--- EXPERIMENT NOTES
--- EXPERIMENT PROPERTIES
#Fri Feb 16 12:54:19 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_3/input.fasta
input.names=
mrbayes.params=
codeml.params=
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/HIV1_RE/NEF_1_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/NEF_1_3/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_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -11237.04 -11279.94
2 -11235.72 -11288.07
--------------------------------------
TOTAL -11236.18 -11287.37
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/HIV1_RE/NEF_1_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_RE/NEF_1_3/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_3/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 6.922024 0.151110 6.150210 7.667005 6.913436 643.86 839.31 1.000
r(A<->C){all} 0.106976 0.000082 0.090561 0.125687 0.106907 580.57 630.38 1.000
r(A<->G){all} 0.288216 0.000410 0.249731 0.328287 0.287680 210.93 253.39 1.000
r(A<->T){all} 0.102675 0.000087 0.085881 0.122044 0.102149 715.94 737.57 1.001
r(C<->G){all} 0.066296 0.000068 0.050574 0.082046 0.066102 579.10 622.44 1.000
r(C<->T){all} 0.346377 0.000487 0.304292 0.392649 0.346172 184.85 237.22 1.000
r(G<->T){all} 0.089461 0.000090 0.071863 0.108908 0.089314 497.17 599.19 1.001
pi(A){all} 0.341420 0.000170 0.317257 0.367772 0.341162 516.46 645.70 1.000
pi(C){all} 0.238666 0.000120 0.217387 0.260033 0.238355 579.35 649.42 1.000
pi(G){all} 0.250467 0.000155 0.224670 0.273139 0.250138 460.92 474.83 1.000
pi(T){all} 0.169448 0.000098 0.149840 0.188100 0.169644 434.64 442.51 1.002
alpha{1,2} 0.508401 0.002500 0.410662 0.606025 0.505646 985.61 1086.56 1.001
alpha{3} 1.899724 0.091812 1.363700 2.528032 1.880728 1113.22 1167.62 1.000
pinvar{all} 0.061598 0.000738 0.011369 0.115947 0.060598 602.01 921.19 1.000
------------------------------------------------------------------------------------------------------
* Convergence diagnostic (ESS = Estimated Sample Size); min and avg values
correspond to minimal and average ESS among runs.
ESS value below 100 may indicate that the parameter is undersampled.
+ Convergence diagnostic (PSRF = Potential Scale Reduction Factor; Gelman
and Rubin, 1992) should approach 1.0 as runs converge.
Setting sumt conformat to Simple
--- CODEML SUMMARY
Model 1: NearlyNeutral -9082.104548
Model 2: PositiveSelection -9049.184355
Model 0: one-ratio -9508.974775
Model 3: discrete -8991.708518
Model 7: beta -9007.278822
Model 8: beta&w>1 -8981.7405
Model 0 vs 1 853.7404540000025
Model 2 vs 1 65.84038599999985
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C.BW.99.99BW4745.AF443085_)
Pr(w>1) post mean +- SE for w
10 T 1.000** 2.595
43 C 0.959* 2.529
73 F 0.735 2.173
121 V 0.982* 2.566
157 R 0.947 2.510
163 H 1.000** 2.595
167 R 0.816 2.302
169 M 1.000** 2.594
173 L 0.999** 2.594
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: C.BW.99.99BW4745.AF443085_)
Pr(w>1) post mean +- SE for w
10 T 1.000** 2.509 +- 0.092
43 C 0.956* 2.440 +- 0.321
73 F 0.737 2.108 +- 0.664
121 V 0.980* 2.478 +- 0.230
157 R 0.945 2.423 +- 0.351
163 H 1.000** 2.508 +- 0.093
167 R 0.825 2.239 +- 0.572
169 M 0.999** 2.508 +- 0.099
173 L 0.999** 2.507 +- 0.106
Model 8 vs 7 51.07664400000067
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: C.BW.99.99BW4745.AF443085_)
Pr(w>1) post mean +- SE for w
10 T 1.000** 1.938
20 E 0.580 1.486
43 C 0.961* 1.896
73 F 0.759 1.677
121 V 0.986* 1.923
157 R 0.957* 1.892
163 H 1.000** 1.938
167 R 0.881 1.811
169 M 0.999** 1.937
173 L 0.998** 1.936
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: C.BW.99.99BW4745.AF443085_)
Pr(w>1) post mean +- SE for w
10 T 1.000** 2.286 +- 0.410
43 C 0.879 2.107 +- 0.594
121 V 0.964* 2.237 +- 0.476
157 R 0.821 2.015 +- 0.645
163 H 0.999** 2.286 +- 0.411
167 R 0.557 1.603 +- 0.715
169 M 0.997** 2.283 +- 0.415
173 L 0.995** 2.281 +- 0.418
>C1
MGSKLSKSCTAGWPTVRERIRQAEPAAEGVGAASKDLDKHGALTSSNTAG
TNADCAWLQAQEEEGEVGFPVRPQVPLRPMTYKSAFDLSFFLKEKGGLEG
LIYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCLKLVPVD
PREVEEDNEGENNCLLHPMSQHGMEDADREVLRWKFDSHLARRHMARELH
PEFYKDCooooooooooooooooooooo
>C2
MGGKWSKRSLEWSAVRERMQRAEPRERRQQTESAAVGVGAVSRDLEKYGA
ITSSNTAATNADCAWLEAQEEEEVGFPVRPQVPLRPMTYKGAIDLSHFLK
EKGGLEGLVYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWC
FKLVPVDPDKVEEANEGENNCLLHPMSQHGMDDPEKEVLVWKFDSHLAFR
HMARELHPEYYKDCoooooooooooooo
>C3
MGNKWSKNSIVGWPAIRERMRRTRPAEEPAADGVGAVSRDLARHGAITSS
NTAATNADCAWLEAQEDEDVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGG
LEGLIYSQKRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLV
PVEPEKVEEATEGENNCLLHPISLHGMEDPEKEVLVWRFDSHLAFRHLAR
ELHPEYYKDCoooooooooooooooooo
>C4
MGGKWSKSSIVGWPEIRERIRRAPPAATGVGAVSQDLDKRGAITNSNINH
PSCVWLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGLIY
SRKRQEILDLWIYNTQGIFPDWQNYTPGPGIRYPLTFGWCFKLVPVDPDE
VEKETEGENNSLLHPMCLHGMEDEERETLKWKFDSHLAFVHSAREKHPEF
YKDCoooooooooooooooooooooooo
>C5
MGSKWSKSSVVGWPAVRERIKKTEPAAEGVGAVSRDLEKHGAVTSSNTAA
TNAACAWLEAQEDEEVGFPVRPQVPLRPMTYKGAFDLSHFLKEKGGLEGL
IYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPVEP
EEVEKANEGENNSLLHPMSQHGMDDPEREVLMWKFDSRLAFQHMAKELHP
EYYKDCoooooooooooooooooooooo
>C6
MGGKWSKCSGWPRVRERMRRAEPAAEGVGAASQDLDKHGALTTSNTAHNN
AACAWLEAQEEEEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLEGLI
YSKKRQDILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVDPR
EVEEDNKGENNCLLHPMSQHGMEDTEREVLKWEFDSSLARRHLARELHPE
YYKDCooooooooooooooooooooooo
>C7
MGGKWSKRGVPGWNIIRERMRRTEPRTEPAAEGVGAVSRDLEQHGAITTR
NTAANNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKGAVDLSHFLKEKGG
LEGLVYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLV
PVDPDKVEEITEGENNCLLHPINQHGMDDPEREVLVWKFDSHLAFRHMAR
ELHPEYYKNCoooooooooooooooooo
>C8
MGGKWSKSSIIGWPSVRERMKRAEPAAEPAAAGVGAASRDLERYGALTSS
NTAGTNPDVAWLEAQEDEEVGFPVKPQVPLRPMTYKGALDLSHFLKEKGG
LEGLVYSQRRQDILDLWVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLV
PMEKEKVEEANEGENNCLLHPVSLHGMDDSEGEVLVWKFDSLLAFQHVAR
EKHPEYYKDCoooooooooooooooooo
>C9
MGGKWSKSSIVGWPAVRERLRRTEPAAEGVGAASQDLEKHGALTSSNTAA
TNADCAWLEAQEEADEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEG
LIYSKKRQEILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVD
PREVEGANEGENNCLLHPLSQHGMEDANREVLRWKFDSQLARRHMARELH
PEYYKDCooooooooooooooooooooo
>C10
MGGKWSKLRGWQAVRERMRRTGTTEPAATGVGAVSRDLEQRGAVTSSNTN
SADCVWLEAQEDEEVGFPVRPQVPLRPMTYKGALDLSHFLKEQGGLDGLI
HSPKRQEILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPADPE
QVERVTEGENNCLLHPLNQHGIDDPEREVLVWKFDSRLAFHHMARELHPE
FYKDCooooooooooooooooooooooo
>C11
MGGKWSKSSIVGWPAIRERIRRTEPAAEGVGAVSRDLERRGAITSSNTAH
TNPDCAWLEAQEEEQEVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEG
LIWSQKRQDILDLWVYHTQGFFPDWHNYTPGPGIRYPLTFGWCFELVPVE
PEEVEEDTEGENNCLLHPKCQHGMDDPEKEVLKWRFNSRLAFEHKAKEKH
PEFFKDCooooooooooooooooooooo
>C12
MGGKWSKSWPQVRDRIRRTPPSATEGVKRTPPSAAEGVGAVSQDLDKHGA
ITSSNINNADSVWLRAQEEEGEDNDVGFPVRPQVPLRPMTFKEAFDLSFF
LKEKGGLEGLIYSKKRQDILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFG
WCFKLVPVDPREVEEENKEESSCLLHPMNQHGMEDAEKEVLMWKFDSSLA
RRHVARELHPEFFKNCoooooooooooo
>C13
MGGKWSKSRGWSRVRERIEQTPPAAEGVGAVSQDLDKHGAVTSSNMNNAD
CVWLRAQEEEEEEVGFPVRPQVPLRPMTYKEAFDLSFFLKEKGGLEGLIY
SKRRQDILDLWVYNTQGFFPDWQNYTPGPGTRYPLCFGWCFKLVPVDTEE
VEGENNCLLHPMNQHGTEDAKKEVLMWKFDSALARRHIARELHPEFYKDC
oooooooooooooooooooooooooooo
>C14
MGGKWSKSSIVGWPAIRERIRRAGPAADGVGAVSRDLENHGAITSSNTAA
TNADCAWLEAQEEEEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLEGL
IYSKKRQEILDLWVYHTQGYFPDWQNYTPGPGVRFPLTFGWCFKLVPVDP
GEVEEANEGENNCLLHPVCQHGMEDEHREVLKWKFDSQLAHRHMARELHP
DFYKNCoooooooooooooooooooooo
>C15
MGGKWSKMSGWSAVRERMRRAEPAAEPAAAGVGAASRDLERHGALTSSNT
AATNAACAWVEAQEEGEEVGFPVRPQVPLRPMTYKGAFDLSFFLREKGGL
EGLIYSQQRQDILDLWVYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVP
VDPDKVEEANKGENNSLLHPTSLHGMDDPEGEVLMWKFDSSLARQHIARE
KHPEYFKDCooooooooooooooooooo
>C16
MGGKWSKSSVVGWPAVRERMRRAQPAADGVGAVSRDLERHGAITSSNTAA
NNADCAWLEAQEEEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLDGL
IYSQRRRDILYLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCYKLVPVEP
EKIEKANEGENNSLLHPMSQHGMDDPEREVLEWRFDSRLAFHHIAREKHP
EYYKNCoooooooooooooooooooooo
>C17
MGGKWSKSSIVGWPEVRERLRRTEPAAEGVGAASRDLAKHGALTSSNLGP
NNAACAWLEAQEEEEVGFPVTPRVPLRPMTYKGAFDLSFFLKEKGGLDGL
IHSKKRQEILDLWVHHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPVDP
REVEEANKGENNCLLHPMSQHGMEDEEGEVLQWQFDSSLARRHMARELHP
EYYKDCoooooooooooooooooooooo
>C18
MGGKWSKSCIVGWPTVRERMRRAEPADGVGPASRDLERHGALTSSNTATN
NAACAWSEAPEEEGVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLI
YSQKRSEILDLWVYHTQGFFPDWQNYTPGPGIRYPLTFGWCFKLVPIEPE
QGEEEDNRLLGLHGMEDTEREVLVWKFDSRLAFHHMAREKHPEYYKDCoo
oooooooooooooooooooooooooooo
>C19
MGGKWSKSSIMGWPQVRERIKQTPPAAEGVGAVSQDLDKHGVVTSSNMNN
ADCIWLRAQEEEGVGFPVRPQVPLRPMTFKEAFDLSFFLKEKGGLEGLIY
SKRRQEILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVDPRE
VEKDNEGENNCLLHPMSQHGIEDEEREVLMWKFDSALARKHIAREMHPEF
YKDCoooooooooooooooooooooooo
>C20
MGGKLSKSKIVGWSTIRERLRRTPPADEGAAEGVGAASRDLERHGAITSS
NTAANNADCAWLEAQEDEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGG
LEGLIYSQKRQEILDLWVYHTQGFFPDWQNYTPGPGTRYPLTFGWCFKLV
PVDQEEVEKANEGENNCLLHPMSQHGMDDPEKEVLKWQFDSRLAFHHVAR
ELHPEYYKNooooooooooooooooooo
>C21
MGGKWSKLKAGWTRVREKMEQAEPAAEGVGAASRDLEKHGALTSSNTAAN
NAACAWLEAHEDEEVGFPVRPQVPLRPMTFKAALDLSHFLKEMGGLDGLI
YSQRRQDILDLWVYHTQGYFPDWQNYTPGPGPRFPLTFGWCFKLVPVDPE
QVEKANEGENNSLLHPMSQHGMDDPEKEVLVWKFDSLLAFQHIAREKHPE
YYKDCooooooooooooooooooooooo
>C22
MGSKWSKSSIVGWPAVRERIRKTEPAAEGVGAASQDLDKYGALTTSNTAH
NNADCAWLEAQGEDEGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEG
LIHSKRRQDILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFEWCFKLVPVD
PREVEEANKGENNCLLHPMSQHGIEDEEREVLIWQFDSSLARNWPARELH
PEYYKDCooooooooooooooooooooo
>C23
MGGIWSKRSGGGWTWAAVRERMRRAEPAAVGVGAVSRDLEKHGAITNSNT
AATNADCAWLEAQEDEEVGFPVRPQVPLRPMTFKGALDLSHFLKEKGGLE
GLVHSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRYPLTLGWCFKLVPV
DPEKVEEANEGENNSLLHPISLHGMDDPEKEVLVWKFDSRLAFHHVAREL
HPEYFKDCoooooooooooooooooooo
>C24
MGGNWSKSSIVGWPQVRERIKRTPPATEGVGAVSQDLDKHGAVTSSNMNN
ADSVWLRAQEEEDDGVGFPVRPQVPVRPMTFKGAFDLSFFLKEKGGLDGL
IYSKRRQEILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVDP
REVEEDTKGENNCLLHPMNQHGQEDADREVLMWKFDSALARRHIAREQHP
EWYKDCoooooooooooooooooooooo
>C25
MGGKWSKSSIVGWPAIRERIRRTEPAAEGVGAASRDLEKHGALTSSNTAH
TNPDCARLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGL
VWSMKRQEILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFELVPVDP
KEVEEETEGENSCLLHPMNQHGMEDSEREVLKWRFNSRLAFEHKARQLHP
EFYKNCoooooooooooooooooooooo
>C26
MGGKWSKSSIVGWPQVRERIRRAPPAAEGVGAVSQDLDKHGAVTSSNMNN
ADSVWLRAQEEEGEEVGFPVKPQVPLRPMTYKGAFDLSFFLKEKGGLDGL
IHSKKRQEILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVDP
KDVEEDTKGENNCLLHPMNQHGFEDEEREVLMWKFDSSLARKHIARELHP
EYYKDCoooooooooooooooooooooo
>C27
MGGKWSKSSKGGWTEVREKIRQTPAAANGVGAVSQDLDKHGAVTSSNINH
PSCAWLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLIY
SRRRQEILDLWVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVDPEE
VEKDTEGENNSLLHPICQHGMDDEEKETLMWKFDSHLAFTHTAREKHPEF
YKDCoooooooooooooooooooooooo
>C28
MGGKWSKCSGWPAVRERMRQAEPAAEGVGAASQDLDKHRALTNSSTATTN
AACAWLEAQEEEGGVGFPVRPQVPLRPMTYKAAFDLGFFLKEKGGLDGLI
