--- EXPERIMENT NOTES --- EXPERIMENT PROPERTIES #Fri Feb 16 15:21:40 WET 2018 codeml.models=0 1 2 3 7 8 mrbayes.mpich= mrbayes.ngen=1000000 tcoffee.alignMethod=MUSCLE tcoffee.params= tcoffee.maxSeqs=0 codeml.bin=codeml mrbayes.tburnin=2500 codeml.dir=/usr/bin/ input.sequences= mrbayes.pburnin=2500 mrbayes.bin=mb tcoffee.bin=t_coffee mrbayes.dir=/usr/bin/ tcoffee.dir= tcoffee.minScore=3 input.fasta=/opt/ADOPS/HIV1_RE/NEF_1_5/input.fasta input.names= mrbayes.params= codeml.params= --- PSRF SUMMARY Estimated marginal likelihoods for runs sampled in files "/opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p": (Use the harmonic mean for Bayes factor comparisons of models) (Values are saved to the file /opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat) Run Arithmetic mean Harmonic mean -------------------------------------- 1 -12062.00 -12114.35 2 -12061.99 -12109.21 -------------------------------------- TOTAL -12062.00 -12113.66 -------------------------------------- Model parameter summaries over the runs sampled in files "/opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run2.p": Summaries are based on a total of 3002 samples from 2 runs. Each run produced 2001 samples of which 1501 samples were included. Parameter summaries saved to file "/opt/ADOPS/HIV1_RE/NEF_1_5/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat". 95% HPD Interval -------------------- Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+ ------------------------------------------------------------------------------------------------------ TL{all} 8.266570 0.152616 7.506289 9.025202 8.255583 527.34 647.46 1.000 r(A<->C){all} 0.121617 0.000082 0.103830 0.138612 0.121396 599.42 668.67 1.000 r(A<->G){all} 0.277549 0.000335 0.243797 0.314994 0.276822 415.07 498.84 1.001 r(A<->T){all} 0.094865 0.000069 0.079498 0.111928 0.094675 750.90 776.57 1.002 r(C<->G){all} 0.070991 0.000061 0.056977 0.086547 0.070480 716.90 826.01 1.001 r(C<->T){all} 0.341268 0.000433 0.301387 0.381997 0.340736 416.82 499.35 1.003 r(G<->T){all} 0.093710 0.000087 0.076660 0.113292 0.093264 558.32 589.36 1.000 pi(A){all} 0.342155 0.000136 0.318983 0.365466 0.341916 501.06 604.38 1.000 pi(C){all} 0.214653 0.000105 0.195021 0.235674 0.214331 422.35 601.28 1.006 pi(G){all} 0.255235 0.000137 0.231918 0.277395 0.255159 516.30 544.56 1.002 pi(T){all} 0.187957 0.000090 0.169538 0.205837 0.187632 580.17 639.57 1.000 alpha{1,2} 0.432928 0.001197 0.364513 0.498961 0.430417 993.23 1161.45 1.002 alpha{3} 1.788864 0.060068 1.372190 2.311597 1.763378 1212.36 1244.79 1.003 pinvar{all} 0.044574 0.000487 0.001408 0.083531 0.043595 959.55 1047.79 1.003 ------------------------------------------------------------------------------------------------------ * 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 -9136.000287 Model 2: PositiveSelection -9095.108905 Model 0: one-ratio -9652.089058 Model 3: discrete -9055.609611 Model 7: beta -9073.553844 Model 8: beta&w>1 -9037.179227 Model 0 vs 1 1032.1775419999976 Model 2 vs 1 81.78276400000323 Additional information for M1 vs M2: Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: 04_cpx.GR.04.BP00052_SUP_RH01.JN687746_) Pr(w>1) post mean +- SE for w 9 P 0.764 2.264 10 A 1.000** 2.654 18 A 0.845 2.398 20 V 0.509 1.841 31 D 0.996** 2.648 62 I 0.993** 2.642 110 V 0.999** 2.652 150 Q 1.000** 2.654 156 Y 1.000** 2.654 166 L 0.999** 2.653 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: 04_cpx.GR.04.BP00052_SUP_RH01.JN687746_) Pr(w>1) post mean +- SE for w 9 P 0.744 2.132 +- 0.677 10 A 1.000** 2.559 +- 0.235 18 A 0.823 2.255 +- 0.598 20 V 0.554 1.833 +- 0.748 31 D 0.995** 2.550 +- 0.258 62 I 0.990* 2.543 +- 0.280 110 V 0.998** 2.555 +- 0.245 150 Q 1.000** 2.559 +- 0.235 156 Y 1.000** 2.559 +- 0.235 166 L 0.999** 2.557 +- 0.240 Model 8 vs 7 72.74923399999898 Additional information for M7 vs M8: Naive Empirical Bayes (NEB) analysis Positively selected sites (*: P>95%; **: P>99%) (amino acids refer to 1st sequence: 04_cpx.GR.04.BP00052_SUP_RH01.JN687746_) Pr(w>1) post mean +- SE for w 9 P 0.936 1.900 10 A 1.000** 1.970 18 A 0.963* 1.929 20 V 0.874 1.832 31 D 0.998** 1.968 62 I 0.995** 1.964 79 Y 0.704 1.643 110 V 0.999** 1.969 146 R 0.807 1.758 150 Q 1.000** 1.970 156 Y 1.000** 1.970 162 M 0.666 1.603 166 L 0.999** 1.970 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: 04_cpx.GR.04.BP00052_SUP_RH01.JN687746_) Pr(w>1) post mean +- SE for w 9 P 0.685 1.982 +- 0.734 10 A 1.000** 2.479 +- 0.144 18 A 0.760 2.102 +- 0.676 31 D 0.991** 2.466 +- 0.201 62 I 0.983* 2.453 +- 0.245 110 V 0.998** 2.476 +- 0.160 150 Q 1.000** 2.479 +- 0.144 156 Y 1.000** 2.479 +- 0.143 166 L 0.998** 2.476 +- 0.158
