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_sc000066.1_g0680.1
(641 letters)
Database: ./nr
95,329,361 sequences; 35,143,497,570 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
CCH50966.1 T4.5 [Malus x robusta] 492 e-153
CAN78447.1 hypothetical protein VITISV_026810 [Vitis vinifera] 448 e-141
CAN68489.1 hypothetical protein VITISV_037543 [Vitis vinifera] 449 e-139
>CCH50966.1 T4.5 [Malus x robusta]
Length = 1670
Score = 492 bits (1267), Expect = e-153, Method: Compositional matrix adjust.
Identities = 285/672 (42%), Positives = 395/672 (58%), Gaps = 63/672 (9%)
Query: 7 ISNGNRTPPPNFNGSSTNRPTCQICHKVGHTALECYHRLNFSYQGRSPPSNLHAMIASAN 66
+ G P + SS CQ+C + GH A C +RL+ Q +SP + + AM +SA+
Sbjct: 530 LGAGPSRQPAGPSSSSGCSVQCQLCLQYGHWAPMC-NRLSQFAQSQSPTA-MSAMTSSAS 587
Query: 67 VFGHNPWFADSGATNHITPDLSQLASSSGINGSERINAANGQGMLITHTGNTSFVKNNRC 126
+ W DSGA++H+TPD S L S+ +G++++ +G+G+ I+HTG+ +
Sbjct: 588 P---SYWLTDSGASHHVTPDPSALNSAIPYSGNDQLFVGDGKGLCISHTGSALIRTKHAT 644
Query: 127 FRLNNVLRVPQATHNLLSVHKFTTDNNCSLTFDPFGYYVKDLFSTKTIIQGPTEDGLYPI 186
FRLN+VL VPQA+HNLLSV+KF DN C LTFDPFG+YVKDL + K + QGP+E GLYP
Sbjct: 645 FRLNDVLLVPQASHNLLSVYKFVYDNWCYLTFDPFGFYVKDLSTGKMLFQGPSEGGLYPF 704
Query: 187 SLSLNKPSSTHALS-----AQSSQEHLWHRRLAHPSFQSLQ------RLKQFIFPNNTSL 235
+ + S A+S + H WHRRL HPS +L L + NN S+
Sbjct: 705 YWNASNGVSGIAISPTALMIAKADIHTWHRRLGHPSGGTLHSVVHKNHLPVIGYVNNMSV 764
Query: 236 KPIFCNECQLGRSTKLPFAISESCSSQPLELLHVDLWGPSPVSSVSGYRYYANIIDDFTK 295
C CQLG+S +L F+ SS+PL+LLH D+WGPSP SS +GYR+Y I+DDFTK
Sbjct: 765 ----CTACQLGKSYRLSFSTLPCTSSRPLQLLHTDVWGPSPTSSCTGYRFYLIIVDDFTK 820
Query: 296 FCWVLPLHNKSDFKNAFVIFKNTIENKLSCTIKTLRTDGGGEFLHSSFRSFLQHSGITHQ 355
+ W+ PLH KSD + F ++ L ++++R+D GGEFL+ S +SF GITHQ
Sbjct: 821 YSWLYPLHFKSDVFSTLKTFILKLQTLLDLQVQSIRSDSGGEFLNKSLQSFFNEQGITHQ 880
Query: 356 MTCPHTPEQNGTAESKHRHLLDVARTLLIQSFLPQSYWLESIFTANYLINRLPTKSLNFI 415
++C HT EQNG AE KHRH++++ RTLL QS LP +W+E+ T YLINRLP +S + I
Sbjct: 881 LSCLHTSEQNGCAERKHRHVVEMGRTLLSQSDLPTQFWVEAFQTVVYLINRLPPQS-SVI 939
Query: 416 SPFEKLFHNVPDYTFLKVFGCACFPWLKPYASNKLSPRSKTCVFIGYTQDHKGYKCLDIT 475
SP+E LFH P Y LK FGCAC+PWL+PY+ +KL +SK CVF+GY+ +H GY+C D
Sbjct: 940 SPWELLFHASPKYHTLKAFGCACYPWLQPYSRDKLDFKSKQCVFLGYSLNHSGYRCWDPI 999
Query: 476 TGRVYVSRHVTFNEFCFPFSTMTKTDSPIPTPSTSPFIIAYNSNLVPVNTLPISPPAISP 535
+ R+Y+SRHV F+E FP+ +++ + S+ P + P+ PP
Sbjct: 1000 SNRLYISRHVVFDESLFPYKSLS----------------SQASHHSPCVSSPLHPPMSLH 1043
Query: 536 SPQPMSPSPQPISPTSPI-----SAPSLTS-----SVPSSS-SSTHS------------- 571
P P+S Q SP + + S PS+ S ++PSS+ S H+
Sbjct: 1044 LPLPVSHLEQQSSPAAALEGRNASPPSIFSTAAHTTIPSSAQESLHTPPVSSSPAEPPPL 1103
Query: 572 --IPPLNHHPMQTRAKSGIFKPKSMLLTTRHPISPILLAQSLPPTPTCFTQANKDPKWRL 629
P+N H M TRAK+GI KPK T S + +LPPTP+ F QA+K W
Sbjct: 1104 PPPIPVNTHTMITRAKAGIHKPKVFTATKHQLPSTVDSLTALPPTPSTFLQASKSSHWME 1163
Query: 630 AMSEEFSALQSS 641
AM EF ALQS+
Sbjct: 1164 AMQFEFQALQST 1175
>CAN78447.1 hypothetical protein VITISV_026810 [Vitis vinifera]
Length = 1171
Score = 448 bits (1153), Expect = e-141, Method: Compositional matrix adjust.
