BLASTX nr result
ID: Glycyrrhiza24_contig00026743
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= Glycyrrhiza24_contig00026743
(449 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
ref|NP_001237148.1| uncharacterized protein LOC100527259 [Glycin... 174 5e-42
ref|NP_001234998.1| uncharacterized protein LOC100306179 [Glycin... 174 7e-42
gb|AFK34168.1| unknown [Medicago truncatula] 172 3e-41
ref|XP_003638360.1| Cytochrome b reductase [Medicago truncatula]... 172 3e-41
ref|XP_002267852.1| PREDICTED: transmembrane ascorbate ferriredu... 168 5e-40
>ref|NP_001237148.1| uncharacterized protein LOC100527259 [Glycine max]
gi|255631900|gb|ACU16317.1| unknown [Glycine max]
Length = 231
Score = 174 bits (442), Expect = 5e-42
Identities = 83/102 (81%), Positives = 94/102 (92%)
Frame = -2
Query: 448 LHSWLGIGVIVLYGIQWIFGFVMFFFPGGTSALRGQSLPWHVLFGLIVYILAVGTASLGF 269
LHSWLGIGVIVLYGIQWI+GFV+FFFPGGT +R SLPWH LFGL V++LAVGTA+LGF
Sbjct: 116 LHSWLGIGVIVLYGIQWIYGFVIFFFPGGTPDIRRASLPWHALFGLFVFVLAVGTAALGF 175
Query: 268 LEKLTFLQVSGLPKYGSEALLVNFTAIVTILYGAFVVLSAIS 143
LEKLTFL+ SGL KYGSEALLVNFTAI+TIL+GAFVVLSA++
Sbjct: 176 LEKLTFLENSGLDKYGSEALLVNFTAIITILFGAFVVLSALA 217
>ref|NP_001234998.1| uncharacterized protein LOC100306179 [Glycine max]
gi|255627789|gb|ACU14239.1| unknown [Glycine max]
Length = 231
Score = 174 bits (441), Expect = 7e-42
Identities = 82/102 (80%), Positives = 94/102 (92%)
Frame = -2
Query: 448 LHSWLGIGVIVLYGIQWIFGFVMFFFPGGTSALRGQSLPWHVLFGLIVYILAVGTASLGF 269
LHSWLGIGVIVLYGIQWI+GFV+FFFPGGT +R SLPWH LFGL V++LAVGTA+LGF
Sbjct: 116 LHSWLGIGVIVLYGIQWIYGFVIFFFPGGTPDIRRASLPWHALFGLFVFVLAVGTAALGF 175
Query: 268 LEKLTFLQVSGLPKYGSEALLVNFTAIVTILYGAFVVLSAIS 143
LEKLTFL+ SGL KYGSEALLVNFTAI+T+L+GAFVVLSA++
Sbjct: 176 LEKLTFLENSGLDKYGSEALLVNFTAIITVLFGAFVVLSALA 217
>gb|AFK34168.1| unknown [Medicago truncatula]
Length = 229
Score = 172 bits (436), Expect = 3e-41
Identities = 82/103 (79%), Positives = 94/103 (91%)
Frame = -2
Query: 448 LHSWLGIGVIVLYGIQWIFGFVMFFFPGGTSALRGQSLPWHVLFGLIVYILAVGTASLGF 269
LHSWLGIGVI LYGIQWIFGFV+FF+PGG+S LR +S+PWHVLFGL VYILA+ T+SLGF
Sbjct: 116 LHSWLGIGVISLYGIQWIFGFVVFFYPGGSSELRRESVPWHVLFGLFVYILALATSSLGF 175
Query: 268 LEKLTFLQVSGLPKYGSEALLVNFTAIVTILYGAFVVLSAISQ 140
LEKLTFL+ SG+ KYG+EALLVNF AI+TIL+G FVVLSAISQ
Sbjct: 176 LEKLTFLESSGVAKYGAEALLVNFNAIITILFGTFVVLSAISQ 218
>ref|XP_003638360.1| Cytochrome b reductase [Medicago truncatula]
gi|217072376|gb|ACJ84548.1| unknown [Medicago
truncatula] gi|355504295|gb|AES85498.1| Cytochrome b
reductase [Medicago truncatula]
Length = 229
Score = 172 bits (436), Expect = 3e-41
Identities = 82/103 (79%), Positives = 94/103 (91%)
Frame = -2
Query: 448 LHSWLGIGVIVLYGIQWIFGFVMFFFPGGTSALRGQSLPWHVLFGLIVYILAVGTASLGF 269
LHSWLGIGVI LYGIQWIFGFV+FF+PGG+S LR +S+PWHVLFGL VYILA+ T+SLGF
Sbjct: 116 LHSWLGIGVISLYGIQWIFGFVVFFYPGGSSELRRESVPWHVLFGLFVYILALATSSLGF 175
Query: 268 LEKLTFLQVSGLPKYGSEALLVNFTAIVTILYGAFVVLSAISQ 140
LEKLTFL+ SG+ KYG+EALLVNF AI+TIL+G FVVLSAISQ
Sbjct: 176 LEKLTFLESSGVAKYGAEALLVNFNAIITILFGTFVVLSAISQ 218
>ref|XP_002267852.1| PREDICTED: transmembrane ascorbate ferrireductase 1 [Vitis
vinifera] gi|147840876|emb|CAN73186.1| hypothetical
protein VITISV_041528 [Vitis vinifera]
gi|302143891|emb|CBI22752.3| unnamed protein product
[Vitis vinifera]
Length = 230
Score = 168 bits (425), Expect = 5e-40
Identities = 79/103 (76%), Positives = 91/103 (88%)
Frame = -2
Query: 448 LHSWLGIGVIVLYGIQWIFGFVMFFFPGGTSALRGQSLPWHVLFGLIVYILAVGTASLGF 269
LHSWLGI +I LYGIQWI+GF++FF+PGGT LR SLPWHVLFGL+VY+L VG A LGF
Sbjct: 116 LHSWLGIVLISLYGIQWIYGFLVFFYPGGTLGLRSASLPWHVLFGLLVYVLVVGNAELGF 175
Query: 268 LEKLTFLQVSGLPKYGSEALLVNFTAIVTILYGAFVVLSAISQ 140
LEKLTFL+ SGL KYG+EALLVNFTAIVTILYG FVV++A+SQ
Sbjct: 176 LEKLTFLESSGLAKYGAEALLVNFTAIVTILYGVFVVMTALSQ 218