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_g0470.1
(410 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
BAG72096.1 Gag-protease-integrase-RT-RNaseH polyprotein [Glycine... 468 e-150
CAN63912.1 hypothetical protein VITISV_044222 [Vitis vinifera] 461 e-150
CAN69037.1 hypothetical protein VITISV_026270 [Vitis vinifera] 441 e-149
>BAG72096.1 Gag-protease-integrase-RT-RNaseH polyprotein [Glycine max]
Length = 1321
Score = 468 bits (1203), Expect = e-150, Method: Compositional matrix adjust.
Identities = 232/436 (53%), Positives = 294/436 (67%), Gaps = 65/436 (14%)
Query: 2 VWCKWVFKTKRDAEGNIKRYKARIVAKGYNQREGIDYSETFSPISKKDSLRVIMALVAHF 61
+ CKWVFKTK+D+ GNI+RYKAR+VAKG+ Q+EGIDY ETFSP+SKKDSLR+I+ALVAHF
Sbjct: 844 IGCKWVFKTKKDSLGNIERYKARLVAKGFTQKEGIDYKETFSPVSKKDSLRIILALVAHF 903
Query: 62 NLELHQMDVKTTFVNGDLNEDIYIEQADGFIEKGKDHLACKLKKLIYGLSEPQ------- 114
+LEL QMDVKT F+NGDL E++Y++Q +GF +HL CKL K IYGL +
Sbjct: 904 DLELQQMDVKTAFLNGDLEEEVYMKQPEGFSSNSGEHLVCKLNKSIYGLKQASRQWYLKF 963
Query: 115 -----------------------GS--------------ASNDIHLLHETKHFLSKSFDM 137
GS A+ND LLHE K FLSK+FDM
Sbjct: 964 HGIISSFGFDENPMDQCIYHKVSGSKICFLVLYVDDILLAANDRGLLHEVKQFLSKNFDM 1023
Query: 138 KDLGDASYVLGIKIQRDRDAGVLCLSQRAYIDKILKRFGMEDCAPEYVPVVKGD-----G 192
KD+GDASYV+GIKI RDR G+L LSQ YI+KIL+RF M+DC+P P+VKGD
Sbjct: 1024 KDMGDASYVIGIKIHRDRSRGILGLSQETYINKILERFRMKDCSPSVAPIVKGDRFNLNQ 1083
Query: 193 SANNNARKMRLKS----------------DRPDIGFIVGMFGRFQKNPGVIHWKAVKKVF 236
N+ + ++K+ RPDI F VGM GR+Q NPG+ HW+A KKV
Sbjct: 1084 CPKNDFEREQMKNIPYASVVGSLMYAQVCTRPDIAFAVGMLGRYQSNPGIDHWRAAKKVL 1143
Query: 237 RYLQGTKDYMLVYRNSGVLEACGYTDSDFDGCRDSLKFTSGYIFMLAGGAISWRNAKQSL 296
RYLQGTKDYML+YR + L+A GY+DSDF GC DS + TSGYIFM+AGGAISW + KQSL
Sbjct: 1144 RYLQGTKDYMLMYRQTDNLDAIGYSDSDFAGCVDSRRSTSGYIFMMAGGAISWGSVKQSL 1203
Query: 297 ITSSTMEAEYVACFEATQHVVWLKNFISELSIVDSVHRPMKIYCDNAVVVRFVETDNLSK 356
+STMEAE+V+CFEAT H VWLK+FIS L I+D++ RP++I+CDN+ V + +
Sbjct: 1204 AATSTMEAEFVSCFEATSHGVWLKSFISGLKIIDTISRPLRIFCDNSAAVFMAKNNKSGS 1263
Query: 357 RSKYIMIKYLYVRDKL 372
RSK+I IKYL +R+++
Sbjct: 1264 RSKHIDIKYLAIRERV 1279
>CAN63912.1 hypothetical protein VITISV_044222 [Vitis vinifera]
Length = 1100
Score = 461 bits (1187), Expect = e-150, Method: Compositional matrix adjust.
