BLASTX nr result
ID: Salvia21_contig00033437
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_contig00033437 (384 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_003634725.1| PREDICTED: uncharacterized protein LOC100264... 95 5e-18 emb|CBI26624.3| unnamed protein product [Vitis vinifera] 95 5e-18 emb|CAN83957.1| hypothetical protein VITISV_039906 [Vitis vinifera] 94 9e-18 ref|XP_002869583.1| hypothetical protein ARALYDRAFT_354097 [Arab... 79 5e-13 ref|XP_002533083.1| conserved hypothetical protein [Ricinus comm... 78 9e-13 >ref|XP_003634725.1| PREDICTED: uncharacterized protein LOC100264016 [Vitis vinifera] Length = 2563 Score = 95.1 bits (235), Expect = 5e-18 Identities = 48/117 (41%), Positives = 81/117 (69%) Frame = -2 Query: 353 EWRPLKTLLRFARDILHRQCYGIYSNVKDIKRSDNSFVKTLADIREVLKSEYHSGLVGLS 174 EWRPLK LL F++DI H++ Y I+S + + +D+SF TLA+++ +++S + SGL G++ Sbjct: 842 EWRPLKNLLLFSQDISHQRHYCIFSIDEKARHTDSSFNDTLAEVQRIVRSGHDSGLTGIA 901 Query: 173 VGFSFSLMCTRRNELLQNFQIVLSISSNLSEVPFSVLSSILFLEPSYLDDVIELCPE 3 FS S++ T +++L+NF V+++S +L VPF++LSSI F + S L +L P+ Sbjct: 902 KMFSSSIVGTTPDDILKNFPSVITVSQDLQGVPFALLSSISFHDRSLLARASKLWPD 958 >emb|CBI26624.3| unnamed protein product [Vitis vinifera] Length = 2565 Score = 95.1 bits (235), Expect = 5e-18 Identities = 48/117 (41%), Positives = 81/117 (69%) Frame = -2 Query: 353 EWRPLKTLLRFARDILHRQCYGIYSNVKDIKRSDNSFVKTLADIREVLKSEYHSGLVGLS 174 EWRPLK LL F++DI H++ Y I+S + + +D+SF TLA+++ +++S + SGL G++ Sbjct: 827 EWRPLKNLLLFSQDISHQRHYCIFSIDEKARHTDSSFNDTLAEVQRIVRSGHDSGLTGIA 886 Query: 173 VGFSFSLMCTRRNELLQNFQIVLSISSNLSEVPFSVLSSILFLEPSYLDDVIELCPE 3 FS S++ T +++L+NF V+++S +L VPF++LSSI F + S L +L P+ Sbjct: 887 KMFSSSIVGTTPDDILKNFPSVITVSQDLQGVPFALLSSISFHDRSLLARASKLWPD 943 >emb|CAN83957.1| hypothetical protein VITISV_039906 [Vitis vinifera] Length = 2715 Score = 94.4 bits (233), Expect = 9e-18 Identities = 48/117 (41%), Positives = 80/117 (68%) Frame = -2 Query: 353 EWRPLKTLLRFARDILHRQCYGIYSNVKDIKRSDNSFVKTLADIREVLKSEYHSGLVGLS 174 EWRPLK LL F++DI H + Y I+S + + +D+SF TLA+++ +++S + SGL G++ Sbjct: 887 EWRPLKNLLLFSQDISHXRHYCIFSIDEKARHTDSSFNDTLAEVQRIVRSGHDSGLTGIA 946 Query: 173 VGFSFSLMCTRRNELLQNFQIVLSISSNLSEVPFSVLSSILFLEPSYLDDVIELCPE 3 FS S++ T +++L+NF V+++S +L VPF++LSSI F + S L +L P+ Sbjct: 947 KMFSSSIVGTTPDDILKNFPSVITVSQDLQGVPFALLSSISFHDRSLLARASKLWPD 1003 >ref|XP_002869583.1| hypothetical protein ARALYDRAFT_354097 [Arabidopsis lyrata subsp. lyrata] gi|297315419|gb|EFH45842.1| hypothetical protein ARALYDRAFT_354097 [Arabidopsis lyrata subsp. lyrata] Length = 2550 Score = 78.6 bits (192), Expect = 5e-13 Identities = 40/118 (33%), Positives = 70/118 (59%) Frame = -2 Query: 356 CEWRPLKTLLRFARDILHRQCYGIYSNVKDIKRSDNSFVKTLADIREVLKSEYHSGLVGL 177 CEWRPL+ LLRF++ + + + ++S +D++F +TL +I+ +++S + G+ Sbjct: 855 CEWRPLRRLLRFSQSLSNEKPIILHSRRTTGLPTDSTFTETLDEIKRLVRSISPDEIAGI 914 Query: 176 SVGFSFSLMCTRRNELLQNFQIVLSISSNLSEVPFSVLSSILFLEPSYLDDVIELCPE 3 FS +L+C +LQNF V+ +S PFS L SI FLE ++L ++ +L P+ Sbjct: 915 VKAFSSALICATPESILQNFAPVMDVSWAFYGTPFSFLQSITFLEENFLGNLSKLSPD 972 >ref|XP_002533083.1| conserved hypothetical protein [Ricinus communis] gi|223527122|gb|EEF29298.1| conserved hypothetical protein [Ricinus communis] Length = 2587 Score = 77.8 bits (190), Expect = 9e-13 Identities = 46/120 (38%), Positives = 73/120 (60%), Gaps = 2/120 (1%) Frame = -2 Query: 356 CEWRPLKTLLRFARDILHRQ-CYGIYSNVKDIKRSDNSFVKTLADIREVLKSEYHSG-LV 183 CEW+PLK LL A +L+++ C ++ KD+ D SF K L +IR+++KSE G + Sbjct: 884 CEWQPLKNLLLMAESLLNQKTCCLFLTDQKDLP-IDISFTKALGEIRKIIKSENDGGEIA 942 Query: 182 GLSVGFSFSLMCTRRNELLQNFQIVLSISSNLSEVPFSVLSSILFLEPSYLDDVIELCPE 3 G++ F +++CT + +L+NF V++IS + VP S LSSI+F S L +L P+ Sbjct: 943 GITKAFCSAIICTTSDVVLKNFPAVMTISQQI-RVPLSCLSSIVFQHQSSLSGASKLWPQ 1001