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_sc000034.1_g1020.1
(474 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CAN74381.1 hypothetical protein VITISV_007944 [Vitis vinifera] 417 e-128
ADB85383.1 putative retrotransposon protein [Phyllostachys edulis] 339 e-104
CAN78876.1 hypothetical protein VITISV_033245 [Vitis vinifera] 318 e-102
>CAN74381.1 hypothetical protein VITISV_007944 [Vitis vinifera]
Length = 1884
Score = 417 bits (1073), Expect = e-128, Method: Compositional matrix adjust.
Identities = 219/454 (48%), Positives = 279/454 (61%), Gaps = 31/454 (6%)
Query: 21 IDTDSPTTLPNVPPIPSQPVRSIHHMVTRSKDGIVKPKVYDSLMATRHPVRFALFSSLPP 80
+D+ + PP HM+TRSK + S M T F+
Sbjct: 867 LDSSKQIVVDISPPQGQHTDNKGTHMITRSK--LKNDPSLKSQMVT--------FAXXRS 916
Query: 81 LPKEPTCYSEAKSDPKWCEAMPDEFNALIRNQTRTLVPRHPSMNSIGSKWVFRIKPKSDG 140
EP Y A P W +AM +E ALI+N+T LVPR P+ N +GSKWVF+ K K DG
Sbjct: 917 DISEPKTYRTALKIPHWLKAMQEEIKALIQNRTWDLVPRPPTTNIVGSKWVFKTKLKEDG 976
Query: 141 TIDRYKARLVAKGFNQQHGIDYDETFSPVVKPVTIRLVIGIAVTSGRKLTQLDVKNAFLH 200
TIDRYKARLVA+GF+Q G+D+ ETFSPV+K TIR++ +AV G K+ QLDVKNAFLH
Sbjct: 977 TIDRYKARLVARGFSQIPGLDFGETFSPVIKHTTIRMIFSLAVILGWKMRQLDVKNAFLH 1036
Query: 201 GLLNKEVHMTQPTGFINTIYPDHVCKLNKALYGLKQAPRAWFHRFTSYLREIGFIASKYQ 260
G L +EV M QP GFIN + P+HVCKLN++LYGLKQAPRAWF R + L +GF K
Sbjct: 1037 GFLKEEVFMEQPPGFINEVLPNHVCKLNRSLYGLKQAPRAWFDRLSQCLLHLGFCCGK-- 1094
Query: 261 LFCQSSLPI----------YASPTDIHFAAVKRIFRYLKATLGRGLFFGNDNPPIFQNSH 310
SSL I + +PT AVKRI RYLK T+ G+ F F+ S
Sbjct: 1095 --ADSSLFILRKVNKACQHFQAPTKADLXAVKRILRYLKGTMEHGIXF-------FKQSS 1145
Query: 311 SQLVAYSDADWAGDPDTRRSILGNCIFFGSHLIQWASKKQPTVSRSSTEAEYRAMAIITV 370
+L + DADWAG +TRRS G CIF G++ I W+SK+QPTVSRSS EAEYR++A
Sbjct: 1146 LRLTGFCDADWAGCTNTRRSTSGYCIFLGANCISWSSKRQPTVSRSSAEAEYRSLASSAA 1205
Query: 371 EIAWIQFLLCDLGVPMNNAPILYCDNVSATYMAHNPILHLRTKHMDLDYHFVRERVTRGA 430
EI W+ FLL D+G+ + P L CDN+SA +M NP+ H R+KH++LDYHFVRE+V RG
Sbjct: 1206 EITWLTFLLRDIGIQLREPPQLLCDNLSALHMTVNPVFHARSKHIELDYHFVREKVARGV 1265
Query: 431 LHVKYIPTRNQIADIFTKGLVKAHHQVLCSKLSL 464
L +++P+ Q+ADIFTK L K Q KL +
Sbjct: 1266 LITRFLPSSLQVADIFTKALPKTSFQFFRFKLGV 1299
>ADB85383.1 putative retrotransposon protein [Phyllostachys edulis]
Length = 862
Score = 339 bits (870), Expect = e-104, Method: Compositional matrix adjust.
