--- EXPERIMENT NOTES
--- EXPERIMENT PROPERTIES
#Tue Mar 20 11:10:00 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_A1/NEF_1_1/input.fasta
input.names=
mrbayes.params=
codeml.params=
--- PSRF SUMMARY
Estimated marginal likelihoods for runs sampled in files
"/opt/ADOPS/HIV1_A1/NEF_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_A1/NEF_1_1/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_A1/NEF_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.lstat)
Run Arithmetic mean Harmonic mean
--------------------------------------
1 -10103.01 -10150.69
2 -10108.31 -10152.27
--------------------------------------
TOTAL -10103.70 -10151.76
--------------------------------------
Model parameter summaries over the runs sampled in files
"/opt/ADOPS/HIV1_A1/NEF_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.run1.p" and "/opt/ADOPS/HIV1_A1/NEF_1_1/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_A1/NEF_1_1/batch/allfiles/mrbayes/input.fasta.fasta.mrb.pstat".
95% HPD Interval
--------------------
Parameter Mean Variance Lower Upper Median min ESS* avg ESS PSRF+
------------------------------------------------------------------------------------------------------
TL{all} 4.923171 0.051192 4.508748 5.374624 4.908414 1378.00 1439.50 1.000
r(A<->C){all} 0.107634 0.000085 0.091512 0.126979 0.107253 472.15 623.06 1.000
r(A<->G){all} 0.268892 0.000378 0.232199 0.307396 0.269244 282.15 327.93 1.000
r(A<->T){all} 0.100577 0.000081 0.083644 0.118601 0.100079 648.21 674.53 1.000
r(C<->G){all} 0.069900 0.000064 0.053474 0.085162 0.069496 799.09 845.47 1.000
r(C<->T){all} 0.363190 0.000515 0.320915 0.408617 0.362380 260.05 320.10 1.000
r(G<->T){all} 0.089807 0.000094 0.070533 0.108307 0.089333 668.84 791.16 1.001
pi(A){all} 0.358945 0.000178 0.334046 0.385611 0.358565 565.82 573.37 1.001
pi(C){all} 0.214211 0.000124 0.192727 0.235727 0.214057 581.28 606.17 1.000
pi(G){all} 0.258427 0.000147 0.235341 0.281907 0.258442 324.63 402.94 1.000
pi(T){all} 0.168416 0.000116 0.146457 0.188568 0.168650 361.57 410.95 1.000
alpha{1,2} 0.437078 0.002114 0.351491 0.527632 0.432893 916.12 982.26 1.000
alpha{3} 1.684566 0.093667 1.149038 2.280752 1.653885 853.87 975.34 1.000
pinvar{all} 0.077593 0.001112 0.010318 0.136613 0.077607 891.24 940.21 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 -7843.654847
Model 2: PositiveSelection -7784.254562
Model 0: one-ratio -8295.229218
Model 3: discrete -7783.057589
Model 7: beta -7844.526221
Model 8: beta&w>1 -7787.273085
Model 0 vs 1 903.1487420000012
Model 2 vs 1 118.80056999999942
Additional information for M1 vs M2:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: 02A1.CM.08.CM1031_19.KU168307_)
Pr(w>1) post mean +- SE for w
10 Q 1.000** 3.020
21 T 0.523 2.056
35 C 0.665 2.343
65 V 1.000** 3.019
113 V 0.990** 3.000
115 Y 0.828 2.672
153 V 1.000** 3.020
159 R 1.000** 3.020
162 L 0.558 2.126
165 I 0.594 2.199
169 L 1.000** 3.020
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: 02A1.CM.08.CM1031_19.KU168307_)
Pr(w>1) post mean +- SE for w
10 Q 1.000** 3.433 +- 0.409
65 V 1.000** 3.432 +- 0.409
113 V 0.967* 3.340 +- 0.586
115 Y 0.562 2.300 +- 1.187
153 V 1.000** 3.432 +- 0.409
159 R 1.000** 3.432 +- 0.409
169 L 1.000** 3.433 +- 0.409
Model 8 vs 7 114.50627200000054
Additional information for M7 vs M8:
Naive Empirical Bayes (NEB) analysis
Positively selected sites (*: P>95%; **: P>99%)
(amino acids refer to 1st sequence: 02A1.CM.08.CM1031_19.KU168307_)
Pr(w>1) post mean +- SE for w
10 Q 1.000** 2.550
18 T 0.643 1.967
21 T 0.831 2.278
35 C 0.876 2.350
65 V 1.000** 2.550
82 Y 0.518 1.764
113 V 0.996** 2.544
115 Y 0.942 2.456
153 V 1.000** 2.550
159 R 1.000** 2.550
162 L 0.819 2.256
165 I 0.886 2.367
169 L 1.000** 2.550
173 F 0.563 1.838
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: 02A1.CM.08.CM1031_19.KU168307_)
Pr(w>1) post mean +- SE for w
10 Q 1.000** 2.571 +- 0.258
18 T 0.519 1.750 +- 0.795
21 T 0.725 2.077 +- 0.706
35 C 0.787 2.188 +- 0.669
65 V 1.000** 2.571 +- 0.259
113 V 0.993** 2.559 +- 0.290
115 Y 0.888 2.364 +- 0.545
153 V 1.000** 2.571 +- 0.258
159 R 1.000** 2.571 +- 0.258
162 L 0.712 2.062 +- 0.729
165 I 0.791 2.180 +- 0.641
169 L 1.000** 2.571 +- 0.258
>C1
MGSKWSKSSIVGWPQVRDRMRQTPPAATGVGAASQDLARHGAITSSNTSS
TNADCAWLEAQEDEEVGFPVKPQVPLRPMTYKGAVDLSHFLKEKGGLDGL
IYSRRRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPMDP
TEVEEANEGENNSLLHPICQHGMEDEDREVLVWRFDSRLALKHIAQELHP
EFYKDCooooooooooooooooo
>C2
MGGKWSKRSKVEWPSVREKMRRTDPAAEGVGAASQDLDRYGALTSSNTAA
TNADCAWLEAQEEEGEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLGG
LIWSPKRQEILDLWVYNTQGFFPDWQCYTPGPGVRYPLTFGWCFKLVPVD
PREVEEANKGEDNCLLHPMSQHGIEDGDREVLRWQFDSSLARRHLARELH
PDYYKDCoooooooooooooooo
>C3
MGGKWSKSSIVGWPQVRERIRRAPPAAEGVGAVSQDLAKHGAVTSSNMNN
ADNVWLRAQEEEEEEVGFPVRPQVPLRPMTYKEAFDLSFFLKEKGGLEGL
IYSKKRQEILDLWVYNTQGFFPDWQNYTPGPGIRYPLCFGWCFKLVPVEP
REVEENTEGENNCLLHPMNQHGEEDEEREVLMWKFDSSLARKHIARELHP
EYYKDCooooooooooooooooo
>C4
MGGKWSKRSGGGWPAIRERMRRAEPAADGVGAASRDLEKHGALTSSNTAT
NNAACAWLEAQEEEEVGFPVRPQVPLRPMTYKAAVDLSHFLKEKGGLEGL
VWSQKRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEP
GKVEEANEGENNSLLHPMSQHGMDDPEKEVLEWRFDSRLAFHHMAKELHP
EYYKNCooooooooooooooooo
>C5
MGGKWSKSSIIGWPDVRERIRQTSPAAEGVGAASQDLDKHGALTTSNTVS
NNAACAWLEAQEEDGDVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLDG
LIYSKKRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPVD
