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_sc000051.1_g0160.1
(415 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CAN62076.1 hypothetical protein VITISV_015538 [Vitis vinifera] 363 e-121
CAN73567.1 hypothetical protein VITISV_003451 [Vitis vinifera] 366 e-112
CAN66637.1 hypothetical protein VITISV_011340 [Vitis vinifera] 364 e-111
>CAN62076.1 hypothetical protein VITISV_015538 [Vitis vinifera]
Length = 313
Score = 363 bits (933), Expect = e-121, Method: Compositional matrix adjust.
Identities = 170/231 (73%), Positives = 195/231 (84%)
Query: 2 KNTGNAVRQLEYSRIIGSLMYLMNCTRPDIAYSVSKLSRFTSNPNNTHWNAITRVLRYLR 61
KN +V Q+EYSR+IGSLMYLM+CTRPDIAY+ SKLSR+TSNP HW I RVL+YLR
Sbjct: 80 KNKXESVSQVEYSRVIGSLMYLMSCTRPDIAYAXSKLSRYTSNPGAKHWQGIIRVLKYLR 139
Query: 62 KTKEYGLHYTTYPAVLEGYADANWISDTDDTKSTSGYVFTLGGAAISWKSSKQTCIARST 121
T++YGLHYT YPAVLEGY+DANWIS+ D+KS SGYVFTLGGAA SWKSSKQT IARST
Sbjct: 140 FTRDYGLHYTRYPAVLEGYSDANWISNVKDSKSHSGYVFTLGGAAXSWKSSKQTVIARST 199
Query: 122 MDSGFIALDKAGEEAEWLRQFLEDIPIWPKLVPAINIHCDNQAAIALAQSKMYNGKSRHI 181
M+S FIALDK GEEAEWLR FLEDIP W K VP I IHCD+Q+AI A S MYNGKSRHI
Sbjct: 200 MESEFIALDKCGEEAEWLRHFLEDIPRWSKPVPPICIHCDSQSAIGRAXSNMYNGKSRHI 259
Query: 182 RRRHNTVKQLLSEGIITINYIRSKDNLADLFTKGLSRELVVASSRGMGLTP 232
RRRHNT++QLLS G+I+++Y++SKDN+AD TKGL+RELV SSRGMGL P
Sbjct: 260 RRRHNTIRQLLSTGVISVDYVKSKDNIADPLTKGLNRELVEKSSRGMGLKP 310
>CAN73567.1 hypothetical protein VITISV_003451 [Vitis vinifera]
Length = 1277
Score = 366 bits (940), Expect = e-112, Method: Compositional matrix adjust.
Identities = 171/231 (74%), Positives = 196/231 (84%)
Query: 2 KNTGNAVRQLEYSRIIGSLMYLMNCTRPDIAYSVSKLSRFTSNPNNTHWNAITRVLRYLR 61
KN G +V Q+EYSRIIGSLMYLM+CTRPDIAY+VSKLSR+TSNP HW I RVL+YLR
Sbjct: 1044 KNKGESVSQVEYSRIIGSLMYLMSCTRPDIAYAVSKLSRYTSNPGAKHWQGIIRVLKYLR 1103
Query: 62 KTKEYGLHYTTYPAVLEGYADANWISDTDDTKSTSGYVFTLGGAAISWKSSKQTCIARST 121
T++YGLHYT YPAVLEGY+DANWIS+ D+KS SGYVFTLGGAA+SWKSSKQ IARST
Sbjct: 1104 FTRDYGLHYTRYPAVLEGYSDANWISNVKDSKSHSGYVFTLGGAAVSWKSSKQXVIARST 1163
Query: 122 MDSGFIALDKAGEEAEWLRQFLEDIPIWPKLVPAINIHCDNQAAIALAQSKMYNGKSRHI 181
M+S FIALDK GEEAEWLR FLEDIP W K VP I IHCD+Q+AI AQS MYNGKSRHI
Sbjct: 1164 MESEFIALDKCGEEAEWLRHFLEDIPRWSKPVPPICIHCDSQSAIGRAQSNMYNGKSRHI 1223
Query: 182 RRRHNTVKQLLSEGIITINYIRSKDNLADLFTKGLSRELVVASSRGMGLTP 232
RRHNT++QLLS G+I+++Y++SKDN+AD TKGL+RELV SSRGM L P
Sbjct: 1224 XRRHNTIRQLLSTGVISVDYVKSKDNIADPLTKGLNRELVEKSSRGMXLKP 1274
>CAN66637.1 hypothetical protein VITISV_011340 [Vitis vinifera]
Length = 1316
Score = 364 bits (934), Expect = e-111, Method: Compositional matrix adjust.
Identities = 170/231 (73%), Positives = 195/231 (84%)
Query: 2 KNTGNAVRQLEYSRIIGSLMYLMNCTRPDIAYSVSKLSRFTSNPNNTHWNAITRVLRYLR 61
KN G +V Q+EYSRIIGSLMYLM+CTRPDIAY+V KLSR+TSNP HW I RVL+YLR
Sbjct: 1083 KNKGESVSQVEYSRIIGSLMYLMSCTRPDIAYAVGKLSRYTSNPGAKHWQGIIRVLKYLR 1142
Query: 62 KTKEYGLHYTTYPAVLEGYADANWISDTDDTKSTSGYVFTLGGAAISWKSSKQTCIARST 121
T++Y LHYT YPAVLEGY+DANWIS+ D+KS SGYVFTLGGAA+SWKSSKQT IARST
Sbjct: 1143 FTRDYXLHYTRYPAVLEGYSDANWISNVKDSKSHSGYVFTLGGAAVSWKSSKQTVIARST 1202
Query: 122 MDSGFIALDKAGEEAEWLRQFLEDIPIWPKLVPAINIHCDNQAAIALAQSKMYNGKSRHI 181
M+S FIALDK GEEAEWLR FLEDIP W K VP I IHCD+Q+AI AQS MYNGKSRHI
Sbjct: 1203 MESEFIALDKCGEEAEWLRHFLEDIPRWSKPVPPICIHCDSQSAIGRAQSNMYNGKSRHI 1262
Query: 182 RRRHNTVKQLLSEGIITINYIRSKDNLADLFTKGLSRELVVASSRGMGLTP 232
RRRHNT++QLLS G+I+++Y++SKDN+AD TKGL+RELV SS GM L P
Sbjct: 1263 RRRHNTIRQLLSTGVISVDYVKSKDNIADPLTKGLNRELVEKSSXGMXLKP 1313