YSKKRQEILDLWVYHTQGFFPDWQNYTPGPGIRYPLTFGWCYKLVPVDPK
EVEENNKGENNCLLHPMSQHGMEDEDREVLKWQFDSSLARRHMAREMHPE
YYKDCooooooooooooooooooooooo
>C29
MGNKWSKSWPQVRERIRRAPPAAEGVGAVSQDLDKHGAVTSSNINNPDSV
WLRAQEEEEEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIYSK
KRQEILDLWVYNTQGYFPDWQNYTPGPGVRYPLCFGWCFKLVPVDPSEVE
EENKDENNCLLHPMSQHGVDDEHREVLKWKFDSALARRHIAREKHPDFYK
DCoooooooooooooooooooooooooo
>C30
MGSKLSKSRIVGWARVRERLRRTPPTAERVRRPPPAAEGAGATSQAAVGV
GAASQDLARHGAITSSNTSSTNADCAWLEAQEEEEEEVGFPVRPQVPLRP
MTYKAAVDLSHFLKEKGGLEGLIYSKKRQEILDLWVYHTQGFLPDWQNYT
PGPGIRYPLTFGWCFKLVPIDPAEVEEANEGENNVLLHPICQHGMDDEDR
EVLVWKFDSRLAFTHTARELHPEFYKDC
>C31
MGGKWSKNSKAGWPSVREKIRKTEPAAEGVGAASQDLDKYGALTNSNTSQ
NNPDCAWLEAQQEGEEVGFPVRPQVPTRPMTYKAAFDLGFFLKDKGGLEG
LIWSQKRQDILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWPFKLVPVD
PNEVEEANKGEDNCLLHPMSQHGIEDGEREVLMWKFDSSLARRHIAREKH
PEFYKDCooooooooooooooooooooo
>C32
MGGKWSKSSVIGWPAVRERMRRAEPAADGVGAVSRDLERHGAITSSNTAT
NNADCAWLEAQEDEEVGFPVRPQVPLRPMTHRAAVDLSHFLKEKGGLEGL
VHSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRYPITFGWCFKLVPVDP
DKVEEANEGENNCLLHPMSQHGMDDPEKEVLVWKFDSRLAFHHVARELHP
EYFKNCoooooooooooooooooooooo
>C33
MGGKWSKRRVEWPTVRERMRRAEPAAIGVGAASRDLEKHGAITSSNTAAN
NADCAWLEAQEDEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGLI
YSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPVEPG
KVEEANEGENNCLLHPMSLHGMDDPEKEVLVWKFDSRLAFHHVAQELHPE
YYKDCooooooooooooooooooooooo
>C34
MGSKWSKSSMAGWPEVRERMRRARPEPAADGVGAASRDLEKHGAITSSNT
ATTNADCAWLEAQEEEEVGFPVRPQVPLRPMTHRAAIDLSHFLREKGGLE
GLIHSQKRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPV
APDRVEEANEGENNSLLHPMSLHGMEDPEKEVLEWRFDSRLAFRHVAKEL
HPEYYENCoooooooooooooooooooo
>C35
MGSKWSKSSIVGWPQVRERIRQTPPATEGVGAVSQDLDKHGAVTSSNINN
ADCVWLKTQEEEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLDGLIY
SKKRQEILDLWVYHTQGFFPDWDNYTPGPGTRFPLCFGWCFKLVPVDPRE
VEENNEGENNCLLHPMSQHGMDDEEREVLMWKFDSALARKHIARELHPEF
YKDCoooooooooooooooooooooooo
>C36
MGGKLSKCIGWPEVRERMRRAEPREGIRRTEPAAEGVGAASQDLDKYGAF
TTSNTVATNADLAWLEAQEEEEEVGFPVRPQVPLRPMTYKAAFNLSFFLK
EKGGLEGLIYSKKRQDILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWC
FKLVPVDPREVEEANKGENNCLLHPMSQHGMEDEDREVLRWEFDSSLARR
HLAREKHPEYYKDCoooooooooooooo
>C37
MGNIFGRWPGARKAIEDLHNTSSEPVGQASQDLQNKGGLTTNTLGTSADV
LEYSADHTEEEVGFPVRPAVPMRPMTEKLAIDLSWFLKEKGGLDGLFFSP
KRAAILDTWMYNTQGVFPDWQNYTPGPGIRYPLCRGWLFKLVPVDPPEDD
EKNILLHPACSHGTTDPDGETLIWRFDSSLARRHIARERYPEYFKooooo
oooooooooooooooooooooooooooo
>C38
MGGKWSKSSIVGWPAVRERMRRAIPAPAAEGVGAVSRDLEKHGAITSSNT
PDTNPDCAWVQAQEEEEEVGFPVRPQVPVRPMTYKAAFDLGFFLKEKGGL
DGLIYSQKRKDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVP
VDPTEVEEANKGENNSLLHPLSLHGMDDSEGEVLMWKFDSSLARRHVARE
LHPEFYKDCooooooooooooooooooo
>C39
MGGKWSKSSIVGWPQIRERIRRTPPAAEGVGAVSQDLDKHGAVTSSNINN
DDSVWLRAQEEEDEGVGFPVRPQVPLRPMTYKEAFDLSFFLKEKGGLEGL
IYSKKRQEILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVDP
REVEEDNKGENNCLLHPMSQHGIEDEEREVLRWQFDSALARRHIARELRP
EYFKDCoooooooooooooooooooooo
>C40
MGGKWPKSSVVGWPEVRERIRRTPAAAPGVGAVSQDLDKHGAVTSSNVNH
PSCVWLDAQEEEEVGFPVRPQVPLRPMTYKGALDLSFFLKEKGGLDGLIY
SRKRQEILDLWVYHTQGFFPDWHNYTPGPGVRYPLTFGWCFKLVPVDPRE
VEEATGGEDNCLLHPVCQHGMEDEYGEVLQWKFDSHLAYKHQARERHPEF
YKDCoooooooooooooooooooooooo
>C41
MGGKWSKFSGWPAVRERMRRTEPAAEGVGTASQDLDKHGALTSSNTVTNN
AACAWLQAQEEEAEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLDGL
VYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRLPLTFGWCYKLVPVDP
EEVEEANKGDNNCLLHPMSQHGIDDEHGEVLKWKFDSSLARRHLARELHP
EYYKDooooooooooooooooooooooo
>C42
MGGKWSKSSIIGWPQIRERIRRTPPAATGVGAVSQDLDKHGAITSSNINH
PSNTWLAAQEEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGLI
YSQQRQDILDLWVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVNPD
EVEEATKGENNSLLHPMCQHGMDDKERETLVWRFDSRLALKHLAREKHPE
FYKDCooooooooooooooooooooooo
>C43
MGGKWSKSSLVGWPKVRERIRQTPAAATGVGAVSQDLEKHGAITSSNTAA
TNDNIAWLEAQEDEEVGFPVRPQVPLRPMTYKAAFDLSYFLKEKGGLEGL
IYSKKRQEILDLWVYHTQGFFPDWQNYTPGPGTRYPLTFGWCFKLVPMDP
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EFYKDCoooooooooooooooooooooo
>C44
MGGKWSKSSIIGWPAIRERIRRTEPAADGVGAVSRDLEKHGAITSSNTAV
TNADCAWLEAQEEEEVGFPVRPQVPLRPMTFKGAVDLSFFLKEKGGLEGL
VYSKRRQEILDLWVYHTQGFFPDWHNYTPGPGVRYPLTFGWCFKLVPVDP
KEVEEANEGEDSCLLHPICQHGMEDEHREVLKWQFDSQLARRHWARELHP
EFYKDCoooooooooooooooooooooo
>C45
MGGKWSKMRGWPDVRERMRRVEPTAGGVGAVSRDLEKHGAITSSNTAATN
ADLAWLESQEEEEVGFPVRPQVPLRPMDYKGALDLSHFLKEKGGLEGIIW
SQKRQDILDLWVHHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEPDK
VEEASEGENNCLLHPINQHGMDDPEKEVLTWKFDSRLAFHHMARELHPEY
YKDCoooooooooooooooooooooooo
>C46
MGNKWSKSWPAVRERMQRARAQPATEGRASRAGASRVEPAAAEDGASGIS
RPGTSSNQAQDEDEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGI
IYSPQRQEILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEA
EEATAGERDTLLSSISQHGTDNPEGEVLMWKFDSSLARLHKAREIHPEYY
KNCooooooooooooooooooooooooo
>C47
MGGNWSKRGWPEIRERMRRAPPAAARAPSAAAPGVGAVSQDLAKHGAITS
SNINNPSCVWLAAQEEQEEEVGFPVRPQVPLRPMTYKGAFDLSHFLKEKG
GLEGLIYSKKRQEILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKL
VPVDPDEVEKETEGENNSLLHPICQHGMDDEEGEVLKWTFDSRLALRHIA
HEKHPEFYKDCooooooooooooooooo
>C48
MGGKMSKSKIVGWPAIRERMRRTGQQAADGVGAATRDLEKHGAITSSNTA
ATNSDCAWLEAQEEEEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLE
GLIYSEKRKEILDLWVYHTQGYFPDWHNYTPGPGVRYPLTFGWCFKLVPV
DPKEVEETNEGEDNCLLHPVCQHGMEDEHREILKWKFDSHLALQHKAREL
HPEFYKDCoooooooooooooooooooo
>C49
MGGKGSKSLSGWPKIRERIRRTEPAADGVGAASRDLEKHGAITSSNTPAT
NADCAWLEAQEKEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGL
IYSQRRQDILDLWIYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVEQ
EKVEEANEGENNILLHPMSLHGMDDPEGEVLMWKFDSRLAFHHVAREQHP
EYYKDCoooooooooooooooooooooo
>C50