PREVEEANEGENNCLLHPMSQHGIEDEDREILRWKFDSQLARRHLAREQH
PEFYKDCoooooooooooooooo
>C6
MGGKWSKSSVVGWPKIIERMRQTNPAAEGVGAASQDLDKHGALTTSNTVT
NNADCAWLEAQEEEEEVGFPVRPQVPLRPMTYKGAVDLSFFLKEKGGLDG
LIYSKKRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVD
PREVEEANEGENNCLLHPMSLHGMEDADREVLKWKFDSHLARRHMARELH
PEFYKDCoooooooooooooooo
>C7
MGGKWSKRGVPGWNLIRERMRRAEPGERGRRAEPAAEGVGAVSRDLERRG
AITTSNTASNNADCAWLEAQEDEEVGFPVTPQVPLRPMTYKAAVDLSHFL
KEKGGLEGLVYSQQRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPITFGW
CFKLVPVEPEKVEEATAGESNCLLHPINLHGMDDPEGEVLVWKFDSHLAF
HHMAREKHPEYYKNCoooooooo
>C8
MGGKWSKSSIVGWPQIRERIRRTPPAAPGVGAVSRDLDKHGAVTSSNMNN
ADSVWLRAHEEEDEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLEGL
IYSKKRQEILDLWVYHTQGFFPDWHNYTPGPGIRYPLCFGWCFKLVPVDP
REVEENTKGENNCLLHPMNQHGFEDEEGEVLMWKFDSSLARRHIARERHP
DYYRDoooooooooooooooooo
>C9
MGGKWSKSSLGGWPTVRERMRRAKTTTEAEPAAQGVGAVSRDLEKHGAVT
SSNTAANNADCAWVEAQEEGDEVGFPVRPQVPLRPMTYKAALDLSHFLKE
KGGLEGLVWSQKRQDILDLWVYNTQGYFPDWQNYTPGPGIRYPLTFGWCF
KLVPVDPDKVEEANKGENNCLLHPLSQHGMDDPEKEVLVWKFDSHLAFQH
AARELHPEFYKNCoooooooooo
>C10
MGGKWSKRSGEGWPKVRERMRRARPAEPAADGVGAVSRDLERHGAITSNN
TAANNADCAWLEAQEEEEVGFPVTPQVPLRPMTYKGAVDLSHFLKEKGGL
EGLVHSQQRQDILDLWVYHTQGYFPDWQKYTPGPGIRFPLTFGWCFKLVP
VEPEKIEEANEGENNRLLHPMALHGMDDPEREVLVWKFDSRLAFHHMARE
LHPEYFKNCoooooooooooooo
>C11
MGGKWSKSSLVGWPQIRERIRRTSPAAEGVGAVSQDLDKHGAVTSSNMNN
ADSVWLRAQEDDDEGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGL
IYSKKRQEILDLWVYHTQGFFPDWGNYTPGPGTRYPLCFGWCFKLVPVDP
REVEEDTKGENNCLLHPMNQHGMEDEEREVLMWKFDSALARRHVAREKHP
EYFKDCooooooooooooooooo
>C12
MGGKWSKSSIVGWPEVRERIRRTEPAAEGVGAASQDLDKYGALTSSNTAN
TNAACAWLEAQEKEEEVGFPVRPQVPLRPMTYKGAVDLSWFLKEKGGLEG
LIYSKKRQEILDLWVYNTQGYFPDWQNYTPGPGVRYPLTLGWCFKLVPVD
PREAEEETKGENSCLLHPMSQHGMEDSEREVLRWKFDSSLARRHMARELH
PEYYKDCoooooooooooooooo
>C13
MGGKWSKSSIVGWPKVRERIERTPPAAPGVGAVSQDLDKHGAVTSSNVNH
PSCTWLEAQEEEEEVGFPVRPQVPVRPMTYKAAVDLSHFLKEKGGLEGLV
YSRKRQDILDLWVYNTQGYFPDWQNYTPGPGTRYPLTFGWCFKLVPVDPA
EVEEATEGENNSLLHPICQHGVDDDERETLIWKFDSRLAFKHTAKELHPE
FYKDCoooooooooooooooooo
>C14
MGSKCSESCIVGWPQVRERIRQTPPAAEGVGAVSQDLDKHGAVTSTNMNN
ADSVWLEAQEEEEVGFPVRPQVPLRPMTFKGAFDLSFFLREKGGLDGLIY
SKKRQDILDLWVYNTQGFFPDWQNYTPGPGVRYPLCFGWCFKLVPVDPTE
VEEENKGENNCLLHPMSQHGMEDEDREVLKWQFDSSLARRHIAREQHPEY
YKDCooooooooooooooooooo
>C15
MGGKWSKRGVPGWDAIRERMRRTGHEPAAEGVGAVSRDLAQRGAITTSNT
ASNNADCAWLEAQEDEEVGFPVRPQVPLRPMTFKGALDLSHFLKEKGGLE
GLIYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGVRFPLTFGWCFKLVPV
EPDKVEEATEGENNCLLHPMNLHGMDDPEREVLMWKFDSRLAFHHMAREK
HPEFYKDCooooooooooooooo
>C16
MGGKWSKSSIVGWPEVRERIRQTPTAAKGVGAVSQDLDKHGAITSSNINH
PSCTWLEAQEEEEVGFPVRPQVPVRPMTYKAAFDLSHFLKEKGGLDGLIH
SRRRQEILDLWVYNTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVGPDE
VEKATEGENNSLLHPICQHGMDDEERETLRWEFDSRLALRHIAHETHPEF
YKDCooooooooooooooooooo
>C17
MGGKWSKRSVPGWNTVRERMRRTEPAAEGVGAESRDLEQRGAIPTRNTPG
NNAACAWLEAQEDEEGGFPVKPQEPLIPMTYKGALNLSHFLKEKGGLEGL
IYSQRRQDILDLWVYHKQGYFPDWHNYTPWPGGKFPLTFGWCFKLVPFDP
EYIQEATDRENNCLLHPMNMHGMDDPEREVLEWKFDRRLAFRHLDREIHP
EYYNDCooooooooooooooooo
>C18
MGGKWSKSSIVGWPAVRERIRRTKPAAEGVGAAAEGVGAASQDLDKHGAL
TTSNTAHNNPDCARLQAQEEEEEVGFPVRPQVPLRPMTYKAAFDLSFFLK
EKGGLDRLIWSKQRQEILDLWVYNTQGYFPDWQNYTPGPGVRYPPTFGWC
FKLVPVDPREVEEANEGENNCLLHPISQHGMEDEDREVLQWQFDSSLARR
HLAREKHPEYYKDCooooooooo
>C19
MGGKWSRSKIVGWPAVRDRMRRTEPAAEGVGAASQDLDKYGALTSSNTAD
TNADCAWLEAQEEANEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLDG
LIYSKRRQEILDLWVYHTQGYFPDWQNYTPGPGVRFPLTFGWCFKLVPVD
PREVEEANTGENNCLLHPMSQHGVDDPEREVLMWKFDSNLARRHVARELH
PDYYKDCoooooooooooooooo
>C20
MGGKWSKRSKVEWPQVRERMRQTPIAAEAEGAAAEGVGAVSQDLARHGAV
TSRNTSATNADCAWLEAQEDEEVGFPVRPQVPLRPMTFKGALDLSHFLKE
KGGLDGLIYSRKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCF
KLVPMDPTEVEEANEGENNCLLHPISQHGMEDEDREVLVWRFDSRLALKH
IAKEKHPEYFKDCoooooooooo
>C21
MGGKWSKSSRAGWPEIRERIRRARSARAAEGVGAASQDLDKHGALTTSNT
ATNNAACAWLEAQEEEGEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGL
EGLIYSKKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVP
VDPKEVEEANEGENNCLLHPMSQHGMEDEDREVLVWKFDSLLARRHMARE
LHPEWYKDCoooooooooooooo
>C22
MGGKWSKSSIVGWPAVRERIRRAEPAAEGVGAASRDLDKYGALTSNNTDT
NNADCAWLKAQEEEGEVGFPVRPQVPLRPMTYKGAVDLSFFLKEKGGLEG
LIYSKKRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVD
PGEVEEANKGEDNCLLHPMSQHGMEDEHKEVLVWRFDSHLARRHWARELH
PEYYKDCoooooooooooooooo
>C23
MGGKWSKLSGWASVRERMRRAQPAADGVGAASRDLEKHGALTTSNTAANN
ADCAWLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGMIF
SQRRKDILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVDPDE
VEKANEGENNSLLHPISQHGMDDPEKEVLVWKFDSRLAFHHMAREKHPEY
YKDCooooooooooooooooooo
>C24
MGGIFSKRSGGGWPAVRERMRRTGTEPKAERLGKERVRRTEPAAEGVGAA
SRDLERHGAITTSNTADNNADSAWLEAQEDEEVGFPVRPQVPLRPMTYKG
ALDLSHFLREKGGLEGLIYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGI
RYPLTFGWCFKLVPVDKEKIEEANQGENNCLLHPMSQHGMDDPEREVLVW
KFDSLLAVRYMAREKHPEFYKDC
>C25
MGGKWSKRSVVGWPAIRERMKRTPPAAAPGVGAVSQDLENRGAITSNNTS
ANNPDLAWLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEG
LIYSQQRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVE
PDKVEEANEGENNSLLHPMSLHGMEDPEKEVLEWRFDSRLAFHHMARELH
PEYYNNCoooooooooooooooo
>C26
MGGKWSKSSIVGWPQVRERMVRERIKQTPSATEGVGAVSQDLDKHGAVTI
SNMNNADEIWLRAQEEEVEEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKG
GLEGLIYSKRRQEILDLWVHNTQGFFPDWQNYTPGPGIRYPLCFGWCFKL
VPVDPREVEEDNKGENTCLLHPLSQHGIEDDEKEVLMWRFDSALARKHVA
RELHPEYYKDCoooooooooooo
>C27
MGGKWSKSSIVGWPQIRERIRRTPPAAAEGVGAVSQDLDKHGAVTSSNMN
