--- 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
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EFYKDCooooooooooooooo
>C44
MGSKWSKSSIVGWPAVRERMRKTTPPAEGVGAASQDLDKHGALTSSNTPT
NNADCAWLQAQEEESEVGFPVRPQVPLRPMTYKAAFDLGFFLKEKGGLDG
LIYSKQRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPVD
PKEVEEANEGENNCLLHPISLQGMEDEEREVLKWQFDSSLARRHMARELH
PEYYKDCoooooooooooooo
>C45
MGNKWSKSSIVGWPQVRERIRQTPPAAEGVGAVSQDLDKHGAVTSSNINN
ADSVWLRAQEEGDDEGVGFPVRPQVPLRPMTYKGAFDLGFFLKEKGGLDG
LIYSQKRKEILDLWVYNTQGFFPDWQNYTPGPGVRYPLCFGWCFKLVPVD
PREVEEDTKGENSCLLHPMSQHGFEDGEREVLMWKFDSALARRHIARELH
PDYYKDCoooooooooooooo
>C46
MGGKWSKKSQGGWTTVRERIKQTEPAADGVGAASRDLEKHGALTSSNTVT
NNAACAWLEAQEDEDVGFPVRPQVPLRPMTYKAAFDLSHFLKEKGGLEGL
IYSQKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVDP
GEVEEDNKGENNSLLHPMSLHGAEDPEREVLVWKFDSRLAYHHMAREMYP
EYYKNCooooooooooooooo
>C47
MGGKWSKNSVGGWSKVRERMKRAEPAADGGGAVSRDLEKHGAITSSNTAA
NNATCAWLEAQEEEEVGFPVRPQVPLRPMTYRAAVDLSHFLRKEGGLEGL
VFSQRRQDILDLWIYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPAEV
EEVTEGENNCLLHPINQHGMDDPEREVLVWKFDSSLAFHHMARELHPEYY
KNCoooooooooooooooooo
>C48
MGGKWSKSSLIGWPRIRDRMRRTEPEPAAVGVGAVSRDLEKHGAITSSNT
AATNAECAWLEAQEEEEVGFPVRPQVPLRPMTYKAAVDISHFLKEKGGLE
GLIHSQKRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPV
EPEDVERANEGENNCLLHPMSQHGMDDPEREVLQWKFDSRLAFHHMAREL
HPEYYKDCooooooooooooo
>C49
MGGKWSKRRGTEWPAVRERMRRTEPAAEGVGAASRDLEKYGALTSSNTAA
TNSDCAWLEAQEDEEVGFPVRPQVPLRPMTYKEAVDLSHFLKEKGGLEGL
VWSQKRQDILDLWVYHTQGFFPDWQNYTPGPGIRLPLTFGWCFKLILLDK
EQIEKANEGERNTLLHPMSQHGMDDPEREVLVWKFDSRLAFHHMAREKHP
EFYKDCooooooooooooooo
>C50
MGNKWSKSRKGGWDEVREKMRQTPPAAAGAGAATGVGAVSQDLDKHGAIT
ASNINHPDCTWLKAQEEEEEVGFPVRPQVPVRPMTYKGALDLSHFLKEKG
GLEGLIYSRQRKDILDLWVYNTQGFFPDWQNYTPGPGIRYPLTFGWCYKL
VPVDPEEVEKATEGETNSLLHPMCQHGMDDEERETLQWKFDSRLAFKHYA
RELHPEFYKDCoooooooooo
PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
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Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
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Input File (S) input.prot.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]
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Input File (S) input.prot.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]
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Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
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Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
