BLASTX nr result
ID: Aconitum21_contig00017311
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= Aconitum21_contig00017311 (627 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_003555583.1| PREDICTED: protein MON2 homolog [Glycine max] 277 8e-89 emb|CBI34222.3| unnamed protein product [Vitis vinifera] 278 2e-88 ref|XP_003536107.1| PREDICTED: protein MON2 homolog isoform 2 [G... 276 2e-88 ref|XP_003633673.1| PREDICTED: protein MON2 homolog [Vitis vinif... 278 2e-88 ref|XP_003536106.1| PREDICTED: protein MON2 homolog isoform 1 [G... 276 2e-88 >ref|XP_003555583.1| PREDICTED: protein MON2 homolog [Glycine max] Length = 1644 Score = 277 bits (708), Expect(2) = 8e-89 Identities = 140/161 (86%), Positives = 153/161 (95%) Frame = -2 Query: 626 FRRLGLRSVSHVIRLYSSSLVTECEVFLSMLTRVTSLDLPLWHRILVLEVLRGFCVEVRT 447 FRRL LRSV+H+IRLYSSSL+TECEVFLSML +VT LDLPLWHRILVLE+LRGFCVE RT Sbjct: 321 FRRLVLRSVAHIIRLYSSSLITECEVFLSMLLKVTFLDLPLWHRILVLEILRGFCVEART 380 Query: 446 LRLLFQTFDMNPKNTNVVEGMVKALARVVSYIQIPDSSDESLAAVAGMFSSKAKGIEWSL 267 LR+LFQ FDM+PKNTNVVEGMVKALARVVS +Q +SS+ESLAAVAGMFSSKAKGIEWSL Sbjct: 381 LRILFQNFDMHPKNTNVVEGMVKALARVVSNVQAQESSEESLAAVAGMFSSKAKGIEWSL 440 Query: 266 DNDASNAAVMVASEAHAITLAVEGLLGVIFTVATLTDEAVD 144 DNDASNAAV+VASEAHAITLAVEGLLGV+FTVATLTDEA+D Sbjct: 441 DNDASNAAVLVASEAHAITLAVEGLLGVVFTVATLTDEAID 481 Score = 76.3 bits (186), Expect(2) = 8e-89 Identities = 35/44 (79%), Positives = 41/44 (93%) Frame = -3 Query: 133 SPRCETDQPVKFAGQTAVLCISMVDSMWLTILDSLSLILMRSQG 2 SPRC+ D PVK++G+TAVLCISMVDS+WLTILD+LSLIL RSQG Sbjct: 487 SPRCDNDPPVKWSGKTAVLCISMVDSLWLTILDALSLILSRSQG 530 >emb|CBI34222.3| unnamed protein product [Vitis vinifera] Length = 1679 Score = 278 bits (712), Expect(2) = 2e-88 Identities = 140/161 (86%), Positives = 154/161 (95%) Frame = -2 Query: 626 FRRLGLRSVSHVIRLYSSSLVTECEVFLSMLTRVTSLDLPLWHRILVLEVLRGFCVEVRT 447 FRRL LRSV+H+IRLYSSSL+TECEVFLSML +VTSLDLPLWHRILVLE+LRGFCVE RT Sbjct: 369 FRRLVLRSVAHIIRLYSSSLITECEVFLSMLVKVTSLDLPLWHRILVLEILRGFCVEART 428 Query: 446 LRLLFQTFDMNPKNTNVVEGMVKALARVVSYIQIPDSSDESLAAVAGMFSSKAKGIEWSL 267 LR+LFQ FDM+PKNTNVVEGMVKALARVVS +Q+ ++S+ESL AVAGMFSSKAKGIEWSL Sbjct: 429 LRILFQNFDMHPKNTNVVEGMVKALARVVSSLQVQETSEESLTAVAGMFSSKAKGIEWSL 488 Query: 266 DNDASNAAVMVASEAHAITLAVEGLLGVIFTVATLTDEAVD 144 DNDASNAAV+VASEAHAITLAVEGLLGV+FTVATLTDEAVD Sbjct: 489 DNDASNAAVLVASEAHAITLAVEGLLGVVFTVATLTDEAVD 529 Score = 73.6 bits (179), Expect(2) = 2e-88 Identities = 34/44 (77%), Positives = 39/44 (88%) Frame = -3 Query: 133 SPRCETDQPVKFAGQTAVLCISMVDSMWLTILDSLSLILMRSQG 2 SPRC++D P K G+TAVLCISMVDS+WLTILD+LSLIL RSQG Sbjct: 535 SPRCDSDPPAKCTGKTAVLCISMVDSLWLTILDALSLILSRSQG 578 >ref|XP_003536107.1| PREDICTED: protein MON2 homolog isoform 2 [Glycine max] Length = 1643 Score = 276 bits (706), Expect(2) = 2e-88 Identities = 139/161 (86%), Positives = 153/161 (95%) Frame = -2 Query: 626 FRRLGLRSVSHVIRLYSSSLVTECEVFLSMLTRVTSLDLPLWHRILVLEVLRGFCVEVRT 