Identities = 253/618 (40%), Positives = 346/618 (55%), Gaps = 58/618 (9%)
Query: 24 NRPTCQICHKVGHTALECYHRLNFSYQGRSPPSNLHAMIASANV-FGHNPWFADSGATNH 82
NRP CQIC K GHTA++C+HR ++SYQGR PP +L AM+A N F H W+ DSGA H
Sbjct: 271 NRPVCQICGKSGHTAIDCFHRFDYSYQGRFPPQDLAAMVAETNATFDHQVWYMDSGANAH 330
Query: 83 ITPDLSQLASSSGINGSERINAANGQGMLITHTGNTSFVKNNRCFRLNNVLRVPQATHNL 142
IT D + L SE + NG G+ + +TG+T+F F LN +L PQA NL
Sbjct: 331 ITSDATNLTHQQPFCESETVTVGNGSGLQVLNTGSTTFNFGQSNFHLNKILHCPQAATNL 390
Query: 143 LSVHKFTTDNNCSLTFDPFGYYVKDLFSTKTIIQGPTEDGLYPIS------LSLNKPSST 196
+S+++F DNNC G+ VK+ + + ++QG E+GLYP++ SL S+T
Sbjct: 391 ISINQFCLDNNCYFILTANGFVVKENLTGRILLQGVVENGLYPLAGCKTFHKSLTCLSTT 450
Query: 197 HALSAQSSQEHLWHRRLAHPS---FQSLQRLKQFIFPNNTSLKPIFCNECQLGRSTKLPF 253
+ A + WH RL HPS F SL + +S K FC+ CQLG++ +LPF
Sbjct: 451 IGVRANADT---WHSRLGHPSSVIFNSLFHSNKLSV-KGSSTKLEFCSACQLGKAKQLPF 506
Query: 254 AISESCSSQPLELLHVDLWGPSPVSSVSGYRYYANIIDDFTKFCWVLPLHNKSDFKNAFV 313
S SS PL L+H D+W SPV S G YY IDD++++ W+ PLH KSD FV
Sbjct: 507 PESSRQSSVPLALIHSDVW-VSPVQSTGGCSYYVLFIDDYSRYSWLYPLHRKSDVFATFV 565
Query: 314 IFKNTIENKLSCTIKTLRTDGGGEFLHSSFRSFLQHSGITHQMTCPHTPEQNGTAESKHR 373
FK E S +IK ++TD GGEF + F+ FL GI H++TCPHT +QNG E KHR
Sbjct: 566 KFKTIAEKLFSTSIKQIQTDNGGEFTSNQFKQFLTAQGIFHRLTCPHTSQQNGIVERKHR 625
Query: 374 HLLDVARTLLIQSFLPQSYWLESIFTANYLINRLPTKSLNFISPFEKLFHNVPDYTFLKV 433
H+ ++ TLL QS L YW+++ T+ +LINRLPTK L+ ++P+ L P Y L+V
Sbjct: 626 HIQEMGLTLLAQSSLSPQYWVDAFLTSVFLINRLPTKVLDNLTPYFLLHKTEPTYMDLRV 685
Query: 434 FGCACFPWLKPYASNKLSPRSKTCVFIGYTQDHKGYKCLDITTGRVYVSRHVTFNEFCFP 493
FGCAC+P L+PY +KL+ RSK C+F+GY+ KGY+CLD+ T RVY+SRHV F+E FP
Sbjct: 686 FGCACYPLLRPYNDHKLTFRSKKCIFLGYSNCQKGYRCLDLATKRVYISRHVIFDEHSFP 745
Query: 494 FSTMTKTDSPIPTPSTSPFIIAYNSNLVPVNTLPISPPAISPSPQPMSPSPQPISPTSPI 553
+ + + T + +I P IS SPQ + P IS +PI
Sbjct: 746 AKELAEYTTSRRTNPPADIVI----------------PPISHSPQVL-PEXDNIS-NNPI 787
Query: 554 SAPSLTSSVPSSSSSTHSIPPLNHHPMQTRAKSGIFKPKS-----MLLTTRHPISPILLA 608
P+ T +QTR K+G +PKS + TRHP+ A
Sbjct: 788 VQPTFTQ-------------------IQTRXKTGHSQPKSFPDYTLYYHTRHPLQA-FSA 827
Query: 609 QSLPPTPTCFTQANKDPK 626
P PT +TQA+ P+
Sbjct: 828 VLDTPEPTSYTQASLCPR 845
>CAN68489.1 hypothetical protein VITISV_037543 [Vitis vinifera]
Length = 1449
Score = 449 bits (1155), Expect = e-139, Method: Compositional matrix adjust.
