BLASTX nr result
ID: Salvia21_contig00004951
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= Salvia21_contig00004951
(1894 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_004149051.1| PREDICTED: uncharacterized protein LOC101203... 530 e-148
emb|CBI30668.3| unnamed protein product [Vitis vinifera] 517 e-144
ref|XP_002274664.1| PREDICTED: uncharacterized protein LOC100258... 517 e-144
ref|XP_002279857.1| PREDICTED: uncharacterized protein LOC100255... 515 e-143
emb|CAN60202.1| hypothetical protein VITISV_036403 [Vitis vinifera] 514 e-143
>ref|XP_004149051.1| PREDICTED: uncharacterized protein LOC101203509 [Cucumis sativus]
gi|449509029|ref|XP_004163473.1| PREDICTED:
uncharacterized LOC101203509 [Cucumis sativus]
Length = 373
Score = 530 bits (1364), Expect = e-148
Identities = 239/350 (68%), Positives = 283/350 (80%)
Frame = +2
Query: 152 RNRELITSCNLFQGKWVTDPSYPLYDSAGCPFIDPEFDCIKYGRPDKQFLKFSWKPDSCN 331
+ R+ CNLFQG+WV DPS+PLY+S+ CPFID EFDC KYGRPD +LK+SW+PDSCN
Sbjct: 45 KGRKQANGCNLFQGRWVIDPSFPLYNSSSCPFIDSEFDCQKYGRPDSLYLKYSWRPDSCN 104
Query: 332 LPRYIHISKSFFQHISNLFLLFIYFRFNGVDFLKRWSGKKIMFVGDSLSLNQWLSLACML 511
LPR F+GVD LKRWSGKKIMFVGDSLSLN W SL+CML
Sbjct: 105 LPR-----------------------FDGVDVLKRWSGKKIMFVGDSLSLNMWESLSCML 141
Query: 512 HAAAPNSKYNFDRQDTLSSLTFQDYGVTLLLYRSPYLVDITREKIGRVLKLDSIKQGNAW 691
HA+ P++K +F R+D++SS+ FQDYGVTLLLYR+PYLVDI RE +GRVLKLDSI+ G AW
Sbjct: 142 HASVPDAKTSFLRRDSISSVVFQDYGVTLLLYRTPYLVDIVREDVGRVLKLDSIEAGKAW 201
Query: 692 RGMDMLVFNTWHWWTHKGKAQSWDYVQDGSTVSKDMNRLVAFYKGLTTWGRWVDLNVDPT 871
GMD+LVFN+WHWWTHKG +Q+WD +QDG+T +DM+RLVAFYKGLTTWGRWVDLNVDPT
Sbjct: 202 LGMDVLVFNSWHWWTHKGDSQAWDLIQDGATRYQDMDRLVAFYKGLTTWGRWVDLNVDPT 261
Query: 872 KTRVFFQGISPTHYQGRDWKAASKNCNGEQQPLEGSTYPGGTPAEVEVVNRVLSRMQKRV 1051
KT+VFFQGISPTHY G++W +NCNGE +PL GS YPGG P +VVNRVLSR++ V
Sbjct: 262 KTKVFFQGISPTHYLGKEWNQPKRNCNGESEPLAGSMYPGGAPPAADVVNRVLSRIKVPV 321
Query: 1052 YLLDITFLSQLRKDAHPSAYSGDHAGVDCSHWCLPGLPDTWNQLLYAALV 1201
