BLASTX nr result
ID: Scutellaria23_contig00004720
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= Scutellaria23_contig00004720
(1208 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_002285167.1| PREDICTED: NADP-dependent alkenal double bon... 448 e-123
emb|CAN65024.1| hypothetical protein VITISV_026273 [Vitis vinifera] 441 e-121
ref|XP_002524486.1| alcohol dehydrogenase, putative [Ricinus com... 434 e-119
ref|XP_003633205.1| PREDICTED: LOW QUALITY PROTEIN: NADP-depende... 421 e-115
ref|XP_002265626.1| PREDICTED: NADP-dependent alkenal double bon... 421 e-115
>ref|XP_002285167.1| PREDICTED: NADP-dependent alkenal double bond reductase P1 [Vitis
vinifera] gi|297738946|emb|CBI28191.3| unnamed protein
product [Vitis vinifera]
Length = 346
Score = 448 bits (1153), Expect = e-123
Identities = 221/345 (64%), Positives = 266/345 (77%)
Frame = -1
Query: 1121 EIKNRFVTIKSHINEAPSLSHFEIKSETISLELGNSKVEVIVKNLYASVDPYQLNRMKQH 942
E+ N++VTIK+H++ AP S FE+K+ + L +VIVKNLY S+DPYQLNRMK +
Sbjct: 2 EVINKYVTIKTHVDGAPQDSDFELKTAALRLWAEPGSNDVIVKNLYVSIDPYQLNRMKSY 61
Query: 941 XXXXXXXXXXSPINPGQIIDTYGIGRVVVSRRPDLWKDDLVVGLLTWGEYTVAEEGRLLN 762
PI+PG ID YG+GRVV S P+ +DDLVVGL++WGEY+V + G +L
Sbjct: 62 SSSHRTINFAVPISPGMDIDAYGVGRVVASGHPEFEEDDLVVGLISWGEYSVVKGGNMLR 121
Query: 761 KLDPMGLPLPSHVGILGFSGLTAYGGFFEVCKPKKGEXXXXXXXXXXXXXXXGQYAKLFG 582
KLDPMG PL +HVGILGFSGLTA+GGFF+VCKPKKGE GQYAKLFG
Sbjct: 122 KLDPMGFPLSNHVGILGFSGLTAHGGFFQVCKPKKGEKVFVSAASGSVGNLVGQYAKLFG 181
Query: 581 CHVVGCAGTQAKVDLLKEKLGFDDAFNYKEVTNLNSTLKRYFPDGIDMYFDNVGGEMLEA 402
C+VVGCAG++ KV+LLKEKLGFDDAFNYKE T+L STLKRYFPDGID+YFDNVG EMLEA
Sbjct: 182 CYVVGCAGSKQKVNLLKEKLGFDDAFNYKEETDLKSTLKRYFPDGIDIYFDNVGAEMLEA 241
Query: 401 VVANMNQFGRVAVCGAISEYTGSGKKANIEMLDVVYKRITIQGFLALDYMKCYADFISTT 222
VANMN FGRVAVCG IS+YT SGK+A +MLD+VYKRIT+QGFLA D M Y DFISTT
Sbjct: 242 AVANMNIFGRVAVCGVISQYTDSGKRAAPDMLDIVYKRITMQGFLAADLMNGYTDFISTT 301
Query: 221 AEHLRNGEMQALCDISHGVESVPSAFIGLFCGDNIGKKIVQIASE 87
++L +G++Q + DIS GVES+PSAF+GLF GDN+GKKIV+IA E
Sbjct: 302 QDYLNDGKIQVIEDISQGVESIPSAFVGLFRGDNVGKKIVKIADE 346
>emb|CAN65024.1| hypothetical protein VITISV_026273 [Vitis vinifera]
Length = 805
Score = 441 bits (1133), Expect = e-121
Identities = 218/339 (64%), Positives = 260/339 (76%)
Frame = -1
Query: 1121 EIKNRFVTIKSHINEAPSLSHFEIKSETISLELGNSKVEVIVKNLYASVDPYQLNRMKQH 942
E+ N++VTIK+HI+ AP S FE+K+ + L +VIVKNL+ S+DPYQLNRMK +
Sbjct: 4 EVINKYVTIKTHIDGAPQDSDFELKTAALHLWAEPGSNDVIVKNLHVSIDPYQLNRMKSY 63
Query: 941 XXXXXXXXXXSPINPGQIIDTYGIGRVVVSRRPDLWKDDLVVGLLTWGEYTVAEEGRLLN 762
PI+PG ID YG+GRVV S P+ +DDLVVGL++WGEY+V + G +L
Sbjct: 64 SSSHRTINFAVPISPGMDIDAYGVGRVVASGHPEFEEDDLVVGLISWGEYSVVKGGNMLR 123
Query: 761 KLDPMGLPLPSHVGILGFSGLTAYGGFFEVCKPKKGEXXXXXXXXXXXXXXXGQYAKLFG 582
KLDPMG PL +HVGILGFSGLTA+GGFF+VCKPKKGE GQYAKLFG
Sbjct: 124 KLDPMGFPLSNHVGILGFSGLTAHGGFFQVCKPKKGEKVFVSAASGSVGNLVGQYAKLFG 183
Query: 581 CHVVGCAGTQAKVDLLKEKLGFDDAFNYKEVTNLNSTLKRYFPDGIDMYFDNVGGEMLEA 402
C+VVGCAG + KV+LLKEKLGFDDAFNYKE T+L STLKRYFPDGID+YFDNVG EMLEA
Sbjct: 184 CYVVGCAGNKQKVNLLKEKLGFDDAFNYKEETDLKSTLKRYFPDGIDIYFDNVGAEMLEA 243
Query: 401 VVANMNQFGRVAVCGAISEYTGSGKKANIEMLDVVYKRITIQGFLALDYMKCYADFISTT 222
VANMN FGRVAVCG IS+YT SGK+A +MLD+VYKRITIQGFLA D M Y DFISTT
Sbjct: 244 AVANMNIFGRVAVCGVISQYTDSGKRAAPDMLDIVYKRITIQGFLAADLMNGYTDFISTT 303
Query: 221 AEHLRNGEMQALCDISHGVESVPSAFIGLFCGDNIGKKI 105
++L +G++Q + DIS GVES+PSAF+GLF GDN+GKKI
Sbjct: 304 QDYLNDGKIQVIEDISQGVESIPSAFVGLFRGDNVGKKI 342
>ref|XP_002524486.1| alcohol dehydrogenase, putative [Ricinus communis]
gi|223536274|gb|EEF37926.1| alcohol dehydrogenase,
putative [Ricinus communis]
Length = 346
Score = 434 bits (1115), Expect = e-119
Identities = 216/345 (62%), Positives = 257/345 (74%)
Frame = -1
Query: 1121 EIKNRFVTIKSHINEAPSLSHFEIKSETISLELGNSKVEVIVKNLYASVDPYQLNRMKQH 942
E+ NR+V K++I+ AP S FE+KSE ISL L +VIVKNLY S+DPYQLNRMK
Sbjct: 2 EVTNRYVVTKAYIDGAPKESEFELKSEAISLLLEPGSNDVIVKNLYVSIDPYQLNRMKSR 61
