Miyakogusa Predicted Gene
- Lj6g3v0920470.1
BLASTP 2.2.25 [Feb-01-2011]
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= Lj6g3v0920470.1 Non Chatacterized Hit- tr|I1KY71|I1KY71_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.39532
PE,84.26,0,seg,NULL; ACYLAMINO-ACID-RELEASING ENZYME,NULL; PROTEASE
FAMILY S9B,C DIPEPTIDYL-PEPTIDASE IV-RELATE,CUFF.58525.1
(704 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma08g42730.1 1171 0.0
Glyma18g11480.1 1110 0.0
Glyma10g00320.1 89 2e-17
Glyma10g00350.1 87 6e-17
Glyma18g11510.1 84 4e-16
Glyma06g13410.1 54 4e-07
>Glyma08g42730.1
Length = 740
Score = 1171 bits (3030), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 577/706 (81%), Positives = 613/706 (86%), Gaps = 3/706 (0%)
Query: 1 MATLASAVATLTRVXXXXXXXCYSRLISPXXXXXXXXXXXXXXXXXXQRHRFCCYNSSKG 60
MATLA AV TLT YS QR RF C N +
Sbjct: 1 MATLAIAVLTLTTRFSSSSSPYYSNFFF-TRSFNHFTTKLVSFEKTHQRRRFFCSNCKRA 59
Query: 61 MXXXXXXX--XXXXRVTAPYGSWKSPITADVVSGASKRLGGTAVDGSGRLIWLESRPNES 118
M R+TAPYGSWKSPIT DVVSGASKRLGGTAVDG GRLIWLESRP ES
Sbjct: 60 MASSAATTIPSLSERITAPYGSWKSPITTDVVSGASKRLGGTAVDGRGRLIWLESRPAES 119
Query: 119 GRAVLVLEPENPGGDPVDITPKEFGVRTLAQEYGGGAFTVSGDTVFFANYKDQRLYKQSI 178
GR VLV+EPENPGG+ VDITPKEFGVRT+AQEYGGGAFTVSGD VFFANYKDQRLYKQSI
Sbjct: 120 GRGVLVVEPENPGGEAVDITPKEFGVRTVAQEYGGGAFTVSGDVVFFANYKDQRLYKQSI 179
Query: 179 TSLDVPPAPLTPDYGSPVVSYADGILDSRFNRFISVREDRRESSLNPPTTIVSIALGSKD 238
+SLDVPP PLTPDYG PVVSYADGILD RFNRFISVREDR ESS NP TTIVSIALGSKD
Sbjct: 180 SSLDVPPIPLTPDYGGPVVSYADGILDVRFNRFISVREDRCESSQNPTTTIVSIALGSKD 239
Query: 239 VQEPEVLVGGSDFYAFPRLDAKSERIAWIQWNHPNMPWDKSELWVGYISENGEIYKRVCV 298
QEP+VLVGGSDFYAFPRLD KSER+AWIQW+HPNMPWDKSELWVGYISENGEIYKRVCV
Sbjct: 240 AQEPQVLVGGSDFYAFPRLDPKSERMAWIQWSHPNMPWDKSELWVGYISENGEIYKRVCV 299
Query: 299 AGCDPSLVESPTEPMWSPDGDLFFITDRGNGFWNLHKWIESENKVLPVYSLDAEFARPLW 358
AG +PSLVESPTEP WS DG+LFFITDR NGFWNLHKWIESENKVLPVYSL+AEFARPLW
Sbjct: 300 AGNNPSLVESPTEPKWSSDGELFFITDRENGFWNLHKWIESENKVLPVYSLEAEFARPLW 359
Query: 359 VFGMNSYDFVQSHKQRNLIACSYRQKGMSYLGIIEDVQGSKPTVLDIPFTDLDNITSGND 418
+FGMNSY+F+QSH ++NLIACSYRQ+G SYLGII+DV+GSK TVLDIPFTD+DNITS N+
Sbjct: 360 IFGMNSYEFLQSHTRKNLIACSYRQQGKSYLGIIDDVKGSKLTVLDIPFTDIDNITSSNN 419