NADCVWLRAQEEDDEEVGFPVRPQVPLRPMTFKAAFDLSFFLKEKGGLDG
LVYSKKRQEILDLWVYNTQGFFPDWQNYTPGPGTRFPLCFGWCFKLVPVD
PKAVEEDNKGENSCLLHPMSQHGMEDEEREVLMWKFDSALARKHIARELR
PEYFKDCoooooooooooooooo
>C28
MGGKWSKSGIVGWPDVRERMRRTEPAAEGVGAASQDLDKYGALTTSNTAQ
NNADCAWLQAQEEEGEVGFPVRPQVPLRPMTYKAAFDLSFFLKEKGGLEE
LVWSKKRQEILDLWVYNTQGFFPDWQNYTKGPGVRFPLTFGWCFKLVPVD
PREVEEANEGENNCLLHPMSLHGVEDEEREVLKWQFDSSLARRHLARELH
PEYYKDCoooooooooooooooo
>C29
MGGKWPKSSVVGWPEVRERIRRTPAAAPGVGAVSQDLDKHGAVTSSNVNH
PSCVWLDAQEEEEVGFPVRPQVPLRPMTYKGALDLSFFLKEKGGLDGLIY
SRKRQEILDLWVYHTQGFFPDWHNYTPGPGVRYPLTFGWCFKLVPVDPRE
VEEATGGEDNCLLHPVCQHGMEDEYGEVLQWKFDSHLAYKHQARERHPEF
YKDCooooooooooooooooooo
>C30
MGGKWSKSSIVGWPQIRERIRRTPPATNPPAAAGAAAGVGPVSRDLDKHG
AITSSNINHPSCVWVQAQEEEEEVGFPVRPQVPLRPMTYKGALDLSHFLK
EKGGLEGLIHSQKRQDILDLWVYNTQGYFPDWHNYTPGPGIRYPLTFGWC
FKLVPVDPGEVEEATEGENNSLLHPMCQHGVDDGEKEVLMWKFDSSLAFH
HRAREKHPEYYKDCooooooooo
>C31
MGGKWSKSRGWTAVRERMIRTEPAAERTEPAAEGVGAASRDLATHGAITS
SNTAANNPDCAWLEAQEEDSEVGFPVRPQVPLRPMTYKGALDLSHFLKEK
GGLEGLIYSQQRQDILDLWVYNTQGYFPDWHNYTPGPGVRFPLTFGWCFK
LVPVEPEEVEKTTEQENIYMLLPINQHGMDDPEKEVLMWKFDSRLAFHHM
AREKHPEYYKNCooooooooooo
>C32
MGGKWSKSSKVGWPQVRERIKQTPPAAEGVGAISQDLDKHGAVTSSNMNN
ADSVWLEAQEDEEVGFPVRPQVPLRPMTFKGAFDLSFFLKEKGGLEGLIY
SKKRQEILDLWVYNTQGYFPDWQNYTPGPGIRYPLCFGWCFKLVPVDARE
VEEDTKGENNCLLHPMSQHGMEDEEGEVLMWKFDSSLARKHIARELRPEF
YKDCooooooooooooooooooo
>C33
MGGKWSKSSIVGWPAVRERIRRTRPNGRERIRQTEPAAEGVGAASQDLDK
YGALTSSNTPGNNADCAWLQAQEEEEDVGFPVRPQVPLRPMTYKAAVDLS
HFLKEKGGLEGLIHSQQRQDILDLWVYNTQGYFPDWQNYTPGPGIRYPLT
FGWCFKLVPVDPREVEEANEGEDNCLLHPMSQHGADDADREVLIWKFDSH
LAYKHTARELHPEYYKDCooooo
>C34
MGGKWSKNSVGGWSKVRERMKRAEPAADGGGAVSRDLEKHGAITSSNTAA
NNATCAWLEAQEEEEVGFPVRPQVPLRPMTYRAAVDLSHFLRKEGGLEGL
VFSQRRQDILDLWIYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPAEV
EEVTEGENNCLLHPINQHGMDDPEREVLVWKFDSSLAFHHMARELHPEYY
KNCoooooooooooooooooooo
>C35
MGGKWSKSSLVGWPTIRERMKRAEPAADGVGAASRGLENMEHTLLEAQEE
EEVGFPVRPQVPLRPMTYRAAVDLSHFLKEKGGLEGLIYSQKRQEILDLW
VYHTQGFLPDWQNYTPGPGTRYPLTYGWCFKLVPVDPEKVEEANEGENNS
LLHPMSLHGMEDSEKEVLAWRFDSRLAFHHVAREKHPEYYKDCooooooo
ooooooooooooooooooooooo
>C36
MGGKWSKSSIVGWPAVRERIRRTESAAEGVGAASQDLDKYGALTISNTAH
NNADCAWLEAQEEEEEVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDG
LIYSKKRQEILDLWVYNTQGFFPDWQNYTPGPGVRYPLTFGWCYKLVPVD
PREVEEANKGENNCLLHPMSQHGIEDEDREVLRWQFDSSLARRHLAREKH
PEFYKDCoooooooooooooooo
>C37
MGGKWSKSSIVGWPEIRERMRRAPPAAPGVGEVSQDLEKHGAVTNSNINH
PSCAWLEAQEEEEVGFPVRPQVPLRPMTYKAALDLSHFLKEKGGLDGLIY
SKKRQDILDLWVYHTQGFFPDWQNYTPGPGIRYPITFGWCFKLVPVDPEE
VEKANEGENNSLLHPICQHGMDDEERETLRWKFDSRLALKHRAQELHPEF
YKNCooooooooooooooooooo
>C38
MGGKWSKSSIVGWPQVRERMRQTPPAAEGVGAVSQDLDKYGAITSSNINH
PSCTWLEAQEEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLDRLIY
SRKRQEILDLWVYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVDPEE
VEKATEGENNCLLHPISQHGMEDEERETLMWQFDSRLALTHRAQELHPEF
YKNCooooooooooooooooooo
>C39
MGGKWSKSSIVGWPAVRERIRRAEPAAEGVGAASRDLDKHGALTTSNTAQ
NNADCAWLQAQEEADEVGFPVRPQVPLRPMTYKAAFDLGFFLKEKGGLDG
LIWSKKRQEILDLWVYHTQGFFPDWQNYTPGPGVRYPLTFGWCFKLVPVD
PREVEEYNKGENNCLLHPMSLHGMEDEEGEVLKWEFDSSLARRHLAREKH
PEFYKDCoooooooooooooooo
>C40
MGGKWSKSSIVGWPTVRERMRRAQPAADGVGAASRDLEKHGALTSSNTAA
TNADCAWLEAREEEEVGFPVRPQVPLRPMTYKGALDLSHFLKEKGGLEGL
IYSQKRKDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEP
DEGENNSLLHPISLHGMDDRREEVLVWKFDSRLAVHHMARELHPEYYKNC
ooooooooooooooooooooooo
>C41
MGNKWSKSWPAVRERIRRTRPTAEPAAEGVGAASRDLEKHGALTSSNTPH
NNAACAWLQAQEEEEEVGFPVRPQVPLRPMTYKAAFDLSFFLKDKGGLEG
LIWSKQRQDILDLWVYNTQGFFPDWQNYTPGPGVRLPLTFGWCFKLVPVD
PREVEEANKGENNSLLHPMSLHGLEDGEGEVLKWQFDSSLARRHLARELH
PEYYKNCoooooooooooooooo
>C42
MGGKWSKMRGWATVRERMRRTRPAATEPAATGVGAVSRDLERHGAITSNN
TPANNAACAWVEAQEESEEVGFPVKPQVPLRPMTYKGALDLSHFLKEKGG
LEGLVHSQQRQDILDLWIYNTQGYFPDWQNYTPGPGIRYPLTFGWCFKLV
PVEPEKIEEANEGEDKGLLNPVSLNGMDDPEKEVLEWRFDSRLAFHHVAR
EKYPEYYKDCooooooooooooo
>C43
MGGKWSKSSVVGWPAIRERMRRAEPAAEGVGAASRDLDRHGALTSSNTDT
NNADCAWLRAQEEEGEVGFPVRPQVPLRPMTFKAAFDLSFFLKEKGGLEG
LIYSKRRQEILDLWVYHTQGFFPDWQNYTPGPGTRFPLTFGWLFKLVPVD
PGTVEEANEGENNCLLHPVCQHGMEDEHREVLQWKFDSQLAHRHIARELH
PEFYKDCoooooooooooooooo
>C44
MGGKWSKSSMVGWPAVRERMRRAEPAAEGVGAVSRDLERHGAITSSNTAK
NNAALAWLEAQEEEEVGFPVRPQVPLRPMTYKAAIDLSHFLKEKGGLEGL
IYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEP
EKVEAANEGENNCLLHPMSLHGMEDSEGEVLQWKFDSRLALRHMAREKHP
EYYKDCooooooooooooooooo
>C45
MGGKWSKSSIVGWPQVRERIKQTPPAAEGVGAVSQDLDKHGAVTSSNINN
ADSIWLRAHEEEDEGVGFPVRPQVPLRPMTYKGAFDLSFFLKEKGGLDGL
IYSKKRQDILDLWVYNTQGYFPDWQNYTPGPGTRFPLCFGWCFKLVPVDP
KEVEEATKGENNCLLHPINQHGFDDEEREVLMWKFDSSLARKHTARELHP
EYYKDoooooooooooooooooo
>C46
MGGKWSKSSIVGWPEIRDRIRRAQPAAEGVGAAYQDLEKRGALTSSNTPA
TNAACAWLEAQEDEEVGFPVKPQVPLRPMTYKAAVDLSFFLKEKGGLEGL
VYSRKRQEILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVPVNP
EEVEEATEGEDTCLLHPISQHGMEDEDREVLKWKFDSHLAHKHMARELHP
EYYKDCooooooooooooooooo
>C47
MGGKWSKSSIVGWPAIRERMRRAQPAADGVGAVSRDLEKHGAITSSNTAA
TNANVAWLEAQEEEEVGFPARPQVPLRPMTYKAAVDMSHFLKEKGGLEGL
IWSQRRQEILDLWVYHTQGYFPDWQNYTPGPGTRFPLTFGWCFKLVPVEP
DEVEEANKGENNSLLHPMSQHGMDDPEKEVLMWKFDSRLAFHHLARELHP
EYYKDCooooooooooooooooo
>C48
MGGKWSKRSMREWPEVRERIRQTPAAATPQAAPGVGAVSQDLEKHGAITS
GNVNHPSCVWLEAQEDEDVGFPVRPLVPLRPMTYKGALDLSHFLKEKGGL
EGLIYSRRRQEILDLWVYHTQGYFPDWHNYTPGPGVRYPLTFGWCFKLVP
VEPDEVEKATEGENNSLLHPMCQHGVDDEERETLIWKFDSYLAFKHTARE
KHPEFYKDCoooooooooooooo
>C49
MGGKWSKRSVPGWNTIRERMRRAPVDEPAAVGVGAVSRDLEKHGAITSSN
TPATNADCAWLEAQEDEEVGFPVRPQVPLRPMTYQGAWNLSHLLKEKGGL
EGLIYSQRRQEILDLWVYHTQGYFPDWQNYTPGPGVRYPLTFGWCFKLVP
IDPDKVEEATEGDTNCLLHPLNQHGMDDPEREVLVWKFDSRLAFQHIARE
