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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0613100 |
| Transcript ID | LotjaGi1g1v0613100.1 |
| 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: LotjaGi1g1v0613100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:115838005..115848310) extracted from Lotus japonicus Gifu genome v1.2.
TCATCGATTTATTTAATATATGTGATCTCTAAATCTCAAACCTAGTATTTTTCTTGGCAGATTTCTAGGGAAAAAAATTT GTGGTAGTAGCTAGAACACGTATTGCATGGTTTGGATACACCGTACACGTTATCAATCAACACTCCAGTGATAAATATCA AAAAAAAAAAAAAAAAACACTCCAGTGATAAGAAAAACTACAATTTTTTTGAACATACAAAAAAGAAACAAAGAAAAAAA AACTACTCCATGTGTGCTGGCAACATGTGCGGAGAATCTCAAAGAATGGTGAGTAAATCCAATCAAAGAGTTGTGGGGCA AAAACCTGATAATTACCATGTGTGCAGTGTGCTGGCAACATGTGCGGAGAATCTCATTAAAGTAATAAGTATATAATAAC AAGTTTGAAATCTTATATATAGGTCATTGTTCTCTCGAACCTTTCAAGATCGAAACCTCTCCCATTAGTGTGCTGTTAAC TCTTTCTACAACACAAATTGTGGTATAGTAGTTAACCCATCTCATCCCTAATCATGGCGTCAACTGTTCGATCTTCACAC ATGAGAATAGAATGTATTTCACGGTCAACTGATTATCGTTTAGCACGAGCACCTGTAATGAGGGTATCAGCCAGTGCTGT TAGCCATGGATGTCCTGTGCTGACAGGAAAAAACATTACCACATACATCGATCCCATAGCAGGGAATACAATTATTCAAC CTTGTGAAACCAGACAAAATCACCACCTTGAATACATTCCGAACCGCATTCCGGACTCAACCTACGTGCGCATCTTGGAC ACCACCCTCCGCGATGGTGAGCAGTCCCCTGGCGCTGCAATGACGCGTGACCAGAAACTCGAGGTTGCTCGGCAGCTCGC GAAGCTTGGCGTGGACATCATCGAGGCTGGGTTCCCTTCAGCGTCAAAGGAGGATTTCATGGCTGTGAAAATGATAGCTG AGGAGGTTGGCAATTTGACAGATGATGATGGGTATGTTCCTGTCATTGCAGGACTGTGCAGGTGCAATGAGAAGGATATT GCCACTACATGGGAGGCTCTCAAGCATGCAAAAAGGCCAAGGATTTTTACTTTTATAGCCACCAGCCCCATTCACATGGA GCACAAGCTCAGGAAGAGTAAAGATCAGGTTCTTGAAATTGCACGGAATATGGTGAAGTTCGCTAGGAGTTTAGGTTGCA CTGACATCCAGTTTGGTGCTGAAGATTCTGCCAGGTTAGTTGTACTAACACTTGTTTATGTGGTTATGTTATGCAATGAA GAATTCATGCAACACTCTTTGAGTGTAGATTACTTAGAGAGGTAGAAAAATAAGAGACGTACGTAATAAATATGATAAAT GTAATTTGATATATATCACTAGAAGAGATAAAAAGAAAAGAAAAAAAAGTGTCACAAAAATGTATACAATGTTTATCGAT ACACATAAATCTTAAATAATTACTAATATGCTTATCTAAACACTTGCTTTGAGGGTTAACTTCATTAGTTTATATAGCTT ACAAAAAAACAAAAACACCTAGGGACAGATGCACGTTGTTGCAGCTGCCGCTAGAGGATTTTCATTCAATGCATGCAACT GCATGTAATACTGTTGTTAATTAGGATATTGAAATAGGAAAGTGCCCCCCACTAATGGCTAAAACCTTAGAAGATATTTA