MGGKWSRSSIVGWPDVRERLRRTNSPAAEGVGAASKDLEKHGALTISNTA
NNNAACAWLEAQEEETGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLE
GLIYSKKRQEILDLWVYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPV
DPQEVEEATEGEDNCLLHPISQHGMEDEDREVLKWQFDIQLARRHMAREI
HPEFYKDCoooooooooooooooooooo
PROGRAM: T-COFFEE Version_10.00.r1613 (2013-10-22 15:49:09 - Revision 1613 - Build 432)
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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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Input File (S) input.prot.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]
Multi Core Mode: 8 processors:
--- Process Method/Library/Aln 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:
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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 FILES
Input File (S) input.prot.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
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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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Input File (S) input.prot.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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INPUT FILES
Input File (S) input.prot.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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INPUT FILES
Input File (S) input.prot.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
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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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Input File (S) input.prot.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
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Library Total Size: [992642]
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: [992642]
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: [992642]
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: [992642]
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: [992642]
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: [992642]
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: [992642]
Library Relaxation: Multi_proc [8]
Relaxation Summary: [992642]--->[600968]
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= 32.077 Mb, Max= 51.783 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 MGSKLSKWPTVRERIRQAAEVGAASKDLDKHGALTSNTTNADCAWLQAQE
C2 MGGKWSKWSAVRERMQRAAVVGAVSRDLEKYGAITSNTTNADCAWLEAQE
C3 MGNKWSKWPAIRERMRRTADVGAVSRDLARHGAITSNTTNADCAWLEAQE
C4 MGGKWSKWPEIRERIRRAATVGAVSQDLDKRGAITNNINHPSCVWLEAQE
C5 MGSKWSKWPAVRERIKKTAEVGAVSRDLEKHGAVTSNTTNAACAWLEAQE
C6 MGGKWSKWPRVRERMRRAAEVGAASQDLDKHGALTTNTNNAACAWLEAQE
C7 MGGKWSKWNIIRERMRRTAEVGAVSRDLEQHGAITTNTNNADCAWLEAQE
C8 MGGKWSKWPSVRERMKRAAAVGAASRDLERYGALTSNTTNPDVAWLEAQE
C9 MGGKWSKWPAVRERLRRTAEVGAASQDLEKHGALTSNTTNADCAWLEAQE
C10 MGGKWSKWQAVRERMRRTATVGAVSRDLEQRGAVTSNTNSADCVWLEAQE
C11 MGGKWSKWPAIRERIRRTAEVGAVSRDLERRGAITSNTTNPDCAWLEAQE
C12 MGGKWSKWPQVRDRIRRTAEVGAVSQDLDKHGAITSNINNADSVWLRAQE
C13 MGGKWSKWSRVRERIEQTAEVGAVSQDLDKHGAVTSNMNNADCVWLRAQE
C14 MGGKWSKWPAIRERIRRAADVGAVSRDLENHGAITSNTTNADCAWLEAQE
C15 MGGKWSKWSAVRERMRRAAAVGAASRDLERHGALTSNTTNAACAWVEAQE
C16 MGGKWSKWPAVRERMRRAADVGAVSRDLERHGAITSNTNNADCAWLEAQE
C17 MGGKWSKWPEVRERLRRTAEVGAASRDLAKHGALTSNLNNAACAWLEAQE
C18 MGGKWSKWPTVRERMRRAADVGPASRDLERHGALTSNTNNAACAWSEAPE
C19 MGGKWSKWPQVRERIKQTAEVGAVSQDLDKHGVVTSNMNNADCIWLRAQE
C20 MGGKLSKWSTIRERLRRTAEVGAASRDLERHGAITSNTNNADCAWLEAQE
C21 MGGKWSKWTRVREKMEQAAEVGAASRDLEKHGALTSNTNNAACAWLEAHE
C22 MGSKWSKWPAVRERIRKTAEVGAASQDLDKYGALTTNTNNADCAWLEAQG
C23 MGGIWSKWAAVRERMRRAAVVGAVSRDLEKHGAITNNTTNADCAWLEAQE
C24 MGGNWSKWPQVRERIKRTTEVGAVSQDLDKHGAVTSNMNNADSVWLRAQE
C25 MGGKWSKWPAIRERIRRTAEVGAASRDLEKHGALTSNTTNPDCARLEAQE
C26 MGGKWSKWPQVRERIRRAAEVGAVSQDLDKHGAVTSNMNNADSVWLRAQE
C27 MGGKWSKWTEVREKIRQTANVGAVSQDLDKHGAVTSNINHPSCAWLEAQE
C28 MGGKWSKWPAVRERMRQAAEVGAASQDLDKHRALTNSTTNAACAWLEAQE
C29 MGNKWSKWPQVRERIRRAAEVGAVSQDLDKHGAVTSNINNPDSVWLRAQE
C30 MGSKLSKWARVRERLRRTGAVGAASQDLARHGAITSNTTNADCAWLEAQE
C31 MGGKWSKWPSVREKIRKTAEVGAASQDLDKYGALTNNTNNPDCAWLEAQQ
C32 MGGKWSKWPAVRERMRRAADVGAVSRDLERHGAITSNTNNADCAWLEAQE
C33 MGGKWSKWPTVRERMRRAAIVGAASRDLEKHGAITSNTNNADCAWLEAQE
C34 MGSKWSKWPEVRERMRRAADVGAASRDLEKHGAITSNTTNADCAWLEAQE
C35 MGSKWSKWPQVRERIRQTTEVGAVSQDLDKHGAVTSNINNADCVWLKTQE
C36 MGGKLSKWPEVRERMRRAAEVGAASQDLDKYGAFTTNTTNADLAWLEAQE
C37 MGNIFGRWPGARKAIEDLSEVGQASQDLQNKGGLTTNTTSADVLEYSADH
C38 MGGKWSKWPAVRERMRRAAEVGAVSRDLEKHGAITSNTTNPDCAWVQAQE
C39 MGGKWSKWPQIRERIRRTAEVGAVSQDLDKHGAVTSNINNDDSVWLRAQE
C40 MGGKWPKWPEVRERIRRTAPVGAVSQDLDKHGAVTSNVNHPSCVWLDAQE
C41 MGGKWSKWPAVRERMRRTAEVGTASQDLDKHGALTSNTNNAACAWLQAQE
C42 MGGKWSKWPQIRERIRRTATVGAVSQDLDKHGAITSNINHPSNTWLAAQE
C43 MGGKWSKWPKVRERIRQTATVGAVSQDLEKHGAITSNTTNDNIAWLEAQE
C44 MGGKWSKWPAIRERIRRTADVGAVSRDLEKHGAITSNTTNADCAWLEAQE
C45 MGGKWSKWPDVRERMRRVAGVGAVSRDLEKHGAITSNTTNADLAWLESQE
C46 MGNKWSKWPAVRERMQRATEASRAGASRVEPAAAEDASSRPGTSSNQAQD
C47 MGGNWSKWPEIRERMRRAAAVGAVSQDLAKHGAITSNINNPSCVWLAAQE
C48 MGGKMSKWPAIRERMRRTADVGAATRDLEKHGAITSNTTNSDCAWLEAQE
C49 MGGKGSKWPKIRERIRRTADVGAASRDLEKHGAITSNTTNADCAWLEAQE
C50 MGGKWSRWPDVRERLRRTAEVGAASKDLEKHGALTINTNNAACAWLEAQE
**. :* *. :. .. . . . . :
C1 EEEVGFPVRPQVPLRPMTYKSAFDLSFFLKEKGGLEGLIYSKKRQEILDL
C2 EEEVGFPVRPQVPLRPMTYKGAIDLSHFLKEKGGLEGLVYSQKRQDILDL
C3 DEDVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIYSQKRQEILDL
C4 EEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGLIYSRKRQEILDL
C5 DEEVGFPVRPQVPLRPMTYKGAFDLSHFLKEKGGLEGLIYSQKRQDILDL
C6 EEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLEGLIYSKKRQDILDL
