BLASTX nr result
ID: Coptis23_contig00034318
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= Coptis23_contig00034318
(540 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_003632993.1| PREDICTED: LOW QUALITY PROTEIN: phospholipas... 168 4e-40
emb|CBI30961.3| unnamed protein product [Vitis vinifera] 167 1e-39
ref|XP_003532708.1| PREDICTED: phospholipase A1-Igamma1, chlorop... 166 3e-39
ref|XP_002272780.2| PREDICTED: phospholipase A1-Igamma1, chlorop... 147 1e-33
emb|CBI30960.3| unnamed protein product [Vitis vinifera] 147 1e-33
>ref|XP_003632993.1| PREDICTED: LOW QUALITY PROTEIN: phospholipase A1-Igamma1,
chloroplastic-like [Vitis vinifera]
Length = 571
Score = 168 bits (426), Expect = 4e-40
Identities = 80/133 (60%), Positives = 99/133 (74%)
Frame = -2
Query: 401 EMQNRAVRLAQSLTNFVQLHIETPQAKPLEYTTWNMLPIHKANEATPISSPKEEISTKWR 222
+ Q+ + RL+QSL+N ++LH++TP + +T L K +TP SPKE+IS KW
Sbjct: 99 KQQSASSRLSQSLSNLLRLHVDTPPRTDFQSSTGISLIDEK--HSTPTCSPKEDISNKWS 156
Query: 221 EIHGVTDFDTLLDPLHPWLRREIIKYGEFAQATYDAFDFDSFSEYCGSCRFNRHSFFDKV 42
EIHG D+D LLDPL PWLRREI+KYGEFAQATYDAFDFDSFSEYCGSCR+N+H F ++
Sbjct: 157 EIHGSCDWDNLLDPLQPWLRREIVKYGEFAQATYDAFDFDSFSEYCGSCRYNQHKLFKEL 216
Query: 41 GLGNTGYNVSKYI 3
GL GY VSKYI
Sbjct: 217 GLEKNGYMVSKYI 229
>emb|CBI30961.3| unnamed protein product [Vitis vinifera]
Length = 211
Score = 167 bits (422), Expect = 1e-39
Identities = 79/133 (59%), Positives = 98/133 (73%)
Frame = -2
Query: 401 EMQNRAVRLAQSLTNFVQLHIETPQAKPLEYTTWNMLPIHKANEATPISSPKEEISTKWR 222
+ Q+ + RL+QS +N ++LH++TP + +T L K +TP SPKE+IS KW
Sbjct: 38 KQQSASSRLSQSFSNLLRLHVDTPPRTDFQSSTGISLIDEK--HSTPTCSPKEDISNKWS 95
Query: 221 EIHGVTDFDTLLDPLHPWLRREIIKYGEFAQATYDAFDFDSFSEYCGSCRFNRHSFFDKV 42
EIHG D+D LLDPL PWLRREI+KYGEFAQATYDAFDFDSFSEYCGSCR+N+H F ++
Sbjct: 96 EIHGSCDWDNLLDPLQPWLRREIVKYGEFAQATYDAFDFDSFSEYCGSCRYNQHKLFKEL 155
Query: 41 GLGNTGYNVSKYI 3
GL GY VSKYI
Sbjct: 156 GLEKNGYMVSKYI 168
>ref|XP_003532708.1| PREDICTED: phospholipase A1-Igamma1, chloroplastic-like [Glycine
max]
Length = 497
Score = 166 bits (419), Expect = 3e-39
Identities = 76/150 (50%), Positives = 108/150 (72%), Gaps = 1/150 (0%)
Frame = -2
Query: 449 SLIHAQHNFSVQQH-QHEMQNRAVRLAQSLTNFVQLHIETPQAKPLEYTTWNMLPIHKAN 273
+++ AQH+ + H + + NRA RLA+SL++ + LHI+ P + ++L +H+
Sbjct: 23 NMVRAQHHHVLLDHPKTKTPNRATRLAESLSHVLHLHID-----PTSHKNLDLLSVHEEK 77
Query: 272 EATPISSPKEEISTKWREIHGVTDFDTLLDPLHPWLRREIIKYGEFAQATYDAFDFDSFS 93
+TP SP+E IS KWREI G +++ +LDPL PWLRREI+KYGEFAQATYDAFD+DSFS
Sbjct: 78 HSTPTMSPRENISQKWREIQGYHNWEDILDPLQPWLRREIVKYGEFAQATYDAFDYDSFS 137
Query: 92 EYCGSCRFNRHSFFDKVGLGNTGYNVSKYI 3
EYCGSCR+N++ F+K+GL Y V++YI
Sbjct: 138 EYCGSCRYNQNKLFEKLGLTRNSYTVTRYI 167
>ref|XP_002272780.2| PREDICTED: phospholipase A1-Igamma1, chloroplastic-like [Vitis
vinifera]
Length = 524
Score = 147 bits (370), Expect = 1e-33
Identities = 63/95 (66%), Positives = 78/95 (82%)
Frame = -2
Query: 287 IHKANEATPISSPKEEISTKWREIHGVTDFDTLLDPLHPWLRREIIKYGEFAQATYDAFD 108
I + N TP SP+E IS KWREIHG ++++LLDPLHPWLRREI+KYGEF+QATYDAFD
Sbjct: 101 IDRGNHMTPTRSPREHISAKWREIHGQFNWESLLDPLHPWLRREIVKYGEFSQATYDAFD 160
Query: 107 FDSFSEYCGSCRFNRHSFFDKVGLGNTGYNVSKYI 3
+DSFS++CGSCR+NRH FD++ L GY V+KYI
Sbjct: 161 YDSFSDFCGSCRYNRHKLFDELHLTKHGYKVTKYI 195
>emb|CBI30960.3| unnamed protein product [Vitis vinifera]
Length = 234
Score = 147 bits (370), Expect = 1e-33
Identities = 63/95 (66%), Positives = 78/95 (82%)
Frame = -2
Query: 287 IHKANEATPISSPKEEISTKWREIHGVTDFDTLLDPLHPWLRREIIKYGEFAQATYDAFD 108
I + N TP SP+E IS KWREIHG ++++LLDPLHPWLRREI+KYGEF+QATYDAFD
Sbjct: 101 IDRGNHMTPTRSPREHISAKWREIHGQFNWESLLDPLHPWLRREIVKYGEFSQATYDAFD 160
Query: 107 FDSFSEYCGSCRFNRHSFFDKVGLGNTGYNVSKYI 3
+DSFS++CGSCR+NRH FD++ L GY V+KYI
Sbjct: 161 YDSFSDFCGSCRYNRHKLFDELHLTKHGYKVTKYI 195