The following information has been received by the server:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
________________________________________________________________________________
b.rost
EMBL, 69012 Heidelberg, Europe
rost@embl-heidelberg.de
prediction-based threading
# 1acf: ACTIN-BINDING PROTEIN
SWQTYVDTNLVGTGAVTQAAILGLDGNTWATSAGFAVTPAQGTTL
AGAFNNADAIRAGGFDLAGVHYVTLRADDRSIYGKKGSSGVITVK
TSKAILVGVYNEKIQPGTAANVVEKLADYLIGQGF
________________________________________________________________________________
The sequence had been interpreted as being:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
________________________________________________________________________________
>P1; t3
(#) 1acf: actin-binding protein
SWQTYVDTNLVGTGAVTQAAILGLDGNTWATSAGFAVTPAQGTTLAGAFNNADAIRAGGF
DLAGVHYVTLRADDRSIYGKKGSSGVITVKTSKAILVGVYNEKIQPGTAANVVEKLADYL
IGQG
________________________________________________________________________________
The resulting prediction is:
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
________________________________________________________________________________
---
--- ------------------------------------------------------------
--- TOPITS prediction-based threading
--- ------------------------------------------------------------
---
--- TOPITS ALIGNMENTS HEADER: PARAMETERS
--- smin = -1.00 : minimal value of alignment metric
--- smax = 2.00 : maximal value of alignment metric
--- go = 2 : gap open penalty
--- ge = 0.2 : gap elongation penalty
--- len1 = 124 : length of search sequence, i.e., your protein
---
--- TOPITS ALIGNMENTS HEADER: ABBREVIATIONS
--- RANK : rank in alignment list, sorted according to z-score
--- EALI : alignment score
--- LALI : length of alignment
--- IDEL : number of residues inserted
--- NDEL : number of insertions
--- ZALI : alignment zcore; note: hits with z>3 more reliable
--- PIDE : percentage of pairwise sequence identity
--- LEN2 : length of aligned protein structure
--- ID2 : PDB identifier of aligned structure
--- NAME2 : name of aligned protein structure
--- IFIR : position of first residue of search sequence
--- ILAS : position of last residue of search sequence
--- JFIR : PDB position of first residue of remote homologue
--- JLAS : PDB position of last residue of remote homologue
---
--- TOPITS ALIGNMENTS HEADER: ACCURACY
--- : Tested on 80 proteins, TOPITS found the
--- : correct remote homologue in about 30% of
--- : the cases, detection accuracy was higher
--- : for higher z-scores (ZALI):
--- ZALI>0 : 1st hit correct in 33% of cases
--- ZALI>3 : 1st hit correct in 50% of cases
--- ZALI>3.5 : 1st hit correct in 60% of cases
---
--- TOPITS ALIGNMENTS HEADER: SUMMARY
RANK EALI LALI IDEL NDEL ZALI PIDE LEN2 ID2 NAME2
1 95.82 124 15 6 2.60 26 515 2btf A-ACTIN-PROFILIN COMPLEX
2 77.58 124 25 6 1.67 11 213 3cla E /III$ CHLORAMPHENICOL A
3 76.28 122 57 7 1.61 17 378 7api IFIED ALPHA=1=-*ANTITRYPS
4 76.08 121 33 5 1.60 17 243 1eaf YDROLIPOYL TRANSACETYLASE
5 75.10 120 66 8 1.55 16 373 2ach HA1 ANTICHYMOTRYPSIN
6 73.75 119 57 8 1.48 23 963 2tpr PANOTHIONE REDUCTASE (E.C
7 73.63 124 35 7 1.47 15 391 1pbe YDROXYBENZOATE HYDROXYLAS
8 73.60 124 73 11 1.47 16 376 1hle SE LEUKOCYTE ELASTASE INH
9 73.60 124 73 11 1.47 16 376 1hle SE LEUKOCYTE ELASTASE INH
10 73.60 124 73 11 1.47 16 376 1hle RSE LEUKOCYTE ELASTASE IN
11 73.60 124 73 11 1.47 16 376 1hle RSE LEUKOCYTE ELASTASE IN
12 73.48 124 36 6 1.47 14 180 1ytb TA-BOX BINDING PROTEIN (Y
13 73.28 117 28 6 1.46 21 173 1bbp LIN BINDING PROTEIN (/BBP
14 73.25 124 36 9 1.45 18 180 1tbp TA-BINDING PROTEIN (TBP,
15 72.60 124 14 3 1.42 13 605 1aor DEHYDE FERREDOXIN OXIDORE
16 72.50 121 18 5 1.42 20 341 1smr NIN (E.C.3.4.23.15) COMPL
17 72.45 121 30 4 1.41 20 394 1phh -*HYDROXYBENZOATE HYDROXY
18 72.08 124 49 6 1.39 13 461 3grs UTATHIONE REDUCTASE (E.C.