C7 DEEVGFPVKPQVPLRPMTYKGAVDLSHFLKEKGGLEGLVYSQKRQDILDL
C8 DEEVGFPVKPQVPLRPMTYKGALDLSHFLKEKGGLEGLVYSQRRQDILDL
C9 EAEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEGLIYSKKRQEILDL
C10 DEEVGFPVRPQVPLRPMTYKGALDLSHFLKEQGGLDGLIHSPKRQEILDL
C11 EEEVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIWSQKRQDILDL
C12 EEDVGFPVRPQVPLRPMTFKEAFDLSFFLKEKGGLEGLIYSKKRQDILDL
C13 EEEVGFPVRPQVPLRPMTYKEAFDLSFFLKEKGGLEGLIYSKRRQDILDL
C14 EEEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLEGLIYSKKRQEILDL
C15 EGEVGFPVRPQVPLRPMTYKGAFDLSFFLREKGGLEGLIYSQQRQDILDL
C16 EEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLDGLIYSQRRRDILYL
C17 EEEVGFPVTPRVPLRPMTYKGAFDLSFFLKEKGGLDGLIHSKKRQEILDL
C18 EEGVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSQKRSEILDL
C19 EEGVGFPVRPQVPLRPMTFKEAFDLSFFLKEKGGLEGLIYSKRRQEILDL
C20 DEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGLIYSQKRQEILDL
C21 DEEVGFPVRPQVPLRPMTFKAALDLSHFLKEMGGLDGLIYSQRRQDILDL
C22 EDGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEGLIHSKRRQDILDL
C23 DEEVGFPVRPQVPLRPMTFKGALDLSHFLKEKGGLEGLVHSQKRQDILDL
C24 EEGVGFPVRPQVPVRPMTFKGAFDLSFFLKEKGGLDGLIYSKRRQEILDL
C25 EEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGLVWSMKRQEILDL
C26 EEEVGFPVKPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIHSKKRQEILDL
C27 EEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSRRRQEILDL
C28 EEGVGFPVRPQVPLRPMTYKAAFDLGFFLKEKGGLDGLIYSKKRQEILDL
C29 EEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIYSKKRQEILDL
C30 EEEVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIYSKKRQEILDL
C31 EGEVGFPVRPQVPTRPMTYKAAFDLGFFLKDKGGLEGLIWSQKRQDILDL
C32 DEEVGFPVRPQVPLRPMTHRAAVDLSHFLKEKGGLEGLVHSQKRQDILDL
C33 DEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGLIYSQKRQDILDL
C34 EEEVGFPVRPQVPLRPMTHRAAIDLSHFLREKGGLEGLIHSQKRQDILDL
C35 EEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLDGLIYSKKRQEILDL
C36 EEEVGFPVRPQVPLRPMTYKAAFNLSFFLKEKGGLEGLIYSKKRQDILDL
C37 TEEVGFPVRPAVPMRPMTEKLAIDLSWFLKEKGGLDGLFFSPKRAAILDT
C38 EEEVGFPVRPQVPVRPMTYKAAFDLGFFLKEKGGLDGLIYSQKRKDILDL
C39 EEGVGFPVRPQVPLRPMTYKEAFDLSFFLKEKGGLEGLIYSKKRQEILDL
C40 EEEVGFPVRPQVPLRPMTYKGALDLSFFLKEKGGLDGLIYSRKRQEILDL
C41 EEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLDGLVYSKKRQEILDL
C42 EEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDGLIYSQQRQDILDL
C43 DEEVGFPVRPQVPLRPMTYKAAFDLSYFLKEKGGLEGLIYSKKRQEILDL
C44 EEEVGFPVRPQVPLRPMTFKGAVDLSFFLKEKGGLEGLVYSKRRQEILDL
C45 EEEVGFPVRPQVPLRPMDYKGALDLSHFLKEKGGLEGIIWSQKRQDILDL
C46 EDEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGIIYSPQRQEILDL
C47 EQEVGFPVRPQVPLRPMTYKGAFDLSHFLKEKGGLEGLIYSKKRQEILDL
C48 EEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEGLIYSEKRKEILDL
C49 KEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSQRRQDILDL
C50 EEGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEGLIYSKKRQEILDL
***** * ** *** : *.:*. **:: ***:*:. * :* **
C1 WVYHTQGFFPDWQNYTPGPGVRYPLTFGWCLKLVPVEENNCLLHPHGMED
C2 WVYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVKENNCLLHPHGMDD
C3 WVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVKENNCLLHPHGMED
C4 WIYNTQGIFPDWQNYTPGPGIRYPLTFGWCFKLVPVEENNSLLHPHGMED
C5 WVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPVEENNSLLHPHGMDD
C6 WVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVEENNCLLHPHGMED
C7 WVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVKENNCLLHPHGMDD
C8 WVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPMKENNCLLHPHGMDD
C9 WVYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVEENNCLLHPHGMED
C10 WVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPAQENNCLLHPHGIDD
C11 WVYHTQGFFPDWHNYTPGPGIRYPLTFGWCFELVPVEENNCLLHPHGMDD
C12 WVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVEESSCLLHPHGMED
C13 WVYNTQGFFPDWQNYTPGPGTRYPLCFGWCFKLVPVEENNCLLHPHGTED
C14 WVYHTQGYFPDWQNYTPGPGVRFPLTFGWCFKLVPVEENNCLLHPHGMED
C15 WVYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVKENNSLLHPHGMDD
C16 WIYHTQGYFPDWQNYTPGPGIRYPLTFGWCYKLVPVKENNSLLHPHGMDD
C17 WVHHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPVEENNCLLHPHGMED
C18 WVYHTQGFFPDWQNYTPGPGIRYPLTFGWCFKLVPIQEDNRLLGLHGMED
C19 WVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVEENNCLLHPHGIED
C20 WVYHTQGFFPDWQNYTPGPGTRYPLTFGWCFKLVPVEENNCLLHPHGMDD
C21 WVYHTQGYFPDWQNYTPGPGPRFPLTFGWCFKLVPVQENNSLLHPHGMDD
C22 WVYHTQGYFPDWQNYTPGPGVRYPLTFEWCFKLVPVEENNCLLHPHGIED
C23 WVYHTQGYFPDWQNYTPGPGTRYPLTLGWCFKLVPVKENNSLLHPHGMDD
C24 WVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVEENNCLLHPHGQED
C25 WIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFELVPVEENSCLLHPHGMED
C26 WVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVDENNCLLHPHGFED
C27 WVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEENNSLLHPHGMDD
C28 WVYHTQGFFPDWQNYTPGPGIRYPLTFGWCYKLVPVEENNCLLHPHGMED
C29 WVYNTQGYFPDWQNYTPGPGVRYPLCFGWCFKLVPVEENNCLLHPHGVDD
C30 WVYHTQGFLPDWQNYTPGPGIRYPLTFGWCFKLVPIEENNVLLHPHGMDD
C31 WVYHTQGFFPDWQNYTPGPGVRYPLTFGWPFKLVPVEEDNCLLHPHGIED
C32 WVYHTQGYFPDWQNYTPGPGTRYPITFGWCFKLVPVKENNCLLHPHGMDD
C33 WVYHTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPVKENNCLLHPHGMDD
C34 WVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVRENNSLLHPHGMED
C35 WVYHTQGFFPDWDNYTPGPGTRFPLCFGWCFKLVPVEENNCLLHPHGMDD
C36 WVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVEENNCLLHPHGMED
C37 WMYNTQGVFPDWQNYTPGPGIRYPLCRGWLFKLVPVEEKNILLHPHGTTD
C38 WVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVEENNSLLHPHGMDD
C39 WVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVEENNCLLHPHGIED
C40 WVYHTQGFFPDWHNYTPGPGVRYPLTFGWCFKLVPVEEDNCLLHPHGMED
C41 WVYHTQGFFPDWQNYTPGPGVRLPLTFGWCYKLVPVEDNNCLLHPHGIDD