MHPEFYKDCoooooooooooooo
>C50
MGGKWSKRSVGGWSAVRERMRRTEPAADGVGAASRDLEKYGAITSSNTAS
TNAACAWLEAQEEEEVGFPVRPQVPLRPMTYKGAVDLSHFLKEKGGLEGL
IYSQKRQDILDLWVYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVDP
DKVEEANEGENNNLLHPMSLHGMDDTEREVLAWRFDSHLAFRHMARELHP
EYYKNCooooooooooooooooo
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]
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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: [799488]
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: [799488]
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: [799488]
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: [799488]
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: [799488]
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: [799488]
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: [799488]
Library Relaxation: Multi_proc [8]
Relaxation Summary: [799488]--->[568717]
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= 32.072 Mb, Max= 48.075 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 MGSKWSKWPQVRDRMRQTAATGVGAASQDLANADCAWLEAQEDEEVGFPV
C2 MGGKWSKWPSVREKMRRTAAEGVGAASQDLDNADCAWLEAQEEGEVGFPV
C3 MGGKWSKWPQVRERIRRAAAEGVGAVSQDLANADNVWLRAQEEEEVGFPV
C4 MGGKWSKWPAIRERMRRAAADGVGAASRDLENAACAWLEAQEEEEVGFPV
C5 MGGKWSKWPDVRERIRQTAAEGVGAASQDLDNAACAWLEAQEEGDVGFPV
C6 MGGKWSKWPKIIERMRQTAAEGVGAASQDLDNADCAWLEAQEEEEVGFPV
C7 MGGKWSKWNLIRERMRRAAAEGVGAVSRDLENADCAWLEAQEDEEVGFPV
C8 MGGKWSKWPQIRERIRRTAAPGVGAVSRDLDNADSVWLRAHEEEEVGFPV
C9 MGGKWSKWPTVRERMRRAAAQGVGAVSRDLENADCAWVEAQEEDEVGFPV
C10 MGGKWSKWPKVRERMRRAAADGVGAVSRDLENADCAWLEAQEEEEVGFPV
C11 MGGKWSKWPQIRERIRRTAAEGVGAVSQDLDNADSVWLRAQEDEGVGFPV
C12 MGGKWSKWPEVRERIRRTAAEGVGAASQDLDNAACAWLEAQEKEEVGFPV
C13 MGGKWSKWPKVRERIERTAAPGVGAVSQDLDHPSCTWLEAQEEEEVGFPV
C14 MGSKCSEWPQVRERIRQTAAEGVGAVSQDLDNADSVWLEAQEEEEVGFPV
C15 MGGKWSKWDAIRERMRRHAAEGVGAVSRDLANADCAWLEAQEDEEVGFPV
C16 MGGKWSKWPEVRERIRQTAAKGVGAVSQDLDHPSCTWLEAQEEEEVGFPV
C17 MGGKWSKWNTVRERMRRTAAEGVGAESRDLENAACAWLEAQEDEEGGFPV
C18 MGGKWSKWPAVRERIRRTAAEGVGAASQDLDNPDCARLQAQEEEEVGFPV
C19 MGGKWSRWPAVRDRMRRTAAEGVGAASQDLDNADCAWLEAQEENEVGFPV
C20 MGGKWSKWPQVRERMRQTAAEGVGAVSQDLANADCAWLEAQEDEEVGFPV
C21 MGGKWSKWPEIRERIRRAAAEGVGAASQDLDNAACAWLEAQEEGEVGFPV
C22 MGGKWSKWPAVRERIRRAAAEGVGAASRDLDNADCAWLKAQEEGEVGFPV
C23 MGGKWSKWASVRERMRRAAADGVGAASRDLENADCAWLEAQEEEEVGFPV
C24 MGGIFSKWPAVRERMRRTAAEGVGAASRDLENADSAWLEAQEDEEVGFPV
C25 MGGKWSKWPAIRERMKRTAAPGVGAVSQDLENPDLAWLEAQEEEEVGFPV
C26 MGGKWSKWPQVRERMVRTATEGVGAVSQDLDNADEIWLRAQEEEEVGFPV
C27 MGGKWSKWPQIRERIRRTAAEGVGAVSQDLDNADCVWLRAQEEEEVGFPV
C28 MGGKWSKWPDVRERMRRTAAEGVGAASQDLDNADCAWLQAQEEGEVGFPV
C29 MGGKWPKWPEVRERIRRTAAPGVGAVSQDLDHPSCVWLDAQEEEEVGFPV
C30 MGGKWSKWPQIRERIRRTAAAGVGPVSRDLDHPSCVWVQAQEEEEVGFPV
C31 MGGKWSKWTAVRERMIRTAAEGVGAASRDLANPDCAWLEAQEESEVGFPV
C32 MGGKWSKWPQVRERIKQTAAEGVGAISQDLDNADSVWLEAQEDEEVGFPV
C33 MGGKWSKWPAVRERIRRTAAEGVGAASQDLDNADCAWLQAQEEEDVGFPV
C34 MGGKWSKWSKVRERMKRAAADGGGAVSRDLENATCAWLEAQEEEEVGFPV
C35 MGGKWSKWPTIRERMKRAAADGVGAASRGLENMEHTLLEAQEEEEVGFPV
C36 MGGKWSKWPAVRERIRRTAAEGVGAASQDLDNADCAWLEAQEEEEVGFPV
C37 MGGKWSKWPEIRERMRRAAAPGVGEVSQDLEHPSCAWLEAQEEEEVGFPV
C38 MGGKWSKWPQVRERMRQTAAEGVGAVSQDLDHPSCTWLEAQEEEEVGFPV
C39 MGGKWSKWPAVRERIRRAAAEGVGAASRDLDNADCAWLQAQEEDEVGFPV
C40 MGGKWSKWPTVRERMRRAAADGVGAASRDLENADCAWLEAREEEEVGFPV
C41 MGNKWSKWPAVRERIRRAAAEGVGAASRDLENAACAWLQAQEEEEVGFPV
C42 MGGKWSKWATVRERMRRTAATGVGAVSRDLENAACAWVEAQEEEEVGFPV
C43 MGGKWSKWPAIRERMRRAAAEGVGAASRDLDNADCAWLRAQEEGEVGFPV
C44 MGGKWSKWPAVRERMRRAAAEGVGAVSRDLENAALAWLEAQEEEEVGFPV
C45 MGGKWSKWPQVRERIKQTAAEGVGAVSQDLDNADSIWLRAHEEEGVGFPV
C46 MGGKWSKWPEIRDRIRRAAAEGVGAAYQDLENAACAWLEAQEDEEVGFPV
C47 MGGKWSKWPAIRERMRRAAADGVGAVSRDLENANVAWLEAQEEEEVGFPA
C48 MGGKWSKWPEVRERIRQTAAPGVGAVSQDLEHPSCVWLEAQEDEDVGFPV
C49 MGGKWSKWNTIRERMRRDAAVGVGAVSRDLENADCAWLEAQEDEEVGFPV
C50 MGGKWSKWSAVRERMRRTAADGVGAASRDLENAACAWLEAQEEEEVGFPV
**. ..* : ::: : *: * * :.* : : *:*. ***.
C1 KPQVPLRPMTYKGAVDLSHFLKEKGGLDGLIYSRRRQEILDLWVYHTQGF
C2 RPQVPLRPMTYKAAFDLSFFLKEKGGLGGLIWSPKRQEILDLWVYNTQGF
C3 RPQVPLRPMTYKEAFDLSFFLKEKGGLEGLIYSKKRQEILDLWVYNTQGF
C4 RPQVPLRPMTYKAAVDLSHFLKEKGGLEGLVWSQKRQDILDLWVYHTQGY
C5 RPQVPLRPMTYKAAFDLSFFLKEKGGLDGLIYSKKRQDILDLWVYNTQGF
C6 RPQVPLRPMTYKGAVDLSFFLKEKGGLDGLIYSKKRQDILDLWVYNTQGF
C7 TPQVPLRPMTYKAAVDLSHFLKEKGGLEGLVYSQQRQDILDLWVYHTQGY
C8 RPQVPLRPMTYKGAFDLSFFLKEKGGLEGLIYSKKRQEILDLWVYHTQGF
C9 RPQVPLRPMTYKAALDLSHFLKEKGGLEGLVWSQKRQDILDLWVYNTQGY
C10 TPQVPLRPMTYKGAVDLSHFLKEKGGLEGLVHSQQRQDILDLWVYHTQGY
C11 RPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIYSKKRQEILDLWVYHTQGF
C12 RPQVPLRPMTYKGAVDLSWFLKEKGGLEGLIYSKKRQEILDLWVYNTQGY
C13 RPQVPVRPMTYKAAVDLSHFLKEKGGLEGLVYSRKRQDILDLWVYNTQGY
C14 RPQVPLRPMTFKGAFDLSFFLREKGGLDGLIYSKKRQDILDLWVYNTQGF
C15 RPQVPLRPMTFKGALDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGY
C16 RPQVPVRPMTYKAAFDLSHFLKEKGGLDGLIHSRRRQEILDLWVYNTQGY
C17 KPQEPLIPMTYKGALNLSHFLKEKGGLEGLIYSQRRQDILDLWVYHKQGY
C18 RPQVPLRPMTYKAAFDLSFFLKEKGGLDRLIWSKQRQEILDLWVYNTQGY
C19 RPQVPLRPMTFKGAFDLSFFLKEKGGLDGLIYSKRRQEILDLWVYHTQGY
C20 RPQVPLRPMTFKGALDLSHFLKEKGGLDGLIYSRKRQEILDLWVYHTQGY
C21 RPQVPLRPMTYKAAFDLSFFLKEKGGLEGLIYSKKRQEILDLWVYHTQGY
C22 RPQVPLRPMTYKGAVDLSFFLKEKGGLEGLIYSKKRQEILDLWVYHTQGY
C23 RPQVPLRPMTYKGALDLSHFLKEKGGLEGMIFSQRRKDILDLWIYHTQGY
C24 RPQVPLRPMTYKGALDLSHFLREKGGLEGLIYSQKRQDILDLWVYHTQGY
C25 RPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSQQRQDILDLWVYHTQGY
C26 RPQVPLRPMTYKAAFDLSFFLKEKGGLEGLIYSKRRQEILDLWVHNTQGF
C27 RPQVPLRPMTFKAAFDLSFFLKEKGGLDGLVYSKKRQEILDLWVYNTQGF
