Miyakogusa Predicted Gene
- Lj0g3v0082899.1
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= Lj0g3v0082899.1 Non Chatacterized Hit- tr|I1LBQ2|I1LBQ2_SOYBN
Uncharacterized protein OS=Glycine max GN=Gma.58241 PE,75.44,0,CELL
DIVISION CYCLE 5-LIKE PROTEIN,NULL; MYB-LIKE DNA-BINDING PROTEIN
MYB,NULL; coiled-coil,NULL; se,CUFF.4334.1
(514 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma10g30870.1 613 e-175
Glyma20g36600.2 598 e-171
Glyma20g36600.1 410 e-114
>Glyma10g30870.1
Length = 962
Score = 613 bits (1582), Expect = e-175, Method: Compositional matrix adjust.
Identities = 326/513 (63%), Positives = 362/513 (70%), Gaps = 12/513 (2%)
Query: 1 MTPTRSEFSLGMAPKGTPLRDELRINDDMNTPNSAKLEQQRQADXXXXXXXXXXXXPQPK 60
MTPTR FS M PKGTPLRDEL IN+DMN +S KLE QRQAD PQPK
Sbjct: 428 MTPTRDGFSFSMTPKGTPLRDELHINEDMNMHDSTKLELQRQADMRRSLRSGLGSLPQPK 487
Query: 61 NEYQIVMQPVPXXXXXXXXXXXXDMSDXXXXXXXXXXXXXXXXXXKRSKVLQRQLPRPPA 120
NEYQIVM PV DMSD KRSKVLQR+LPRPP
Sbjct: 488 NEYQIVMPPVLEDAEEPEEKIEEDMSDRIAREKAEEEARQQALLRKRSKVLQRELPRPPT 547
Query: 121 ASLELIRYSLMRDDGDKSSFVPPTSMEQADEFIRRELLTLLEHDNAKYPLDDKVGKEKKK 180
ASLELIR SLMR DGDKSSFVPPTS+EQADE IRRELLTLLEHDN KYPLDDKV KEKKK
Sbjct: 548 ASLELIRNSLMRTDGDKSSFVPPTSIEQADEMIRRELLTLLEHDNGKYPLDDKVIKEKKK 607
Query: 181 RPKNAANGSVVPLIEDFEEDEMQEADRLIKEEARYLCIAMGHGSEPLDEFIEAHNTCLND 240
K A NGS VP+IEDF+EDEM+EAD+LIKEEA YLC AMGH EPLDEFIEAH TCLND
Sbjct: 608 GAKRAVNGSAVPVIEDFQEDEMKEADKLIKEEALYLCAAMGHEDEPLDEFIEAHRTCLND 667
Query: 241 LMYFPTREAYGLSSVAGNMEKVTSLQHEFESVRNKLEDGKVKIARLEKKVIVLTQGYEVR 300
LMYFPTR AYGLSSVAGNMEK+ +LQ+EFE+VRNKL+DGK K+ RLEKKV+VLTQGYE+R
Sbjct: 668 LMYFPTRNAYGLSSVAGNMEKLAALQNEFENVRNKLDDGKEKMVRLEKKVMVLTQGYEMR 727
Query: 301 AKQSLGPQIEATFRQMDVAATEIECFIALQKQEQLAASHRINNLRDEVXXXXXXXXXXXX 360
K+SL PQIEATF+QMDVAATE+ECF ALQKQEQLAASHRINNL EV
Sbjct: 728 VKKSLWPQIEATFKQMDVAATELECFKALQKQEQLAASHRINNLWGEVQKQKELEKTLQN 787
Query: 361 XYVSLIEELEKKQAMMEQYRALAQQQEEIEALSHAHXXXXXXXXXX------XXXXCKDM 414
Y SLIEELEK Q +M+Q R LAQQQEEIEA +HA C+ +
Sbjct: 788 RYGSLIEELEKMQNVMDQCRLLAQQQEEIEANNHARESTEIIESKAGETDVQSTENCETV 847
Query: 415 PHSLEHGSVVADDPSHVGTANQQVDIVQDQGTSSPKKDMDVDSDEVHEDVKLPDATIAAE 474
P S+EHG +A + S GTA+QQVDIV DQ TSS DMDVDSD KL + T AAE
Sbjct: 848 PDSVEHGHALAVESSDDGTADQQVDIVHDQATSSVSHDMDVDSD------KLANPTPAAE 901
Query: 475 NDNGKVEGTGTDGDAYNGENTLDMGAAVEISTS 507
N +GK+E T T +G+ L+MGAAVE+S+S
Sbjct: 902 NVDGKLEVTATASYTDDGKTMLEMGAAVEVSSS 934
>Glyma20g36600.2
Length = 963
Score = 598 bits (1543), Expect = e-171, Method: Compositional matrix adjust.