C42 WVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEENNSLLHPHGMDD
C43 WVYHTQGFFPDWQNYTPGPGTRYPLTFGWCFKLVPMEENNSLLHPHGMED
C44 WVYHTQGFFPDWHNYTPGPGVRYPLTFGWCFKLVPVEEDSCLLHPHGMED
C45 WVHHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVKENNCLLHPHGMDD
C46 WVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEERDTLLSSHGTDN
C47 WVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVEENNSLLHPHGMDD
C48 WVYHTQGYFPDWHNYTPGPGVRYPLTFGWCFKLVPVEEDNCLLHPHGMED
C49 WIYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVKENNILLHPHGMDD
C50 WVYNTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVEEDNCLLHPHGMED
*:::*** :***.******* * *: * :*** : . ** ** :
C1 ADREVLRWKFDSHLARRHMARELHPEFYKDC
C2 PEKEVLVWKFDSHLAFRHMARELHPEYYKDC
C3 PEKEVLVWRFDSHLAFRHLARELHPEYYKDC
C4 EERETLKWKFDSHLAFVHSAREKHPEFYKDC
C5 PEREVLMWKFDSRLAFQHMAKELHPEYYKDC
C6 TEREVLKWEFDSSLARRHLARELHPEYYKDC
C7 PEREVLVWKFDSHLAFRHMARELHPEYYKNC
C8 SEGEVLVWKFDSLLAFQHVAREKHPEYYKDC
C9 ANREVLRWKFDSQLARRHMARELHPEYYKDC
C10 PEREVLVWKFDSRLAFHHMARELHPEFYKDC
C11 PEKEVLKWRFNSRLAFEHKAKEKHPEFFKDC
C12 AEKEVLMWKFDSSLARRHVARELHPEFFKNC
C13 AKKEVLMWKFDSALARRHIARELHPEFYKDC
C14 EHREVLKWKFDSQLAHRHMARELHPDFYKNC
C15 PEGEVLMWKFDSSLARQHIAREKHPEYFKDC
C16 PEREVLEWRFDSRLAFHHIAREKHPEYYKNC
C17 EEGEVLQWQFDSSLARRHMARELHPEYYKDC
C18 TEREVLVWKFDSRLAFHHMAREKHPEYYKDC
C19 EEREVLMWKFDSALARKHIAREMHPEFYKDC
C20 PEKEVLKWQFDSRLAFHHVARELHPEYYKNo
C21 PEKEVLVWKFDSLLAFQHIAREKHPEYYKDC
C22 EEREVLIWQFDSSLARNWPARELHPEYYKDC
C23 PEKEVLVWKFDSRLAFHHVARELHPEYFKDC
C24 ADREVLMWKFDSALARRHIAREQHPEWYKDC
C25 SEREVLKWRFNSRLAFEHKARQLHPEFYKNC
C26 EEREVLMWKFDSSLARKHIARELHPEYYKDC
C27 EEKETLMWKFDSHLAFTHTAREKHPEFYKDC
C28 EDREVLKWQFDSSLARRHMAREMHPEYYKDC
C29 EHREVLKWKFDSALARRHIAREKHPDFYKDC
C30 EDREVLVWKFDSRLAFTHTARELHPEFYKDC
C31 GEREVLMWKFDSSLARRHIAREKHPEFYKDC
C32 PEKEVLVWKFDSRLAFHHVARELHPEYFKNC
C33 PEKEVLVWKFDSRLAFHHVAQELHPEYYKDC
C34 PEKEVLEWRFDSRLAFRHVAKELHPEYYENC
C35 EEREVLMWKFDSALARKHIARELHPEFYKDC
C36 EDREVLRWEFDSSLARRHLAREKHPEYYKDC
C37 PDGETLIWRFDSSLARRHIARERYPEYFKoo
C38 SEGEVLMWKFDSSLARRHVARELHPEFYKDC
C39 EEREVLRWQFDSALARRHIARELRPEYFKDC
C40 EYGEVLQWKFDSHLAYKHQARERHPEFYKDC
C41 EHGEVLKWKFDSSLARRHLARELHPEYYKDo
C42 KERETLVWRFDSRLALKHLAREKHPEFYKDC
C43 EDREVLVWRYDSSLAFTHKAREMHPEFYKDC
C44 EHREVLKWQFDSQLARRHWARELHPEFYKDC
C45 PEKEVLTWKFDSRLAFHHMARELHPEYYKDC
C46 PEGEVLMWKFDSSLARLHKAREIHPEYYKNC
C47 EEGEVLKWTFDSRLALRHIAHEKHPEFYKDC
C48 EHREILKWKFDSHLALQHKARELHPEFYKDC
C49 PEGEVLMWKFDSRLAFHHVAREQHPEYYKDC
C50 EDREVLKWQFDIQLARRHMAREIHPEFYKDC
* * * :: ** *:: *::::
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:88 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 83.11 C1 C2 83.11
TOP 1 0 83.11 C2 C1 83.11
BOT 0 2 81.25 C1 C3 81.25
TOP 2 0 81.25 C3 C1 81.25
BOT 0 3 79.11 C1 C4 79.11
TOP 3 0 79.11 C4 C1 79.11
BOT 0 4 83.70 C1 C5 83.70
TOP 4 0 83.70 C5 C1 83.70
BOT 0 5 88.94 C1 C6 88.94
TOP 5 0 88.94 C6 C1 88.94
BOT 0 6 79.02 C1 C7 79.02
TOP 6 0 79.02 C7 C1 79.02
BOT 0 7 78.57 C1 C8 78.57
TOP 7 0 78.57 C8 C1 78.57
BOT 0 8 89.47 C1 C9 89.47
TOP 8 0 89.47 C9 C1 89.47
BOT 0 9 78.92 C1 C10 78.92
TOP 9 0 78.92 C10 C1 78.92
BOT 0 10 78.95 C1 C11 78.95
TOP 10 0 78.95 C11 C1 78.95
BOT 0 11 82.63 C1 C12 82.63
TOP 11 0 82.63 C12 C1 82.63
BOT 0 12 85.45 C1 C13 85.45
TOP 12 0 85.45 C13 C1 85.45
BOT 0 13 85.40 C1 C14 85.40
TOP 13 0 85.40 C14 C1 85.40
BOT 0 14 80.36 C1 C15 80.36
TOP 14 0 80.36 C15 C1 80.36
BOT 0 15 77.97 C1 C16 77.97
TOP 15 0 77.97 C16 C1 77.97
BOT 0 16 85.02 C1 C17 85.02
TOP 16 0 85.02 C17 C1 85.02
BOT 0 17 80.82 C1 C18 80.82
TOP 17 0 80.82 C18 C1 80.82
BOT 0 18 84.89 C1 C19 84.89
TOP 18 0 84.89 C19 C1 84.89
BOT 0 19 81.70 C1 C20 81.70
TOP 19 0 81.70 C20 C1 81.70
BOT 0 20 79.65 C1 C21 79.65
TOP 20 0 79.65 C21 C1 79.65
BOT 0 21 84.21 C1 C22 84.21
TOP 21 0 84.21 C22 C1 84.21
BOT 0 22 78.32 C1 C23 78.32
TOP 22 0 78.32 C23 C1 78.32
BOT 0 23 82.30 C1 C24 82.30
TOP 23 0 82.30 C24 C1 82.30
BOT 0 24 81.06 C1 C25 81.06
TOP 24 0 81.06 C25 C1 81.06
BOT 0 25 83.19 C1 C26 83.19
TOP 25 0 83.19 C26 C1 83.19
BOT 0 26 79.56 C1 C27 79.56
TOP 26 0 79.56 C27 C1 79.56
BOT 0 27 87.61 C1 C28 87.61
TOP 27 0 87.61 C28 C1 87.61
BOT 0 28 84.68 C1 C29 84.68
TOP 28 0 84.68 C29 C1 84.68
BOT 0 29 81.16 C1 C30 81.16
TOP 29 0 81.16 C30 C1 81.16
BOT 0 30 82.46 C1 C31 82.46
TOP 30 0 82.46 C31 C1 82.46
BOT 0 31 79.74 C1 C32 79.74
TOP 31 0 79.74 C32 C1 79.74
BOT 0 32 82.30 C1 C33 82.30
TOP 32 0 82.30 C33 C1 82.30
BOT 0 33 80.97 C1 C34 80.97
TOP 33 0 80.97 C34 C1 80.97
BOT 0 34 86.22 C1 C35 86.22
TOP 34 0 86.22 C35 C1 86.22
BOT 0 35 87.67 C1 C36 87.67
TOP 35 0 87.67 C36 C1 87.67
BOT 0 36 64.49 C1 C37 64.49
TOP 36 0 64.49 C37 C1 64.49
BOT 0 37 82.30 C1 C38 82.30
TOP 37 0 82.30 C38 C1 82.30
BOT 0 38 84.07 C1 C39 84.07
TOP 38 0 84.07 C39 C1 84.07
BOT 0 39 81.33 C1 C40 81.33
TOP 39 0 81.33 C40 C1 81.33
BOT 0 40 84.96 C1 C41 84.96
TOP 40 0 84.96 C41 C1 84.96
BOT 0 41 76.99 C1 C42 76.99
TOP 41 0 76.99 C42 C1 76.99
BOT 0 42 82.82 C1 C43 82.82
TOP 42 0 82.82 C43 C1 82.82
BOT 0 43 84.51 C1 C44 84.51
TOP 43 0 84.51 C44 C1 84.51
BOT 0 44 79.56 C1 C45 79.56
TOP 44 0 79.56 C45 C1 79.56
BOT 0 45 68.64 C1 C46 68.64
TOP 45 0 68.64 C46 C1 68.64
BOT 0 46 79.91 C1 C47 79.91
TOP 46 0 79.91 C47 C1 79.91
BOT 0 47 83.19 C1 C48 83.19
TOP 47 0 83.19 C48 C1 83.19
BOT 0 48 80.18 C1 C49 80.18
TOP 48 0 80.18 C49 C1 80.18
BOT 0 49 84.96 C1 C50 84.96
TOP 49 0 84.96 C50 C1 84.96
BOT 1 2 86.10 C2 C3 86.10
TOP 2 1 86.10 C3 C2 86.10
BOT 1 3 79.26 C2 C4 79.26
TOP 3 1 79.26 C4 C2 79.26
BOT 1 4 87.67 C2 C5 87.67
TOP 4 1 87.67 C5 C2 87.67
BOT 1 5 85.25 C2 C6 85.25
TOP 5 1 85.25 C6 C2 85.25
BOT 1 6 87.89 C2 C7 87.89
