BLASTX nr result
ID: Coptis25_contig00037494
seq
BLASTX 2.2.25 [Feb-01-2011]
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.
Query= Coptis25_contig00037494
(535 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
ref|XP_002267050.2| PREDICTED: pleiotropic drug resistance prote... 323 8e-87
emb|CAN83834.1| hypothetical protein VITISV_006821 [Vitis vinifera] 323 8e-87
ref|XP_002267191.2| PREDICTED: pleiotropic drug resistance prote... 319 1e-85
emb|CBI17067.3| unnamed protein product [Vitis vinifera] 319 1e-85
emb|CAN80610.1| hypothetical protein VITISV_042903 [Vitis vinifera] 319 1e-85
>ref|XP_002267050.2| PREDICTED: pleiotropic drug resistance protein 2-like [Vitis
vinifera]
Length = 1444
Score = 323 bits (829), Expect = 8e-87
Identities = 155/178 (87%), Positives = 172/178 (96%)
Frame = +2
Query: 2 PDVDAFMKATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 181
P++DAFMKATA+ GQ+TSL+TDYVLKILGL+ICADIMVGDEMRRGISGGQKKRVTTGEML
Sbjct: 293 PEIDAFMKATAMAGQETSLITDYVLKILGLDICADIMVGDEMRRGISGGQKKRVTTGEML 352
Query: 182 VGPAKALFMDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILL 361
VGPAKA FMDEISTGLDSSTTFQIVKFM+QMVHIMD+TM+ISLLQPAPET++LFDD+ILL
Sbjct: 353 VGPAKAFFMDEISTGLDSSTTFQIVKFMKQMVHIMDITMVISLLQPAPETYDLFDDIILL 412
Query: 362 SEGQIVYQGPCQNVLEFFEFMGFRCPERKGVADFLQEVTSKKDQEQYWFDKNRRYKYV 535
SEG+IVYQGP +NVLEFFE MGFRCPERKGVADFLQEVTSKKDQEQYWF KN+ Y+Y+
Sbjct: 413 SEGKIVYQGPRENVLEFFEHMGFRCPERKGVADFLQEVTSKKDQEQYWFRKNQPYRYI 470
Score = 61.6 bits (148), Expect = 7e-08
Identities = 45/169 (26%), Positives = 86/169 (50%), Gaps = 7/169 (4%)
Frame = +2
Query: 26 ATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEMLVGPAKALF 205
A+ V+ + + V+ ++ L +VG G+S Q+KR+T LV +F
Sbjct: 958 ASDVKDSTRKMFVEEVMDLVELNPLRHALVGLPGVGGLSTEQRKRLTIAVELVANPSIVF 1017
Query: 206 MDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILLSE-GQIVY 382
MDE ++GLD+ +++ +R V T++ ++ QP+ + FE FD+++L+ GQ++Y
Sbjct: 1018 MDEPTSGLDARAAAIVMRTVRNTVD-TGRTVVCTIHQPSIDIFEAFDELLLMKRGGQVIY 1076
Query: 383 QGP----CQNVLEFFEFMG--FRCPERKGVADFLQEVTSKKDQEQYWFD 511
GP ++E+FE + + E A ++ E++S + Q D
Sbjct: 1077 AGPLGRHSHKLVEYFESVPGVTKIKEGYNPATWMLEISSSAVEAQLDID 1125
>emb|CAN83834.1| hypothetical protein VITISV_006821 [Vitis vinifera]
Length = 1454
Score = 323 bits (829), Expect = 8e-87
Identities = 155/178 (87%), Positives = 172/178 (96%)
Frame = +2
Query: 2 PDVDAFMKATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 181
P++DAFMKATA+ GQ+TSL+TDYVLKILGL+ICADIMVGDEMRRGISGGQKKRVTTGEML
Sbjct: 293 PEIDAFMKATAMAGQETSLITDYVLKILGLDICADIMVGDEMRRGISGGQKKRVTTGEML 352
Query: 182 VGPAKALFMDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILL 361
VGPAKA FMDEISTGLDSSTTFQIVKFM+QMVHIMD+TM+ISLLQPAPET++LFDD+ILL