YLLDIT LSQLRKDAHP+ Y+G+H+G DCSHWCLPGLPDTWNQL+YAAL+
Sbjct: 322 YLLDITTLSQLRKDAHPAGYNGEHSGTDCSHWCLPGLPDTWNQLMYAALL 371
>emb|CBI30668.3| unnamed protein product [Vitis vinifera]
Length = 377
Score = 517 bits (1332), Expect = e-144
Identities = 230/351 (65%), Positives = 280/351 (79%)
Frame = +2
Query: 152 RNRELITSCNLFQGKWVTDPSYPLYDSAGCPFIDPEFDCIKYGRPDKQFLKFSWKPDSCN 331
R+R+ ++SCNLFQGKWV D SYP YD++ CPFIDPEFDC KYGRPDKQ+LK+SWKPDSC+
Sbjct: 48 RSRKQVSSCNLFQGKWVFDASYPFYDASNCPFIDPEFDCQKYGRPDKQYLKYSWKPDSCD 107
Query: 332 LPRYIHISKSFFQHISNLFLLFIYFRFNGVDFLKRWSGKKIMFVGDSLSLNQWLSLACML 511
LPR F+G+DFL+RW GK+IMFVGDSLSLNQW SL CM+
Sbjct: 108 LPR-----------------------FDGLDFLRRWRGKRIMFVGDSLSLNQWESLVCMI 144
Query: 512 HAAAPNSKYNFDRQDTLSSLTFQDYGVTLLLYRSPYLVDITREKIGRVLKLDSIKQGNAW 691
H +APN+K +F ++D L+++TF Y V++ LYR+PYLVDI RE +GRVLKLDSI+ G+ W
Sbjct: 145 HQSAPNAKASFVKKDGLATVTFDGYAVSVSLYRTPYLVDIVRESVGRVLKLDSIQAGDTW 204
Query: 692 RGMDMLVFNTWHWWTHKGKAQSWDYVQDGSTVSKDMNRLVAFYKGLTTWGRWVDLNVDPT 871
+ MDML+FNTWHWWTHKG +Q WDY+ +G+ + KDM+RL AFYKGL+TW WVDLN+DP+
Sbjct: 205 KQMDMLIFNTWHWWTHKGNSQGWDYMSEGTKLYKDMDRLTAFYKGLSTWASWVDLNIDPS 264
Query: 872 KTRVFFQGISPTHYQGRDWKAASKNCNGEQQPLEGSTYPGGTPAEVEVVNRVLSRMQKRV 1051
KT+VFFQGISPTHY G++W + SKNC GE +PL G TYP G PA +VN+VLS+++K V
Sbjct: 265 KTKVFFQGISPTHYMGKEWNSQSKNCYGELEPLSGPTYPAGAPAAAAIVNQVLSKIRKPV 324
Query: 1052 YLLDITFLSQLRKDAHPSAYSGDHAGVDCSHWCLPGLPDTWNQLLYAALVM 1204
YLLDIT LSQLRKDAHPSAY D G+DCSHWCLPGLPDTWNQLLYAALVM
Sbjct: 325 YLLDITTLSQLRKDAHPSAYGEDRTGMDCSHWCLPGLPDTWNQLLYAALVM 375
>ref|XP_002274664.1| PREDICTED: uncharacterized protein LOC100258410 [Vitis vinifera]
Length = 409
Score = 517 bits (1332), Expect = e-144
Identities = 230/351 (65%), Positives = 280/351 (79%)
Frame = +2
Query: 152 RNRELITSCNLFQGKWVTDPSYPLYDSAGCPFIDPEFDCIKYGRPDKQFLKFSWKPDSCN 331
R+R+ ++SCNLFQGKWV D SYP YD++ CPFIDPEFDC KYGRPDKQ+LK+SWKPDSC+
Sbjct: 80 RSRKQVSSCNLFQGKWVFDASYPFYDASNCPFIDPEFDCQKYGRPDKQYLKYSWKPDSCD 139
