_1_NP_301868_1_740_fas DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR NC_002677_1_NP_301868_1_740_fas DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG NC_002677_1_NP_301868_1_740_fas KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI NC_002677_1_NP_301868_1_740_fas FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV NC_002677_1_NP_301868_1_740_fas LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE NC_002677_1_NP_301868_1_740_fas AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA NC_002677_1_NP_301868_1_740_fas AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA NC_002677_1_NP_301868_1_740_fas GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC NC_002677_1_NP_301868_1_740_fas MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA NC_002677_1_NP_301868_1_740_fas VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH NC_002677_1_NP_301868_1_740_fas FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH ************************************************** NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VPEKLQEAAMLLNPAARLGDGDAYIG NC_002677_1_NP_301868_1_740_fas VPEKLQEAAMLLNPAARLGDGDAYIG NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VPEKLQEAAMLLNPAARLGDGDAYIG NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VPEKLQEAAMLLNPAARLGDGDAYIG NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VPEKLQEAAMLLNPAARLGDGDAYIG NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VPEKLQEAAMLLNPAARLGDGDAYIG **************************
>NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >NC_002677_1_NP_301868_1_740_fas GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGATTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA >NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 GTGACGATCCACGAGCACGACCAAGTGTCCGCTGATCGCAACGGAAATAG CCTACATGGCTCCCGTGCTCTGGCGGATCGGCTAAAGGCCGGAGAACCGT ACGTCGTCGCGTTCGGTGGCCAAGGCAGCGCCTGGCTAGAGACCCTGGAA GAACTCGTGTCCTCGGCTGGGCTCGAAGCCGACTTGGCAACGTTGGTTTG TGAGGTCGAATTGCTACTCGAACCGGTCGCCAAAGAGCTGGTTGTGGTGC GTCCGATCGGTTTCGAGCCGCTGCAGTGGGTACGCGCGCTGTTGGCCGAA GACTTGGTACCGTCCGACAAGCACCTGACGTCGGCTGCGGTGTCGGTACC CGGCGTGCTGCTCACCCAGATCGCGGTCGGGCGCGCTCTGGCACGGCAGG GCATGGACCTTATCGCGACACCCCCGGTGGGGATTGTGGGGCATTCCCAG GGGGTGCTCGCTGTCGAGGCGTTGAAGGCCGGGGGGGCACGCGACGCTGA GCTATTGGCAATGGCCCAGCTGATTGGTGCTGCCGGAACGTTGGTGGCCC GCCGCCGCGGCATTTCCGTCCTCGGCGACCGTCCGCCGATGGTGTCGGTC ACCAACGCTGACCCCGAGCGGATTCGCCGGCTGCTCGATGAGTTCGCACA GGATGTTCGCACTGTGCTACCCCCGGTGCTGTCCATTCGCAACGGGTGGC GTTCGGTTGTTATTACCGGCACTCCCGAACAGCTGTCGCGATTCGAGCGT TACTGCCGGCAGATCTCCGACAAGGAGGAGGAGGATCGCAGGAAAAAGAT CCGCGGTGGTGATATTTTTGCGCCGGTCTTCGATCCGGTGCAGGTAGAGA TAGGCTTCCACACGCCACATCTGGCCGACGGTATTGGCATCGTCGGAGGC TGGGCCGAGAAAGTCGGCCTCGATGTCACGTTGGCCCGGGAACTGACTGA GGCCATCCTGGTGCGCGGCGTCGACTGGGTGCGCGAGATTACCCGGGTAC ATGGTGCTGGCGTTCGGTGGATTATCGATCTGGGTCCTGGCGACATTCTG ACCCGGCTGACTGCGCCGGTGATTCGCGGCCTCGGTGTGGGCATTGTGCC CGTTGCAAATCGAGGTGGTCAGCGCACCCTCTTCACCGTCGGGGCCGTTC CTGAGGTGGTTCGCGCTTGGTTGAGCTACGCCCCAACCGTAGTCCAACTT CCCGACGGCAGGATCAAGCTCTCGACGAAGTTTACCCGGCTGACTGGGCG TTCGCCGATTCTGCTCGCGGGCATGACCCCGACCACCGTCGATGCCAACA TTGTGGCTGCTGCGGCCAACGCCGGGCACTGGGCCGAACTGGCCGGTGGT GGGCAGGTCACGGAAGAAATTTTCGCCAACCGCGTCGAGCAACTGTCCGG ACTGCTCGAGCCTGGACGCACCTATCAGTTCAACGCGTTGTTTCTTGACC CGTACCTGTGGAAGCTGCAAGTTGGCGGCAAGCGGTTGGTGCAGAAAGCC CGGCAGTCTGGCGCAGCGATCGACGGTGTGGTGATAAGCGGCGGTATTTT AGATTTGGAAGATGCCGTCGAGTTGATCGAGGAACTGGGTGGCATCGGCA TCAGCTATGTCGTGTTCAAACCCGGCACCATTGAGCAGATACGCTCGGTG ATTCGTATCGCGACCGAGATGTCCACCAAGCCGGTGATCATGCATGTCGA GGGTGGGCGTGCAGGCGGTCATCATTCCTGGGAAGACCTCGATGACCTGC TACTTGCCACCTATTCGGAGTTGCGCTCACATGCCAACATTACTGTTTGC GTCGGCGGTGGCATTGGCACTCCCGAAAAGGCGGCGGAGTACTTGTCCGG ACGTTGGGCGCAAGCGTACGGCTTCCCGTTGATGCCGATCGACGGTATCC TGGTCGGCACCGCGGCGATGGCTACCAAGGAGGCCACTACCTCGCCATCG GTTAAGCGGATGCTAGTCGAAACGCAAGGGACCGACCAGTGGATCGGCTC CGGAAAGGCCCAGGGCGGCATGGCTTCCAGCCGTAGCCAGCTCGGTGCCG ACATCCACGAGATTGACAACGCTGCCTCGCGTTGTGGTCGACTACTTGAC GAGGTCGCTGGCGATGCTGAGGCGGTCGCAGAACGTCGTGACGAGATCAT CGCGGCGATGGCCAACACCGCTAAACCTTATTTTGGCGACGTTTCAGAGA TGACCTACCTGCAGTGGTTGCAGCGCTACGTTGAGTTGACGATCGGCGAG GGTAACTCGACCGCCGACACTGCGTCACCGGGCAGCCCATGGCTGGCCGA TACCTGGCGTGACCGGTTCCAGAAAATGTTGCAAAGAGCTGAATCACGTT TGCATCCAAGTGATTTCGGTCTGATTAAGACAATTTTTACCGATCCTGTG TTACTAGAGAAACCCAACCAGGCTATCGCCGCTCTGCTGAAGTACTACCC AGACGCCGAAACCGTCCAGCTGCACCCGGCGGATGCGCCTTTCTTCGTCA TGCTATGCCAGATGCTGGGCAAGCCGGTCAACTTCGTGCCGGTCATCGAC AAGGATGTGCGGCGTTGGTGGCGTAGTGACTCGCTGTGGCAGGCGCATGA TGCTCGCTATGACGCCGACCAGGTGTGCATCATCCCCGGCATTGCAGCGG TGGCCGGTATTACACAGATGGACGAACCCGTTGGTGAGTTGCTGGACCGC TTCGAACAGGCCGCCATCGACGAGGTACTCGCCGGCGGAGCGGAGCCGGT GGTGGTTATGTCGCGCCGGTTGGGCCGTGCCGATGTGGCCGGACCTCTGG CCGTGGTGCTTGACGCACCCGATGTGCTGTGGGCCGGGCGCATCGCTACC AACCCGGTTCATCGGATCGCCGATCCGAATGAGTGGCAGGTTAATGGAAA CCTCAGTGCGACACACTCATCCACCGGTGCCCAGTTGCAGGTAAAGTCCG AAGACCAGCAGGTAGTTCTCAGCGTCCCGGTGTCGAACGGTTGGATCGAC ATCCCGTTTACGTTGCCTACCAACACCGTTGACGGCGGTGCCTTGCTGGT ATCCACCGAGGATGCCACCAGTGCCATGCGCGCAGTGCTGGCAATCGTCG CTGGTGTTGACGGGCCGGAGTTGCTGTCCCCGGTTAAAGACGGAACTGCT ATAGTCACAGTGGACTGGAATCCTGAGCGGGTTGCTGATCACACCGGGGT CACGGCCACCTTCCGGGAGCCGCTGGCTCCCAGTCTCGCCACTGTGCCCG ACGCATTGGTCGGTGCATGCTGGCCCGCGGTTTTCTCGGCCATCGGCTCC GCAGTTACCGAAGCCGGTGTTTTGGTGGTGGAGGGCCTGCTGAATCTACT GCACCTGGACCACGCTGTCTGTGTTGTTGGCAAGTTGCCAACAGTTCCAG CCCAATTGACAGTAACCGCAACGGTTTCTTTGGCCATCGATACAGACATG GGCCGTGTCGTGCCCGTCTCGGTGACCATTAGAGACACAACCGGAGCCGA CGGCGCTGTGCTTGCCACTCTCGAGGAGCGGTTTGTGATCCTCGGACGCA CCGGCACCGCGGAACTCACCGGCCCGGTTCGGGCTGGTGGAGCAATATCT GAGAACGCGACCGACACTCCGCGCCGACGGCGTCGTGACGTCACCCTTAC CGCACCGATTGATATGCGTCCGTTCGCAGTGGTGTCCGGTGACCACAATC CCATTCACACCGACCGGACTGCTGCGCTGTTGGCAGGCTTGGAATCGCCG ATCGTGCACGGCATGTGGTTGTCGGCTGCAGCTCAGCACGTGGTAATGGC TACCGACGGACAAGCTCGACCGGCGGCGCGATTGATCGGGTGGACTGCAC GATTCCTGGGTATGGCCCATCCTGGCGACAAGGTCGACTTTCGTGTCGAC CGCATTGGAATCGACCAGGGAGCAGAGATTTTAGAGGTTAGCGCGCGCAT CAGTTCGGGTCTGGTGATGTCGGCTACCGCACGGCTGGCCGCGCCCAAGA CTGTCTACGCGTTCCCCGGCCAGGGTATCCAGCATAAAGGTATGGGCATG GATGTTCGGGCTCGTTCCAAGGCGGCCCGCAGGGTGTGGGACGATGCTGA CAAATTTACTCGTAGCGGGCTTGGGTTTTCGGTCCTGCACGTGGTGCGTG ACAACCCGACCAATATCACCGCCAACGGTGTACATTACCACCATCCCGAT GGGGTGTTGTACCTCACACAGTTCACCCAAGTTGCGATGGCTACGGTGGC GGTCGCGCAGGTTGCTGAGATGCGTGAACAGGGTGCTTTTGTCGAAGGTG CTATCGCCTGCGGCCATTCCGTCGGCGAATATACGGCATTGGCCTGTGTC ATGGGAGTCTATGAGCTAGAAGCCTTGCTAGAGACTGTGTTTCACCGCGG GTCGAAGATGCACGACATCGTGTTGCGCGACGAACTGGGCCGTTCTAACT ACCGGTTGGCGGCGATCCGACCCTCGCAGATCGGCCTGCCCGATGATGAG GTTCCCGCGTTTGTCAGAGGAATCGCCGAAAGCACTGGTGAATTCCTGGA GATCGTGAACTTCAACCTGCGTGGCTCGCAGTACGCGATTGCCGGCACGG TCCACGGCCTGGAAGCATTGGAAGCCGAAGTGGAGCGGCGCCGTGAGCTC ACCGGCGGTCGGCGCTCATTCATCTTGGTGCCTGGCATCGACGTGCCATT CCACTCGCGGGTGCTACGGGTCGGCGTGGCAGAATTCCGCCGTTCGCTGG ACCGCGTCCTGCCGCAGGATCAAGATCCCGACTGGATCATTGGGCGCTAC ATCCCCAACCTAGTGCCACGGCCGTTCACACTGGCTCGCGACTTCATCCA GGAGATCCGGGATCTGGTACCTGCCGAGCCACTCGACGATATCCTCGCCG ACTATGATACCTGGCGCCGTGAGCGCCCGAGTGAGATGGCGCGGCGGGTG TTAATCGAGCTGTTGGCTTGGCAATTCGCCAGCCCCGTGCGCTGGATCGA AACGCAGGATCTGTTGTTCACCGAAGAGGCCGCTGGCGGCCTCGGCGTGG AGCGGTTCGTCGAGATCGGTGTGAAGTCGGCGCCGACCGTTGCTGGGCTC GCTACCGATACCCTTAAACTTCCTGAATATTCCCACAACACAGTCGAAGT GCTCAACGTCGAGCGTGACGCCGCGGTGCTGTTCGCCACTGACACCGATC CCGAGCTAGAGCCGGAGCCAGAAAACGTATCGGACGCTTCCGCCGCTTTA CCGGCAGAAAGCGCGTTAGCGCTGGGAACTGTTGCGCCTGCTCCGGTGGT GCCGTCGGGTCCTCGGCCGGAGGACATTTCGTTCGGCGCCGCCGACGCTA CATTGGCGTTGATCGCGCTGTCGGCCAAGATGCGCCTCGACCAGATTGAG GAGATGGACTCGATCGAGTCCATCACTGATGGCGCGTCGTCGCGGCGTAA CCAGCTGCTGGTAGACTTGGGTTCTGAGTTGAGCCTGGGCGCCATCGATG GCGTCGCCGAGGCGGATCTAGCCGGGCTGCGGTCGCAGGTGACTAAGTTA GCGCGCACCTATAAGCCTTACGGTCCAGTGCTTTCTGAATTGATTAATGA TCAGCTGCGCTCGGCTCTAGGGCCCTCGGGCAAGCGGCCCGGCGTCATCG CCGAGCGGGTCAAGAAGATTTGGGAGCTCGGCGATGGTTGGGTTAAGCAC GTAACGGTCGAGATTGCGCTGGGAACTCGTGAGGGCACCAGTGTTCGTGG GGGACCCCTGGGCAACCTGAACGAGGGTGCGTTGGCCGATGTCGACTCCG TTGACAAGGCCGTTGACGCGGCGGTCGCTTCGGTCGCTGCGCGGCATGGC GTTGTGGTGGCCCTGCCGTCCGCGGGCAGTGGAGGAAGTGCGACCGTCGA CGTTGCAGCATTGAGCGAATTCACCGATCAGATCACCGGACACGACGGCG TGCTCGCTTCGGCGGCCCGTTTGGTATTGGGTCAGCTGGGTCTGGATGGA CCCGTTACTGCGGCTCCAGCTACCACCGACACCGGGCTCATCGATTTGGT TACTGCTGAATTGAGTACGGACTGGCCCCGTTTGGTGGCTCCGGTGTTCG ACGTCAAGAAGGCCGTTGTTTTCGACGACCGCTGGGCTAGTGCCCGTGAG GATTTGGTCAGGTTGTGGCTGAATGACGAGGGTGAGATTGAAGCCCAGTG GTCGCATCTGTCGGAAAGGTTCGAGGGCGCCGGCCACGTCGTTGCTACCC AGGCCACCTGGTGGCAGGGTAAGTCGTTGGCCGCGGGTCGCCAGATCCAC GCGTCGCTGTACGGACGGATCGCTGCCGGTGCCCAGAACCCGGATCGAGG TCTCTACAGCAGTGAAATCGCCGTCGTTACAGGAGCTTCAAAGGGTTCGA TCGCCGCCTCGGTTGCAGCACGACTGCTCGATGGCGGTGCCACTGTGATA GCGACAACGTCGAAGCTCGACGAGGAAAGGATAACGTTCTACCGTGCGTT GTACCGTGACCATGCTCGGTACGGCGCCGCGTTGTGGGTGGTCGCGGCCA ACATGGCATCCTATTCTGACATTGATGCACTGGTTGAATGGATTGGCAAC GAACAGACAGAAAGCCTTGGGCCACAGTCGATTCACATCAAGGATGCGCA GACACCGACGCTGCTGTTCCCGTTTGCAGCGCCGCGTGTGATCGGTGACT TGTCGGAGGCCGGTGCACGCTCCGAGATAGAGATGAAAGTGCTGTTGTGG GCAGTGCAGCGACTGATTGTTGGTCTGTCGAAGATCGGCACTGAGCGCGA TGTCGCGTCGCGGCTGCACGTGGTGTTGCCCGGCTCACCCAACCGCGGCA TGTTCGGTGGCGATGGGGCTTACGGCGAAGCTAAGTCGGCTTTGGACGCC GTGGTGAGTCGTTGGCACGCCGAGTCTTCGTGGGCGGCGCGGGTCAGTCT GGCACATGCGCTGGTTGGCTGGACTCGCGGCACGGGGCTGATGGGGCACA ACGACGTTATCGTCAGTGCTGTCGAAGAGGCAGGCGTTACCACGTACTCC ACCGATGAGATGGCCGCAATGTTGTTGGACTTGTGCAATGCGGAGTCCAA GGTGGCTGCGGCCGGCACGCCGATCACGGTGGACTTGACCGGAGGCCTGG GTGAGGTTGATCTCGACATGGCCGAACTAGCCGCCAAAGCGCGTGAAGAT CATGCGGCGCAGGCCGCAGAAGATGAAGCAACTGAAGCCTCCGAGGTAGC GGGCACGATTGCCGCGTTGCCCTCCCCACCTCGCGGCTACACTCCGGCGT CGCCGCACTGGGACGACCTTGATGTCGACCCCGCCGACCTGGTGGTGATT GTCGGTGGCGCCGAAATAGGCCCGTACGGTTCGTCGCGTACCCGGTTCGA GATGGAGGTTGCGGGCGAACTGTCGGCTGCCGGTGTCCTGGAGTTGGTCT GGACCACTGGATTGATTCGGTGGGAAGACGACCCGCAACCCGGTTGGTAT GACACCGAATCCGGCGAATTGGTCGACGAGTCCGAATTAGTTGAACGCTA CCACGACACCGTGGTGCAGCGTTGCGGCATCCGTGAGTTCGTTGATGATG GCACGATCGATCCTGATCATGCGTACCCGCTCCTGGTCTCGGTGTTCTTG GACAAGGACTTCGCGTTCGTCGTCTCCTCGGAGGCCGACGCTCGTGCCTT TGTCGAGTTCGATCCGGAGCACACGGTTATCCGGCCGGTGCCCGACTCGA GCGACTGGCAGGTCATCCGCAAGGCCGGCACCGAGATTAGAGTGCCGCGA AAGATGAAGCTGTCACGGGTCGTTGGTGGTCAGATCCCGACCGGATTCGA TCCGACGGTGTGGGGCATTAGCCCCGACATGGTCAGTTCCATCGACAGGG TAGCGGTGTGGAGTATCGTAGCAACTGTCGATGCGTTCCTGAGCGCTGGC TTCACCCCCGCCGAGGTGATGCGCTATGTGCACCCGAGTTTAGTGGCCAA CACCATGGGCACCGGTATGGGCGGTGGCACTTCGATACAAAGATTGTATC ACAGCAGCTTGTTGGGTCGTAACAAGCCCAATGACATCTTTCAGGAAATC TTGCCGAATATAGTTGCCGCGCACGTAGTCCAGTCCTATATTGGCAGCTA CGGATCGATGATTCACCCGGTCGCTGCATGCGCGACGGCCGCGGTGTCGG TCGAGGAGGGTGTCGACAAGATCCGGCTCGGTAAAGCCGAGCTGGTGGTA GCTGGCGGCATAGATGACCTGACGTTGGAAGGCATCATTGGCTTCGGCGA TATGGCGGCCACCGCCGACACCGCCATGATGCGTGGCCGGGGCATCCACG ATTCCAAGTTCTCCAGGCCCAACGATCGGCGTCGACTGGGTTTCGTCGAA GCCCAGGGTGGTGGCACCATCCTGCTGGCGCGTGGTGACCTAGCGCTCAA GATGGGTCTTCCGGTGTTTGCGGTGGTGGCGTTCGCCCAGTCGTTCGGTG ACGGTGTGCACACTTCAATCCCAGCTCCGGGCTTGGGCGCGCTTGGCGCA GGCCGCGGTGGCAAGGATTCGCCGTTGGTCCAGTCGCTGGCCAAGCTTGG TGTGTCTGCTGACGACATTGCAGTGATCTCCAAGCACGACACTTCGACGC TGGCCAATGATCCCAACGAGACCGAGCTGCATGAGCGGCTCGCTGACGCG ATGGGCCGCTCCGCGGGTGCTCCGCTGTTCGTGGTGTCGCAGAAGAGCCT CACAGGCCACGCCAAGGGAGGCGCGGCAGTCTTCCAGATGATGGGCTTGT GCCAGATGCTGCGGGATGGGGTAATCCCGCCCAACCGCAGCCTGGATTGC GTCGATGAGGAGCTAGCTGGTGCGGCGCACTTTGTATGGCTACGCGACAC GCTGCGGCTCGGCGAAAAATTCCCGCTTAAGGCCGGCATGCTGACTAGCC TTGGGTTCGGGCACGTGTCGGGTTTAGTGGCGTTGGTGCACCCGCAGGCG TTTATCGCCGCGCTAGACCCAGGTCAGCGGGACGACTACCAGCGGCGTGC GAATGTGCGCCTGCTAGCCGGTCAGCGGCGTCTGGCTTCGGCGATCGCTG GCGGTGCGCCGATGTACGAGCGGCCACCGGACCGTCGCTTCGACCACCAT GTGCCGGAGAAGCTGCAAGAGGCAGCGATGTTGCTCAATCCGGCTGCTCG GCTTGGTGACGGCGATGCTTATATCGGA
>NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >NC_002677_1_NP_301868_1_740_fas VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALIGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG >NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 VTIHEHDQVSADRNGNSLHGSRALADRLKAGEPYVVAFGGQGSAWLETLE ELVSSAGLEADLATLVCEVELLLEPVAKELVVVRPIGFEPLQWVRALLAE DLVPSDKHLTSAAVSVPGVLLTQIAVGRALARQGMDLIATPPVGIVGHSQ GVLAVEALKAGGARDAELLAMAQLIGAAGTLVARRRGISVLGDRPPMVSV TNADPERIRRLLDEFAQDVRTVLPPVLSIRNGWRSVVITGTPEQLSRFER YCRQISDKEEEDRRKKIRGGDIFAPVFDPVQVEIGFHTPHLADGIGIVGG WAEKVGLDVTLARELTEAILVRGVDWVREITRVHGAGVRWIIDLGPGDIL TRLTAPVIRGLGVGIVPVANRGGQRTLFTVGAVPEVVRAWLSYAPTVVQL PDGRIKLSTKFTRLTGRSPILLAGMTPTTVDANIVAAAANAGHWAELAGG GQVTEEIFANRVEQLSGLLEPGRTYQFNALFLDPYLWKLQVGGKRLVQKA RQSGAAIDGVVISGGILDLEDAVELIEELGGIGISYVVFKPGTIEQIRSV IRIATEMSTKPVIMHVEGGRAGGHHSWEDLDDLLLATYSELRSHANITVC VGGGIGTPEKAAEYLSGRWAQAYGFPLMPIDGILVGTAAMATKEATTSPS VKRMLVETQGTDQWIGSGKAQGGMASSRSQLGADIHEIDNAASRCGRLLD EVAGDAEAVAERRDEIIAAMANTAKPYFGDVSEMTYLQWLQRYVELTIGE GNSTADTASPGSPWLADTWRDRFQKMLQRAESRLHPSDFGLIKTIFTDPV LLEKPNQAIAALLKYYPDAETVQLHPADAPFFVMLCQMLGKPVNFVPVID KDVRRWWRSDSLWQAHDARYDADQVCIIPGIAAVAGITQMDEPVGELLDR FEQAAIDEVLAGGAEPVVVMSRRLGRADVAGPLAVVLDAPDVLWAGRIAT NPVHRIADPNEWQVNGNLSATHSSTGAQLQVKSEDQQVVLSVPVSNGWID IPFTLPTNTVDGGALLVSTEDATSAMRAVLAIVAGVDGPELLSPVKDGTA IVTVDWNPERVADHTGVTATFREPLAPSLATVPDALVGACWPAVFSAIGS AVTEAGVLVVEGLLNLLHLDHAVCVVGKLPTVPAQLTVTATVSLAIDTDM GRVVPVSVTIRDTTGADGAVLATLEERFVILGRTGTAELTGPVRAGGAIS ENATDTPRRRRRDVTLTAPIDMRPFAVVSGDHNPIHTDRTAALLAGLESP IVHGMWLSAAAQHVVMATDGQARPAARLIGWTARFLGMAHPGDKVDFRVD RIGIDQGAEILEVSARISSGLVMSATARLAAPKTVYAFPGQGIQHKGMGM DVRARSKAARRVWDDADKFTRSGLGFSVLHVVRDNPTNITANGVHYHHPD GVLYLTQFTQVAMATVAVAQVAEMREQGAFVEGAIACGHSVGEYTALACV MGVYELEALLETVFHRGSKMHDIVLRDELGRSNYRLAAIRPSQIGLPDDE VPAFVRGIAESTGEFLEIVNFNLRGSQYAIAGTVHGLEALEAEVERRREL TGGRRSFILVPGIDVPFHSRVLRVGVAEFRRSLDRVLPQDQDPDWIIGRY IPNLVPRPFTLARDFIQEIRDLVPAEPLDDILADYDTWRRERPSEMARRV LIELLAWQFASPVRWIETQDLLFTEEAAGGLGVERFVEIGVKSAPTVAGL ATDTLKLPEYSHNTVEVLNVERDAAVLFATDTDPELEPEPENVSDASAAL PAESALALGTVAPAPVVPSGPRPEDISFGAADATLALIALSAKMRLDQIE EMDSIESITDGASSRRNQLLVDLGSELSLGAIDGVAEADLAGLRSQVTKL ARTYKPYGPVLSELINDQLRSALGPSGKRPGVIAERVKKIWELGDGWVKH VTVEIALGTREGTSVRGGPLGNLNEGALADVDSVDKAVDAAVASVAARHG VVVALPSAGSGGSATVDVAALSEFTDQITGHDGVLASAARLVLGQLGLDG PVTAAPATTDTGLIDLVTAELSTDWPRLVAPVFDVKKAVVFDDRWASARE DLVRLWLNDEGEIEAQWSHLSERFEGAGHVVATQATWWQGKSLAAGRQIH ASLYGRIAAGAQNPDRGLYSSEIAVVTGASKGSIAASVAARLLDGGATVI ATTSKLDEERITFYRALYRDHARYGAALWVVAANMASYSDIDALVEWIGN EQTESLGPQSIHIKDAQTPTLLFPFAAPRVIGDLSEAGARSEIEMKVLLW AVQRLIVGLSKIGTERDVASRLHVVLPGSPNRGMFGGDGAYGEAKSALDA VVSRWHAESSWAARVSLAHALVGWTRGTGLMGHNDVIVSAVEEAGVTTYS TDEMAAMLLDLCNAESKVAAAGTPITVDLTGGLGEVDLDMAELAAKARED HAAQAAEDEATEASEVAGTIAALPSPPRGYTPASPHWDDLDVDPADLVVI VGGAEIGPYGSSRTRFEMEVAGELSAAGVLELVWTTGLIRWEDDPQPGWY DTESGELVDESELVERYHDTVVQRCGIREFVDDGTIDPDHAYPLLVSVFL DKDFAFVVSSEADARAFVEFDPEHTVIRPVPDSSDWQVIRKAGTEIRVPR KMKLSRVVGGQIPTGFDPTVWGISPDMVSSIDRVAVWSIVATVDAFLSAG FTPAEVMRYVHPSLVANTMGTGMGGGTSIQRLYHSSLLGRNKPNDIFQEI LPNIVAAHVVQSYIGSYGSMIHPVAACATAAVSVEEGVDKIRLGKAELVV AGGIDDLTLEGIIGFGDMAATADTAMMRGRGIHDSKFSRPNDRRRLGFVE AQGGGTILLARGDLALKMGLPVFAVVAFAQSFGDGVHTSIPAPGLGALGA GRGGKDSPLVQSLAKLGVSADDIAVISKHDTSTLANDPNETELHERLADA MGRSAGAPLFVVSQKSLTGHAKGGAAVFQMMGLCQMLRDGVIPPNRSLDC VDEELAGAAHFVWLRDTLRLGEKFPLKAGMLTSLGFGHVSGLVALVHPQA FIAALDPGQRDDYQRRANVRLLAGQRRLASAIAGGAPMYERPPDRRFDHH VPEKLQEAAMLLNPAARLGDGDAYIG
#NEXUS [ID: 9000737026] begin taxa; dimensions ntax=6; taxlabels NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 NC_002677_1_NP_301868_1_740_fas NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ; end; begin trees; translate 1 NC_011896_1_WP_010908189_1_1252_MLBR_RS05895, 2 NC_002677_1_NP_301868_1_740_fas, 3 NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350, 4 NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780, 5 NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465, 6 NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 ; [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 = (1:0.06013217,2:0.05815682,3:0.05997853,4:0.06117166,5:0.06067883,6:0.1305217); [Note: This tree contains information only on the topology and branch lengths (median of the posterior probability density).] tree con_50_majrule = (1:0.06013217,2:0.05815682,3:0.05997853,4:0.06117166,5:0.06067883,6:0.1305217); end;
Estimated marginal likelihoods for runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 /data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -12535.06 -12541.04 2 -12535.09 -12540.20 -------------------------------------- TOTAL -12535.07 -12540.71 -------------------------------------- Model parameter summaries over the runs sampled in files "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/data/1res/fas/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 "/data/1res/fas/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 0.879248 0.090306 0.363851 1.478028 0.838755 1457.70 1466.15 1.001 r(A<->C){all} 0.133463 0.015191 0.000008 0.388004 0.096346 173.57 229.18 1.002 r(A<->G){all} 0.233922 0.025442 0.000083 0.535425 0.209094 185.68 226.44 1.001 r(A<->T){all} 0.136774 0.014260 0.000087 0.378279 0.104085 200.40 232.73 1.000 r(C<->G){all} 0.162751 0.019604 0.000034 0.447756 0.123876 120.76 164.70 1.005 r(C<->T){all} 0.172432 0.020214 0.000006 0.460306 0.135185 132.16 134.70 1.003 r(G<->T){all} 0.160658 0.019758 0.000173 0.447910 0.120980 200.44 254.36 1.003 pi(A){all} 0.176839 0.000016 0.168610 0.184320 0.176773 762.04 947.92 1.002 pi(C){all} 0.284484 0.000022 0.275854 0.294049 0.284458 825.08 1063.37 1.000 pi(G){all} 0.330504 0.000024 0.321009 0.340309 0.330480 962.08 979.50 1.001 pi(T){all} 0.208172 0.000018 0.200131 0.216326 0.208253 1060.35 1226.99 1.001 alpha{1,2} 0.186094 0.077483 0.001098 0.666524 0.105206 1257.27 1293.96 1.000 alpha{3} 0.424106 0.224790 0.000175 1.377488 0.264408 1006.16 1120.72 1.000 pinvar{all} 0.999638 0.000000 0.999098 0.999994 0.999712 577.11 676.67 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 4.9h, March 2018) /data/1res/fas/batch/allfiles/codeml/input.fasta.fasta.pnxs Model: One dN/dS ratio, Codon frequency model: F3x4 Site-class models: ns = 6 ls = 3076 Codon usage in sequences -------------------------------------------------------------------------------------------------------------------------------------- Phe TTT 19 19 19 19 19 19 | Ser TCT 9 9 9 9 9 9 | Tyr TAT 16 16 16 16 16 16 | Cys TGT 4 4 4 4 4 4 TTC 61 61 61 61 61 61 | TCC 42 42 42 42 42 42 | TAC 31 31 31 31 31 31 | TGC 11 11 11 11 11 11 Leu TTA 10 10 10 10 10 10 | TCA 10 10 10 10 10 10 | *** TAA 0 0 0 0 0 0 | *** TGA 0 0 0 0 0 0 TTG 85 85 85 85 85 85 | TCG 72 72 72 72 72 72 | TAG 0 0 0 0 0 0 | Trp TGG 52 52 52 52 52 52 -------------------------------------------------------------------------------------------------------------------------------------- Leu CTT 20 20 20 20 20 20 | Pro CCT 18 18 18 18 18 18 | His CAT 24 24 24 24 24 24 | Arg CGT 55 55 55 55 55 55 CTC 44 44 44 44 44 44 | CCC 45 45 45 45 45 45 | CAC 45 45 45 45 45 45 | CGC 62 62 62 62 62 62 CTA 25 25 25 25 25 25 | CCA 19 19 19 19 19 19 | Gln CAA 16 16 16 16 16 16 | CGA 13 13 13 13 13 13 CTG 114 114 114 114 114 114 | CCG 77 77 77 77 77 77 | CAG 76 76 76 76 76 76 | CGG 60 60 60 60 60 60 -------------------------------------------------------------------------------------------------------------------------------------- Ile ATT 53 53 53 53 53 52 | Thr ACT 37 37 37 37 37 37 | Asn AAT 16 16 16 16 16 16 | Ser AGT 19 19 19 19 19 19 ATC 93 93 93 93 93 93 | ACC 85 85 85 85 85 85 | AAC 40 40 40 40 40 40 | AGC 27 27 27 27 27 27 ATA 12 12 12 12 12 12 | ACA 18 18 18 18 18 18 | Lys AAA 16 16 16 16 16 16 | Arg AGA 5 5 5 5 5 5 Met ATG 58 58 58 58 58 58 | ACG 34 34 34 34 34 34 | AAG 57 57 57 57 57 57 | AGG 8 8 8 8 8 8 -------------------------------------------------------------------------------------------------------------------------------------- Val GTT 62 62 62 62 62 63 | Ala GCT 85 85 85 85 85 85 | Asp GAT 78 78 78 78 78 78 | Gly GGT 90 90 90 90 90 90 GTC 93 93 93 93 93 93 | GCC 131 131 131 131 131 131 | GAC 127 127 127 127 127 127 | GGC 132 132 132 132 132 132 GTA 25 25 25 25 25 25 | GCA 49 49 49 49 49 49 | Glu GAA 71 71 71 71 71 71 | GGA 35 35 35 35 35 35 GTG 121 121 121 121 121 121 | GCG 113 113 113 113 113 113 | GAG 116 116 116 116 116 116 | GGG 35 35 35 35 35 35 -------------------------------------------------------------------------------------------------------------------------------------- Codon position x base (3x4) table for each sequence. #1: NC_011896_1_WP_010908189_1_1252_MLBR_RS05895 position 1: T:0.13719 C:0.23179 A:0.18791 G:0.44311 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17674 G:0.33041 #2: NC_002677_1_NP_301868_1_740_fas position 1: T:0.13719 C:0.23179 A:0.18791 G:0.44311 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17674 G:0.33041 #3: NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350 position 1: T:0.13719 C:0.23179 A:0.18791 G:0.44311 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17674 G:0.33041 #4: NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780 position 1: T:0.13719 C:0.23179 A:0.18791 G:0.44311 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17674 G:0.33041 #5: NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465 position 1: T:0.13719 C:0.23179 A:0.18791 G:0.44311 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17674 G:0.33041 #6: NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610 position 1: T:0.13719 C:0.23179 A:0.18758 G:0.44343 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17664 G:0.33052 Sums of codon usage counts ------------------------------------------------------------------------------ Phe F TTT 114 | Ser S TCT 54 | Tyr Y TAT 96 | Cys C TGT 24 TTC 366 | TCC 252 | TAC 186 | TGC 66 Leu L TTA 60 | TCA 60 | *** * TAA 0 | *** * TGA 0 TTG 510 | TCG 432 | TAG 0 | Trp W TGG 312 ------------------------------------------------------------------------------ Leu L CTT 120 | Pro P CCT 108 | His H CAT 144 | Arg R CGT 330 CTC 264 | CCC 270 | CAC 270 | CGC 372 CTA 150 | CCA 114 | Gln Q CAA 96 | CGA 78 CTG 684 | CCG 462 | CAG 456 | CGG 360 ------------------------------------------------------------------------------ Ile I ATT 317 | Thr T ACT 222 | Asn N AAT 96 | Ser S AGT 114 ATC 558 | ACC 510 | AAC 240 | AGC 162 ATA 72 | ACA 108 | Lys K AAA 96 | Arg R AGA 30 Met M ATG 348 | ACG 204 | AAG 342 | AGG 48 ------------------------------------------------------------------------------ Val V GTT 373 | Ala A GCT 510 | Asp D GAT 468 | Gly G GGT 540 GTC 558 | GCC 786 | GAC 762 | GGC 792 GTA 150 | GCA 294 | Glu E GAA 426 | GGA 210 GTG 726 | GCG 678 | GAG 696 | GGG 210 ------------------------------------------------------------------------------ Codon position x base (3x4) table, overall position 1: T:0.13719 C:0.23179 A:0.18785 G:0.44316 position 2: T:0.29096 C:0.27438 A:0.23700 G:0.19766 position 3: T:0.19668 C:0.34753 A:0.10533 G:0.35046 Average T:0.20828 C:0.28457 A:0.17673 G:0.33043 Model 0: one-ratio TREE # 1: (1, 2, 3, 4, 5, 6); MP score: 1 lnL(ntime: 6 np: 8): -12115.782559 +0.000000 7..1 7..2 7..3 7..4 7..5 7..6 0.000004 0.000004 0.000004 0.000004 0.000004 0.000336 999.000000 999.000000 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.000356 (1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000004, 6: 0.000336); (NC_011896_1_WP_010908189_1_1252_MLBR_RS05895: 0.000004, NC_002677_1_NP_301868_1_740_fas: 0.000004, NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350: 0.000004, NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780: 0.000004, NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465: 0.000004, NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610: 0.000336); Detailed output identifying parameters kappa (ts/tv) = 999.00000 omega (dN/dS) = 999.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 7..1 0.000 6440.8 2787.2 999.0000 0.0000 0.0000 0.0 0.0 7..2 0.000 6440.8 2787.2 999.0000 0.0000 0.0000 0.0 0.0 7..3 0.000 6440.8 2787.2 999.0000 0.0000 0.0000 0.0 0.0 7..4 0.000 6440.8 2787.2 999.0000 0.0000 0.0000 0.0 0.0 7..5 0.000 6440.8 2787.2 999.0000 0.0000 0.0000 0.0 0.0 7..6 0.000 6440.8 2787.2 999.0000 0.0002 0.0000 1.0 0.0 tree length for dN: 0.0002 tree length for dS: 0.0000 Time used: 0:01 Model 1: NearlyNeutral (2 categories) TREE # 1: (1, 2, 3, 4, 5, 6); MP score: 1 lnL(ntime: 6 np: 9): -12116.162373 +0.000000 7..1 7..2 7..3 7..4 7..5 7..6 0.000004 0.000004 0.000004 0.000004 0.000004 0.000330 951.428693 0.000010 0.000001 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.000350 (1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000004, 6: 0.000330); (NC_011896_1_WP_010908189_1_1252_MLBR_RS05895: 0.000004, NC_002677_1_NP_301868_1_740_fas: 0.000004, NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350: 0.000004, NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780: 0.000004, NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465: 0.000004, NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610: 0.000330); Detailed output identifying parameters kappa (ts/tv) = 951.42869 MLEs of dN/dS (w) for site classes (K=2) p: 0.00001 0.99999 w: 0.00000 1.