TOP 6 1 87.89 C7 C2 87.89
BOT 1 7 85.20 C2 C8 85.20
TOP 7 1 85.20 C8 C2 85.20
BOT 1 8 86.76 C2 C9 86.76
TOP 8 1 86.76 C9 C2 86.76
BOT 1 9 84.19 C2 C10 84.19
TOP 9 1 84.19 C10 C2 84.19
BOT 1 10 82.65 C2 C11 82.65
TOP 10 1 82.65 C11 C2 82.65
BOT 1 11 76.02 C2 C12 76.02
TOP 11 1 76.02 C12 C2 76.02
BOT 1 12 81.04 C2 C13 81.04
TOP 12 1 81.04 C13 C2 81.04
BOT 1 13 84.93 C2 C14 84.93
TOP 13 1 84.93 C14 C2 84.93
BOT 1 14 85.97 C2 C15 85.97
TOP 14 1 85.97 C15 C2 85.97
BOT 1 15 85.39 C2 C16 85.39
TOP 15 1 85.39 C16 C2 85.39
BOT 1 16 82.19 C2 C17 82.19
TOP 16 1 82.19 C17 C2 82.19
BOT 1 17 81.04 C2 C18 81.04
TOP 17 1 81.04 C18 C2 81.04
BOT 1 18 77.88 C2 C19 77.88
TOP 18 1 77.88 C19 C2 77.88
BOT 1 19 83.86 C2 C20 83.86
TOP 19 1 83.86 C20 C2 83.86
BOT 1 20 84.86 C2 C21 84.86
TOP 20 1 84.86 C21 C2 84.86
BOT 1 21 81.28 C2 C22 81.28
TOP 21 1 81.28 C22 C2 81.28
BOT 1 22 90.41 C2 C23 90.41
TOP 22 1 90.41 C23 C2 90.41
BOT 1 23 76.04 C2 C24 76.04
TOP 23 1 76.04 C24 C2 76.04
BOT 1 24 81.28 C2 C25 81.28
TOP 24 1 81.28 C25 C2 81.28
BOT 1 25 79.26 C2 C26 79.26
TOP 25 1 79.26 C26 C2 79.26
BOT 1 26 79.72 C2 C27 79.72
TOP 26 1 79.72 C27 C2 79.72
BOT 1 27 81.57 C2 C28 81.57
TOP 27 1 81.57 C28 C2 81.57
BOT 1 28 80.37 C2 C29 80.37
TOP 28 1 80.37 C29 C2 80.37
BOT 1 29 77.10 C2 C30 77.10
TOP 29 1 77.10 C30 C2 77.10
BOT 1 30 79.00 C2 C31 79.00
TOP 30 1 79.00 C31 C2 79.00
BOT 1 31 89.50 C2 C32 89.50
TOP 31 1 89.50 C32 C2 89.50
BOT 1 32 90.87 C2 C33 90.87
TOP 32 1 90.87 C33 C2 90.87
BOT 1 33 85.52 C2 C34 85.52
TOP 33 1 85.52 C34 C2 85.52
BOT 1 34 79.26 C2 C35 79.26
TOP 34 1 79.26 C35 C2 79.26
BOT 1 35 82.74 C2 C36 82.74
TOP 35 1 82.74 C36 C2 82.74
BOT 1 36 60.29 C2 C37 60.29
TOP 36 1 60.29 C37 C2 60.29
BOT 1 37 82.81 C2 C38 82.81
TOP 37 1 82.81 C38 C2 82.81
BOT 1 38 78.34 C2 C39 78.34
TOP 38 1 78.34 C39 C2 78.34
BOT 1 39 77.88 C2 C40 77.88
TOP 39 1 77.88 C40 C2 77.88
BOT 1 40 82.49 C2 C41 82.49
TOP 40 1 82.49 C41 C2 82.49
BOT 1 41 79.72 C2 C42 79.72
TOP 41 1 79.72 C42 C2 79.72
BOT 1 42 80.82 C2 C43 80.82
TOP 42 1 80.82 C43 C2 80.82
BOT 1 43 83.56 C2 C44 83.56
TOP 43 1 83.56 C44 C2 83.56
BOT 1 44 88.48 C2 C45 88.48
TOP 44 1 88.48 C45 C2 88.48
BOT 1 45 68.54 C2 C46 68.54
TOP 45 1 68.54 C46 C2 68.54
BOT 1 46 81.31 C2 C47 81.31
TOP 46 1 81.31 C47 C2 81.31
BOT 1 47 81.82 C2 C48 81.82
TOP 47 1 81.82 C48 C2 81.82
BOT 1 48 86.24 C2 C49 86.24
TOP 48 1 86.24 C49 C2 86.24
BOT 1 49 80.00 C2 C50 80.00
TOP 49 1 80.00 C50 C2 80.00
BOT 2 3 79.73 C3 C4 79.73
TOP 3 2 79.73 C4 C3 79.73
BOT 2 4 85.27 C3 C5 85.27
TOP 4 2 85.27 C5 C3 85.27
BOT 2 5 83.78 C3 C6 83.78
TOP 5 2 83.78 C6 C3 83.78
BOT 2 6 85.09 C3 C7 85.09
TOP 6 2 85.09 C7 C3 85.09
BOT 2 7 83.33 C3 C8 83.33
TOP 7 2 83.33 C8 C3 83.33
BOT 2 8 84.82 C3 C9 84.82
TOP 8 2 84.82 C9 C3 84.82
BOT 2 9 82.27 C3 C10 82.27
TOP 9 2 82.27 C10 C3 82.27
BOT 2 10 86.16 C3 C11 86.16
TOP 10 2 86.16 C11 C3 86.16
BOT 2 11 76.39 C3 C12 76.39
TOP 11 2 76.39 C12 C3 76.39
BOT 2 12 79.17 C3 C13 79.17
TOP 12 2 79.17 C13 C3 79.17
BOT 2 13 84.82 C3 C14 84.82
TOP 13 2 84.82 C14 C3 84.82
BOT 2 14 82.30 C3 C15 82.30
TOP 14 2 82.30 C15 C3 82.30
BOT 2 15 84.82 C3 C16 84.82
TOP 15 2 84.82 C16 C3 84.82
BOT 2 16 81.25 C3 C17 81.25
TOP 16 2 81.25 C17 C3 81.25
BOT 2 17 83.33 C3 C18 83.33
TOP 17 2 83.33 C18 C3 83.33
BOT 2 18 77.93 C3 C19 77.93
TOP 18 2 77.93 C19 C3 77.93
BOT 2 19 85.96 C3 C20 85.96
TOP 19 2 85.96 C20 C3 85.96
BOT 2 20 80.72 C3 C21 80.72
TOP 20 2 80.72 C21 C3 80.72
BOT 2 21 79.46 C3 C22 79.46
TOP 21 2 79.46 C22 C3 79.46
BOT 2 22 85.71 C3 C23 85.71
TOP 22 2 85.71 C23 C3 85.71
BOT 2 23 77.03 C3 C24 77.03
TOP 23 2 77.03 C24 C3 77.03
BOT 2 24 81.25 C3 C25 81.25
TOP 24 2 81.25 C25 C3 81.25
BOT 2 25 79.28 C3 C26 79.28
TOP 25 2 79.28 C26 C3 79.28
BOT 2 26 78.83 C3 C27 78.83
TOP 26 2 78.83 C27 C3 78.83
BOT 2 27 80.63 C3 C28 80.63
TOP 27 2 80.63 C28 C3 80.63
BOT 2 28 77.52 C3 C29 77.52
TOP 28 2 77.52 C29 C3 77.52
BOT 2 29 80.00 C3 C30 80.00
TOP 29 2 80.00 C30 C3 80.00
BOT 2 30 77.23 C3 C31 77.23
TOP 30 2 77.23 C31 C3 77.23
BOT 2 31 86.16 C3 C32 86.16
TOP 31 2 86.16 C32 C3 86.16
BOT 2 32 87.44 C3 C33 87.44
TOP 32 2 87.44 C33 C3 87.44
BOT 2 33 85.40 C3 C34 85.40
TOP 33 2 85.40 C34 C3 85.40
BOT 2 34 79.73 C3 C35 79.73
TOP 34 2 79.73 C35 C3 79.73
BOT 2 35 81.08 C3 C36 81.08
TOP 35 2 81.08 C36 C3 81.08
BOT 2 36 61.03 C3 C37 61.03
TOP 36 2 61.03 C37 C3 61.03
BOT 2 37 82.74 C3 C38 82.74
TOP 37 2 82.74 C38 C3 82.74
BOT 2 38 80.63 C3 C39 80.63
TOP 38 2 80.63 C39 C3 80.63
BOT 2 39 78.83 C3 C40 78.83
TOP 39 2 78.83 C40 C3 78.83
BOT 2 40 81.08 C3 C41 81.08
TOP 40 2 81.08 C41 C3 81.08
BOT 2 41 79.73 C3 C42 79.73
TOP 41 2 79.73 C42 C3 79.73
BOT 2 42 83.04 C3 C43 83.04
TOP 42 2 83.04 C43 C3 83.04
BOT 2 43 84.82 C3 C44 84.82
TOP 43 2 84.82 C44 C3 84.82
BOT 2 44 84.68 C3 C45 84.68
TOP 44 2 84.68 C45 C3 84.68
BOT 2 45 67.28 C3 C46 67.28
TOP 45 2 67.28 C46 C3 67.28
BOT 2 46 81.19 C3 C47 81.19
TOP 46 2 81.19 C47 C3 81.19
BOT 2 47 82.22 C3 C48 82.22
TOP 47 2 82.22 C48 C3 82.22
BOT 2 48 85.20 C3 C49 85.20
TOP 48 2 85.20 C49 C3 85.20
BOT 2 49 81.33 C3 C50 81.33
TOP 49 2 81.33 C50 C3 81.33
BOT 3 4 80.09 C4 C5 80.09
TOP 4 3 80.09 C5 C4 80.09
BOT 3 5 81.33 C4 C6 81.33
TOP 5 3 81.33 C6 C4 81.33
BOT 3 6 77.93 C4 C7 77.93
TOP 6 3 77.93 C7 C4 77.93
BOT 3 7 77.03 C4 C8 77.03
TOP 7 3 77.03 C8 C4 77.03
BOT 3 8 80.44 C4 C9 80.44
TOP 8 3 80.44 C9 C4 80.44
BOT 3 9 81.33 C4 C10 81.33
TOP 9 3 81.33 C10 C4 81.33
BOT 3 10 81.33 C4 C11 81.33
TOP 10 3 81.33 C11 C4 81.33
BOT 3 11 79.25 C4 C12 79.25
TOP 11 3 79.25 C12 C4 79.25
BOT 3 12 80.63 C4 C13 80.63
TOP 12 3 80.63 C13 C4 80.63