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Input File (S) input.prot.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]
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Input File (M) proba_pair
Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
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Input File (S) input.prot.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:
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Identify Master Sequences [no]:
Master Sequences Identified
INPUT SEQUENCES: 50 SEQUENCES [PROTEIN]
Multi Core Mode: 8 processors:
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INPUT FILES
Input File (S) input.prot.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:
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INPUT FILES
Input File (S) input.prot.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
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Input File (S) input.prot.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
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xxx Retrieved Sinput.prot.fasta.muscle_rs_0_0.fasta.aln
xxx Retrieved Mproba_pair
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Input File (S) input.prot.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
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Library Total Size: [805538]
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INPUT FILES
Input File (S) input.prot.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]
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INPUT FILES
Input File (S) input.prot.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]
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-display D [0] 100
INPUT FILES
Input File (S) input.prot.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 4 83.80 C31 C5 83.80
BOT 4 31 79.17 C5 C32 79.17
TOP 31 4 79.17 C32 C5 79.17
BOT 4 32 78.70 C5 C33 78.70
TOP 32 4 78.70 C33 C5 78.70
BOT 4 33 79.31 C5 C34 79.31
TOP 33 4 79.31 C34 C5 79.31
BOT 4 34 82.79 C5 C35 82.79
TOP 34 4 82.79 C35 C5 82.79
BOT 4 35 64.55 C5 C36 64.55
TOP 35 4 64.55 C36 C5 64.55
BOT 4 36 82.73 C5 C37 82.73
TOP 36 4 82.73 C37 C5 82.73
BOT 4 37 83.64 C5 C38 83.64
TOP 37 4 83.64 C38 C5 83.64
BOT 4 38 78.64 C5 C39 78.64
TOP 38 4 78.64 C39 C5 78.64
BOT 4 39 86.64 C5 C40 86.64
TOP 39 4 86.64 C40 C5 86.64
BOT 4 40 79.72 C5 C41 79.72
TOP 40 4 79.72 C41 C5 79.72