Query: 419 CLYVEGASAVLPSSVAKVTLDDDKSKAVEFRIIWSSSPDCLKYSSYISKPELIEFPTEVP 478
L+VEGASAV PSSVAKVTLD+DKSKAV+F IIWSSSPD LKYSSY SKPELIEFPTEVP
Sbjct: 420 YLFVEGASAVHPSSVAKVTLDNDKSKAVDFNIIWSSSPDSLKYSSYFSKPELIEFPTEVP 479
Query: 479 GQNAYAYFYPPSNPMYQASHGEKPPLLLKSHGGPTAESHGILNLSIQYWTSRGWAFVDVN 538
GQNAYAYFYPP+NP +QAS EKPPLLLKSHGGPTAE+ GILNLSIQYWTSRGWAFVDVN
Sbjct: 480 GQNAYAYFYPPTNPDFQASEEEKPPLLLKSHGGPTAETRGILNLSIQYWTSRGWAFVDVN 539
Query: 539 YGGSTGYGRDYRERLLGQWGIVDVNDCCSCAKYLVDSGKVDAERLCITGGSAGGYTTLAA 598
YGGSTGYGR++RERLLG+WGIVDVNDCCSCA YLV+SGKVD ERLCITGGSAGGYTTLAA
Sbjct: 540 YGGSTGYGREFRERLLGRWGIVDVNDCCSCATYLVNSGKVDGERLCITGGSAGGYTTLAA 599
Query: 599 LAFKETFKAGASLYGVADVNMLTAETHKFESHYIDKLVGGEKNGSERSPINHVDKFSCPI 658
LAFKETFKAGASLYGVADVNML AETHKFESHYID+L GGEK ERSPINHVDKFSCPI
Sbjct: 600 LAFKETFKAGASLYGVADVNMLRAETHKFESHYIDRLGGGEKGCYERSPINHVDKFSCPI 659
Query: 659 ILFQGLEDRVVLPEQARKIYQAVKEKGVPVALVEYEGEQHGFRKAE 704
ILFQGL+D+VV PEQARKIYQA+KEKGVPVALVEYEGEQHGFRKAE
Sbjct: 660 ILFQGLDDKVVPPEQARKIYQALKEKGVPVALVEYEGEQHGFRKAE 705
>Glyma18g11480.1
Length = 668
Score = 1110 bits (2871), Expect = 0.0, Method: Compositional matrix adjust.
Identities = 532/631 (84%), Positives = 574/631 (90%), Gaps = 1/631 (0%)
Query: 74 VTAPYGSWKSPITADVVSGASKRLGGTAVDGSGRLIWLESRPNESGRAVLVLEPENPGGD 133
TAPYGSWKSPIT+D VSGA+K LGGT +DG GRLIWLE RP ESGR VLVLEPEN GG+
Sbjct: 3 TTAPYGSWKSPITSDDVSGATKDLGGTTIDGRGRLIWLEFRPTESGRGVLVLEPENNGGE 62
Query: 134 PVDITPKEFGVRTLAQEYGGGAFTVSGDTVFFANYKDQRLYKQSITSLDVPPAPLTPDYG 193
VDITPKEFGVRTLAQEYGGGAFTVSGD VFFANY DQRLYKQSI+SLDVPP PLTPDYG
Sbjct: 63 AVDITPKEFGVRTLAQEYGGGAFTVSGDVVFFANYNDQRLYKQSISSLDVPPVPLTPDYG 122
Query: 194 SPVVSYADGILDSRFNRFISVREDRRESSLNPPTTIVSIALGSKDVQEPEVLVGGSDFYA 253
P+VSYADG LD+RFNRFISVREDRRESSLNPPTTIVSIALGSKD+QEPEVLV GSDFYA
Sbjct: 123 GPLVSYADGRLDARFNRFISVREDRRESSLNPPTTIVSIALGSKDLQEPEVLVSGSDFYA 182
Query: 254 FPRLDAKSERIAWIQWNHPNMPWDKSELWVGYISENGEIYKRVCVAGCDPSLVESPTEPM 313
FPRLD+KSERI WIQWNHP+MPWDK+ELWVGYISENGEIYKRVC+AG DPS VESPTEP
Sbjct: 183 FPRLDSKSERITWIQWNHPSMPWDKTELWVGYISENGEIYKRVCIAGNDPSRVESPTEPK 242
Query: 314 WSPDGDLFFITDRGNGFWNLHKWIESENKVLPVYSLDAEFARPLWVFGMNSYDFVQSHKQ 373
WS DG+LFF+TD+ NGFWN+HKWIE ENKV+ VYSL+AEF RPLW +GMNSY+FV+S KQ
Sbjct: 243 WSLDGELFFVTDKENGFWNIHKWIEFENKVVSVYSLEAEFTRPLWTYGMNSYEFVESSKQ 302