Identities = 224/419 (53%), Positives = 299/419 (71%), Gaps = 35/419 (8%)
Query: 2 VWCKWVFKTKRDAEGNIKRYKARIVAKGYNQREGIDYSETFSPISKKDSLRVIMALVAHF 61
+ CKW+FKTK D++GN++RYKA +VAKGY Q+EGIDY ETFS +S KDSL ++MALVAHF
Sbjct: 670 IGCKWIFKTKHDSKGNVERYKAMLVAKGYTQKEGIDYKETFSHVSNKDSLIIVMALVAHF 729
Query: 62 NLELHQMDVKTTFVNGDLNEDIYIEQADGFIEKGKDHLACKLKKLIYGLSEPQGSASNDI 121
+LELHQMD+KT F+NGDL+E++Y++Q +GF +KGK H+ CKLKK IYGL+ N++
Sbjct: 730 DLELHQMDIKTAFLNGDLHEEVYMDQPEGFQDKGKAHMECKLKKSIYGLN-------NNM 782
Query: 122 HLLHETKHFLSKSFDMKDLGDASYVLGIKIQRDRDAGVLCLSQRAYIDKILKRFGMEDCA 181
++ ETK FLSK+FDMKDLG+ASYV+GI+I RDR G+L LSQ+ YI+KILKRF M++C+
Sbjct: 783 GMIFETKQFLSKNFDMKDLGEASYVIGIEIHRDRSCGLLGLSQKNYIEKILKRFNMQNCS 842
Query: 182 PEYVPVVKGD-----GSANNNARKMRLKS----------------DRPDIGFIVGMFGRF 220
P+VK D N+ K ++ RPDI ++VGM GR+
Sbjct: 843 NSVAPIVKWDILCELQCPKNDLEKKQMDKIPYASAVGSIMYAQVCTRPDIAYVVGMLGRY 902
Query: 221 QKNPGVIHWKAVKKVFRYLQGTKDYMLVYRNSGVLEACGYTDSDFDGCRDSLKFTSGYIF 280
Q NPG+ HWKAVKKV YLQ DYML YR + LE GY+DSD+ GC+D+ K TSGYIF
Sbjct: 903 QSNPGIDHWKAVKKVLCYLQMNTDYMLTYRRTDNLEIIGYSDSDYAGCKDTRKSTSGYIF 962
Query: 281 MLAGGAISWRNAKQSLITSSTMEAEYVACFEATQHVVWLKNFISELSIVDSVHRPMKIYC 340
ML+ G ISW++ KQSLI SS M AEYVAC+EAT H +WL+NF+S L ++DS+ RP++IYC
Sbjct: 963 MLSNGPISWKSHKQSLIASSIMGAEYVACYEATCHAIWLRNFVSGLHVIDSIMRPLQIYC 1022
Query: 341 DNAVVVRFVETDNLSKRSKYIMIKYLYVRDKLVCLRVEFSSGVFEVNFIEFSSDVSNSL 399
DN+VV RF + + + SK+I IKYL VR+K+ +GV + I+ + ++N L
Sbjct: 1023 DNSVVARFSKNNKTTGGSKHIDIKYLVVREKV-------QNGVVSIEHIKNTLMLANPL 1074
>CAN69037.1 hypothetical protein VITISV_026270 [Vitis vinifera]
Length = 492
Score = 441 bits (1135), Expect = e-149, Method: Compositional matrix adjust.
Identities = 213/392 (54%), Positives = 274/392 (69%), Gaps = 50/392 (12%)
Query: 2 VWCKWVFKTKRDAEGNIKRYKARIVAKGYNQREGIDYSETFSPISKKDSLRVIMALVAHF 61
V CKW+FKTKRDA+GNI+RYKAR+VAKG+ Q+EGIDY +TFSP+SKKDSLR+IM LVAHF
Sbjct: 88 VGCKWIFKTKRDAKGNIERYKARLVAKGFTQKEGIDYKDTFSPVSKKDSLRIIMTLVAHF 147
Query: 62 NLELHQMDVKTTFVNGDLNEDIYIEQADGFIEKGKDHLACKLKKLIYGLSEPQGSASNDI 121
+LELHQMDVKT F+NG+L+EDIY+EQ +G D+
Sbjct: 148 DLELHQMDVKTAFLNGNLDEDIYMEQPEG-----------------------------DL 178
Query: 122 HLLHETKHFLSKSFDMKDLGDASYVLGIKIQRDRDAGVLCLSQRAYIDKILKRFGMEDCA 181
LLHETK +LSK+F M D+G+A+YV+GI+I RDR GVL LSQ+ YID +L+RF M+ C+
Sbjct: 179 GLLHETKEYLSKNFHMVDMGEANYVIGIEIFRDRSRGVLGLSQKGYIDWVLERFNMQSCS 238
Query: 182 PEYVPVVKGD-----GSANNNARKMRLKS----------------DRPDIGFIVGMFGRF 220
P++KGD NN + ++K RPDI F+VGMFGR+
Sbjct: 239 SGIAPILKGDKLSKMQCPRNNMEREQMKKIPYASAVGSLMYAQTCTRPDISFVVGMFGRY 298
Query: 221 QKNPGVIHWKAVKKVFRYLQGTKDYMLVYRNSGVLEACGYTDSDFDGCRDSLKFTSGYIF 280
Q +PG HWKA KKV RYLQGTKDYML Y+ S LE GY+DSD+ GC DSLK TSG++F
Sbjct: 299 QSDPGFEHWKAAKKVMRYLQGTKDYMLTYKRSEQLEVVGYSDSDYGGCLDSLKSTSGFVF 358
Query: 281 MLAGGAISWRNAKQSLITSSTMEAEYVACFEATQHVVWLKNFISELSIVDSVHRPMKIYC 340
MLA GAISW++ KQS+ SSTMEAE+VACFEA+ H +WL+NFIS L +VDS+ +P++IYC
Sbjct: 359 MLANGAISWKSEKQSITASSTMEAEFVACFEASSHALWLRNFISGLGVVDSIAKPLRIYC 418
Query: 341 DNAVVVRFVETDNLSKRSKYIMIKYLYVRDKL 372
DN V F + S SK++ +KYL V++++
Sbjct: 419 DNTAAVFFSKNGKFSSGSKHMDLKYLVVKERV 450