Identities = 198/442 (44%), Positives = 263/442 (59%), Gaps = 58/442 (13%)
Query: 35 IPSQPVRSIHHMVTRSKDGIVKPKVYDSLMATRHPVR-FALFSSL-PPLPKEPTCYSEAK 92
+P PV + H MVTR K + +HPV+ F L ++L PLPK Y A
Sbjct: 313 VPIAPVSNDHTMVTRGK------------ASYQHPVKIFNLHAALISPLPKS---YRGAL 357
Query: 93 SDPKWCEAMPDEFNALIRNQTRTLVPRHPSMNSIGSKWVFRIKPKSDGTIDRYKARLVAK 152
+DP W AM +EF+AL N T L+P S N + SKWVFR K +G++DRYKAR V +
Sbjct: 358 ADPNWRAAMDEEFSALKANNTWDLIPCPSSANIVTSKWVFRHKLHPNGSLDRYKARWVLR 417
Query: 153 GFNQQHGIDYDETFSPVVKPVTIRLVIGIAVTSGRKLTQLDVKNAFLHGLLNKEVHMTQP 212
GF Q+ GID+ ETFSPVVKP TIR V+ IA + + QLDVKNAF HG L + V+ QP
Sbjct: 418 GFTQRPGIDFGETFSPVVKPATIRTVLTIAHSQEWSIHQLDVKNAFPHGTLTETVYCVQP 477
Query: 213 TGFINTIYPDHVCKLNKALYGLKQAPRAWFHRFTSYLREIGFIASKYQLFCQSSLPIYAS 272
+GF++ +PD+VC+LNK+LYGLKQAPRAWF+R +L + +I + S+ Y++
Sbjct: 478 SGFVDFAHPDYVCRLNKSLYGLKQAPRAWFNRL--FLSQRQYILDVIERAGMSNSKPYST 535
Query: 273 PTD----------------IHFAAVKRIFRYLKAT-------LGRGLF-FGNDNPPIFQN 308
P D H+ + +YL T + +G F FG + +
Sbjct: 536 PVDTSSKVSCSDGAPVSDATHYRGLAGALQYLTFTRLDITYAVQQGAFDFG---LVLHRT 592
Query: 309 SHSQLVAYSDADWAGDPDTRRSILGNCIFFGSHLIQWASKKQPTVSRSSTEAEYRAMAII 368
+ S LVAYSD DWAG PDTRRS G +F G +LI W+SK+Q TVSRSS EAEYRA+A
Sbjct: 593 AISSLVAYSDVDWAGCPDTRRSTSGYGVFIGDNLISWSSKRQHTVSRSSAEAEYRAVANA 652
Query: 369 TVEIAWIQFLLCDLGVPMNNAPILYCDNVSATYMAHNPILHLRTKHMDLDYHFVRERVTR 428
E +W++ LL +L P+ +A ++YCDN H TKH++LD HFVRERV
Sbjct: 653 VAETSWLRQLLLELHCPLQHATLVYCDN------------HQHTKHVELDLHFVRERVAV 700
Query: 429 GALHVKYIPTRNQIADIFTKGL 450
GA+ V ++PT +Q DIFTKGL
Sbjct: 701 GAVRVLHVPTTSQYVDIFTKGL 722
>CAN78876.1 hypothetical protein VITISV_033245 [Vitis vinifera]
Length = 361
Score = 318 bits (815), Expect = e-102, Method: Compositional matrix adjust.
Identities = 167/365 (45%), Positives = 233/365 (63%), Gaps = 10/365 (2%)
Query: 101 MPDEFNALIRNQTRTLVPRHPSMNSIGSKWVFRIKPKSDGTIDRYKARLVAKGFNQQHGI 160
M +E +AL +N T LVP P + +G KW+++IK SDG+++RYKARLVAKGF Q++GI
Sbjct: 1 MKEELDALTKNHTWDLVPLPPGQSVVGCKWIYKIKTCSDGSVERYKARLVAKGFTQEYGI 60
Query: 161 DYDETFSPVVKPVTIRLVIGIAVTSGRKLTQLDVKNAFLHGLLNKEVHMTQPTGFINTIY 220
DY+ETF+PV + ++R ++ +A L Q+DVKNAFL+G L++ +M P G ++
Sbjct: 61 DYEETFAPVARISSVRALLAVAAARQWDLFQMDVKNAFLNGDLSEADYMQPPPGL--SVE 118
Query: 221 PDHVCKLNKALYGLKQAPRAWF-HRFTSYLREIGFIASKYQLFCQSSLPIYASPTDIHFA 279
+ VC L +ALYGLKQAPRAWF R+ L + ++P H+A
Sbjct: 119 SNKVCHLRRALYGLKQAPRAWFAKRWVGSLVYLTVTRPNISYAVHQVSQYLSAPRSTHYA 178
Query: 280 AVKRIFRYLKATLGRGLFFGNDNPPIFQNSHSQLVAYSDADWAGDPDTRRSILGNCIFFG 339
AV RI RYLK T+ GLF+ +P + L A+SDADWAGDP RRS G C G
Sbjct: 179 AVLRILRYLKGTIFHGLFYSAQSPLV-------LRAFSDADWAGDPTDRRSTTGYCFLLG 231
Query: 340 SHLIQWASKKQPTVSRSSTEAEYRAMAIITVEIAWIQFLLCDLGVPMNNAPILYCDNVSA 399
S LI W SKKQ V+RSS EA+YRA+A T E+ W+++LL DLGV ++A LYCDN SA
Sbjct: 232 SSLISWRSKKQTFVARSSIEAKYRALADTTSELIWLRWLLKDLGVFTSSATPLYCDNQSA 291
Query: 400 TYMAHNPILHLRTKHMDLDYHFVRERVTRGALHVKYIPTRNQIADIFTKGLVKAHHQVLC 459
++AHN + H RTKH+++D HF+ + GAL + ++ +++Q+ADIFTK L H + L
Sbjct: 292 IHIAHNDVFHERTKHIEIDCHFIHYHLVHGALKLFFVSSKDQLADIFTKSLPTRHTRDLI 351
Query: 460 SKLSL 464
+ L L
Sbjct: 352 NNLKL 356