447 FRRL LRSV+H+IRLYSSSL+TECEVFLSML +VT LDLPLWHRILVLE+LRGFCVE RT Sbjct: 330 FRRLVLRSVAHIIRLYSSSLITECEVFLSMLLKVTFLDLPLWHRILVLEILRGFCVEART 389 Query: 446 LRLLFQTFDMNPKNTNVVEGMVKALARVVSYIQIPDSSDESLAAVAGMFSSKAKGIEWSL 267 LR+LFQ FDM+PKNTNVVEGMVKALARVVS +Q+ +SS+ESLAAVAGMFSSKAKGIEWSL Sbjct: 390 LRILFQNFDMHPKNTNVVEGMVKALARVVSNVQVQESSEESLAAVAGMFSSKAKGIEWSL 449 Query: 266 DNDASNAAVMVASEAHAITLAVEGLLGVIFTVATLTDEAVD 144 DNDASNAAV+VASEAHAITLAVEGLLGV+FTVATLTD A+D Sbjct: 450 DNDASNAAVLVASEAHAITLAVEGLLGVVFTVATLTDAAID 490 Score = 75.9 bits (185), Expect(2) = 2e-88 Identities = 35/44 (79%), Positives = 40/44 (90%) Frame = -3 Query: 133 SPRCETDQPVKFAGQTAVLCISMVDSMWLTILDSLSLILMRSQG 2 SPRC+ D PVK+ G+TAVLCISMVDS+WLTILD+LSLIL RSQG Sbjct: 496 SPRCDNDPPVKWTGKTAVLCISMVDSLWLTILDALSLILSRSQG 539 >ref|XP_003633673.1| PREDICTED: protein MON2 homolog [Vitis vinifera] Length = 1628 Score = 278 bits (712), Expect(2) = 2e-88 Identities = 140/161 (86%), Positives = 154/161 (95%) Frame = -2 Query: 626 FRRLGLRSVSHVIRLYSSSLVTECEVFLSMLTRVTSLDLPLWHRILVLEVLRGFCVEVRT 447 FRRL LRSV+H+IRLYSSSL+TECEVFLSML +VTSLDLPLWHRILVLE+LRGFCVE RT Sbjct: 310 FRRLVLRSVAHIIRLYSSSLITECEVFLSMLVKVTSLDLPLWHRILVLEILRGFCVEART 369 Query: 446 LRLLFQTFDMNPKNTNVVEGMVKALARVVSYIQIPDSSDESLAAVAGMFSSKAKGIEWSL 267 LR+LFQ FDM+PKNTNVVEGMVKALARVVS +Q+ ++S+ESL AVAGMFSSKAKGIEWSL Sbjct: 370 LRILFQNFDMHPKNTNVVEGMVKALARVVSSLQVQETSEESLTAVAGMFSSKAKGIEWSL 429 Query: 266 DNDASNAAVMVASEAHAITLAVEGLLGVIFTVATLTDEAVD 144 DNDASNAAV+VASEAHAITLAVEGLLGV+FTVATLTDEAVD Sbjct: 430 DNDASNAAVLVASEAHAITLAVEGLLGVVFTVATLTDEAVD 470 Score = 73.6 bits (179), Expect(2) = 2e-88 Identities = 34/44 (77%), Positives = 39/44 (88%) Frame = -3 Query: 133 SPRCETDQPVKFAGQTAVLCISMVDSMWLTILDSLSLILMRSQG 2 SPRC++D P K G+TAVLCISMVDS+WLTILD+LSLIL RSQG Sbjct: 476 SPRCDSDPPAKCTGKTAVLCISMVDSLWLTILDALSLILSRSQG 519 >ref|XP_003536106.1| PREDICTED: protein MON2 homolog isoform 1 [Glycine max] Length = 1589 Score = 276 bits (706), Expect(2) = 2e-88 Identities = 139/161 (86%), Positives = 153/161 (95%) Frame = -2 Query: 626 FRRLGLRSVSHVIRLYSSSLVTECEVFLSMLTRVTSLDLPLWHRILVLEVLRGFCVEVRT 447 FRRL LRSV+H+IRLYSSSL+TECEVFLSML +VT LDLPLWHRILVLE+LRGFCVE RT Sbjct: 310 FRRLVLRSVAHIIRLYSSSLITECEVFLSMLLKVTFLDLPLWHRILVLEILRGFCVEART 369 Query: 446 LRLLFQTFDMNPKNTNVVEGMVKALARVVSYIQIPDSSDESLAAVAGMFSSKAKGIEWSL 267 LR+LFQ FDM+PKNTNVVEGMVKALARVVS +Q+ +SS+ESLAAVAGMFSSKAKGIEWSL Sbjct: 370 LRILFQNFDMHPKNTNVVEGMVKALARVVSNVQVQESSEESLAAVAGMFSSKAKGIEWSL 429 Query: 266 DNDASNAAVMVASEAHAITLAVEGLLGVIFTVATLTDEAVD 144 DNDASNAAV+VASEAHAITLAVEGLLGV+FTVATLTD A+D Sbjct: 430 DNDASNAAVLVASEAHAITLAVEGLLGVVFTVATLTDAAID 470 Score = 75.9 bits (185), Expect(2) = 2e-88 Identities = 35/44 (79%), Positives = 40/44 (90%) Frame = -3 Query: 133 SPRCETDQPVKFAGQTAVLCISMVDSMWLTILDSLSLILMRSQG 2 SPRC+ D PVK+ G+TAVLCISMVDS+WLTILD+LSLIL RSQG Sbjct: 476 SPRCDNDPPVKWTGKTAVLCISMVDSLWLTILDALSLILSRSQG 519