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 7..1 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..2 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..3 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..4 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..5 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..6 0.000 6440.8 2787.2 1.0000 0.0001 0.0001 0.7 0.3 Time used: 0:01 Model 2: PositiveSelection (3 categories) TREE # 1: (1, 2, 3, 4, 5, 6); MP score: 1 lnL(ntime: 6 np: 11): -12115.782699 +0.000000 7..1 7..2 7..3 7..4 7..5 7..6 0.000004 0.000004 0.000004 0.000004 0.000004 0.000336 951.527266 0.000000 0.000014 0.543033 951.735594 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.000356 (1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000004, 6: 0.000336); (NC_011896_1_WP_010908189_1_1252_MLBR_RS05895: 0.000004, NC_002677_1_NP_301868_1_740_fas: 0.000004, NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350: 0.000004, NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780: 0.000004, NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465: 0.000004, NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610: 0.000336); Detailed output identifying parameters kappa (ts/tv) = 951.52727 MLEs of dN/dS (w) for site classes (K=3) p: 0.00000 0.00001 0.99999 w: 0.54303 1.00000 951.73559 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 7..1 0.000 6440.8 2787.2 951.7219 0.0000 0.0000 0.0 0.0 7..2 0.000 6440.8 2787.2 951.7219 0.0000 0.0000 0.0 0.0 7..3 0.000 6440.8 2787.2 951.7219 0.0000 0.0000 0.0 0.0 7..4 0.000 6440.8 2787.2 951.7219 0.0000 0.0000 0.0 0.0 7..5 0.000 6440.8 2787.2 951.7219 0.0000 0.0000 0.0 0.0 7..6 0.000 6440.8 2787.2 951.7219 0.0002 0.0000 1.0 0.0 Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: NC_011896_1_WP_010908189_1_1252_MLBR_RS05895) Pr(w>1) post mean +- SE for w 1 V 1.000** 951.722 2 T 1.000** 951.722 3 I 1.000** 951.722 4 H 1.000** 951.722 5 E 1.000** 951.722 6 H 1.000** 951.722 7 D 1.000** 951.722 8 Q 1.000** 951.722 9 V 1.000** 951.722 10 S 1.000** 951.722 11 A 1.000** 951.722 12 D 1.000** 951.722 13 R 1.000** 951.722 14 N 1.000** 951.722 15 G 1.000** 951.722 16 N 1.000** 951.722 17 S 1.000** 951.722 18 L 1.000** 951.722 19 H 1.000** 951.722 20 G 1.000** 951.722 21 S 1.000** 951.722 22 R 1.000** 951.722 23 A 1.000** 951.722 24 L 1.000** 951.722 25 A 1.000** 951.722 26 D 1.000** 951.722 27 R 1.000** 951.722 28 L 1.000** 951.722 29 K 1.000** 951.722 30 A 1.000** 951.722 31 G 1.000** 951.722 32 E 1.000** 951.722 33 P 1.000** 951.722 34 Y 1.000** 951.722 35 V 1.000** 951.722 36 V 1.000** 951.722 37 A 1.000** 951.722 38 F 1.000** 951.722 39 G 1.000** 951.722 40 G 1.000** 951.722 41 Q 1.000** 951.722 42 G 1.000** 951.722 43 S 1.000** 951.722 44 A 1.000** 951.722 45 W 1.000** 951.722 46 L 1.000** 951.722 47 E 1.000** 951.722 48 T 1.000** 951.722 49 L 1.000** 951.722 50 E 1.000** 951.722 51 E 1.000** 951.722 52 L 1.000** 951.722 53 V 1.000** 951.722 54 S 1.000** 951.722 55 S 1.000** 951.722 56 A 1.000** 951.722 57 G 1.000** 951.722 58 L 1.000** 951.722 59 E 1.000** 951.722 60 A 1.000** 951.722 61 D 1.000** 951.722 62 L 1.000** 951.722 63 A 1.000** 951.722 64 T 1.000** 951.722 65 L 1.000** 951.722 66 V 1.000** 951.722 67 C 1.000** 951.722 68 E 1.000** 951.722 69 V 1.000** 951.722 70 E 1.000** 951.722 71 L 1.000** 951.722 72 L 1.000** 951.722 73 L 1.000** 951.722 74 E 1.000** 951.722 75 P 1.000** 951.722 76 V 1.000** 951.722 77 A 1.000** 951.722 78 K 1.000** 951.722 79 E 1.000** 951.722 80 L 1.000** 951.722 81 V 1.000** 951.722 82 V 1.000** 951.722 83 V 1.000** 951.722 84 R 1.000** 951.722 85 P 1.000** 951.722 86 I 1.000** 951.722 87 G 1.000** 951.722 88 F 1.000** 951.722 89 E 1.000** 951.722 90 P 1.000** 951.722 91 L 1.000** 951.722 92 Q 1.000** 951.722 93 W 1.000** 951.722 94 V 1.000** 951.722 95 R 1.000** 951.722 96 A 1.000** 951.722 97 L 1.000** 951.722 98 L 1.000** 951.722 99 A 1.000** 951.722 100 E 1.000** 951.722 101 D 1.000** 951.722 102 L 1.000** 951.722 103 V 1.000** 951.722 104 P 1.000** 951.722 105 S 1.000** 951.722 106 D 1.000** 951.722 107 K 1.000** 951.722 108 H 1.000** 951.722 109 L 1.000** 951.722 110 T 1.000** 951.722 111 S 1.000** 951.722 112 A 1.000** 951.722 113 A 1.000** 951.722 114 V 1.000** 951.722 115 S 1.000** 951.722 116 V 1.000** 951.722 117 P 1.000** 951.722 118 G 1.000** 951.722 119 V 1.000** 951.722 120 L 1.000** 951.722 121 L 1.000** 951.722 122 T 1.000** 951.722 123 Q 1.000** 951.722 124 I 1.000** 951.722 125 A 1.000** 951.722 126 V 1.000** 951.722 127 G 1.000** 951.722 128 R 1.000** 951.722 129 A 1.000** 951.722 130 L 1.000** 951.722 131 A 1.000** 951.722 132 R 1.000** 951.722 133 Q 1.000** 951.722 134 G 1.000** 951.722 135 M 1.000** 951.722 136 D 1.000** 951.722 137 L 1.000** 951.722 138 I 1.000** 951.722 139 A 1.000** 951.722 140 T 1.000** 951.722 141 P 1.000** 951.722 142 P 1.000** 951.722 143 V 1.000** 951.722 144 G 1.000** 951.722 145 I 1.000** 951.722 146 V 1.000** 951.722 147 G 1.000** 951.722 148 H 1.000** 951.722 149 S 1.000** 951.722 150 Q 1.000** 951.722 151 G 1.000** 951.722 152 V 1.000** 951.722 153 L 1.000** 951.722 154 A 1.000** 951.722 155 V 1.000** 951.722 156 E 1.000** 951.722 157 A 1.000** 951.722 158 L 1.000** 951.722 159 K 1.000** 951.722 160 A 1.000** 951.722 161 G 1.000** 951.722 162 G 1.000** 951.722 163 A 1.000** 951.722 164 R 1.000** 951.722 165 D 1.000** 951.722 166 A 1.000** 951.722 167 E 1.000** 951.722 168 L 1.000** 951.722 169 L 1.000** 951.722 170 A 1.000** 951.722 171 M 1.000** 951.722 172 A 1.000** 951.722 173 Q 1.000** 951.722 174 L 1.000** 951.722 175 I 1.000** 951.722 176 G 1.000** 951.722 177 A 1.000** 951.722 178 A 1.000** 951.722 179 G 1.000** 951.722 180 T 1.000** 951.722 181 L 1.000** 951.722 182 V 1.000** 951.722 183 A 1.000** 951.722 184 R 1.000** 951.722 185 R 1.000** 951.722 186 R 1.000** 951.722 187 G 1.000** 951.722 188 I 1.000** 951.722 189 S 1.000** 951.722 190 V 1.000** 951.722 191 L 1.000** 951.722 192 G 1.000** 951.722 193 D 1.000** 951.722 194 R 1.000** 951.722 195 P 1.000** 951.722 196 P 1.000** 951.722 197 M 1.000** 951.722 198 V 1.000** 951.722 199 S 1.000** 951.722 200 V 1.000** 951.722 201 T 1.000** 951.722 202 N 1.000** 951.722 203 A 1.000** 951.722 204 D 1.000** 951.722 205 P 1.000** 951.722 206 E 1.000** 951.722 207 R 1.000** 951.722 208 I 1.000** 951.722 209 R 1.000** 951.722 210 R 1.000** 951.722 211 L 1.000** 951.722 212 L 1.000** 951.722 213 D 1.000** 951.722 214 E 1.000** 951.722 215 F 1.000** 951.722 216 A 1.000** 951.722 217 Q 1.000** 951.722 218 D 1.000** 951.722 219 V 1.000** 951.722 220 R 1.000** 951.722 221 T 1.000** 951.722 222 V 1.000** 951.722 223 L 1.000** 951.722 224 P 1.000** 951.722 225 P 1.000** 951.722 226 V 1.000** 951.722 227 L 1.000** 951.722 228 S 1.000** 951.722 229 I 1.000** 951.722 230 R 1.000** 951.722 231 N 1.000** 951.722 232 G 1.000** 951.722 233 W 1.000** 951.722 234 R 1.000** 951.722 235 S 1.000** 951.722 236 V 1.000** 951.722 237 V 1.000** 951.722 238 I 1.000** 951.722 239 T 1.000** 951.722 240 G 1.000** 951.722 241 T 1.000** 951.722 242 P 1.000** 951.722 243 E 1.000** 951.722 244 Q 1.000** 951.722 245 L 1.000** 951.722 246 S 1.000** 951.722 247 R 1.000** 951.722 248 F 1.000** 951.722 249 E 1.000** 951.722 250 R 1.000** 951.722 251 Y 1.000** 951.722 252 C 1.000** 951.722 253 R 1.000** 951.722 254 Q 1.000** 951.722 255 I 1.000** 951.722 256 S 1.000** 951.722 257 D 1.000** 951.722 258 K 1.000** 951.722 259 E 1.000** 951.722 260 E 1.000** 951.722 261 E 1.000** 951.722 262 D 1.000** 951.722 263 R 1.000** 951.722 264 R 1.000** 951.722 265 K 1.000** 951.722 266 K 1.000** 951.722 267 I 1.000** 951.722 268 R 1.000** 951.722 269 G 1.000** 951.722 270 G 1.000** 951.722 271 D 1.000** 951.722 272 I 1.000** 951.722 273 F 1.000** 951.722 274 A 1.000** 951.722 275 P 1.000** 951.722 276 V 1.000** 951.722 277 F 1.000** 951.722 278 D 1.000** 951.722 279 P 1.000** 951.722 280 V 1.000** 951.722 281 Q 1.000** 951.722 282 V 1.000** 951.722 283 E 1.000** 951.722 284 I 1.000** 951.722 285 G 1.000** 951.722 286 F 1.000** 951.722 287 H 1.000** 951.722 288 T 1.000** 951.722 289 P 1.000** 951.722 290 H 1.000** 951.722 291 L 1.000** 951.722 292 A 1.000** 951.722 293 D 1.000** 951.722 294 G 1.000** 951.722 295 I 1.000** 951.722 296 G 1.000** 951.722 297 I 1.000** 951.722 298 V 1.000** 951.722 299 G 1.000** 951.722 300 G 1.000** 951.722 301 W 1.000** 951.722 302 A 1.000** 951.722 303 E 1.000** 951.722 304 K 1.000** 951.722 305 V 1.000** 951.722 306 G 1.000** 951.722 307 L 1.000** 951.722 308 D 1.000** 951.722 309 V 1.000** 951.722 310 T 1.000** 951.722 311 L 1.000** 951.722 312 A 1.000** 951.722 313 R 1.000** 951.722 314 E 1.000** 951.722 315 L 1.000** 951.722 316 T 1.000** 951.722 317 E 1.000** 951.722 318 A 1.000** 951.722 319 I 1.000** 951.722 320 L 1.000** 951.722 321 V 1.000** 951.722 322 R 1.000** 951.722 323 G 1.000** 951.722 324 V 1.000** 951.722 325 D 1.000** 951.722 326 W 1.000** 951.722 327 V 1.000** 951.722 328 R 1.000** 951.722 329 E 1.000** 951.722 330 I 1.000** 951.722 331 T 1.000** 951.722 332 R 1.000** 951.722 333 V 1.000** 951.722 334 H 1.000** 951.722 335 G 1.000** 951.722 336 A 1.000** 951.722 337 G 1.000** 951.722 338 V 1.000** 951.722 339 R 1.000** 951.722 340 W 1.000** 951.722 341 I 1.000** 951.722 342 I 1.000** 951.722 343 D 1.000** 951.722 344 L 1.000** 951.722 345 G 1.000** 951.722 346 P 1.000** 951.722 347 G 1.000** 951.722 348 D 1.000** 951.722 349 I 1.000** 951.722 350 L 1.000** 951.722 351 T 1.000** 951.722 352 R 1.000** 951.722 353 L 1.000** 951.722 354 T 1.000** 951.722 355 A 1.000** 951.722 356 P 1.000** 951.722 357 V 1.000** 951.722 358 I 1.000** 951.722 359 R 1.000** 951.722 360 G 1.000** 951.722 361 L 1.000** 951.722 362 G 1.000** 951.722 363 V 1.000** 951.722 364 G 1.000** 951.722 365 I 1.000** 951.722 366 V 1.000** 951.722 367 P 1.000** 951.722 368 V 1.000** 951.722 369 A 1.000** 951.722 370 N 1.000** 951.722 371 R 1.000** 951.722 372 G 1.000** 951.722 373 G 1.000** 951.722 374 Q 1.000** 951.722 375 R 1.000** 951.722 376 T 1.000** 951.722 377 L 1.000** 951.722 378 F 1.000** 951.722 379 T 1.000** 951.722 380 V 1.000** 951.722 381 G 1.000** 951.722 382 A 1.000** 951.722 383 V 1.000** 951.722 384 P 1.000** 951.722 385 E 1.000** 951.722 386 V 1.000** 951.722 387 V 1.000** 951.722 388 R 1.000** 951.722 389 A 1.000** 951.722 390 W 1.000** 951.722 391 L 1.000** 951.722 392 S 1.000** 951.722 393 Y 1.000** 951.722 394 A 1.000** 951.722 395 P 1.000** 951.722 396 T 1.000** 951.722 397 V 1.000** 951.722 398 V 1.000** 951.722 399 Q 1.000** 951.722 400 L 1.000** 951.722 401 P 1.000** 951.722 402 D 1.000** 951.722 403 G 1.000** 951.722 404 R 1.000** 951.722 405 I 1.000** 951.722 406 K 1.000** 951.722 407 L 1.000** 951.722 408 S 1.000** 951.722 409 T 1.000** 951.722 410 K 1.000** 951.722 411 F 1.000** 951.722 412 T 1.000** 951.722 413 R 1.000** 951.722 414 L 1.000** 951.722 415 T 1.000** 951.722 416 G 1.000** 951.722 417 R 1.000** 951.722 418 S 1.000** 951.722 419 P 1.000** 951.722 420 I 1.000** 951.722 421 L 1.000** 951.722 422 L 1.000** 951.722 423 A 1.000** 951.722 424 G 1.000** 951.722 425 M 1.000** 951.722 426 T 1.000** 951.722 427 P 1.000** 951.722 428 T 1.000** 951.722 429 T 1.000** 951.722 430 V 1.000** 951.722 431 D 1.000** 951.722 432 A 1.000** 951.722 433 N 1.000** 951.722 434 I 1.000** 951.722 435 V 1.000** 951.722 436 A 1.000** 951.722 437 A 1.000** 951.722 438 A 1.000** 951.722 439 A 1.000** 951.722 440 N 1.000** 951.722 441 A 1.000** 951.722 442 G 1.000** 951.722 443 H 1.000** 951.722 444 W 1.000** 951.722 445 A 1.000** 951.722 446 E 1.000** 951.722 447 L 1.000** 951.722 448 A 1.000** 951.722 449 G 1.000** 951.722 450 G 1.000** 951.722 451 G 1.000** 951.722 452 Q 1.000** 951.722 453 V 1.000** 951.722 454 T 1.000** 951.722 455 E 1.000** 951.722 456 E 1.000** 951.722 457 I 1.000** 951.722 458 F 1.000** 951.722 459 A 1.000** 951.722 460 N 1.000** 951.722 461 R 1.000** 951.722 462 V 1.000** 951.722 463 E 1.000** 951.722 464 Q 1.000** 951.722 465 L 1.000** 951.722 466 S 1.000** 951.722 467 G 1.000** 951.722 468 L 1.000** 951.722 469 L 1.000** 951.722 470 E 1.000** 951.722 471 P 1.000** 951.722 472 G 1.000** 951.722 473 R 1.000** 951.722 474 T 1.000** 951.722 475 Y 1.000** 951.722 476 Q 1.000** 951.722 477 F 1.000** 951.722 478 N 1.000** 951.722 479 A 1.000** 951.722 480 L 1.000** 951.722 481 F 1.000** 951.722 482 L 1.000** 951.722 483 D 1.000** 951.722 484 P 1.000** 951.722 485 Y 1.000** 951.722 486 L 1.000** 951.722 487 W 1.000** 951.722 488 K 1.000** 951.722 489 L 1.000** 951.722 490 Q 1.000** 951.722 491 V 1.000** 951.722 492 G 1.000** 951.722 493 G 1.000** 951.722 494 K 1.000** 951.722 495 R 1.000** 951.722 496 L 1.000** 951.722 497 V 1.000** 951.722 498 Q 1.000** 951.722 499 K 1.000** 951.722 500 A 1.000** 951.722 501 R 1.000** 951.722 502 Q 1.000** 951.722 503 S 1.000** 951.722 504 G 1.000** 951.722 505 A 1.000** 951.722 506 A 1.000** 951.722 507 I 1.000** 951.722 508 D 1.000** 951.722 509 G 1.000** 951.722 510 V 1.000** 951.722 511 V 1.000** 951.722 512 I 1.000** 951.722 513 S 1.000** 951.722 514 G 1.000** 951.722 515 G 1.000** 951.722 516 I 1.000** 951.722 517 L 1.000** 951.722 518 D 1.000** 951.722 519 L 1.000** 951.722 520 E 1.000** 951.722 521 D 1.000** 951.722 522 A 1.000** 951.722 523 V 1.000** 951.722 524 E 1.000** 951.722 525 L 1.000** 951.722 526 I 1.000** 951.722 527 E 1.000** 951.722 528 E 1.000** 951.722 529 L 1.000** 951.722 530 G 1.000** 951.722 531 G 1.000** 951.722 532 I 1.000** 951.722 533 G 1.000** 951.722 534 I 1.000** 951.722 535 S 1.000** 951.722 536 Y 1.000** 951.722 537 V 1.000** 951.722 538 V 1.000** 951.722 539 F 1.000** 951.722 540 K 1.000** 951.722 541 P 1.000** 951.722 542 G 1.000** 951.722 543 T 1.000** 951.722 544 I 1.000** 951.722 545 E 1.000** 951.722 546 Q 1.000** 951.722 547 I 1.000** 951.722 548 R 1.000** 951.722 549 S 1.000** 951.722 550 V 1.000** 951.722 551 I 1.000** 951.722 552 R 1.000** 951.722 553 I 1.000** 951.722 554 A 1.000** 951.722 555 T 1.000** 951.722 556 E 1.000** 951.722 557 M 1.000** 951.722 558 S 1.000** 951.722 559 T 1.000** 951.722 560 K 