BLASTX nr result
ID: Papaver22_contig00026381
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= Papaver22_contig00026381
(976 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
emb|CBI30953.3| unnamed protein product [Vitis vinifera] 209 6e-52
ref|XP_002272405.1| PREDICTED: probable beta-1,3-galactosyltrans... 209 6e-52
emb|CAN60867.1| hypothetical protein VITISV_015322 [Vitis vinifera] 209 6e-52
ref|XP_002531052.1| transferase, transferring glycosyl groups, p... 201 2e-49
ref|XP_002322528.1| predicted protein [Populus trichocarpa] gi|2... 200 4e-49
>emb|CBI30953.3| unnamed protein product [Vitis vinifera]
Length = 224
Score = 209 bits (533), Expect = 6e-52
Identities = 97/117 (82%), Positives = 100/117 (85%)
Frame = -2
Query: 975 RPLRSGKWAVTXXXXXXXXXXXYANGPGYIISIDIAKFIVTQHVNRSLRLFKMEDVSMGM 796
RPLRSGKWAVT YANGPGYIISIDIAKFIV QH NRSLRLFKMEDVSMGM
Sbjct: 108 RPLRSGKWAVTYEEWPEEVYPPYANGPGYIISIDIAKFIVAQHGNRSLRLFKMEDVSMGM 167
Query: 795 WVEQFNNTIPVQYSHNWKFCQYGCMEGYFTAHYQSPRQMICLWSKLARGRAHCCNFR 625
WVEQFN++ PVQYSHNWKFCQYGCME Y+TAHYQSPRQMICLW KLARGR HCCNFR
Sbjct: 168 WVEQFNSSTPVQYSHNWKFCQYGCMEDYYTAHYQSPRQMICLWDKLARGRVHCCNFR 224
>ref|XP_002272405.1| PREDICTED: probable beta-1,3-galactosyltransferase 20 [Vitis
vinifera]
Length = 669
Score = 209 bits (533), Expect = 6e-52
Identities = 97/117 (82%), Positives = 100/117 (85%)
Frame = -2
Query: 975 RPLRSGKWAVTXXXXXXXXXXXYANGPGYIISIDIAKFIVTQHVNRSLRLFKMEDVSMGM 796
RPLRSGKWAVT YANGPGYIISIDIAKFIV QH NRSLRLFKMEDVSMGM
Sbjct: 553 RPLRSGKWAVTYEEWPEEVYPPYANGPGYIISIDIAKFIVAQHGNRSLRLFKMEDVSMGM 612
Query: 795 WVEQFNNTIPVQYSHNWKFCQYGCMEGYFTAHYQSPRQMICLWSKLARGRAHCCNFR 625
WVEQFN++ PVQYSHNWKFCQYGCME Y+TAHYQSPRQMICLW KLARGR HCCNFR
Sbjct: 613 WVEQFNSSTPVQYSHNWKFCQYGCMEDYYTAHYQSPRQMICLWDKLARGRVHCCNFR 669
>emb|CAN60867.1| hypothetical protein VITISV_015322 [Vitis vinifera]
Length = 674
Score = 209 bits (533), Expect = 6e-52
Identities = 97/117 (82%), Positives = 100/117 (85%)
Frame = -2
Query: 975 RPLRSGKWAVTXXXXXXXXXXXYANGPGYIISIDIAKFIVTQHVNRSLRLFKMEDVSMGM 796
RPLRSGKWAVT YANGPGYIISIDIAKFIV QH NRSLRLFKMEDVSMGM
Sbjct: 558 RPLRSGKWAVTYEEWPEEVYPPYANGPGYIISIDIAKFIVAQHGNRSLRLFKMEDVSMGM 617
Query: 795 WVEQFNNTIPVQYSHNWKFCQYGCMEGYFTAHYQSPRQMICLWSKLARGRAHCCNFR 625
WVEQFN++ PVQYSHNWKFCQYGCME Y+TAHYQSPRQMICLW KLARGR HCCNFR
Sbjct: 618 WVEQFNSSTPVQYSHNWKFCQYGCMEDYYTAHYQSPRQMICLWDKLARGRVHCCNFR 674
>ref|XP_002531052.1| transferase, transferring glycosyl groups, putative [Ricinus
communis] gi|223529347|gb|EEF31313.1| transferase,
transferring glycosyl groups, putative [Ricinus
communis]
Length = 683
Score = 201 bits (511), Expect = 2e-49
Identities = 93/117 (79%), Positives = 98/117 (83%)
Frame = -2
Query: 975 RPLRSGKWAVTXXXXXXXXXXXYANGPGYIISIDIAKFIVTQHVNRSLRLFKMEDVSMGM 796
RPLRSGKWAVT YANGPGY+IS DIAKFIV QH NRSLRLFKMEDVSMGM
Sbjct: 567 RPLRSGKWAVTFEEWPEAVYPPYANGPGYVISYDIAKFIVAQHGNRSLRLFKMEDVSMGM 626
Query: 795 WVEQFNNTIPVQYSHNWKFCQYGCMEGYFTAHYQSPRQMICLWSKLARGRAHCCNFR 625
WVEQFN++ VQYSHNWKFCQYGCME Y+TAHYQSPRQMICLW KL+RGRA CCNFR
Sbjct: 627 WVEQFNSSRTVQYSHNWKFCQYGCMENYYTAHYQSPRQMICLWDKLSRGRAQCCNFR 683
>ref|XP_002322528.1| predicted protein [Populus trichocarpa] gi|222867158|gb|EEF04289.1|
predicted protein [Populus trichocarpa]
Length = 542
Score = 200 bits (509), Expect = 4e-49
Identities = 90/117 (76%), Positives = 98/117 (83%)
Frame = -2
Query: 975 RPLRSGKWAVTXXXXXXXXXXXYANGPGYIISIDIAKFIVTQHVNRSLRLFKMEDVSMGM 796
RPLR+GKWAVT YANGPGY+IS DIAKF++ QH +SLRLFKMEDVSMGM
Sbjct: 426 RPLRNGKWAVTFEEWPEAVYPPYANGPGYVISTDIAKFVIAQHGKQSLRLFKMEDVSMGM 485
Query: 795 WVEQFNNTIPVQYSHNWKFCQYGCMEGYFTAHYQSPRQMICLWSKLARGRAHCCNFR 625
WVEQFN++ PVQYSHNWKFCQYGCME Y+TAHYQSPRQMICLW KLARGRA CCNFR
Sbjct: 486 WVEQFNSSTPVQYSHNWKFCQYGCMENYYTAHYQSPRQMICLWDKLARGRAQCCNFR 542