>C1 MGNKWSKSSLVGWPAVRERMRRARAQDEPAAVGVGAVSQDLDKHGAITVN NTAATNADKAWLEAQEEEEEVGFPVRPQVPLRPMTYKAAIDLSHFLKEKG GLDGLIYSKKRKEILDLWVYNTQGYFPDWQCYTKGPGVRFPLCFGWCFKL VPVDPQEVEEATEGENNCLLHPISQHGMEDEEREVLQWKFDSYLAYRHMA RELHPEYYKDCoooooooooo >C2 MGNIFGRWAGATEVLRRLHAAPAHDGQASKELHERGGLTNNTIGTEKDVA HYSQDHTEEEVGFPVRPAVPMRPMTEKLATDLSWFLKEKGGLDGLIYSTR RAAILDTWMYNTQGVFPDWQNYTPGPGVRYPLCRGWLFKLVPVTPPEDDE RNILLHPANSHGREDPDGDGETLMWQFDTSLARRHIARERHPEYFKoooo ooooooooooooooooooooo >C3 MGGNWSKSSIVGWPTIRERIRRTDPAAEGVGAVSRDLEKHGAITSSNTAQ TNPDCAWLEAQEEEGEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLDG LIWSPKRQEILDLWVYHTQGFFPDWHNYTPGPGIRYPLTFGWCFELVPVE PKEVEEDTEGENNCLLHPMCQHGMEDPEKEVLMWRFNSRLAFEHKAKIKH PEYYKDCoooooooooooooo >C4 MGSKWSKSSIVGWPAVRERMRRTRAEPAAEGVGAASRDLEKHGALTSSNT STTNADCAWLEAQEEAEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGL DGLIYSQKRQEILDLWVYHTQGFFPDWHNYTPGPGVRYPLTFGWCYKLVP VDPREVEEDNKGENNCLLHPMSQHGIEDGDREVLRWQFDSSLARRHLARE LHPEYYKDCoooooooooooo >C5 MGAKWSKSSIVGWPAVRERIRRTNPVTEPAAEGVGAASRDLDKYGALTSS NTPANNADCAWLQAQEEEEEVGFPVRPQVPLRPMTYKEAFDLSFFLKEKG GLEGLLYSKKRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKL VPVDPSEVEEANKGEDNCLLHPASLHGMEDEEGEVLQWKFDSSLARRHLA RELHPEYYKDCoooooooooo >C6 MGSKLSKSSIRGWPAVRERIRRAEPAEGMRRTEPAAEGVGAASRDLERHG ALTSSNTPSNNADCAWLQAQEENEDEVGFPVRPQVPLRPMTYKSAFDLGF FLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTF GWCFKLVPVDPSEVEEANEGENNCLMHPISLHGMEDEHKEVLKWQFDSQL ARRHMARELHPEFYKDCoooo >C7 ISGKWSKCSRWSAVKERMRRARPPAADRAGPPAADKVGAASRDLERYGAI TSSNTAATNADCAWLEAQEEEEVGFPVRPQVPLRPMTYKAAVDLSHFLKE NGGLEGLIYSQKRQDILDLWVYHTQGFFPDWQNYTPGPGIRYPLTFGWCF KLVPVDPDQVEEANEGDNNCLLHPISLHRMDSEGEVLKWKFDSRLAFHHM ARELHPEYYKNCooooooooo >C8 MGGIWSKSSIVGWPAIRERMRRAQPAERRRRAQSAAIGVGAMSQDLDRHG AITINNTPETNADSAWLEAQGEGEEVGFPVRPQVPIRPMTYKAAFDLSFF LKEKGGLDGLTYSKQRQDILDLWVYNTQGFCPDWQNYTPGPGTRFPLTFG WCFKLVPVDPQEVERANEGENNSLLHPISLHGMEDDEGEVLIWKFDSQLA RRHIARELHPEFYKDCooooo >C9 MGGKWSKSSLVGWPAVRDRMRRAEPQAEPAAVGVGAASQDLEKHGAITSS NTAATNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKAAVDLSHFLKEKGG LEGLTWSQNRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLV PLEQEQVEEATAGENNCLLHPISQHGMDDPEKEVLMWKFDSRLAFQHMAR EKHPEYYKDCooooooooooo >C10 MGSKWSKSSKVGWPEVREKMKCTSAAPGVGAVSQDLDKHGAITSSNVNHP SCAWLEAQEEEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGLIYS RKRQEILDLWVYHTQGYFPDWHNYTPGPGVRYPLTFGWCFKLVPVDPDEV EKETEGENNSLLHPMCQHGVDDEEGEVLKWKFDSHLALKHRARELHPEYY KDCoooooooooooooooooo >C11 MGGKWSRSSTSGWPAIRERMKRAEPAADGVGAVSRDLEKHGAITSDNVAS AACIWLESQEEEEVGFPVRPQVPVRPMTYKAAFDLSHFLKEKGGLEGLIY SQRRQDILDLWVYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVEPDT GENSSLLHPMSLHGAEDVEGEVLVWKFDSSLAFHHMAREKHPEYYKDCoo ooooooooooooooooooooo >C12 MGSKLSKSSIVGWPKIRERMRRTPPTAEGAVTEGTATEGAAAVGVGAASR DLDKHGAITSSNTAANNPDCAWLEAQEDEEVGFPVRPQVPLRPMTPRAAR DLSFFLKEEGGLEGLVWSQRRQDILDLWIYHTQGYFPDWQNYTPGPGTRY PLTFGWCFKLVPVEPEEVEKANEGENIRLLHPMSLHGMEDTEKEVLVWKF DSRLAFKHVARELHPEYYKDC >C13 MGGKWSKSSIVGWPEVRERMRRAPPAATGVGAVSQDLDKHGAVTSSNINH PSCVWLEAQEDEDVGFPVRPQAPLRPMTYKAAFDLGFFLKEKGGLDGLIY SKKRQEILDLWVYHTQGFFPDWQNYTPGPGTRFPLTFGWCFKLVPVDPDE VEKANEGENNSLLHPMSQYGMDDEEKEVLMWKFDSSLARRHIARELHPEY YKDCooooooooooooooooo >C14 MGGKWSKLKLEWPAVRERMRQTEPAAAGVGAASRDLEKHGALTINNTASN NADCAWLEAQEDEDVGFPVRPQVPLRPMTYKAALDLSHFLKEKGGLEGLI YSQKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEPE KVEEANEGENNCLLHPISLHGMEDPEGEVLQWKFDSRLAFHHMARELHPE YYKDCoooooooooooooooo >C15 MGGKWSKRGIPGWDTIRERMRRTEPRTEPAAEGVGAVSRDLEQRGAVTTS NTASNNAACAWLEAQGEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGG LEGLIYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGVRFPLTFGWCFKLV PVEPEKVEEATAGENNCLLHPANLHGMDDPEGEVLEWRFDSRLAFHHMAR EKHPEYYKDCooooooooooo >C16 MGGKWSKSSIVGWPEIRERIRRTPPAASGVGAASKDLEKHGAVTSSNQNN ADCTWLKAQEEDEDVGFPVRPQVPLRPMTYKGAFDLGFFLKEKGGLDGLI YSRKRQEILDLWVYHTQGYFPDWQNYTPGPGVRYPLCFGWCFKLVPVDPQ EVEEANKGENNSLLHPISQHGIDDEEGEVLMWKFDTSLARKHIARELHPE FYKDCoooooooooooooooo >C17 MGGKWSKRGKNEWPAVRERMQRAEPAEGVGAVSQDLANHGAITSTNINNA SCVWLEAQEDEEVGFPVRPQVPLRPMTFKAAFDLSFFLKEKGGLEGLVYS SKRQEILDLWVYHTQGFFPDWHNYTPGPGTRYPLTFGWCFKLVPVEPEEV EKANEGENNCLLHPMSQHGVDDPEREVLVWKFDSLLAHRHVARELHPEYY KDCoooooooooooooooooo >C18 MGGKWSKMAGWSTVRERMRRAGPRERPAEPAAAGVGAVSRDLEKHGAITS SNTAATNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKGALDLSHFLKEKG GLEGLIYSQKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLCFGWCFKL VPVDPDKVEEANEGENNCLLHPMSQHGMDDPEREVLVWKFDSHLAFHHKA RELHPEYYKDCoooooooooo >C19 MGGKWSKRSVVGWSAVRERMRRAEPVAEPAAEGVGAASRDLEKYGAITSS NTAATNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKAAVDLSHFLKEMGG LDGLIYSQRRVDILNLWIYHTQGYFPDWQNYTPGPGVRWPLTFGWCFKLV PLEPEQVEEATEGETNSLLHPINQHGMDDPEKEVLVWKFDSLLAFRHMAR EMHPEFYKDCooooooooooo >C20 MGGKWSKNSMNKWPAVRERMRRAEPAADGVGAVSRDLEKHGAITSSNIDN AACAWLEAQEEEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGLIH SQKRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEPGK IEEANEGENNSLLHPMSLHGMEDPEREVLEWKFDSRLAFHHMARELHPEY YKDCooooooooooooooooo >C21 MGGKWSKCRGWSDVRERMRRTEPTTEPAAAGVGAASRDLEKHGALTSSNT STTNADVAWLEAQQEGEEVGFPVRPQVPLRPMTYKGALDLSHFLKEQGGL EGLIHSQKRQDILDLWVYNTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVP VEPDQVEKATEGENNCLLHPMSQHGMDDSEREVLIWKFDSRLAFQHVARE IHPEYYKDCoooooooooooo >C22 MGGKWSKCSVVGWSRVRERMRRTEPAADGVGAVSRDLEKHGAITSSNTAT NNAACAWLEAQEEEEVGFPVRPQVPLRPMTYKAAVDLSHFLKEQGGLEGL IYSQSRQDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEP EKIEKANEGENNSLLHPVSLHGMDDPEGEVLEWRFDSRLAFHHMARELHP EYYKNCooooooooooooooo >C23 MGGKWSKSSIVGWPEVRERLRRTEPAAEGVGTASQDLDKYGALTINNSGP TNAACAWLEAQEEDGEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLDG LIYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPVD PGEVEEANKGENNCLLHPLSQHGMEDEDREVLKWQFDSSLARRHLARELH PEYYKDCoooooooooooooo >C24 MGGKWSKCSMAGWTRVRERMERAEPAAEPAADGVGAVSRDLAQHGAITSS NTANADCAWLEAQEDEEVGFPVRPQVPLRPMTYKGAFDLSHFLREKGGLD GLIYSQKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPV DPQQVEEDNKEENNSLLHPMSQHGIDDPEREVLMWKFDSRLAFHHVAREK HPEYYKDCooooooooooooo >C25 MGNKWSKSSIVGWANVRERMRRTEPAAERMRRTEPAAEGVGAASRDLDRY GALTTSNTAHNNADCAWLQAQEEEEEVGFPVRPQVPLRPMTFKAAFDLSF FLKEKGGLEGLIWSKRRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTF GWCFKLVPVDPSEVEEANKGENNCLLHPMSQHGIEDEEGEVLKWVFDSSL ARRHLAREKHPEYYKDCoooo >C26 MGGKWSKRRIVGWPEIRERIRRTSPTAAAEGVGAASKDLDKYGAITSSNI GNDACTWLEAQEEADEVGFPVRPQVPIRPMTYKAAFDLGFFLKEKGGLDG LIYSRKRQEILDLWVYHTQGFCPDWQNYTPGPGIRYPLCFGWCFKLVPVD PKEVEEANEGENNSLLHPICQHGMDDEEGEVLMWKFDSSLARKHIARELH PDFYKDooooooooooooooo >C27 MGGKWSKSSLVGWPKVRERIRQTPVSERAAKGVGAVSQDLDRRGAITSSN TGSTNADCAWLEAQEEEEVGFPVRPQVPLRPMTYKAAFDLSHFLKEKGGL DGLIHSQKRQDILDLWVYHTQGFFPDWQNYTPGPGTRFPLTFGWCFKLVP MDPAEVEEANKGENNSLLHPICQHGIEDTDRQVLVWRFDSSLAFKHRAQE LHPEFYKDCoooooooooooo >C28 MGGKWSKSSVVGWPAVRERMKRTEPAADGVGAVSRDLEKHGAITSSNTNN AACVWLEAQEDEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLIH SQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEPEK VEEATEGENNRLLHPISLHGMDDPEKEVLMWKFDSSLAFHHRARELHPEY FKDCooooooooooooooooo >C29 MGGKWSKSSIVGWPQVRERIRQTPPAAEGVGAVSQDLDKHGAVTSSNMNN ADCVWLEAQEDEEVGFPVTPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIY SKKRQEILDLWVYHTQGFFPDWHNYTPGPGIRYPLCFGWCFKLVPVDPRE IEEANKGENSCLLHPMSQHGMEDEEREVLMWKFDSSLARTHIARTKHPEY YKDoooooooooooooooooo >C30 MGGKWSKCSGWPVVRERMRRAQPAAERMRRAQPAAEGVGTASQDLDRHGA LTTSNTDTNNAACAWLRAQEEEEEEVGFPVRPQVPLRPMTYKGAFDLSFF LKEKGGLEGLIYSKKRQEILDLWVYHTQGYFPDWHNYTPGPGIRYPLTFG WCFKLVPVDPREVEEANEGENNCLLHPMSQHGMDDEEKEVLQWKFDSHLA YRHMARELHPEWYKDoooooo >C31 MGGKWSKSSMVGWPAVRERMRRAEPAAEGVGAVSRDLERHGAITSSNTAK NNAALAWLEAQEEEEVGFPVRPQVPLRPMTYKAAIDLSHFLKEKGGLEGL IYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEP EKVEAANEGENNCLLHPMSLHGMEDSEGEVLQWKFDSRLALRHMAREKHP EYYKDCooooooooooooooo >C32 MGGKWSKCSTREWAAVRERMRRTEPRERTRQAEPAAEGVGAASRDLEQRG ALTTSNTASNNDTCAWLEAQEEEEVGFPVRPQVPLRPMTYKAALDLSHFL KEKGGLEGLIYSQKRQDILDLWVYHTQGFFPDWQGYTPGPGVRYPLTFGW CFKLVPVDPETNEGENSSLLHPISLHGMDDPEREVLMWKFDSRLAFHHMA KDMHPEYYKNCoooooooooo >C33 MGGKWSKRKAEWPAIRERMEKVEPAADGVGAASRDLEKHGAITSSNTPAT NAACAWLEAQQEGEEVGFPVRPQVPLRPMTYKGAFDLSHFLREKGGLEGL IHSQQRQDILDLWVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVDQ EKVEEANAGEDKCLLHPMSQHGMDDPEKEVLMWKFDSRLAFHHMAREKHP EYYKNoooooooooooooooo >C34 MGGKWSKSSLVGWPTIRERMKRAEPAADGVGAASRGLENMEHTLLEAQEE EEVGFPVRPQVPLRPMTYRAAVDLSHFLKEKGGLEGLIYSQKRQEILDLW VYHTQGFLPDWQNYTPGPGTRYPLTYGWCFKLVPVDPEKVEEANEGENNS LLHPMSLHGMEDSEKEVLAWRFDSRLAFHHVAREKHPEYYKDCooooooo ooooooooooooooooooooo >C35 MGGKWSKSKGWSAVRERMRRTEPAAEGVGAASQDLDKHGAFTSSNTVTNN AACAWLEAQEEGDEVGFPVRPQVPLRPMTYKGAFDLGFFLKEKGGLDGLI HSKKRQDILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWPFKLVPIDPR EVEEANKEDNSCLLHPMSQHGMDDDHREVLKWQFDSSLARRHMARELHPE FYKDCoooooooooooooooo >C36 MGNAWSKSKFAGWSEVRNRMRQSSPDPQPCAPGVGAVSRELADRGGIPSS YTPQNNAALAFLTAHEDEDVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGG LEGLIYSHKRAEILDLWVHHTQGFFPDWQCYTPGPGIRYPLTFGWLYKLV PVTAEEAERLGNTREDASLLHPACNHGAEDAHGEILKWQFDRTLGLTHVA LQKHPELFPKooooooooooo >C37 MGSKWSKSSIVGWPEIRERMRRARARAEPAAEGVGAASRDLDRHGALTSS NTPTNNPDCAWLEAQEDEEVGFPARPQVPLRPMTYKGAFDLGFFLKEKGG LDGLIYSKKRQEILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLV PVDPKEVEEDNSGENNSLLHPMSQHGIEDEDREVLKWQFDNSLARRHVAR ELHPEYYKDCooooooooooo >C38 MGGKWSKSSIVGWPQIRERIRRTPPAAEGVGAVSQDLDKHGAITSTNMNN ADCVWLEAQEEEEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLDGLIY SKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRFPLCFGWCFKLVPVDPKE VEEENKGENSCLLHPMNQHGIGDDEGEVLMWKFDSALARTHRARELHPEY YKDoooooooooooooooooo >C39 MGGKWSKRSEGGWPAIRERMRRARPADGAADGVGAASRDLATRGAITSSN TADSNAACAWLEAQEDGEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGG LEGLIYSQQRQDILDLWVYNTQGYFPDWQNYTPGPGTRFPLTFGWCFKLV PVDKEQVEKANEGENNCLLHPISLHGTEDPEKEVLMWKFDSKLAFHHVAR ELHPEYYKDCooooooooooo >C40 MGGKWSKSSIVGWPNVRERMRRTEPAAEGVGAASQDLDKHGALTTSNTPT NNADCAWLQAQEEEEEVGFPVRPQVPVRPITFKAAFDLSFFLKEKGGLDG LIHSQQRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVD PREVEEANQGEDNCLLHPMHQHGMGDPDREVLQWKFDSMLAHRHMARELH PEFYKDCoooooooooooooo >C41 MGGKWSKCGLGGWPAVRERMRRAEPAADGVGAASRDLEKHGAITSSNTAA TNADCAWVEAQEEGEEVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEG LIYSQKRKDILDLWVYHTQGFFPDWDNYTPGPGVRYPLTFGWCFKLVPVE QEDVEKANEGENNSLLHPICTHGMDDPEGEVLQWKFDSRLAFHHMARDLH PEFYKNCoooooooooooooo >C42 MGGKWSKNWRAGWSTVRERIIRTDPRAGRRGQAEPAADGVGAVSQDLAAH GAITSSNTAATNADCAWLEAQEEEEEVGFPVKPQVPLRPMTYKGALDLSH FLKEKGGLEGIIYSQQRQDILDLWVYNTQGYFPDWQNYTPGPGTRFPLTF GWCFKLVPVEPEDVEKANEGENNCLLHPMSQHGIDDPEKEVLMWKFDSRL AFHHMARELHPEYFKDCoooo >C43 MGGKWSKSSIVGWPKVRERIVQTPPAAIGVGAASQDLDRHGAITSSNTAQ TNANCAWLEAQEDEEVGFPVKPQVPLRPMTFKAAVDLSHFLKEKGGLEGL IYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGTRYPLTFGWCFKLVPMDP ADVEEDNKGENTSLLHPICQHGMEDEDREVLVWKFDSMLAFKHKARELHP