BOT 3 13 82.22 C4 C14 82.22
TOP 13 3 82.22 C14 C4 82.22
BOT 3 14 77.38 C4 C15 77.38
TOP 14 3 77.38 C15 C4 77.38
BOT 3 15 80.97 C4 C16 80.97
TOP 15 3 80.97 C16 C4 80.97
BOT 3 16 79.65 C4 C17 79.65
TOP 16 3 79.65 C17 C4 79.65
BOT 3 17 79.55 C4 C18 79.55
TOP 17 3 79.55 C18 C4 79.55
BOT 3 18 81.58 C4 C19 81.58
TOP 18 3 81.58 C19 C4 81.58
BOT 3 19 79.73 C4 C20 79.73
TOP 19 3 79.73 C20 C4 79.73
BOT 3 20 77.43 C4 C21 77.43
TOP 20 3 77.43 C21 C4 77.43
BOT 3 21 77.78 C4 C22 77.78
TOP 21 3 77.78 C22 C4 77.78
BOT 3 22 78.12 C4 C23 78.12
TOP 22 3 78.12 C23 C4 78.12
BOT 3 23 80.53 C4 C24 80.53
TOP 23 3 80.53 C24 C4 80.53
BOT 3 24 83.19 C4 C25 83.19
TOP 24 3 83.19 C25 C4 83.19
BOT 3 25 83.63 C4 C26 83.63
TOP 25 3 83.63 C26 C4 83.63
BOT 3 26 88.60 C4 C27 88.60
TOP 26 3 88.60 C27 C4 88.60
BOT 3 27 80.00 C4 C28 80.00
TOP 27 3 80.00 C28 C4 80.00
BOT 3 28 84.38 C4 C29 84.38
TOP 28 3 84.38 C29 C4 84.38
BOT 3 29 77.45 C4 C30 77.45
TOP 29 3 77.45 C30 C4 77.45
BOT 3 30 77.33 C4 C31 77.33
TOP 30 3 77.33 C31 C4 77.33
BOT 3 31 77.43 C4 C32 77.43
TOP 31 3 77.43 C32 C4 77.43
BOT 3 32 79.20 C4 C33 79.20
TOP 32 3 79.20 C33 C4 79.20
BOT 3 33 78.12 C4 C34 78.12
TOP 33 3 78.12 C34 C4 78.12
BOT 3 34 82.02 C4 C35 82.02
TOP 34 3 82.02 C35 C4 82.02
BOT 3 35 78.70 C4 C36 78.70
TOP 35 3 78.70 C36 C4 78.70
BOT 3 36 64.02 C4 C37 64.02
TOP 36 3 64.02 C37 C4 64.02
BOT 3 37 80.27 C4 C38 80.27
TOP 37 3 80.27 C38 C4 80.27
BOT 3 38 82.30 C4 C39 82.30
TOP 38 3 82.30 C39 C4 82.30
BOT 3 39 85.53 C4 C40 85.53
TOP 39 3 85.53 C40 C4 85.53
BOT 3 40 77.68 C4 C41 77.68
TOP 40 3 77.68 C41 C4 77.68
BOT 3 41 88.55 C4 C42 88.55
TOP 41 3 88.55 C42 C4 88.55
BOT 3 42 81.42 C4 C43 81.42
TOP 42 3 81.42 C43 C4 81.42
BOT 3 43 80.44 C4 C44 80.44
TOP 43 3 80.44 C44 C4 80.44
BOT 3 44 77.88 C4 C45 77.88
TOP 44 3 77.88 C45 C4 77.88
BOT 3 45 67.87 C4 C46 67.87
TOP 45 3 67.87 C46 C4 67.87
BOT 3 46 87.61 C4 C47 87.61
TOP 46 3 87.61 C47 C4 87.61
BOT 3 47 80.72 C4 C48 80.72
TOP 47 3 80.72 C48 C4 80.72
BOT 3 48 80.44 C4 C49 80.44
TOP 48 3 80.44 C49 C4 80.44
BOT 3 49 80.72 C4 C50 80.72
TOP 49 3 80.72 C50 C4 80.72
BOT 4 5 84.51 C5 C6 84.51
TOP 5 4 84.51 C6 C5 84.51
BOT 4 6 84.82 C5 C7 84.82
TOP 6 4 84.82 C7 C5 84.82
BOT 4 7 84.82 C5 C8 84.82
TOP 7 4 84.82 C8 C5 84.82
BOT 4 8 87.67 C5 C9 87.67
TOP 8 4 87.67 C9 C5 87.67
BOT 4 9 84.38 C5 C10 84.38
TOP 9 4 84.38 C10 C5 84.38
BOT 4 10 85.02 C5 C11 85.02
TOP 10 4 85.02 C11 C5 85.02
BOT 4 11 78.30 C5 C12 78.30
TOP 11 4 78.30 C12 C5 78.30
BOT 4 12 83.18 C5 C13 83.18
TOP 12 4 83.18 C13 C5 83.18
BOT 4 13 84.58 C5 C14 84.58
TOP 13 4 84.58 C14 C5 84.58
BOT 4 14 85.20 C5 C15 85.20
TOP 14 4 85.20 C15 C5 85.20
BOT 4 15 87.28 C5 C16 87.28
TOP 15 4 87.28 C16 C5 87.28
BOT 4 16 83.33 C5 C17 83.33
TOP 16 4 83.33 C17 C5 83.33
BOT 4 17 82.73 C5 C18 82.73
TOP 17 4 82.73 C18 C5 82.73
BOT 4 18 82.30 C5 C19 82.30
TOP 18 4 82.30 C19 C5 82.30
BOT 4 19 86.61 C5 C20 86.61
TOP 19 4 86.61 C20 C5 86.61
BOT 4 20 86.34 C5 C21 86.34
TOP 20 4 86.34 C21 C5 86.34
BOT 4 21 83.70 C5 C22 83.70
TOP 21 4 83.70 C22 C5 83.70
BOT 4 22 86.73 C5 C23 86.73
TOP 22 4 86.73 C23 C5 86.73
BOT 4 23 79.20 C5 C24 79.20
TOP 23 4 79.20 C24 C5 79.20
BOT 4 24 82.46 C5 C25 82.46
TOP 24 4 82.46 C25 C5 82.46
BOT 4 25 80.97 C5 C26 80.97
TOP 25 4 80.97 C26 C5 80.97
BOT 4 26 82.74 C5 C27 82.74
TOP 26 4 82.74 C27 C5 82.74
BOT 4 27 81.86 C5 C28 81.86
TOP 27 4 81.86 C28 C5 81.86
BOT 4 28 81.08 C5 C29 81.08
TOP 28 4 81.08 C29 C5 81.08
BOT 4 29 79.61 C5 C30 79.61
TOP 29 4 79.61 C30 C5 79.61
BOT 4 30 79.74 C5 C31 79.74
TOP 30 4 79.74 C31 C5 79.74
BOT 4 31 86.40 C5 C32 86.40
TOP 31 4 86.40 C32 C5 86.40
BOT 4 32 88.99 C5 C33 88.99
TOP 32 4 88.99 C33 C5 88.99
BOT 4 33 84.96 C5 C34 84.96
TOP 33 4 84.96 C34 C5 84.96
BOT 4 34 84.07 C5 C35 84.07
TOP 34 4 84.07 C35 C5 84.07
BOT 4 35 81.19 C5 C36 81.19
TOP 35 4 81.19 C36 C5 81.19
BOT 4 36 62.15 C5 C37 62.15
TOP 36 4 62.15 C37 C5 62.15
BOT 4 37 83.11 C5 C38 83.11
TOP 37 4 83.11 C38 C5 83.11
BOT 4 38 80.53 C5 C39 80.53
TOP 38 4 80.53 C39 C5 80.53
BOT 4 39 79.20 C5 C40 79.20
TOP 39 4 79.20 C40 C5 79.20
BOT 4 40 81.86 C5 C41 81.86
TOP 40 4 81.86 C41 C5 81.86
BOT 4 41 81.42 C5 C42 81.42
TOP 41 4 81.42 C42 C5 81.42
BOT 4 42 84.21 C5 C43 84.21
TOP 42 4 84.21 C43 C5 84.21
BOT 4 43 82.38 C5 C44 82.38
TOP 43 4 82.38 C44 C5 82.38
BOT 4 44 85.84 C5 C45 85.84
TOP 44 4 85.84 C45 C5 85.84
BOT 4 45 69.68 C5 C46 69.68
TOP 45 4 69.68 C46 C5 69.68
BOT 4 46 80.28 C5 C47 80.28
TOP 46 4 80.28 C47 C5 80.28
BOT 4 47 82.22 C5 C48 82.22
TOP 47 4 82.22 C48 C5 82.22
BOT 4 48 87.22 C5 C49 87.22
TOP 48 4 87.22 C49 C5 87.22
BOT 4 49 82.22 C5 C50 82.22
TOP 49 4 82.22 C50 C5 82.22
BOT 5 6 82.43 C6 C7 82.43
TOP 6 5 82.43 C7 C6 82.43
BOT 5 7 80.63 C6 C8 80.63
TOP 7 5 80.63 C8 C6 80.63
BOT 5 8 89.38 C6 C9 89.38
TOP 8 5 89.38 C9 C6 89.38
BOT 5 9 79.56 C6 C10 79.56
TOP 9 5 79.56 C10 C6 79.56
BOT 5 10 81.42 C6 C11 81.42
TOP 10 5 81.42 C11 C6 81.42
BOT 5 11 84.51 C6 C12 84.51
TOP 11 5 84.51 C12 C6 84.51
BOT 5 12 85.59 C6 C13 85.59
TOP 12 5 85.59 C13 C6 85.59
BOT 5 13 84.89 C6 C14 84.89
TOP 13 5 84.89 C14 C6 84.89
BOT 5 14 85.27 C6 C15 85.27
TOP 14 5 85.27 C15 C6 85.27
BOT 5 15 81.42 C6 C16 81.42
TOP 15 5 81.42 C16 C6 81.42
BOT 5 16 88.94 C6 C17 88.94
TOP 16 5 88.94 C17 C6 88.94
BOT 5 17 83.56 C6 C18 83.56
TOP 17 5 83.56 C18 C6 83.56
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TOP 25 23 90.79 C26 C24 90.79
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TOP 26 23 80.09 C27 C24 80.09
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TOP 44 24 81.42 C45 C25 81.42
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T 