1.000** 951.722 561 P 1.000** 951.722 562 V 1.000** 951.722 563 I 1.000** 951.722 564 M 1.000** 951.722 565 H 1.000** 951.722 566 V 1.000** 951.722 567 E 1.000** 951.722 568 G 1.000** 951.722 569 G 1.000** 951.722 570 R 1.000** 951.722 571 A 1.000** 951.722 572 G 1.000** 951.722 573 G 1.000** 951.722 574 H 1.000** 951.722 575 H 1.000** 951.722 576 S 1.000** 951.722 577 W 1.000** 951.722 578 E 1.000** 951.722 579 D 1.000** 951.722 580 L 1.000** 951.722 581 D 1.000** 951.722 582 D 1.000** 951.722 583 L 1.000** 951.722 584 L 1.000** 951.722 585 L 1.000** 951.722 586 A 1.000** 951.722 587 T 1.000** 951.722 588 Y 1.000** 951.722 589 S 1.000** 951.722 590 E 1.000** 951.722 591 L 1.000** 951.722 592 R 1.000** 951.722 593 S 1.000** 951.722 594 H 1.000** 951.722 595 A 1.000** 951.722 596 N 1.000** 951.722 597 I 1.000** 951.722 598 T 1.000** 951.722 599 V 1.000** 951.722 600 C 1.000** 951.722 601 V 1.000** 951.722 602 G 1.000** 951.722 603 G 1.000** 951.722 604 G 1.000** 951.722 605 I 1.000** 951.722 606 G 1.000** 951.722 607 T 1.000** 951.722 608 P 1.000** 951.722 609 E 1.000** 951.722 610 K 1.000** 951.722 611 A 1.000** 951.722 612 A 1.000** 951.722 613 E 1.000** 951.722 614 Y 1.000** 951.722 615 L 1.000** 951.722 616 S 1.000** 951.722 617 G 1.000** 951.722 618 R 1.000** 951.722 619 W 1.000** 951.722 620 A 1.000** 951.722 621 Q 1.000** 951.722 622 A 1.000** 951.722 623 Y 1.000** 951.722 624 G 1.000** 951.722 625 F 1.000** 951.722 626 P 1.000** 951.722 627 L 1.000** 951.722 628 M 1.000** 951.722 629 P 1.000** 951.722 630 I 1.000** 951.722 631 D 1.000** 951.722 632 G 1.000** 951.722 633 I 1.000** 951.722 634 L 1.000** 951.722 635 V 1.000** 951.722 636 G 1.000** 951.722 637 T 1.000** 951.722 638 A 1.000** 951.722 639 A 1.000** 951.722 640 M 1.000** 951.722 641 A 1.000** 951.722 642 T 1.000** 951.722 643 K 1.000** 951.722 644 E 1.000** 951.722 645 A 1.000** 951.722 646 T 1.000** 951.722 647 T 1.000** 951.722 648 S 1.000** 951.722 649 P 1.000** 951.722 650 S 1.000** 951.722 651 V 1.000** 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1.000** 951.722 743 Y 1.000** 951.722 744 V 1.000** 951.722 745 E 1.000** 951.722 746 L 1.000** 951.722 747 T 1.000** 951.722 748 I 1.000** 951.722 749 G 1.000** 951.722 750 E 1.000** 951.722 751 G 1.000** 951.722 752 N 1.000** 951.722 753 S 1.000** 951.722 754 T 1.000** 951.722 755 A 1.000** 951.722 756 D 1.000** 951.722 757 T 1.000** 951.722 758 A 1.000** 951.722 759 S 1.000** 951.722 760 P 1.000** 951.722 761 G 1.000** 951.722 762 S 1.000** 951.722 763 P 1.000** 951.722 764 W 1.000** 951.722 765 L 1.000** 951.722 766 A 1.000** 951.722 767 D 1.000** 951.722 768 T 1.000** 951.722 769 W 1.000** 951.722 770 R 1.000** 951.722 771 D 1.000** 951.722 772 R 1.000** 951.722 773 F 1.000** 951.722 774 Q 1.000** 951.722 775 K 1.000** 951.722 776 M 1.000** 951.722 777 L 1.000** 951.722 778 Q 1.000** 951.722 779 R 1.000** 951.722 780 A 1.000** 951.722 781 E 1.000** 951.722 782 S 1.000** 951.722 783 R 1.000** 951.722 784 L 1.000** 951.722 785 H 1.000** 951.722 786 P 1.000** 951.722 787 S 1.000** 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1.000** 951.722 879 P 1.000** 951.722 880 G 1.000** 951.722 881 I 1.000** 951.722 882 A 1.000** 951.722 883 A 1.000** 951.722 884 V 1.000** 951.722 885 A 1.000** 951.722 886 G 1.000** 951.722 887 I 1.000** 951.722 888 T 1.000** 951.722 889 Q 1.000** 951.722 890 M 1.000** 951.722 891 D 1.000** 951.722 892 E 1.000** 951.722 893 P 1.000** 951.722 894 V 1.000** 951.722 895 G 1.000** 951.722 896 E 1.000** 951.722 897 L 1.000** 951.722 898 L 1.000** 951.722 899 D 1.000** 951.722 900 R 1.000** 951.722 901 F 1.000** 951.722 902 E 1.000** 951.722 903 Q 1.000** 951.722 904 A 1.000** 951.722 905 A 1.000** 951.722 906 I 1.000** 951.722 907 D 1.000** 951.722 908 E 1.000** 951.722 909 V 1.000** 951.722 910 L 1.000** 951.722 911 A 1.000** 951.722 912 G 1.000** 951.722 913 G 1.000** 951.722 914 A 1.000** 951.722 915 E 1.000** 951.722 916 P 1.000** 951.722 917 V 1.000** 951.722 918 V 1.000** 951.722 919 V 1.000** 951.722 920 M 1.000** 951.722 921 S 1.000** 951.722 922 R 1.000** 951.722 923 R 1.000** 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1187 A 1.000** 951.722 1188 E 1.000** 951.722 1189 L 1.000** 951.722 1190 T 1.000** 951.722 1191 G 1.000** 951.722 1192 P 1.000** 951.722 1193 V 1.000** 951.722 1194 R 1.000** 951.722 1195 A 1.000** 951.722 1196 G 1.000** 951.722 1197 G 1.000** 951.722 1198 A 1.000** 951.722 1199 I 1.000** 951.722 1200 S 1.000** 951.722 1201 E 1.000** 951.722 1202 N 1.000** 951.722 1203 A 1.000** 951.722 1204 T 1.000** 951.722 1205 D 1.000** 951.722 1206 T 1.000** 951.722 1207 P 1.000** 951.722 1208 R 1.000** 951.722 1209 R 1.000** 951.722 1210 R 1.000** 951.722 1211 R 1.000** 951.722 1212 R 1.000** 951.722 1213 D 1.000** 951.722 1214 V 1.000** 951.722 1215 T 1.000** 951.722 1216 L 1.000** 951.722 1217 T 1.000** 951.722 1218 A 1.000** 951.722 1219 P 1.000** 951.722 1220 I 1.000** 951.722 1221 D 1.000** 951.722 1222 M 1.000** 951.722 1223 R 1.000** 951.722 1224 P 1.000** 951.722 1225 F 1.000** 951.722 1226 A 1.000** 951.722 1227 V 1.000** 951.722 1228 V 1.000** 951.722 1229 S 1.000** 951.722 1230 G 1.000** 951.722 1231 D 1.000** 951.722 1232 H 1.000** 951.722 1233 N 1.000** 951.722 1234 P 1.000** 951.722 1235 I 1.000** 951.722 1236 H 1.000** 951.722 1237 T 1.000** 951.722 1238 D 1.000** 951.722 1239 R 1.000** 951.722 1240 T 1.000** 951.722 1241 A 1.000** 951.722 1242 A 1.000** 951.722 1243 L 1.000** 951.722 1244 L 1.000** 951.722 1245 A 1.000** 951.722 1246 G 1.000** 951.722 1247 L 1.000** 951.722 1248 E 1.000** 951.722 1249 S 1.000** 951.722 1250 P 1.000** 951.722 1251 I 1.000** 951.722 1252 V 1.000** 951.722 1253 H 1.000** 951.722 1254 G 1.000** 951.722 1255 M 1.000** 951.722 1256 W 1.000** 951.722 1257 L 1.000** 951.722 1258 S 1.000** 951.722 1259 A 1.000** 951.722 1260 A 1.000** 951.722 1261 A 1.000** 951.722 1262 Q 1.000** 951.722 1263 H 1.000** 951.722 1264 V 1.000** 951.722 1265 V 1.000** 951.722 1266 M 1.000** 951.722 1267 A 1.000** 951.722 1268 T 1.000** 951.722 1269 D 1.000** 951.722 1270 G 1.000** 951.722 1271 Q 1.000** 951.722 1272 A 1.000** 951.722 1273 R 1.000** 951.722 1274 P 1.000** 951.722 1275 A 1.000** 951.722 1276 A 1.000** 951.722 1277 R 1.000** 951.722 1278 L 1.000** 951.722 1279 I 1.000** 951.722 1280 G 1.000** 951.722 1281 W 1.000** 951.722 1282 T 1.000** 951.722 1283 A 1.000** 951.722 1284 R 1.000** 951.722 1285 F 1.000** 951.722 1286 L 1.000** 951.722 1287 G 1.000** 951.722 1288 M 1.000** 951.722 1289 A 1.000** 951.722 1290 H 1.000** 951.722 1291 P 1.000** 951.722 1292 G 1.000** 951.722 1293 D 1.000** 951.722 1294 K 1.000** 951.722 1295 V 1.000** 951.722 1296 D 1.000** 951.722 1297 F 1.000** 951.722 1298 R 1.000** 951.722 1299 V 1.000** 951.722 1300 D 1.000** 951.722 1301 R 1.000** 951.722 1302 I 1.000** 951.722 1303 G 1.000** 951.722 1304 I 1.000** 951.722 1305 D 1.000** 951.722 1306 Q 1.000** 951.722 1307 G 1.000** 951.722 1308 A 1.000** 951.722 1309 E 1.000** 951.722 1310 I 1.000** 951.722 1311 L 1.000** 951.722 1312 E 1.000** 951.722 1313 V 1.000** 951.722 1314 S 1.000** 951.722 1315 A 1.000** 951.722 1316 R 1.000** 951.722 1317 I 1.000** 951.722 1318 S 1.000** 951.722 1319 S 1.000** 951.722 1320 G 1.000** 951.722 1321 L 1.000** 951.722 1322 V 1.000** 951.722 1323 M 1.000** 951.722 1324 S 1.000** 951.722 1325 A 1.000** 951.722 1326 T 1.000** 951.722 1327 A 1.000** 951.722 1328 R 1.000** 951.722 1329 L 1.000** 951.722 1330 A 1.000** 951.722 1331 A 1.000** 951.722 1332 P 1.000** 951.722 1333 K 1.000** 951.722 1334 T 1.000** 951.722 1335 V 1.000** 951.722 1336 Y 1.000** 951.722 1337 A 1.000** 951.722 1338 F 1.000** 951.722 1339 P 1.000** 951.722 1340 G 1.000** 951.722 1341 Q 1.000** 951.722 1342 G 1.000** 951.722 1343 I 1.000** 951.722 1344 Q 1.000** 951.722 1345 H 1.000** 951.722 1346 K 1.000** 951.722 1347 G 1.000** 951.722 1348 M 1.000** 951.722 1349 G 1.000** 951.722 1350 M 1.000** 951.722 1351 D 1.000** 951.722 1352 V 1.000** 951.722 1353 R 1.000** 951.722 1354 A 1.000** 951.722 1355 R 1.000** 951.722 1356 S 1.000** 951.722 1357 K 1.000** 951.722 1358 A 1.000** 951.722 1359 A 1.000** 951.722 1360 R 1.000** 951.722 1361 R 1.000** 951.722 1362 V 1.000** 951.722 1363 W 1.000** 951.722 1364 D 1.000** 951.722 1365 D 1.000** 951.722 1366 A 1.000** 951.722 1367 D 1.000** 951.722 1368 K 1.000** 951.722 1369 F 1.000** 951.722 1370 T 1.000** 951.722 1371 R 1.000** 951.722 1372 S 1.000** 951.722 1373 G 1.000** 951.722 1374 L 1.000** 951.722 1375 G 1.000** 951.722 1376 F 1.000** 951.722 1377 S 1.000** 951.722 1378 V 1.000** 951.722 1379 L 1.000** 951.722 1380 H 1.000** 951.722 1381 V 1.000** 951.722 1382 V 1.000** 951.722 1383 R 1.000** 951.722 1384 D 1.000** 951.722 1385 N 1.000** 951.722 1386 P 1.000** 951.722 1387 T 1.000** 951.722 1388 N 1.000** 951.722 1389 I 1.000** 951.722 1390 T 1.000** 951.722 1391 A 1.000** 951.722 1392 N 1.000** 951.722 1393 G 1.000** 951.722 1394 V 1.000** 951.722 1395 H 1.000** 951.722 1396 Y 1.000** 951.722 1397 H 1.000** 951.722 1398 H 1.000** 951.722 1399 P 1.000** 951.722 1400 D 1.000** 951.722 1401 G 1.000** 951.722 1402 V 1.000** 951.722 1403 L 1.000** 951.722 1404 Y 1.000** 951.722 1405 L 1.000** 951.722 1406 T 1.000** 951.722 1407 Q 1.000** 951.722 1408 F 1.000** 951.722 1409 T 1.000** 951.722 1410 Q 1.000** 951.722 1411 V 1.000** 951.722 1412 A 1.000** 951.722 1413 M 1.000** 951.722 1414 A 1.000** 951.722 1415 T 1.000** 951.722 1416 V 1.000** 951.722 1417 A 1.000** 951.722 1418 V 1.000** 951.722 1419 A 1.000** 951.722 1420 Q 1.000** 951.722 1421 V 1.000** 951.722 1422 A 1.000** 951.722 1423 E 1.000** 951.722 1424 M 1.000** 951.722 1425 R 1.000** 951.722 1426 E 1.000** 951.722 1427 Q 1.000** 951.722 1428 G 1.000** 951.722 1429 A 1.000** 951.722 1430 F 1.000** 951.722 1431 V 1.000** 951.722 1432 E 1.000** 951.722 1433 G 1.000** 951.722 1434 A 1.000** 951.722 1435 I 1.000** 951.722 1436 A 1.000** 951.722 1437 C 1.000** 951.722 1438 G 1.000** 951.722 1439 H 1.000** 951.722 1440 S 1.000** 951.722 1441 V 1.000** 951.722 1442 G 1.000** 951.722 1443 E 1.000** 951.722 1444 Y 1.000** 951.722 1445 T 1.000** 951.722 1446 A 1.000** 951.722 1447 L 1.000** 951.722 1448 A 1.000** 951.722 1449 C 1.000** 951.722 1450 V 1.000** 951.722 1451 M 1.000** 951.722 1452 G 1.000** 951.722 1453 V 1.000** 951.722 1454 Y 1.000** 951.722 1455 E 1.000** 951.722 1456 L 1.000** 951.722 1457 E 1.000** 951.722 1458 A 1.000** 951.722 1459 L 1.000** 951.722 1460 L 1.000** 951.722 1461 E 1.000** 951.722 1462 T 1.000** 951.722 1463 V 1.000** 951.722 1464 F 1.000** 951.722 1465 H 1.000** 951.722 1466 R 1.000** 951.722 1467 G 1.000** 951.722 1468 S 1.000** 951.722 1469 K 1.000** 951.722 1470 M 1.000** 951.722 1471 H 1.000** 951.722 1472 D 1.000** 951.722 1473 I 1.000** 951.722 1474 V 1.000** 951.722 1475 L 1.000** 951.722 1476 R 1.000** 951.722 1477 D 1.000** 951.722 1478 E 1.000** 951.722 1479 L 1.000** 951.722 1480 G 1.000** 951.722 1481 R 1.000** 951.722 1482 S 1.000** 951.722 1483 N 1.000** 951.722 1484 Y 1.000** 951.722 1485 R 1.000** 951.722 1486 L 1.000** 951.722 1487 A 1.000** 951.722 1488 A 1.000** 951.722 1489 I 1.000** 951.722 1490 R 1.000** 951.722 1491 P 1.000** 951.722 1492 S 1.000** 951.722 1493 Q 1.000** 951.722 1494 I 1.000** 951.722 1495 G 1.000** 951.722 1496 L 1.000** 951.722 1497 P 1.000** 951.722 1498 D 1.000** 951.722 1499 D 1.000** 951.722 1500 E 1.000** 951.722 1501 V 1.000** 951.722 1502 P 1.000** 951.722 1503 A 1.000** 951.722 1504 F 1.000** 951.722 1505 V 1.000** 951.722 1506 R 1.000** 951.722 1507 G 1.000** 951.722 1508 I 1.000** 951.722 1509 A 1.000** 951.722 1510 E 1.000** 951.722 1511 S 1.000** 951.722 1512 T 1.000** 951.722 1513 G 1.000** 951.722 1514 E 1.000** 951.722 1515 F 1.000** 951.722 1516 L 1.000** 951.722 1517 E 1.000** 951.722 1518 I 1.000** 951.722 1519 V 1.000** 951.722 1520 N 1.000** 951.722 1521 F 1.000** 951.722 1522 N 1.000** 951.722 1523 L 1.000** 951.722 1524 R 1.000** 951.722 1525 G 1.000** 951.722 1526 S 1.000** 951.722 1527 Q 1.000** 951.722 1528 Y 1.000** 951.722 1529 A 1.000** 951.722 1530 I 1.000** 951.722 1531 A 1.000** 951.722 1532 G 1.000** 951.722 1533 T 1.000** 951.722 1534 V 1.000** 951.722 1535 H 1.000** 951.722 1536 G 1.000** 951.722 1537 L 1.000** 951.722 1538 E 1.000** 951.722 1539 A 1.000** 951.722 1540 L 1.000** 951.722 1541 E 1.000** 951.722 1542 A 1.000** 951.722 1543 E 1.000** 951.722 1544 V 1.000** 951.722 1545 E 1.000** 951.722 1546 R 1.000** 951.722 1547 R 1.000** 951.722 1548 R 1.000** 951.722 1549 E 1.000** 951.722 1550 L 1.000** 951.722 1551 T 1.000** 951.722 1552 G 1.000** 951.722 1553 G 1.000** 951.722 1554 R 1.000** 951.722 1555 R 1.000** 951.722 1556 S 1.000** 951.722 1557 F 1.000** 951.722 1558 I 1.000** 951.722 1559 L 1.000** 951.722 1560 V 1.000** 951.722 1561 P 1.000** 951.722 1562 G 