EFYKDCooooooooooooooo >C44 MGSKWSKSSIVGWPAVRERMRKTTPPAEGVGAASQDLDKHGALTSSNTPT NNADCAWLQAQEEESEVGFPVRPQVPLRPMTYKAAFDLGFFLKEKGGLDG LIYSKQRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPVD PKEVEEANEGENNCLLHPISLQGMEDEEREVLKWQFDSSLARRHMARELH PEYYKDCoooooooooooooo >C45 MGNKWSKSSIVGWPQVRERIRQTPPAAEGVGAVSQDLDKHGAVTSSNINN ADSVWLRAQEEGDDEGVGFPVRPQVPLRPMTYKGAFDLGFFLKEKGGLDG LIYSQKRKEILDLWVYNTQGFFPDWQNYTPGPGVRYPLCFGWCFKLVPVD PREVEEDTKGENSCLLHPMSQHGFEDGEREVLMWKFDSALARRHIARELH PDYYKDCoooooooooooooo >C46 MGGKWSKKSQGGWTTVRERIKQTEPAADGVGAASRDLEKHGALTSSNTVT NNAACAWLEAQEDEDVGFPVRPQVPLRPMTYKAAFDLSHFLKEKGGLEGL IYSQKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVDP GEVEEDNKGENNSLLHPMSLHGAEDPEREVLVWKFDSRLAYHHMAREMYP EYYKNCooooooooooooooo >C47 MGGKWSKNSVGGWSKVRERMKRAEPAADGGGAVSRDLEKHGAITSSNTAA NNATCAWLEAQEEEEVGFPVRPQVPLRPMTYRAAVDLSHFLRKEGGLEGL VFSQRRQDILDLWIYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPAEV 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SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 processors: --- Process Method/Library/Aln Sinput.prot.fasta.muscle_rs_0_0.fasta.aln -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] [Relax Library][TOT= 6][ 0 %][ELAPSED TIME: 0 sec.] [Relax Library][TOT= 6][ 33 %][ELAPSED TIME: 0 sec.] [Relax Library][TOT= 6][ 50 %][ELAPSED TIME: 0 sec.] [Relax Library][TOT= 6][ 66 %][ELAPSED TIME: 0 sec.] [Relax Library][TOT= 6][ 83 %][ELAPSED TIME: 0 sec.] [Relax Library][TOT= 6][100 %][ELAPSED TIME: 0 sec.] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] -email S [0] -clean_overaln D [0] 0 -overaln_param S [0] -overaln_mode S [0] -overaln_model S [0] -overaln_threshold D [0] 0 -overaln_target D [0] 0 -overaln_P1 D [0] 0 -overaln_P2 D [0] 0 -overaln_P3 D [0] 0 -overaln_P4 D [0] 0 -exon_boundaries S [0] -dump S [0] no -display D [0] 100 INPUT FILES Input File (S) input.prot.fasta.muscle_rs_0_0.fasta.aln Format clustal_aln Input File (M) proba_pair Identify Master Sequences [no]: Master Sequences Identified INPUT SEQUENCES: 50 SEQUENCES [PROTEIN] Multi Core Mode: 8 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: [805538] Library Relaxation: Multi_proc [8] Relaxation Summary: [805538]--->[631233] 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= 32.066 Mb, Max= 48.179 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 MGNKWSKWPAVRERMRRAAVGAVSQDLDNADKAWLEAQEEEEVGFPVRPQ C2 MGNIFGRWAGATEVLRRLHDGQASKELHKDVAHYSQDHTEEEVGFPVRPA C3 MGGNWSKWPTIRERIRRTAEGAVSRDLENPDCAWLEAQEEGEVGFPVRPQ C4 MGSKWSKWPAVRERMRRTAEGAASRDLENADCAWLEAQEEEEVGFPVRPQ C5 MGAKWSKWPAVRERIRRTAEGAASRDLDNADCAWLQAQEEEEVGFPVRPQ C6 MGSKLSKWPAVRERIRRAAEGAASRDLENADCAWLQAQEEDEVGFPVRPQ C7 ISGKWSKWSAVKERMRRAADGAASRDLENADCAWLEAQEEEEVGFPVRPQ C8 MGGIWSKWPAIRERMRRAAIGAMSQDLDNADSAWLEAQGEEEVGFPVRPQ C9 MGGKWSKWPAVRDRMRRAAVGAASQDLENADCAWLEAQEDEEVGFPVKPQ C10 MGSKWSKWPEVREKMKCTAPGAVSQDLDHPSCAWLEAQEEEEVGFPVRPQ C11 MGGKWSRWPAIRERMKRAADGAVSRDLESAACIWLESQEEEEVGFPVRPQ C12 MGSKLSKWPKIRERMRRTAVGAASRDLDNPDCAWLEAQEDEEVGFPVRPQ C13 MGGKWSKWPEVRERMRRAATGAVSQDLDHPSCVWLEAQEDEDVGFPVRPQ C14 MGGKWSKWPAVRERMRQTAAGAASRDLENADCAWLEAQEDEDVGFPVRPQ C15 MGGKWSKWDTIRERMRRTAEGAVSRDLENAACAWLEAQGEEEVGFPVRPQ C16 MGGKWSKWPEIRERIRRTASGAASKDLENADCTWLKAQEEEDVGFPVRPQ C17 MGGKWSKWPAVRERMQRAAEGAVSQDLANASCVWLEAQEDEEVGFPVRPQ C18 MGGKWSKWSTVRERMRRAAAGAVSRDLENADCAWLEAQEDEEVGFPVKPQ C19 MGGKWSKWSAVRERMRRAAEGAASRDLENADCAWLEAQEDEEVGFPVKPQ C20 MGGKWSKWPAVRERMRRAADGAVSRDLENAACAWLEAQEEEEVGFPVRPQ C21 MGGKWSKWSDVRERMRRTAAGAASRDLENADVAWLEAQQEEEVGFPVRPQ C22 MGGKWSKWSRVRERMRRTADGAVSRDLENAACAWLEAQEEEEVGFPVRPQ C23 MGGKWSKWPEVRERLRRTAEGTASQDLDNAACAWLEAQEEGEVGFPVRPQ C24 MGGKWSKWTRVRERMERAADGAVSRDLANADCAWLEAQEDEEVGFPVRPQ C25 MGNKWSKWANVRERMRRTAEGAASRDLDNADCAWLQAQEEEEVGFPVRPQ C26 MGGKWSKWPEIRERIRRTAEGAASKDLDNDACTWLEAQEEDEVGFPVRPQ C27 MGGKWSKWPKVRERIRQTAKGAVSQDLDNADCAWLEAQEEEEVGFPVRPQ C28 MGGKWSKWPAVRERMKRTADGAVSRDLENAACVWLEAQEDEEVGFPVRPQ C29 MGGKWSKWPQVRERIRQTAEGAVSQDLDNADCVWLEAQEDEEVGFPVTPQ C30 MGGKWSKWPVVRERMRRAAEGTASQDLDNAACAWLRAQEEEEVGFPVRPQ C31 MGGKWSKWPAVRERMRRAAEGAVSRDLENAALAWLEAQEEEEVGFPVRPQ C32 MGGKWSKWAAVRERMRRTAEGAASRDLENDTCAWLEAQEEEEVGFPVRPQ C33 MGGKWSKWPAIRERMEKVADGAASRDLENAACAWLEAQQEEEVGFPVRPQ C34 MGGKWSKWPTIRERMKRAADGAASRGLENMEHTLLEAQEEEEVGFPVRPQ C35 MGGKWSKWSAVRERMRRTAEGAASQDLDNAACAWLEAQEEDEVGFPVRPQ C36 MGNAWSKWSEVRNRMRQSAPGAVSRELANAALAFLTAHEDEDVGFPVRPQ C37 MGSKWSKWPEIRERMRRAAEGAASRDLDNPDCAWLEAQEDEEVGFPARPQ C38 MGGKWSKWPQIRERIRRTAEGAVSQDLDNADCVWLEAQEEEEVGFPVRPQ C39 MGGKWSKWPAIRERMRRAADGAASRDLANAACAWLEAQEDEEVGFPVRPQ C40 MGGKWSKWPNVRERMRRTAEGAASQDLDNADCAWLQAQEEEEVGFPVRPQ C41 MGGKWSKWPAVRERMRRAADGAASRDLENADCAWVEAQEEEEVGFPVRPQ C42 MGGKWSKWSTVRERIIRTADGAVSQDLANADCAWLEAQEEEEVGFPVKPQ C43 MGGKWSKWPKVRERIVQTAIGAASQDLDNANCAWLEAQEDEEVGFPVKPQ C44 MGSKWSKWPAVRERMRKTAEGAASQDLDNADCAWLQAQEESEVGFPVRPQ C45 MGNKWSKWPQVRERIRQTAEGAVSQDLDNADSVWLRAQEEEGVGFPVRPQ C46 MGGKWSKWTTVRERIKQTADGAASRDLENAACAWLEAQEDEDVGFPVRPQ C47 MGGKWSKWSKVRERMKRAADGAVSRDLENATCAWLEAQEEEEVGFPVRPQ C48 MGGKWSKWPRIRDRMRRTAVGAVSRDLENAECAWLEAQEEEEVGFPVRPQ C49 MGGKWSKWPAVRERMRRTAEGAASRDLENSDCAWLEAQEDEEVGFPVRPQ C50 MGNKWSKWDEVREKMRQTATGAVSQDLDHPDCTWLKAQEEEEVGFPVRPQ :. .:* : : * *: * : : ****. * C1 VPLRPMTYKAAIDLSHFLKEKGGLDGLIYSKKRKEILDLWVYNTQGYFPD C2 VPMRPMTEKLATDLSWFLKEKGGLDGLIYSTRRAAILDTWMYNTQGVFPD C3 VPLRPMTYKGAVDLSHFLKEKGGLDGLIWSPKRQEILDLWVYHTQGFFPD C4 VPLRPMTYKGAFDLSFFLKEKGGLDGLIYSQKRQEILDLWVYHTQGFFPD C5 VPLRPMTYKEAFDLSFFLKEKGGLEGLLYSKKRQDILDLWVYNTQGFFPD C6 VPLRPMTYKSAFDLGFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPD C7 VPLRPMTYKAAVDLSHFLKENGGLEGLIYSQKRQDILDLWVYHTQGFFPD C8 VPIRPMTYKAAFDLSFFLKEKGGLDGLTYSKQRQDILDLWVYNTQGFCPD C9 VPLRPMTYKAAVDLSHFLKEKGGLEGLTWSQNRQDILDLWVYHTQGYFPD C10 VPLRPMTYKGAVDLSHFLKEKGGLEGLIYSRKRQEILDLWVYHTQGYFPD C11 VPVRPMTYKAAFDLSHFLKEKGGLEGLIYSQRRQDILDLWVYNTQGYFPD C12 VPLRPMTPRAARDLSFFLKEEGGLEGLVWSQRRQDILDLWIYHTQGYFPD C13 APLRPMTYKAAFDLGFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPD C14 VPLRPMTYKAALDLSHFLKEKGGLEGLIYSQKRQEILDLWVYHTQGYFPD C15 VPLRPMTYKGALDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGYFPD C16 VPLRPMTYKGAFDLGFFLKEKGGLDGLIYSRKRQEILDLWVYHTQGYFPD C17 VPLRPMTFKAAFDLSFFLKEKGGLEGLVYSSKRQEILDLWVYHTQGFFPD C18 VPLRPMTYKGALDLSHFLKEKGGLEGLIYSQKRQEILDLWVYHTQGYFPD C19 VPLRPMTYKAAVDLSHFLKEMGGLDGLIYSQRRVDILNLWIYHTQGYFPD C20 VPLRPMTYKGAVDLSHFLKEKGGLEGLIHSQKRQDILDLWVYHTQGYFPD C21 VPLRPMTYKGALDLSHFLKEQGGLEGLIHSQKRQDILDLWVYNTQGYFPD C22 VPLRPMTYKAAVDLSHFLKEQGGLEGLIYSQSRQDILDLWVYHTQGYFPD C23 VPLRPMTFKGAFDLSFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPD C24 VPLRPMTYKGAFDLSHFLREKGGLDGLIYSQKRQEILDLWVYHTQGYFPD C25 VPLRPMTFKAAFDLSFFLKEKGGLEGLIWSKRRQEILDLWVYHTQGFFPD C26 VPIRPMTYKAAFDLGFFLKEKGGLDGLIYSRKRQEILDLWVYHTQGFCPD C27 VPLRPMTYKAAFDLSHFLKEKGGLDGLIHSQKRQDILDLWVYHTQGFFPD C28 VPLRPMTYKGALDLSHFLKEKGGLEGLIHSQKRQDILDLWVYHTQGYFPD C29 VPLRPMTYKGAFDLSFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPD C30 VPLRPMTYKGAFDLSFFLKEKGGLEGLIYSKKRQEILDLWVYHTQGYFPD C31 VPLRPMTYKAAIDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGYFPD C32 VPLRPMTYKAALDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGFFPD C33 VPLRPMTYKGAFDLSHFLREKGGLEGLIHSQQRQDILDLWVYNTQGYFPD C34 VPLRPMTYRAAVDLSHFLKEKGGLEGLIYSQKRQEILDLWVYHTQGFLPD C35 VPLRPMTYKGAFDLGFFLKEKGGLDGLIHSKKRQDILDLWVYHTQGYFPD C36 VPLRPMTFKGAFDLSFFLKEKGGLEGLIYSHKRAEILDLWVHHTQGFFPD C37 VPLRPMTYKGAFDLGFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGYFPD C38 VPLRPMTFKGAFDLSFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGFFPD C39 VPLRPMTYKGAVDLSHFLKEKGGLEGLIYSQQRQDILDLWVYNTQGYFPD C40 VPVRPITFKAAFDLSFFLKEKGGLDGLIHSQQRQDILDLWVYNTQGFFPD C41 VPLRPMTYKAAVDLSHFLKEKGGLEGLIYSQKRKDILDLWVYHTQGFFPD C42 VPLRPMTYKGALDLSHFLKEKGGLEGIIYSQQRQDILDLWVYNTQGYFPD C43 VPLRPMTFKAAVDLSHFLKEKGGLEGLIYSKKRQEILDLWVYHTQGFFPD C44 VPLRPMTYKAAFDLGFFLKEKGGLDGLIYSKQRQDILDLWVYNTQGFFPD C45 VPLRPMTYKGAFDLGFFLKEKGGLDGLIYSQKRKEILDLWVYNTQGFFPD C46 VPLRPMTYKAAFDLSHFLKEKGGLEGLIYSQKRQEILDLWVYHTQGYFPD C47 VPLRPMTYRAAVDLSHFLRKEGGLEGLVFSQRRQDILDLWIYNTQGYFPD C48 VPLRPMTYKAAVDISHFLKEKGGLEGLIHSQKRQDILDLWIYHTQGYFPD C49 VPLRPMTYKEAVDLSHFLKEKGGLEGLVWSQKRQDILDLWVYHTQGFFPD C50 VPVRPMTYKGALDLSHFLKEKGGLEGLIYSRQRKDILDLWVYNTQGFFPD .*:**:* : * *:. **:: ***:*: * * **: *:::*** ** C1 WQCYTKGPGVRFPLCFGWCFKLVPVDEGENNCLLHPISQHGMDEEREVLQ C2 WQNYTPGPGVRYPLCRGWLFKLVPVTDDERNILLHPANSHGRDPDGETLM C3 WHNYTPGPGIRYPLTFGWCFELVPVEEGENNCLLHPMCQHGMDPEKEVLM C4 WHNYTPGPGVRYPLTFGWCYKLVPVDKGENNCLLHPMSQHGIDGDREVLR C5 WQNYTPGPGVRYPLTFGWCFKLVPVDKGEDNCLLHPASLHGMDEEGEVLQ C6 WQNYTPGPGVRYPLTFGWCFKLVPVDEGENNCLMHPISLHGMDEHKEVLK C7 WQNYTPGPGIRYPLTFGWCFKLVPVDEGDNNCLLHPISLHRMDSEGEVLK C8 WQNYTPGPGTRFPLTFGWCFKLVPVDEGENNSLLHPISLHGMDDEGEVLI C9 WQNYTPGPGIRYPLTFGWCFKLVPLEAGENNCLLHPISQHGMDPEKEVLM C10 WHNYTPGPGVRYPLTFGWCFKLVPVDEGENNSLLHPMCQHGVDEEGEVLK C11 WQNYTPGPGVRYPLTFGWCFKLVPVETGENSSLLHPMSLHGADVEGEVLV C12 WQNYTPGPGTRYPLTFGWCFKLVPVEEGENIRLLHPMSLHGMDTEKEVLV C13 WQNYTPGPGTRFPLTFGWCFKLVPVDEGENNSLLHPMSQYGMDEEKEVLM C14 WQNYTPGPGTRFPLTFGWCFKLVPVEEGENNCLLHPISLHGMDPEGEVLQ C15 WQNYTPGPGVRFPLTFGWCFKLVPVEAGENNCLLHPANLHGMDPEGEVLE C16 WQNYTPGPGVRYPLCFGWCFKLVPVDKGENNSLLHPISQHGIDEEGEVLM C17 WHNYTPGPGTRYPLTFGWCFKLVPVEEGENNCLLHPMSQHGVDPEREVLV C18 WQNYTPGPGTRFPLCFGWCFKLVPVDEGENNCLLHPMSQHGMDPEREVLV C19 WQNYTPGPGVRWPLTFGWCFKLVPLEEGETNSLLHPINQHGMDPEKEVLV C20 WQNYTPGPGIRYPLTFGWCFKLVPVEEGENNSLLHPMSLHGMDPEREVLE C21 WQNYTPGPGTRYPLTFGWCFKLVPVEEGENNCLLHPMSQHGMDSEREVLI C22 WQNYTPGPGTRFPLTFGWCFKLVPVEEGENNSLLHPVSLHGMDPEGEVLE C23 WQNYTPGPGVRYPLTFGWCYKLVPVDKGENNCLLHPLSQHGMDEDREVLK C24 WQNYTPGPGTRFPLTFGWCFKLVPVDKEENNSLLHPMSQHGIDPEREVLM C25 WQNYTPGPGVRYPLTFGWCFKLVPVDKGENNCLLHPMSQHGIDEEGEVLK C26 WQNYTPGPGIRYPLCFGWCFKLVPVDEGENNSLLHPICQHGMDEEGEVLM C27 WQNYTPGPGTRFPLTFGWCFKLVPMDKGENNSLLHPICQHGIDTDRQVLV C28 WQNYTPGPGTRFPLTFGWCFKLVPVEEGENNRLLHPISLHGMDPEKEVLM C29 WHNYTPGPGIRYPLCFGWCFKLVPVDKGENSCLLHPMSQHGMDEEREVLM C30 WHNYTPGPGIRYPLTFGWCFKLVPVDEGENNCLLHPMSQHGMDEEKEVLQ C31 WQNYTPGPGTRFPLTFGWCFKLVPVEEGENNCLLHPMSLHGMDSEGEVLQ C32 WQGYTPGPGVRYPLTFGWCFKLVPVDEGENSSLLHPISLHGMDPEREVLM C33 WQNYTPGPGIRYPLTFGWCFKLVPVDAGEDKCLLHPMSQHGMDPEKEVLM C34 WQNYTPGPGTRYPLTYGWCFKLVPVDEGENNSLLHPMSLHGMDSEKEVLA C35 WQNYTPGPGVRYPLTFGWPFKLVPIDKEDNSCLLHPMSQHGMDDHREVLK C36 WQCYTPGPGIRYPLTFGWLYKLVPVTTREDASLLHPACNHGADAHGEILK C37 WQNYTPGPGVRYPLTFGWCYKLVPVDSGENNSLLHPMSQHGIDEDREVLK C38 