Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi1g1v0613300 |
Transcript ID | LotjaGi1g1v0613300.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | 2-isopropylmalate synthase; TAIR: AT1G74040.1 2-isopropylmalate synthase 1; Swiss-Prot: sp|Q39891|LEU1_SOYBN Probable 2-isopropylmalate synthase; TrEMBL-Plants: tr|D0VY45|D0VY45_LOTJA Homocitrate synthase; Found in the gene: LotjaGi1g1v0613300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:115890304..115901452) extracted from Lotus japonicus Gifu genome v1.2.
GTTGGCGTCTCGATTATCACTCATAAGAATTTATTTTTTTTAAAGACAAAGGAAATATAACATTAAAATATAATAATAGG CTCCATTGTGCCAATAATGAACAGAACATATATACTAGCCACACAAACTTGGCCACTATTGCAACAAGCACACCTGGAGA GATTCAGTCCTAGTAATTAGTGCCACCTAACCCACGTTCATACACAGCAAGGATTTAAATAGCCAGCATTACCAGCAATG ATAATATGAGTCCCTGCATATATCTATATATAACAGAAAAACGAGTATTTTGCAGTAACTTGATTACCACTAAGTGTGAG TACAAGGTATTAATCGGTATCGGCAGTGAATACTTTGAGCTGACGAAAGAAATAGTAGTTCATACATCGATCCCATCCCA TGGCAGGCATAACTTCAATTATTGAATCTTGTAGAATCAAACGTAACCGCCCTGAATACATTCCGGGCCGCATTCCGGAC TCAACCTACGTGCGCATCTTGGACACCACCCTCCGCGATGGTGAGCAAGCCCCTGGCGCTGCAATGACGCGTGACCAGAA ACTCGAGGTTGCCCGGCAGCTCGTGAAGCTTGGCGTGGACATCATCGAGGCTGGGTTCCCTTCAGCGTCAAAGGAGGATT TCATGGCTGTGAAAATGATAGCTGAGGAGGTTGGCAATTTGACTGATGATGATGGGTATGTTCCTGTCATTGGAGGAGTG TGCAGGTGCAATGAGAAGGATATTGCCACTACATGGGAGGCTCTCAAGCATGCAAAAAGGCCAAGGATTCTTACTTTTAT AGCAACCAGCCCCATTCACATGGAGCTCAAGCTCAGAAAGAGTAAAGATCAGGTGCTTGAGATTGCACGAGACATGGTGA AGTACGCCAGGAGTTTAGGTTGTACTGACATCGGGTTTGCTGCTGAAGATGCTGCAAGGTTAGTTGCACTAAATTAATTC ATGTTATTATTTAGTGATTAAAATGACAATTATATTTTTATTTCACATATACTAAACTAATCGATATTAATTAGGAAAAC CAAGATAACTATTTAATTACTTTAACAAAAATAAGTCACCTAAAAAAGTATATCTTAAAGTATACTAGTAAATTTGACTT TTTATATATGCATTCTTCTATCTGCATGGAACTAGATCGGACAGAGAGTTTCTTTATCAAATTTTGGGAGAAGTTATCAA GGCTGGGGCAACAACTTTGACTATCCCTGACACTGTGGGCATAGCAATGCCATTTGAGTATGGAAAACTGATTGCGGATA TAAAAGAAAATACTCCAGGGATAGAAAATGCTATCATTTCAACCCATTGCCACAATGATCTTGGACTTGCTACTTCTAAC ACCATTGAGGTATATATAATCACAACTTTATCAGTTACAGCATCACGCGCGTGCTTCTTGAAAACAAGTTATAATAAATA