Miyakogusa Predicted Gene
- Lj6g3v1392460.2
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= Lj6g3v1392460.2 Non Chatacterized Hit- tr|I3SXQ0|I3SXQ0_LOTJA
Uncharacterized protein OS=Lotus japonicus PE=2
SV=1,99.1,0,MOLYBDOPTERIN COFACTOR SULFURASE (MOSC),NULL;
MOSC,Molybdenum cofactor sulfurase, C-terminal; MOSC N,CUFF.59459.2
(332 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma09g05530.1 441 e-124
Glyma09g05520.1 437 e-123
Glyma09g00460.2 97 3e-20
Glyma09g00460.1 96 4e-20
>Glyma09g05530.1
Length = 339
Score = 441 bits (1134), Expect = e-124, Method: Compositional matrix adjust.
Identities = 210/313 (67%), Positives = 251/313 (80%), Gaps = 2/313 (0%)
Query: 21 ATTTEIPGGKVSDIFVYPIKSCRGISVSSAPFTPAGFRWDREWMVVNSRGKAISQRNEPK 80
++T P KVS IF+YPIKSCR ISVS AP TP GFRWDR+WMVVNS+G+ +QR EP+
Sbjct: 28 SSTPATPSAKVSAIFIYPIKSCRAISVSRAPLTPTGFRWDRQWMVVNSQGRMYTQRVEPR 87
Query: 81 LALVHVDLPNEAFAEDWQAPEDSFMELKAPGMQPLKVCLGKQ-PELKNGFSVWEWTGSAW 139
LALV V+LP+EAF E+W+ +DS+M + APGMQPLK+CL +Q E+ N SVWEWTGSA
Sbjct: 88 LALVEVELPSEAFLENWEPTQDSYMVVNAPGMQPLKICLSQQGKEVANAVSVWEWTGSAL 147
Query: 140 DEGSEASQWFSAFLGKPSQLVRFNTASEVRQVDPDYVKGHHPTLFTDGYPFLLSSQDSLN 199
DEG+EASQWFS +LGKP QLVRFN+ASEVR VDPDYVKG H T FTDGYPFLL+SQ+SL+
Sbjct: 148 DEGAEASQWFSDYLGKPCQLVRFNSASEVRPVDPDYVKGQHQTTFTDGYPFLLASQESLD 207
Query: 200 ALNELLEEPININRFRANILVEGCEPFAEDLWSEIKIGRFSFLGSKMCGRCKITTTDQET 259
LNE L+EP++INRFR NILVEGCEP++EDLW++IKI +F F G K+C RCKI T +QET
Sbjct: 208 ELNEHLKEPVSINRFRPNILVEGCEPYSEDLWTDIKISKFLFSGVKLCYRCKIPTINQET 267
Query: 260 AIVGREPLQTLMTFRSGKLIRPQDKKNRAMSYFGQYVVWNWNDSSAKGSGKVLKVGDPVY 319
AI EP +TLM RSG+LIRP D KN+ YFGQ + WNW SA+GSGK++KVGD VY
Sbjct: 268 AIAAPEPNETLMKTRSGELIRPND-KNKKRIYFGQNMTWNWMGFSAEGSGKIIKVGDSVY 326
Query: 320 VLQKFSSPAEAPA 332
VLQK SS AEA A
Sbjct: 327 VLQKVSSTAEAAA 339
>Glyma09g05520.1
Length = 315
Score = 437 bits (1125), Expect = e-123, Method: Compositional matrix adjust.
Identities = 207/307 (67%), Positives = 245/307 (79%), Gaps = 1/307 (0%)
Query: 26 IPGGKVSDIFVYPIKSCRGISVSSAPFTPAGFRWDREWMVVNSRGKAISQRNEPKLALVH 85
IP KVS +F+YPIKSCRGISVS AP TPAG RWDREW+VVNS+G+A +QR +PKLALV
Sbjct: 10 IPAVKVSRLFIYPIKSCRGISVSYAPLTPAGLRWDREWVVVNSQGRACTQRVDPKLALVE 69
Query: 86 VDLPNEAFAEDWQAPEDSFMELKAPGMQPLKVCLGKQPELKNGFSVWEWTGSAWDEGSEA 145
V+LPN+A ED++ DS+M LKAPGM+PL +CL KQ E+ + +VWEWTGSAWDEG+EA
Sbjct: 70 VELPNDALVEDFEPTSDSYMVLKAPGMKPLNICLSKQHEVTDAVTVWEWTGSAWDEGAEA 129
Query: 146 SQWFSAFLGKPSQLVRFNTASEVRQVDPDYVKGHHPTLFTDGYPFLLSSQDSLNALNELL 205
SQWFS FLGKP QLVRFN+ASEVRQVDPDYV+G H T F+DGYPFLL SQ+SL+ALNELL
Sbjct: 130 SQWFSDFLGKPCQLVRFNSASEVRQVDPDYVRGQHRTYFSDGYPFLLLSQESLDALNELL 189
Query: 206 EEPININRFRANILVEGCEPFAEDLWSEIKIGRFSFLGSKMCGRCKITTTDQETAIVGRE 265
+E I ILVEGC+P++EDLW+EIKI RFSFLG K+C RCK+ T +QET I G E
Sbjct: 190 KERIPTTFQTHFILVEGCDPYSEDLWTEIKISRFSFLGVKLCSRCKVPTINQETGIAGSE 249
Query: 266 PLQTLMTFRSGKLIRPQDKKNRAMSYFGQYVVWNWNDSSAKGSGKVLKVGDPVYVLQKFS 325
P +TLM RSGK+IRP + KN+ YFGQ +VWNW DSS KGSGK +KVGDPVY+L S
Sbjct: 250 PTETLMKTRSGKVIRP-NAKNKNKVYFGQNLVWNWMDSSVKGSGKTIKVGDPVYILGNVS 308
Query: 326 SPAEAPA 332
S EA A
Sbjct: 309 SAEEAAA 315
>Glyma09g00460.2
Length = 815
Score = 96.7 bits (239), Expect = 3e-20, Method: Compositional matrix adjust.