1.000** 951.722 1563 I 1.000** 951.722 1564 D 1.000** 951.722 1565 V 1.000** 951.722 1566 P 1.000** 951.722 1567 F 1.000** 951.722 1568 H 1.000** 951.722 1569 S 1.000** 951.722 1570 R 1.000** 951.722 1571 V 1.000** 951.722 1572 L 1.000** 951.722 1573 R 1.000** 951.722 1574 V 1.000** 951.722 1575 G 1.000** 951.722 1576 V 1.000** 951.722 1577 A 1.000** 951.722 1578 E 1.000** 951.722 1579 F 1.000** 951.722 1580 R 1.000** 951.722 1581 R 1.000** 951.722 1582 S 1.000** 951.722 1583 L 1.000** 951.722 1584 D 1.000** 951.722 1585 R 1.000** 951.722 1586 V 1.000** 951.722 1587 L 1.000** 951.722 1588 P 1.000** 951.722 1589 Q 1.000** 951.722 1590 D 1.000** 951.722 1591 Q 1.000** 951.722 1592 D 1.000** 951.722 1593 P 1.000** 951.722 1594 D 1.000** 951.722 1595 W 1.000** 951.722 1596 I 1.000** 951.722 1597 I 1.000** 951.722 1598 G 1.000** 951.722 1599 R 1.000** 951.722 1600 Y 1.000** 951.722 1601 I 1.000** 951.722 1602 P 1.000** 951.722 1603 N 1.000** 951.722 1604 L 1.000** 951.722 1605 V 1.000** 951.722 1606 P 1.000** 951.722 1607 R 1.000** 951.722 1608 P 1.000** 951.722 1609 F 1.000** 951.722 1610 T 1.000** 951.722 1611 L 1.000** 951.722 1612 A 1.000** 951.722 1613 R 1.000** 951.722 1614 D 1.000** 951.722 1615 F 1.000** 951.722 1616 I 1.000** 951.722 1617 Q 1.000** 951.722 1618 E 1.000** 951.722 1619 I 1.000** 951.722 1620 R 1.000** 951.722 1621 D 1.000** 951.722 1622 L 1.000** 951.722 1623 V 1.000** 951.722 1624 P 1.000** 951.722 1625 A 1.000** 951.722 1626 E 1.000** 951.722 1627 P 1.000** 951.722 1628 L 1.000** 951.722 1629 D 1.000** 951.722 1630 D 1.000** 951.722 1631 I 1.000** 951.722 1632 L 1.000** 951.722 1633 A 1.000** 951.722 1634 D 1.000** 951.722 1635 Y 1.000** 951.722 1636 D 1.000** 951.722 1637 T 1.000** 951.722 1638 W 1.000** 951.722 1639 R 1.000** 951.722 1640 R 1.000** 951.722 1641 E 1.000** 951.722 1642 R 1.000** 951.722 1643 P 1.000** 951.722 1644 S 1.000** 951.722 1645 E 1.000** 951.722 1646 M 1.000** 951.722 1647 A 1.000** 951.722 1648 R 1.000** 951.722 1649 R 1.000** 951.722 1650 V 1.000** 951.722 1651 L 1.000** 951.722 1652 I 1.000** 951.722 1653 E 1.000** 951.722 1654 L 1.000** 951.722 1655 L 1.000** 951.722 1656 A 1.000** 951.722 1657 W 1.000** 951.722 1658 Q 1.000** 951.722 1659 F 1.000** 951.722 1660 A 1.000** 951.722 1661 S 1.000** 951.722 1662 P 1.000** 951.722 1663 V 1.000** 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1707 L 1.000** 951.722 1708 P 1.000** 951.722 1709 E 1.000** 951.722 1710 Y 1.000** 951.722 1711 S 1.000** 951.722 1712 H 1.000** 951.722 1713 N 1.000** 951.722 1714 T 1.000** 951.722 1715 V 1.000** 951.722 1716 E 1.000** 951.722 1717 V 1.000** 951.722 1718 L 1.000** 951.722 1719 N 1.000** 951.722 1720 V 1.000** 951.722 1721 E 1.000** 951.722 1722 R 1.000** 951.722 1723 D 1.000** 951.722 1724 A 1.000** 951.722 1725 A 1.000** 951.722 1726 V 1.000** 951.722 1727 L 1.000** 951.722 1728 F 1.000** 951.722 1729 A 1.000** 951.722 1730 T 1.000** 951.722 1731 D 1.000** 951.722 1732 T 1.000** 951.722 1733 D 1.000** 951.722 1734 P 1.000** 951.722 1735 E 1.000** 951.722 1736 L 1.000** 951.722 1737 E 1.000** 951.722 1738 P 1.000** 951.722 1739 E 1.000** 951.722 1740 P 1.000** 951.722 1741 E 1.000** 951.722 1742 N 1.000** 951.722 1743 V 1.000** 951.722 1744 S 1.000** 951.722 1745 D 1.000** 951.722 1746 A 1.000** 951.722 1747 S 1.000** 951.722 1748 A 1.000** 951.722 1749 A 1.000** 951.722 1750 L 1.000** 951.722 1751 P 1.000** 951.722 1752 A 1.000** 951.722 1753 E 1.000** 951.722 1754 S 1.000** 951.722 1755 A 1.000** 951.722 1756 L 1.000** 951.722 1757 A 1.000** 951.722 1758 L 1.000** 951.722 1759 G 1.000** 951.722 1760 T 1.000** 951.722 1761 V 1.000** 951.722 1762 A 1.000** 951.722 1763 P 1.000** 951.722 1764 A 1.000** 951.722 1765 P 1.000** 951.722 1766 V 1.000** 951.722 1767 V 1.000** 951.722 1768 P 1.000** 951.722 1769 S 1.000** 951.722 1770 G 1.000** 951.722 1771 P 1.000** 951.722 1772 R 1.000** 951.722 1773 P 1.000** 951.722 1774 E 1.000** 951.722 1775 D 1.000** 951.722 1776 I 1.000** 951.722 1777 S 1.000** 951.722 1778 F 1.000** 951.722 1779 G 1.000** 951.722 1780 A 1.000** 951.722 1781 A 1.000** 951.722 1782 D 1.000** 951.722 1783 A 1.000** 951.722 1784 T 1.000** 951.722 1785 L 1.000** 951.722 1786 A 1.000** 951.722 1787 L 1.000** 951.722 1788 I 1.000** 951.722 1789 A 1.000** 951.722 1790 L 1.000** 951.722 1791 S 1.000** 951.722 1792 A 1.000** 951.722 1793 K 1.000** 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1837 E 1.000** 951.722 1838 A 1.000** 951.722 1839 D 1.000** 951.722 1840 L 1.000** 951.722 1841 A 1.000** 951.722 1842 G 1.000** 951.722 1843 L 1.000** 951.722 1844 R 1.000** 951.722 1845 S 1.000** 951.722 1846 Q 1.000** 951.722 1847 V 1.000** 951.722 1848 T 1.000** 951.722 1849 K 1.000** 951.722 1850 L 1.000** 951.722 1851 A 1.000** 951.722 1852 R 1.000** 951.722 1853 T 1.000** 951.722 1854 Y 1.000** 951.722 1855 K 1.000** 951.722 1856 P 1.000** 951.722 1857 Y 1.000** 951.722 1858 G 1.000** 951.722 1859 P 1.000** 951.722 1860 V 1.000** 951.722 1861 L 1.000** 951.722 1862 S 1.000** 951.722 1863 E 1.000** 951.722 1864 L 1.000** 951.722 1865 I 1.000** 951.722 1866 N 1.000** 951.722 1867 D 1.000** 951.722 1868 Q 1.000** 951.722 1869 L 1.000** 951.722 1870 R 1.000** 951.722 1871 S 1.000** 951.722 1872 A 1.000** 951.722 1873 L 1.000** 951.722 1874 G 1.000** 951.722 1875 P 1.000** 951.722 1876 S 1.000** 951.722 1877 G 1.000** 951.722 1878 K 1.000** 951.722 1879 R 1.000** 951.722 1880 P 1.000** 951.722 1881 G 1.000** 951.722 1882 V 1.000** 951.722 1883 I 1.000** 951.722 1884 A 1.000** 951.722 1885 E 1.000** 951.722 1886 R 1.000** 951.722 1887 V 1.000** 951.722 1888 K 1.000** 951.722 1889 K 1.000** 951.722 1890 I 1.000** 951.722 1891 W 1.000** 951.722 1892 E 1.000** 951.722 1893 L 1.000** 951.722 1894 G 1.000** 951.722 1895 D 1.000** 951.722 1896 G 1.000** 951.722 1897 W 1.000** 951.722 1898 V 1.000** 951.722 1899 K 1.000** 951.722 1900 H 1.000** 951.722 1901 V 1.000** 951.722 1902 T 1.000** 951.722 1903 V 1.000** 951.722 1904 E 1.000** 951.722 1905 I 1.000** 951.722 1906 A 1.000** 951.722 1907 L 1.000** 951.722 1908 G 1.000** 951.722 1909 T 1.000** 951.722 1910 R 1.000** 951.722 1911 E 1.000** 951.722 1912 G 1.000** 951.722 1913 T 1.000** 951.722 1914 S 1.000** 951.722 1915 V 1.000** 951.722 1916 R 1.000** 951.722 1917 G 1.000** 951.722 1918 G 1.000** 951.722 1919 P 1.000** 951.722 1920 L 1.000** 951.722 1921 G 1.000** 951.722 1922 N 1.000** 951.722 1923 L 1.000** 951.722 1924 N 1.000** 951.722 1925 E 1.000** 951.722 1926 G 1.000** 951.722 1927 A 1.000** 951.722 1928 L 1.000** 951.722 1929 A 1.000** 951.722 1930 D 1.000** 951.722 1931 V 1.000** 951.722 1932 D 1.000** 951.722 1933 S 1.000** 951.722 1934 V 1.000** 951.722 1935 D 1.000** 951.722 1936 K 1.000** 951.722 1937 A 1.000** 951.722 1938 V 1.000** 951.722 1939 D 1.000** 951.722 1940 A 1.000** 951.722 1941 A 1.000** 951.722 1942 V 1.000** 951.722 1943 A 1.000** 951.722 1944 S 1.000** 951.722 1945 V 1.000** 951.722 1946 A 1.000** 951.722 1947 A 1.000** 951.722 1948 R 1.000** 951.722 1949 H 1.000** 951.722 1950 G 1.000** 951.722 1951 V 1.000** 951.722 1952 V 1.000** 951.722 1953 V 1.000** 951.722 1954 A 1.000** 951.722 1955 L 1.000** 951.722 1956 P 1.000** 951.722 1957 S 1.000** 951.722 1958 A 1.000** 951.722 1959 G 1.000** 951.722 1960 S 1.000** 951.722 1961 G 1.000** 951.722 1962 G 1.000** 951.722 1963 S 1.000** 951.722 1964 A 1.000** 951.722 1965 T 1.000** 951.722 1966 V 1.000** 951.722 1967 D 1.000** 951.722 1968 V 1.000** 951.722 1969 A 1.000** 951.722 1970 A 1.000** 951.722 1971 L 1.000** 951.722 1972 S 1.000** 951.722 1973 E 1.000** 951.722 1974 F 1.000** 951.722 1975 T 1.000** 951.722 1976 D 1.000** 951.722 1977 Q 1.000** 951.722 1978 I 1.000** 951.722 1979 T 1.000** 951.722 1980 G 1.000** 951.722 1981 H 1.000** 951.722 1982 D 1.000** 951.722 1983 G 1.000** 951.722 1984 V 1.000** 951.722 1985 L 1.000** 951.722 1986 A 1.000** 951.722 1987 S 1.000** 951.722 1988 A 1.000** 951.722 1989 A 1.000** 951.722 1990 R 1.000** 951.722 1991 L 1.000** 951.722 1992 V 1.000** 951.722 1993 L 1.000** 951.722 1994 G 1.000** 951.722 1995 Q 1.000** 951.722 1996 L 1.000** 951.722 1997 G 1.000** 951.722 1998 L 1.000** 951.722 1999 D 1.000** 951.722 2000 G 1.000** 951.722 2001 P 1.000** 951.722 2002 V 1.000** 951.722 2003 T 1.000** 951.722 2004 A 1.000** 951.722 2005 A 1.000** 951.722 2006 P 1.000** 951.722 2007 A 1.000** 951.722 2008 T 1.000** 951.722 2009 T 1.000** 951.722 2010 D 1.000** 951.722 2011 T 1.000** 951.722 2012 G 1.000** 951.722 2013 L 1.000** 951.722 2014 I 1.000** 951.722 2015 D 1.000** 951.722 2016 L 1.000** 951.722 2017 V 1.000** 951.722 2018 T 1.000** 951.722 2019 A 1.000** 951.722 2020 E 1.000** 951.722 2021 L 1.000** 951.722 2022 S 1.000** 951.722 2023 T 1.000** 951.722 2024 D 1.000** 951.722 2025 W 1.000** 951.722 2026 P 1.000** 951.722 2027 R 1.000** 951.722 2028 L 1.000** 951.722 2029 V 1.000** 951.722 2030 A 1.000** 951.722 2031 P 1.000** 951.722 2032 V 1.000** 951.722 2033 F 1.000** 951.722 2034 D 1.000** 951.722 2035 V 1.000** 951.722 2036 K 1.000** 951.722 2037 K 1.000** 951.722 2038 A 1.000** 951.722 2039 V 1.000** 951.722 2040 V 1.000** 951.722 2041 F 1.000** 951.722 2042 D 1.000** 951.722 2043 D 1.000** 951.722 2044 R 1.000** 951.722 2045 W 1.000** 951.722 2046 A 1.000** 951.722 2047 S 1.000** 951.722 2048 A 1.000** 951.722 2049 R 1.000** 951.722 2050 E 1.000** 951.722 2051 D 1.000** 951.722 2052 L 1.000** 951.722 2053 V 1.000** 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2097 R 1.000** 951.722 2098 Q 1.000** 951.722 2099 I 1.000** 951.722 2100 H 1.000** 951.722 2101 A 1.000** 951.722 2102 S 1.000** 951.722 2103 L 1.000** 951.722 2104 Y 1.000** 951.722 2105 G 1.000** 951.722 2106 R 1.000** 951.722 2107 I 1.000** 951.722 2108 A 1.000** 951.722 2109 A 1.000** 951.722 2110 G 1.000** 951.722 2111 A 1.000** 951.722 2112 Q 1.000** 951.722 2113 N 1.000** 951.722 2114 P 1.000** 951.722 2115 D 1.000** 951.722 2116 R 1.000** 951.722 2117 G 1.000** 951.722 2118 L 1.000** 951.722 2119 Y 1.000** 951.722 2120 S 1.000** 951.722 2121 S 1.000** 951.722 2122 E 1.000** 951.722 2123 I 1.000** 951.722 2124 A 1.000** 951.722 2125 V 1.000** 951.722 2126 V 1.000** 951.722 2127 T 1.000** 951.722 2128 G 1.000** 951.722 2129 A 1.000** 951.722 2130 S 1.000** 951.722 2131 K 1.000** 951.722 2132 G 1.000** 951.722 2133 S 1.000** 951.722 2134 I 1.000** 951.722 2135 A 1.000** 951.722 2136 A 1.000** 951.722 2137 S 1.000** 951.722 2138 V 1.000** 951.722 2139 A 1.000** 951.722 2140 A 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2487 G 1.000** 951.722 2488 L 1.000** 951.722 2489 I 1.000** 951.722 2490 R 1.000** 951.722 2491 W 1.000** 951.722 2492 E 1.000** 951.722 2493 D 1.000** 951.722 2494 D 1.000** 951.722 2495 P 1.000** 951.722 2496 Q 1.000** 951.722 2497 P 1.000** 951.722 2498 G 1.000** 951.722 2499 W 1.000** 951.722 2500 Y 1.000** 951.722 2501 D 1.000** 951.722 2502 T 1.000** 951.722 2503 E 1.000** 951.722 2504 S 1.000** 951.722 2505 G 1.000** 951.722 2506 E 1.000** 951.722 2507 L 1.000** 951.722 2508 V 1.000** 951.722 2509 D 1.000** 951.722 2510 E 1.000** 951.722 2511 S 1.000** 951.722 2512 E 1.000** 951.722 2513 L 1.000** 951.722 2514 V 1.000** 951.722 2515 E 1.000** 951.722 2516 R 1.000** 951.722 2517 Y 1.000** 951.722 2518 H 1.000** 951.722 2519 D 1.000** 951.722 2520 T 1.000** 951.722 2521 V 1.000** 951.722 2522 V 1.000** 951.722 2523 Q 1.000** 951.722 2524 R 1.000** 951.722 2525 C 1.000** 951.722 2526 G 1.000** 951.722 2527 I 1.000** 951.722 2528 R 1.000** 951.722 2529 E 1.000** 951.722 2530 F 1.000** 951.722 2531 V 1.000** 951.722 2532 D 1.000** 951.722 2533 D 1.000** 951.722 2534 G 1.000** 951.722 2535 T 1.000** 951.722 2536 I 1.000** 951.722 2537 D 1.000** 951.722 2538 P 1.000** 951.722 2539 D 1.000** 951.722 2540 H 1.000** 951.722 2541 A 1.000** 951.722 2542 Y 1.000** 951.722 2543 P 1.000** 951.722 2544 L 1.000** 951.722 2545 L 1.000** 951.722 2546 V 1.000** 951.722 2547 S 1.000** 951.722 2548 V 1.000** 951.722 2549 F 1.000** 951.722 2550 L 1.000** 951.722 2551 D 1.000** 951.722 2552 K 1.000** 951.722 2553 D 1.000** 951.722 2554 F 1.000** 951.722 2555 A 1.000** 951.722 2556 F 1.000** 951.722 2557 V 1.000** 951.722 2558 V 1.000** 951.722 2559 S 1.000** 951.722 2560 S 1.000** 951.722 2561 E 1.000** 951.722 2562 A 1.000** 951.722 2563 D 1.000** 951.722 2564 A 1.000** 951.722 2565 R 1.000** 951.722 2566 A 1.000** 951.722 2567 F 1.000** 951.722 2568 V 1.000** 951.722 2569 E 1.000** 951.722 2570 F 1.000** 951.722 2571 D 1.000** 951.722 2572 P 1.000** 951.722 2573 E 1.000** 951.722 2574 H 1.000** 951.722 2575 T 1.000** 951.722 2576 V 1.000** 951.722 2577 I 1.000** 951.722 2578 R 1.000** 951.722 2579 P 1.000** 951.722 2580 V 1.000** 951.722 2581 P 1.000** 951.722 2582 D 1.000** 951.722 2583 S 1.000** 951.722 2584 S 1.000** 951.722 2585 D 1.000** 951.722 2586 W 