BLAST Resut
BLASTP 2.2.26 [Sep-21-2011]
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.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= Eca_sc000130.1_g1040.1
(460 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CAN74229.1 hypothetical protein VITISV_000584 [Vitis vinifera] 377 e-117
CAN81016.1 hypothetical protein VITISV_025518 [Vitis vinifera] 375 e-114
CAN68148.1 hypothetical protein VITISV_035665 [Vitis vinifera] 375 e-113
>CAN74229.1 hypothetical protein VITISV_000584 [Vitis vinifera]
Length = 1039
Score = 377 bits (967), Expect = e-117, Method: Compositional matrix adjust.
Identities = 192/421 (45%), Positives = 259/421 (61%), Gaps = 21/421 (4%)
Query: 42 WIIDSGASNHVCFSLQHFSSYEPAPPSVYVQIPDGSTLLVTHIGKVVFSESLHIDNVYHI 101
WIIDSGA++HV S + + P + + +PDG + IG + + + +D+V +
Sbjct: 3 WIIDSGATDHVTSSAELLDP-KILPKTTTISLPDGGQAHIESIGSLHVTPHIKLDDVLKV 61
Query: 102 PNFKFNLISVRQLYKSLHCLATFSPSQCVFTDTVTTRLIGQADEVDDLYILRHKSS---A 158
P F+ NL+SV +L ++L C+ F CV D T + G + + LY L + A
Sbjct: 62 PQFQVNLLSVSKLTRALQCIVMFXSDFCVVQDATTRKTXGLGKQHNGLYYLAQDQNPALA 121
Query: 159 LTLHKSIDLWHRRLGHPSLDRLKHLSQQFDFIRFDSTHDCTICPMAKQSKLPFHKSTTVS 218
+HK DLWH+RLGHPS L+ L++ I FDS H C I P+AKQ++L F S S
Sbjct: 122 YAIHKHSDLWHQRLGHPSSGPLQVLAKVNXEIYFDSKHVCDIXPLAKQTRLSFPSSFISS 181
Query: 219 TFPFQLVHADIWGPFPVLSLTNKRYFLTLVDDYSRYTWTFLMQSKSETKKYLEYFFNFTI 278
PF L+H DIWGP + S + RYFLT+VDD++RYTW LM KSET+ L+ F ++
Sbjct: 182 HAPFDLIHCDIWGPHRINSHSGARYFLTIVDDHTRYTWIHLMSFKSETQGILQSFISWVE 241
Query: 279 KQYQKTIKSISSDSATSSTCPIQTFRSDNGTEFLTKDLQSWFQSNGIIHQRSCVHTPQQN 338
Q+ + IK T R+DNGTE ++ + + GI + SC +TPQQN
Sbjct: 242 TQFNRCIK---------------TLRTDNGTEI--SSMKQYLDTKGINYHHSCAYTPQQN 284
Query: 339 GVVERKHRHLLDVARALRFQANLPLSFWGEYLKTATYLINQMPTPILSLKSPYEVLYDTP 398
GVVERKHRHLL+V RALRFQANLPL FWGE ++TA YLIN++PTP+LS KSPY++L +
Sbjct: 285 GVVERKHRHLLNVGRALRFQANLPLKFWGESIQTACYLINRLPTPLLSHKSPYQLLXNKL 344
Query: 399 PDYSTLRVFGCLCFAHNFKATTKFDMRAKPGIFIGYPYGKKGYTIYDLETKTLYDSRNVT 458
P Y LR FGCLC+A N T KFD RA+ IF+GYP G+KGY +YDLET + S +V
Sbjct: 345 PSYHHLRTFGCLCYATNLLPTHKFDQRARRCIFVGYPLGQKGYRVYDLETNKFFSSXDVV 404
Query: 459 F 459
F
Sbjct: 405 F 405
>CAN81016.1 hypothetical protein VITISV_025518 [Vitis vinifera]
Length = 1461
Score = 375 bits (962), Expect = e-114, Method: Compositional matrix adjust.
