BLASTX nr result
ID: Salvia21_contig00005669
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_contig00005669 (355 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_002283226.1| PREDICTED: uncharacterized protein LOC100256... 144 7e-33 emb|CAN73573.1| hypothetical protein VITISV_007446 [Vitis vinifera] 144 7e-33 ref|XP_003624917.1| Two-component response regulator ARR1 [Medic... 144 1e-32 ref|XP_003521111.1| PREDICTED: uncharacterized protein LOC100815... 143 2e-32 ref|XP_004136626.1| PREDICTED: uncharacterized protein LOC101216... 138 5e-31 >ref|XP_002283226.1| PREDICTED: uncharacterized protein LOC100256764 isoform 1 [Vitis vinifera] gi|359481436|ref|XP_003632618.1| PREDICTED: uncharacterized protein LOC100256764 isoform 2 [Vitis vinifera] Length = 306 Score = 144 bits (363), Expect = 7e-33 Identities = 77/103 (74%), Positives = 78/103 (75%), Gaps = 11/103 (10%) Frame = +2 Query: 2 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQSI----------- 148 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQ + Sbjct: 105 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQGLSAGGGGGGGGG 164 Query: 149 XXXXXXXXXXXDPATDHLFASSPVPPHFLHPVGRAGSEHFLPF 277 DPATDHLFASSPVPPHFLHP GRA SEHFLPF Sbjct: 165 GAGGGAGLAAADPATDHLFASSPVPPHFLHP-GRASSEHFLPF 206 >emb|CAN73573.1| hypothetical protein VITISV_007446 [Vitis vinifera] Length = 306 Score = 144 bits (363), Expect = 7e-33 Identities = 77/103 (74%), Positives = 78/103 (75%), Gaps = 11/103 (10%) Frame = +2 Query: 2 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQSI----------- 148 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQ + Sbjct: 105 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQGLSAGGGGGGGGG 164 Query: 149 XXXXXXXXXXXDPATDHLFASSPVPPHFLHPVGRAGSEHFLPF 277 DPATDHLFASSPVPPHFLHP GRA SEHFLPF Sbjct: 165 GAGGGAGLAAADPATDHLFASSPVPPHFLHP-GRASSEHFLPF 206 >ref|XP_003624917.1| Two-component response regulator ARR1 [Medicago truncatula] gi|124361203|gb|ABN09175.1| Homeodomain-related [Medicago truncatula] gi|355499932|gb|AES81135.1| Two-component response regulator ARR1 [Medicago truncatula] Length = 299 Score = 144 bits (362), Expect = 1e-32 Identities = 74/98 (75%), Positives = 76/98 (77%), Gaps = 6/98 (6%) Frame = +2 Query: 2 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQSI------XXXXX 163 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQ I Sbjct: 104 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQGISSGGGGGASGG 163 Query: 164 XXXXXXDPATDHLFASSPVPPHFLHPVGRAGSEHFLPF 277 D ATDHLFASSPVPPHFLHPV R S+HF+PF Sbjct: 164 GSASVNDAATDHLFASSPVPPHFLHPVARPNSDHFMPF 201 >ref|XP_003521111.1| PREDICTED: uncharacterized protein LOC100815363 [Glycine max] Length = 312 Score = 143 bits (360), Expect = 2e-32 Identities = 74/98 (75%), Positives = 75/98 (76%), Gaps = 6/98 (6%) Frame = +2 Query: 2 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQSI------XXXXX 163 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQ I Sbjct: 124 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQGISAAGPGGPGGG 183 Query: 164 XXXXXXDPATDHLFASSPVPPHFLHPVGRAGSEHFLPF 277 DPATDHLFASSPVP HFLHP R S+HFLPF Sbjct: 184 ASGAVADPATDHLFASSPVPAHFLHPAARPNSDHFLPF 221 >ref|XP_004136626.1| PREDICTED: uncharacterized protein LOC101216059 [Cucumis sativus] gi|449533272|ref|XP_004173600.1| PREDICTED: uncharacterized LOC101216059 [Cucumis sativus] Length = 286 Score = 138 bits (347), Expect = 5e-31 Identities = 74/100 (74%), Positives = 75/100 (75%), Gaps = 8/100 (8%) Frame = +2 Query: 2 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQSI--------XXX 157 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQ I Sbjct: 102 FVDAVAHLGIKNAVPKTIMQLMSVDGLTRENVASHLQKYRLYLKRMQGISGGSGGGANGG 161 Query: 158 XXXXXXXXDPATDHLFASSPVPPHFLHPVGRAGSEHFLPF 277 DPATDHLFASSPVPPHFLH R S+HFLPF Sbjct: 162 AGLVSTASDPATDHLFASSPVPPHFLHS-ARGNSDHFLPF 200