19 71.93 119 57 8 1.39 23 963 2tpr YPANOTHIONE REDUCTASE (E.
20 71.78 122 50 6 1.38 17 684 1cgt CLODEXTRIN GLYCOSYLTRANSF
---
--- TOPITS ALIGNMENTS HEADER: PDB_POSITIONS FOR ALIGNED PAIR
RANK PIDE IFIR ILAS JFIR JLAS LALI LEN2 ID2
1 26 1 124 378 514 124 515 2btf
2 11 1 124 64 212 124 213 3cla
3 17 2 123 77 255 122 378 7api
4 17 3 124 87 239 121 243 1eaf
5 16 1 120 72 257 120 373 2ach
6 23 6 124 659 834 119 963 2tpr
7 15 1 124 100 258 124 391 1pbe
8 16 1 124 69 263 124 376 1hle
9 16 1 124 69 263 124 376 1hle
10 16 1 124 69 263 124 376 1hle
11 16 1 124 69 263 124 376 1hle
12 14 1 124 19 178 124 180 1ytb
13 21 1 124 16 153 117 173 1bbp
14 18 1 124 19 178 124 180 1tbp
15 13 1 124 95 232 124 605 1aor
16 20 1 124 13 148 121 341 1smr
17 20 1 124 100 247 121 394 1phh
18 13 1 124 178 340 124 461 3grs
19 23 6 124 177 352 119 963 2tpr
20 17 1 124 53 222 122 684 1cgt
---
--- TOPITS ALIGNMENTS: SYMBOLS AND EXPLANATIONS
--- BLOCK 1 : your protein and its predicted 1D structure,
--- : i.e., secondary structure and solvent accessibility
--- line 1 : amino acid sequence (one-letter-code)
--- line 2 : predicted secondary structure:
--- H : helix
--- E : strand (extended)
--- L : other (no regular secondary structure)
--- line 3 : predicted residue relative solvent accessibility
--- B : buried, i.e., relative accessibility < 15%
--- O : exposed (outside), i.e., relative accessibility >= 15%
--- :
--- BLOCKS 1-20 : 20 best hits of the prediction-based threading
--- ATTENTION : We chose to include all first 20 hit. However,
--- ATTENTION : most of them will not constitute true remote
--- ATTENTION : homologues. Instead, all hits with a zscore
--- ATTENTION : (ZALI) < 3.5 are, at best, rather speculative!
--- : for each aligned protein:
--- line 1 : amino acids conserved between guide (yours) and the
--- : aligned protein (putative homologue)
--- line 1 : sequence of aligned protein
--- line 3 : secondary structure, taken from DSSP (assignment
--- : of secondary structure based on experimental coordinates)