ATTTTTTTAGGGTTAATGGTCAAATTAGTCTCTTAGTTTGGAAGGAAATTTGATTTTAGCCCATCTGAAGAAAAATTACG TTTAGTGGCCGTAAAAAACCCTAGTAACTATAAGAAAGACTGCCACAAAATGTCATTTTTCCTCAAATGAGACTAAAATC AAATCTGCTTCCTCCAGATTTGGCTGGGTCTCCTCCATGCCATTCCACAAGTTGCAGTGGCTGTTTAGTTGCCCTGGTCA GGAGTGGGTGCGTCAGGTTTGCAGGACACTTGGTGTCGTGGGTTTTGTTTGGTTTTGGTGGCTCTTCGGTCTGCTCCTTT TGCTTCTGGTCAGGTGAGGCAGGGTAGATCTGTGGAGTTGTTGAGTCTGGGGTTTTTTGTTCCATTTGGCTGTTAATGTT TGTTGCCGCTCCACGCTATTGCTTTTCCTTCTGGCGATTTTTGAAGCTTCTATTTGGTTTGGTTGTTCTTCTTTGGGTTT TATGGCTGCATCTGTCACTGTGATTCGTGCTTTGAAGTTAGTTGTGGTTCTTGGGTTGATCTTGTCTCTTTGAGGTGTTG TTAGGGTCCGTTGTGTTAGGCGTTTTAGCATGTGTGTATGCTTGTGGGGTTGCCATCGAGGTGTTTTTAGGTATTTTATG TTTGAATTGGGTCTTTGCCGACTTATTGACTTGCTTTAATTTGATTACTGTACCCATGTTGAGAGGACATATTTCTCAAC ACTATCTATCAATATATTTTGCTTTCAAAAAAAAAAACTTAGGGACTAATTTGACCATTAACCCATTTTTTTACTATTTT AATTTTGAAAATTAGAAAACAATTTTTTGATATGACCTACATATCCAATTTTTTTATAAAAAATAATATTTTGAAATATA TATATTATTATTTTTATAAAATAAAATAAAATATTTTTTAAAAAGCTAAACTTTATAAGTAGACATTTCATTTCCTTTTT TTGGAAAAAAAAATCGATTTTTTTGTTGTTTTTAGGGTGCTCGTTATGGGGCAAGGCAATTGGAAGTAACAATTAATGGT ATCGGTGAAAGGGCTGGTAATGCTTCACTTGAAGAGGTAAGTAGCAATCTTCTTTTATCCATAAGCATTAATAATGAAGT GTACTTATGCAAATTTCATTTGAATGTACACTCTGTCCAAATAGTTAATTTATGTGAAATAATTAGAATTCATCACTTGA TTGGTATTGCATGCAACTTGTTTCTTTTGTAAGAAAAAAAAATGGTATTGCAGCTTCAAATTGAAGTCCAGGTTCGGTCT CTGCACTTAATTTGATCTCCAAACCTTGAGCTTAGGAAATAAAAACTCCAAATTGAAGTCTTAGATGAACTAATTGAAAT TATCCTTTCCATTTTCTCTTCGATATTGATCCCTATTGATTGCTACCTCATCGTATTTTCAAAGTAATCAAATACATAAC TAGCAGCCATTTCAACACCTTCTAACCACCTGAATAACATATTAGACACATATTAGAGGATTCATCACTAGAAAATACAA CCATGAAGTCTTCTGCTCCCTTGAAAATCAGGTTGTTGTGAATAACATATAAAAGCCAATTCTTTTTTTTCCACTACTAT CAGCGTGTCTGTAGTCTCAACATAATTATCGTCATTTTTCCATTACATGTTTAACTTTTCTGGAACAAATTTGATTATAA TCTACATTTTTCCCCCTCCAATTGTTCCAATTCGTCGATTAAGTTGGTCGCTTTACTTGCCCCTGTTAGCTGTTCTTTTA TCTTAGTTTTGTTCTGTTTTTTGCTGTTTTTTCTTTTATTGTTTGTTATGTTGTTTTTGCTTGTTTTTTACTCTATAGCT TGGATTCTGGTTCATGTGGGGAACCTTGTCCACACACTACTAGAAAACACGGGATTTAGCGTTGGTTACATAGCCGCGGT