Identities = 260/655 (39%), Positives = 361/655 (55%), Gaps = 53/655 (8%)
Query: 6 RISNGNRTPPPNFNGSSTNRPTCQICHKVGHTALECYHRLNFSYQGRSP----------- 54
R +NG R+ SS +RP CQ+C K GHT + CYHR + ++QG +P
Sbjct: 305 RGTNGGRSQ------SSQHRPQCQLCGKFGHTVVRCYHRFDINFQGYNPNMDTVQTNKPN 358
Query: 55 -PSNLHAMIASANVFGHNPWFADSGATNHITPDLSQLASSSGINGSERINAANGQGMLIT 113
+ + AM+AS + WF D+GAT+H++ + L+ G++++ NG+ + I
Sbjct: 359 AKNQVQAMMASPSTISDEAWFFDTGATHHLSQSIDPLSDVQPYMGNDKVIVGNGKHLRIL 418
Query: 114 HTGNTSFVKNNRCFRLNNVLRVPQATHNLLSVHKFTTDNNCSLTFDPFGYYVKDLFSTKT 173
HTG T F +++ F+L VL VP NL+SV +F DNN F P ++VKD + K
Sbjct: 419 HTGTTFFPSSSKTFQLRQVLHVPDIATNLISVSQFCADNNTFFEFHPRFFFVKDQVTKKI 478
Query: 174 IIQGPTEDGLYPISLSLNKPSSTHALSAQSSQEHL---------WHRRLAHPSFQSLQRL 224
++QG E GLY PS +S+ + WH RL HP+ L+ +
Sbjct: 479 LLQGSLEHGLYRFPARF-VPSPAAFVSSSYDRSSNLSLTTTTTLWHSRLGHPADNILKHI 537
Query: 225 KQFIFPNNTSLKPIFCNECQLGRSTKLPFAISESCSSQPLELLHVDLWGPSPVSSVSGYR 284
++ K C CQ +S KLPF + S +S PL LLH DLWGP + S +G R
Sbjct: 538 LTSCNISHQCHKNNVCCACQFAKSHKLPFNVXVSRASHPLALLHADLWGPXSIPSTTGAR 597
Query: 285 YYANIIDDFTKFCWVLPLHNKSDFKNAFVIFKNTIENKLSCTIKTLRTDGGGEFLHSSFR 344
Y+ +DDF++F W+ PLH+K + F+ FK+ +EN+ + I+ LR+D GGEF +F
Sbjct: 598 YFILFVDDFSRFSWIYPLHSKDQALSVFIKFKSLVENQFNSRIQCLRSDNGGEF--KAFS 655
Query: 345 SFLQHSGITHQMTCPHTPEQNGTAESKHRHLLDVARTLLIQSFLPQSYWLESIFTANYLI 404
S+L GI Q +CP+TPEQNG AE K RH+++ LL + LP +WL + TA +LI
Sbjct: 656 SYLATHGIKSQFSCPYTPEQNGRAERKLRHIIETGLALLATASLPFKFWLYAFHTAIFLI 715
Query: 405 NRLPTKSLNFISPFEKLFHNVPDYTFLKVFGCACFPWLKPYASNKLSPRSKTCVFIGYTQ 464
NRLPTK LN+ SPF+ LF P+Y K+FGC C+P+++PY NKLS RS CVF+GY+
Sbjct: 716 NRLPTKVLNYQSPFQILFGKSPNYHIFKIFGCLCYPYIRPYNKNKLSYRSSQCVFLGYSS 775
Query: 465 DHKGYKCLDITTGRVYVSRHVTFNEFCFPFSTMTKTDSPIPTPSTSPFIIAYNSNLVPVN 524
+HKGY CL+ TGR+YV+RHV F+E FPF + S + T T F+ P +
Sbjct: 776 NHKGYMCLNPLTGRLYVTRHVVFHETVFPFQSTPDQSSSVVTIPTPAFL--------PCS 827
Query: 525 TLPISPPAISPSPQPMSPSPQPISPTSPISAPSLTSSVPSSSSSTHSIPPLNHHPMQTRA 584
+ P+S + SP P P+S IS P L VP + ST P N HPM TRA
Sbjct: 828 SPPVSSLRSHTTXSTSSP-PLTNMPSSTISLPDLI-QVPFADISTSEPHPTNQHPMVTRA 885
Query: 585 KSGIFKPKSMLLTTRHPISPILLAQSLPPTPTCFTQANKDPKWRLAMSEEFSALQ 639
K+GI K K + S PT FTQA KD W LAM +EFSALQ
Sbjct: 886 KNGISKKK-------------VYFSSHISEPTTFTQAVKDSNWVLAMEKEFSALQ 927