BOT 4 41 76.74 C5 C42 76.74
TOP 41 4 76.74 C42 C5 76.74
BOT 4 42 80.09 C5 C43 80.09
TOP 42 4 80.09 C43 C5 80.09
BOT 4 43 88.94 C5 C44 88.94
TOP 43 4 88.94 C44 C5 88.94
BOT 4 44 83.26 C5 C45 83.26
TOP 44 4 83.26 C45 C5 83.26
BOT 4 45 80.56 C5 C46 80.56
TOP 45 4 80.56 C46 C5 80.56
BOT 4 46 77.00 C5 C47 77.00
TOP 46 4 77.00 C47 C5 77.00
BOT 4 47 80.73 C5 C48 80.73
TOP 47 4 80.73 C48 C5 80.73
BOT 4 48 79.63 C5 C49 79.63
TOP 48 4 79.63 C49 C5 79.63
BOT 4 49 77.67 C5 C50 77.67
TOP 49 4 77.67 C50 C5 77.67
BOT 5 6 77.31 C6 C7 77.31
TOP 6 5 77.31 C7 C6 77.31
BOT 5 7 79.09 C6 C8 79.09
TOP 7 5 79.09 C8 C6 79.09
BOT 5 8 76.64 C6 C9 76.64
TOP 8 5 76.64 C9 C6 76.64
BOT 5 9 76.70 C6 C10 76.70
TOP 9 5 76.70 C10 C6 76.70
BOT 5 10 75.74 C6 C11 75.74
TOP 10 5 75.74 C11 C6 75.74
BOT 5 11 74.42 C6 C12 74.42
TOP 11 5 74.42 C12 C6 74.42
BOT 5 12 81.25 C6 C13 81.25
TOP 12 5 81.25 C13 C6 81.25
BOT 5 13 80.86 C6 C14 80.86
TOP 13 5 80.86 C14 C6 80.86
BOT 5 14 76.64 C6 C15 76.64
TOP 14 5 76.64 C15 C6 76.64
BOT 5 15 82.78 C6 C16 82.78
TOP 15 5 82.78 C16 C6 82.78
BOT 5 16 77.78 C6 C17 77.78
TOP 16 5 77.78 C17 C6 77.78
BOT 5 17 77.21 C6 C18 77.21
TOP 17 5 77.21 C18 C6 77.21
BOT 5 18 76.64 C6 C19 76.64
TOP 18 5 76.64 C19 C6 76.64
BOT 5 19 79.81 C6 C20 79.81
TOP 19 5 79.81 C20 C6 79.81
BOT 5 20 75.59 C6 C21 75.59
TOP 20 5 75.59 C21 C6 75.59
BOT 5 21 76.67 C6 C22 76.67
TOP 21 5 76.67 C22 C6 76.67
BOT 5 22 83.41 C6 C23 83.41
TOP 22 5 83.41 C23 C6 83.41
BOT 5 23 76.89 C6 C24 76.89
TOP 23 5 76.89 C24 C6 76.89
BOT 5 24 83.64 C6 C25 83.64
TOP 24 5 83.64 C25 C6 83.64
BOT 5 25 79.90 C6 C26 79.90
TOP 25 5 79.90 C26 C6 79.90
BOT 5 26 77.46 C6 C27 77.46
TOP 26 5 77.46 C27 C6 77.46
BOT 5 27 78.85 C6 C28 78.85
TOP 27 5 78.85 C28 C6 78.85
BOT 5 28 80.29 C6 C29 80.29
TOP 28 5 80.29 C29 C6 80.29
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BOT 19 45 84.93 C20 C46 84.93
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BOT 20 38 81.28 C21 C39 81.28
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BOT 20 40 82.95 C21 C41 82.95
TOP 40 20 82.95 C41 C21 82.95
BOT 20 41 83.10 C21 C42 83.10
TOP 41 20 83.10 C42 C21 83.10
BOT 20 42 76.85 C21 C43 76.85
TOP 42 20 76.85 C43 C21 76.85
BOT 20 43 78.34 C21 C44 78.34
TOP 43 20 78.34 C44 C21 78.34
BOT 20 44 77.21 C21 C45 77.21
TOP 44 20 77.21 C45 C21 77.21
BOT 20 45 81.02 C21 C46 81.02
TOP 45 20 81.02 C46 C21 81.02
BOT 20 46 82.16 C21 C47 82.16