TTATTGAAACCACCGCTAAATGTTTTCCTTGGAGGCGGTTGATGGGAAATTTTCTCAAGATTTTGTTTTTTTTTCTCACT ATATTTTTTAAGATTTACAATTTTTTATCATCCAAATCAGGTAGAATTGTGTCAAATAAGCCAAAAGAAATGAAAATAGA TCGAGGTCGATACTTGCCAAGGAACTTGATTACCTCAAAACAAATAAAAAGCACATAAATTATAAATATGAAAAATTTCT TCAATAATACATGGTCTTAAACTTTATCAATAATATGGTATCACTCATTTCCTCATTTTGTTTTTTCATTCAAGGTTGTG ATGGCCCTCACATGCAGGGGGAATGATATCTTAGGCGGTCTACATACTAGGATTAATACAAGGCACATATTAAAGACAAG CAAGATGGTTCTATTTCGAGACCTTACTTTTTTCTGAGTTTTTGGTCTCTTTTACTTACCTTTATTTAACTAAAATTTTC ATAATCTTTATGAATAGGTTGAAAAATACTCTGGTCTACATTTACAGCCTCACAAGGCTCTTGTTGGTGCTAATGCTTTT CTTCATGAAAGTGGCATCCATCAGGTTGGTGATGTTTATTCCATTTATCATTGTCTTTCTAAAGACTAATGTTTATATAT GAATTTTCACTTACATATTCTAAAGACTTATTTCTACAAGTGGTTCTATATAGGGGTTATTATCAGTTGTTTTCATTCCT TTTACATGTTCCATTTTCATCCAATGAATTATAGTCTAAGCTTTTATAAAAGCATTCTTCGATAATTTATTCTTCACAGG ATGGAATGCTAAAACATAGAGGTACATATGAAATAATATCTCCTGAGGATATTGGTCTTGACAGATCCGTTGGAGATACT ATTGTATTGGGGAAGCTTAGGTAAATCATTTAATTTTTCATCAAATGTCCATGTAAAACATCACTGACTTGGCTTTTAAT TTCTTTCATATGTTTTATCCCTTTTGTTAACATTTGCATACCAATTGATGCAGTGGGCGTCAGGCATTGAGAAATCGACT TGAAGAGGTATTCAAGCATTGCACTTGAAGTCAACGTACAGAAATAAATCAAATAATAATATAATCATTCATATGACTCT TAGCTAATAGCTTAAGTTTTTAGCATAGTAGTTGTTTCACATGATATCAGAGTCACTGTCACTAGTTACGCGGTTCATAA TTCAATCATTGCAGTTATTTAGATCATGATAGTTGAATTAAAGCACATGATATCAGAGTCACTGTCACCCCCTATTTTTC TAATAAAAAGTTGAATTAAAGCACATGATAATTGAACTTGTGCATTCTCCGCAATCAAGCCCAAACAAACAAGCTCAAAC AGGCTCTTGTGTGATGACACATGTTAGAAATAATAATATTAAATCATTTATTCATGAGGCTTTAACCAGTTTAAACTTTT GAAATAATTAGTTGTTTGACGGTGAATAGTGTATTTTAGTGTTTCTATGTTTCATGAATTAATCTTTATTATTACAGCTC GGCTATAAACTTAAGGATACTGAAGTTGAGAGTGTATTTTGGCAATTCAAAGCAGTGGCCGAAACAAAGAAGGTTAAGTA CTAGTATTATTTCCTTTTTTCCTTTTGAATTTGCAACAACCACACATGAGAAATAATCCCTCCATTAAATTCAAAGCATA ATTATATTTTATTATTTGTATTCACTATTCAGACATATTTATCTTCTGATTATTTGACTTTAATGTTTCATGTCCTTAGA GAATTACTGATGCAGACCTCAGAGCTCTAGTGTCTAATGAAGCATTGGATGCACAACCTATTTGGAGGCTTGGTGATTTG CAGGTGATTTAAACAATGCTTAATTTGAAACTAGATATTTGATCAAATGGCTTTTGATTATTTGAAACAATTAAACAAAA ATTGAACTAATCAAATCTATCGATGTAGGTGACTTGTGGAACTGTGGGATTTTCAACTGCCACTGTCAAACTTTTCTCAA