GTGCTTTTACTTGTCATCCACTTTTTTTTGTCTTCTTTCTGAATTGGATCACAAATTACTTCTCCAATCCGTTTATTTTT CATCAACGGTACAGAGCTCGCATGACCTTAGCCCTCTTTAGTTCTTCATCCAGTACCAATTAAGATGCCATTTTCGAAGC CTATAATTTTTTATTTCTTGGTCACATTTCACAAGATGCAAGTAGATTATTTGAATGTTAAAATTTCAGAATAATATATT TTGAAAGCATATATAATATAGACATTCATGCATGCTTTTAATTGATGAAATTAACTCATTTGAGTGATTTTTTAAAATTT TGCCTTTCTATAGCTTAATCTAGCAATGAAGTTTTGTCGAATTATATATAAGCTCTTTAATTTTTCGCAAAACTTTAAAC GACTATTTTAAAATGGAAGGAATATTTACTTTCACAACTAGCTTTGATATTACTTATAGCAACTTTTTTTAAAGTATATT ACTTACTTATAGCAACTTTAAGCAACTAGAATGATTGAAAGTGTTTTCCTAGCTATAATTATTATTACCAATTACATCTG AAATCATATCAGAGATGAATAACTAAATAATCGTTTAGTTATTTATATAAGAGATAAATATTTAATAGAGTTGATAATGA ATTTTTTTTTCAGAATTTCCAAAATATCAAAATTTGTAGAGAACAATCATGCCGGGCCAATCCAAGGGTAAAGCCACCCA AGTAAGGGCTTTAGGCCTCCAAAAATTTTAAAAGTAAAAAAGGCATCTAAATATTTTTTTACTAAGTAAAGAAGGCCTCC AAAATTAAAGTTTGTTATAGTCCTCATTTAGGTAATAAGGCCTCACTTTAGAGTTTGATTTAGGCCTCATTTAGTGTTGG GTCGACCTGCAATCATGTTATATTTTGAAATTTTAATCATAATATATTATATTTTTAATATTACAGGTTCTTTTATGTAT ATTACCCCACAACTTGAAATTCTTAAATTGGTTGGTGTGCGACACACCTATTATGGATAATGTTTCATCCACACCTCTCT TTTGAGGTGGAGAGGTGGAATGGTGAGAGAGATAGGAAGAAAAGAAAAAGTAAGAGAGAGAAAATATGAGATGTGATAGA TGATAAGATGAGAGAAATAGAAATAAAAAGATGTGGAAATGAAGTGTTTAAAAAATGAAGTGTGTATATATCATTACTCC ACCTATTATTTATAACGTACAAGTTTTATTTTTTACTTTTTTAGGTAGACTAAAATATATATGAAGAGCAGTATTAGGGG TGTGCTTCAACTCAAAGAATAATACAAGAGGAATAGTAAACACTATATTGGAATATTCTTTGAAATCACTGCAAATGGAC ATGGACGCATATAAAAATAGAATAAAATCATTCATATGGATTCAGATCCAAATACACAGATTTAAAAAAAAAATCCAAAT ACACACAAAGTATCTTGCATATTTATAATTTTGATATTTTTTGAAACATATAATTTTGATATTAAAAATAATACTAAAAC ATATATTTTTAAATAAAATAAAATTTTAAATATATGAAAAAGATATATGCAATATACCAAAATTAATAGTTATATTTAAA TATAACCATTAAATCTTTGTGGCCAAGGACATCACTACCGTATTTCGAGGCAGATTAGTCACGTGAGACCCTTTCTCTTG TGGAGACCGGTGGCTAAATGAAGAAAAAAATATATAATCATTAAATATTTTGATATTTTTTTTGAACTCGAATATTTTGA TATTTGCTAAAACAAGTTTGTTGTCCACGAGTTCAAAAAAAAAAAAAAAGTTTGTTGTCGACTAAATTTAAGTAATGTCC CACATCAGTCAAAAAATAAATTGAGTAAGGTCACTTTCAAAAAAAAAAGCAATGTCGATCTGACAGCATATAATTAATTA TTGGAGCGAGTATCCGAAAATGGAATCTTATTCTAAAATCCAAAAATAGATACTGCATGTCTGCATCCGTATAAAGTACA