Query: 941 XXXXXXXXXXSPINPGQIIDTYGIGRVVVSRRPDLWKDDLVVGLLTWGEYTVAEEGRLLN 762
+ INPG +ID YGI +V+ S P+ KDDLV+GL+TWGEY+V + G +L
Sbjct: 62 SSSQTHSSFATAINPGDVIDAYGIAKVLASGNPEFQKDDLVIGLITWGEYSVIKPGAMLR 121
Query: 761 KLDPMGLPLPSHVGILGFSGLTAYGGFFEVCKPKKGEXXXXXXXXXXXXXXXGQYAKLFG 582
K DPM P+ HVGILGFSGLTAY G FEVCKPKKGE GQYAKLFG
Sbjct: 122 KFDPMRFPMSHHVGILGFSGLTAYAGLFEVCKPKKGEKVFVSAASGSVGNLVGQYAKLFG 181
Query: 581 CHVVGCAGTQAKVDLLKEKLGFDDAFNYKEVTNLNSTLKRYFPDGIDMYFDNVGGEMLEA 402
C+VVGCAG++ K+ +LKEKLGFDDAFNYKE T+L +TLKRYFPDGID+YFDNVG EM EA
Sbjct: 182 CYVVGCAGSKEKIAMLKEKLGFDDAFNYKEETDLKATLKRYFPDGIDIYFDNVGAEMQEA 241
Query: 401 VVANMNQFGRVAVCGAISEYTGSGKKANIEMLDVVYKRITIQGFLALDYMKCYADFISTT 222
+ANM FGRVAVCG ISEYT SG+KA EM+DVVY+RI IQGFLA D+M YADFISTT
Sbjct: 242 AIANMKIFGRVAVCGVISEYTDSGRKAAPEMIDVVYRRIKIQGFLAADFMNVYADFISTT 301
Query: 221 AEHLRNGEMQALCDISHGVESVPSAFIGLFCGDNIGKKIVQIASE 87
++LR G+M L DIS GVES+P++ IGLF G NIGKK+VQ+A+E
Sbjct: 302 CDYLRAGKMHVLEDISTGVESIPTSLIGLFRGHNIGKKMVQLAAE 346
>ref|XP_003633205.1| PREDICTED: LOW QUALITY PROTEIN: NADP-dependent alkenal double bond
reductase P2-like [Vitis vinifera]
Length = 347
Score = 421 bits (1082), Expect = e-115
Identities = 206/346 (59%), Positives = 255/346 (73%), Gaps = 1/346 (0%)
Frame = -1
Query: 1121 EIKNRFVTIKSHIN-EAPSLSHFEIKSETISLELGNSKVEVIVKNLYASVDPYQLNRMKQ 945
E+ N++VT+K+HI+ +P S FE+K+ ++L + +VIVKNLY S+DPYQ+NRMK+
Sbjct: 2 EVTNKYVTVKTHIDGSSPQESDFELKTAALNLSVEPGSKDVIVKNLYVSIDPYQINRMKR 61
Query: 944 HXXXXXXXXXXSPINPGQIIDTYGIGRVVVSRRPDLWKDDLVVGLLTWGEYTVAEEGRLL 765
I PGQ I +G+GRVV S P+ KDDLVVGL+ W EYT+ + G +L
Sbjct: 62 VCSSQKLVSTADGITPGQAISAHGLGRVVASGNPEFEKDDLVVGLINWEEYTIVKGGNIL 121
Query: 764 NKLDPMGLPLPSHVGILGFSGLTAYGGFFEVCKPKKGEXXXXXXXXXXXXXXXGQYAKLF 585
KLDPMG PL H+G+LG SGLTAY GF EVCKPKKGE GQYAKLF
Sbjct: 122 RKLDPMGFPLSYHLGVLGLSGLTAYAGFVEVCKPKKGEKVFVSAACGSVGNLVGQYAKLF 181
Query: 584 GCHVVGCAGTQAKVDLLKEKLGFDDAFNYKEVTNLNSTLKRYFPDGIDMYFDNVGGEMLE 405
GCHVVGCAGT+ KV+LLK KLGFDDAFNYKE T+L STLKRYFPDG+D+YFDNVGG+MLE