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BOT 20 47 86.24 C21 C48 86.24
TOP 47 20 86.24 C48 C21 86.24
BOT 20 48 82.87 C21 C49 82.87
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BOT 20 49 79.34 C21 C50 79.34
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BOT 21 23 84.33 C22 C24 84.33
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TOP 24 21 78.10 C25 C22 78.10
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BOT 21 27 89.50 C22 C28 89.50
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TOP 29 21 79.90 C30 C22 79.90
BOT 21 30 89.14 C22 C31 89.14
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BOT 21 31 85.38 C22 C32 85.38
TOP 31 21 85.38 C32 C22 85.38
BOT 21 32 82.27 C22 C33 82.27
TOP 32 21 82.27 C33 C22 82.27
BOT 21 33 84.13 C22 C34 84.13
TOP 33 21 84.13 C34 C22 84.13
BOT 21 34 79.45 C22 C35 79.45
TOP 34 21 79.45 C35 C22 79.45
BOT 21 35 63.89 C22 C36 63.89
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BOT 21 36 76.50 C22 C37 76.50
TOP 36 21 76.50 C37 C22 76.50
BOT 21 37 77.63 C22 C38 77.63
TOP 37 21 77.63 C38 C22 77.63
BOT 21 38 84.33 C22 C39 84.33
TOP 38 21 84.33 C39 C22 84.33
BOT 21 39 78.64 C22 C40 78.64
TOP 39 21 78.64 C40 C22 78.64
BOT 21 40 87.27 C22 C41 87.27
TOP 40 21 87.27 C41 C22 87.27
BOT 21 41 85.24 C22 C42 85.24
TOP 41 21 85.24 C42 C22 85.24
BOT 21 42 78.28 C22 C43 78.28
TOP 42 21 78.28 C43 C22 78.28
BOT 21 43 79.09 C22 C44 79.09
TOP 43 21 79.09 C44 C22 79.09
BOT 21 44 74.31 C22 C45 74.31
TOP 44 21 74.31 C45 C22 74.31
BOT 21 45 85.07 C22 C46 85.07
TOP 45 21 85.07 C46 C22 85.07
BOT 21 46 85.32 C22 C47 85.32
TOP 46 21 85.32 C47 C22 85.32
BOT 21 47 87.67 C22 C48 87.67
TOP 47 21 87.67 C48 C22 87.67
BOT 21 48 81.90 C22 C49 81.90
TOP 48 21 81.90 C49 C22 81.90
BOT 21 49 77.10 C22 C50 77.10
TOP 49 21 77.10 C50 C22 77.10
BOT 22 23 77.88 C23 C24 77.88
TOP 23 22 77.88 C24 C23 77.88
BOT 22 24 86.26 C23 C25 86.26
TOP 24 22 86.26 C25 C23 86.26
BOT 22 25 81.74 C23 C26 81.74
TOP 25 22 81.74 C26 C23 81.74
BOT 22 26 81.19 C23 C27 81.19
TOP 26 22 81.19 C27 C23 81.19
BOT 22 27 78.44 C23 C28 78.44
TOP 27 22 78.44 C28 C23 78.44
BOT 22 28 84.40 C23 C29 84.40
TOP 28 22 84.40 C29 C23 84.40
BOT 22 29 83.33 C23 C30 83.33
TOP 29 22 83.33 C30 C23 83.33
BOT 22 30 79.09 C23 C31 79.09
TOP 30 22 79.09 C31 C23 79.09
BOT 22 31 76.42 C23 C32 76.42
TOP 31 22 76.42 C32 C23 76.42
BOT 22 32 74.55 C23 C33 74.55
TOP 32 22 74.55 C33 C23 74.55
BOT 22 33 78.74 C23 C34 78.74
TOP 33 22 78.74 C34 C23 78.74