TAGATGGAAGCATGCATTTTGCTTGTTCCATTGGTACAGGACCCGTGGATTCAGCTTATAAGGCTATTAATCACATTGTC AAGGTTTGAAATTCATTAAGTGACTTGTGCTCCATTTTGTTTGATTTTGAAAGCTATAGTGGACACCTCTTTGCATGTGT AGCATTTAACCATTTTTATGGTAGAGAAATGCTAGCAACACACTATTTTAAACATACCCCTAACACAATTTCTTGTGATT GGTTTAATTTTTTAAAATTCAACACAAGTAAACACTCACTTTGGCTCTATCTTTCCAACATTATCTCTTTTATCACTTAA AATGAAATTAGATATGAGACCCATATAATTTTGTGGACCGCACATGAATTTCAACCTATAAAAGAGAGCGTGCTGAAATA AGTATTGGTAGCTCTCCTCTTCATTGTTTTGTTTAGTCTAGATCCTCTGCAGAGTACTGCAGCAGAGGTTGTCTAAGCTT CCTCTGATTTCAATAACTAATAGCTAACGTTATTATGAATGAAAGCAATTGATTAAATTAAATATTTTAAGGTGATTTAT TGTATATCACTATTGGTATACATGATGGAGGAATATGATATTACTTAATGTAGGAACCGGTAAAACTTGTCAAGTACACA CTAGGTGCAATCACAGGATGCATGGATGCAACTGCTACTACAAGTGTTGAAATTTCCCATGAAGATATGAATCATCCAAT ATTCAGGTATTTTGAATCCAACAACTATAGCTAGTTGTTTTATTTTTTTTGATAAGCAAATATGTATATTGATAGTAATT TCTGTTTTTTCCAATCGTGCTTATACAACATTGACATTTTGTTTTTGTAGTGGGACTGGAGGTGGAACAGATGTGGTTGT TTCTAGTGTTGAGGCTTATCTTTCAGCATTAAACAACATGTTACGTTTCTACCAATGATTCATATCTCCTACAAGAAATC CGATTTCTGAATAATAAAGTCGACAATTTGTATTAATGTTGTAGGCGTACTCAGCTAAACAAACAGACTCATAAGTTTGT TAATAATTTCAGATTCAAATCTGTTCCCATTTTGTAATAAAATTATCTTATGATTCAATTTGGTGGCGGGATATTTTTAA ATTATGTTTTGCGGGTGATGAGGGGGGCTGTTGGTTTGATAATGGGGTGTGCCGGAGAGTGGGGAATGGGAACTTAACCC GGTTTTGGAAGGACTCTTGGTGTGGAGGGACTCCTCTAAATATTAGCTTTTGTAAGCTCTATCACTTATCTCTTGCAGAA GAATGAACTCATATTAAACTTGGGAAAGAGGGTGGAAGGTGTATGGACTTGGTCTTTTATAAGGAGGAGGAATCCAAGCA CTCGGGAGAACTTATTAGTGGCAGATCTGTGTAACTTGCTTGAGAGTGTGCCATTGTCGGAGGATACCAATGATTCTTGG AGCTGGACAGCAAATCCGGAGGGCCAATACACAGTACAAACAGCTTACAAGTTTTTACGGGCTTCTTCAAATGAGTTTAC AGATCCCATTTTTCATTTTGTTTGGGAACTGTGATAAAGTTGTAAACCCAAAAGCTAATAGAAGCCATAGCAAAGAGTAA AGGTTTACATTGTAAAAAGTTAATTGAACATTACAAAGACACTGATACTTATACACAAGACTAACTCTTCTAACTAACTA GGAAGTATTTGAAGATTTGGTCCTTGCACTCTAGCTATATTCTAATAGACTGGGCGCTCCTTCGAATATCTCCATATTCG TTTGGAGAATTGTGCTAGATTGCTTGCCTTCTAGAGTTAACCTTCACAAGAGAAAGATCATTTTATCAGCAGAGGAAGCG TGTTGCCCCATTTGTTCCCATGCTCTCTTGTTACAACACTACTGTCCCTTCATGAACTTGAAGCAGAATCTGATGTTCCA