Sbjct: 353 VGPAKAFFMDEISTGLDSSTTFQIVKFMKQMVHIMDITMVISLLQPAPETYDLFDDIILL 412
Query: 362 SEGQIVYQGPCQNVLEFFEFMGFRCPERKGVADFLQEVTSKKDQEQYWFDKNRRYKYV 535
SEG+IVYQGP +NVLEFFE MGFRCPERKGVADFLQEVTSKKDQEQYWF KN+ Y+Y+
Sbjct: 413 SEGKIVYQGPRENVLEFFEHMGFRCPERKGVADFLQEVTSKKDQEQYWFRKNQPYRYI 470
Score = 61.6 bits (148), Expect = 7e-08
Identities = 45/169 (26%), Positives = 86/169 (50%), Gaps = 7/169 (4%)
Frame = +2
Query: 26 ATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEMLVGPAKALF 205
A+ V+ + + V+ ++ L +VG G+S Q+KR+T LV +F
Sbjct: 968 ASDVKDSTRKMFVEEVMDLVELNPLRHALVGLPGVGGLSTEQRKRLTIAVELVANPSIVF 1027
Query: 206 MDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILLSE-GQIVY 382
MDE ++GLD+ +++ +R V T++ ++ QP+ + FE FD+++L+ GQ++Y
Sbjct: 1028 MDEPTSGLDARAAAIVMRTVRNTVD-TGRTVVCTIHQPSIDIFEAFDELLLMKRGGQVIY 1086
Query: 383 QGP----CQNVLEFFEFMG--FRCPERKGVADFLQEVTSKKDQEQYWFD 511
GP ++E+FE + + E A ++ E++S + Q D
Sbjct: 1087 AGPLGRHSHKLVEYFESVPGVTKIKEGYNPATWMLEISSSAVEAQLDID 1135
>ref|XP_002267191.2| PREDICTED: pleiotropic drug resistance protein 2-like [Vitis
vinifera]
Length = 1453
Score = 319 bits (818), Expect = 1e-85
Identities = 153/178 (85%), Positives = 170/178 (95%)
Frame = +2
Query: 2 PDVDAFMKATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 181
P++DAFMKATA+ GQ+TSL+TDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML
Sbjct: 293 PEIDAFMKATAMAGQETSLITDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 352
Query: 182 VGPAKALFMDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILL 361
VGPAK FMDEISTGLDSSTTFQIVKFM+QMVHIMD+TM+ISLLQP PET++LFDD+ILL
Sbjct: 353 VGPAKTFFMDEISTGLDSSTTFQIVKFMKQMVHIMDITMVISLLQPPPETYDLFDDIILL 412
Query: 362 SEGQIVYQGPCQNVLEFFEFMGFRCPERKGVADFLQEVTSKKDQEQYWFDKNRRYKYV 535
SEG+IVYQGP +NVLEFFE MGFRCPERKGVADFLQEVTSKKDQEQYWF KN+ Y+++
Sbjct: 413 SEGKIVYQGPRENVLEFFEHMGFRCPERKGVADFLQEVTSKKDQEQYWFRKNQPYRHI 470
Score = 60.8 bits (146), Expect = 1e-07
Identities = 39/136 (28%), Positives = 73/136 (53%), Gaps = 5/136 (3%)
Frame = +2
Query: 26 ATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEMLVGPAKALF 205
A+ V+ + + V+ ++ L +VG G+S Q+KR+T LV +F
Sbjct: 967 ASDVKDSTRKMFVEEVMDLVELHPLRHALVGLPGVDGLSTEQRKRLTIAVELVANPSIIF 1026
Query: 206 MDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILLSE-GQIVY 382
MDE ++GLD+ +++ +R V T++ ++ QP+ + FE FD+++L+ GQ++Y
Sbjct: 1027 MDEPTSGLDARAAAIVMRTVRNTVD-TGRTVVCTIHQPSIDIFEAFDELLLMKRGGQVIY 1085
Query: 383 QGP----CQNVLEFFE 418
GP ++E+FE
Sbjct: 1086 AGPLGRQSHMLVEYFE 1101
>emb|CBI17067.3| unnamed protein product [Vitis vinifera]
Length = 1460
Score = 319 bits (818), Expect = 1e-85
Identities = 153/178 (85%), Positives = 170/178 (95%)
Frame = +2
Query: 2 PDVDAFMKATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 181