C28 RPQVPLRPMTYKAAFDLSFFLKEKGGLEELVWSKKRQEILDLWVYNTQGF
C29 RPQVPLRPMTYKGALDLSFFLKEKGGLDGLIYSRKRQEILDLWVYHTQGF
C30 RPQVPLRPMTYKGALDLSHFLKEKGGLEGLIHSQKRQDILDLWVYNTQGY
C31 RPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSQQRQDILDLWVYNTQGY
C32 RPQVPLRPMTFKGAFDLSFFLKEKGGLEGLIYSKKRQEILDLWVYNTQGY
C33 RPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQQRQDILDLWVYNTQGY
C34 RPQVPLRPMTYRAAVDLSHFLRKEGGLEGLVFSQRRQDILDLWIYNTQGY
C35 RPQVPLRPMTYRAAVDLSHFLKEKGGLEGLIYSQKRQEILDLWVYHTQGF
C36 RPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIYSKKRQEILDLWVYNTQGF
C37 RPQVPLRPMTYKAALDLSHFLKEKGGLDGLIYSKKRQDILDLWVYHTQGF
C38 RPQVPLRPMTYKGALDLSHFLKEKGGLDRLIYSRKRQEILDLWVYNTQGY
C39 RPQVPLRPMTYKAAFDLGFFLKEKGGLDGLIWSKKRQEILDLWVYHTQGF
C40 RPQVPLRPMTYKGALDLSHFLKEKGGLEGLIYSQKRKDILDLWVYHTQGY
C41 RPQVPLRPMTYKAAFDLSFFLKDKGGLEGLIWSKQRQDILDLWVYNTQGF
C42 KPQVPLRPMTYKGALDLSHFLKEKGGLEGLVHSQQRQDILDLWIYNTQGY
C43 RPQVPLRPMTFKAAFDLSFFLKEKGGLEGLIYSKRRQEILDLWVYHTQGF
C44 RPQVPLRPMTYKAAIDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGY
C45 RPQVPLRPMTYKGAFDLSFFLKEKGGLDGLIYSKKRQDILDLWVYNTQGY
C46 KPQVPLRPMTYKAAVDLSFFLKEKGGLEGLVYSRKRQEILDLWVYHTQGY
C47 RPQVPLRPMTYKAAVDMSHFLKEKGGLEGLIWSQRRQEILDLWVYHTQGY
C48 RPLVPLRPMTYKGALDLSHFLKEKGGLEGLIYSRRRQEILDLWVYHTQGY
C49 RPQVPLRPMTYQGAWNLSHLLKEKGGLEGLIYSQRRQEILDLWVYHTQGY
C50 RPQVPLRPMTYKGAVDLSHFLKEKGGLEGLIYSQKRQDILDLWVYHTQGY
* *: ***:: * ::. :*:.:*** :: * :*::*****:::.**:
C1 FPDWQNYTPGPGVRYPLTFGWCYKLVPMEGENNSLLHPICQHGMEDEDRE
C2 FPDWQCYTPGPGVRYPLTFGWCFKLVPVEGEDNCLLHPMSQHGIEDGDRE
C3 FPDWQNYTPGPGIRYPLCFGWCFKLVPVEGENNCLLHPMNQHGEEDEERE
C4 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGENNSLLHPMSQHGMDDPEKE
C5 FPDWQNYTPGPGVRYPLTFGWCYKLVPVEGENNCLLHPMSQHGIEDEDRE
C6 FPDWQNYTPGPGVRYPLTFGWCFKLVPVEGENNCLLHPMSLHGMEDADRE
C7 FPDWQNYTPGPGIRYPITFGWCFKLVPVKGESNCLLHPINLHGMDDPEGE
C8 FPDWHNYTPGPGIRYPLCFGWCFKLVPVEGENNCLLHPMNQHGFEDEEGE
C9 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGENNCLLHPLSQHGMDDPEKE
C10 FPDWQKYTPGPGIRFPLTFGWCFKLVPVKGENNRLLHPMALHGMDDPERE
C11 FPDWGNYTPGPGTRYPLCFGWCFKLVPVEGENNCLLHPMNQHGMEDEERE
C12 FPDWQNYTPGPGVRYPLTLGWCFKLVPVEGENSCLLHPMSQHGMEDSERE
C13 FPDWQNYTPGPGTRYPLTFGWCFKLVPVEGENNSLLHPICQHGVDDDERE
C14 FPDWQNYTPGPGVRYPLCFGWCFKLVPVEGENNCLLHPMSQHGMEDEDRE
C15 FPDWQNYTPGPGVRFPLTFGWCFKLVPVKGENNCLLHPMNLHGMDDPERE
C16 FPDWQNYTPGPGTRFPLTFGWCFKLVPVEGENNSLLHPICQHGMDDEERE
C17 FPDWHNYTPWPGGKFPLTFGWCFKLVPFYRENNCLLHPMNMHGMDDPERE
C18 FPDWQNYTPGPGVRYPPTFGWCFKLVPVEGENNCLLHPISQHGMEDEDRE
C19 FPDWQNYTPGPGVRFPLTFGWCFKLVPVEGENNCLLHPMSQHGVDDPERE
C20 FPDWQNYTPGPGTRFPLTFGWCFKLVPMEGENNCLLHPISQHGMEDEDRE
C21 FPDWQNYTPGPGTRFPLTFGWCFKLVPVEGENNCLLHPMSQHGMEDEDRE
C22 FPDWQNYTPGPGTRFPLTFGWCFKLVPVEGEDNCLLHPMSQHGMEDEHKE
C23 FPDWQNYTPGPGIRYPLTFGWCFKLVPVEGENNSLLHPISQHGMDDPEKE
C24 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGENNCLLHPMSQHGMDDPERE
C25 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGENNSLLHPMSLHGMEDPEKE
C26 FPDWQNYTPGPGIRYPLCFGWCFKLVPVEGENTCLLHPLSQHGIEDDEKE
C27 FPDWQNYTPGPGTRFPLCFGWCFKLVPVAGENSCLLHPMSQHGMEDEERE
C28 FPDWQNYTKGPGVRFPLTFGWCFKLVPVEGENNCLLHPMSLHGVEDEERE
C29 FPDWHNYTPGPGVRYPLTFGWCFKLVPVEGEDNCLLHPVCQHGMEDEYGE
C30 FPDWHNYTPGPGIRYPLTFGWCFKLVPVEGENNSLLHPMCQHGVDDGEKE
C31 FPDWHNYTPGPGVRFPLTFGWCFKLVPVEQENIYMLLPINQHGMDDPEKE
C32 FPDWQNYTPGPGIRYPLCFGWCFKLVPVEGENNCLLHPMSQHGMEDEEGE
C33 FPDWQNYTPGPGIRYPLTFGWCFKLVPVEGEDNCLLHPMSQHGADDADRE
C34 FPDWQNYTPGPGIRYPLTFGWCFKLVPAEGENNCLLHPINQHGMDDPERE
C35 LPDWQNYTPGPGTRYPLTYGWCFKLVPVKGENNSLLHPMSLHGMEDSEKE
C36 FPDWQNYTPGPGVRYPLTFGWCYKLVPVEGENNCLLHPMSQHGIEDEDRE
C37 FPDWQNYTPGPGIRYPITFGWCFKLVPVEGENNSLLHPICQHGMDDEERE
C38 FPDWQNYTPGPGIRYPLTFGWCFKLVPVEGENNCLLHPISQHGMEDEERE
C39 FPDWQNYTPGPGVRYPLTFGWCFKLVPVEGENNCLLHPMSLHGMEDEEGE
C40 FPDWQNYTPGPGTRFPLTFGWCFKLVPVEGENNSLLHPISLHGMDDRREE
C41 FPDWQNYTPGPGVRLPLTFGWCFKLVPVEGENNSLLHPMSLHGLEDGEGE
C42 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGEDKGLLNPVSLNGMDDPEKE
C43 FPDWQNYTPGPGTRFPLTFGWLFKLVPVTGENNCLLHPVCQHGMEDEHRE
C44 FPDWQNYTPGPGTRFPLTFGWCFKLVPVKGENNCLLHPMSLHGMEDSEGE
C45 FPDWQNYTPGPGTRFPLCFGWCFKLVPVEGENNCLLHPINQHGFDDEERE
C46 FPDWQNYTPGPGVRYPLTFGWCFKLVPVEGEDTCLLHPISQHGMEDEDRE
C47 FPDWQNYTPGPGTRFPLTFGWCFKLVPVEGENNSLLHPMSQHGMDDPEKE
C48 FPDWHNYTPGPGVRYPLTFGWCFKLVPVEGENNSLLHPMCQHGVDDEERE
C49 FPDWQNYTPGPGVRYPLTFGWCFKLVPIKGDTNCLLHPLNQHGMDDPERE
C50 FPDWQNYTPGPGIRYPLTFGWCFKLVPVKGENNNLLHPMSLHGMDDTERE
:*** ** ** : * ** :**** : :* *: :* :* *
C1 VLVWRFDSRLALKHIAQELHPEFYKDC
C2 VLRWQFDSSLARRHLARELHPDYYKDC
C3 VLMWKFDSSLARKHIARELHPEYYKDC
C4 VLEWRFDSRLAFHHMAKELHPEYYKNC
C5 ILRWKFDSQLARRHLAREQHPEFYKDC
C6 VLKWKFDSHLARRHMARELHPEFYKDC
C7 VLVWKFDSHLAFHHMAREKHPEYYKNC
C8 VLMWKFDSSLARRHIARERHPDYYRDo
C9 VLVWKFDSHLAFQHAARELHPEFYKNC
C10 VLVWKFDSRLAFHHMARELHPEYFKNC
C11 VLMWKFDSALARRHVAREKHPEYFKDC
C12 VLRWKFDSSLARRHMARELHPEYYKDC
C13 TLIWKFDSRLAFKHTAKELHPEFYKDC
C14 VLKWQFDSSLARRHIAREQHPEYYKDC
C15 VLMWKFDSRLAFHHMAREKHPEFYKDC
C16 TLRWEFDSRLALRHIAHETHPEFYKDC
C17 VLEWKFDRRLAFRHLDREIHPEYYNDC
C18 VLQWQFDSSLARRHLAREKHPEYYKDC
C19 VLMWKFDSNLARRHVARELHPDYYKDC
C20 VLVWRFDSRLALKHIAKEKHPEYFKDC
C21 VLVWKFDSLLARRHMARELHPEWYKDC
C22 VLVWRFDSHLARRHWARELHPEYYKDC
C23 VLVWKFDSRLAFHHMAREKHPEYYKDC
C24 VLVWKFDSLLAVRYMAREKHPEFYKDC
C25 VLEWRFDSRLAFHHMARELHPEYYNNC
C26 VLMWRFDSALARKHVARELHPEYYKDC
C27 VLMWKFDSALARKHIARELRPEYFKDC
C28 VLKWQFDSSLARRHLARELHPEYYKDC
C29 VLQWKFDSHLAYKHQARERHPEFYKDC
C30 VLMWKFDSSLAFHHRAREKHPEYYKDC
C31 VLMWKFDSRLAFHHMAREKHPEYYKNC
C32 VLMWKFDSSLARKHIARELRPEFYKDC
