BLAST Resut
BLASTP 2.2.26 [Sep-21-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= Eca_sc000130.1_g1680.1
(342 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CAN70298.1 hypothetical protein VITISV_001396 [Vitis vinifera] 477 e-153
CAN63276.1 hypothetical protein VITISV_000400 [Vitis vinifera] 447 e-146
CAN79949.1 hypothetical protein VITISV_044422 [Vitis vinifera] 444 e-144
>CAN70298.1 hypothetical protein VITISV_001396 [Vitis vinifera]
Length = 1507
Score = 477 bits (1227), Expect = e-153, Method: Compositional matrix adjust.
Identities = 223/357 (62%), Positives = 267/357 (74%), Gaps = 26/357 (7%)
Query: 1 MTLNKANSNFAKVVGQSDKITYKCTHCNKIGHTKSHCYELFGFPE--------------- 45
+ ++++ +N K DK T+KCTHCNK GHTKS C+E+ G+P+
Sbjct: 225 LAMDQSKTNHPKTDPNIDKSTFKCTHCNKTGHTKSRCFEIVGYPDCYCEIKTEANVDEKA 284
Query: 46 ----------*SYAFDSRQVSTINQSSHKYVSTANDTSATVVGEGPITLTNTLNLDYVLV 95
FDSRQVS SS K+VSTAN + ++GEG +TLT+TLNLD +LV
Sbjct: 285 SALIVATDYSDHMTFDSRQVSPARPSSQKFVSTANGNTTPIIGEGSLTLTDTLNLDSILV 344
Query: 96 VPSLDHNLLSVSQITTTLFCVVIFWPEFCVFKDIRTRQTIGYGVRRGKLYYLDLVSESSN 155
PSL++NLLSVSQIT L+C+VIFWPEFCVFKDI+TRQTIG+G++RGKLYYLDL S+ SN
Sbjct: 345 APSLNYNLLSVSQITAALYCIVIFWPEFCVFKDIQTRQTIGFGIKRGKLYYLDLQSKDSN 404
Query: 156 KLRQALVVNNSE-IKNKDEIWLWHRRLGHASFGYLKKLFPSLFIKCDVSSFQCDVCALVK 214
KLRQAL+ + S K K EIWLWHRRLGHASFGYLKKLFP LF K D+S F+CD+C L K
Sbjct: 405 KLRQALMXDGSXGEKKKSEIWLWHRRLGHASFGYLKKLFPXLFAKSDISGFRCDICELAK 464
Query: 215 SHRASFPLNLSKSPTPFMILHSDVWGLSKVSTLGGARWFVTFIDDCTRMTWVCLMKSKSE 274
SHR SFPL L+KSP+PFM++HSDVWG SKV TL G+RWFVTFIDDCTRMTW+CLMK+K E
Sbjct: 465 SHRXSFPLILNKSPSPFMVIHSDVWGPSKVPTLSGSRWFVTFIDDCTRMTWLCLMKTKDE 524
Query: 275 VKLLFQKVHKLFSTQYNANVQILRSDNGGEYMDHELQAYLVCHGIVHQTTCPNTPQQ 331
V LLFQK HK+ TQYNA V++LRSDNGGEY +LQ YL H I+HQTTC NTPQQ
Sbjct: 525 VNLLFQKFHKMIETQYNAKVRVLRSDNGGEYQSSDLQKYLEGHDIIHQTTCSNTPQQ 581
>CAN63276.1 hypothetical protein VITISV_000400 [Vitis vinifera]
Length = 1030
Score = 447 bits (1149), Expect = e-146, Method: Compositional matrix adjust.