GTATAAACAGTCTAGCTACAGATCAGCAGCTACATGTATTTTTTATTCCAGAATATGAATTTTTCATTTCAGTTTTCCAA AATTAAATTACGTACTTTCAATTTAATTTTGTGATTTTAATCATTGAGGGATAAAAATTAATTCACGAATATTACGAATT GAATTTTTATACATGCATTCTTTAATCTCTATGGAATTAACTAGGTCGGACAAGGAGTTTCTTTATGAAATTTTGGGAGA AGTTATCAAGGCTGGGGCAACTACAGTGTCCATACTTGATACCGTGGGCATAGCAATGCCATTTGAGTATGCAAAACTGA TTGCAGATATAAAAGCAAATACTCCAGGGATAGAAAATGCAATCATTTCAACCCATTGCCACAATGATCTTGGACTTGCT ACTGCTAACACCATTGAGGTATATATATCATTGAATATTTTATTTCCTTTATAAAAAAAGTTTAAACAGAATGAAAAACA TATAGAAAACTTTATCTAACTTTTGCTACTTTTAGGGTGCTCGTGCTGGGGCAAGGCAATTGGAAGTAACAATTAATGGT ATTGGTGAAAGGGCTGGCAATGCCTCACTTGAAGAGGTCAGTATCTTCTTCTTTAATGTAGTATATAGTAATTCAAAATT CATTTAAATGTACATTTTCTCTACATAATTTATGTGAAATAATTGAAATTCATTACACAATTGGTATAATCAATGTATTT CTTTCTCCTTAATATATTGTATCACTCACTCCCTCGTTTTTCTTTTTCATTCAAGGTTGTGATGGCCCTGGCATGTAGGG GGAATCACATCTTAGGCGGTCTACATACAAGGGTTAATACAAGGCACATATTAAAGACAAGCAAAATGGTTCTATTTTAA AACTTTTTTCCTTTGGATTTTCCTCTCCTTTTCGTTATACTCATTTAACTCAAATTTCATAATCTTTATCATTAGGTCGA AAAGTACACTGGTATAAATTTACAGTCACACAAGGCTCTTGTGGGTGCTAATGCATTTCTTCATGAGAGTGGCATTCATC AGGTTGGTAATGCTAAATACAATTATCATTGTCTTCCTAAAGCCTAAAGTTTATTTAATTTTTATGTTATGAATTTTCAT TCACATCTACTATGTTTTTTCCTTCATGAAAGTTACCAATATAAAAGAAATATGTCTTCGTAAATATTGCTTCAATGGTC ATCCTAGGATGTATATCCATGCTACAAGTGGTACTATATAAATTTACAGTCACACAAGTCTCAAAATTTAAAATACCAAG TGAGTGATACATATATCACCAAAATTTGGAAAGATGGACTAAAACTTGTGCATTTCCATGAAGAAAATGATGTATTTCAA TGAAAAAACAGATTGATGGATTAAAATCAATAATTCACTATTTTATAAGGATCAAAAAGTTATTTATCCCATAAGTTTTT TTTTGGTCAAAACCCATTTAAGTTTTTGACATAACCAAAGTGACTAAAATAGACTTGGTAACATTGTGGGCCTATTCTAA CAGGTATGTTAGTTTAGTTTTGGACGGATTTGGCCCAAAGTTGGTCGCAGTCAATTTTTGGGCCTGTTTGAATTTCTTCT TTTATCTTCTTTGGAAATCTTGACCAAAAAAACTCTTCTTTGGAAATCTTTGACAAATTTCAACTTACAATTGATGCCAA ATTTTTTCTTCCATGAACATACAATAATTTAATTTTTACAATATTGATTCTAATTTAGTATTAAGGATAGATACAAATAT AATATTATTTCCTTCTTTGCTCGGTTTTGGCTGTAGTTCTGAGGGCTGTGTACTCTTTTGGTTTCTAGAGTAGAATGAGG GATTGTTAATTTTGACCTCTCTGTTTCTCTTGTGTATTCCTAGTGCAGTTTCTATCTCTTGTAAATGGGTTGAAGTATCT CTAATACTTATTTTCTCCTATATATATCACTTGGCTTATAAAAAAATAGAGTAACTCTTCTAAAACTCATATAACTCACA