BLASTX nr result
ID: Cnidium21_contig00038293
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= Cnidium21_contig00038293
(898 letters)
Database: ./nr
23,641,837 sequences; 8,123,359,852 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
gb|AAY99339.1| pol-polyprotein [Silene latifolia] 199 9e-49
emb|CAN70566.1| hypothetical protein VITISV_010970 [Vitis vinifera] 195 1e-47
emb|CAN76248.1| hypothetical protein VITISV_015055 [Vitis vinifera] 195 1e-47
emb|CAN78580.1| hypothetical protein VITISV_013552 [Vitis vinifera] 194 2e-47
emb|CAN70585.1| hypothetical protein VITISV_013305 [Vitis vinifera] 194 2e-47
>gb|AAY99339.1| pol-polyprotein [Silene latifolia]
Length = 1307
Score = 199 bits (505), Expect = 9e-49
Identities = 99/230 (43%), Positives = 149/230 (64%), Gaps = 2/230 (0%)
Frame = -3
Query: 848 IIMRFGLPLVLVSDNGPQFVGSDFESFLRE-GIKHKKSSVAYPQGNGQVEVTNRILLRGI 672
II RFGLP V+V D+G +F ++L E GIK SSV +PQ NGQ E N+ +L G+
Sbjct: 1077 IITRFGLPQVMVFDHGREFWSDMVMNWLEELGIKFAYSSVCHPQSNGQAEAANKTILNGL 1136
Query: 671 EKRLEECKKKWPEELPHVFWAYRTSPRTSTGETPFKMAYGTEVVLPIEVGSPSHRTIHFE 492
+K++E+ K +W +ELP V W+ RT+ + +TG +PF + YG+E VLPIE P+ RT F
Sbjct: 1137 KKKVEDLKGRWADELPGVLWSLRTTEKEATGYSPFHLVYGSEAVLPIEAVVPTFRTATFN 1196
Query: 491 EISNEEGIRTNLELIDEVRDQAVHRMERYKEKTRAYFGQKARVKNFGVGDLVLRDTEASD 312
+ NEEG++ +L+L++E RD A + Y+ + R + + ++ VGDLVLR + A++
Sbjct: 1197 PVENEEGLKASLDLVEESRDTARLNLAVYQNRMRRAYNHRVHKRDLRVGDLVLRKSTATN 1256
Query: 311 PTNT-GKLQPN*EGPYKIQEVVRPGTYKLANMDGTEVPSTWHGLRLRKFY 165
N GK+ N EGPYK+ E +RPGTY+L +M+G + S W+ LRK++
Sbjct: 1257 KGNIHGKMTTNWEGPYKVVEEMRPGTYRLTDMEGVPLMSHWNTDNLRKYF 1306
>emb|CAN70566.1| hypothetical protein VITISV_010970 [Vitis vinifera]
Length = 1027
Score = 195 bits (495), Expect = 1e-47
Identities = 100/241 (41%), Positives = 144/241 (59%), Gaps = 3/241 (1%)
Frame = -3
Query: 875 QDCIKFM-DAIIMRFGLPLVLVSDNGPQFVGSDFESFLRE-GIKHKKSSVAYPQGNGQVE 702
+D KF+ I+ RFG+P ++++DNGPQF F +F E I++ S+ YPQ NGQ E
Sbjct: 787 KDVTKFVWKNIVCRFGIPQIIIADNGPQFDSIAFRNFCSELNIRNSYSTXRYPQSNGQAE 846
Query: 701 VTNRILLRGIEKRLEECKKKWPEELPHVFWAYRTSPRTSTGETPFKMAYGTEVVLPIEVG 522
TN+ L+ ++KRLE+ K KW EELP V WAYRT+P TG TPF + YG + V+P E+G
Sbjct: 847 ATNKTLINALKKRLEQAKGKWVEELPGVLWAYRTTPGRPTGNTPFALTYGMDAVIPTEIG 906
Query: 521 SPSHRTIHFEEISNEEGIRTNLELIDEVRDQAVHRMERYKEKTRAYFGQKARVKNFGVGD 342
P+ RT ++ + NL+ DEVR+ A RM Y+++ A++ +K R +NF G
Sbjct: 907 LPTTRTDAAKQEDANTELGRNLDWADEVRESAAIRMADYQQRASAHYNRKVRPRNFKNGT 966
Query: 341 LVLRDT-EASDPTNTGKLQPN*EGPYKIQEVVRPGTYKLANMDGTEVPSTWHGLRLRKFY 165
LVLR E + GK Q N EGPY + + G Y L +DGT + W+ L+++Y
Sbjct: 967 LVLRKVFENTAEVGAGKFQANWEGPYIVSKANENGAYHLQKLDGTPLLRPWNVSNLKQYY 1026
Query: 164 Q 162
Q
Sbjct: 1027 Q 1027
>emb|CAN76248.1| hypothetical protein VITISV_015055 [Vitis vinifera]
Length = 1027
Score = 195 bits (495), Expect = 1e-47
Identities = 100/241 (41%), Positives = 144/241 (59%), Gaps = 3/241 (1%)
Frame = -3
Query: 875 QDCIKFM-DAIIMRFGLPLVLVSDNGPQFVGSDFESFLRE-GIKHKKSSVAYPQGNGQVE 702