Query: 374 RNLIACSYRQKGMSYLGIIEDVQGSKPTVLDIPFTDLDNITSGNDCLYVEGASAVLPSSV 433
+NLIACSYRQ G SYLGII DVQGSK TV+D P TD++NITSGNDCLYVEGAS VLPSSV
Sbjct: 303 KNLIACSYRQHGKSYLGII-DVQGSKLTVIDFPCTDINNITSGNDCLYVEGASEVLPSSV 361
Query: 434 AKVTLDDDKSKAVEFRIIWSSSPDCLKYSSYISKPELIEFPTEVPGQNAYAYFYPPSNPM 493
AKVT DDDKSKAV+F IIWSSSPD LKYSSYISKPE IEFPTEVPGQNAYAYFYPPSNP
Sbjct: 362 AKVTFDDDKSKAVDFNIIWSSSPDSLKYSSYISKPEFIEFPTEVPGQNAYAYFYPPSNPD 421
Query: 494 YQASHGEKPPLLLKSHGGPTAESHGILNLSIQYWTSRGWAFVDVNYGGSTGYGRDYRERL 553
+QAS EKPPLLLKSHGGPT E+ GILNLS+QYWTSRGWA VDVNYGGSTGYGR YRERL
Sbjct: 422 FQASKEEKPPLLLKSHGGPTQETRGILNLSVQYWTSRGWAVVDVNYGGSTGYGRVYRERL 481
Query: 554 LGQWGIVDVNDCCSCAKYLVDSGKVDAERLCITGGSAGGYTTLAALAFKETFKAGASLYG 613
L QWGIVDVNDCCSCA YLVDSGKVD ERLCI GGSAGGYTTLA LAF++TF+AGASLYG
Sbjct: 482 LRQWGIVDVNDCCSCATYLVDSGKVDKERLCIMGGSAGGYTTLAVLAFRDTFQAGASLYG 541
Query: 614 VADVNMLTAETHKFESHYIDKLVGGEKNGSERSPINHVDKFSCPIILFQGLEDRVVLPEQ 673
+AD+N+L AETHKFESHY++ LVG +K+ ERSPINHVD FSCPII+FQGLED+VV P+Q
Sbjct: 542 IADLNLLRAETHKFESHYVENLVGDDKDMYERSPINHVDNFSCPIIIFQGLEDKVVPPDQ 601
Query: 674 ARKIYQAVKEKGVPVALVEYEGEQHGFRKAE 704
ARKIYQAVKEKGVPVALVEYEGEQHGFRKAE
Sbjct: 602 ARKIYQAVKEKGVPVALVEYEGEQHGFRKAE 632
>Glyma10g00320.1
Length = 758
Score = 88.6 bits (218), Expect = 2e-17, Method: Compositional matrix adjust.
Identities = 56/216 (25%), Positives = 103/216 (47%), Gaps = 14/216 (6%)
Query: 503 PLLLKSHGGPTAESHGILNLSIQYWTSRGWAFVDVNYGGSTGYGRDYRERLLGQWGIVDV 562
PL++ HGGP S + + + +S G++ + VNY GS G+G + + L G+ G DV
Sbjct: 525 PLIVILHGGPHDVSLSHFSKYLAFQSSVGYSLLIVNYRGSLGFGEEALQSLPGKVGSQDV 584
Query: 563 NDCCSCAKYLVDSGKVDAERLCITGGSAGGYTTLAALA-FKETFKAGASLYGVADVNMLT 621
ND S ++++ G ++ + G S GG+ T + + F A A++ V ++ ++
Sbjct: 585 NDVLSAIDHVINLGLASPSKITVMGISHGGFLTTHLIGQAPDKFVAAAAINPVCNLALMI 644
Query: 622 AETHKFESHYIDKLVGGEKNG-------------SERSPINHVDKFSCPIILFQGLEDRV 668
T + Y++ KN +SPI+HV K P + G +D
Sbjct: 645 GTTDIPDWCYVEACGTIAKNCFTEPPSADDLTLFQSKSPISHVSKVKAPTLFLLGAQDIR 704
Query: 669 VLPEQARKIYQAVKEKGVPVALVEYEGEQHGFRKAE 704
V + +A+KEKGV V ++ ++ + H ++ +
Sbjct: 705 VPIFDGLQYARALKEKGVEVKIIMFQNDVHALKRPQ 740
>Glyma10g00350.1
Length = 778
Score = 87.0 bits (214), Expect = 6e-17, Method: Compositional matrix adjust.