C33 VLIWKFDSHLAYKHTARELHPEYYKDC
C34 VLVWKFDSSLAFHHMARELHPEYYKNC
C35 VLAWRFDSRLAFHHVAREKHPEYYKDC
C36 VLRWQFDSSLARRHLAREKHPEFYKDC
C37 TLRWKFDSRLALKHRAQELHPEFYKNC
C38 TLMWQFDSRLALTHRAQELHPEFYKNC
C39 VLKWEFDSSLARRHLAREKHPEFYKDC
C40 VLVWKFDSRLAVHHMARELHPEYYKNC
C41 VLKWQFDSSLARRHLARELHPEYYKNC
C42 VLEWRFDSRLAFHHVAREKYPEYYKDC
C43 VLQWKFDSQLAHRHIARELHPEFYKDC
C44 VLQWKFDSRLALRHMAREKHPEYYKDC
C45 VLMWKFDSSLARKHTARELHPEYYKDo
C46 VLKWKFDSHLAHKHMARELHPEYYKDC
C47 VLMWKFDSRLAFHHLARELHPEYYKDC
C48 TLIWKFDSYLAFKHTAREKHPEFYKDC
C49 VLVWKFDSRLAFQHIAREMHPEFYKDC
C50 VLAWRFDSHLAFRHMARELHPEYYKNC
* *.** ** : :* *:::.:
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 79.55 C1 C2 79.55
TOP 1 0 79.55 C2 C1 79.55
BOT 0 2 80.82 C1 C3 80.82
TOP 2 0 80.82 C3 C1 80.82
BOT 0 3 78.73 C1 C4 78.73
TOP 3 0 78.73 C4 C1 78.73
BOT 0 4 82.27 C1 C5 82.27
TOP 4 0 82.27 C5 C1 82.27
BOT 0 5 83.64 C1 C6 83.64
TOP 5 0 83.64 C6 C1 83.64
BOT 0 6 74.30 C1 C7 74.30
TOP 6 0 74.30 C7 C1 74.30
BOT 0 7 77.17 C1 C8 77.17
TOP 7 0 77.17 C8 C1 77.17
BOT 0 8 76.64 C1 C9 76.64
TOP 8 0 76.64 C9 C1 76.64
BOT 0 9 77.52 C1 C10 77.52
TOP 9 0 77.52 C10 C1 77.52
BOT 0 10 79.45 C1 C11 79.45
TOP 10 0 79.45 C11 C1 79.45
BOT 0 11 80.45 C1 C12 80.45
TOP 11 0 80.45 C12 C1 80.45
BOT 0 12 80.82 C1 C13 80.82
TOP 12 0 80.82 C13 C1 80.82
BOT 0 13 81.28 C1 C14 81.28
TOP 13 0 81.28 C14 C1 81.28
BOT 0 14 78.08 C1 C15 78.08
TOP 14 0 78.08 C15 C1 78.08
BOT 0 15 82.65 C1 C16 82.65
TOP 15 0 82.65 C16 C1 82.65
BOT 0 16 71.49 C1 C17 71.49
TOP 16 0 71.49 C17 C1 71.49
BOT 0 17 79.91 C1 C18 79.91
TOP 17 0 79.91 C18 C1 79.91
BOT 0 18 81.36 C1 C19 81.36
TOP 18 0 81.36 C19 C1 81.36
BOT 0 19 87.96 C1 C20 87.96
TOP 19 0 87.96 C20 C1 87.96
BOT 0 20 80.28 C1 C21 80.28
TOP 20 0 80.28 C21 C1 80.28
BOT 0 21 80.45 C1 C22 80.45
TOP 21 0 80.45 C22 C1 80.45
BOT 0 22 79.45 C1 C23 79.45
TOP 22 0 79.45 C23 C1 79.45
BOT 0 23 76.96 C1 C24 76.96
TOP 23 0 76.96 C24 C1 76.96
BOT 0 24 79.09 C1 C25 79.09
TOP 24 0 79.09 C25 C1 79.09
BOT 0 25 78.50 C1 C26 78.50
TOP 25 0 78.50 C26 C1 78.50
BOT 0 26 78.90 C1 C27 78.90
TOP 26 0 78.90 C27 C1 78.90
BOT 0 27 78.64 C1 C28 78.64
TOP 27 0 78.64 C28 C1 78.64
BOT 0 28 80.82 C1 C29 80.82
TOP 28 0 80.82 C29 C1 80.82
BOT 0 29 75.59 C1 C30 75.59
TOP 29 0 75.59 C30 C1 75.59
BOT 0 30 75.70 C1 C31 75.70
TOP 30 0 75.70 C31 C1 75.70
BOT 0 31 80.37 C1 C32 80.37
TOP 31 0 80.37 C32 C1 80.37
BOT 0 32 79.43 C1 C33 79.43
TOP 32 0 79.43 C33 C1 79.43
BOT 0 33 75.69 C1 C34 75.69
TOP 33 0 75.69 C34 C1 75.69
BOT 0 34 78.85 C1 C35 78.85
TOP 34 0 78.85 C35 C1 78.85
BOT 0 35 83.64 C1 C36 83.64
TOP 35 0 83.64 C36 C1 83.64
BOT 0 36 82.65 C1 C37 82.65
TOP 36 0 82.65 C37 C1 82.65
BOT 0 37 84.02 C1 C38 84.02
TOP 37 0 84.02 C38 C1 84.02
BOT 0 38 79.55 C1 C39 79.55
TOP 38 0 79.55 C39 C1 79.55
BOT 0 39 80.93 C1 C40 80.93
TOP 39 0 80.93 C40 C1 80.93
BOT 0 40 77.31 C1 C41 77.31
TOP 40 0 77.31 C41 C1 77.31
BOT 0 41 74.88 C1 C42 74.88
TOP 41 0 74.88 C42 C1 74.88
BOT 0 42 81.82 C1 C43 81.82
TOP 42 0 81.82 C43 C1 81.82
BOT 0 43 79.19 C1 C44 79.19
TOP 43 0 79.19 C44 C1 79.19
BOT 0 44 79.00 C1 C45 79.00
TOP 44 0 79.00 C45 C1 79.00
BOT 0 45 83.26 C1 C46 83.26
TOP 45 0 83.26 C46 C1 83.26
BOT 0 46 80.09 C1 C47 80.09
TOP 46 0 80.09 C47 C1 80.09
BOT 0 47 79.63 C1 C48 79.63
TOP 47 0 79.63 C48 C1 79.63
BOT 0 48 80.28 C1 C49 80.28
TOP 48 0 80.28 C49 C1 80.28
BOT 0 49 81.00 C1 C50 81.00
TOP 49 0 81.00 C50 C1 81.00
BOT 1 2 81.90 C2 C3 81.90
TOP 2 1 81.90 C3 C2 81.90
BOT 1 3 78.83 C2 C4 78.83
TOP 3 1 78.83 C4 C2 78.83
BOT 1 4 85.20 C2 C5 85.20
TOP 4 1 85.20 C5 C2 85.20
BOT 1 5 84.75 C2 C6 84.75
TOP 5 1 84.75 C6 C2 84.75
BOT 1 6 73.36 C2 C7 73.36
TOP 6 1 73.36 C7 C2 73.36
BOT 1 7 80.09 C2 C8 80.09
TOP 7 1 80.09 C8 C2 80.09
BOT 1 8 78.80 C2 C9 78.80
TOP 8 1 78.80 C9 C2 78.80
BOT 1 9 75.91 C2 C10 75.91
TOP 9 1 75.91 C10 C2 75.91
BOT 1 10 80.09 C2 C11 80.09
TOP 10 1 80.09 C11 C2 80.09
BOT 1 11 85.65 C2 C12 85.65
TOP 11 1 85.65 C12 C2 85.65
BOT 1 12 76.47 C2 C13 76.47
TOP 12 1 76.47 C13 C2 76.47
BOT 1 13 81.82 C2 C14 81.82
TOP 13 1 81.82 C14 C2 81.82
BOT 1 14 75.57 C2 C15 75.57
TOP 14 1 75.57 C15 C2 75.57
BOT 1 15 75.91 C2 C16 75.91
TOP 15 1 75.91 C16 C2 75.91
BOT 1 16 69.37 C2 C17 69.37
TOP 16 1 69.37 C17 C2 69.37
BOT 1 17 85.65 C2 C18 85.65
TOP 17 1 85.65 C18 C2 85.65
BOT 1 18 85.20 C2 C19 85.20
TOP 18 1 85.20 C19 C2 85.20
BOT 1 19 81.40 C2 C20 81.40
TOP 19 1 81.40 C20 C2 81.40
BOT 1 20 83.71 C2 C21 83.71
TOP 20 1 83.71 C21 C2 83.71
BOT 1 21 84.30 C2 C22 84.30
TOP 21 1 84.30 C22 C2 84.30
BOT 1 22 77.73 C2 C23 77.73
TOP 22 1 77.73 C23 C2 77.73
BOT 1 23 76.21 C2 C24 76.21
TOP 23 1 76.21 C24 C2 76.21
BOT 1 24 77.03 C2 C25 77.03
TOP 24 1 77.03 C25 C2 77.03
BOT 1 25 81.11 C2 C26 81.11
TOP 25 1 81.11 C26 C2 81.11
BOT 1 26 80.54 C2 C27 80.54
TOP 26 1 80.54 C27 C2 80.54
BOT 1 27 87.89 C2 C28 87.89
TOP 27 1 87.89 C28 C2 87.89
BOT 1 28 78.64 C2 C29 78.64
TOP 28 1 78.64 C29 C2 78.64
BOT 1 29 75.70 C2 C30 75.70
TOP 29 1 75.70 C30 C2 75.70
BOT 1 30 73.61 C2 C31 73.61
TOP 30 1 73.61 C31 C2 73.61
BOT 1 31 80.91 C2 C32 80.91
TOP 31 1 80.91 C32 C2 80.91
BOT 1 32 83.49 C2 C33 83.49
TOP 32 1 83.49 C33 C2 83.49
BOT 1 33 74.89 C2 C34 74.89
TOP 33 1 74.89 C34 C2 74.89
BOT 1 34 77.03 C2 C35 77.03
TOP 34 1 77.03 C35 C2 77.03
BOT 1 35 89.24 C2 C36 89.24
TOP 35 1 89.24 C36 C2 89.24
BOT 1 36 75.91 C2 C37 75.91
TOP 36 1 75.91 C37 C2 75.91
BOT 1 37 79.09 C2 C38 79.09
TOP 37 1 79.09 C38 C2 79.09
BOT 1 38 84.75 C2 C39 84.75