CTATCATTAATTCCTTTTACATGTTCAAATGAATCATAGTCATGTGTTTTTGTTTTGTATTGCAACTGTTTGTTCAATCA AAGTTTTAGAACTTGAATATCAAATTTTTCCTGTTGGCTAAGGTCTAATTAAACCTACAGATAAGCATTTCTTCAATTTT TGTCTATTTTTATTTCTCTAATTTTTTCCCACTTTATAGGATGGAATGCTAAAACATAGAGGTACATATGAAATAATATC TCCTGAAGATATTGGTCTTGAAAGATCCGTTGGAGCTACTATTGTACTAGGGAAGCTTAGGTAAATCATTCAATTTTTCA TGATATTGTCACTGATGGAATGCTAAAACATTATTTTAGTTTAGAAATGGTTATTTCATATTATTCTTGTATATTAGACC TTGTGCAGTCAATTTGTGACTCATATGTTTCCTCCTCCTTCATTAACACTTACATTCCAAATATTCATGCAGTGGACGCC AAGCATTGAGAAATAGACTGAAAGAGGTATTCATAAATTTCGTTTGTAGTCAAAGGCATATTGAATTTTGCCTTTCCTTT TTCCCCAATTTATTCTCTATTAGTTTCAGCTTGGTTATAAACTTAAGTGTATTATTATGGCAATTCAAATTCCTAAGTTA TTCTTTGTTGATTCAGCTTGGTTATCAACTTAAGGACAGTGAAGTTCAGAGTGTATTTCTGCGATTCAAAGCCGTGGCTG AGAAAAAAAAGGTTCAGTGATAGTTAATTTCTTTTTCCACTTTTACCTTTCCAATTTGAATAGAATATATAGTTAGATAA GGTAGACTTGTAAGGAGTCTAAAGTAAGTTTGTGATACCACTAACACGAGATTTTTTTACGTACCTTAAGTAGAAGTCTC AACTAATCATCTATTTCATTTGTAACAATTACACACGAGAAATAATCTCTCTACTAAATTTATGGTATAGGGTAAGCATA CTAATATAGATTACTTTAAAAAATTATATCCTGACAATATCTTCTAAGCAATCTATGAATCCAATTGATCCTTCTTGAAA AAATTCTTCCCTCTAGCTACCTGACTTTAATGTTTTATGTCCTTAGAGAATTACTGATGCAGACTTGATAGAACTGATGT CTAATGAAGCAGTTCATTCACAACCTATCTGGAAGCTAGGTGATTTGCAGGTAATTTGAACAACACTTTGAAATTGGATA TCTAATCAAATGGCTTGATTTAAAACACACAAAAATTGAAGTAATACAATCTATCAATGTAGGTGACTTGTGGAACTGTG GGTCTTTCAACTGTCACTGTCAAACTTGTTTCAATTAATGGAAGCATGCATGTTGCTCATTCCACTGGTACCGAACCAGT GGATTCAGCTTATGAGGCCATTAATCTCATTGTTAAGGTTTGCAATTCAATAAATGCACTGCTGTGTTATAACTTTTGTT TGATTTTGAATGCTATTTTTAATTTCCACATATGTAAGCATTTAGCTTTGTCCATGGTTAAGTATTTAGTGCATATCCTT CACTATTATAATGGTGTTTATAGGCCCACCACTTACATGAAGAAGAATATTCATTGTTTTGTTTCCTGCAGCTGAATGTG GATTTAAACTTAAAGTCCTTTTTAAACCTAAATTAAAATCCCAATCATTCTACAAGTGTAACATTTAGAATGTAAAATCA TTGACTAAGCTAAAAATTTCTCTTTGAGCCACAAATAATCTTAAAAGAAAGTCTTTACAAAATTCTAAATTGGGCTTGTT TATTTGTTACAAAAGGATGATAAATTGGGCTTGTTTAATTTGCCGTTTCCTATTTTTATTTTTAAAAAAAATAGAAAATA AAGCTGAAAATATATTTATTTAATATTTAAAAAATATTTTCTAAAATATGACCAAAACATTAAAAAAAAAAAATCATTTT GAAAAGTATTCAAAAAGTGAGATGAAAGCCATGGTAGTAAGGTTTGTGATGGTGGTGGTGATGGTAAAGACAATGATTGT