Identities = 191/421 (45%), Positives = 259/421 (61%), Gaps = 21/421 (4%)
Query: 42 WIIDSGASNHVCFSLQHFSSYEPAPPSVYVQIPDGSTLLVTHIGKVVFSESLHIDNVYHI 101
WIIDSGA++HV S + + P + + +P+G + IG + + + +D+V +
Sbjct: 411 WIIDSGATDHVTSSAELLDP-KNLPKTTTISLPNGGQAHIESIGSLHVTPHIKLDDVLKV 469
Query: 102 PNFKFNLISVRQLYKSLHCLATFSPSQCVFTDTVTTRLIGQADEVDDLYILRHKSS---A 158
P F+ NL+SV +L ++L C+ F CV D T + IG + + LY L + A
Sbjct: 470 PQFQVNLLSVSKLTRALQCIVMFFFDFCVVQDATTRKTIGLGKQHNGLYYLAQDQNPALA 529
Query: 159 LTLHKSIDLWHRRLGHPSLDRLKHLSQQFDFIRFDSTHDCTICPMAKQSKLPFHKSTTVS 218
+HK DLWH+RLGHPS L+ L++ I FDS H C ICP+AKQ++L F S S
Sbjct: 530 YAIHKHSDLWHQRLGHPSSGPLQVLAKVNPKIYFDSKHVCDICPLAKQTRLSFPSSFISS 589
Query: 219 TFPFQLVHADIWGPFPVLSLTNKRYFLTLVDDYSRYTWTFLMQSKSETKKYLEYFFNFTI 278
PF L+H DIWGP + S + YFLT+VDD++RYTW LM KSET+ L+ F ++
Sbjct: 590 HAPFDLIHCDIWGPHRINSHSGAXYFLTIVDDHTRYTWIHLMSFKSETQGILQSFISWVE 649
Query: 279 KQYQKTIKSISSDSATSSTCPIQTFRSDNGTEFLTKDLQSWFQSNGIIHQRSCVHTPQQN 338
Q+ + IK T R+DNGTE ++ + + GI + SC +TPQQN
Sbjct: 650 TQFNRCIK---------------TLRTDNGTEI--SSMKQYLDTKGINYHHSCAYTPQQN 692
Query: 339 GVVERKHRHLLDVARALRFQANLPLSFWGEYLKTATYLINQMPTPILSLKSPYEVLYDTP 398
GVVERKHRHLL+V RALRFQANLPL FWGE ++TA YLIN++PTP+LS KSPY++L +
Sbjct: 693 GVVERKHRHLLNVGRALRFQANLPLKFWGESIQTACYLINRLPTPLLSHKSPYQLLXNKL 752
Query: 399 PDYSTLRVFGCLCFAHNFKATTKFDMRAKPGIFIGYPYGKKGYTIYDLETKTLYDSRNVT 458
P Y LR FGCLC+A N T KFD RA+ IF+GYP G+KGY +YDL T + S +V
Sbjct: 753 PSYHHLRTFGCLCYATNLLPTHKFDQRARRCIFVGYPLGQKGYRVYDLXTNKFFSSXDVV 812
Query: 459 F 459
F
Sbjct: 813 F 813
>CAN68148.1 hypothetical protein VITISV_035665 [Vitis vinifera]
Length = 1813
Score = 375 bits (962), Expect = e-113, Method: Compositional matrix adjust.
Identities = 193/430 (44%), Positives = 264/430 (61%), Gaps = 26/430 (6%)
Query: 38 HSTSWIIDS-----GASNHVCFSLQHFSSYEPAPPSVYVQIPDGSTLLVTHIGKVVFSES 92
HS S ID+ GA++H+ + F+ +P+ + V +P+G +TH G V+F
Sbjct: 633 HSNSGNIDAYANAAGATDHIVSHMSLFTDLKPSNVTT-VNLPNGVASPITHTGTVIFDSQ 691
Query: 93 LHIDNVYHIPNFKFNLISVRQLYKSLHCLATFSPSQCVFTDTVTTRLIGQADEVDDLYIL 152
L + +V +P+F NLIS +L K +C F P C+ D V+ ++IG + LY +
Sbjct: 692 LTLKDVLCVPSFNLNLISASKLAKDQNCYIIFFPDYCILQDLVSGKMIGSGKQRGGLYYM 751
Query: 153 R---HKSSALTLHKSIDLWHRRLGHPSLDRLKHLSQQFDFIRFDSTHDCTICPMAKQSKL 209
+KS + + DLWH RLGHPS R K LS+ I + + C ICP AKQ++L
Sbjct: 752 HPSTNKSVVFHVSQPSDLWHLRLGHPSFSRFKLLSRLLPDIHKEIGNHCPICPQAKQTRL 811
Query: 210 PFHKSTTVSTFPFQLVHADIWGPFPVLSLTNKRYFLTLVDDYSRYTWTFLMQSKSETKKY 269
PF KS+ + FPF L+H D+WGP + + T RYFLT+VDD+SR TW FLM KSET+
Sbjct: 812 PFPKSSITTKFPFSLLHCDVWGPHKIPAHTGSRYFLTIVDDFSRCTWIFLMHHKSETQSL 871
Query: 270 LEYFFNFTIKQYQKTIKSISSDSATSSTCPIQTFRSDNGTEFLTKDLQSWFQSNGIIHQR 329
L F F Q+ + QT R DNGTEF+ L+ + Q+ GI Q
Sbjct: 872 LTNFVQFVKTQFHTDV---------------QTVRMDNGTEFIP--LRIFLQNKGIELQT 914
Query: 330 SCVHTPQQNGVVERKHRHLLDVARALRFQANLPLSFWGEYLKTATYLINQMPTPILSLKS 389
SC++TPQQNGVVERKHRH+L+VAR+L FQ+N+PL FWGE + TA YLIN++PTP+LS KS
Sbjct: 915 SCIYTPQQNGVVERKHRHILNVARSLMFQSNVPLEFWGECVLTAVYLINRIPTPLLSNKS 974
Query: 390 PYEVLYDTPPDYSTLRVFGCLCFAHNFKATTKFDMRAKPGIFIGYPYGKKGYTIYDLETK 449
P+EVLY+ PP + LRVFGC C+ N KFD RA +F+GYP+GKKGY + DL+T+
Sbjct: 975 PFEVLYNRPPSLTHLRVFGCECYVTNVHPKQKFDPRASICVFLGYPHGKKGYKVLDLQTQ 1034
Query: 450 TLYDSRNVTF 459
+ SR+V F
Sbjct: 1035 KISVSRDVFF 1044