--- line 4 : relative solvent accessibility, taken from DSSP
---
--- TOPITS ALIGNMENTS
1 - 51 ....:....1....:....2....:....3....:....4....:....5
t3_1 SWQTYVDTNLVGTGAVTQAAILGLDGNTWATSAGFAVTPAQGTTLAGAFNN
HHHHHHH EEEEEEEE EEEE HHHHHHHHH
OBOBBBBOBBBBOOOBBBBBBBBOOBOBBBOBOOBOOOOOOBOOBBOBBOO
W Y D NL G AAI G WA G TPA L G
1. 2btf 95.82 GWNAYID.NLMADGTCQDAAIVGYKDSpwAAVPGKtiTPAEVGILVGKDRS
LLHHHHH.HHHLLLLEEEEEEEELLLLLEEELLLLLLLHHHHHHHLLLLLL
BBBBBBBBOBOBOOBBBOBBOOBBOOOBBBBBBBBBOBOBOOOBBBOBBOO
D V Q T A S Q
2. 3cla 77.58 QFDELrdELIVWDSVDPQFTVFHQETETfaLSCPYSSDIDqyLSVMERYKS
LLHHHLLEEEEELLLEEEEEEEELLLLEEEEELLLLLLHHHHHHHHHHHLL
BOOOOOBOOOOOOOBOOOOOOOOOOOBOOOOBBOOBOOOOOBOOOOOOBOB
Q T T G A F T
3. 7api 76.28 FQELLRTLNQPDSqtTGNGLFLSEghSEAFTVNFGDTEEAKKQINDYvkI
HHHHHHHHLLLLLLEEEEEEEEELLLLEEEEELLLLHHHHHHHHHHHHLL
BOOOBOBOBBBBBBBBOOOBOOBBOOOBOOOOOBOBOOOOBOBBOOBOOO
L G A DG A LA
4. 1eaf 76.08 LPDFNSSLAPSGqhIGFAVDTPDGLLVPVIRNVDQKsaEAAELAEKARs
LHHHLEEELLLLLLEEELEEELLEEELLEELLHHHLLHHHHHHHHHHHL
OOOBOOOOBOOBBOOOOOOBOOBBBOOOBOOBOBOBBBOOOOOOOOBOB
S Q T A A F A
5. 2ach 75.10 SFQHLLRTLNQSSDElgNAMFVKEQLssEAFATDFQDSAAAKKLINDyiKD
HHHHHHHHHLLLLLLEEEEEEEELLLLLEEEEELLLLHHHHHHHHHHHLLL
OBOOOOOOOOOBOOOBBBBBBBBBBBOBOOBBOBBOOOBOOOOOBOBOOBO
A A G G G Q T A N
6. 2tpr 73.75 SNEAFYLDEAPKRALCVgrGGQVDLAYRGDMILrkQLTEQLRANgn
HHHHLLLLLLLLEEEEELLLLEEEEEELLLLLLLHHHHHHHHHLLL
BOBOOOBOOOOOOBOBOBOOOOBBBBBOOOOBBBBOBOOBOOOOOO
QT V L G V QAA T G
7. 1pbe 73.63 YGQTEVTRDLmgATTVYQAAEVrqGERPYVTFERDGedGFHGISRQSIPAE
LLHHHHHHHHHLLEEELLLEEEELLLLLEEEEEELLELLLLLHHHHLLLHH
OBBBBBOBOBOOBBBOBOOOOBOOOBOOBOOOOOOOBBBBBBOOOOOOOBO
Q GA N S F P G
8. 1hle 73.60 RFQS.LNADINKPGalANRLYGEKTYnaELASVDFQQAPEdnEWVKGQTEg
HHHH.HHHHHLLLLLEEEEEEEELLLLLEEEEELLLLLHHHHHHHHHHLLL
OBOOOOOOOOOBOOOOBOOOBOBOBBBOOBBOOBOOOBOOOOOBBOOOOOO
Q GA N S F P G
9. 1hle 73.60 RFQS.LNADINKPGalANRLYGEKTYnaELASVDFQQAPEdnEWVKGQTEg
HHHH.HHHHHLLLLLEEEEEEEELLLLLEEEEELLLLLHHHHHHHHHHLLL
OBOOOOOOOOOBOOOOBOOOBOBOBBBOOBBOOBOOOBOOOOOBBOOOOOO
Q GA N S F P G
10. 1hle 73.60 RFQS.LNADINKPGalANRLYGEKTYnaELASVDFQQAPEdnEWVKGQTEg