AGAGGTGGCAGTGGTGGATGGTGGCGGCAGCCACTGTGTTGAAGGTTGTGCCGGTGATGGTGGCAGCGTGGTAACGACAG TGAAAACAAAAGATTAAAACAAACATGTTTTCAAAATTTGAAAAATTTAAAAATTAAAACAATTTTCAGAAAATAAAAGT GCAAAATGAAAATAAAAAATGTTTTCTCAAACCAAATATACATGATGATTGGTATATGATGAAGAAATCTTCTATCGTTT TATGTAGGAACCAATAAAACTTGTCAAGGGTGCAATCACAGAAGGCATTGATGCAACTATCACTACAAGTGTTGAGATTT GCAAGGAGACTAAAAATTCATCTACTCTTACTTCCAATGAAGATACAATTCATCCAATATTTAGGTATTTTGAATCAAAC ATGTAATTGCTTTAGTCTTTCATTTTTTTTTAACTATGCTTATATGACTTTAATTTTTTTCCAGTGGAACGGGAGCGGGA ACAAATGTTGTTGTTTCTAGTGTTGATGCTTATCTTTCTGCAGTAAATAATATGTTACGTTTCTACCAATGATTCATACC TACTGCTGGAAGACCACCTTTGTGAATAATGCAATTGAGAAATTGTGTAAATATATATATGCTTGGGGCACCCATGTGTG GTTTGTGTGTTATATAGGGTTGATGGCAATAAGGTGTCCTTTGTGGATTGTTTATTGCTATTGATAATGTTTAATGAAAC TTCCTTTTGTGTTTGTTAATCCCCCATATATGCTAAGTGCTTATAGCTGCAATTGAACAAATATTAAGGACTAATCATGC ATCCATAAAACTGACTTCACTAATTGAAATATTAAGGTTTCATATAAAAATATAAATAAGGTGCATGTTTCAATATTTTA TAAATTTTGATTAACAAACTAAAAAGAACACATGAACTTCAAAGCCCAGGTGTTATGAAATAACACAGCTTATGAAATGA AAATAAGCAAGATCACAAACAGTTCATACGAATATGATGTGGAAAACTACAGATTTGAAGAGAAACTACGGTTGCTGTCA AATCCCCAAACTAGAGAATAAACACTAAGTGAATTTTTTTATAACACATAGACTTCACTCTCAACCATTTTGTAACCCAA TACACCCACACTACTCTCCAAAGCAAATATTTAAACTACATTTTCTCTCAATACTCTAAAACGAGAGTATAAGAGAATAA GAAAACACAAATATAAGCTTAAAGTGTTTCCCATTGTTGGTTCTTGGTATGTTGAAACAAAGAACTTGAGGGTTTTATAT ATAGTCTTCCACTCTTCCACGATTCACCAGGCTAGGCAATGTGAGACTTCTCTAACATACTTTTTATTGATCTTTTTCTT CCTTCGTCAACATTAATAATGTGAGACTTATATTGCAATTAACACCAACAACAAGATGAGGGAATCTGGAAAACAAAAAG ACCCAAAACCTCTATAGAGCCTAAAAATAAAAGCCCACCAAAATAATACTCAATACGGTCTGCGACAAAAAAGAACCACA AAACCTATACAAAACTGCATAAAATTTTTAATGTGAATTAATAAATCCAATAAATTTTCGCAACACACTCAAGTCTCAGT GCTTTTTTTCGGTATGAGCTTGTGCTGCTGTTTGAATGTGAAAGCCACCAAAACATAAATACTTGTAAGGAGAAGTCATT GATACTTGGATAGTGAAATTTTGGTACAACCAAGGACTGGATGTAGCCCTATCATTCAAGGGGTGAACTAGGATAAAAAT GGTGGTGTGTATCATCTCCCTCCTTACTCTCACATCTCCGCTGTACCAAATGATCCCAACAATGATGATGAATCTTTCAA TTGTTTGGATATCTAAGTTTTTGGATGACACAATTCAAACCCTCCTTTTCTTGTGCTACTTTTTTCGATATCAGATGATG GTGAGAGCGGTGTCACCAGAGAGACGAGGAAGAAGTCGACATTGGTGGAAAAGTCGAGGAACAGGATCAGGGCGGCGGAA