Identities = 327/514 (63%), Positives = 364/514 (70%), Gaps = 15/514 (2%)
Query: 1 MTPTRSEFSLGMAPKGTPLRDELRINDDMNTPNSAKLEQQRQADXXXXXXXXXXXXPQPK 60
MTPTR FS M PKGTPLRD L IN+DMN +S KLE QRQAD PQPK
Sbjct: 428 MTPTRDGFSFSMTPKGTPLRDALHINEDMNMHDSTKLELQRQADMRRSLRSGLGSLPQPK 487
Query: 61 NEYQIVMQPVPXXXXXXXXXXXXDMSDXXXXXXXXXXXXXXXXXXKRSKVLQRQLPRPPA 120
NEYQIVMQPVP DMSD KRSKVLQR+LPRPP
Sbjct: 488 NEYQIVMQPVPEDAEEPEEKIEEDMSDRIAREKAEEEARQQALLRKRSKVLQRELPRPPT 547
Query: 121 ASLELIRYSLMRDDGDKSSFVPPTSMEQADEFIRRELLTLLEHDNAKYPLDDKVGKEKKK 180
ASLELIR SLMR D DKSSFVPPTS+EQADE IRRELL+LLEHDNAKYPLD+KV KEKKK
Sbjct: 548 ASLELIRNSLMRTDVDKSSFVPPTSIEQADEMIRRELLSLLEHDNAKYPLDEKVIKEKKK 607
Query: 181 RPKNAANGSVVPLIEDFEEDEMQEADRLIKEEARYLCIAMGHGSEPLDEFIEAHNTCLND 240
K A NGS VP+IEDFEEDEM+EAD+LIKEEA YLC AMGH EPLDEFIEAH TCLND
Sbjct: 608 GAKRAVNGSAVPVIEDFEEDEMKEADKLIKEEALYLCAAMGHEDEPLDEFIEAHRTCLND 667
Query: 241 LMYFPTREAYGLSSVAGNMEKVTSLQHEFESVRNKLEDGKVKIARLEKKVIVLTQGYEVR 300
LMYFPTR AYGLSSVAGNMEK+T+LQ+EFE+VR+KL+D K K RLEKKV+VLTQGYE+R
Sbjct: 668 LMYFPTRNAYGLSSVAGNMEKLTALQNEFENVRSKLDDDKEKTVRLEKKVMVLTQGYEMR 727
Query: 301 AKQSLGPQIEATFRQMDVAATEIECFIALQKQEQLAASHRINNLRDEVXXXXXXXXXXXX 360
K+SL PQIEATF+QMDVAATE+ECF ALQKQEQLAASHRINNL EV
Sbjct: 728 VKKSLWPQIEATFKQMDVAATELECFKALQKQEQLAASHRINNLWAEVQKQKELEKTLQN 787
Query: 361 XYVSLIEELEKKQAMMEQYRALAQQQEEIEALSHAHXXXXXXXXXX------XXXXCKDM 414
Y SLIEELEK Q +M+Q R AQQQEEI+A +HA C+ +
Sbjct: 788 RYGSLIEELEKMQNVMDQCRLQAQQQEEIKA-NHARESTETPETKADGIDVQGTANCEAV 846
Query: 415 PHSLEHGSVVADDPSHVGTANQQVDIVQDQGTSSPKKDMDVDSDEVHEDVKLPDATIAAE 474
PHS+EHG +A + S GTA+QQVDIV DQ TSS DMDVDSD KL + T AAE
Sbjct: 847 PHSVEHGRALAVESSADGTADQQVDIVHDQATSSVSHDMDVDSD------KLANPTPAAE 900
Query: 475 NDNGKVEGTGTDGDAY--NGENTLDMGAAVEIST 506
N + KVEGTGT +Y +GE L+MGAAVE+S+
Sbjct: 901 NVDEKVEGTGTGTGSYTDDGETMLEMGAAVEVSS 934
>Glyma20g36600.1
Length = 1509
Score = 410 bits (1053), Expect = e-114, Method: Compositional matrix adjust.
Identities = 208/299 (69%), Positives = 224/299 (74%)
Query: 1 MTPTRSEFSLGMAPKGTPLRDELRINDDMNTPNSAKLEQQRQADXXXXXXXXXXXXPQPK 60
MTPTR FS M PKGTPLRD L IN+DMN +S KLE QRQAD PQPK
Sbjct: 507 MTPTRDGFSFSMTPKGTPLRDALHINEDMNMHDSTKLELQRQADMRRSLRSGLGSLPQPK 566
Query: 61 NEYQIVMQPVPXXXXXXXXXXXXDMSDXXXXXXXXXXXXXXXXXXKRSKVLQRQLPRPPA 120
NEYQIVMQPVP DMSD KRSKVLQR+LPRPP
Sbjct: 567 NEYQIVMQPVPEDAEEPEEKIEEDMSDRIAREKAEEEARQQALLRKRSKVLQRELPRPPT 626
Query: 121 ASLELIRYSLMRDDGDKSSFVPPTSMEQADEFIRRELLTLLEHDNAKYPLDDKVGKEKKK 180
ASLELIR SLMR D DKSSFVPPTS+EQADE IRRELL+LLEHDNAKYPLD+KV KEKKK
Sbjct: 627 ASLELIRNSLMRTDVDKSSFVPPTSIEQADEMIRRELLSLLEHDNAKYPLDEKVIKEKKK 686
Query: 181 RPKNAANGSVVPLIEDFEEDEMQEADRLIKEEARYLCIAMGHGSEPLDEFIEAHNTCLND 240
K A NGS VP+IEDFEEDEM+EAD+LIKEEA YLC AMGH EPLDEFIEAH TCLND
Sbjct: 687 GAKRAVNGSAVPVIEDFEEDEMKEADKLIKEEALYLCAAMGHEDEPLDEFIEAHRTCLND 746
Query: 241 LMYFPTREAYGLSSVAGNMEKVTSLQHEFESVRNKLEDGKVKIARLEKKVIVLTQGYEV 299
LMYFPTR AYGLSSVAGNMEK+T+LQ+EFE+VR+KL+D K K RLEKKV+VLTQGYE
Sbjct: 747 LMYFPTRNAYGLSSVAGNMEKLTALQNEFENVRSKLDDDKEKTVRLEKKVMVLTQGYEF 805