1.000** 951.722 2587 Q 1.000** 951.722 2588 V 1.000** 951.722 2589 I 1.000** 951.722 2590 R 1.000** 951.722 2591 K 1.000** 951.722 2592 A 1.000** 951.722 2593 G 1.000** 951.722 2594 T 1.000** 951.722 2595 E 1.000** 951.722 2596 I 1.000** 951.722 2597 R 1.000** 951.722 2598 V 1.000** 951.722 2599 P 1.000** 951.722 2600 R 1.000** 951.722 2601 K 1.000** 951.722 2602 M 1.000** 951.722 2603 K 1.000** 951.722 2604 L 1.000** 951.722 2605 S 1.000** 951.722 2606 R 1.000** 951.722 2607 V 1.000** 951.722 2608 V 1.000** 951.722 2609 G 1.000** 951.722 2610 G 1.000** 951.722 2611 Q 1.000** 951.722 2612 I 1.000** 951.722 2613 P 1.000** 951.722 2614 T 1.000** 951.722 2615 G 1.000** 951.722 2616 F 1.000** 951.722 2617 D 1.000** 951.722 2618 P 1.000** 951.722 2619 T 1.000** 951.722 2620 V 1.000** 951.722 2621 W 1.000** 951.722 2622 G 1.000** 951.722 2623 I 1.000** 951.722 2624 S 1.000** 951.722 2625 P 1.000** 951.722 2626 D 1.000** 951.722 2627 M 1.000** 951.722 2628 V 1.000** 951.722 2629 S 1.000** 951.722 2630 S 1.000** 951.722 2631 I 1.000** 951.722 2632 D 1.000** 951.722 2633 R 1.000** 951.722 2634 V 1.000** 951.722 2635 A 1.000** 951.722 2636 V 1.000** 951.722 2637 W 1.000** 951.722 2638 S 1.000** 951.722 2639 I 1.000** 951.722 2640 V 1.000** 951.722 2641 A 1.000** 951.722 2642 T 1.000** 951.722 2643 V 1.000** 951.722 2644 D 1.000** 951.722 2645 A 1.000** 951.722 2646 F 1.000** 951.722 2647 L 1.000** 951.722 2648 S 1.000** 951.722 2649 A 1.000** 951.722 2650 G 1.000** 951.722 2651 F 1.000** 951.722 2652 T 1.000** 951.722 2653 P 1.000** 951.722 2654 A 1.000** 951.722 2655 E 1.000** 951.722 2656 V 1.000** 951.722 2657 M 1.000** 951.722 2658 R 1.000** 951.722 2659 Y 1.000** 951.722 2660 V 1.000** 951.722 2661 H 1.000** 951.722 2662 P 1.000** 951.722 2663 S 1.000** 951.722 2664 L 1.000** 951.722 2665 V 1.000** 951.722 2666 A 1.000** 951.722 2667 N 1.000** 951.722 2668 T 1.000** 951.722 2669 M 1.000** 951.722 2670 G 1.000** 951.722 2671 T 1.000** 951.722 2672 G 1.000** 951.722 2673 M 1.000** 951.722 2674 G 1.000** 951.722 2675 G 1.000** 951.722 2676 G 1.000** 951.722 2677 T 1.000** 951.722 2678 S 1.000** 951.722 2679 I 1.000** 951.722 2680 Q 1.000** 951.722 2681 R 1.000** 951.722 2682 L 1.000** 951.722 2683 Y 1.000** 951.722 2684 H 1.000** 951.722 2685 S 1.000** 951.722 2686 S 1.000** 951.722 2687 L 1.000** 951.722 2688 L 1.000** 951.722 2689 G 1.000** 951.722 2690 R 1.000** 951.722 2691 N 1.000** 951.722 2692 K 1.000** 951.722 2693 P 1.000** 951.722 2694 N 1.000** 951.722 2695 D 1.000** 951.722 2696 I 1.000** 951.722 2697 F 1.000** 951.722 2698 Q 1.000** 951.722 2699 E 1.000** 951.722 2700 I 1.000** 951.722 2701 L 1.000** 951.722 2702 P 1.000** 951.722 2703 N 1.000** 951.722 2704 I 1.000** 951.722 2705 V 1.000** 951.722 2706 A 1.000** 951.722 2707 A 1.000** 951.722 2708 H 1.000** 951.722 2709 V 1.000** 951.722 2710 V 1.000** 951.722 2711 Q 1.000** 951.722 2712 S 1.000** 951.722 2713 Y 1.000** 951.722 2714 I 1.000** 951.722 2715 G 1.000** 951.722 2716 S 1.000** 951.722 2717 Y 1.000** 951.722 2718 G 1.000** 951.722 2719 S 1.000** 951.722 2720 M 1.000** 951.722 2721 I 1.000** 951.722 2722 H 1.000** 951.722 2723 P 1.000** 951.722 2724 V 1.000** 951.722 2725 A 1.000** 951.722 2726 A 1.000** 951.722 2727 C 1.000** 951.722 2728 A 1.000** 951.722 2729 T 1.000** 951.722 2730 A 1.000** 951.722 2731 A 1.000** 951.722 2732 V 1.000** 951.722 2733 S 1.000** 951.722 2734 V 1.000** 951.722 2735 E 1.000** 951.722 2736 E 1.000** 951.722 2737 G 1.000** 951.722 2738 V 1.000** 951.722 2739 D 1.000** 951.722 2740 K 1.000** 951.722 2741 I 1.000** 951.722 2742 R 1.000** 951.722 2743 L 1.000** 951.722 2744 G 1.000** 951.722 2745 K 1.000** 951.722 2746 A 1.000** 951.722 2747 E 1.000** 951.722 2748 L 1.000** 951.722 2749 V 1.000** 951.722 2750 V 1.000** 951.722 2751 A 1.000** 951.722 2752 G 1.000** 951.722 2753 G 1.000** 951.722 2754 I 1.000** 951.722 2755 D 1.000** 951.722 2756 D 1.000** 951.722 2757 L 1.000** 951.722 2758 T 1.000** 951.722 2759 L 1.000** 951.722 2760 E 1.000** 951.722 2761 G 1.000** 951.722 2762 I 1.000** 951.722 2763 I 1.000** 951.722 2764 G 1.000** 951.722 2765 F 1.000** 951.722 2766 G 1.000** 951.722 2767 D 1.000** 951.722 2768 M 1.000** 951.722 2769 A 1.000** 951.722 2770 A 1.000** 951.722 2771 T 1.000** 951.722 2772 A 1.000** 951.722 2773 D 1.000** 951.722 2774 T 1.000** 951.722 2775 A 1.000** 951.722 2776 M 1.000** 951.722 2777 M 1.000** 951.722 2778 R 1.000** 951.722 2779 G 1.000** 951.722 2780 R 1.000** 951.722 2781 G 1.000** 951.722 2782 I 1.000** 951.722 2783 H 1.000** 951.722 2784 D 1.000** 951.722 2785 S 1.000** 951.722 2786 K 1.000** 951.722 2787 F 1.000** 951.722 2788 S 1.000** 951.722 2789 R 1.000** 951.722 2790 P 1.000** 951.722 2791 N 1.000** 951.722 2792 D 1.000** 951.722 2793 R 1.000** 951.722 2794 R 1.000** 951.722 2795 R 1.000** 951.722 2796 L 1.000** 951.722 2797 G 1.000** 951.722 2798 F 1.000** 951.722 2799 V 1.000** 951.722 2800 E 1.000** 951.722 2801 A 1.000** 951.722 2802 Q 1.000** 951.722 2803 G 1.000** 951.722 2804 G 1.000** 951.722 2805 G 1.000** 951.722 2806 T 1.000** 951.722 2807 I 1.000** 951.722 2808 L 1.000** 951.722 2809 L 1.000** 951.722 2810 A 1.000** 951.722 2811 R 1.000** 951.722 2812 G 1.000** 951.722 2813 D 1.000** 951.722 2814 L 1.000** 951.722 2815 A 1.000** 951.722 2816 L 1.000** 951.722 2817 K 1.000** 951.722 2818 M 1.000** 951.722 2819 G 1.000** 951.722 2820 L 1.000** 951.722 2821 P 1.000** 951.722 2822 V 1.000** 951.722 2823 F 1.000** 951.722 2824 A 1.000** 951.722 2825 V 1.000** 951.722 2826 V 1.000** 951.722 2827 A 1.000** 951.722 2828 F 1.000** 951.722 2829 A 1.000** 951.722 2830 Q 1.000** 951.722 2831 S 1.000** 951.722 2832 F 1.000** 951.722 2833 G 1.000** 951.722 2834 D 1.000** 951.722 2835 G 1.000** 951.722 2836 V 1.000** 951.722 2837 H 1.000** 951.722 2838 T 1.000** 951.722 2839 S 1.000** 951.722 2840 I 1.000** 951.722 2841 P 1.000** 951.722 2842 A 1.000** 951.722 2843 P 1.000** 951.722 2844 G 1.000** 951.722 2845 L 1.000** 951.722 2846 G 1.000** 951.722 2847 A 1.000** 951.722 2848 L 1.000** 951.722 2849 G 1.000** 951.722 2850 A 1.000** 951.722 2851 G 1.000** 951.722 2852 R 1.000** 951.722 2853 G 1.000** 951.722 2854 G 1.000** 951.722 2855 K 1.000** 951.722 2856 D 1.000** 951.722 2857 S 1.000** 951.722 2858 P 1.000** 951.722 2859 L 1.000** 951.722 2860 V 1.000** 951.722 2861 Q 1.000** 951.722 2862 S 1.000** 951.722 2863 L 1.000** 951.722 2864 A 1.000** 951.722 2865 K 1.000** 951.722 2866 L 1.000** 951.722 2867 G 1.000** 951.722 2868 V 1.000** 951.722 2869 S 1.000** 951.722 2870 A 1.000** 951.722 2871 D 1.000** 951.722 2872 D 1.000** 951.722 2873 I 1.000** 951.722 2874 A 1.000** 951.722 2875 V 1.000** 951.722 2876 I 1.000** 951.722 2877 S 1.000** 951.722 2878 K 1.000** 951.722 2879 H 1.000** 951.722 2880 D 1.000** 951.722 2881 T 1.000** 951.722 2882 S 1.000** 951.722 2883 T 1.000** 951.722 2884 L 1.000** 951.722 2885 A 1.000** 951.722 2886 N 1.000** 951.722 2887 D 1.000** 951.722 2888 P 1.000** 951.722 2889 N 1.000** 951.722 2890 E 1.000** 951.722 2891 T 1.000** 951.722 2892 E 1.000** 951.722 2893 L 1.000** 951.722 2894 H 1.000** 951.722 2895 E 1.000** 951.722 2896 R 1.000** 951.722 2897 L 1.000** 951.722 2898 A 1.000** 951.722 2899 D 1.000** 951.722 2900 A 1.000** 951.722 2901 M 1.000** 951.722 2902 G 1.000** 951.722 2903 R 1.000** 951.722 2904 S 1.000** 951.722 2905 A 1.000** 951.722 2906 G 1.000** 951.722 2907 A 1.000** 951.722 2908 P 1.000** 951.722 2909 L 1.000** 951.722 2910 F 1.000** 951.722 2911 V 1.000** 951.722 2912 V 1.000** 951.722 2913 S 1.000** 951.722 2914 Q 1.000** 951.722 2915 K 1.000** 951.722 2916 S 1.000** 951.722 2917 L 1.000** 951.722 2918 T 1.000** 951.722 2919 G 1.000** 951.722 2920 H 1.000** 951.722 2921 A 1.000** 951.722 2922 K 1.000** 951.722 2923 G 1.000** 951.722 2924 G 1.000** 951.722 2925 A 1.000** 951.722 2926 A 1.000** 951.722 2927 V 1.000** 951.722 2928 F 1.000** 951.722 2929 Q 1.000** 951.722 2930 M 1.000** 951.722 2931 M 1.000** 951.722 2932 G 1.000** 951.722 2933 L 1.000** 951.722 2934 C 1.000** 951.722 2935 Q 1.000** 951.722 2936 M 1.000** 951.722 2937 L 1.000** 951.722 2938 R 1.000** 951.722 2939 D 1.000** 951.722 2940 G 1.000** 951.722 2941 V 1.000** 951.722 2942 I 1.000** 951.722 2943 P 1.000** 951.722 2944 P 1.000** 951.722 2945 N 1.000** 951.722 2946 R 1.000** 951.722 2947 S 1.000** 951.722 2948 L 1.000** 951.722 2949 D 1.000** 951.722 2950 C 1.000** 951.722 2951 V 1.000** 951.722 2952 D 1.000** 951.722 2953 E 1.000** 951.722 2954 E 1.000** 951.722 2955 L 1.000** 951.722 2956 A 1.000** 951.722 2957 G 1.000** 951.722 2958 A 1.000** 951.722 2959 A 1.000** 951.722 2960 H 1.000** 951.722 2961 F 1.000** 951.722 2962 V 1.000** 951.722 2963 W 1.000** 951.722 2964 L 1.000** 951.722 2965 R 1.000** 951.722 2966 D 1.000** 951.722 2967 T 1.000** 951.722 2968 L 1.000** 951.722 2969 R 1.000** 951.722 2970 L 1.000** 951.722 2971 G 1.000** 951.722 2972 E 1.000** 951.722 2973 K 1.000** 951.722 2974 F 1.000** 951.722 2975 P 1.000** 951.722 2976 L 1.000** 951.722 2977 K 1.000** 951.722 2978 A 1.000** 951.722 2979 G 1.000** 951.722 2980 M 1.000** 951.722 2981 L 1.000** 951.722 2982 T 1.000** 951.722 2983 S 1.000** 951.722 2984 L 1.000** 951.722 2985 G 1.000** 951.722 2986 F 1.000** 951.722 2987 G 1.000** 951.722 2988 H 1.000** 951.722 2989 V 1.000** 951.722 2990 S 1.000** 951.722 2991 G 1.000** 951.722 2992 L 1.000** 951.722 2993 V 1.000** 951.722 2994 A 1.000** 951.722 2995 L 1.000** 951.722 2996 V 1.000** 951.722 2997 H 1.000** 951.722 2998 P 1.000** 951.722 2999 Q 1.000** 951.722 3000 A 1.000** 951.722 3001 F 1.000** 951.722 3002 I 1.000** 951.722 3003 A 1.000** 951.722 3004 A 1.000** 951.722 3005 L 1.000** 951.722 3006 D 1.000** 951.722 3007 P 1.000** 951.722 3008 G 1.000** 951.722 3009 Q 1.000** 951.722 3010 R 1.000** 951.722 3011 D 1.000** 951.722 3012 D 1.000** 951.722 3013 Y 1.000** 951.722 3014 Q 1.000** 951.722 3015 R 1.000** 951.722 3016 R 1.000** 951.722 3017 A 1.000** 951.722 3018 N 1.000** 951.722 3019 V 1.000** 951.722 3020 R 1.000** 951.722 3021 L 1.000** 951.722 3022 L 1.000** 951.722 3023 A 1.000** 951.722 3024 G 1.000** 951.722 3025 Q 1.000** 951.722 3026 R 1.000** 951.722 3027 R 1.000** 951.722 3028 L 1.000** 951.722 3029 A 1.000** 951.722 3030 S 1.000** 951.722 3031 A 1.000** 951.722 3032 I 1.000** 951.722 3033 A 1.000** 951.722 3034 G 1.000** 951.722 3035 G 1.000** 951.722 3036 A 1.000** 951.722 3037 P 1.000** 951.722 3038 M 1.000** 951.722 3039 Y 1.000** 951.722 3040 E 1.000** 951.722 3041 R 1.000** 951.722 3042 P 1.000** 951.722 3043 P 1.000** 951.722 3044 D 1.000** 951.722 3045 R 1.000** 951.722 3046 R 1.000** 951.722 3047 F 1.000** 951.722 3048 D 1.000** 951.722 3049 H 1.000** 951.722 3050 H 1.000** 951.722 3051 V 1.000** 951.722 3052 P 1.000** 951.722 3053 E 1.000** 951.722 3054 K 1.000** 951.722 3055 L 1.000** 951.722 3056 Q 1.000** 951.722 3057 E 1.000** 951.722 3058 A 1.000** 951.722 3059 A 1.000** 951.722 3060 M 1.000** 951.722 3061 L 1.000** 951.722 3062 L 1.000** 951.722 3063 N 1.000** 951.722 3064 P 1.000** 951.722 3065 A 1.000** 951.722 3066 A 1.000** 951.722 3067 R 1.000** 951.722 3068 L 1.000** 951.722 3069 G 1.000** 951.722 3070 D 1.000** 951.722 3071 G 1.000** 951.722 3072 D 1.000** 951.722 3073 A 1.000** 951.722 3074 Y 1.000** 951.722 3075 I 1.000** 951.722 3076 G 1.000** 951.722 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: NC_011896_1_WP_010908189_1_1252_MLBR_RS05895) Pr(w>1) post mean +- SE for w 2322 I 0.800 6.073 +- 3.440 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: 0.094 0.095 0.097 0.098 0.099 0.101 0.102 0.103 0.105 0.106 w2: 0.040 0.053 0.067 0.080 0.093 0.107 0.120 0.133 0.146 0.160 Posterior for p0-p1 (see the ternary graph) (YWN2015, fig. 1) 0.005 0.007 0.005 0.004 0.009 0.007 0.006 0.005 0.004 0.011 0.009 0.008 0.007 0.006 0.005 0.004 0.013 0.011 0.010 0.009 0.008 0.007 0.006 0.005 0.004 0.015 0.013 0.012 0.011 0.010 0.009 0.008 0.007 0.006 0.004 0.004 0.017 0.015 0.014 0.013 0.012 0.011 0.010 0.009 0.008 0.006 0.006 0.004 0.003 0.019 0.017 0.016 0.015 0.014 0.013 0.012 0.011 0.010 0.008 0.008 0.006 0.005 0.004 0.003 0.021 0.019 0.018 0.017 0.016 0.015 0.014 0.013 0.012 0.010 0.010 0.008 0.007 0.006 0.005 0.004 0.003 0.023 0.021 0.020 0.019 0.018 0.017 0.016 0.015 0.014 0.012 0.012 0.010 0.009 0.008 0.007 0.006 0.005 0.004 0.003 sum of density on p0-p1 = 1.000000 Time used: 0:06 Model 7: beta (10 categories) TREE # 1: (1, 2, 3, 4, 5, 6); MP score: 1 lnL(ntime: 6 np: 9): -12116.162369 +0.000000 7..1 7..2 7..3 7..4 7..5 7..6 0.000004 0.000004 0.000004 0.000004 0.000004 0.000329 951.527278 1.741415 0.005000 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.000349 (1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000004, 6: 0.000329); (NC_011896_1_WP_010908189_1_1252_MLBR_RS05895: 0.000004, NC_002677_1_NP_301868_1_740_fas: 