WQNYTPGPGVRFPLCFGWCFKLVPVDKGENSCLLHPMNQHGIDDEGEVLM C39 WQNYTPGPGTRFPLTFGWCFKLVPVDEGENNCLLHPISLHGTDPEKEVLM C40 WQNYTPGPGVRYPLTFGWCFKLVPVDQGEDNCLLHPMHQHGMDPDREVLQ C41 WDNYTPGPGVRYPLTFGWCFKLVPVEEGENNSLLHPICTHGMDPEGEVLQ C42 WQNYTPGPGTRFPLTFGWCFKLVPVEEGENNCLLHPMSQHGIDPEKEVLM C43 WQNYTPGPGTRYPLTFGWCFKLVPMDKGENTSLLHPICQHGMDEDREVLV C44 WQNYTPGPGVRYPLTFGWCYKLVPVDEGENNCLLHPISLQGMDEEREVLK C45 WQNYTPGPGVRYPLCFGWCFKLVPVDKGENSCLLHPMSQHGFDGEREVLM C46 WQNYTPGPGTRFPLTFGWCFKLVPVDKGENNSLLHPMSLHGADPEREVLV C47 WQNYTPGPGIRYPLTFGWCFKLVPAEEGENNCLLHPINQHGMDPEREVLV C48 WQNYTPGPGVRYPLTFGWCFKLVPVEEGENNCLLHPMSQHGMDPEREVLQ C49 WQNYTPGPGIRLPLTFGWCFKLILLDEGERNTLLHPMSQHGMDPEREVLV C50 WQNYTPGPGIRYPLTFGWCYKLVPVDEGETNSLLHPMCQHGMDEERETLQ *. ** *** * ** ** ::*: : *:** * . : * C1 WKFDSYLAYRHMARELHPEYYKDC C2 WQFDTSLARRHIARERHPEYFKoo C3 WRFNSRLAFEHKAKIKHPEYYKDC C4 WQFDSSLARRHLARELHPEYYKDC C5 WKFDSSLARRHLARELHPEYYKDC C6 WQFDSQLARRHMARELHPEFYKDC C7 WKFDSRLAFHHMARELHPEYYKNC C8 WKFDSQLARRHIARELHPEFYKDC C9 WKFDSRLAFQHMAREKHPEYYKDC C10 WKFDSHLALKHRARELHPEYYKDC C11 WKFDSSLAFHHMAREKHPEYYKDC C12 WKFDSRLAFKHVARELHPEYYKDC C13 WKFDSSLARRHIARELHPEYYKDC C14 WKFDSRLAFHHMARELHPEYYKDC C15 WRFDSRLAFHHMAREKHPEYYKDC C16 WKFDTSLARKHIARELHPEFYKDC C17 WKFDSLLAHRHVARELHPEYYKDC C18 WKFDSHLAFHHKARELHPEYYKDC C19 WKFDSLLAFRHMAREMHPEFYKDC C20 WKFDSRLAFHHMARELHPEYYKDC C21 WKFDSRLAFQHVAREIHPEYYKDC C22 WRFDSRLAFHHMARELHPEYYKNC C23 WQFDSSLARRHLARELHPEYYKDC C24 WKFDSRLAFHHVAREKHPEYYKDC C25 WVFDSSLARRHLAREKHPEYYKDC C26 WKFDSSLARKHIARELHPDFYKDo C27 WRFDSSLAFKHRAQELHPEFYKDC C28 WKFDSSLAFHHRARELHPEYFKDC C29 WKFDSSLARTHIARTKHPEYYKDo C30 WKFDSHLAYRHMARELHPEWYKDo C31 WKFDSRLALRHMAREKHPEYYKDC C32 WKFDSRLAFHHMAKDMHPEYYKNC C33 WKFDSRLAFHHMAREKHPEYYKNo C34 WRFDSRLAFHHVAREKHPEYYKDC C35 WQFDSSLARRHMARELHPEFYKDC C36 WQFDRTLGLTHVALQKHPELFPKo C37 WQFDNSLARRHVARELHPEYYKDC C38 WKFDSALARTHRARELHPEYYKDo C39 WKFDSKLAFHHVARELHPEYYKDC C40 WKFDSMLAHRHMARELHPEFYKDC C41 WKFDSRLAFHHMARDLHPEFYKNC C42 WKFDSRLAFHHMARELHPEYFKDC C43 WKFDSMLAFKHKARELHPEFYKDC C44 WQFDSSLARRHMARELHPEYYKDC C45 WKFDSALARRHIARELHPDYYKDC C46 WKFDSRLAYHHMAREMYPEYYKNC C47 WKFDSSLAFHHMARELHPEYYKNC C48 WKFDSRLAFHHMARELHPEYYKDC C49 WKFDSRLAFHHMAREKHPEFYKDC C50 WKFDSRLAFKHYARELHPEFYKDC * *: *. * * :*: : 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:89 BS:94 # TC_SIMILARITY_MATRIX_FORMAT_01 # SEQ_INDEX C1 0 # SEQ_INDEX C2 1 # SEQ_INDEX C3 2 # SEQ_INDEX C4 3 # SEQ_INDEX C5 4 # SEQ_INDEX C6 5 # SEQ_INDEX C7 6 # SEQ_INDEX C8 7 # SEQ_INDEX C9 8 # SEQ_INDEX C10 9 # SEQ_INDEX C11 10 # SEQ_INDEX C12 11 # SEQ_INDEX C13 12 # SEQ_INDEX C14 13 # SEQ_INDEX C15 14 # SEQ_INDEX C16 15 # SEQ_INDEX C17 16 # SEQ_INDEX C18 17 # SEQ_INDEX C19 18 # SEQ_INDEX C20 19 # SEQ_INDEX C21 20 # SEQ_INDEX C22 21 # SEQ_INDEX C23 22 # SEQ_INDEX C24 23 # SEQ_INDEX C25 24 # SEQ_INDEX C26 25 # SEQ_INDEX C27 26 # SEQ_INDEX C28 27 # SEQ_INDEX C29 28 # SEQ_INDEX C30 29 # SEQ_INDEX C31 30 # SEQ_INDEX C32 31 # SEQ_INDEX C33 32 # SEQ_INDEX C34 33 # SEQ_INDEX C35 34 # SEQ_INDEX C36 35 # SEQ_INDEX C37 36 # SEQ_INDEX C38 37 # SEQ_INDEX C39 38 # SEQ_INDEX C40 39 # SEQ_INDEX C41 40 # SEQ_INDEX C42 41 # SEQ_INDEX C43 42 # SEQ_INDEX C44 43 # SEQ_INDEX C45 44 # SEQ_INDEX C46 45 # SEQ_INDEX C47 46 # SEQ_INDEX C48 47 # SEQ_INDEX C49 48 # SEQ_INDEX C50 49 # PW_SEQ_DISTANCES BOT 0 1 59.22 C1 C2 59.22 TOP 1 0 59.22 C2 C1 59.22 BOT 0 2 77.88 C1 C3 77.88 TOP 2 0 77.88 C3 C1 77.88 BOT 0 3 81.74 C1 C4 81.74 TOP 3 0 81.74 C4 C1 81.74 BOT 0 4 81.45 C1 C5 81.45 TOP 4 0 81.45 C5 C1 81.45 BOT 0 5 79.07 C1 C6 79.07 TOP 5 0 79.07 C6 C1 79.07 BOT 0 6 78.24 C1 C7 78.24 TOP 6 0 78.24 C7 C1 78.24 BOT 0 7 80.09 C1 C8 80.09 TOP 7 0 80.09 C8 C1 80.09 BOT 0 8 81.82 C1 C9 81.82 TOP 8 0 81.82 C9 C1 81.82 BOT 0 9 80.66 C1 C10 80.66 TOP 9 0 80.66 C10 C1 80.66 BOT 0 10 78.85 C1 C11 78.85 TOP 10 0 78.85 C11 C1 78.85 BOT 0 11 74.29 C1 C12 74.29 TOP 11 0 74.29 C12 C1 74.29 BOT 0 12 81.31 C1 C13 81.31 TOP 12 0 81.31 C13 C1 81.31 BOT 0 13 83.26 C1 C14 83.26 TOP 13 0 83.26 C14 C1 83.26 BOT 0 14 76.36 C1 C15 76.36 TOP 14 0 76.36 C15 C1 76.36 BOT 0 15 79.53 C1 C16 79.53 TOP 15 0 79.53 C16 C1 79.53 BOT 0 16 78.87 C1 C17 78.87 TOP 16 0 78.87 C17 C1 78.87 BOT 0 17 83.03 C1 C18 83.03 TOP 17 0 83.03 C18 C1 83.03 BOT 0 18 79.09 C1 C19 79.09 TOP 18 0 79.09 C19 C1 79.09 BOT 0 19 81.31 C1 C20 81.31 TOP 19 0 81.31 C20 C1 81.31 BOT 0 20 78.08 C1 C21 78.08 TOP 20 0 78.08 C21 C1 78.08 BOT 0 21 79.17 C1 C22 79.17 TOP 21 0 79.17 C22 C1 79.17 BOT 0 22 81.57 C1 C23 81.57 TOP 22 0 81.57 C23 C1 81.57 BOT 0 23 78.90 C1 C24 78.90 TOP 23 0 78.90 C24 C1 78.90 BOT 0 24 79.07 C1 C25 79.07 TOP 24 0 79.07 C25 C1 79.07 BOT 0 25 76.74 C1 C26 76.74 TOP 25 0 76.74 C26 C1 76.74 BOT 0 26 79.00 C1 C27 79.00 TOP 26 0 79.00 C27 C1 79.00 BOT 0 27 81.31 C1 C28 81.31 TOP 27 0 81.31 C28 C1 81.31 BOT 0 28 80.37 C1 C29 80.37 TOP 28 0 80.37 C29 C1 80.37 BOT 0 29 80.84 C1 C30 80.84 TOP 29 0 80.84 C30 C1 80.84 BOT 0 30 84.72 C1 C31 84.72 TOP 30 0 84.72 C31 C1 84.72 BOT 0 31 75.93 C1 C32 75.93 TOP 31 0 75.93 C32 C1 75.93 BOT 0 32 75.93 C1 C33 75.93 TOP 32 0 75.93 C33 C1 75.93 BOT 0 33 78.82 C1 C34 78.82 TOP 33 0 78.82 C34 C1 78.82 BOT 0 34 79.07 C1 C35 79.07 TOP 