BOT 22 34 84.93 C23 C35 84.93
TOP 34 22 84.93 C35 C23 84.93
BOT 22 35 64.35 C23 C36 64.35
TOP 35 22 64.35 C36 C23 64.35
BOT 22 36 86.18 C23 C37 86.18
TOP 36 22 86.18 C37 C23 86.18
BOT 22 37 84.40 C23 C38 84.40
TOP 37 22 84.40 C38 C23 84.40
BOT 22 38 75.23 C23 C39 75.23
TOP 38 22 75.23 C39 C23 75.23
BOT 22 39 83.71 C23 C40 83.71
TOP 39 22 83.71 C40 C23 83.71
BOT 22 40 75.11 C23 C41 75.11
TOP 40 22 75.11 C41 C23 75.11
BOT 22 41 73.93 C23 C42 73.93
TOP 41 22 73.93 C42 C23 73.93
BOT 22 42 81.82 C23 C43 81.82
TOP 42 22 81.82 C43 C23 81.82
BOT 22 43 85.97 C23 C44 85.97
TOP 43 22 85.97 C44 C23 85.97
BOT 22 44 82.19 C23 C45 82.19
TOP 44 22 82.19 C45 C23 82.19
BOT 22 45 78.64 C23 C46 78.64
TOP 45 22 78.64 C46 C23 78.64
BOT 22 46 72.81 C23 C47 72.81
TOP 46 22 72.81 C47 C23 72.81
BOT 22 47 78.54 C23 C48 78.54
TOP 47 22 78.54 C48 C23 78.54
BOT 22 48 75.45 C23 C49 75.45
TOP 48 22 75.45 C49 C23 75.45
BOT 22 49 74.88 C23 C50 74.88
TOP 49 22 74.88 C50 C23 74.88
BOT 23 24 79.72 C24 C25 79.72
TOP 24 23 79.72 C25 C24 79.72
BOT 23 25 75.58 C24 C26 75.58
TOP 25 23 75.58 C26 C24 75.58
BOT 23 26 79.91 C24 C27 79.91
TOP 26 23 79.91 C27 C24 79.91
BOT 23 27 84.79 C24 C28 84.79
TOP 27 23 84.79 C28 C24 84.79
BOT 23 28 80.18 C24 C29 80.18
TOP 28 23 80.18 C29 C24 80.18
BOT 23 29 80.57 C24 C30 80.57
TOP 29 23 80.57 C30 C24 80.57
BOT 23 30 84.33 C24 C31 84.33
TOP 30 23 84.33 C31 C24 84.33
BOT 23 31 80.84 C24 C32 80.84
TOP 31 23 80.84 C32 C24 80.84
BOT 23 32 82.87 C24 C33 82.87
TOP 32 23 82.87 C33 C24 82.87
BOT 23 33 82.04 C24 C34 82.04
TOP 33 23 82.04 C34 C24 82.04
BOT 23 34 80.00 C24 C35 80.00
TOP 34 23 80.00 C35 C24 80.00
BOT 23 35 64.68 C24 C36 64.68
TOP 35 23 64.68 C36 C24 64.68
BOT 23 36 81.74 C24 C37 81.74
TOP 36 23 81.74 C37 C24 81.74
BOT 23 37 80.65 C24 C38 80.65
TOP 37 23 80.65 C38 C24 80.65
BOT 23 38 83.94 C24 C39 83.94
TOP 38 23 83.94 C39 C24 83.94
BOT 23 39 77.88 C24 C40 77.88
TOP 39 23 77.88 C40 C24 77.88
BOT 23 40 81.11 C24 C41 81.11
TOP 40 23 81.11 C41 C24 81.11
BOT 23 41 83.96 C24 C42 83.96
TOP 41 23 83.96 C42 C24 83.96
BOT 23 42 80.18 C24 C43 80.18
TOP 42 23 80.18 C43 C24 80.18
BOT 23 43 76.04 C24 C44 76.04
TOP 43 23 76.04 C44 C24 76.04
BOT 23 44 78.34 C24 C45 78.34
TOP 44 23 78.34 C45 C24 78.34
BOT 23 45 86.18 C24 C46 86.18
TOP 45 23 86.18 C46 C24 86.18
BOT 23 46 80.84 C24 C47 80.84
TOP 46 23 80.84 C47 C24 80.84
BOT 23 47 83.56 C24 C48 83.56
TOP 47 23 83.56 C48 C24 83.56
BOT 23 48 80.18 C24 C49 80.18
