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_sc000093.1_g1070.1
(395 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CAN70016.1 hypothetical protein VITISV_013424 [Vitis vinifera] 313 5e-97
CAN72315.1 hypothetical protein VITISV_037426 [Vitis vinifera] 309 2e-96
CAN70730.1 hypothetical protein VITISV_010386 [Vitis vinifera] 316 3e-96
>CAN70016.1 hypothetical protein VITISV_013424 [Vitis vinifera]
Length = 691
Score = 313 bits (801), Expect = 5e-97, Method: Compositional matrix adjust.
Identities = 162/429 (37%), Positives = 257/429 (59%), Gaps = 48/429 (11%)
Query: 10 VFHGLESESPYLHLKEYDEVCSTLRLEGVPEDIVKLKLFPFSLKERAMQWLHSLCPRSIG 69
FHG+ESE+PY H+KE++EVC+T R G D+++LKLFPF+LK++A WL+SL PRSI
Sbjct: 157 TFHGMESENPYSHIKEFEEVCNTFREGGASIDLMRLKLFPFTLKDKAKIWLNSLRPRSIR 216
Query: 70 SWKAMTTQFLKRLFPTHETNKLKRSIMNFSQKEHESF-ICWERFKELINSCPHHGYEVWR 128
+W + +FLK+ FPTH TN LKR I NFS KE+E F CWER+ E IN+CPHHG++ W
Sbjct: 217 NWVDLQAEFLKKYFPTHRTNGLKRQISNFSAKENEKFHECWERYMEAINACPHHGFDTWL 276
Query: 129 VINFFYDGLSSTQRQLVEMMCNGEFMSKDPEDSWDYFDHLAENVQSWEISDTNDRSKSKA 188
++++FYDG+SS+ +Q++E MC G FMSK+PE++ D+ ++AE + W+ ++ ++ K +
Sbjct: 277 LVSYFYDGMSSSMKQILETMCGGXFMSKNPEEAMDFLSYVAEVSRGWDEPNSREKGKFPS 336
Query: 189 QTSS--RGGTYLLNESDDLHAMLTNLTKQVEALKVQKVNVVRA---PEARIVVCDVCDNM 243
Q + + G Y+L+E D+ A + + +++E L+++K++ V+A + ++ C +C +
Sbjct: 337 QQTQNPKAGMYMLSEDVDMKAKVATIARRLEELELKKMHEVQAISDTQVHVMPCTICQSC 396
Query: 244 DHSTRDCPL------LVHEQANAMNSYKRPFSSPYSDTYNPGWKNHPNFSWKNGPTA--- 294
DH +CP ++ +Q N + ++ S+ Y +TYN W+NHPNFSWK P
Sbjct: 397 DHVVDECPTMPAVREMLGDQVNVVGQFRPNNSASYGNTYNSSWRNHPNFSWKPRPPPYQP 456
Query: 295 -NDVHNHQGPSSSNAYVP----------PTRRNLEDPIHAILRNHEQML----------- 332
+ Q PSS + +R + +H + N E L
Sbjct: 457 QGQIQAPQQPSSVEQAIANLSKVMNDFVGEQRAINSQLHQKIENVESSLNKRMDGMQNDL 516
Query: 333 ----QGLRESMVRIEARLSVNEKGKLPSQNQENPRG-----NGEGNTSDLMVGHVKAITT 383
++ S+ R+ +VNEKGK PSQ +NP+G EG++S+L VKA+ T
Sbjct: 517 YHKIDNIQYSISRLTNLNTVNEKGKFPSQPIQNPKGVHEVETQEGDSSNL--KEVKAVIT 574
Query: 384 LRNGKRLDK 392
LR+GK +D+
Sbjct: 575 LRSGKEVDQ 583
>CAN72315.1 hypothetical protein VITISV_037426 [Vitis vinifera]
Length = 635
Score = 309 bits (792), Expect = 2e-96, Method: Compositional matrix adjust.