ATTCGTGTGGTTCGCGGTAGCTTGGAGGAATTGGAACCATTGGAACGGTTTGATTGTCAACAGTGGGACGATACAAGAAG GGATGGTTCTGTTAGAAAGAGCTCAACATCAAGCATGGCTTTGGCTTAAGGGGAGGATCAAGGGATTTCATTTCTCTTGG TATGAATGGATTTCAGAACCTAAGGGTAGTTTTAACATAAACATTTGAAACACAGCGTTATGTTTTTCTTCTTGGTTTCA CTTTTTTCAGCCGAACTAAAATGTACTTTTATAAGTAGCTTAGGCCTAATCTATTATTAAATCAGAAGTAGAATGTGAGT ATGTCACTTTCATCTTAAGAAACGCATAGCAACATTTGGTATTTCTCTTTACTCTTTCCCTCCTCCTTTTCCGATTTCTG TCTTGTTCATTATTTTTTTCACAAAGCAAACAACAACTTTATGTATTACAAAGCCAGAAGTAAAATGCAATTATGTCACC TTCATCTTACGATAAGCACAACAACATATGGTATTTCTCTTTATTCTTTCCCCATGCTTTTCCGATTTCTGTCTTGTTCA TTCTTCTTTTTTCACAAAGCACCGCAACAACCTTATATATTACGTACAAAACCAATCGTCCCATTGATGACAAAGTAGAG AACCTAGTTACCCTCATCGTCCTCAATAATGGAACCCTTCCTTGGTGCCTCGGGCAAAGTTTATTGATGTTAGTGTAACA TATCTGAGTGTGTTTTCTTCTCTTCATTAAGGAATGGTTTAAACATCATTAGTATTCCAAGTCCTTCAACTAAATTCATT ATAAAGAAGATCATATGTGTGCCTGCAATTAAATATATAACTATAAGTTGCAAGTAATTACATATGAATCGGCTCAAACG AGTTAGTTGAACATCATACCTGGCAGGAAAGAAGCATGCATCCGCTTTTGTGTCCAAGTTAATCTGGATTGTCAAAATTC AAGACAATAAGAAGAAAGTTGAAGATTGTTTTCAAAATATCCAACTTTAAATCAGATAATATGTGTATTAAAACTTCTAC TGTTGAAAAATTTGTCAACTTAAAATTGATCAAAGTAGAGTAAGTAATTTCTATGAACTCTTATTACACAGATAATTGAT CAAGGTATACATTGACAGATAAAAGTTTAAGGATGTCCTCCATATTAGTTAGAGATATATCTAAATAAGTCCTTATAGAG GGTAGATAAGTCAATCGTCACCCTTGAACTAGCTTTGGTGGTGGATTTAAACCCTGAACATTTACAAACTTAATATTAAG TTTTAGCTGAAGATAAATCAAATCAATCTATGTGATGAAACATATAAAATCTTTACATTAATCTGTTAGTTTTATAGCAA GCATCACTTGAAGAGATCTACATTCACTATTTTAAATTACAACAAGTCAAATAAAAGCGGAAGAGATCAAAGGAATACTC ACAAGGCACCACCTACAGCAGGGCCAATAGCTTTGAATAGGGACACACAAGTCACAGAAATGCCATTAGCTGCCCCCCTC TGGTTTTGTTTCTGTTTTCAAAATAAACATGTCATATGGTGGTGACCTAACAAAAAACAATTTCAAACTTCTTGTGGAAA AAAGAAGAATAAAATTATTTGAAAACTTACCACTGCTCTATTTTGCAAAATAAATAAACCAGTTATGATGGTCATCTGAA AAAAAAATAAAGTCAGTCACATTTGTAACATAGAGAACCTTGTAAAAATCAATTTAGTTGGACTCTTGCTTGTTTGAAAA TCCTTCTACAATTATTTTTCAAAGCAAAATTAAGTTTAGGCAGAAGTTTATTTGAGTAGCTTATAGATGCTAGTCCAAAC ATGCTACAGTGAATCGCACTTAATATAGTTCAGTTTATTGTAAAATCTCATTATTACTCATGCATGATGAATGGTTAAAT ATGTAAAAAGAGGAGTACTTACAGACAAGATATTCTTCAGAATAGAAGCAACACTTATCACAGTGTATAGTGTTACGCCT