TOP 48 23 80.18 C49 C24 80.18
BOT 23 49 74.77 C24 C50 74.77
TOP 49 23 74.77 C50 C24 74.77
BOT 24 25 78.47 C25 C26 78.47
TOP 25 24 78.47 C26 C25 78.47
BOT 24 26 78.40 C25 C27 78.40
TOP 26 24 78.40 C27 C25 78.40
BOT 24 27 77.88 C25 C28 77.88
TOP 27 24 77.88 C28 C25 77.88
BOT 24 28 82.69 C25 C29 82.69
TOP 28 24 82.69 C29 C25 82.69
BOT 24 29 84.02 C25 C30 84.02
TOP 29 24 84.02 C30 C25 84.02
BOT 24 30 82.38 C25 C31 82.38
TOP 30 24 82.38 C31 C25 82.38
BOT 24 31 77.21 C25 C32 77.21
TOP 31 24 77.21 C32 C25 77.21
BOT 24 32 74.76 C25 C33 74.76
TOP 32 24 74.76 C33 C25 74.76
BOT 24 33 79.70 C25 C34 79.70
TOP 33 24 79.70 C34 C25 79.70
BOT 24 34 81.82 C25 C35 81.82
TOP 34 24 81.82 C35 C25 81.82
BOT 24 35 64.49 C25 C36 64.49
TOP 35 24 64.49 C36 C25 64.49
BOT 24 36 84.11 C25 C37 84.11
TOP 36 24 84.11 C37 C25 84.11
BOT 24 37 83.17 C25 C38 83.17
TOP 37 24 83.17 C38 C25 83.17
BOT 24 38 75.70 C25 C39 75.70
TOP 38 24 75.70 C39 C25 75.70
BOT 24 39 85.31 C25 C40 85.31
TOP 39 24 85.31 C40 C25 85.31
BOT 24 40 75.83 C25 C41 75.83
TOP 40 24 75.83 C41 C25 75.83
BOT 24 41 74.21 C25 C42 74.21
TOP 41 24 74.21 C42 C25 74.21
BOT 24 42 80.00 C25 C43 80.00
TOP 42 24 80.00 C43 C25 80.00
BOT 24 43 85.31 C25 C44 85.31
TOP 43 24 85.31 C44 C25 85.31
BOT 24 44 80.86 C25 C45 80.86
TOP 44 24 80.86 C45 C25 80.86
BOT 24 45 79.05 C25 C46 79.05
TOP 45 24 79.05 C46 C25 79.05
BOT 24 46 74.88 C25 C47 74.88
TOP 46 24 74.88 C47 C25 74.88
BOT 24 47 79.25 C25 C48 79.25
TOP 47 24 79.25 C48 C25 79.25
BOT 24 48 77.14 C25 C49 77.14
TOP 48 24 77.14 C49 C25 77.14
BOT 24 49 75.12 C25 C50 75.12
TOP 49 24 75.12 C50 C25 75.12
BOT 25 26 79.17 C26 C27 79.17
TOP 26 25 79.17 C27 C26 79.17
BOT 25 27 77.52 C26 C28 77.52
TOP 27 25 77.52 C28 C26 77.52
BOT 25 28 82.57 C26 C29 82.57
TOP 28 25 82.57 C29 C26 82.57
BOT 25 29 80.29 C26 C30 80.29
TOP 29 25 80.29 C30 C26 80.29
BOT 25 30 77.06 C26 C31 77.06
TOP 30 25 77.06 C31 C26 77.06
BOT 25 31 76.19 C26 C32 76.19
TOP 31 25 76.19 C32 C26 76.19
BOT 25 32 75.69 C26 C33 75.69
TOP 32 25 75.69 C33 C26 75.69
BOT 25 33 77.78 C26 C34 77.78
TOP 33 25 77.78 C34 C26 77.78
BOT 25 34 80.18 C26 C35 80.18
TOP 34 25 80.18 C35 C26 80.18
BOT 25 35 62.15 C26 C36 62.15
TOP 35 25 62.15 C36 C26 62.15
BOT 25 36 80.47 C26 C37 80.47
TOP 36 25 80.47 C37 C26 80.47
BOT 25 37 83.49 C26 C38 83.49
TOP 37 25 83.49 C38 C26 83.49
BOT 25 38 75.46 C26 C39 75.46
TOP 38 25 75.46 C39 C26 75.46
BOT 25 39 78.54 C26 C40 78.54