GAGGGACGCAGAAAAGGCTGAGGTAAGAATATGAACGTACGTACGTAGAGGCAGTGAAGGAGGAGAGAGGGGCCGATCAG AGACAGTAAGAGCGACGAAAGAAGAGAGTCAGGGGCGAGAGTTTGAGGGATAAGGGAAGGAGGCCTATAATAGAGGTCTG GCGGACAACAATACACATTAGCGTTGCGCATAAGCTAAACTGACACTAATCATAAAATTCGCAATGTTTGAGCAGCGTAA CATTAAAGTCGGTCAAAGTCGATGCTAGACATCACATGGGCCCAAACAGTGCAAGTTTGCGTCGGCTACACTCGATGCAA AGTTCAAAGGCAAATGAAGTGTTGCATGGGAGTCACCGCTACATCTTGACAAGTATCAAATTAAAGCTATTTTAGTCGGT GAACGTTGTGTTTTCCTTAACTGACGCTAATTAAGTATCGACTATCCGACACAAGTTGGTGTCTAACTCAAGTTCAAGTG GATTAAAAAACGCTCTACATAGTTCAAAGTTCAAACCGACGCCGAGAAGCAGAATTTAGCATCAGATTATCTTTACATAT ATTATGCTCGTGTTTCTTTTCTTTAGCTTTACATGTTAAGTGCCTTCTATTTTTTTTTTGTTCAAA
CDS sequence (LotjaGi1g1v0613100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGTCAACTGTTCGATCTTCACACATGAGAATAGAATGTATTTCACGGTCAACTGATTATCGTTTAGCACGAGCACC TGTAATGAGGGTATCAGCCAGTGCTGTTAGCCATGGATGTCCTGTGCTGACAGGAAAAAACATTACCACATACATCGATC CCATAGCAGGGAATACAATTATTCAACCTTGTGAAACCAGACAAAATCACCACCTTGAATACATTCCGAACCGCATTCCG GACTCAACCTACGTGCGCATCTTGGACACCACCCTCCGCGATGGTGAGCAGTCCCCTGGCGCTGCAATGACGCGTGACCA GAAACTCGAGGTTGCTCGGCAGCTCGCGAAGCTTGGCGTGGACATCATCGAGGCTGGGTTCCCTTCAGCGTCAAAGGAGG ATTTCATGGCTGTGAAAATGATAGCTGAGGAGGTTGGCAATTTGACAGATGATGATGGGTATGTTCCTGTCATTGCAGGA CTGTGCAGGTGCAATGAGAAGGATATTGCCACTACATGGGAGGCTCTCAAGCATGCAAAAAGGCCAAGGATTTTTACTTT TATAGCCACCAGCCCCATTCACATGGAGCACAAGCTCAGGAAGAGTAAAGATCAGGTTCTTGAAATTGCACGGAATATGG TGAAGTTCGCTAGGAGTTTAGGTTGCACTGACATCCAGTTTGGTGCTGAAGATTCTGCCAGGTCGGACAAGGAGTTTCTT TATGAAATTTTGGGAGAAGTTATCAAGGCTGGGGCAACTACAGTGTCCATACTTGATACCGTGGGCATAGCAATGCCATT TGAGTATGCAAAACTGATTGCAGATATAAAAGCAAATACTCCAGGGATAGAAAATGCAATCATTTCAACCCATTGCCACA ATGATCTTGGACTTGCTACTGCTAACACCATTGAGGGTGCTCGTGCTGGGGCAAGGCAATTGGAAGTAACAATTAATGGT ATTGGTGAAAGGGCTGGCAATGCCTCACTTGAAGAGGTTGTGATGGCCCTGGCATGTAGGGGGAATCACATCTTAGGCGG TCTACATACAAGGGTTAATACAAGGCACATATTAAAGACAAGCAAAATGGTCGAAAAGTACACTGGTATAAATTTACAGT CACACAAGGCTCTTGTGGGTGCTAATGCATTTCTTCATGAGAGTGGCATTCATCAGGATGGAATGCTAAAACATAGAGGT ACATATGAAATAATATCTCCTGAAGATATTGGTCTTGAAAGATCCGTTGGAGCTACTATTGTACTAGGGAAGCTTAGTGG ACGCCAAGCATTGAGAAATAGACTGAAAGAGCTTGGTTATCAACTTAAGGACAGTGAAGTTCAGAGTGTATTTCTGCGAT