BLASTX nr result
ID: Cephaelis21_contig00029341
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= Cephaelis21_contig00029341
(674 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
emb|CAN62447.1| hypothetical protein VITISV_024007 [Vitis vinifera] 284 1e-74
emb|CAN62863.1| hypothetical protein VITISV_030334 [Vitis vinifera] 280 2e-73
emb|CAN66863.1| hypothetical protein VITISV_013500 [Vitis vinifera] 276 3e-72
emb|CAN70817.1| hypothetical protein VITISV_029336 [Vitis vinifera] 275 6e-72
emb|CAN61230.1| hypothetical protein VITISV_010115 [Vitis vinifera] 272 4e-71
>emb|CAN62447.1| hypothetical protein VITISV_024007 [Vitis vinifera]
Length = 1144
Score = 284 bits (727), Expect = 1e-74
Identities = 130/223 (58%), Positives = 180/223 (80%)
Frame = +1
Query: 1 CKLRKALYGLKQAPRAWYTELQNFLLAFGFRKSLADASLFIYAHHGVLAYFLVYVDDIIL 180
C+LRKA+YGLKQAPRAWY+ L+ LLA GF+ S D+SLF+Y H ++ YFLVYVDD+++
Sbjct: 821 CRLRKAIYGLKQAPRAWYSALKTALLALGFQNSKVDSSLFVYRHDSIVCYFLVYVDDLVI 880
Query: 181 TGSHSEFLNRFVHQLANRFSIKDLGPLSHFLGVEVIPTSSGLFLSQHRHIANLLEQFHMA 360
TG+ +F+ V +L ++FS+KD+G L +FLGVEVIPT++G+FLSQH+++ ++LE HMA
Sbjct: 881 TGNDKKFVAHVVTKLGDQFSLKDMGSLHYFLGVEVIPTTAGVFLSQHKYVRDILENTHMA 940
Query: 361 GAKEVATPLSSSEKLSLVDGSSPVDATAYRRLVGSLQYLAITRPDVSFAVNKLSQFMHAP 540
GAK+V+TPLS+++ L LVDG++ V++T YRR++GSLQYL++TRPD+ FAVNKLSQFMH P
Sbjct: 941 GAKDVSTPLSTTQSLHLVDGTNAVNSTEYRRVIGSLQYLSLTRPDIXFAVNKLSQFMHKP 1000
Query: 541 TQRHLQAIKRVLRYLKGSIHHGLFLKRDSSLALTAFSDSDWGG 669
T H A KR+LRYLK +I HGL LK ++ LT ++D+DW G
Sbjct: 1001 TVTHWTATKRLLRYLKKTIFHGLHLKSAAAPCLTTYTDADWAG 1043
>emb|CAN62863.1| hypothetical protein VITISV_030334 [Vitis vinifera]
Length = 1442
Score = 280 bits (715), Expect = 2e-73
Identities = 131/223 (58%), Positives = 175/223 (78%)
Frame = +1
Query: 1 CKLRKALYGLKQAPRAWYTELQNFLLAFGFRKSLADASLFIYAHHGVLAYFLVYVDDIIL 180
C+LRKA+YGL+QAPRAWYT L+ L GF+ S AD+SLFIY H ++ YFLVYVDD+++
Sbjct: 1006 CRLRKAIYGLRQAPRAWYTTLRTALFQLGFKNSKADSSLFIYTHGPIICYFLVYVDDLVI 1065
Query: 181 TGSHSEFLNRFVHQLANRFSIKDLGPLSHFLGVEVIPTSSGLFLSQHRHIANLLEQFHMA 360
TG+ +F++ + +L FS+KD+G S FLGVEVIPT +GLFLSQH++I +LL +M
Sbjct: 1066 TGNDIQFVDHIIQKLGENFSLKDMGNHSFFLGVEVIPTRAGLFLSQHQYIRDLLSTTNML 1125
Query: 361 GAKEVATPLSSSEKLSLVDGSSPVDATAYRRLVGSLQYLAITRPDVSFAVNKLSQFMHAP 540
GAK+V+TPLS++ L L DG++PVD+T +RR++GSLQYL++TRPD+SFAVNKLSQFMH P
Sbjct: 1126 GAKDVSTPLSTTASLKLFDGTAPVDSTDFRRVIGSLQYLSLTRPDISFAVNKLSQFMHKP 1185
Query: 541 TQRHLQAIKRVLRYLKGSIHHGLFLKRDSSLALTAFSDSDWGG 669
T H A KR+LRYLK +I HG+ L R+++ LT FSD+DW G
Sbjct: 1186 TTAHWTATKRLLRYLKQTIFHGIQLTRNTTSVLTTFSDADWVG 1228
>emb|CAN66863.1| hypothetical protein VITISV_013500 [Vitis vinifera]
Length = 1112
Score = 276 bits (705), Expect = 3e-72
Identities = 133/223 (59%), Positives = 171/223 (76%)
Frame = +1