TOP 39 25 78.54 C40 C26 78.54
BOT 25 40 77.63 C26 C41 77.63
TOP 40 25 77.63 C41 C26 77.63
BOT 25 41 72.73 C26 C42 72.73
TOP 41 25 72.73 C42 C26 72.73
BOT 25 42 79.82 C26 C43 79.82
TOP 42 25 79.82 C43 C26 79.82
BOT 25 43 80.82 C26 C44 80.82
TOP 43 25 80.82 C44 C26 80.82
BOT 25 44 80.37 C26 C45 80.37
TOP 44 25 80.37 C45 C26 80.37
BOT 25 45 75.69 C26 C46 75.69
TOP 45 25 75.69 C46 C26 75.69
BOT 25 46 73.02 C26 C47 73.02
TOP 46 25 73.02 C47 C26 73.02
BOT 25 47 76.96 C26 C48 76.96
TOP 47 25 76.96 C48 C26 76.96
BOT 25 48 76.15 C26 C49 76.15
TOP 48 25 76.15 C49 C26 76.15
BOT 25 49 77.42 C26 C50 77.42
TOP 49 25 77.42 C50 C26 77.42
BOT 26 27 81.48 C27 C28 81.48
TOP 27 26 81.48 C28 C27 81.48
BOT 26 28 80.09 C27 C29 80.09
TOP 28 26 80.09 C29 C27 80.09
BOT 26 29 75.47 C27 C30 75.47
TOP 29 26 75.47 C30 C27 75.47
BOT 26 30 80.28 C27 C31 80.28
TOP 30 26 80.28 C31 C27 80.28
BOT 26 31 76.28 C27 C32 76.28
TOP 31 26 76.28 C32 C27 76.28
BOT 26 32 74.65 C27 C33 74.65
TOP 32 26 74.65 C33 C27 74.65
BOT 26 33 78.54 C27 C34 78.54
TOP 33 26 78.54 C34 C27 78.54
BOT 26 34 80.09 C27 C35 80.09
TOP 34 26 80.09 C35 C27 80.09
BOT 26 35 62.10 C27 C36 62.10
TOP 35 26 62.10 C36 C27 62.10
BOT 26 36 78.18 C27 C37 78.18
TOP 36 26 78.18 C37 C27 78.18
BOT 26 37 81.02 C27 C38 81.02
TOP 37 26 81.02 C38 C27 81.02
BOT 26 38 76.82 C27 C39 76.82
TOP 38 26 76.82 C39 C27 76.82
BOT 26 39 81.19 C27 C40 81.19
TOP 39 26 81.19 C40 C27 81.19
BOT 26 40 78.90 C27 C41 78.90
TOP 40 26 78.90 C41 C27 78.90
BOT 26 41 77.00 C27 C42 77.00
TOP 41 26 77.00 C42 C27 77.00
BOT 26 42 86.70 C27 C43 86.70
TOP 42 26 86.70 C43 C27 86.70
BOT 26 43 79.36 C27 C44 79.36
TOP 43 26 79.36 C44 C27 79.36
BOT 26 44 78.70 C27 C45 78.70
TOP 44 26 78.70 C45 C27 78.70
BOT 26 45 79.82 C27 C46 79.82
TOP 45 26 79.82 C46 C27 79.82
BOT 26 46 76.28 C27 C47 76.28
TOP 46 26 76.28 C47 C27 76.28
BOT 26 47 79.55 C27 C48 79.55
TOP 47 26 79.55 C48 C27 79.55
BOT 26 48 76.61 C27 C49 76.61
TOP 48 26 76.61 C49 C27 76.61
BOT 26 49 76.64 C27 C50 76.64
TOP 49 26 76.64 C50 C27 76.64
BOT 27 28 80.09 C28 C29 80.09
TOP 28 27 80.09 C29 C28 80.09
BOT 27 29 80.68 C28 C30 80.68
TOP 29 27 80.68 C30 C28 80.68
BOT 27 30 88.58 C28 C31 88.58
TOP 30 27 88.58 C31 C28 88.58
BOT 27 31 83.33 C28 C32 83.33
TOP 31 27 83.33 C32 C28 83.33
BOT 27 32 84.40 C28 C33 84.40
TOP 32 27 84.40 C33 C28 84.40
BOT 27 33 84.29 C28 C34 84.29
TOP 33 27 84.29 C34 C28 84.29
BOT 27 34 81.19 C28 C35 81.19
TOP 34 27 81.19 C35 C28 81.19
B 