34 0 79.07 C35 C1 79.07 BOT 0 35 60.00 C1 C36 60.00 TOP 35 0 60.00 C36 C1 60.00 BOT 0 36 79.55 C1 C37 79.55 TOP 36 0 79.55 C37 C1 79.55 BOT 0 37 81.31 C1 C38 81.31 TOP 37 0 81.31 C38 C1 81.31 BOT 0 38 78.18 C1 C39 78.18 TOP 38 0 78.18 C39 C1 78.18 BOT 0 39 81.11 C1 C40 81.11 TOP 39 0 81.11 C40 C1 81.11 BOT 0 40 80.65 C1 C41 80.65 TOP 40 0 80.65 C41 C1 80.65 BOT 0 41 77.67 C1 C42 77.67 TOP 41 0 77.67 C42 C1 77.67 BOT 0 42 79.17 C1 C43 79.17 TOP 42 0 79.17 C43 C1 79.17 BOT 0 43 82.95 C1 C44 82.95 TOP 43 0 82.95 C44 C1 82.95 BOT 0 44 82.33 C1 C45 82.33 TOP 44 0 82.33 C45 C1 82.33 BOT 0 45 77.78 C1 C46 77.78 TOP 45 0 77.78 C46 C1 77.78 BOT 0 46 78.87 C1 C47 78.87 TOP 46 0 78.87 C47 C1 78.87 BOT 0 47 82.57 C1 C48 82.57 TOP 47 0 82.57 C48 C1 82.57 BOT 0 48 75.46 C1 C49 75.46 TOP 48 0 75.46 C49 C1 75.46 BOT 0 49 78.60 C1 C50 78.60 TOP 49 0 78.60 C50 C1 78.60 BOT 1 2 56.25 C2 C3 56.25 TOP 2 1 56.25 C3 C2 56.25 BOT 1 3 61.54 C2 C4 61.54 TOP 3 1 61.54 C4 C2 61.54 BOT 1 4 61.17 C2 C5 61.17 TOP 4 1 61.17 C5 C2 61.17 BOT 1 5 57.50 C2 C6 57.50 TOP 5 1 57.50 C6 C2 57.50 BOT 1 6 55.39 C2 C7 55.39 TOP 6 1 55.39 C7 C2 55.39 BOT 1 7 57.21 C2 C8 57.21 TOP 7 1 57.21 C8 C2 57.21 BOT 1 8 54.59 C2 C9 54.59 TOP 8 1 54.59 C9 C2 54.59 BOT 1 9 58.65 C2 C10 58.65 TOP 9 1 58.65 C10 C2 58.65 BOT 1 10 63.38 C2 C11 63.38 TOP 10 1 63.38 C11 C2 63.38 BOT 1 11 52.04 C2 C12 52.04 TOP 11 1 52.04 C12 C2 52.04 BOT 1 12 59.33 C2 C13 59.33 TOP 12 1 59.33 C13 C2 59.33 BOT 1 13 59.05 C2 C14 59.05 TOP 13 1 59.05 C14 C2 59.05 BOT 1 14 58.94 C2 C15 58.94 TOP 14 1 58.94 C15 C2 58.94 BOT 1 15 62.50 C2 C16 62.50 TOP 15 1 62.50 C16 C2 62.50 BOT 1 16 58.37 C2 C17 58.37 TOP 16 1 58.37 C17 C2 58.37 BOT 1 17 55.83 C2 C18 55.83 TOP 17 1 55.83 C18 C2 55.83 BOT 1 18 56.52 C2 C19 56.52 TOP 18 1 56.52 C19 C2 56.52 BOT 1 19 60.29 C2 C20 60.29 TOP 19 1 60.29 C20 C2 60.29 BOT 1 20 57.69 C2 C21 57.69 TOP 20 1 57.69 C21 C2 57.69 BOT 1 21 58.85 C2 C22 58.85 TOP 21 1 58.85 C22 C2 58.85 BOT 1 22 62.98 C2 C23 62.98 TOP 22 1 62.98 C23 C2 62.98 BOT 1 23 57.49 C2 C24 57.49 TOP 23 1 57.49 C24 C2 57.49 BOT 1 24 60.50 C2 C25 60.50 TOP 24 1 60.50 C25 C2 60.50 BOT 1 25 61.65 C2 C26 61.65 TOP 25 1 61.65 C26 C2 61.65 BOT 1 26 55.77 C2 C27 55.77 TOP 26 1 55.77 C27 C2 55.77 BOT 1 27 59.33 C2 C28 59.33 TOP 27 1 59.33 C28 C2 59.33 BOT 1 28 59.81 C2 C29 59.81 TOP 28 1 59.81 C29 C2 59.81 BOT 1 29 56.72 C2 C30 56.72 TOP 29 1 56.72 C30 C2 56.72 BOT 1 30 58.85 C2 C31 58.85 TOP 30 1 58.85 C31 C2 58.85 BOT 1 31 58.25 C2 C32 58.25 TOP 31 1 58.25 C32 C2 58.25 BOT 1 32 57.89 C2 C33 57.89 TOP 32 1 57.89 C33 C2 57.89 BOT 1 33 62.25 C2 C34 62.25 TOP 33 1 62.25 C34 C2 62.25 BOT 1 34 58.57 C2 C35 58.57 TOP 34 1 58.57 C35 C2 58.57 BOT 1 35 55.34 C2 C36 55.34 TOP 35 1 55.34 C36 C2 55.34 BOT 1 36 60.39 C2 C37 60.39 TOP 36 1 60.39 C37 C2 60.39 BOT 1 37 61.72 C2 C38 61.72 TOP 37 1 61.72 C38 C2 61.72 BOT 1 38 57.97 C2 C39 57.97 TOP 38 1 57.97 C39 C2 57.97 BOT 1 39 61.06 C2 C40 61.06 TOP 39 1 61.06 C40 C2 61.06 BOT 1 40 58.17 C2 C41 58.17 TOP 40 1 58.17 C41 C2 58.17 BOT 1 41 55.50 C2 C42 55.50 TOP 41 1 55.50 C42 C2 55.50 BOT 1 42 55.98 C2 C43 55.98 TOP 42 1 55.98 C43 C2 55.98 BOT 1 43 60.58 C2 C44 60.58 TOP 43 1 60.58 C44 C2 60.58 BOT 1 44 61.17 C2 C45 61.17 TOP 44 1 61.17 C45 C2 61.17 BOT 1 45 57.89 C2 C46 57.89 TOP 45 1 57.89 C46 C2 57.89 BOT 1 46 57.35 C2 C47 57.35 TOP 46 1 57.35 C47 C2 57.35 BOT 1 47 56.46 C2 C48 56.46 TOP 47 1 56.46 C48 C2 56.46 BOT 1 48 55.50 C2 C49 55.50 TOP 48 1 55.50 C49 C2 55.50 BOT 1 49 57.92 C2 C50 57.92 TOP 49 1 57.92 C50 C2 57.92 BOT 2 3 82.19 C3 C4 82.19 TOP 3 2 82.19 C4 C3 82.19 BOT 2 4 77.88 C3 C5 77.88 TOP 4 2 77.88 C5 C3 77.88 BOT 2 5 77.73 C3 C6 77.73 TOP 5 2 77.73 C6 C3 77.73 BOT 2 6 76.89 C3 C7 76.89 TOP 6 2 76.89 C7 C3 76.89 BOT 2 7 73.11 C3 C8 73.11 TOP 7 2 73.11 C8 C3 73.11 BOT 2 8 81.57 C3 C9 81.57 TOP 8 2 81.57 C9 C3 81.57 BOT 2 9 80.56 C3 C10 80.56 TOP 9 2 80.56 C10 C3 80.56 BOT 2 10 76.89 C3 C11 76.89 TOP 10 2 76.89 C11 C3 76.89 BOT 2 11 77.18 C3 C12 77.18 TOP 11 2 77.18 C12 C3 77.18 BOT 2 12 77.98 C3 C13 77.98 TOP 12 2 77.98 C13 C3 77.98 BOT 2 13 78.54 C3 C14 78.54 TOP 13 2 78.54 C14 C3 78.54 BOT 2 14 80.65 C3 C15 80.65 TOP 14 2 80.65 C15 C3 80.65 BOT 2 15 78.08 C3 C16 78.08 TOP 15 2 78.08 C16 C3 78.08 BOT 2 16 76.50 C3 C17 76.50 TOP 16 2 76.50 C17 C3 76.50 BOT 2 17 81.31 C3 C18 81.31 TOP 17 2 81.31 C18 C3 81.31 BOT 2 18 77.42 C3 C19 77.42 TOP 18 2 77.42 C19 C3 77.42 BOT 2 19 81.65 C3 C20 81.65 TOP 19 2 81.65 C20 C3 81.65 BOT 2 20 79.26 C3 C21 79.26 TOP 20 2 79.26 C21 C3 79.26 BOT 2 21 79.09 C3 C22 79.09 TOP 21 2 79.09 C22 C3 79.09 BOT 2 22 78.28 C3 C23 78.28 TOP 22 2 78.28 C23 C3 78.28 BOT 2 23 79.72 C3 C24 79.72 TOP 23 2 79.72 C24 C3 79.72 BOT 2 24 78.20 C3 C25 78.20 TOP 24 2 78.20 C25 C3 78.20 BOT 2 25 78.54 C3 C26 78.54 TOP 25 2 78.54 C26 C3 78.54 BOT 2 26 78.44 C3 C27 78.44 TOP 26 2 78.44 C27 C3 78.44 BOT 2 27 81.19 C3 C28 81.19 TOP 27 2 81.19 C28 C3 81.19 BOT 2 28 81.65 C3 C29 81.65 TOP 28 2 81.65 C29 C3 81.65 BOT 2 29 77.62 C3 C30 77.62 TOP 29 2 77.62 C30 C3 77.62 BOT 2 30 80.91 C3 C31 80.91 TOP 30 2 80.91 C31 C3 80.91 BOT 2 31 77.36 