TOP 38 1 84.75 C39 C2 84.75
BOT 1 39 78.70 C2 C40 78.70
TOP 39 1 78.70 C40 C2 78.70
BOT 1 40 84.93 C2 C41 84.93
TOP 40 1 84.93 C41 C2 84.93
BOT 1 41 72.94 C2 C42 72.94
TOP 41 1 72.94 C42 C2 72.94
BOT 1 42 82.06 C2 C43 82.06
TOP 42 1 82.06 C43 C2 82.06
BOT 1 43 79.28 C2 C44 79.28
TOP 43 1 79.28 C44 C2 79.28
BOT 1 44 79.19 C2 C45 79.19
TOP 44 1 79.19 C45 C2 79.19
BOT 1 45 81.08 C2 C46 81.08
TOP 45 1 81.08 C46 C2 81.08
BOT 1 46 79.73 C2 C47 79.73
TOP 46 1 79.73 C47 C2 79.73
BOT 1 47 74.19 C2 C48 74.19
TOP 47 1 74.19 C48 C2 74.19
BOT 1 48 75.45 C2 C49 75.45
TOP 48 1 75.45 C49 C2 75.45
BOT 1 49 80.63 C2 C50 80.63
TOP 49 1 80.63 C50 C2 80.63
BOT 2 3 79.64 C3 C4 79.64
TOP 3 2 79.64 C4 C3 79.64
BOT 2 4 83.71 C3 C5 83.71
TOP 4 2 83.71 C5 C3 83.71
BOT 2 5 84.16 C3 C6 84.16
TOP 5 2 84.16 C6 C3 84.16
BOT 2 6 76.42 C3 C7 76.42
TOP 6 2 76.42 C7 C3 76.42
BOT 2 7 91.03 C3 C8 91.03
TOP 7 2 91.03 C8 C3 91.03
BOT 2 8 80.00 C3 C9 80.00
TOP 8 2 80.00 C9 C3 80.00
BOT 2 9 77.98 C3 C10 77.98
TOP 9 2 77.98 C10 C3 77.98
BOT 2 10 89.24 C3 C11 89.24
TOP 10 2 89.24 C11 C3 89.24
BOT 2 11 85.52 C3 C12 85.52
TOP 11 2 85.52 C12 C3 85.52
BOT 2 12 82.88 C3 C13 82.88
TOP 12 2 82.88 C13 C3 82.88
BOT 2 13 87.33 C3 C14 87.33
TOP 13 2 87.33 C14 C3 87.33
BOT 2 14 79.91 C3 C15 79.91
TOP 14 2 79.91 C15 C3 79.91
BOT 2 15 80.54 C3 C16 80.54
TOP 15 2 80.54 C16 C3 80.54
BOT 2 16 70.59 C3 C17 70.59
TOP 16 2 70.59 C17 C3 70.59
BOT 2 17 84.11 C3 C18 84.11
TOP 17 2 84.11 C18 C3 84.11
BOT 2 18 82.35 C3 C19 82.35
TOP 18 2 82.35 C19 C3 82.35
BOT 2 19 80.75 C3 C20 80.75
TOP 19 2 80.75 C20 C3 80.75
BOT 2 20 84.47 C3 C21 84.47
TOP 20 2 84.47 C21 C3 84.47
BOT 2 21 84.16 C3 C22 84.16
TOP 21 2 84.16 C22 C3 84.16
BOT 2 22 78.54 C3 C23 78.54
TOP 22 2 78.54 C23 C3 78.54
BOT 2 23 75.98 C3 C24 75.98
TOP 23 2 75.98 C24 C3 75.98
BOT 2 24 79.55 C3 C25 79.55
TOP 24 2 79.55 C25 C3 79.55
BOT 2 25 88.07 C3 C26 88.07
TOP 25 2 88.07 C26 C3 88.07
BOT 2 26 89.19 C3 C27 89.19
TOP 26 2 89.19 C27 C3 89.19
BOT 2 27 85.07 C3 C28 85.07
TOP 27 2 85.07 C28 C3 85.07
BOT 2 28 83.71 C3 C29 83.71
TOP 28 2 83.71 C29 C3 83.71
BOT 2 29 83.18 C3 C30 83.18
TOP 29 2 83.18 C30 C3 83.18
BOT 2 30 77.57 C3 C31 77.57
TOP 30 2 77.57 C31 C3 77.57
BOT 2 31 90.50 C3 C32 90.50
TOP 31 2 90.50 C32 C3 90.50
BOT 2 32 83.81 C3 C33 83.81
TOP 32 2 83.81 C33 C3 83.81
BOT 2 33 79.82 C3 C34 79.82
TOP 33 2 79.82 C34 C3 79.82
BOT 2 34 78.57 C3 C35 78.57
TOP 34 2 78.57 C35 C3 78.57
BOT 2 35 85.97 C3 C36 85.97
TOP 35 2 85.97 C36 C3 85.97
BOT 2 36 81.90 C3 C37 81.90
TOP 36 2 81.90 C37 C3 81.90
BOT 2 37 83.26 C3 C38 83.26
TOP 37 2 83.26 C38 C3 83.26
BOT 2 38 84.62 C3 C39 84.62
TOP 38 2 84.62 C39 C3 84.62
BOT 2 39 80.93 C3 C40 80.93
TOP 39 2 80.93 C40 C3 80.93
BOT 2 40 83.87 C3 C41 83.87
TOP 40 2 83.87 C41 C3 83.87
BOT 2 41 73.61 C3 C42 73.61
TOP 41 2 73.61 C42 C3 73.61
BOT 2 42 83.71 C3 C43 83.71
TOP 42 2 83.71 C43 C3 83.71
BOT 2 43 82.35 C3 C44 82.35
TOP 43 2 82.35 C44 C3 82.35
BOT 2 44 88.79 C3 C45 88.79
TOP 44 2 88.79 C45 C3 88.79
BOT 2 45 82.81 C3 C46 82.81
TOP 45 2 82.81 C46 C3 82.81
BOT 2 46 81.45 C3 C47 81.45
TOP 46 2 81.45 C47 C3 81.45
BOT 2 47 79.72 C3 C48 79.72
TOP 47 2 79.72 C48 C3 79.72
BOT 2 48 77.98 C3 C49 77.98
TOP 48 2 77.98 C49 C3 77.98
BOT 2 49 79.19 C3 C50 79.19
TOP 49 2 79.19 C50 C3 79.19
BOT 3 4 78.83 C4 C5 78.83
TOP 4 3 78.83 C5 C4 78.83
BOT 3 5 81.98 C4 C6 81.98
TOP 5 3 81.98 C6 C4 81.98
BOT 3 6 85.05 C4 C7 85.05
TOP 6 3 85.05 C7 C4 85.05
BOT 3 7 76.92 C4 C8 76.92
TOP 7 3 76.92 C8 C4 76.92
BOT 3 8 88.43 C4 C9 88.43
TOP 8 3 88.43 C9 C4 88.43
BOT 3 9 88.64 C4 C10 88.64
TOP 9 3 88.64 C10 C4 88.64
BOT 3 10 76.47 C4 C11 76.47
TOP 10 3 76.47 C11 C4 76.47
BOT 3 11 81.08 C4 C12 81.08
TOP 11 3 81.08 C12 C4 81.08
BOT 3 12 81.90 C4 C13 81.90
TOP 12 3 81.90 C13 C4 81.90
BOT 3 13 75.11 C4 C14 75.11
TOP 13 3 75.11 C14 C4 75.11
BOT 3 14 84.62 C4 C15 84.62
TOP 14 3 84.62 C15 C4 84.62
BOT 3 15 77.38 C4 C16 77.38
TOP 15 3 77.38 C16 C4 77.38
BOT 3 16 75.34 C4 C17 75.34
TOP 16 3 75.34 C17 C4 75.34
BOT 3 17 79.07 C4 C18 79.07
TOP 17 3 79.07 C18 C4 79.07
BOT 3 18 80.18 C4 C19 80.18
TOP 18 3 80.18 C19 C4 80.18
BOT 3 19 78.60 C4 C20 78.60
TOP 19 3 78.60 C20 C4 78.60
BOT 3 20 83.64 C4 C21 83.64
TOP 20 3 83.64 C21 C4 83.64
BOT 3 21 83.78 C4 C22 83.78
TOP 21 3 83.78 C22 C4 83.78
BOT 3 22 87.78 C4 C23 87.78
TOP 22 3 87.78 C23 C4 87.78
BOT 3 23 83.50 C4 C24 83.50
TOP 23 3 83.50 C24 C4 83.50
BOT 3 24 87.84 C4 C25 87.84
TOP 24 3 87.84 C25 C4 87.84
BOT 3 25 76.85 C4 C26 76.85
TOP 25 3 76.85 C26 C4 76.85
BOT 3 26 78.18 C4 C27 78.18
TOP 26 3 78.18 C27 C4 78.18
BOT 3 27 80.63 C4 C28 80.63
TOP 27 3 80.63 C28 C4 80.63
BOT 3 28 75.11 C4 C29 75.11
TOP 28 3 75.11 C29 C4 75.11
BOT 3 29 82.16 C4 C30 82.16
TOP 29 3 82.16 C30 C4 82.16
BOT 3 30 81.86 C4 C31 81.86
TOP 30 3 81.86 C31 C4 81.86
BOT 3 31 76.92 C4 C32 76.92
TOP 31 3 76.92 C32 C4 76.92
BOT 3 32 82.94 C4 C33 82.94
TOP 32 3 82.94 C33 C4 82.94
BOT 3 33 85.91 C4 C34 85.91
TOP 33 3 85.91 C34 C4 85.91
BOT 3 34 86.19 C4 C35 86.19
TOP 34 3 86.19 C35 C4 86.19
BOT 3 35 79.28 C4 C36 79.28
TOP 35 3 79.28 C36 C4 79.28
BOT 3 36 82.81 C4 C37 82.81
TOP 36 3 82.81 C37 C4 82.81
BOT 3 37 79.19 C4 C38 79.19
TOP 37 3 79.19 C38 C4 79.19
BOT 3 38 81.53 C4 C39 81.53
TOP 38 3 81.53 C39 C4 81.53
BOT 3 39 87.10 C4 C40 87.10
TOP 39 3 87.10 C40 C4 87.10
BOT 3 40 84.40 C4 C41 84.40
TOP 40 3 84.40 C41 C4 84.40
BOT 3 41 83.87 C4 C42 83.87
TOP 41 3 83.87 C42 C4 83.87