GACAACATTGCTATAAAAGGGTAACTTTGCAGAAGTGGTATGGATAAGATCTGCATACAGTAGCTCATTAACAATACATA TTTCAAATAACAAATAATGACATGCTGAATTGCAGAAGTTGCCACAATTAAATAAAAACTAACCCCTGTAATGCGGGAAA TCCGAATAGGTCCACAAGCTTTTTCCACATATGGGTATAGGGTAAGCTGGTAGATAATAAGTAAAAGACCTGACAATTTG AGAGTAATTAAACTAAATATCAATTATTTAATAGGGTATTAAATAAAAAGGTTAGCGCGAAATGTAAACATATATTCATT GTTGTGTATTAAGTATGAGTAAGTCTCACATTTGAAGATAATGATAAGTTTGAGTGGTTTATAAGTGTGAGGACTCATAC ACCCATTGTCTTAAGGTTTTGGGTGAAAGATGTGGTGTTTGGTCCACTTATGGATTGCTCTTTAAAGCCCAATGTTGAGT TTTATCCCCTGAGTTTTAAACCATCTCCTTTGTTTGGCTCTTTCTTCGGCCCAACATGTGATATCAGAGCCGATGGTTGT TTGACCATGGGCCTCTGAGACTCAGGAGAGCACAAGCCCAGAATGATGGTCTCTAAGGTTCTGTTTGAGTACAAGCCCAA CTTTCGTTTGAGATGGACTCACACTTGAGGGGGAGATTGTTGTGTATCAAGTGTGAGTAAGTCTCACATTGGAAGATAAA GATAAGTTTGAGTGGTTTATAAGTGTGAGGACTCATACACCCATTTCCTTAATGTTTTGGATGAAAGATGTGGTGTTTGG CCCACTTATGGTTTGCTCTTTAAAGTTCAATGTGGAGTTTTATCCCCCGAATTTTAAACCATCTCCTTTATTTGACCCTT TATTTGGCCCAACATTCATTTATCACTAGCAAACAAAAATAATTAGTAATTTTAAAAGAAGGGTAGAAACAAATGAATAA GTTTAATATGATTCAAGTGGCAATGAAACTACTGTTCCAAACTTATCAAAATTTTGAACTATGGTATACTTGCTTGTTTT TTATGTCTCTATTTTCTTAATAAATAGATAAAAAGAAGAATTAAAAGAATAACATCGTCCGTCAGTGTAAACATATTTTC CACAGTCATCTAATTGAATTCCGACACATTATGAAAATTATTCTTTCTCCTACATGGCATATTGTGATTGGTTGTCAGTG TAAAACTGTTTTACACTAACGATGCATATTCATTAAACTCTAAAAAAAACCTTGCTACAAAATTATAGAATAAAAGTTTA ACAGGAAAAATGAATACAGAAGTCTATATAATTATAAAATCATACATAGTGACCCCCAAAATGAAAATATTAAACCTGTT GTTATCTGTTGCGCCAACAAAATATGATAACACTATCTTTTCTCATATCTTATCATGTCCATCATGTGTAAAAATTATCC TGAGGGGTGAGTCAGGATAGAACAAGATAGGATACCAGTTATATATTTTCTTTCAGTATCCTAACTCCAAAATTAATTTA TTTTAATATTATATCATTTATAATAATATTAACTAATAAATATAAAATATTAATTTAACTAAAATAGAAAAAATAAAATT ATTATTCATAAATAGTAAATTAGACTACTCACTTACAAATATTGATTTATTAATAATAATAATAGACTAATTTAATATTT TCATCTCTTATTATTTAAAAAATATGTATCTACGTATATAATAATTTAAATATAAATTACTTTTGAAATAAAAATATTTT TAATTTAGTTAATTTTTATTATTTATCACGTGTGACAATTAAGTGAAAACCAATTAGTTACAAATATTGATTTTTTAATA GTAATAGACTAATTTTCTATTTTCATATC