Identities = 57/216 (26%), Positives = 101/216 (46%), Gaps = 14/216 (6%)
Query: 503 PLLLKSHGGPTAESHGILNLSIQYWTSRGWAFVDVNYGGSTGYGRDYRERLLGQWGIVDV 562
PL++ HGGP S + + Y +S G++ + VNY GS G+G + + L G+ G DV
Sbjct: 545 PLIVVLHGGPHTVSLSSFSKPLAYLSSLGYSLLIVNYRGSLGFGEEALQSLPGKAGSQDV 604
Query: 563 NDCCSCAKYLVDSGKVDAERLCITGGSAGGYTTLAALA-FKETFKAGASLYGVADVNMLT 621
ND + ++++ G ++ + GGS GG+ T + E F A A+ V ++ ++
Sbjct: 605 NDVLTAIDHVINLGLASPSKIAVLGGSHGGFLTTHLIGQAPEKFVAAAARNPVCNLALMV 664
Query: 622 AETHKFESHYIDKL-VGGEKNGSE------------RSPINHVDKFSCPIILFQGLEDRV 668
T + Y++ G +E +SPI H+ K P I G +D
Sbjct: 665 GTTDIPDWCYVETYGTKGRDKFTEAPSAEDLTLFYSKSPIAHLSKVKTPTIFLLGAQDLR 724
Query: 669 VLPEQARKIYQAVKEKGVPVALVEYEGEQHGFRKAE 704
V + +A++EKG V ++ + + HG + +
Sbjct: 725 VPISTGLQYARALREKGGQVKVIVFPNDVHGIERPQ 760
>Glyma18g11510.1
Length = 47
Score = 84.3 bits (207), Expect = 4e-16, Method: Compositional matrix adjust.
Identities = 41/46 (89%), Positives = 42/46 (91%)
Query: 73 RVTAPYGSWKSPITADVVSGASKRLGGTAVDGSGRLIWLESRPNES 118
R+TAPYGSWKSPITA VVSGASKRLGGTA DG GRLIWLESRP ES
Sbjct: 1 RITAPYGSWKSPITAGVVSGASKRLGGTAFDGCGRLIWLESRPAES 46
>Glyma06g13410.1
Length = 770
Score = 54.3 bits (129), Expect = 4e-07, Method: Compositional matrix adjust.
Identities = 57/250 (22%), Positives = 104/250 (41%), Gaps = 25/250 (10%)
Query: 465 ISKPELIEFPTEVPGQNAYAYFYPPSNPMYQASHGEKPPL--LLKSHGGPTAES-----H 517
+ PE++E G Y Y P AS PP ++ +GGP+ +
Sbjct: 515 LEPPEIVEIQAN-DGTTLYGALYKPD-----ASKFGPPPYKTMINVYGGPSVQLVCNSWL 568
Query: 518 GILNLSIQYWTSRGWAFVDVNYGGSTGYGRDYRERLLGQWGIVDVNDCCSCAKYLVDSGK 577
++L QY ++G ++ G+ G + L + G +D +D + A++LV G
Sbjct: 569 STVDLRAQYLRNQGILVWKLDNRGTARRGLKFESYLKHKLGQIDADDQLTGAEWLVKQGL 628
Query: 578 VDAERLCITGGSAGGYTTLAALA-FKETFKAGASLYGVADVNMLTAETHKFESHYIDKLV 636
+ + G S GGY + L+ + + FK + V + +++ Y +K +
Sbjct: 629 AKGGHIGLYGWSYGGYLSAMTLSRYPDFFKCAIAGAPVTSWD-------GYDTFYTEKYM 681
Query: 637 G---GEKNGSER-SPINHVDKFSCPIILFQGLEDRVVLPEQARKIYQAVKEKGVPVALVE 692
G K G E S +N V + ++L G+ D V ++ A+ G P L+
Sbjct: 682 GLPSENKLGYESGSVMNQVQQLKGRLLLVHGMIDENVHFRHTARLINALVAAGKPYELIV 741
Query: 693 YEGEQHGFRK 702
+ E+H R+
Sbjct: 742 FPDERHMPRR 751