0.000004, NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350: 0.000004, NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780: 0.000004, NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465: 0.000004, NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610: 0.000329); Detailed output identifying parameters kappa (ts/tv) = 951.52728 Parameters in M7 (beta): p = 1.74141 q = 0.00500 MLEs of dN/dS (w) for site classes (K=10) p: 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 0.10000 w: 0.99998 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 7..1 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..2 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..3 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..4 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..5 0.000 6440.8 2787.2 1.0000 0.0000 0.0000 0.0 0.0 7..6 0.000 6440.8 2787.2 1.0000 0.0001 0.0001 0.7 0.3 Time used: 0:13 Model 8: beta&w>1 (11 categories) TREE # 1: (1, 2, 3, 4, 5, 6); MP score: 1 lnL(ntime: 6 np: 11): -12115.784849 +0.000000 7..1 7..2 7..3 7..4 7..5 7..6 0.000004 0.000004 0.000004 0.000004 0.000004 0.000336 951.527569 0.820399 0.225327 1.622458 951.428989 Note: Branch length is defined as number of nucleotide substitutions per codon (not per neucleotide site). tree length = 0.000356 (1: 0.000004, 2: 0.000004, 3: 0.000004, 4: 0.000004, 5: 0.000004, 6: 0.000336); (NC_011896_1_WP_010908189_1_1252_MLBR_RS05895: 0.000004, NC_002677_1_NP_301868_1_740_fas: 0.000004, NZ_LVXE01000040_1_WP_010908189_1_1821_A3216_RS10350: 0.000004, NZ_LYPH01000046_1_WP_010908189_1_1840_A8144_RS08780: 0.000004, NZ_CP029543_1_WP_010908189_1_1273_DIJ64_RS06465: 0.000004, NZ_AP014567_1_WP_119607937_1_1302_JK2ML_RS06610: 0.000336); Detailed output identifying parameters kappa (ts/tv) = 951.52757 Parameters in M8 (beta&w>1): p0 = 0.82040 p = 0.22533 q = 1.62246 (p1 = 0.17960) w = 951.42899 MLEs of dN/dS (w) for site classes (K=11) p: 0.08204 0.08204 0.08204 0.08204 0.08204 0.08204 0.08204 0.08204 0.08204 0.08204 0.17960 w: 0.00000 0.00012 0.00112 0.00499 0.01529 0.03769 0.08090 0.15911 0.29958 0.58140 951.42899 dN & dS for each branch branch t N S dN/dS dN dS N*dN S*dS 7..1 0.000 6440.8 2787.2 170.9741 0.0000 0.0000 0.0 0.0 7..2 0.000 6440.8 2787.2 170.9741 0.0000 0.0000 0.0 0.0 7..3 0.000 6440.8 2787.2 170.9741 0.0000 0.0000 0.0 0.0 7..4 0.000 6440.8 2787.2 170.9741 0.0000 0.0000 0.0 0.0 7..5 0.000 6440.8 2787.2 170.9741 0.0000 0.0000 0.0 0.0 7..6 0.000 6440.8 2787.2 170.9741 0.0002 0.0000 1.0 0.0 Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: NC_011896_1_WP_010908189_1_1252_MLBR_RS05895) Pr(w>1) post mean +- SE for w 2322 I 0.999** 950.889 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: NC_011896_1_WP_010908189_1_1252_MLBR_RS05895) Pr(w>1) post mean +- SE for w 1 V 0.637 4.829 +- 3.851 2 T 0.637 4.829 +- 3.851 3 I 0.637 4.829 +- 3.851 4 H 0.637 4.829 +- 3.851 5 E 0.637 4.829 +- 3.851 6 H 0.637 4.829 +- 3.851 7 D 0.637 4.829 +- 3.851 8 Q 0.637 4.829 +- 3.851 9 V 0.637 4.829 +- 3.851 10 S 0.637 4.829 +- 3.851 11 A 0.637 4.829 +- 3.851 12 D 0.637 4.829 +- 3.851 13 R 0.637 4.829 +- 3.851 14 N 0.637 4.829 +- 3.851 15 G 0.637 4.829 +- 3.851 16 N 0.637 4.829 +- 3.851 17 S 0.637 4.829 +- 3.851 18 L 0.637 4.829 +- 3.851 19 H 0.637 4.829 +- 3.851 20 G 0.637 4.829 +- 3.851 21 S 0.637 4.829 +- 3.851 22 R 0.637 4.829 +- 3.851 23 A 0.637 4.829 +- 3.851 24 L 0.637 4.829 +- 3.851 25 A 0.637 4.829 +- 3.851 26 D 0.637 4.829 +- 3.851 27 R 0.637 4.829 +- 3.851 28 L 0.637 4.829 +- 3.851 29 K 0.637 4.829 +- 3.851 30 A 0.637 4.829 +- 3.851 31 G 0.637 4.829 +- 3.851 32 E 0.637 4.829 +- 3.851 33 P 0.637 4.829 +- 3.851 34 Y 0.637 4.829 +- 3.851 35 V 0.637 4.829 +- 3.851 36 V 0.637 4.829 +- 3.851 37 A 0.637 4.829 +- 3.851 38 F 0.637 4.829 +- 3.851 39 G 0.637 4.829 +- 3.851 40 G 0.637 4.829 +- 3.851 41 Q 0.637 4.829 +- 3.851 42 G 0.637 4.829 +- 3.851 43 S 0.637 4.829 +- 3.851 44 A 0.637 4.829 +- 3.851 45 W 0.637 4.829 +- 3.851 46 L 0.637 4.829 +- 3.851 47 E 0.637 4.829 +- 3.851 48 T 0.637 4.829 +- 3.851 49 L 0.637 4.829 +- 3.851 50 E 0.637 4.829 +- 3.851 51 E 0.637 4.829 +- 3.851 52 L 0.637 4.829 +- 3.851 53 V 0.637 4.829 +- 3.851 54 S 0.637 4.829 +- 3.851 55 S 0.637 4.829 +- 3.851 56 A 0.637 4.829 +- 3.851 57 G 0.637 4.829 +- 3.851 58 L 0.637 4.829 +- 3.851 59 E 0.637 4.829 +- 3.851 60 A 0.637 4.829 +- 3.851 61 D 0.637 4.829 +- 3.851 62 L 0.637 4.829 +- 3.851 63 A 0.637 4.829 +- 3.851 64 T 0.637 4.829 +- 3.851 65 L 0.637 4.829 +- 3.851 66 V 0.637 4.829 +- 3.851 67 C 0.637 4.829 +- 3.851 68 E 0.637 4.829 +- 3.851 69 V 0.637 4.829 +- 3.851 70 E 0.637 4.829 +- 3.851 71 L 0.637 4.829 +- 3.851 72 L 0.637 4.829 +- 3.851 73 L 0.637 4.829 +- 3.851 74 E 0.637 4.829 +- 3.851 75 P 0.637 4.829 +- 3.851 76 V 0.637 4.829 +- 3.851 77 A 0.637 4.829 +- 3.851 78 K 0.637 4.829 +- 3.851 79 E 0.637 4.829 +- 3.851 80 L 0.637 4.829 +- 3.851 81 V 0.637 4.829 +- 3.851 82 V 0.637 4.829 +- 3.851 83 V 0.637 4.829 +- 3.851 84 R 0.637 4.829 +- 3.851 85 P 0.637 4.829 +- 3.851 86 I 0.637 4.829 +- 3.851 87 G 0.637 4.829 +- 3.851 88 F 0.637 4.829 +- 3.851 89 E 0.637 4.829 +- 3.851 90 P 0.637 4.829 +- 3.851 91 L 0.637 4.829 +- 3.851 92 Q 0.637 4.829 +- 3.851 93 W 0.637 4.829 +- 3.851 94 V 0.637 4.829 +- 3.851 95 R 0.637 4.829 +- 3.851 96 A 0.637 4.829 +- 3.851 97 L 0.637 4.829 +- 3.851 98 L 0.637 4.829 +- 3.851 99 A 0.637 4.829 +- 3.851 100 E 0.637 4.829 +- 3.851 101 D 0.637 4.829 +- 3.851 102 L 0.637 4.829 +- 3.851 103 V 0.637 4.829 +- 3.851 104 P 0.637 4.829 +- 3.851 105 S 0.637 4.829 +- 3.851 106 D 0.637 4.829 +- 3.851 107 K 0.637 4.829 +- 3.851 108 H 0.637 4.829 +- 3.851 109 L 0.637 4.829 +- 3.851 110 T 0.637 4.829 +- 3.851 111 S 0.637 4.829 +- 3.851 112 A 0.637 4.829 +- 3.851 113 A 0.637 4.829 +- 3.851 114 V 0.637 4.829 +- 3.851 115 S 0.637 4.829 +- 3.851 116 V 0.637 4.829 +- 3.851 117 P 0.637 4.829 +- 3.851 118 G 0.637 4.829 +- 3.851 119 V 0.637 4.829 +- 3.851 120 L 0.637 4.829 +- 3.851 121 L 0.637 4.829 +- 3.851 122 T 0.637 4.829 +- 3.851 123 Q 0.637 4.829 +- 3.851 124 I 0.637 4.829 +- 3.851 125 A 0.637 4.829 +- 3.851 126 V 0.637 4.829 +- 3.851 127 G 0.637 4.829 +- 3.851 128 R 0.637 4.829 +- 3.851 129 A 0.637 4.829 +- 3.851 130 L 0.637 4.829 +- 3.851 131 A 0.637 4.829 +- 3.851 132 R 0.637 4.829 +- 3.851 133 Q 0.637 4.829 +- 3.851 134 G 0.637 4.829 +- 3.851 135 M 0.637 4.829 +- 3.851 136 D 0.637 4.829 +- 3.851 137 L 0.637 4.829 +- 3.851 138 I 0.637 4.829 +- 3.851 139 A 0.637 4.829 +- 3.851 140 T 0.637 4.829 +- 3.851 141 P 0.637 4.829 +- 3.851 142 P 0.637 4.829 +- 3.851 143 V 0.637 4.829 +- 3.851 144 G 0.637 4.829 +- 3.851 145 I 0.637 4.829 +- 3.851 146 V 0.637 4.829 +- 3.851 147 G 0.637 4.829 +- 3.851 148 H 0.637 4.829 +- 3.851 149 S 0.637 4.829 +- 3.851 150 Q 0.637 4.829 +- 3.851 151 G 0.637 4.829 +- 3.851 152 V 0.637 4.829 +- 3.851 153 L 0.637 4.829 +- 3.851 154 A 0.637 4.829 +- 3.851 155 V 0.637 4.829 +- 3.851 156 E 0.637 4.829 +- 3.851 157 A 0.637 4.829 +- 3.851 158 L 0.637 4.829 +- 3.851 159 K 0.637 4.829 +- 3.851 160 A 0.637 4.829 +- 3.851 161 G 0.637 4.829 +- 3.851 162 G 0.637 4.829 +- 3.851 163 A 0.637 4.829 +- 3.851 164 R 0.637 4.829 +- 3.851 165 D 0.637 4.829 +- 3.851 166 A 0.637 4.829 +- 3.851 167 E 0.637 4.829 +- 3.851 168 L 0.637 4.829 +- 3.851 169 L 0.637 4.829 +- 3.851 170 A 0.637 4.829 +- 3.851 171 M 0.637 4.829 +- 3.851 172 A 0.637 4.829 +- 3.851 173 Q 0.637 4.829 +- 3.851 174 L 0.637 4.829 +- 3.851 175 I 0.637 4.829 +- 3.851 176 G 0.637 4.829 +- 3.851 177 A 0.637 4.829 +- 3.851 178 A 0.637 4.829 +- 3.851 179 G 0.637 4.829 +- 3.851 180 T 0.637 4.829 +- 3.851 181 L 0.637 4.829 +- 3.851 182 V 0.637 4.829 +- 3.851 183 A 0.637 4.829 +- 3.851 184 R 0.637 4.829 +- 3.851 185 R 0.637 4.829 +- 3.851 186 R 0.637 4.829 +- 3.851 187 G 0.637 4.829 +- 3.851 188 I 0.637 4.829 +- 3.851 189 S 0.637 4.829 +- 3.851 190 V 0.637 4.829 +- 3.851 191 L 0.637 4.829 +- 3.851 192 G 0.637 4.829 +- 3.851 193 D 0.637 4.829 +- 3.851 194 R 0.637 4.829 +- 3.851 195 P 0.637 4.829 +- 3.851 196 P 0.637 4.829 +- 3.851 197 M 0.637 4.829 +- 3.851 198 V 0.637 4.829 +- 3.851 199 S 0.637 4.829 +- 3.851 200 V 0.637 4.829 +- 3.851 201 T 0.637 4.829 +- 3.851 202 N 0.637 4.829 +- 3.851 203 A 0.637 4.829 +- 3.851 204 D 0.637 4.829 +- 3.851 205 P 0.637 4.829 +- 3.851 206 E 0.637 4.829 +- 3.851 207 R 0.637 4.829 +- 3.851 208 I 0.637 4.829 +- 3.851 209 R 0.637 4.829 +- 3.851 210 R 0.637 4.829 +- 3.851 211 L 0.637 4.829 +- 3.851 212 L 0.637 4.829 +- 3.851 213 D 0.637 4.829 +- 3.851 214 E 0.637 4.829 +- 3.851 215 F 0.637 4.829 +- 3.851 216 A 0.637 4.829 +- 3.851 217 Q 0.637 4.829 +- 3.851 218 D 0.637 4.829 +- 3.851 219 V 0.637 4.829 +- 3.851 220 R 0.637 4.829 +- 3.851 221 T 0.637 4.829 +- 3.851 222 V 0.637 4.829 +- 3.851 223 L 0.637 4.829 +- 3.851 224 P 0.637 4.829 +- 3.851 225 P 0.637 4.829 +- 3.851 226 V 0.637 4.829 +- 3.851 227 L 0.637 4.829 +- 3.851 228 S 0.637 4.829 +- 3.851 229 I 0.637 4.829 +- 3.851 230 R 0.637 4.829 +- 3.851 231 N 0.637 4.829 +- 3.851 232 G 0.637 4.829 +- 3.851 233 W 0.637 4.829 +- 3.851 234 R 0.637 4.829 +- 3.851 235 S 0.637 4.829 +- 3.851 236 V 0.637 4.829 +- 3.851 237 V 0.637 4.829 +- 3.851 238 I 0.637 4.829 +- 3.851 239 T 0.637 4.829 +- 3.851 240 G 0.637 4.829 +- 3.851 241 T 0.637 4.829 +- 3.851 242 P 0.637 4.829 +- 3.851 243 E 0.637 4.829 +- 3.851 244 Q 0.637 4.829 +- 3.851 245 L 0.637 4.829 +- 3.851 246 S 0.637 4.829 +- 3.851 247 R 0.637 4.829 +- 3.851 248 F 0.637 4.829 +- 3.851 249 E 0.637 4.829 +- 3.851 250 R 0.637 4.829 +- 3.851 251 Y 0.637 4.829 +- 3.851 252 C 0.637 4.829 +- 3.851 253 R 0.637 4.829 +- 3.851 254 Q 0.637 4.829 +- 3.851 255 I 0.637 4.829 +- 3.851 256 S 0.637 4.829 +- 3.851 257 D 0.637 4.829 +- 3.851 258 K 0.637 4.829 +- 3.851 259 E 0.637 4.829 +- 3.851 260 E 0.637 4.829 +- 3.851 261 E 0.637 4.829 +- 3.851 262 D 0.637 4.829 +- 3.851 263 R 0.637 4.829 +- 3.851 264 R 0.637 4.829 +- 3.851 265 K 0.637 4.829 +- 3.851 266 K 0.637 4.829 +- 3.851 267 I 0.637 4.829 +- 3.851 268 R 0.637 4.829 +- 3.851 269 G 0.637 4.829 +- 3.851 270 G 0.637 4.829 +- 3.851 271 D 0.637 4.829 +- 3.851 272 I 0.637 4.829 +- 3.851 273 F 0.637 4.829 +- 3.851 274 A 0.637 4.829 +- 3.851 275 P 0.637 4.829 +- 3.851 276 V 0.637 4.829 +- 3.851 277 F 0.637 4.829 +- 3.851 278 D 0.637 4.829 +- 3.851 279 P 0.637 4.829 +- 3.851 280 V 0.637 4.829 +- 3.851 281 Q 0.637 4.829 +- 3.851 282 V 0.637 4.829 +- 3.851 283 E 0.637 4.829 +- 3.851 284 I 0.637 4.829 +- 3.851 285 G 0.637 4.829 +- 3.851 286 F 0.637 4.829 +- 3.851 287 H 0.637 4.829 +- 3.851 288 T 0.637 4.829 +- 3.851 289 P 0.637 4.829 +- 3.851 290 H 0.637 4.829 +- 3.851 291 L 0.637 4.829 +- 3.851 292 A 0.637 4.829 +- 3.851 293 D 0.637 4.829 +- 3.851 294 G 0.637 4.829 +- 3.851 295 I 0.637 4.829 +- 3.851 296 G 0.637 4.829 +- 3.851 297 I 0.637 4.829 +- 3.851 298 V 0.637 4.829 +- 3.851 299 G 0.637 4.829 +- 3.851 300 G 0.637 4.829 +- 3.851 301 W 0.637 4.829 +- 3.851 302 A 0.637 4.829 +- 3.851 303 E 0.637 4.829 +- 3.851 304 K 0.637 4.829 +- 3.851 305 V 0.637 4.829 +- 3.851 306 G 0.637 4.829 +- 3.851 307 L 0.637 4.829 +- 3.851 308 D 0.637 4.829 +- 3.851 309 V 0.637 4.829 +- 3.851 310 T 0.637 4.829 +- 3.851 311 L 0.637 4.829 +- 3.851 312 A 0.637 4.829 +- 3.851 313 R 0.637 4.829 +- 3.851 314 E 0.637 4.829 +- 3.851 315 L 0.637 4.829 +- 3.851 316 T 0.637 4.829 +- 3.851 317 E 0.637 4.829 +- 3.851 318 A 0.637 4.829 +- 3.851 319 I 0.637 4.829 +- 3.851 320 L 0.637 4.829 +- 3.851 321 V 0.637 4.829 +- 3.851 322 R 0.637 4.829 +- 3.851 323 G 0.637 4.829 +- 3.851 324 V 0.637 4.829 +- 3.851 325 D 0.637 4.829 +- 3.851 326 W 0.637 4.829 +- 3.851 327 V 0.637 4.829 +- 3.851 328 R 0.637 4.829 +- 3.851 329 E 0.637 4.829 +- 3.851 330 I 0.637 4.829 +- 3.851 331 T 0.637 4.829 +- 3.851 332 R 0.637 4.829 +- 3.851 333 V 0.637 4.829 +- 3.851 334 H 0.637 4.829 +- 3.851 335 G 0.637 4.829 +- 3.851 336 A 0.637 4.829 +- 3.851 337 G 0.637 4.829 +- 3.851 338 V 0.637 4.829 +- 3.851 339 R 0.637 4.829 +- 3.851 340 W 0.637 4.829 +- 3.851 341 I 0.637 4.829 +- 3.851 342 I 0.637 4.829 +- 3.851 343 D 0.637 4.829 +- 3.851 344 L 0.637 4.829 +- 3.851 345 G 0.637 4.829 +- 3.851 346 P 0.637 4.829 +- 3.851 347 G 0.637 4.829 +- 3.851 348 D 0.637 4.829 +- 3.851 349 I 0.637 4.829 +- 3.851 350 L 0.637 4.829 +- 3.851 351 T 0.637 4.829 +- 3.851 352 R 0.637 4.829 +- 3.851 353 L 0.637 4.829 +- 3.851 354 T 0.637 4.829 +- 3.851 355 A 0.637 4.829 +- 3.851 356 P 0.637 4.829 +- 3.851 357 V 0.637 4.829 +- 3.851 358 I 0.637 4.829 +- 3.851 359 R 0.637 4.829 +- 3.851 360 G 0.637 4.829 +- 3.851 361 L 0.637 4.829 +- 3.851 362 G 0.637 4.829 +- 3.851 363 V 0.637 4.829 +- 3.851 364 G 0.637 4.829 +- 3.851 365 I 0.637 4.829 +- 3.851 366 V 0.637 4.829 +- 3.851 367 P 0.637 4.829 +- 3.851 368 V 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0.637 4.829 +- 3.851 1747 S 0.637 4.829 +- 3.851 1748 A 0.637 4.829 +- 3.851 1749 A 0.637 4.829 +- 3.851 1750 L 0.637 4.829 +- 3.851 1751 