Identities = 79/279 (28%), Positives = 132/279 (47%), Gaps = 42/279 (15%)
Query: 28 GGKVSDIFVYPIKSCRGISVSSAPFTPAGFRWDREWMVVNSRGKAISQRNEPKLALV--H 85
G + I +YPIKSC G S SS P + G DREW++ + G+ ++Q+ P++ +
Sbjct: 522 GYYLKSITIYPIKSCGGFSASSWPLSNNGLTHDREWILKSLTGEILTQKKVPEMGFISTF 581
Query: 86 VDLPNEA-FAEDWQAPEDSFMELKAPGMQPLKVCLGKQPELKNGFSVWEWTGSAWDEGSE 144
+DL F E + E + L++ G E++ ++ + +E
Sbjct: 582 IDLSQGMLFVESPRCEERLQIRLESD-------VYGVIEEIE----LYGQRYEVYSYDNE 630
Query: 145 ASQWFSAFLGKPSQLVRFNTASEVRQVDPDYVKG-------HHPTLFTDGYPFLLSSQDS 197
+ WFS +GK L+R+++ + ++ +KG + F + FLL S++S
Sbjct: 631 TNSWFSEAIGKTCSLLRYSSFDQDFMLNK--IKGAATCRDPKNKLNFANEAQFLLVSEES 688
Query: 198 LNALNELLEEPI-----------NINRFRANILVEGCEPFAEDLWSEIKIGR--FSFLGS 244
++ LN L + + +RFR N++V G P+AED W I+IG FS LG
Sbjct: 689 VSDLNRRLSSDVQKGIYGKVMQVSASRFRPNLVVSGGRPYAEDGWRYIRIGNKYFSSLGG 748
Query: 245 KMCGRCKITTTDQETAIVGR--EPLQTLMTFR--SGKLI 279
C RC+I V + EPL TL ++R GK++
Sbjct: 749 --CNRCQIINLTINAGQVQKSNEPLATLASYRRVKGKIL 785
>Glyma09g00460.1
Length = 816
Score = 96.3 bits (238), Expect = 4e-20, Method: Compositional matrix adjust.
Identities = 78/275 (28%), Positives = 129/275 (46%), Gaps = 40/275 (14%)
Query: 28 GGKVSDIFVYPIKSCRGISVSSAPFTPAGFRWDREWMVVNSRGKAISQRNEPKLALV--H 85
G + I +YPIKSC G S SS P + G DREW++ + G+ ++Q+ P++ +
Sbjct: 522 GYYLKSITIYPIKSCGGFSASSWPLSNNGLTHDREWILKSLTGEILTQKKVPEMGFISTF 581
Query: 86 VDLPNEA-FAEDWQAPEDSFMELKAPGMQPLKVCLGKQPELKNGFSVWEWTGSAWDEGSE 144
+DL F E + E + L++ G E++ ++ + +E
Sbjct: 582 IDLSQGMLFVESPRCEERLQIRLESD-------VYGVIEEIE----LYGQRYEVYSYDNE 630
Query: 145 ASQWFSAFLGKPSQLVRFNTASEVRQVDPDYVKG-------HHPTLFTDGYPFLLSSQDS 197
+ WFS +GK L+R+++ + ++ +KG + F + FLL S++S
Sbjct: 631 TNSWFSEAIGKTCSLLRYSSFDQDFMLNK--IKGAATCRDPKNKLNFANEAQFLLVSEES 688
Query: 198 LNALNELLEEPI-----------NINRFRANILVEGCEPFAEDLWSEIKIGR--FSFLGS 244
++ LN L + + +RFR N++V G P+AED W I+IG FS LG
Sbjct: 689 VSDLNRRLSSDVQKGIYGKVMQVSASRFRPNLVVSGGRPYAEDGWRYIRIGNKYFSSLGG 748
Query: 245 KMCGRCKITTTDQETAIVGR--EPLQTLMTFRSGK 277
C RC+I V + EPL TL ++R K
Sbjct: 749 --CNRCQIINLTINAGQVQKSNEPLATLASYRRVK 781