Query: 1 CKLRKALYGLKQAPRAWYTELQNFLLAFGFRKSLADASLFIYAHHGVLAYFLVYVDDIIL 180
CKLRKA+YGLKQAPRAWY EL+ FLL FGF S+ D SLFI+ +HG + Y LV+VDDII+
Sbjct: 758 CKLRKAIYGLKQAPRAWYHELRQFLLQFGFINSIVDTSLFIFNNHGTILYLLVHVDDIII 817
Query: 181 TGSHSEFLNRFVHQLANRFSIKDLGPLSHFLGVEVIPTSSGLFLSQHRHIANLLEQFHMA 360
TG++ E F+ QL+ RFS+KDLGPL++FLGVEV ++GLFLSQH++IA+LL + HM
Sbjct: 818 TGNNVEAAQTFIQQLSQRFSLKDLGPLTYFLGVEVTSHTNGLFLSQHKYIADLLNRTHMT 877
Query: 361 GAKEVATPLSSSEKLSLVDGSSPVDATAYRRLVGSLQYLAITRPDVSFAVNKLSQFMHAP 540
AK TPL++S L+L G+ + T YR +VGSLQYL++TRPD+++ VNKLSQFMH P
Sbjct: 878 EAKPAPTPLATSPILTLQSGTPLSNPTEYRTMVGSLQYLSLTRPDIAYTVNKLSQFMHQP 937
Query: 541 TQRHLQAIKRVLRYLKGSIHHGLFLKRDSSLALTAFSDSDWGG 669
T H A+KR+LRYL G++ HG+ L+R S LAL FSDSDW G
Sbjct: 938 TSDHWNAVKRLLRYLCGTLDHGITLRRTSPLALHVFSDSDWAG 980
>emb|CAN70817.1| hypothetical protein VITISV_029336 [Vitis vinifera]
Length = 1044
Score = 275 bits (703), Expect = 6e-72
Identities = 127/223 (56%), Positives = 176/223 (78%)
Frame = +1
Query: 1 CKLRKALYGLKQAPRAWYTELQNFLLAFGFRKSLADASLFIYAHHGVLAYFLVYVDDIIL 180
C+LRKA+YGLKQ PRAWY+ L+ LLA GF+ S AD+SLF+Y H ++ YFLVYVDD+++
Sbjct: 662 CRLRKAIYGLKQGPRAWYSALKTALLALGFQNSKADSSLFVYHHDSIVCYFLVYVDDLVI 721
Query: 181 TGSHSEFLNRFVHQLANRFSIKDLGPLSHFLGVEVIPTSSGLFLSQHRHIANLLEQFHMA 360
TG+ +F+ V +L ++FS+KD+G L +FLGVEVIPT++ +FLSQH++ ++LE HMA
Sbjct: 722 TGNDKKFVAHVVTKLGDQFSLKDMGSLHYFLGVEVIPTTAVVFLSQHKYARDILENTHMA 781
Query: 361 GAKEVATPLSSSEKLSLVDGSSPVDATAYRRLVGSLQYLAITRPDVSFAVNKLSQFMHAP 540
GAK+V+TPLS+++ L LVDG + ++ T YRR++G+LQYL++TRPD+SFAVNKLSQFMH P
Sbjct: 782 GAKDVSTPLSTTQSLHLVDGMNAINNTEYRRVIGNLQYLSLTRPDISFAVNKLSQFMHKP 841
Query: 541 TQRHLQAIKRVLRYLKGSIHHGLFLKRDSSLALTAFSDSDWGG 669
H A KR+LRYLK +I HGL LK ++ LT ++D+DW G
Sbjct: 842 IVTHWTATKRLLRYLKKTIFHGLHLKSAAAPCLTTYTDADWAG 884
>emb|CAN61230.1| hypothetical protein VITISV_010115 [Vitis vinifera]
Length = 478
Score = 272 bits (696), Expect = 4e-71
Identities = 134/223 (60%), Positives = 169/223 (75%)
Frame = +1
Query: 1 CKLRKALYGLKQAPRAWYTELQNFLLAFGFRKSLADASLFIYAHHGVLAYFLVYVDDIIL 180
CKLRKA+YGLKQAPRAWY EL FLL FGF S+AD SLFI+ +H + Y LVYVDDII+
Sbjct: 98 CKLRKAIYGLKQAPRAWYHELCQFLLQFGFINSIADTSLFIFNNHDTILYLLVYVDDIII 157
Query: 181 TGSHSEFLNRFVHQLANRFSIKDLGPLSHFLGVEVIPTSSGLFLSQHRHIANLLEQFHMA 360
TG++ E F+ QL+ RFS+KDLGPL++FLGVEV ++GLFLSQ ++IA+LL + HM
Sbjct: 158 TGNNVEAAQTFIQQLSQRFSLKDLGPLTYFLGVEVTSHTNGLFLSQRKYIADLLNRTHMT 217
Query: 361 GAKEVATPLSSSEKLSLVDGSSPVDATAYRRLVGSLQYLAITRPDVSFAVNKLSQFMHAP 540
AK TPL++S L+L G+ D T YR +VGSLQYL++TRPD+++ VNKLSQFMH P
Sbjct: 218 EAKPAPTPLATSPILTLQSGTPLSDPTEYRTVVGSLQYLSLTRPDIAYTVNKLSQFMHQP 277
Query: 541 TQRHLQAIKRVLRYLKGSIHHGLFLKRDSSLALTAFSDSDWGG 669
T H A+KR+LRYL G++ H + L+R S LAL AFSDSDW G
Sbjct: 278 TSDHWNAVKRLLRYLCGTLDHDITLRRTSPLALHAFSDSDWAG 320