P 0.637 4.829 +- 3.851 1752 A 0.637 4.829 +- 3.851 1753 E 0.637 4.829 +- 3.851 1754 S 0.637 4.829 +- 3.851 1755 A 0.637 4.829 +- 3.851 1756 L 0.637 4.829 +- 3.851 1757 A 0.637 4.829 +- 3.851 1758 L 0.637 4.829 +- 3.851 1759 G 0.637 4.829 +- 3.851 1760 T 0.637 4.829 +- 3.851 1761 V 0.637 4.829 +- 3.851 1762 A 0.637 4.829 +- 3.851 1763 P 0.637 4.829 +- 3.851 1764 A 0.637 4.829 +- 3.851 1765 P 0.637 4.829 +- 3.851 1766 V 0.637 4.829 +- 3.851 1767 V 0.637 4.829 +- 3.851 1768 P 0.637 4.829 +- 3.851 1769 S 0.637 4.829 +- 3.851 1770 G 0.637 4.829 +- 3.851 1771 P 0.637 4.829 +- 3.851 1772 R 0.637 4.829 +- 3.851 1773 P 0.637 4.829 +- 3.851 1774 E 0.637 4.829 +- 3.851 1775 D 0.637 4.829 +- 3.851 1776 I 0.637 4.829 +- 3.851 1777 S 0.637 4.829 +- 3.851 1778 F 0.637 4.829 +- 3.851 1779 G 0.637 4.829 +- 3.851 1780 A 0.637 4.829 +- 3.851 1781 A 0.637 4.829 +- 3.851 1782 D 0.637 4.829 +- 3.851 1783 A 0.637 4.829 +- 3.851 1784 T 0.637 4.829 +- 3.851 1785 L 0.637 4.829 +- 3.851 1786 A 0.637 4.829 +- 3.851 1787 L 0.637 4.829 +- 3.851 1788 I 0.637 4.829 +- 3.851 1789 A 0.637 4.829 +- 3.851 1790 L 0.637 4.829 +- 3.851 1791 S 0.637 4.829 +- 3.851 1792 A 0.637 4.829 +- 3.851 1793 K 0.637 4.829 +- 3.851 1794 M 0.637 4.829 +- 3.851 1795 R 0.637 4.829 +- 3.851 1796 L 0.637 4.829 +- 3.851 1797 D 0.637 4.829 +- 3.851 1798 Q 0.637 4.829 +- 3.851 1799 I 0.637 4.829 +- 3.851 1800 E 0.637 4.829 +- 3.851 1801 E 0.637 4.829 +- 3.851 1802 M 0.637 4.829 +- 3.851 1803 D 0.637 4.829 +- 3.851 1804 S 0.637 4.829 +- 3.851 1805 I 0.637 4.829 +- 3.851 1806 E 0.637 4.829 +- 3.851 1807 S 0.637 4.829 +- 3.851 1808 I 0.637 4.829 +- 3.851 1809 T 0.637 4.829 +- 3.851 1810 D 0.637 4.829 +- 3.851 1811 G 0.637 4.829 +- 3.851 1812 A 0.637 4.829 +- 3.851 1813 S 0.637 4.829 +- 3.851 1814 S 0.637 4.829 +- 3.851 1815 R 0.637 4.829 +- 3.851 1816 R 0.637 4.829 +- 3.851 1817 N 0.637 4.829 +- 3.851 1818 Q 0.637 4.829 +- 3.851 1819 L 0.637 4.829 +- 3.851 1820 L 0.637 4.829 +- 3.851 1821 V 0.637 4.829 +- 3.851 1822 D 0.637 4.829 +- 3.851 1823 L 0.637 4.829 +- 3.851 1824 G 0.637 4.829 +- 3.851 1825 S 0.637 4.829 +- 3.851 1826 E 0.637 4.829 +- 3.851 1827 L 0.637 4.829 +- 3.851 1828 S 0.637 4.829 +- 3.851 1829 L 0.637 4.829 +- 3.851 1830 G 0.637 4.829 +- 3.851 1831 A 0.637 4.829 +- 3.851 1832 I 0.637 4.829 +- 3.851 1833 D 0.637 4.829 +- 3.851 1834 G 0.637 4.829 +- 3.851 1835 V 0.637 4.829 +- 3.851 1836 A 0.637 4.829 +- 3.851 1837 E 0.637 4.829 +- 3.851 1838 A 0.637 4.829 +- 3.851 1839 D 0.637 4.829 +- 3.851 1840 L 0.637 4.829 +- 3.851 1841 A 0.637 4.829 +- 3.851 1842 G 0.637 4.829 +- 3.851 1843 L 0.637 4.829 +- 3.851 1844 R 0.637 4.829 +- 3.851 1845 S 0.637 4.829 +- 3.851 1846 Q 0.637 4.829 +- 3.851 1847 V 0.637 4.829 +- 3.851 1848 T 0.637 4.829 +- 3.851 1849 K 0.637 4.829 +- 3.851 1850 L 0.637 4.829 +- 3.851 1851 A 0.637 4.829 +- 3.851 1852 R 0.637 4.829 +- 3.851 1853 T 0.637 4.829 +- 3.851 1854 Y 0.637 4.829 +- 3.851 1855 K 0.637 4.829 +- 3.851 1856 P 0.637 4.829 +- 3.851 1857 Y 0.637 4.829 +- 3.851 1858 G 0.637 4.829 +- 3.851 1859 P 0.637 4.829 +- 3.851 1860 V 0.637 4.829 +- 3.851 1861 L 0.637 4.829 +- 3.851 1862 S 0.637 4.829 +- 3.851 1863 E 0.637 4.829 +- 3.851 1864 L 0.637 4.829 +- 3.851 1865 I 0.637 4.829 +- 3.851 1866 N 0.637 4.829 +- 3.851 1867 D 0.637 4.829 +- 3.851 1868 Q 0.637 4.829 +- 3.851 1869 L 0.637 4.829 +- 3.851 1870 R 0.637 4.829 +- 3.851 1871 S 0.637 4.829 +- 3.851 1872 A 0.637 4.829 +- 3.851 1873 L 0.637 4.829 +- 3.851 1874 G 0.637 4.829 +- 3.851 1875 P 0.637 4.829 +- 3.851 1876 S 0.637 4.829 +- 3.851 1877 G 0.637 4.829 +- 3.851 1878 K 0.637 4.829 +- 3.851 1879 R 0.637 4.829 +- 3.851 1880 P 0.637 4.829 +- 3.851 1881 G 0.637 4.829 +- 3.851 1882 V 0.637 4.829 +- 3.851 1883 I 0.637 4.829 +- 3.851 1884 A 0.637 4.829 +- 3.851 1885 E 0.637 4.829 +- 3.851 1886 R 0.637 4.829 +- 3.851 1887 V 0.637 4.829 +- 3.851 1888 K 0.637 4.829 +- 3.851 1889 K 0.637 4.829 +- 3.851 1890 I 0.637 4.829 +- 3.851 1891 W 0.637 4.829 +- 3.851 1892 E 0.637 4.829 +- 3.851 1893 L 0.637 4.829 +- 3.851 1894 G 0.637 4.829 +- 3.851 1895 D 0.637 4.829 +- 3.851 1896 G 0.637 4.829 +- 3.851 1897 W 0.637 4.829 +- 3.851 1898 V 0.637 4.829 +- 3.851 1899 K 0.637 4.829 +- 3.851 1900 H 0.637 4.829 +- 3.851 1901 V 0.637 4.829 +- 3.851 1902 T 0.637 4.829 +- 3.851 1903 V 0.637 4.829 +- 3.851 1904 E 0.637 4.829 +- 3.851 1905 I 0.637 4.829 +- 3.851 1906 A 0.637 4.829 +- 3.851 1907 L 0.637 4.829 +- 3.851 1908 G 0.637 4.829 +- 3.851 1909 T 0.637 4.829 +- 3.851 1910 R 0.637 4.829 +- 3.851 1911 E 0.637 4.829 +- 3.851 1912 G 0.637 4.829 +- 3.851 1913 T 0.637 4.829 +- 3.851 1914 S 0.637 4.829 +- 3.851 1915 V 0.637 4.829 +- 3.851 1916 R 0.637 4.829 +- 3.851 1917 G 0.637 4.829 +- 3.851 1918 G 0.637 4.829 +- 3.851 1919 P 0.637 4.829 +- 3.851 1920 L 0.637 4.829 +- 3.851 1921 G 0.637 4.829 +- 3.851 1922 N 0.637 4.829 +- 3.851 1923 L 0.637 4.829 +- 3.851 1924 N 0.637 4.829 +- 3.851 1925 E 0.637 4.829 +- 3.851 1926 G 0.637 4.829 +- 3.851 1927 A 0.637 4.829 +- 3.851 1928 L 0.637 4.829 +- 3.851 1929 A 0.637 4.829 +- 3.851 1930 D 0.637 4.829 +- 3.851 1931 V 0.637 4.829 +- 3.851 1932 D 0.637 4.829 +- 3.851 1933 S 0.637 4.829 +- 3.851 1934 V 0.637 4.829 +- 3.851 1935 D 0.637 4.829 +- 3.851 1936 K 0.637 4.829 +- 3.851 1937 A 0.637 4.829 +- 3.851 1938 V 0.637 4.829 +- 3.851 1939 D 0.637 4.829 +- 3.851 1940 A 0.637 4.829 +- 3.851 1941 A 0.637 4.829 +- 3.851 1942 V 0.637 4.829 +- 3.851 1943 A 0.637 4.829 +- 3.851 1944 S 0.637 4.829 +- 3.851 1945 V 0.637 4.829 +- 3.851 1946 A 0.637 4.829 +- 3.851 1947 A 0.637 4.829 +- 3.851 1948 R 0.637 4.829 +- 3.851 1949 H 0.637 4.829 +- 3.851 1950 G 0.637 4.829 +- 3.851 1951 V 0.637 4.829 +- 3.851 1952 V 0.637 4.829 +- 3.851 1953 V 0.637 4.829 +- 3.851 1954 A 0.637 4.829 +- 3.851 1955 L 0.637 4.829 +- 3.851 1956 P 0.637 4.829 +- 3.851 1957 S 0.637 4.829 +- 3.851 1958 A 0.637 4.829 +- 3.851 1959 G 0.637 4.829 +- 3.851 1960 S 0.637 4.829 +- 3.851 1961 G 0.637 4.829 +- 3.851 1962 G 0.637 4.829 +- 3.851 1963 S 0.637 4.829 +- 3.851 1964 A 0.637 4.829 +- 3.851 1965 T 0.637 4.829 +- 3.851 1966 V 0.637 4.829 +- 3.851 1967 D 0.637 4.829 +- 3.851 1968 V 0.637 4.829 +- 3.851 1969 A 0.637 4.829 +- 3.851 1970 A 0.637 4.829 +- 3.851 1971 L 0.637 4.829 +- 3.851 1972 S 0.637 4.829 +- 3.851 1973 E 0.637 4.829 +- 3.851 1974 F 0.637 4.829 +- 3.851 1975 T 0.637 4.829 +- 3.851 1976 D 0.637 4.829 +- 3.851 1977 Q 0.637 4.829 +- 3.851 1978 I 0.637 4.829 +- 3.851 1979 T 0.637 4.829 +- 3.851 1980 G 0.637 4.829 +- 3.851 1981 H 0.637 4.829 +- 3.851 1982 D 0.637 4.829 +- 3.851 1983 G 0.637 4.829 +- 3.851 1984 V 0.637 4.829 +- 3.851 1985 L 0.637 4.829 +- 3.851 1986 A 0.637 4.829 +- 3.851 1987 S 0.637 4.829 +- 3.851 1988 A 0.637 4.829 +- 3.851 1989 A 0.637 4.829 +- 3.851 1990 R 0.637 4.829 +- 3.851 1991 L 0.637 4.829 +- 3.851 1992 V 0.637 4.829 +- 3.851 1993 L 0.637 4.829 +- 3.851 1994 G 0.637 4.829 +- 3.851 1995 Q 0.637 4.829 +- 3.851 1996 L 0.637 4.829 +- 3.851 1997 G 0.637 4.829 +- 3.851 1998 L 0.637 4.829 +- 3.851 1999 D 0.637 4.829 +- 3.851 2000 G 0.637 4.829 +- 3.851 2001 P 0.637 4.829 +- 3.851 2002 V 0.637 4.829 +- 3.851 2003 T 0.637 4.829 +- 3.851 2004 A 0.637 4.829 +- 3.851 2005 A 0.637 4.829 +- 3.851 2006 P 0.637 4.829 +- 3.851 2007 A 0.637 4.829 +- 3.851 2008 T 0.637 4.829 +- 3.851 2009 T 0.637 4.829 +- 3.851 2010 D 0.637 4.829 +- 3.851 2011 T 0.637 4.829 +- 3.851 2012 G 0.637 4.829 +- 3.851 2013 L 0.637 4.829 +- 3.851 2014 I 0.637 4.829 +- 3.851 2015 D 0.637 4.829 +- 3.851 2016 L 0.637 4.829 +- 3.851 2017 V 0.637 4.829 +- 3.851 2018 T 0.637 4.829 +- 3.851 2019 A 0.637 4.829 +- 3.851 2020 E 0.637 4.829 +- 3.851 2021 L 0.637 4.829 +- 3.851 2022 S 0.637 4.829 +- 3.851 2023 T 0.637 4.829 +- 3.851 2024 D 0.637 4.829 +- 3.851 2025 W 0.637 4.829 +- 3.851 2026 P 0.637 4.829 +- 3.851 2027 R 0.637 4.829 +- 3.851 2028 L 0.637 4.829 +- 3.851 2029 V 0.637 4.829 +- 3.851 2030 A 0.637 4.829 +- 3.851 2031 P 0.637 4.829 +- 3.851 2032 V 0.637 4.829 +- 3.851 2033 F 0.637 4.829 +- 3.851 2034 D 0.637 4.829 +- 3.851 2035 V 0.637 4.829 +- 3.851 2036 K 0.637 4.829 +- 3.851 2037 K 0.637 4.829 +- 3.851 2038 A 0.637 4.829 +- 3.851 2039 V 0.637 4.829 +- 3.851 2040 V 0.637 4.829 +- 3.851 2041 F 0.637 4.829 +- 3.851 2042 D 0.637 4.829 +- 3.851 2043 D 0.637 4.829 +- 3.851 2044 R 0.637 4.829 +- 3.851 2045 W 0.637 4.829 +- 3.851 2046 A 0.637 4.829 +- 3.851 2047 S 0.637 4.829 +- 3.851 2048 A 0.637 4.829 +- 3.851 2049 R 0.637 4.829 +- 3.851 2050 E 0.637 4.829 +- 3.851 2051 D 0.637 4.829 +- 3.851 2052 L 0.637 4.829 +- 3.851 2053 V 0.637 4.829 +- 3.851 2054 R 0.637 4.829 +- 3.851 2055 L 0.637 4.829 +- 3.851 2056 W 0.637 4.829 +- 3.851 2057 L 0.637 4.829 +- 3.851 2058 N 0.637 4.829 +- 3.851 2059 D 0.637 4.829 +- 3.851 2060 E 0.637 4.829 +- 3.851 2061 G 0.637 4.829 +- 3.851 2062 E 0.637 4.829 +- 3.851 2063 I 0.637 4.829 +- 3.851 2064 E 0.637 4.829 +- 3.851 2065 A 0.637 4.829 +- 3.851 2066 Q 0.637 4.829 +- 3.851 2067 W 0.637 4.829 +- 3.851 2068 S 0.637 4.829 +- 3.851 2069 H 0.637 4.829 +- 3.851 2070 L 0.637 4.829 +- 3.851 2071 S 0.637 4.829 +- 3.851 2072 E 0.637 4.829 +- 3.851 2073 R 0.637 4.829 +- 3.851 2074 F 0.637 4.829 +- 3.851 2075 E 0.637 4.829 +- 3.851 2076 G 0.637 4.829 +- 3.851 2077 A 0.637 4.829 +- 3.851 2078 G 0.637 4.829 +- 3.851 2079 H 0.637 4.829 +- 3.851 2080 V 0.637 4.829 +- 3.851 2081 V 0.637 4.829 +- 3.851 2082 A 0.637 4.829 +- 3.851 2083 T 0.637 4.829 +- 3.851 2084 Q 0.637 4.829 +- 3.851 2085 A 0.637 4.829 +- 3.851 2086 T 0.637 4.829 +- 3.851 2087 W 0.637 4.829 +- 3.851 2088 W 0.637 4.829 +- 3.851 2089 Q 0.637 4.829 +- 3.851 2090 G 0.637 4.829 +- 3.851 2091 K 0.637 4.829 +- 3.851 2092 S 0.637 4.829 +- 3.851 2093 L 0.637 4.829 +- 3.851 2094 A 0.637 4.829 +- 3.851 2095 A 0.637 4.829 +- 3.851 2096 G 0.637 4.829 +- 3.851 2097 R 0.637 4.829 +- 3.851 2098 Q 0.637 4.829 +- 3.851 2099 I 0.637 4.829 +- 3.851 2100 H 0.637 4.829 +- 3.851 2101 A 0.637 4.829 +- 3.851 2102 S 0.637 4.829 +- 3.851 2103 L 0.637 4.829 +- 3.851 2104 Y 0.637 4.829 +- 3.851 2105 G 0.637 4.829 +- 3.851 2106 R 0.637 4.829 +- 3.851 2107 I 0.637 4.829 +- 3.851 2108 A 0.637 4.829 +- 3.851 2109 A 0.637 4.829 +- 3.851 2110 G 0.637 4.829 +- 3.851 2111 A 0.637 4.829 +- 3.851 2112 Q 0.637 4.829 +- 3.851 2113 N 0.637 4.829 +- 3.851 2114 P 0.637 4.829 +- 3.851 2115 D 0.637 4.829 +- 3.851 2116 R 0.637 4.829 +- 3.851 2117 G 0.637 4.829 +- 3.851 2118 L 0.637 4.829 +- 3.851 2119 Y 0.637 4.829 +- 3.851 2120 S 0.637 4.829 +- 3.851 2121 S 0.637 4.829 +- 3.851 2122 E 0.637 4.829 +- 3.851 2123 I 0.637 4.829 +- 3.851 2124 A 0.637 4.829 +- 3.851 2125 V 0.637 4.829 +- 3.851 2126 V 0.637 4.829 +- 3.851 2127 T 0.637 4.829 +- 3.851 2128 G 0.637 4.829 +- 3.851 2129 A 0.637 4.829 +- 3.851 2130 S 0.637 4.829 +- 3.851 2131 K 0.637 4.829 +- 3.851 2132 G 0.637 4.829 +- 3.851 2133 S 0.637 4.829 +- 3.851 2134 I 0.637 4.829 +- 3.851 2135 A 0.637 4.829 +- 3.851 2136 A 0.637 4.829 +- 3.851 2137 S 0.637 4.829 +- 3.851 2138 V 0.637 4.829 +- 3.851 2139 A 0.637 4.829 +- 3.851 2140 A 0.637 4.829 +- 3.851 2141 R 0.637 4.829 +- 3.851 2142 L 0.637 4.829 +- 3.851 2143 L 0.637 4.829 +- 3.851 2144 D 0.637 4.829 +- 3.851 2145 G 0.637 4.829 +- 3.851 2146 G 0.637 4.829 +- 3.851 2147 A 0.637 4.829 +- 3.851 2148 T 0.637 4.829 +- 3.851 2149 V 0.637 4.829 +- 3.851 2150 I 0.637 4.829 +- 3.851 2151 A 0.637 4.829 +- 3.851 2152 T 0.637 4.829 +- 3.851 2153 T 0.637 4.829 +- 3.851 2154 S 0.637 4.829 +- 3.851 2155 K 0.637 4.829 +- 3.851 2156 L 0.637 4.829 +- 3.851 2157 D 0.637 4.829 +- 3.851 2158 E 0.637 4.829 +- 3.851 2159 E 0.637 4.829 +- 3.851 2160 R 0.637 4.829 +- 3.851 2161 I 0.637 4.829 +- 3.851 2162 T 0.637 4.829 +- 3.851 2163 F 0.637 4.829 +- 3.851 2164 Y 0.637 4.829 +- 3.851 2165 R 0.637 4.829 +- 3.851 2166 A 0.637 4.829 +- 3.851 2167 L 0.637 4.829 +- 3.851 2168 Y 0.637 4.829 +- 3.851 2169 R 0.637 4.829 +- 3.851 2170 D 0.637 4.829 +- 3.851 2171 H 0.637 4.829 +- 3.851 2172 A 0.637 4.829 +- 3.851 2173 R 0.637 4.829 +- 3.851 2174 Y 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3066 A 0.637 4.829 +- 3.851 3067 R 0.637 4.829 +- 3.851 3068 L 0.637 4.829 +- 3.851 3069 G 0.637 4.829 +- 3.851 3070 D 0.637 4.829 +- 3.851 3071 G 0.637 4.829 +- 3.851 3072 D 0.637 4.829 +- 3.851 3073 A 0.637 4.829 +- 3.851 3074 Y 0.637 4.829 +- 3.851 3075 I 0.637 4.829 +- 3.851 3076 G 0.637 4.829 +- 3.851 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: 0.174 0.158 0.142 0.125 0.109 0.092 0.076 0.059 0.042 0.024 p : 0.095 0.097 0.098 0.100 0.100 0.101 0.102 0.102 0.102 0.103 q : 0.105 0.103 0.102 0.100 0.100 0.099 0.098 0.098 0.098 0.097 ws: 0.031 0.047 0.062 0.078 0.093 0.108 0.123 0.138 0.152 0.167 Time used: 0:21
Model 1: NearlyNeutral -12116.162373 Model 2: PositiveSelection -12115.782699 Model 0: one-ratio -12115.782559 Model 7: beta -12116.162369 Model 8: beta&w>1 -12115.784849 Model 0 vs 1 0.7596279999997932 Model 2 vs 1 0.7593479999995907 Model 8 vs 7 0.7550400000000081