Query: 332 LPRYIHISKSFFQHISNLFLLFIYFRFNGVDFLKRWSGKKIMFVGDSLSLNQWLSLACML 511
LPR F+G+DFL+RW GK+IMFVGDSLSLNQW SL CM+
Sbjct: 140 LPR-----------------------FDGLDFLRRWRGKRIMFVGDSLSLNQWESLVCMI 176
Query: 512 HAAAPNSKYNFDRQDTLSSLTFQDYGVTLLLYRSPYLVDITREKIGRVLKLDSIKQGNAW 691
H +APN+K +F ++D L+++TF Y V++ LYR+PYLVDI RE +GRVLKLDSI+ G+ W
Sbjct: 177 HQSAPNAKASFVKKDGLATVTFDGYAVSVSLYRTPYLVDIVRESVGRVLKLDSIQAGDTW 236
Query: 692 RGMDMLVFNTWHWWTHKGKAQSWDYVQDGSTVSKDMNRLVAFYKGLTTWGRWVDLNVDPT 871
+ MDML+FNTWHWWTHKG +Q WDY+ +G+ + KDM+RL AFYKGL+TW WVDLN+DP+
Sbjct: 237 KQMDMLIFNTWHWWTHKGNSQGWDYMSEGTKLYKDMDRLTAFYKGLSTWASWVDLNIDPS 296
Query: 872 KTRVFFQGISPTHYQGRDWKAASKNCNGEQQPLEGSTYPGGTPAEVEVVNRVLSRMQKRV 1051
KT+VFFQGISPTHY G++W + SKNC GE +PL G TYP G PA +VN+VLS+++K V
Sbjct: 297 KTKVFFQGISPTHYMGKEWNSQSKNCYGELEPLSGPTYPAGAPAAAAIVNQVLSKIRKPV 356
Query: 1052 YLLDITFLSQLRKDAHPSAYSGDHAGVDCSHWCLPGLPDTWNQLLYAALVM 1204
YLLDIT LSQLRKDAHPSAY D G+DCSHWCLPGLPDTWNQLLYAALVM
Sbjct: 357 YLLDITTLSQLRKDAHPSAYGEDRTGMDCSHWCLPGLPDTWNQLLYAALVM 407
>ref|XP_002279857.1| PREDICTED: uncharacterized protein LOC100255693 [Vitis vinifera]
Length = 364
Score = 515 bits (1327), Expect = e-143
Identities = 234/368 (63%), Positives = 281/368 (76%), Gaps = 1/368 (0%)
Frame = +2
Query: 101 HPTASELXXXXXXXXXXRNRELITSCNLFQGKWVTDPSYPLYDSAGCPFIDPEFDCIKYG 280
H T E R REL CN F+GKWV D SYPLYDS+ CPFIDPEFDCIKYG
Sbjct: 19 HQTEGENFSNANTTRLSRARELAGRCNFFRGKWVYDSSYPLYDSSSCPFIDPEFDCIKYG 78
Query: 281 RPDKQFLKFSWKPDSCNLPRYIHISKSFFQHISNLFLLFIYFRFNGVDFLKRWSGKKIMF 460
RPDKQ+LK+ W+P SCNLPR FNG+DFL+RW GK+IMF
Sbjct: 79 RPDKQYLKYRWQPLSCNLPR-----------------------FNGLDFLERWRGKRIMF 115
Query: 461 VGDSLSLNQWLSLACMLHAAAPNSKYNFDRQDTLSSLTFQDYGVTLLLYRSPYLVDITRE 640
VGDSLS NQW SL+CM+H++ PN++ + + LSSLTF+DYGV L+LYR+ YLVD+ RE
Sbjct: 116 VGDSLSFNQWQSLSCMIHSSVPNARTSLMKSGPLSSLTFEDYGVKLMLYRTTYLVDLVRE 175
Query: 641 KIGRVLKLDSIKQGNAWRGMDMLVFNTWHWWTHKGKAQSWDYVQDGSTVSKDMNRLVAFY 820
+GRVLKLDSI+ GNAW+GMDML+FNTWHWWTH G+ Q WDYVQ+G+ + KDMNRL+A+Y