HHHH.HHHHHLLLLLEEEEEEEELLLLLEEEEELLLLLHHHHHHHHHHLLL
OBOOOOOOOOOBOOOOBOOOBOBOBBBOOBBOOBOOOBOOOOOBBOOOOOO
Q GA N S F P G
11. 1hle 73.60 RFQS.LNADINKPGalANRLYGEKTYnaELASVDFQQAPEdnEWVKGQTEg
HHHH.HHHHHLLLLLEEEEEEEELLLLLEEEEELLLLLHHHHHHHHHHLLL
OBOOOOOOOOOBOOOOBOOOBOBOBBBOOBBOOBOOOBOOOOOBBOOOOOO
T A A
12. 1ytb 73.48 RLDLKTVALHanPKRFAAVIMRIREPKTTALIFAsaKSEDDSKLASRKyfA
LLLHHHHHHHLLLLLLLLEEEEELLLLEEEEELLLELLHHHHHHHHHHHLL
OOOBOOBOBOBBOBOBOOBOBOBBOOOOOOOOOOOOBOBOBOBOBOBOBOB
N V A G S GT
13. 1bbp 73.28 NFDWSNYhnSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGkeGTAYPVGDSK
LLLHHHLLLLLLLLLEEEEEEEEELLLLEEEEEEEEELLEEEEEEELLLLL
BOOOBOOOBBBBBOOOOOOOOOBBBBBOOOOBBBBBBOOOOOOBOBOBOBO
V AV A G T A A
14. 1tbp 73.25 RLDltVALHARnfAAVitTALIFASGKMVVTGAKSEDDSKlsRKYARIIQK
LLLHHHHHHHLLLLLEEEEEEELLLLEEEEEEELLHHHHHHHHHHHHHLLL
OOOBBBBBOBOOBOOBOOOOOBBOOBOOBBBBOBOBOBOBOBBBBBOOOOO
G A
15. 1aor 72.60 GGYFGAELKFAGYDAIVVevYIYIKDEHIEIRDASHIWGKKVSETEATIRK
LLLHHHHHHHLLLLEEEEEEEEEEELLEEEEEELLLLLLLLHHHHHHHHHH
OBOOBOOOOOOOOOBBBBBOBBBBBBBBOBBBBBBOBBBBBBBBBOBBBBB
Y GT T I N W S L
16. 1smr 72.50 LNSQYYGEIGIGTPPQTFKVIFDtsANLWVPSTKCSRLYLACGilYESSDS
LLLEEEEEEEELLLLEEEEEEEELLLLEEEEELLLLLLLHHHHHLELHHHL
BOBOOOBBOOBBBBBBBBBOBOOBOOOBOOBBBBOBOBOBOOBOBOBBOBO
QT V L GA T A L LD A GF Q
17. 1phh 72.45 YGQTEVTRDLmaCGATTvaEvlRLDCDYIAGCDGFHGISRQSIPAER...L
LLHHHHHHHHHLLLLLEEEEEEEEELLEEEELLLLLLLLHHHLLHHH...L
OBOOOOOOOOBOOOOBOOOOBBBBBBBBOOOOBOOOBOBOOOOOOOBBOBB
V T N
18. 3grs 72.08 AGYIAVEMAGILSALGSKTSLMIRHDKVL.....RSFDSMISTNCTEELEN
LLHHHHHHHHHHHHLLLEEEEELLLLLLL.....LLLLHHHHHHHHHHHHH
OOOOBBOOBOOOOOBBOBOOOOBOOOOBOOBBBBOOBBBOOOOBOBBOOOO
A A G G G Q T A N
19. 2tpr 71.93 SNEAFYLDEAPKRALCVgrGGQVDLAYRGDMILrkQLTEQLRANgn
HHHHLLLLLLLLEEEEELLLLEEEEEELLLLLLLHHHHHHHHHLLL
BOBOOOBOOOOOOBOBOBOOOOBBBBBOOOOBBBBOBOOBOOOOOO
WQ L T VT A G T A L
20. 1cgt 71.78 DWQGLInsDLGVtsGVTNTAYHGYWARDFKKTNPYFGTMADFQNLITTA.H
LHHHHHHHHHLLLLLEEELLLLLLLEEEEEEELLLLLLHHHHHHHHHHH.H
OOBOOBBOBOBBBBBBBBBOOOOBBOBBOOBOOOOBBOOBBOBBBOBBBBB
---
--- TOPITS ALIGNMENTS CONTINUED
---
