BLASTX nr result
ID: Cnidium21_contig00016308
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= Cnidium21_contig00016308 (366 letters) Database: ./nr 23,641,837 sequences; 8,123,359,852 total letters Searching..................................................done Score E Sequences producing significant alignments: (bits) Value emb|CAN66574.1| hypothetical protein VITISV_016962 [Vitis vinifera] 179 2e-43 emb|CAN77489.1| hypothetical protein VITISV_027476 [Vitis vinifera] 160 1e-37 emb|CAN69241.1| hypothetical protein VITISV_009386 [Vitis vinifera] 159 2e-37 emb|CAN59755.1| hypothetical protein VITISV_034567 [Vitis vinifera] 159 3e-37 emb|CAN64172.1| hypothetical protein VITISV_041386 [Vitis vinifera] 155 2e-36 >emb|CAN66574.1| hypothetical protein VITISV_016962 [Vitis vinifera] Length = 416 Score = 179 bits (454), Expect = 2e-43 Identities = 81/121 (66%), Positives = 96/121 (79%) Frame = +1 Query: 1 PEINQNLLSISQLTEKGYKVFFDDNHCVIKDARGVDIFKVQMKDKSFALDLTKE**AAVH 180 PEINQNLLS+ QL EKGYKV FDDNHC+I DA+G ++F VQMK K FALDL +E A+H Sbjct: 296 PEINQNLLSVGQLLEKGYKVLFDDNHCMIADAQGREVFIVQMKGKGFALDLMQEENVAIH 355 Query: 181 KEDNNTMLWHKRLGHFHHAALLFMEKNNMARGFPALREEPPKCAACQYEKQNRLPFQQNS 360 KE++NTMLWH+RLGHFHH ALLFM+KN++ G P L +PP C ACQY KQ +LPF QN Sbjct: 356 KEESNTMLWHRRLGHFHHTALLFMKKNDLGEGLPELEVKPPTCVACQYGKQTKLPFPQNK 415 Query: 361 A 363 A Sbjct: 416 A 416 >emb|CAN77489.1| hypothetical protein VITISV_027476 [Vitis vinifera] Length = 515 Score = 160 bits (405), Expect = 1e-37 Identities = 71/122 (58%), Positives = 93/122 (76%) Frame = +1 Query: 1 PEINQNLLSISQLTEKGYKVFFDDNHCVIKDARGVDIFKVQMKDKSFALDLTKE**AAVH 180 P+I+QNLLS+ QL EKG+KV F+D +C+IKDA G ++F ++MK KSFAL++ ++ A Sbjct: 358 PDIDQNLLSVGQLVEKGFKVCFEDKNCIIKDAEGREVFNIKMKGKSFALNMLEDEQIAAA 417 Query: 181 KEDNNTMLWHKRLGHFHHAALLFMEKNNMARGFPALREEPPKCAACQYEKQNRLPFQQNS 360 + +NNTMLWHKRLGHFHH +L+M+KN + G P L EE P CAACQY KQ RLPF Q + Sbjct: 418 QHENNTMLWHKRLGHFHHNVVLYMKKNQIVEGLPDLEEELPICAACQYGKQTRLPFPQKA 477 Query: 361 AW 366 AW Sbjct: 478 AW 479 >emb|CAN69241.1| hypothetical protein VITISV_009386 [Vitis vinifera] Length = 925 Score = 159 bits (403), Expect = 2e-37 Identities = 77/121 (63%), Positives = 93/121 (76%), Gaps = 2/121 (1%) Frame = +1 Query: 1 PEINQNLLSISQLTEKGYKVFFDDNHCVIKDARGVDIFKVQMKDKSFALDLTKE**AAVH 180 PEINQNLLS+ QL EKGYKV F+DNHC+I +A+G ++F VQMKDKSFALDL +E A +H Sbjct: 230 PEINQNLLSVGQLLEKGYKVLFEDNHCMIANAQGREVFIVQMKDKSFALDLMQEEQAEIH 289 Query: 181 KEDNNTMLWHKRLGHFHHAALLFMEKNNMARGFPALREEPPKCAACQYEKQNRLPF--QQ 354 KE+NNTMLWH+ LGHFHH ALLFM+KN++ G P L +PP C AC E Q P+ QQ Sbjct: 290 KEENNTMLWHRCLGHFHHTALLFMKKNDLGEGLPELEVKPPTCVAC-IEHQLTTPYTPQQ 348 Query: 355 N 357 N Sbjct: 349 N 349 >emb|CAN59755.1| hypothetical protein VITISV_034567 [Vitis vinifera] Length = 1333 Score = 159 bits (401), Expect = 3e-37 Identities = 71/122 (58%), Positives = 92/122 (75%) Frame = +1 Query: 1 PEINQNLLSISQLTEKGYKVFFDDNHCVIKDARGVDIFKVQMKDKSFALDLTKE**AAVH 180 P+I+QNLLS+ QL EKG+KV F+D +C+IKDA G ++F ++MK KSFAL++ ++ A Sbjct: 310 PDIDQNLLSVGQLVEKGFKVCFEDKNCIIKDAEGREVFNIKMKGKSFALNMLEDEQIAAA 369 Query: 181 KEDNNTMLWHKRLGHFHHAALLFMEKNNMARGFPALREEPPKCAACQYEKQNRLPFQQNS 360 + +NNTMLWHKRLGHFHH A+L+ +KN + G P L EE P CAACQY KQ RLPF Q Sbjct: 370 QHENNTMLWHKRLGHFHHNAVLYXKKNQIVEGLPDLEEELPICAACQYGKQTRLPFPQKX 429 Query: 361 AW 366 AW Sbjct: 430 AW 431 >emb|CAN64172.1| hypothetical protein VITISV_041386 [Vitis vinifera] Length = 1132 Score = 155 bits (393), Expect = 2e-36 Identities = 73/105 (69%), Positives = 85/105 (80%) Frame = +1 Query: 1 PEINQNLLSISQLTEKGYKVFFDDNHCVIKDARGVDIFKVQMKDKSFALDLTKE**AAVH 180 PEINQNLLSISQL EKGYKV F+DNHC+I DA+G + F VQMK KSFALDL +E AA+H Sbjct: 213 PEINQNLLSISQLLEKGYKVLFEDNHCMIADAQGREGFIVQMKGKSFALDLMQEKQAAIH 272 Query: 181 KEDNNTMLWHKRLGHFHHAALLFMEKNNMARGFPALREEPPKCAA 315 KE++NTMLWHKRLGHFHH LLFM+KN++ G P L +PP C A Sbjct: 273 KEESNTMLWHKRLGHFHHTTLLFMKKNDLGEGLPKLEVKPPTCVA 317