Identities = 208/285 (72%), Positives = 237/285 (83%), Gaps = 1/285 (0%)
Query: 50 FDSRQVSTINQSSHKYVSTANDTSATVVGEGPITLTNTLNLDYVLVVPSLDHNLLSVSQI 109
FDSRQVS + SS K VSTAN + ++GEG +TLT+TLNLDYVLVVPSLD+NLLSVSQI
Sbjct: 89 FDSRQVSPLRPSSQKIVSTANGNTTPIIGEGSLTLTDTLNLDYVLVVPSLDYNLLSVSQI 148
Query: 110 TTTLFCVVIFWPEFCVFKDIRTRQTIGYGVRRGKLYYLDLVSESSNKLRQALVVNNSE-I 168
T L C+VIFWPEFCV KDI+TRQTIGYG++RGKLYYLDL S+ SNKL+QAL+ + SE
Sbjct: 149 TAALSCIVIFWPEFCVIKDIQTRQTIGYGIKRGKLYYLDLQSKDSNKLQQALMTDGSEGE 208
Query: 169 KNKDEIWLWHRRLGHASFGYLKKLFPSLFIKCDVSSFQCDVCALVKSHRASFPLNLSKSP 228
K K EIWLWHRRLGHASFGYLKKLFPSLF K D+S F+CD+C L KSHRASFPL L+KSP
Sbjct: 209 KKKSEIWLWHRRLGHASFGYLKKLFPSLFAKSDISGFRCDICELAKSHRASFPLILNKSP 268
Query: 229 TPFMILHSDVWGLSKVSTLGGARWFVTFIDDCTRMTWVCLMKSKSEVKLLFQKVHKLFST 288
PFM++HSDVWG SKV TL G+RWFVTFIDDCTRMTW+CLMK+K EV LLFQ HK+ T
Sbjct: 269 FPFMVIHSDVWGPSKVPTLSGSRWFVTFIDDCTRMTWLCLMKTKDEVNLLFQXFHKMIET 328
Query: 289 QYNANVQILRSDNGGEYMDHELQAYLVCHGIVHQTTCPNTPQQMG 333
QYNA V++LRSDNGGEY +LQ YL H I+HQTTC NTPQQ G
Sbjct: 329 QYNAKVRVLRSDNGGEYQSSDLQKYLEGHXIIHQTTCSNTPQQNG 373
>CAN79949.1 hypothetical protein VITISV_044422 [Vitis vinifera]
Length = 1176
Score = 444 bits (1143), Expect = e-144, Method: Compositional matrix adjust.
Identities = 208/290 (71%), Positives = 239/290 (82%), Gaps = 1/290 (0%)
Query: 50 FDSRQVSTINQSSHKYVSTANDTSATVVGEGPITLTNTLNLDYVLVVPSLDHNLLSVSQI 109
FDSRQVS + SS K VSTAN + V+GEG +TLT+TLNLD VLVVPSLD+NLLSVSQI
Sbjct: 142 FDSRQVSPLRPSSQKIVSTANGNTTPVIGEGSLTLTDTLNLDSVLVVPSLDYNLLSVSQI 201
Query: 110 TTTLFCVVIFWPEFCVFKDIRTRQTIGYGVRRGKLYYLDLVSESSNKLRQALVVNNSE-I 168
TT L C+VIFWPEFCV KDI+TRQTIG G++RGKLYYLDL S+ SNKL+QAL+ + SE
Sbjct: 202 TTALSCIVIFWPEFCVIKDIQTRQTIGCGIKRGKLYYLDLQSKDSNKLQQALMADGSEGE 261
Query: 169 KNKDEIWLWHRRLGHASFGYLKKLFPSLFIKCDVSSFQCDVCALVKSHRASFPLNLSKSP 228
K K EIWLWHRRLGHASFGYLKKLFPSLF K D+S F+CD+C L KSHRASFPL L+KSP
Sbjct: 262 KKKSEIWLWHRRLGHASFGYLKKLFPSLFAKSDISGFRCDICELAKSHRASFPLILNKSP 321
Query: 229 TPFMILHSDVWGLSKVSTLGGARWFVTFIDDCTRMTWVCLMKSKSEVKLLFQKVHKLFST 288
PFM++HSDVWG SKV TL G+RWFVTFIDBCTRMTW+CLMK+K EV LLFQ HK+ T
Sbjct: 322 FPFMVIHSDVWGPSKVPTLSGSRWFVTFIDBCTRMTWLCLMKTKDEVNLLFQXFHKMIET 381
Query: 289 QYNANVQILRSDNGGEYMDHELQAYLVCHGIVHQTTCPNTPQQMGSLKER 338
QYNA V++LRSDNGGEY +LQ YL HGI+HQTTC NTPQQ G + +
Sbjct: 382 QYNAKVRVLRSDNGGEYQSXDLQKYLEGHGIIHQTTCSNTPQQNGVAERK 431