CDS sequence (LotjaGi1g1v0613300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCAGGCATAACTTCAATTATTGAATCTTGTAGAATCAAACGTAACCGCCCTGAATACATTCCGGGCCGCATTCCGGA CTCAACCTACGTGCGCATCTTGGACACCACCCTCCGCGATGGTGAGCAAGCCCCTGGCGCTGCAATGACGCGTGACCAGA AACTCGAGGTTGCCCGGCAGCTCGTGAAGCTTGGCGTGGACATCATCGAGGCTGGGTTCCCTTCAGCGTCAAAGGAGGAT TTCATGGCTGTGAAAATGATAGCTGAGGAGGTTGGCAATTTGACTGATGATGATGGGTATGTTCCTGTCATTGGAGGAGT GTGCAGGTGCAATGAGAAGGATATTGCCACTACATGGGAGGCTCTCAAGCATGCAAAAAGGCCAAGGATTCTTACTTTTA TAGCAACCAGCCCCATTCACATGGAGCTCAAGCTCAGAAAGAGTAAAGATCAGGTGCTTGAGATTGCACGAGACATGGTG AAGTACGCCAGGAGTTTAGGTTGTACTGACATCGGGTTTGCTGCTGAAGATGCTGCAAGATCGGACAGAGAGTTTCTTTA TCAAATTTTGGGAGAAGTTATCAAGGCTGGGGCAACAACTTTGACTATCCCTGACACTGTGGGCATAGCAATGCCATTTG AGTATGGAAAACTGATTGCGGATATAAAAGAAAATACTCCAGGGATAGAAAATGCTATCATTTCAACCCATTGCCACAAT GATCTTGGACTTGCTACTTCTAACACCATTGAGGGTGCTCGTTATGGGGCAAGGCAATTGGAAGTAACAATTAATGGTAT CGGTGAAAGGGCTGGTAATGCTTCACTTGAAGAGGTTGTGATGGCCCTCACATGCAGGGGGAATGATATCTTAGGCGGTC TACATACTAGGATTAATACAAGGCACATATTAAAGACAAGCAAGATGGTTGAAAAATACTCTGGTCTACATTTACAGCCT CACAAGGCTCTTGTTGGTGCTAATGCTTTTCTTCATGAAAGTGGCATCCATCAGGATGGAATGCTAAAACATAGAGGTAC ATATGAAATAATATCTCCTGAGGATATTGGTCTTGACAGATCCGTTGGAGATACTATTGTATTGGGGAAGCTTAGTGGGC GTCAGGCATTGAGAAATCGACTTGAAGAGCTCGGCTATAAACTTAAGGATACTGAAGTTGAGAGTGTATTTTGGCAATTC AAAGCAGTGGCCGAAACAAAGAAGAGAATTACTGATGCAGACCTCAGAGCTCTAGTGTCTAATGAAGCATTGGATGCACA ACCTATTTGGAGGCTTGGTGATTTGCAGGTGACTTGTGGAACTGTGGGATTTTCAACTGCCACTGTCAAACTTTTCTCAA TAGATGGAAGCATGCATTTTGCTTGTTCCATTGGTACAGGACCCGTGGATTCAGCTTATAAGGCTATTAATCACATTGTC AAGGAACCGGTAAAACTTGTCAAGTACACACTAGGTGCAATCACAGGATGCATGGATGCAACTGCTACTACAAGTGTTGA AATTTCCCATGAAGATATGAATCATCCAATATTCAGTGGGACTGGAGGTGGAACAGATGTGGTTGTTTCTAGTGTTGAGG CTTATCTTTCAGCATTAAACAACATGTTACGTTTCTACCAATGA
Protein sequence (LotjaGi1g1v0613300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAGITSIIESCRIKRNRPEYIPGRIPDSTYVRILDTTLRDGEQAPGAAMTRDQKLEVARQLVKLGVDIIEAGFPSASKED FMAVKMIAEEVGNLTDDDGYVPVIGGVCRCNEKDIATTWEALKHAKRPRILTFIATSPIHMELKLRKSKDQVLEIARDMV KYARSLGCTDIGFAAEDAARSDREFLYQILGEVIKAGATTLTIPDTVGIAMPFEYGKLIADIKENTPGIENAIISTHCHN