BLASTX nr result
ID: Bupleurum21_contig00003244
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= Bupleurum21_contig00003244
(649 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
emb|CAN61929.1| hypothetical protein VITISV_014855 [Vitis vinifera] 330 2e-88
emb|CAN75041.1| hypothetical protein VITISV_027174 [Vitis vinifera] 327 1e-87
emb|CAN74499.1| hypothetical protein VITISV_013001 [Vitis vinifera] 325 6e-87
emb|CAN68711.1| hypothetical protein VITISV_015847 [Vitis vinifera] 322 3e-86
emb|CAN74430.1| hypothetical protein VITISV_010987 [Vitis vinifera] 322 4e-86
>emb|CAN61929.1| hypothetical protein VITISV_014855 [Vitis vinifera]
Length = 1271
Score = 330 bits (845), Expect = 2e-88
Identities = 151/213 (70%), Positives = 187/213 (87%)
Frame = +1
Query: 10 LSDYHVYSAIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCR 189
L DYH Y+A+ +LHEPQTYREAS PLWQ AM EEL+AL KNHTWDLVTLPP ++ V C+
Sbjct: 794 LLDYHCYTALATLHEPQTYREASTDPLWQIAMKEELDALTKNHTWDLVTLPPGQSVVGCK 853
Query: 190 WIYKIKTKSDGSIDRYKARLVARGFTQEYGIDYEETFAPVARITTVRSLIAVAASRRWDM 369
WIYKIKT+SDGS++RYKARLVA+GFTQEYGIDYEETFAPVARI++VR+L+AVAA+R+WD+
Sbjct: 854 WIYKIKTRSDGSVERYKARLVAKGFTQEYGIDYEETFAPVARISSVRALLAVAAARKWDL 913
Query: 370 WQMDVSNAFLNGDLHEEVYLKPPPGYSHSPNQVCKLNKAIYGLKQSPREWYEKFYSEISK 549
+QMDV NAFLNGDL EEVY++PPPG S N+VC L +A+YGLKQ+PR W+ KF S I +
Sbjct: 914 FQMDVKNAFLNGDLSEEVYMQPPPGLSIESNKVCHLRRALYGLKQAPRAWFAKFSSTIFR 973
Query: 550 LGFSSSPYDYALFVRKSERGLVLLLLYVDDMII 648
LG+++SPYD ALF+R++++G +LLLLYVDDMII
Sbjct: 974 LGYTASPYDSALFLRRTDKGTILLLLYVDDMII 1006
>emb|CAN75041.1| hypothetical protein VITISV_027174 [Vitis vinifera]
Length = 1381
Score = 327 bits (838), Expect = 1e-87
Identities = 150/213 (70%), Positives = 186/213 (87%)
Frame = +1
Query: 10 LSDYHVYSAIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCR 189
L DYH Y+A+ +LHEPQTYREAS PLWQ AM EEL+AL KNHTWDLVTLPP ++ V C+
Sbjct: 860 LLDYHCYTALATLHEPQTYREASTDPLWQIAMKEELDALTKNHTWDLVTLPPGQSVVGCK 919
Query: 190 WIYKIKTKSDGSIDRYKARLVARGFTQEYGIDYEETFAPVARITTVRSLIAVAASRRWDM 369
WIYKIKT+SDGS++RYKARLVA+GFTQEYGIDYEETFAPVARI++VR+L+AVAA+R+WD+
Sbjct: 920 WIYKIKTRSDGSVERYKARLVAKGFTQEYGIDYEETFAPVARISSVRALLAVAAARKWDL 979
Query: 370 WQMDVSNAFLNGDLHEEVYLKPPPGYSHSPNQVCKLNKAIYGLKQSPREWYEKFYSEISK 549
+QMDV NAFLNGDL EEVY++PPPG S N+VC L +A+YGLKQ+PR W+ KF S I +
Sbjct: 980 FQMDVKNAFLNGDLSEEVYMQPPPGLSIESNKVCHLRRALYGLKQAPRAWFAKFSSTIFR 1039
Query: 550 LGFSSSPYDYALFVRKSERGLVLLLLYVDDMII 648
LG+++SPYD ALF+R++++ +LLLLYVDDMII
Sbjct: 1040 LGYTASPYDSALFLRRTDKXTILLLLYVDDMII 1072
>emb|CAN74499.1| hypothetical protein VITISV_013001 [Vitis vinifera]
Length = 993
Score = 325 bits (832), Expect = 6e-87
Identities = 149/213 (69%), Positives = 185/213 (86%)
Frame = +1
Query: 10 LSDYHVYSAIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCR 189
L DYH Y+A+ +LHEPQTYREAS+ LWQ AM EEL+AL KNHTWDLVTLPP ++ V C+
Sbjct: 472 LIDYHCYTALATLHEPQTYREASIDHLWQIAMKEELDALTKNHTWDLVTLPPGQSVVGCK 531