Sbjct: 182 GCHVVGCAGTKQKVELLKGKLGFDDAFNYKEETDLKSTLKRYFPDGMDIYFDNVGGKMLE 241
Query: 404 AVVANMNQFGRVAVCGAISEYTGSGKKANIEMLDVVYKRITIQGFLALDYMKCYADFIST 225
A VANMN FGR+AVCG ISEYTG G++A +M+D+VYKR+ IQGFL +DY+K DFIST
Sbjct: 242 ASVANMNPFGRIAVCGIISEYTGIGERAAPDMIDIVYKRLKIQGFLVIDYLKGMDDFIST 301
Query: 224 TAEHLRNGEMQALCDISHGVESVPSAFIGLFCGDNIGKKIVQIASE 87
+ HL G++ L DIS GVES+ SAF+GLF GDN+GK +V++A E
Sbjct: 302 MSNHLSTGKIHVLEDISQGVESISSAFVGLFQGDNVGKXVVKVADE 347
>ref|XP_002265626.1| PREDICTED: NADP-dependent alkenal double bond reductase P2 [Vitis
vinifera] gi|297735440|emb|CBI17880.3| unnamed protein
product [Vitis vinifera]
Length = 347
Score = 421 bits (1081), Expect = e-115
Identities = 206/346 (59%), Positives = 252/346 (72%), Gaps = 1/346 (0%)
Frame = -1
Query: 1121 EIKNRFVTIKSHIN-EAPSLSHFEIKSETISLELGNSKVEVIVKNLYASVDPYQLNRMKQ 945
E+ N++VT+K+HI+ +P S FE+K+ + L + +VIVKNLY S+DPYQ+NRMK+
Sbjct: 2 EVTNKYVTVKTHIDGSSPQESDFELKTAALHLSVEPGSKDVIVKNLYVSIDPYQINRMKR 61
Query: 944 HXXXXXXXXXXSPINPGQIIDTYGIGRVVVSRRPDLWKDDLVVGLLTWGEYTVAEEGRLL 765
I PGQ I GIGRV+ S P+ KDDLVVGL+ W EYT+ + G
Sbjct: 62 VCSSQKLVSTADGITPGQAISANGIGRVMASGNPEFEKDDLVVGLINWEEYTIVKGGNTF 121
Query: 764 NKLDPMGLPLPSHVGILGFSGLTAYGGFFEVCKPKKGEXXXXXXXXXXXXXXXGQYAKLF 585
KLDPMG PL H+G+LG SGLTAYGGFFEVCKPKKGE GQYAKLF
Sbjct: 122 RKLDPMGFPLSYHLGVLGLSGLTAYGGFFEVCKPKKGEKVFVSAACGSVGNLVGQYAKLF 181
Query: 584 GCHVVGCAGTQAKVDLLKEKLGFDDAFNYKEVTNLNSTLKRYFPDGIDMYFDNVGGEMLE 405
GCHVVGCAGT+ KV+LLK KLGFDDAFNYKE +L STLKRYFPDGID+YFDNVGG+MLE
Sbjct: 182 GCHVVGCAGTKQKVELLKGKLGFDDAFNYKEEADLKSTLKRYFPDGIDIYFDNVGGKMLE 241
Query: 404 AVVANMNQFGRVAVCGAISEYTGSGKKANIEMLDVVYKRITIQGFLALDYMKCYADFIST 225
A VANMN FGR+AVCG ISEYTG G++ +M+D+VYKR+ +QGFL +DY+K DFIST
Sbjct: 242 ASVANMNPFGRIAVCGIISEYTGIGERVAPDMIDIVYKRLKVQGFLVIDYLKGMDDFIST 301
Query: 224 TAEHLRNGEMQALCDISHGVESVPSAFIGLFCGDNIGKKIVQIASE 87
+ HL ++ L DIS GVES+PSAF+GLF GDN+GKK+V++A E
Sbjct: 302 MSNHLSTDKIHVLEDISQGVESIPSAFVGLFRGDNVGKKVVKVADE 347