51 - 101 ....:....1....:....2....:....3....:....4....:....5
t3_1 NADAIRAGGFDLAGVHYVTLRADDRSIYGKKGSSGVITVKTSKAILVGVYN
EEE EEEEEEEEEEEEEE EEEEE EEEEE EEEEEEEE
OOOOBOBOBBOBBBBOBBBBOOOOOOBOBOOOOOBBBBBOBBOBBBBBBBO
GG L S G ITV T K
1. 2btf 95.82 SsnGLTLGGQKCSVIRDSLLQDGEFTMDLRTKSTgnITvmTAKTLVLLMGK
LLHLEEELLEEEEEEEELLLLLLLLEEEEEELLLLEEEEELLLEEEEEEEL
OBOOOBOBOOBBOOOOBOOOOOOBOOBBBOOOOOOOOOBBBBBBBOBOBOO
V IT V V
2. 3cla 77.58 SDTKlpENHLNISALPWVNFDSFNLNVANFTDyaPIITMAKYqpLSVQVHH
LLLLLLLLEEEEEEELLLLLLLLLLLLLLLLLLLLEEEEELLEEEEEEEEL
BOBBBBBOOOOOOBBBBOBOOBBOBBBBBBBBOOOOOOOBOOOOOOOOOOO
D D A V Y D VK S L Y
3. 7api 76.28 IVDLVKELDRdfALVNYIFFKgdTEEEDFHVDQVTTVKvkLSSWVLLMKYL
LLLLLLLLLLLEEEEEEEEEEELLEEEEEELLLLLEEEELLLEEEEEEEEL
OOOOOBBBBBBBOBOOOOOOBBBOOOOBOOOOBOBOOBBBBBBBBBBBBBB
ADA F L S
4. 1eaf 76.08 saDAMQGACFTISSLgvAILGVSKASMQPVWDGKAFQPRLM.LPLSLSYDH
LHHHHLLLLEEEEELLLEEEEELLLEEEEEELLLLEEEEEE.EEEEEEEEL
BOOOOBBOBBBOBBBBOOOOOOBOOBOBOOOOOOOOBOOOBOOOOOOOOOO
D F A V L S V K L
5. 2ach 75.10 DLDslVNYIFFKAkvPMMSLHHLTIPYFRDEELstVVELkgNASALFILPD
LLLLEEEEEEEEEEEEEEEEEEEEEEEEEELLLLEEEEEELLEEEEEEEEL
OOOOBBBBBBBBBOOOOOBOBBOBBOOBBOOOBBBBBBBBBBBBBBBBBOO
NAD R F A YV A R G I V SK Y
6. 2tpr 73.75 nADGTRHVVFEsaEADyvVMLAIGRVPRSQtaKNGAIKVDasKTNVDNIyd
LLLLLEEEEELLLEEEEEEEELLLEEELLLLLLLLLELLLLLELLLLLEEL
OOBOOOOOOOOBBBBOOBOBOBBBOBBOBBBOBBBBBOOOOOOOBOBBBBB
IY
7. 1pbe 73.63 ERLKVFERVYPFGWLGLLADTPPVShiYANHPRGFAlqRSATRSRYYVQvt
HHLEEEEEEEEEEEEEEEELLLLLLLEEEELLLLLEEEEELLEEEEEEEEL
OBOOOOOOBBBBBBOBOOOOOOBOOOBOOBBOBBOOBBOOBOOOBOOOOOB
G L Y TVK L Y
8. 1hle 73.60 gpELLVKgkLVLVNAIYFKGNWQQkdAPFRLNKKDTKTVKMMYqvLELPYQ
LLLLLLLLEEEEEEEEEEEEEELLLEEEEELLLLLEEEEEEEEEEEEEEEL
OBOBOOBOOOBOOOOOOOOBBBBOBOOOOOBOOBBOOBOOOBOOOOBBOOB
G L Y TVK L Y
9. 1hle 73.60 gpELLVKgkLVLVNAIYFKGNWQQkdAPFRLNKKDTKTVKMMYqvLELPYQ
LLLLLLLLEEEEEEEEEEEEEELLLEEEEELLLLLEEEEEEEEEEEEEEEL
OBOBOOBOOOBOOOOOOOOBBBBOBOOOOOBOOBBOOBOOOBOOOOBBOOB
G L Y TVK L Y
10. 1hle 73.60 gpELLVKgkLVLVNAIYFKGNWQQkdAPFRLNKKDTKTVKMMYqvLELPYQ
LLLLLLLLEEEEEEEEEEEEEELLLEEEEELLLLLEEEEEEEEEEEEEEEL