Identities = 159/424 (37%), Positives = 250/424 (58%), Gaps = 42/424 (9%)
Query: 11 FHGLESESPYLHLKEYDEVCSTLRLEGVPEDIVKLKLFPFSLKERAMQWLHSLCPRSIGS 70
FHG+ESE+PY H+KE++EVC+T R G D+++LKLFPF+LK+ A WL+SL RSI +
Sbjct: 59 FHGMESENPYAHIKEFEEVCNTFREGGASIDLMRLKLFPFTLKDEAKIWLNSLRSRSIRN 118
Query: 71 WKAMTTQFLKRLFPTHETNKLKRSIMNFSQKEHESFI-CWERFKELINSCPHHGYEVWRV 129
W + +FLK+ FPTH TN LKR I NFS KE E F CWER+ E IN+CPHHG++ W +
Sbjct: 119 WVDLQAEFLKKFFPTHRTNGLKRQISNFSTKESEKFYECWERYMEAINACPHHGFDTWLL 178
Query: 130 INFFYDGLSSTQRQLVEMMCNGEFMSKDPEDSWDYFDHLAENVQSWEISDTNDRSKSKAQ 189
+++FYDG+SS+ +Q++E MC G+FMSK+PE++ ++ +++E + W+ ++ + + KA
Sbjct: 179 VSYFYDGMSSSMKQILETMCGGDFMSKNPEEAMNFLSYVSEVSRGWDEPNSREMGRMKAP 238
Query: 190 TSSRGGTYLLNESDDLHAMLTNLTKQVEALKVQKVNVVRA---PEARIVVCDVCDNMDHS 246
+ +GG Y+L+E D+ A + + ++E L+++K++ V+A +A ++ C++C + DH
Sbjct: 239 VNPKGGMYMLSEDMDMKAKVAIMAMRLEELELKKMHEVQAISETQAHVMPCNICQSCDHV 298
Query: 247 TRDCPL------LVHEQANAMNSYKRPFSSPYSDTYNPGWKNHPNFSWKNGPTANDVHNH 300
+CP ++ +QAN + ++ ++PY +TYN WKNHPNFSWK P
Sbjct: 299 VDECPTMPAVGEMLGDQANVVGQFRPNNNAPYGNTYNSSWKNHPNFSWKPRPPPYQPQAQ 358
Query: 301 QGPSSSNAYVPPTRRNLE--------------DPIHAILRNHE---------------QM 331
+ V NL +H + N E Q
Sbjct: 359 TQAPQQTSSVEQAIVNLSKVMGDFVGEQKAINSQLHQKIENVESSRIKRMEGMQNDLSQK 418
Query: 332 LQGLRESMVRIEARLSVNEKGKLPSQNQENPRGNGEGNTSD---LMVGHVKAITTLRNGK 388
+ ++ S+ R+ +VNEK K PSQ +NP+G E T D + VKA+ TLR+GK
Sbjct: 419 IDNIQYSISRLTNLNTVNEKEKFPSQPSQNPKGVHEVETQDGESSKLREVKAVITLRSGK 478
Query: 389 RLDK 392
+D+
Sbjct: 479 EVDQ 482
>CAN70730.1 hypothetical protein VITISV_010386 [Vitis vinifera]
Length = 940
Score = 316 bits (810), Expect = 3e-96, Method: Compositional matrix adjust.
Identities = 161/428 (37%), Positives = 259/428 (60%), Gaps = 48/428 (11%)
Query: 11 FHGLESESPYLHLKEYDEVCSTLRLEGVPEDIVKLKLFPFSLKERAMQWLHSLCPRSIGS 70
FHG+ESE+PY H+KE++EVC+T R G D+++LKLFPF+LK++A WL+SL PRSI +
Sbjct: 130 FHGMESENPYAHIKEFEEVCNTFREGGASIDLMRLKLFPFTLKDKAKIWLNSLRPRSIRN 189
Query: 71 WKAMTTQFLKRLFPTHETNKLKRSIMNFSQKEHESF-ICWERFKELINSCPHHGYEVWRV 129
W + +FLK+ FPTH TN LKR I NFS KE+E F CWER+ E IN+CPHHG++ W +
Sbjct: 190 WVDLQAEFLKKFFPTHRTNGLKRQISNFSAKENEKFHECWERYMEAINACPHHGFDTWLL 249
Query: 130 INFFYDGLSSTQRQLVEMMCNGEFMSKDPEDSWDYFDHLAENVQSWEISDTNDRSKSKAQ 189
+++FYDG+SS+ +Q++E MC G+FMSK+PE++ D+ +++E + W+ ++ ++ K +Q
Sbjct: 250 VSYFYDGMSSSMKQILETMCGGDFMSKNPEEAMDFLSYVSEVSRGWDEPNSREKGKFPSQ 309
Query: 190 TSS--RGGTYLLNESDDLHAMLTNLTKQVEALKVQKVNVVRA---PEARIVVCDVCDNMD 244
+ +GG Y+L+E D+ A + + +++E L+++K++ V+A +A ++ C +C + D
Sbjct: 310 PTQNPKGGMYVLSEDMDMKAKVATIARRLEELELKKIHEVQAISETQAHVMPCTICQSCD 369
Query: 245 HSTRDCPL------LVHEQANAMNSYKRPFSSPYSDTYNPGWKNHPNFSWKNGPTANDVH 298
H +CP ++ +QAN + ++ + PY +TYN W+NHPNFSWK P
Sbjct: 370 HVVDECPTMPAVREMLGDQANVVGQFRPNNNVPYGNTYNSSWRNHPNFSWKPRPPPYQPQ 429
Query: 299 NH-QGPSSSNAYVPPT-------------RRNLEDPIHAILRNHE--------------- 329
Q P +++ ++ + +H + N E
Sbjct: 430 GQTQAPQQTSSVEQAIVNLSKVMGDFVGEQKAINSQLHQKIENVESSQIKRMEGMQNDLS 489
Query: 330 QMLQGLRESMVRIEARLSVNEKGKLPSQNQENPRG-----NGEGNTSDLMVGHVKAITTL 384
Q + ++ S+ R+ +VNEKGK PSQ +NP+G EG +S L VKA+ TL
Sbjct: 490 QKIDNIQYSISRLTNLNTVNEKGKFPSQPSQNPKGVHEVETQEGESSKLR--EVKAVITL 547
Query: 385 RNGKRLDK 392
R+GK +D+
Sbjct: 548 RSGKEVDQ 555