Query: 190 WIYKIKTKSDGSIDRYKARLVARGFTQEYGIDYEETFAPVARITTVRSLIAVAASRRWDM 369
WIYKIKT+SDGS++RYKARLVA+GFTQEYGIDYEETFAPVARI++VR+L+AVAA+R+WD+
Sbjct: 532 WIYKIKTRSDGSVERYKARLVAKGFTQEYGIDYEETFAPVARISSVRALLAVAAARKWDL 591
Query: 370 WQMDVSNAFLNGDLHEEVYLKPPPGYSHSPNQVCKLNKAIYGLKQSPREWYEKFYSEISK 549
+QMDV N FLNGDL EEVY++PPPG S N+VC L +A+YGLKQ+PR W+ KF S I
Sbjct: 592 FQMDVKNVFLNGDLSEEVYMQPPPGLSVESNKVCHLRRALYGLKQAPRAWFAKFSSTIFC 651
Query: 550 LGFSSSPYDYALFVRKSERGLVLLLLYVDDMII 648
LG+++SPYD+ALF+R++ +G +LLLLYVDDMII
Sbjct: 652 LGYTASPYDFALFLRRTAKGTILLLLYVDDMII 684
>emb|CAN68711.1| hypothetical protein VITISV_015847 [Vitis vinifera]
Length = 1168
Score = 322 bits (826), Expect = 3e-86
Identities = 148/213 (69%), Positives = 184/213 (86%)
Frame = +1
Query: 10 LSDYHVYSAIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCR 189
L DYH Y+A+ +LHEPQTYREAS PLWQ AM EEL+AL KNHTWDLV LPP ++ V C+
Sbjct: 647 LLDYHCYTALATLHEPQTYREASTDPLWQIAMKEELDALTKNHTWDLVPLPPGQSVVGCK 706
Query: 190 WIYKIKTKSDGSIDRYKARLVARGFTQEYGIDYEETFAPVARITTVRSLIAVAASRRWDM 369
WIYKIKT+SDGS++RYKARLVA+GFTQEYGIDYEETFAPVARI++VR+L+AVAA+R+WD+
Sbjct: 707 WIYKIKTRSDGSVERYKARLVAKGFTQEYGIDYEETFAPVARISSVRALLAVAAARQWDL 766
Query: 370 WQMDVSNAFLNGDLHEEVYLKPPPGYSHSPNQVCKLNKAIYGLKQSPREWYEKFYSEISK 549
+QMDV NAFLNGDL E VY++PPPG N+VC L +A+YGLKQ+PR W+ KF S I +
Sbjct: 767 FQMDVKNAFLNGDLSEAVYMQPPPGLFVESNKVCHLRRALYGLKQAPRAWFAKFSSTIFR 826
Query: 550 LGFSSSPYDYALFVRKSERGLVLLLLYVDDMII 648
LG+++SPYD ALF+R++++G +LLLLYVDDMII
Sbjct: 827 LGYTASPYDSALFLRRTDKGTILLLLYVDDMII 859
>emb|CAN74430.1| hypothetical protein VITISV_010987 [Vitis vinifera]
Length = 2471
Score = 322 bits (825), Expect = 4e-86
Identities = 148/213 (69%), Positives = 184/213 (86%)
Frame = +1
Query: 10 LSDYHVYSAIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCR 189
L DYH Y+A+ +LHEPQTYREAS PLWQ AM EEL+AL KNHTWDLV LPP ++ V C+
Sbjct: 1107 LLDYHCYTALATLHEPQTYREASTDPLWQIAMKEELDALTKNHTWDLVPLPPGQSVVGCK 1166
Query: 190 WIYKIKTKSDGSIDRYKARLVARGFTQEYGIDYEETFAPVARITTVRSLIAVAASRRWDM 369
WIYKIKT+SDGS++RYKARLVA+GFTQEYGIDYEETFAPVARI++VR+L+AVAA+R+WD+
Sbjct: 1167 WIYKIKTRSDGSVERYKARLVAKGFTQEYGIDYEETFAPVARISSVRALLAVAAARQWDL 1226
Query: 370 WQMDVSNAFLNGDLHEEVYLKPPPGYSHSPNQVCKLNKAIYGLKQSPREWYEKFYSEISK 549
+QMDV NAFLNGDL E VY++PPPG S N+VC L +A+YGLKQ+PR W+ KF S I +
Sbjct: 1227 FQMDVKNAFLNGDLSEAVYMQPPPGLSVESNKVCHLRRALYGLKQAPRAWFAKFSSTIFR 1286
Query: 550 LGFSSSPYDYALFVRKSERGLVLLLLYVDDMII 648
LG+++SPYD ALF+R++++ +LLLLYVDDMII
Sbjct: 1287 LGYTASPYDSALFLRRTDKDTILLLLYVDDMII 1319
Score = 93.2 bits (230), Expect = 4e-17
Identities = 42/93 (45%), Positives = 61/93 (65%)
Frame = +1
Query: 34 AIQSLHEPQTYREASVHPLWQKAMTEELNALEKNHTWDLVTLPPNKTPVSCRWIYKIKTK 213
+I S E Y + ++ P WQ AM +L AL+ N TW L +LPP K + C W+YKIK K
Sbjct: 78 SISSHFESTLYSKVALTPEWQDAMLTKLQALKVNSTWSLTSLPPRKHLIGCEWVYKIKYK 137
Query: 214 SDGSIDRYKARLVARGFTQEYGIDYEETFAPVA 312
++GSI+ YKA LVA+GFT + +D+ + F P++
Sbjct: 138 ANGSIETYKAYLVAKGFTHQEWVDFIDLFLPLS 170