OBOBOOBOOOBOOOOOOOOBBBBOBOOOOOBOOBBOOBOOOBOOOOBBOOB
G L Y TVK L Y
11. 1hle 73.60 gpELLVKgkLVLVNAIYFKGNWQQkdAPFRLNKKDTKTVKMMYqvLELPYQ
LLLLLLLLEEEEEEEEEEEEEELLLEEEEELLLLLEEEEEEEEEEEEEEEL
OBOBOOBOOOBOOOOOOOOBBBBOBOOOOOBOOBBOOBOOOBOOOOBBOOB
A G V S Y G I VK L V
12. 1ytb 73.48 AAKFTDFKIQNIVGSCDVKFPigTFSSYEPELFPGLIyvKPKIVLLiiVLT
LLLLEEEEEEEEEEEEELLLLELLLEELLLLLLLLEEELLLLLEEEEEEEE
BOOOOOOBOOBBOOBBOOBOOOBOOOBOBOBOBOOBOBBOOOOOOOOOOBO
I GG V V I GK K
13. 1bbp 73.28 KIGKIYhgGVTKENVFNVLSTDNKNYIIgkYDEDK....KGHQDFVWVLSR
LLLEEEELLEEEEEEEEEEEELLLLEEEEEEELLL....LEEEEEEEEEEL
OOOOOOBOOOOOOBOBBBOOBBOBOOOOOBBBBOOBOBOOBOBBBBBOBOO
A F R S Y G I VK L V
14. 1tbp 73.25 KIgaAKFTDFKIQNIVGScirhGTFSSYEPELFPGLimVKPKIVLLiiVLT
LLLLLLLLLLEEEEEEEEEELLLLLEELLLLLLLLEEELLLLEEEEEEEEE
OOOBOOOOOOBOOBBOOBBOOOBOOOBBBOBOOOOOOBBOOOOOOOOOBBO
GV D G G V K KAI V
15. 1aor 72.60 KEVGSEKVKIASIgvKFAAIMNDGHRAAGRGGVGAVMGSKNLKAIAVEGSK
HHHLLLLLEEEELLLLLELEEELLLEEELLLLHHHHHHHLLEEEEEEELLL
BBBBBBOBBBBBOBBBBBBBOOOOBOBOBOBOOBBBOBBBBBBBBBOOBBO
G D HY R G T GV
16. 1smr 72.50 SSSYMENG..DDFTIHYGSGRVKGFLSQDSVTVGGITVTQTFGEVTqgVLG
LLLLEEEE..EEEEEEELLEEEEEEEEEEEEEELLEEEEEEEEEEEEEEEE
OBOOOOBOBOBOOOOOOOOOBOOBOBOOBOOBBOOOOOBOOBBBBBBOOOB
R F G T IY S
17. 1phh 72.45 LKVFERVYPFGWLGLLADTPPVSHELIYANHPRGFALCSQRSATRSRYYVQ
LEEEEEELLLEEEEEEELLLLLLLLEEEEEELLEEEEEEEEELLEEEEEEE
BOBOOOOOOBOOOBOOOOBBOBBOOBBBBOOOOOOBOOOOOOBBBBBOBOO
NA G V T D I G Y
18. 3grs 72.08 NAGvvKesGLEVSMVtvMTMIPDVDCLLwtDDKGHIIVDEFQNTNVKGIyg
HLLLEEELEEEEEEEEEEEEEEEELEEEEELLLLLELLLLLLELLLLLEEL
OOBBOBOOOOOOOBOOBOOOBOOOOOOOOOOBBOOOOOBBOOBBOOOBBBO
NAD R F A YV A R G I V SK Y
19. 2tpr 71.93 nADGTRHVVFEsaEADyvVMLAIGRVPRseVAKNGAIKVDasKTNVDNIyd
LLLLLEEEEELLLEEEEEEEELLLEEELLLELLLLLELLLLLELLLLLEEL
OOBOOOOOOOOBBBBOOBOBOBBBOBBOBBBOBBBBBOOOOOOOBOBBBBB
A I D A H L G L
20. 1cgt 71.78 HAKGIKI.VIDFAPNHTSplYDNGTLVGGYTNDTNGYFHHNGGsnLYDLAD
HHLLLEE.EEEELLLEEEEEEELLEEEELLLLLLLLLELLLLELEELLEEE
BBBBBOOOOOOBOOOBBBBBBOOOBBOBBBOBBBBBBBOBOOBOOOOOOBB
---
--- TOPITS ALIGNMENTS CONTINUED
---
101 - 124 ....:....1....:....2....:....3....:....4....:....5