Sbjct: 176 NVGRVLKLDSIQSGNAWKGMDMLIFNTWHWWTHTGRTQPWDYVQEGNKLYKDMNRLIAYY 235
Query: 821 KGLTTWGRWVDLNVDPTKTRVFFQGISPTHYQGRDWKAASKNCNGEQQPLEGSTYPGGTP 1000
KGLTTW RWV++NVDP+KT+VFFQGISPTHY+G+DW S++C+GE QP G++YP G P
Sbjct: 236 KGLTTWARWVNINVDPSKTKVFFQGISPTHYEGKDWNQPSRSCDGEMQPYFGASYPAGIP 295
Query: 1001 AEVEVVNRVLSRMQKRVYLLDITFLSQLRKDAHPSAYSGDHAGV-DCSHWCLPGLPDTWN 1177
VVN+VLSR++K VYLLD+T LSQ R DAHPS YSG+H G+ DCSHWCLPGLPDTWN
Sbjct: 296 MAAVVVNKVLSRIKKPVYLLDVTTLSQYRIDAHPSDYSGEHGGITDCSHWCLPGLPDTWN 355
Query: 1178 QLLYAALV 1201
QLLYAALV
Sbjct: 356 QLLYAALV 363
>emb|CAN60202.1| hypothetical protein VITISV_036403 [Vitis vinifera]
Length = 367
Score = 514 bits (1324), Expect = e-143
Identities = 229/351 (65%), Positives = 279/351 (79%)
Frame = +2
Query: 152 RNRELITSCNLFQGKWVTDPSYPLYDSAGCPFIDPEFDCIKYGRPDKQFLKFSWKPDSCN 331
R+R+ ++SCNLFQGKWV D SYP YD++ CPFIDPEFDC KYGRPDKQ+LK+SWKPDSC+
Sbjct: 38 RSRKQVSSCNLFQGKWVFDASYPFYDASNCPFIDPEFDCQKYGRPDKQYLKYSWKPDSCD 97
Query: 332 LPRYIHISKSFFQHISNLFLLFIYFRFNGVDFLKRWSGKKIMFVGDSLSLNQWLSLACML 511
LPR F+G+DFL+RW GK+IMFVGDSLSLNQW SL CM+
Sbjct: 98 LPR-----------------------FDGLDFLRRWRGKRIMFVGDSLSLNQWESLVCMI 134
Query: 512 HAAAPNSKYNFDRQDTLSSLTFQDYGVTLLLYRSPYLVDITREKIGRVLKLDSIKQGNAW 691
H +APN+K +F ++D L+++TF Y V++ LYR+PYLVDI RE +GRVLKLDSI+ G+ W
Sbjct: 135 HQSAPNAKASFVKKDGLATVTFDGYAVSVSLYRTPYLVDIVRESVGRVLKLDSIQAGDTW 194
Query: 692 RGMDMLVFNTWHWWTHKGKAQSWDYVQDGSTVSKDMNRLVAFYKGLTTWGRWVDLNVDPT 871
+ MDML+FNTWHWWTHKG +Q WDY+ +G+ + KDM+RL AFYKGL+TW WVDLN+DP+
Sbjct: 195 KQMDMLIFNTWHWWTHKGNSQGWDYMSEGTKLYKDMDRLTAFYKGLSTWASWVDLNIDPS 254
Query: 872 KTRVFFQGISPTHYQGRDWKAASKNCNGEQQPLEGSTYPGGTPAEVEVVNRVLSRMQKRV 1051
KT+VFFQGISPTHY G++W + SKNC GE +PL G TYP G PA +VN+VLS+++K V
Sbjct: 255 KTKVFFQGISPTHYMGKEWNSQSKNCYGELEPLSGPTYPAGAPAAAAIVNQVLSKIRKPV 314
Query: 1052 YLLDITFLSQLRKDAHPSAYSGDHAGVDCSHWCLPGLPDTWNQLLYAALVM 1204
YLLDIT LSQLRKDAHPSAY D G+DCSHWCLPGLPDTWNQLL AALVM
Sbjct: 315 YLLDITTLSQLRKDAHPSAYGEDRTGMDCSHWCLPGLPDTWNQLLXAALVM 365