BLASTX nr result
ID: Glycyrrhiza23_contig00029615
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= Glycyrrhiza23_contig00029615
(490 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_003545666.1| PREDICTED: probable methyltransferase PMT10-... 215 3e-54
emb|CBI18957.3| unnamed protein product [Vitis vinifera] 204 5e-51
ref|XP_002285887.1| PREDICTED: probable methyltransferase PMT10 ... 204 5e-51
ref|XP_002520297.1| ATP binding protein, putative [Ricinus commu... 194 5e-48
ref|XP_002315205.1| predicted protein [Populus trichocarpa] gi|2... 193 1e-47
>ref|XP_003545666.1| PREDICTED: probable methyltransferase PMT10-like [Glycine max]
Length = 659
Score = 215 bits (548), Expect = 3e-54
Identities = 102/119 (85%), Positives = 110/119 (92%)
Frame = +3
Query: 3 NVVPVSGFNTLPVLYDRGLIGLMHDWCEPFDTYPRTYDLLHAAGLFSIEKKRNKCNISTI 182
NVVPVSGFNTLPV+YDRGLIG+MHDWCEPFDTYPRTYDLLHAAGLFS+EKKR CNISTI
Sbjct: 542 NVVPVSGFNTLPVIYDRGLIGVMHDWCEPFDTYPRTYDLLHAAGLFSVEKKRC-CNISTI 600
Query: 183 ILEMDRMLRPGGRVYIRDTIHVIDELEEIATAMGWVSAQNDVGEGPYASWKILRCEKRF 359
+LEMDRMLRPGGRVYIRDT HVI ELEEIATA+GW + NDVGEGPY+SWKILR +K F
Sbjct: 601 MLEMDRMLRPGGRVYIRDTTHVIGELEEIATALGWSNTINDVGEGPYSSWKILRSDKGF 659
>emb|CBI18957.3| unnamed protein product [Vitis vinifera]
Length = 508
Score = 204 bits (520), Expect = 5e-51
Identities = 94/119 (78%), Positives = 107/119 (89%)
Frame = +3
Query: 3 NVVPVSGFNTLPVLYDRGLIGLMHDWCEPFDTYPRTYDLLHAAGLFSIEKKRNKCNISTI 182
NVVPVSGFNTLPV+YDRGLIG+ HDWCEPFDTYPRTYDLLHAAGLFSIE+KR CNIS I
Sbjct: 392 NVVPVSGFNTLPVIYDRGLIGVRHDWCEPFDTYPRTYDLLHAAGLFSIEQKR--CNISNI 449
Query: 183 ILEMDRMLRPGGRVYIRDTIHVIDELEEIATAMGWVSAQNDVGEGPYASWKILRCEKRF 359
+LE+DRMLRPGGRVYIRDT+ V++EL IA AMGW SA +D EGP+ASW++LRC+KRF
Sbjct: 450 MLEIDRMLRPGGRVYIRDTVSVVNELHAIAVAMGWASAVHDTSEGPHASWRLLRCDKRF 508
>ref|XP_002285887.1| PREDICTED: probable methyltransferase PMT10 [Vitis vinifera]
Length = 666
Score = 204 bits (520), Expect = 5e-51
Identities = 94/119 (78%), Positives = 107/119 (89%)
Frame = +3
Query: 3 NVVPVSGFNTLPVLYDRGLIGLMHDWCEPFDTYPRTYDLLHAAGLFSIEKKRNKCNISTI 182
NVVPVSGFNTLPV+YDRGLIG+ HDWCEPFDTYPRTYDLLHAAGLFSIE+KR CNIS I
Sbjct: 550 NVVPVSGFNTLPVIYDRGLIGVRHDWCEPFDTYPRTYDLLHAAGLFSIEQKR--CNISNI 607
Query: 183 ILEMDRMLRPGGRVYIRDTIHVIDELEEIATAMGWVSAQNDVGEGPYASWKILRCEKRF 359
+LE+DRMLRPGGRVYIRDT+ V++EL IA AMGW SA +D EGP+ASW++LRC+KRF
Sbjct: 608 MLEIDRMLRPGGRVYIRDTVSVVNELHAIAVAMGWASAVHDTSEGPHASWRLLRCDKRF 666
>ref|XP_002520297.1| ATP binding protein, putative [Ricinus communis]
gi|223540516|gb|EEF42083.1| ATP binding protein,
putative [Ricinus communis]
Length = 655
Score = 194 bits (494), Expect = 5e-48
Identities = 89/118 (75%), Positives = 104/118 (88%)
Frame = +3
Query: 3 NVVPVSGFNTLPVLYDRGLIGLMHDWCEPFDTYPRTYDLLHAAGLFSIEKKRNKCNISTI 182
NVVPV+GFNTLPV+YDRGLIG+MHDWCEPFDTYPRTYDLLHA LFS+E+ R+KCN STI
Sbjct: 536 NVVPVNGFNTLPVIYDRGLIGVMHDWCEPFDTYPRTYDLLHAVSLFSVEQNRHKCNFSTI 595
Query: 183 ILEMDRMLRPGGRVYIRDTIHVIDELEEIATAMGWVSAQNDVGEGPYASWKILRCEKR 356
+LEMDRMLRPGG VYIRD + ++ EL+EIA+AMGWVSA +D EGP+AS +IL EKR
Sbjct: 596 MLEMDRMLRPGGTVYIRDIVSIMGELQEIASAMGWVSAVHDTAEGPHASRRILISEKR 653
>ref|XP_002315205.1| predicted protein [Populus trichocarpa] gi|222864245|gb|EEF01376.1|
predicted protein [Populus trichocarpa]
Length = 669
Score = 193 bits (490), Expect = 1e-47
Identities = 89/118 (75%), Positives = 105/118 (88%)
Frame = +3
Query: 3 NVVPVSGFNTLPVLYDRGLIGLMHDWCEPFDTYPRTYDLLHAAGLFSIEKKRNKCNISTI 182
NVVPVSG NTLPVLYDRGL+G+MHDWCEPFDTYPRTYDLLHAAGLFS+E+KR CN+STI
Sbjct: 550 NVVPVSGSNTLPVLYDRGLLGVMHDWCEPFDTYPRTYDLLHAAGLFSVERKR--CNMSTI 607
Query: 183 ILEMDRMLRPGGRVYIRDTIHVIDELEEIATAMGWVSAQNDVGEGPYASWKILRCEKR 356
+LEMDR+LRPGGRVYIRD++ V+DEL +IA AMGW + D EGP+AS++IL C+KR
Sbjct: 608 MLEMDRILRPGGRVYIRDSLDVMDELLQIAKAMGWQATSRDTSEGPHASYRILTCDKR 665