t3_1 NEKIQPGTAANVVEKLADYLIGQG
HHHHHHHHHHHHHH
OOOOOOOOBOOBBOOBBOBBBOOO
E G A L
1. 2btf 95.82 KEGVHGGMINKKCYEMASHLRRSQ
LLLLLHHHHHHHHHHHHHHHHLLL
OOOBBBBBBOOBBBBBBBBOOOOO
A L
2. 3cla 77.58 HAVCDGFHVARFINRLQELCNSKL
LLLLLHHHHHHHHHHHHHHHLLLL
OOOOOOOBOOOBOBOOOOOOOOOO
G L I
3. 7api 76.28 LGNadEGKLQHLENELTHDIITK
LLLELLLLHHHHHHHLLHHHHHH
BOOOBBOBBBOBBOOBBOOBBOO
I AA L D L
4. 1eaf 76.08 HRVINGAAAARFTKRLGDLLADIR
LLLLLHHHHHHHHHHHHHHHHLHH
OOOOOOOOOOOOOOOOOOOOOOOO
A D L
5. 2ach 75.10 DQDKMEEVEaeTLKRWRDSL
LLLLHHHHHHHHHHHHHHHL
OOOOOBBOOBBOBBBOBOOO
A N D
6. 2tpr 73.75 dRVMLTPVAINEGAAFVDTVFANK
LLLLLHHHHHHHHHHHHHHHHLLL
BBBOOBBOBBBOBBBBBBBOBOOO
EK L L G
7. 1pbe 73.63 tEKVEDWSDERFWTELKARllVTG
LLLHHHLLHHHHHHHHHHHLLLLL
BBBBOBOOOOBBBBBBBBBBOBOO
KI KL
8. 1hle 73.60 QGkiEDESteKilDKLREWTKPEN
LLLLLLLLLHHHHHHHHHHHLHHH
BBBBOBOOOOBBBBOBBBOBBOOO
KI KL
9. 1hle 73.60 QGkiEDESteKilDKLREWTKPEN
LLLLLLLLLHHHHHHHHHHHLHHH
BBBBOBOOOOBBBBOBBBOBBOOO
KI KL
10. 1hle 73.60 QGkiEDESteKilDKLREWTKPEN
LLLLLLLLLHHHHHHHHHHHLHHH
BBBBOBOOOOBBBBOBBBOBBOOO
KI KL
11. 1hle 73.60 QGkiEDESteKilDKLREWTKPEN
LLLLLLLLLHHHHHHHHHHHLHHH
BBBBOBOOOOBBBBOBBBOBBOOO
Q E L
12. 1ytb 73.48 TGAKQREEIYQAFEAIYPVLSEFR
EEELLHHHHHHHHHHHHHHHHHLE
OOBOBOOOBOBOBOBOOBOBOOOO
K G A VE YLIG
13. 1bbp 73.28 RSKVLTGEAKTAVE...NYLIGSP
LLLLLLHHHHHHHH...HHHHHLL
OOBOOBOBOOBOOOOOOOOOOOBB
Q E L
14. 1tbp 73.25 TGAKQREEIYQAFEAIYPVLSEFR
EEELLLHHHHHHHHHHHHHHHHLE
OOBOBOOOBOBOBBBBOBOBOOOO
VV L
15. 1aor 72.60 KTVPIAdkFMLVVREKVNKLRNDP
LLLLLLLHHHHHHHHHHHHHHHLH
OOOBOOOOOOOBOBBBBOBOBBOO
P A V D QG
16. 1smr 72.50 GMGF.PAQAVGGVTPVFDHILSQG
ELLL.HHHLHHHLLLHHHHHHHLL
BBBBOBBBBBOOOBOBOBOBOOOO
E L
17. 1phh 72.45 QVPLTEKVEDWSDERFWTELKARL
EELLLLLHHHLLLHHHHHHHHLLL
OOOBBBBBBBBBBBBBBBBBOBOO
A KLA L
18. 3grs 72.08 gKALLTPVAIAAGRKLAHRLFEYK
LLLLLHHHHHHHHHHHHHHHHLLL
OOBOOBBBBBBOBBBBBBBOBOOO
A N D
19. 2tpr 71.93 dRVMLTPVAINEGAAFVDTVFANK
LLLLLHHHHHHHHHHHHHHHHLLL
BBBOOBBOBBBOBBBBBBBOBOOO
T G
20. 1cgt 71.78 DFNHNNATIDKYFKDAIKLWLDMG
EELLLLHHHHHHHHHHHHHHHHLL
BBBBBBBBBBBBBBBOBOOOOBOO
---
--- TOPITS ALIGNMENTS END
---