+D KF+ I+ RFG+P ++++DNGPQF F +F E I++ S+ YPQ NGQ E
Sbjct: 787 KDVTKFVWKNIVCRFGIPQIIIADNGPQFDSIAFRNFCSELNIRNSYSTPRYPQSNGQAE 846
Query: 701 VTNRILLRGIEKRLEECKKKWPEELPHVFWAYRTSPRTSTGETPFKMAYGTEVVLPIEVG 522
TN+ L+ ++KRLE+ K KW EELP V WAYRT+P TG TPF + YG + V+P E+G
Sbjct: 847 ATNKTLINALKKRLEQAKGKWVEELPGVLWAYRTTPGRPTGNTPFALTYGMDAVIPTEIG 906
Query: 521 SPSHRTIHFEEISNEEGIRTNLELIDEVRDQAVHRMERYKEKTRAYFGQKARVKNFGVGD 342
P+ RT E+ + NL+ DE+R+ A RM Y+++ A++ +K R +NF G
Sbjct: 907 LPTIRTDAAEQEDANTELGRNLDWADEIRESAAIRMADYQQRASAHYNRKVRPRNFKNGT 966
Query: 341 LVLRDT-EASDPTNTGKLQPN*EGPYKIQEVVRPGTYKLANMDGTEVPSTWHGLRLRKFY 165
LVLR E + GK Q N EGPY + + G Y L +DGT + W+ L+++Y
Sbjct: 967 LVLRKVFENTVEVGAGKFQANWEGPYIVSKANENGAYHLQKLDGTPLLRPWNVSNLKQYY 1026
Query: 164 Q 162
Q
Sbjct: 1027 Q 1027
>emb|CAN78580.1| hypothetical protein VITISV_013552 [Vitis vinifera]
Length = 978
Score = 194 bits (493), Expect = 2e-47
Identities = 102/241 (42%), Positives = 145/241 (60%), Gaps = 3/241 (1%)
Frame = -3
Query: 875 QDCIKFM-DAIIMRFGLPLVLVSDNGPQFVGSDFESFLRE-GIKHKKSSVAYPQGNGQVE 702
+D KF+ II RFG+P +++DNGPQF F +F E I++ S+ YPQ NGQ E
Sbjct: 738 KDVTKFVWKNIICRFGIPQTIIADNGPQFDSIAFRNFCSELNIRNSYSTPRYPQSNGQAE 797
Query: 701 VTNRILLRGIEKRLEECKKKWPEELPHVFWAYRTSPRTSTGETPFKMAYGTEVVLPIEVG 522
TN+ L+ ++KRLE+ K KW EELP V WAYRT+P TG TPF +AYG + V+P E+G
Sbjct: 798 ATNKTLIIALKKRLEQAKGKWVEELPGVLWAYRTTPERPTGNTPFALAYGMDAVIPTEIG 857
Query: 521 SPSHRTIHFEEISNEEGIRTNLELIDEVRDQAVHRMERYKEKTRAYFGQKARVKNFGVGD 342
P+ RT ++ + NL+ DEVR+ AV RM Y+++ A++ +K R + F G
Sbjct: 858 LPTIRTDAAKQSDANMELGRNLDWTDEVRESAVIRMADYQQRASAHYNRKVRPRAFKNGT 917
Query: 341 LVLRDT-EASDPTNTGKLQPN*EGPYKIQEVVRPGTYKLANMDGTEVPSTWHGLRLRKFY 165
LVLR E + + GK Q N EGPY + + G Y L +DGT + W+ L+++Y
Sbjct: 918 LVLRKVFENTTEVSAGKFQANWEGPYIVSKASNNGAYHLQKLDGTPLLRPWNVSNLKQYY 977
Query: 164 Q 162
Q
Sbjct: 978 Q 978
>emb|CAN70585.1| hypothetical protein VITISV_013305 [Vitis vinifera]
Length = 1027
Score = 194 bits (493), Expect = 2e-47
Identities = 100/241 (41%), Positives = 145/241 (60%), Gaps = 3/241 (1%)
Frame = -3
Query: 875 QDCIKFM-DAIIMRFGLPLVLVSDNGPQFVGSDFESFLRE-GIKHKKSSVAYPQGNGQVE 702
+D KF+ I+ RFG+P ++++DNGPQF F +F E I++ S+ YPQ NGQ E
Sbjct: 787 KDVTKFVWKNIVCRFGIPQIIIADNGPQFDSIAFRNFCSELNIRNSYSTPRYPQSNGQAE 846
Query: 701 VTNRILLRGIEKRLEECKKKWPEELPHVFWAYRTSPRTSTGETPFKMAYGTEVVLPIEVG 522
TN+ L+ ++KRLE+ K KW EELP V WAYRT+P TG TPF + YG + V+P E+G
Sbjct: 847 ATNKTLINALKKRLEQAKGKWVEELPGVLWAYRTTPGRPTGNTPFALTYGMDAVIPTEIG 906
Query: 521 SPSHRTIHFEEISNEEGIRTNLELIDEVRDQAVHRMERYKEKTRAYFGQKARVKNFGVGD 342
P+ RT ++ + + NL+ DEVR+ A RM Y+++ A++ +K R +NF G
Sbjct: 907 LPTIRTDAAKQKDABTELGRNLDWADEVRESASIRMADYQQRASAHYNRKVRPRNFKNGT 966
Query: 341 LVLRDT-EASDPTNTGKLQPN*EGPYKIQEVVRPGTYKLANMDGTEVPSTWHGLRLRKFY 165
LVLR E + GK Q N EGPY + + G Y L +DGT + W+ L+++Y
Sbjct: 967 LVLRKVFENTAEVGAGKFQANWEGPYIVXKANENGAYHLQKLDGTPLLRPWNVFNLKQYY 1026
Query: 164 Q 162
Q
Sbjct: 1027 Q 1027