BLASTX nr result
ID: Paeonia25_contig00043663
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= Paeonia25_contig00043663
(356 letters)
Database: ./nr
38,876,450 sequences; 13,856,398,315 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
emb|CAN75040.1| hypothetical protein VITISV_026478 [Vitis vinifera] 57 4e-06
emb|CAN75156.1| hypothetical protein VITISV_042643 [Vitis vinifera] 56 5e-06
emb|CAN70431.1| hypothetical protein VITISV_030910 [Vitis vinifera] 56 6e-06
emb|CAN63022.1| hypothetical protein VITISV_042518 [Vitis vinifera] 56 6e-06
emb|CAN70693.1| hypothetical protein VITISV_041975 [Vitis vinifera] 55 8e-06
emb|CAN62833.1| hypothetical protein VITISV_012130 [Vitis vinifera] 55 8e-06
>emb|CAN75040.1| hypothetical protein VITISV_026478 [Vitis vinifera]
Length = 1776
Score = 56.6 bits (135), Expect = 4e-06
Identities = 25/95 (26%), Positives = 49/95 (51%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P+++L PQ C +C+ + ES DHL CP+ +W +++ + + P +F+
Sbjct: 1629 NDKLQLRRPYKSLCPQWCILCKGNGESIDHLFLHCPVTIGLWNKLFKLAGLDWVPPRSFE 1688
Query: 246 EMSDFYRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M F+ L + W++ +W +W
Sbjct: 1689 DM--LVIAFKGLG-NSLRGKTLWQVACLTLVWIVW 1720
>emb|CAN75156.1| hypothetical protein VITISV_042643 [Vitis vinifera]
Length = 721
Score = 56.2 bits (134), Expect = 5e-06
Identities = 26/95 (27%), Positives = 47/95 (49%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P++ L PQ C +C+ + ES DHL CP+ +W ++ + + P + +
Sbjct: 577 NDKLQLRRPYKALCPQWCILCKRNGESIDHLFLHCPVTIGLWHRLFNLVGVIWVPPRSIE 636
Query: 246 EMSDFYRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M +FR L + W+I +W +W
Sbjct: 637 DM--LVISFRGLG-NSVRGKILWQIACLTLIWMVW 668
>emb|CAN70431.1| hypothetical protein VITISV_030910 [Vitis vinifera]
Length = 971
Score = 55.8 bits (133), Expect = 6e-06
Identities = 25/95 (26%), Positives = 48/95 (50%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P++ L PQ C +C+ + ES DHL CP+ +W +++ + + P +F+
Sbjct: 732 NDKLQLRRPYKALCPQWCILCKANGESIDHLFLHCPVTIGLWNKLFKMAGLDWVPPRSFE 791
Query: 246 EMSDFYRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M F+ L + W++ +W +W
Sbjct: 792 DM--LVIAFKGLG-NSLRGKTLWQVACLTLVWIVW 823
>emb|CAN63022.1| hypothetical protein VITISV_042518 [Vitis vinifera]
Length = 311
Score = 55.8 bits (133), Expect = 6e-06
Identities = 25/95 (26%), Positives = 49/95 (51%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P+++L PQ C +C+ + ES DHL CP+ +W +++ + + P +F+
Sbjct: 164 NDKLQLRRPYKSLCPQWCILCKGNRESIDHLFLYCPVTIGLWNKLFKLAGLDWVPPRSFE 223
Query: 246 EMSDFYRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M F+ L + W++ +W +W
Sbjct: 224 DM--LVIAFKGLG-NSLRGKTLWQVACLTLVWIVW 255
>emb|CAN70693.1| hypothetical protein VITISV_041975 [Vitis vinifera]
Length = 1795
Score = 55.5 bits (132), Expect = 8e-06
Identities = 25/96 (26%), Positives = 46/96 (47%), Gaps = 1/96 (1%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P++ L PQ C +C+ + ES DHL CP+ +W ++ + + P + +
Sbjct: 172 NDKLQLRRPYKALCPQWCILCKGNGESIDHLFLHCPVTIGLWHRLFNLVGVIWVPPRSIE 231
Query: 246 EMSDF-YRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M ++ NL W+I +W +W
Sbjct: 232 DMLVISFKGLGNLV----RGKILWQIACLTLIWMVW 263
>emb|CAN62833.1| hypothetical protein VITISV_012130 [Vitis vinifera]
Length = 1621
Score = 55.5 bits (132), Expect = 8e-06
Identities = 26/95 (27%), Positives = 47/95 (49%)
Frame = +3
Query: 66 SDKKQKYKPWRTLLPQ*CCMCRNDAESQDHLLFSCPIAHRIWGNVWRKFKIPLLQPNNFQ 245
+DK Q +P++ L PQ C +C+ + ES DHL CPI +W ++ + + P + +
Sbjct: 607 NDKLQLRRPYKALCPQWCILCKGNGESIDHLFLHCPITIGLWHRLFNLVGVIWVPPRSIE 666
Query: 246 EMSDFYRNFRNLQLPTNEAAFFWKIFSAATLWTIW 350
+M +F+ L + W+I +W +W
Sbjct: 667 DM--LVISFKGLG-NSVRGKILWQIACLTLIWMVW 698