TCAAAGCCGTGGCTGAGAAAAAAAAGAGAATTACTGATGCAGACTTGATAGAACTGATGTCTAATGAAGCAGTTCATTCA CAACCTATCTGGAAGCTAGGTGATTTGCAGGTGACTTGTGGAACTGTGGGTCTTTCAACTGTCACTGTCAAACTTGTTTC AATTAATGGAAGCATGCATGTTGCTCATTCCACTGGTACCGAACCAGTGGATTCAGCTTATGAGGCCATTAATCTCATTG TTAAGGAACCAATAAAACTTGTCAAGGGTGCAATCACAGAAGGCATTGATGCAACTATCACTACAAGTGTTGAGATTTGC AAGGAGACTAAAAATTCATCTACTCTTACTTCCAATGAAGATACAATTCATCCAATATTTAGTGGAACGGGAGCGGGAAC AAATGTTGTTGTTTCTAGTGTTGATGCTTATCTTTCTGCAGTAAATAATATGTTACGTTTCTACCAATGA
Protein sequence (LotjaGi1g1v0613100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASTVRSSHMRIECISRSTDYRLARAPVMRVSASAVSHGCPVLTGKNITTYIDPIAGNTIIQPCETRQNHHLEYIPNRIP DSTYVRILDTTLRDGEQSPGAAMTRDQKLEVARQLAKLGVDIIEAGFPSASKEDFMAVKMIAEEVGNLTDDDGYVPVIAG LCRCNEKDIATTWEALKHAKRPRIFTFIATSPIHMEHKLRKSKDQVLEIARNMVKFARSLGCTDIQFGAEDSARSDKEFL YEILGEVIKAGATTVSILDTVGIAMPFEYAKLIADIKANTPGIENAIISTHCHNDLGLATANTIEGARAGARQLEVTING IGERAGNASLEEVVMALACRGNHILGGLHTRVNTRHILKTSKMVEKYTGINLQSHKALVGANAFLHESGIHQDGMLKHRG TYEIISPEDIGLERSVGATIVLGKLSGRQALRNRLKELGYQLKDSEVQSVFLRFKAVAEKKKRITDADLIELMSNEAVHS QPIWKLGDLQVTCGTVGLSTVTVKLVSINGSMHVAHSTGTEPVDSAYEAINLIVKEPIKLVKGAITEGIDATITTSVEIC KETKNSSTLTSNEDTIHPIFSGTGAGTNVVVSSVDAYLSAVNNMLRFYQ
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 | 62 | 608 | 547 | 1.4E-279 | – | |
| PANTHER | 62 | 608 | 547 | 1.4E-279 | – | |
| Gene3D | 82 | 367 | 286 | 3.9E-104 | ||
| SUPERFAMILY | 83 | 382 | 300 | 3.85E-88 | – | |
| Pfam | 85 | 364 | 280 | 4.4E-91 | ||
| ProSiteProfiles | 85 | 358 | 274 | 42.544 | ||
| CDD | 87 | 366 | 280 | 1.39094E-163 | – | |
| ProSitePatterns | 92 | 108 | 17 | - | ||
| ProSitePatterns | 288 | 301 | 14 | - | ||
| Gene3D | 371 | 485 | 115 | 3.4E-35 | – | |
| Coils | 428 | 448 | 21 | - | – | |
| SMART | 463 | 605 | 143 | 1.2E-9 | ||
| Pfam | 464 | 605 | 142 | 1.4E-26 | ||
| SUPERFAMILY | 499 | 604 | 106 | 1.31E-8 |
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 LotjaGi1g1v0613100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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