BOT 3 42 81.98 C4 C43 81.98
TOP 42 3 81.98 C43 C4 81.98
BOT 3 43 87.00 C4 C44 87.00
TOP 43 3 87.00 C44 C4 87.00
BOT 3 44 76.02 C4 C45 76.02
TOP 44 3 76.02 C45 C4 76.02
BOT 3 45 82.06 C4 C46 82.06
TOP 45 3 82.06 C46 C4 82.06
BOT 3 46 88.79 C4 C47 88.79
TOP 46 3 88.79 C47 C4 88.79
BOT 3 47 77.88 C4 C48 77.88
TOP 47 3 77.88 C48 C4 77.88
BOT 3 48 81.36 C4 C49 81.36
TOP 48 3 81.36 C49 C4 81.36
BOT 3 49 90.58 C4 C50 90.58
TOP 49 3 90.58 C50 C4 90.58
BOT 4 5 89.69 C5 C6 89.69
TOP 5 4 89.69 C6 C5 89.69
BOT 4 6 73.36 C5 C7 73.36
TOP 6 4 73.36 C7 C5 73.36
BOT 4 7 80.54 C5 C8 80.54
TOP 7 4 80.54 C8 C5 80.54
BOT 4 8 78.80 C5 C9 78.80
TOP 8 4 78.80 C9 C5 78.80
BOT 4 9 74.09 C5 C10 74.09
TOP 9 4 74.09 C10 C5 74.09
BOT 4 10 83.71 C5 C11 83.71
TOP 10 4 83.71 C11 C5 83.71
BOT 4 11 84.75 C5 C12 84.75
TOP 11 4 84.75 C12 C5 84.75
BOT 4 12 80.54 C5 C13 80.54
TOP 12 4 80.54 C13 C5 80.54
BOT 4 13 85.45 C5 C14 85.45
TOP 13 4 85.45 C14 C5 85.45
BOT 4 14 77.83 C5 C15 77.83
TOP 14 4 77.83 C15 C5 77.83
BOT 4 15 80.91 C5 C16 80.91
TOP 15 4 80.91 C16 C5 80.91
BOT 4 16 71.17 C5 C17 71.17
TOP 16 4 71.17 C17 C5 71.17
BOT 4 17 87.04 C5 C18 87.04
TOP 17 4 87.04 C18 C5 87.04
BOT 4 18 83.41 C5 C19 83.41
TOP 18 4 83.41 C19 C5 83.41
BOT 4 19 79.07 C5 C20 79.07
TOP 19 4 79.07 C20 C5 79.07
BOT 4 20 87.78 C5 C21 87.78
TOP 20 4 87.78 C21 C5 87.78
BOT 4 21 83.41 C5 C22 83.41
TOP 21 4 83.41 C22 C5 83.41
BOT 4 22 78.64 C5 C23 78.64
TOP 22 4 78.64 C23 C5 78.64
BOT 4 23 77.67 C5 C24 77.67
TOP 23 4 77.67 C24 C5 77.67
BOT 4 24 75.68 C5 C25 75.68
TOP 24 4 75.68 C25 C5 75.68
BOT 4 25 81.11 C5 C26 81.11
TOP 25 4 81.11 C26 C5 81.11
BOT 4 26 83.26 C5 C27 83.26
TOP 26 4 83.26 C27 C5 83.26
BOT 4 27 87.00 C5 C28 87.00
TOP 27 4 87.00 C28 C5 87.00
BOT 4 28 81.36 C5 C29 81.36
TOP 28 4 81.36 C29 C5 81.36
BOT 4 29 77.57 C5 C30 77.57
TOP 29 4 77.57 C30 C5 77.57
BOT 4 30 75.00 C5 C31 75.00
TOP 30 4 75.00 C31 C5 75.00
BOT 4 31 83.18 C5 C32 83.18
TOP 31 4 83.18 C32 C5 83.18
BOT 4 32 84.43 C5 C33 84.43
TOP 32 4 84.43 C33 C5 84.43
BOT 4 33 74.89 C5 C34 74.89
TOP 33 4 74.89 C34 C5 74.89
BOT 4 34 77.03 C5 C35 77.03
TOP 34 4 77.03 C35 C5 77.03
BOT 4 35 91.03 C5 C36 91.03
TOP 35 4 91.03 C36 C5 91.03
BOT 4 36 81.36 C5 C37 81.36
TOP 36 4 81.36 C37 C5 81.36
BOT 4 37 81.82 C5 C38 81.82
TOP 37 4 81.82 C38 C5 81.82
BOT 4 38 87.00 C5 C39 87.00
TOP 38 4 87.00 C39 C5 87.00
BOT 4 39 78.24 C5 C40 78.24
TOP 39 4 78.24 C40 C5 78.24
BOT 4 40 84.47 C5 C41 84.47
TOP 40 4 84.47 C41 C5 84.47
BOT 4 41 72.48 C5 C42 72.48
TOP 41 4 72.48 C42 C5 72.48
BOT 4 42 83.41 C5 C43 83.41
TOP 42 4 83.41 C43 C5 83.41
BOT 4 43 80.63 C5 C44 80.63
TOP 43 4 80.63 C44 C5 80.63
BOT 4 44 82.81 C5 C45 82.81
TOP 44 4 82.81 C45 C5 82.81
BOT 4 45 81.53 C5 C46 81.53
TOP 45 4 81.53 C46 C5 81.53
BOT 4 46 77.48 C5 C47 77.48
TOP 46 4 77.48 C47 C5 77.48
BOT 4 47 78.80 C5 C48 78.80
TOP 47 4 78.80 C48 C5 78.80
BOT 4 48 75.00 C5 C49 75.00
TOP 48 4 75.00 C49 C5 75.00
BOT 4 49 80.18 C5 C50 80.18
TOP 49 4 80.18 C50 C5 80.18
BOT 5 6 78.04 C6 C7 78.04
TOP 6 5 78.04 C7 C6 78.04
BOT 5 7 81.90 C6 C8 81.90
TOP 7 5 81.90 C8 C6 81.90
BOT 5 8 80.65 C6 C9 80.65
TOP 8 5 80.65 C9 C6 80.65
BOT 5 9 79.09 C6 C10 79.09
TOP 9 5 79.09 C10 C6 79.09
BOT 5 10 84.16 C6 C11 84.16
TOP 10 5 84.16 C11 C6 84.16
BOT 5 11 86.55 C6 C12 86.55
TOP 11 5 86.55 C12 C6 86.55
BOT 5 12 81.45 C6 C13 81.45
TOP 12 5 81.45 C13 C6 81.45
BOT 5 13 85.91 C6 C14 85.91
TOP 13 5 85.91 C14 C6 85.91
BOT 5 14 82.35 C6 C15 82.35
TOP 14 5 82.35 C15 C6 82.35
BOT 5 15 79.09 C6 C16 79.09
TOP 15 5 79.09 C16 C6 79.09
BOT 5 16 72.97 C6 C17 72.97
TOP 16 5 72.97 C17 C6 72.97
BOT 5 17 86.57 C6 C18 86.57
TOP 17 5 86.57 C18 C6 86.57
BOT 5 18 84.75 C6 C19 84.75
TOP 18 5 84.75 C19 C6 84.75
BOT 5 19 81.40 C6 C20 81.40
TOP 19 5 81.40 C20 C6 81.40
BOT 5 20 88.24 C6 C21 88.24
TOP 20 5 88.24 C21 C6 88.24
BOT 5 21 85.65 C6 C22 85.65
TOP 21 5 85.65 C22 C6 85.65
BOT 5 22 81.36 C6 C23 81.36
TOP 22 5 81.36 C23 C6 81.36
BOT 5 23 80.58 C6 C24 80.58
TOP 23 5 80.58 C24 C6 80.58
BOT 5 24 81.53 C6 C25 81.53
TOP 24 5 81.53 C25 C6 81.53
BOT 5 25 82.03 C6 C26 82.03
TOP 25 5 82.03 C26 C6 82.03
BOT 5 26 83.71 C6 C27 83.71
TOP 26 5 83.71 C27 C6 83.71
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BOT 30 41 80.93 C31 C42 80.93
TOP 41 30 80.93 C42 C31 80.93
BOT 30 42 76.39 C31 C43 76.39
TOP 42 30 76.39 C43 C31 76.39
BOT 30 43 82.79 C31 C44 82.79
TOP 43 30 82.79 C44 C31 82.79
BOT 30 44 77.10 C31 C45 77.10
TOP 44 30 77.10 C45 C31 77.10
BOT 30 45 75.81 C31 C46 75.81
TOP 45 30 75.81 C46 C31 75.81
BOT 30 46 81.40 C31 C47 81.40
TOP 46 30 81.40 C47 C31 81.40
BOT 30 47 77.52 C31 C48 77.52
TOP 47 30 77.52 C48 C31 77.52
BOT 30 48 78.60 C31 C49 78.60
TOP 48 30 78.60 C49 C31 78.60
BOT 30 49 81.40 C31 C50 81.40
TOP 49 30 81.40 C50 C31 81.40
BOT 31 32 81.34 C32 C33 81.34
TOP 32 31 81.34 C33 C32 81.34
BOT 31 33 77.27 C32 C34 77.27
TOP 33 31 77.27 C34 C32 77.27
BOT 31 34 76.89 C32 C35 76.89
TOP 34 31 76.89 C35 C32 76.89
BOT 31 35 85.45 C32 C36 85.45
TOP 35 31 85.45 C36 C32 85.45
BOT 31 36 78.48 C32 C37 78.48
TOP 36 31 78.48 C37 C32 78.48
BOT 31 37 83.86 C32 C38 83.86
TOP 37 31 83.86 C38 C32 83.86
BOT 31 38 84.09 C32 C39 84.09
TOP 38 31 84.09 C39 C32 84.09
BOT 31 39 78.80 C32 C40 78.80
TOP 39 31 78.80 C40 C32 78.80
BOT 31 40 81.48 C32 C41 81.48
TOP 40 31 81.48 C41 C32 81.48
BOT 31 41 72.56 C32 C42 72.56
TOP 41 31 72.56 C42 C32 72.56
BOT 31 42 81.36 C32 C43 81.36
TOP 42 31 81.36 C43 C32 81.36
BOT 