C3 C32 77.36 TOP 31 2 77.36 C32 C3 77.36 BOT 2 32 77.27 C3 C33 77.27 TOP 32 2 77.27 C33 C3 77.27 BOT 2 33 80.68 C3 C34 80.68 TOP 33 2 80.68 C34 C3 80.68 BOT 2 34 75.34 C3 C35 75.34 TOP 34 2 75.34 C35 C3 75.34 BOT 2 35 62.50 C3 C36 62.50 TOP 35 2 62.50 C36 C3 62.50 BOT 2 36 78.80 C3 C37 78.80 TOP 36 2 78.80 C37 C3 78.80 BOT 2 37 81.19 C3 C38 81.19 TOP 37 2 81.19 C38 C3 81.19 BOT 2 38 77.06 C3 C39 77.06 TOP 38 2 77.06 C39 C3 77.06 BOT 2 39 76.92 C3 C40 76.92 TOP 39 2 76.92 C40 C3 76.92 BOT 2 40 78.73 C3 C41 78.73 TOP 40 2 78.73 C41 C3 78.73 BOT 2 41 78.20 C3 C42 78.20 TOP 41 2 78.20 C42 C3 78.20 BOT 2 42 79.55 C3 C43 79.55 TOP 42 2 79.55 C43 C3 79.55 BOT 2 43 77.38 C3 C44 77.38 TOP 43 2 77.38 C44 C3 77.38 BOT 2 44 78.54 C3 C45 78.54 TOP 44 2 78.54 C45 C3 78.54 BOT 2 45 77.27 C3 C46 77.27 TOP 45 2 77.27 C46 C3 77.27 BOT 2 46 76.96 C3 C47 76.96 TOP 46 2 76.96 C47 C3 76.96 BOT 2 47 82.19 C3 C48 82.19 TOP 47 2 82.19 C48 C3 82.19 BOT 2 48 77.73 C3 C49 77.73 TOP 48 2 77.73 C49 C3 77.73 BOT 2 49 75.35 C3 C50 75.35 TOP 49 2 75.35 C50 C3 75.35 BOT 3 4 86.30 C4 C5 86.30 TOP 4 3 86.30 C5 C4 86.30 BOT 3 5 84.98 C4 C6 84.98 TOP 5 3 84.98 C6 C4 84.98 BOT 3 6 78.97 C4 C7 78.97 TOP 6 3 78.97 C7 C4 78.97 BOT 3 7 77.10 C4 C8 77.10 TOP 7 3 77.10 C8 C4 77.10 BOT 3 8 79.00 C4 C9 79.00 TOP 8 3 79.00 C9 C4 79.00 BOT 3 9 81.78 C4 C10 81.78 TOP 9 3 81.78 C10 C4 81.78 BOT 3 10 79.52 C4 C11 79.52 TOP 10 3 79.52 C11 C4 79.52 BOT 3 11 76.92 C4 C12 76.92 TOP 11 3 76.92 C12 C4 76.92 BOT 3 12 81.94 C4 C13 81.94 TOP 12 3 81.94 C13 C4 81.94 BOT 3 13 81.57 C4 C14 81.57 TOP 13 3 81.57 C14 C4 81.57 BOT 3 14 78.08 C4 C15 78.08 TOP 14 3 78.08 C15 C4 78.08 BOT 3 15 84.33 C4 C16 84.33 TOP 15 3 84.33 C16 C4 84.33 BOT 3 16 81.40 C4 C17 81.40 TOP 16 3 81.40 C17 C4 81.40 BOT 3 17 82.41 C4 C18 82.41 TOP 17 3 82.41 C18 C4 82.41 BOT 3 18 77.63 C4 C19 77.63 TOP 18 3 77.63 C19 C4 77.63 BOT 3 19 82.41 C4 C20 82.41 TOP 19 3 82.41 C20 C4 82.41 BOT 3 20 81.74 C4 C21 81.74 TOP 20 3 81.74 C21 C4 81.74 BOT 3 21 79.36 C4 C22 79.36 TOP 21 3 79.36 C22 C4 79.36 BOT 3 22 89.04 C4 C23 89.04 TOP 22 3 89.04 C23 C4 89.04 BOT 3 23 82.57 C4 C24 82.57 TOP 23 3 82.57 C24 C4 82.57 BOT 3 24 85.92 C4 C25 85.92 TOP 24 3 85.92 C25 C4 85.92 BOT 3 25 79.72 C4 C26 79.72 TOP 25 3 79.72 C26 C4 79.72 BOT 3 26 81.82 C4 C27 81.82 TOP 26 3 81.82 C27 C4 81.82 BOT 3 27 81.48 C4 C28 81.48 TOP 27 3 81.48 C28 C4 81.48 BOT 3 28 85.65 C4 C29 85.65 TOP 28 3 85.65 C29 C4 85.65 BOT 3 29 83.02 C4 C30 83.02 TOP 29 3 83.02 C30 C4 83.02 BOT 3 30 82.57 C4 C31 82.57 TOP 30 3 82.57 C31 C4 82.57 BOT 3 31 78.97 C4 C32 78.97 TOP 31 3 78.97 C32 C4 78.97 BOT 3 32 77.98 C4 C33 77.98 TOP 32 3 77.98 C33 C4 77.98 BOT 3 33 80.49 C4 C34 80.49 TOP 33 3 80.49 C34 C4 80.49 BOT 3 34 85.71 C4 C35 85.71 TOP 34 3 85.71 C35 C4 85.71 BOT 3 35 64.68 C4 C36 64.68 TOP 35 3 64.68 C36 C4 64.68 BOT 3 36 90.41 C4 C37 90.41 TOP 36 3 90.41 C37 C4 90.41 BOT 3 37 84.72 C4 C38 84.72 TOP 37 3 84.72 C38 C4 84.72 BOT 3 38 77.73 C4 C39 77.73 TOP 38 3 77.73 C39 C4 77.73 BOT 3 39 85.39 C4 C40 85.39 TOP 39 3 85.39 C40 C4 85.39 BOT 3 40 79.45 C4 C41 79.45 TOP 40 3 79.45 C41 C4 79.45 BOT 3 41 76.53 C4 C42 76.53 TOP 41 3 76.53 C42 C4 76.53 BOT 3 42 81.19 C4 C43 81.19 TOP 42 3 81.19 C43 C4 81.19 BOT 3 43 87.21 C4 C44 87.21 TOP 43 3 87.21 C44 C4 87.21 BOT 3 44 85.71 C4 C45 85.71 TOP 44 3 85.71 C45 C4 85.71 BOT 3 45 82.57 C4 C46 82.57 TOP 45 3 82.57 C46 C4 82.57 BOT 3 46 76.28 C4 C47 76.28 TOP 46 3 76.28 C47 C4 76.28 BOT 3 47 81.36 C4 C48 81.36 TOP 47 3 81.36 C48 C4 81.36 BOT 3 48 78.90 C4 C49 78.90 TOP 48 3 78.90 C49 C4 78.90 BOT 3 49 75.35 C4 C50 75.35 TOP 49 3 75.35 C50 C4 75.35 BOT 4 5 86.51 C5 C6 86.51 TOP 5 4 86.51 C6 C5 86.51 BOT 4 6 80.09 C5 C7 80.09 TOP 6 4 80.09 C7 C5 80.09 BOT 4 7 80.09 C5 C8 80.09 TOP 7 4 80.09 C8 C5 80.09 BOT 4 8 78.64 C5 C9 78.64 TOP 8 4 78.64 C9 C5 78.64 BOT 4 9 79.72 C5 C10 79.72 TOP 9 4 79.72 C10 C5 79.72 BOT 4 10 79.81 C5 C11 79.81 TOP 10 4 79.81 C11 C5 79.81 BOT 4 11 78.57 C5 C12 78.57 TOP 11 4 78.57 C12 C5 78.57 BOT 4 12 81.78 C5 C13 81.78 TOP 12 4 81.78 C13 C5 81.78 BOT 4 13 82.33 C5 C14 82.33 TOP 13 4 82.33 C14 C5 82.33 BOT 4 14 79.55 C5 C15 79.55 TOP 14 4 79.55 C15 C5 79.55 BOT 4 15 83.72 C5 C16 83.72 TOP 15 4 83.72 C16 C5 83.72 BOT 4 16 79.34 C5 C17 79.34 TOP 16 4 79.34 C17 C5 79.34 BOT 4 17 79.36 C5 C18 79.36 TOP 17 4 79.36 C18 C5 79.36 BOT 4 18 77.73 C5 C19 77.73 TOP 18 4 77.73 C19 C5 77.73 BOT 4 19 81.31 C5 C20 81.31 TOP 19 4 81.31 C20 C5 81.31 BOT 4 20 79.45 C5 C21 79.45 TOP 20 4 79.45 C21 C5 79.45 BOT 4 21 79.63 C5 C22 79.63 TOP 21 4 79.63 C22 C5 79.63 BOT 4 22 86.18 C5 C23 86.18 TOP 22 4 86.18 C23 C5 86.18 BOT 4 23 77.06 C5 C24 77.06 TOP 23 4 77.06 C24 C5 77.06 BOT 4 24 88.37 C5 C25 88.37 TOP 24 4 88.37 C25 C5 88.37 BOT 4 25 80.93 C5 C26 80.93 TOP 25 4 80.93 C26 C5 80.93 BOT 4 26 79.00 C5 C27 79.00 TOP 26 4 79.00 C27 C5 79.00 BOT 4 27 81.78 C5 C28 81.78 TOP 27 4 81.78 C28 C5 81.78 BOT 4 28 84.11 C5 C29 84.11 TOP 28 4 84.11 C29 C5 84.11 BOT 4 29 82.71 C5 C30 82.71 TOP 29 4 82.71 C30 C5 82.71 BOT 4 30 83.80 C5 C31 83.80 TOP 30 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