P++DAFMKATA+ GQ+TSL+TDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML
Sbjct: 300 PEIDAFMKATAMAGQETSLITDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 359
Query: 182 VGPAKALFMDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILL 361
VGPAK FMDEISTGLDSSTTFQIVKFM+QMVHIMD+TM+ISLLQP PET++LFDD+ILL
Sbjct: 360 VGPAKTFFMDEISTGLDSSTTFQIVKFMKQMVHIMDITMVISLLQPPPETYDLFDDIILL 419
Query: 362 SEGQIVYQGPCQNVLEFFEFMGFRCPERKGVADFLQEVTSKKDQEQYWFDKNRRYKYV 535
SEG+IVYQGP +NVLEFFE MGFRCPERKGVADFLQEVTSKKDQEQYWF KN+ Y+++
Sbjct: 420 SEGKIVYQGPRENVLEFFEHMGFRCPERKGVADFLQEVTSKKDQEQYWFRKNQPYRHI 477
Score = 60.8 bits (146), Expect = 1e-07
Identities = 39/136 (28%), Positives = 73/136 (53%), Gaps = 5/136 (3%)
Frame = +2
Query: 26 ATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEMLVGPAKALF 205
A+ V+ + + V+ ++ L +VG G+S Q+KR+T LV +F
Sbjct: 974 ASDVKDSTRKMFVEEVMDLVELHPLRHALVGLPGVDGLSTEQRKRLTIAVELVANPSIIF 1033
Query: 206 MDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILLSE-GQIVY 382
MDE ++GLD+ +++ +R V T++ ++ QP+ + FE FD+++L+ GQ++Y
Sbjct: 1034 MDEPTSGLDARAAAIVMRTVRNTVD-TGRTVVCTIHQPSIDIFEAFDELLLMKRGGQVIY 1092
Query: 383 QGP----CQNVLEFFE 418
GP ++E+FE
Sbjct: 1093 AGPLGRQSHMLVEYFE 1108
>emb|CAN80610.1| hypothetical protein VITISV_042903 [Vitis vinifera]
Length = 1357
Score = 319 bits (818), Expect = 1e-85
Identities = 153/178 (85%), Positives = 170/178 (95%)
Frame = +2
Query: 2 PDVDAFMKATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 181
P++DAFMKATA+ GQ+TSL+TDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML
Sbjct: 223 PEIDAFMKATAMAGQETSLITDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEML 282
Query: 182 VGPAKALFMDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILL 361
VGPAK FMDEISTGLDSSTTFQIVKFM+QMVHIMD+TM+ISLLQP PET++LFDD+ILL
Sbjct: 283 VGPAKTFFMDEISTGLDSSTTFQIVKFMKQMVHIMDITMVISLLQPPPETYDLFDDIILL 342
Query: 362 SEGQIVYQGPCQNVLEFFEFMGFRCPERKGVADFLQEVTSKKDQEQYWFDKNRRYKYV 535
SEG+IVYQGP +NVLEFFE MGFRCPERKGVADFLQEVTSKKDQEQYWF KN+ Y+++
Sbjct: 343 SEGKIVYQGPRENVLEFFEHMGFRCPERKGVADFLQEVTSKKDQEQYWFRKNQPYRHI 400
Score = 60.8 bits (146), Expect = 1e-07
Identities = 39/136 (28%), Positives = 73/136 (53%), Gaps = 5/136 (3%)
Frame = +2
Query: 26 ATAVEGQKTSLVTDYVLKILGLEICADIMVGDEMRRGISGGQKKRVTTGEMLVGPAKALF 205
A+ V+ + + V+ ++ L +VG G+S Q+KR+T LV +F
Sbjct: 871 ASDVKDSTRKMFVEEVMDLVELHPLRHALVGLPGVDGLSTEQRKRLTIAVELVANPSIIF 930
Query: 206 MDEISTGLDSSTTFQIVKFMRQMVHIMDVTMIISLLQPAPETFELFDDVILLSE-GQIVY 382
MDE ++GLD+ +++ +R V T++ ++ QP+ + FE FD+++L+ GQ++Y
Sbjct: 931 MDEPTSGLDARAAAIVMRTVRNTVD-TGRTVVCTIHQPSIDIFEAFDELLLMKRGGQVIY 989
Query: 383 QGP----CQNVLEFFE 418
GP ++E+FE
Sbjct: 990 AGPLGRQSHMLVEYFE 1005