DLGLATSNTIEGARYGARQLEVTINGIGERAGNASLEEVVMALTCRGNDILGGLHTRINTRHILKTSKMVEKYSGLHLQP HKALVGANAFLHESGIHQDGMLKHRGTYEIISPEDIGLDRSVGDTIVLGKLSGRQALRNRLEELGYKLKDTEVESVFWQF KAVAETKKRITDADLRALVSNEALDAQPIWRLGDLQVTCGTVGFSTATVKLFSIDGSMHFACSIGTGPVDSAYKAINHIV KEPVKLVKYTLGAITGCMDATATTSVEISHEDMNHPIFSGTGGGTDVVVSSVEAYLSALNNMLRFYQ
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
PANTHER | 9 | 546 | 538 | 7.3E-286 | – | |
PANTHER | 9 | 546 | 538 | 7.3E-286 | – | |
Gene3D | 28 | 313 | 286 | 2.5E-102 | ||
SUPERFAMILY | 29 | 328 | 300 | 1.72E-86 | – | |
Pfam | 31 | 310 | 280 | 1.1E-88 | ||
ProSiteProfiles | 31 | 304 | 274 | 41.134 | ||
TIGRFAM | 31 | 540 | 510 | 1.3E-186 | ||
CDD | 33 | 312 | 280 | 3.71002E-161 | – | |
ProSitePatterns | 38 | 54 | 17 | - | ||
ProSitePatterns | 234 | 247 | 14 | - | ||
Gene3D | 318 | 432 | 115 | 3.4E-35 | – | |
Coils | 374 | 394 | 21 | - | – | |
SMART | 409 | 543 | 135 | 7.2E-22 | ||
Pfam | 410 | 543 | 134 | 7.9E-35 | ||
Gene3D | 438 | 544 | 107 | 6.7E-9 | ||
SUPERFAMILY | 443 | 542 | 100 | 5.62E-17 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | 2-isopropylmalate synthase activity | Catalysis of the reaction: 3-methyl-2-oxobutanoate + acetyl-CoA + H(2)O = (2S)-2-isopropylmalate + CoA + H(+). | ||
Biological process | Leucine biosynthetic process | The chemical reactions and pathways resulting in the formation of leucine, 2-amino-4-methylpentanoic acid. | ||
Biological process | Carboxylic acid metabolic process | The chemical reactions and pathways involving carboxylic acids, any organic acid containing one or more carboxyl (COOH) groups or anions (COO-). | ||
Molecular function | Transferase activity, transferring acyl groups, acyl groups converted into alkyl on transfer | Catalysis of the transfer of an acyl group from one compound (donor) to another (acceptor), with the acyl group being converted into alkyl on transfer. |
Expression pattern of LotjaGi1g1v0613300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…