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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0012200 |
| Transcript ID | LotjaGi5g1v0012200.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | GDP-mannose 3,5-epimerase; TAIR: AT1G19690.1 NAD(P)-binding Rossmann-fold superfamily protein; Swiss-Prot: sp|P0AD13|YEEZ_ECO57 Protein YeeZ; TrEMBL-Plants: tr|G7I5C0|G7I5C0_MEDTR NAD-dependent epimerase/dehydratase family protein; Found in the gene: LotjaGi5g1v0012200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:2674137..2685823) extracted from Lotus japonicus Gifu genome v1.2.
CTCATTTTTGTCTTTTTTTCAGCTGCAATATAACATGGAAGCAAAGTAGAGAAGTGTAGCAGTGTGAGAGTGAGGAGTTT GACATGGAAGTTGGTCAAATTCGAGGTTCAGCGGTTTATCTCCACCGTGGCCATCATCGGAGAAGTTTGAGTGTCTCATT GTCAATAGCCCCACCAAAATCTGAAAAGCGCATATTCATGTTAGGAATGGGATTCGTGGGGCAAACACTCGCACGCAAAC TCCACAACCAAGGATGGTTTGTTTCATTTGTTTAGTTTCCATTGTTAATTCTTGGTTCAAAGTTCCTGTTTTTCTTATGT TGGGTTAATTGTTTGCAGGGTTGTGTCTGGGACTTGTACAAACCATGTGAAGAAGAAGCAGCTTGAGGATATGGGGTTTC ATGTTCACCTCTTTGATGCAAACTACCCTGAGTGAGTCTATTGGTAAATTAGTTTTTAATTTGAAAAAAATTAATTTTCT TTATGTGGGTTGTTAATGGATGTCAAACTCAAAGGAACCTCAAGGGGTTGCTCTAGTGGAGCATGACAGGGTCTCACACC TGTTCGAATCCCGGCTAGGCCCCTTGGGGGTGAGGTAGATGTATAAGTGTTCTTTGAACCCGACAACTTTCCTTGCCTTA GACGGGAGCACCATGCCCTCACCCTAAAATTTCAAAAGCCCAAAAAAAAAAATGTCAAAGGAGTTTGGATAAAATTTTCA ATAAATACTTGTATGGAAGGAAAACAAATTGAAATGATCACCTAATCATAATGAGTTTTGCAAATAATAGTTTACTACAT GGGTTGAAATCAGAAAATCAAGGAATTATCTCAGTTGAGAAGCTCTAATAACCTAGAAGCTAAACCAAATGAGACCCAAG TAGAGGATTATAGCGTACCTTGTTTTGGTCCATCAATTGATGATGTTGAGTTGTGATCTAGGGCTGCATCATATATGCTA TGTAAGCATTTGAAAAATAATTAACAAGGTTACTTGATTTCATGATATTCAAAGGAAAGCAAATCTAGCCATGACTAGTT TCATGTGTTTGGATACCAGTTGTGTGTAACATGAATGGACATTCATACCAAATCATAAGAAGAGTTCCATTTCATTTTGT CTTGAAATGTGTGCTAACGTCCGTTTGCACTATACCAATGGAAACCAAGACATAACCGACATAATTTGTAGTCTTGGTTT ATTGTTTTTAAATACATTTTCCTGGTTAGACCTGAAAAAGATGTTTGTTTTGCAGTCTGAATGTCCTACAACTACTGAAG AATTACACTCACTTTCTTGTTTCTGTCCCTCCTATGTTGGGCATTGGTGACCCGGTATGATATTACTGCAATAATTTTGA AGGAACCATGCTAAATAAATTTTGCATTCTGGTATTATCTCTTTGTGCTTCCCCTTTTTACTTATATTTATTTTATTTTA TTTGTAGATGCTTCAGCATGAAGAACTTATAAGAAGCTCGTTAGTCAATGGGGATATGCAGTGGCTCTGTTACTTGTCTT CAACTAGTAAGTCTTCCGTGGAACTAGTAATGAAGTTTAATGTCACTTTTTCTTGATGCATCTAAATGAAAAAAATAAAA ATGTGGCCAGGAGCTGTATTATCTATTGTATAAATGTTCATAAAATACTTTAGCTGTTCAGAGGAATCAGAGCAAGTAAA CTTTGATAGTTGGAAGACATCATGTTTTATTCATACAAATGGCCCTTCACATTCACACTGACCTGAAATTGCAGTGCTAT CTAGTACCACTGCTGGTTGATGACTGAAAAATCAACATTCTTATGACAATTCTAAACTCAGGAGATGTTTAGAAGACAAG TTTCCTAACAAACTGTTGAGGAACTACATATAATTATTACGTGCATTTTTCCTGTTAACAAGAAATTCAGTTTACTCAAC TGGTTAAGTCTGATTTATGGCCTATTTGATTTGGATTCTTGTGCTCGTGAACTGCACAAATAATATGGTCAAAGTACATT TTTCCGGTGATGAAAATGTTCCTTCCTCCCAATGGCGTTTCAAGGGGTAAATGAACAGGCGTTTACTGTCAACAACAATC GTAAGTTTAAGTATTTGTTCCAGAAACAAAGAACAGTTTGACCTTTAAGTTATCGGATTGAATCAATTGACCTAAGGTTT GTTAGATTCCTTTTACAGCTAGCACAAAAATTTCATATGTTCATAAAAAAATGTAAGAACATTGTAAAAGAAATAAATTG ATTTATATATGCATGAAGATACTAAGATAGGAATCAATTCATTTCAGAAATTAAGTTGGCACCCTGGTTGTTAGCTGATA TGCTTCATGCTTTCAAGAATTAGATTTGGTCACTACAAGTCATGTGCTGCTTCTGCTTAAGGCATATTTTTCCAATGCTT TCAAATTCAAATATGATGATGGATACACTTTCTGTCTAGCAGGCGTTTATGGAGACTGCGGCGGTGAATTGGTGGATGAG GAGTAAGAGAGTGTAACGCAGTAAATGACTTTTGTCTTCCAAAATTTCTGAAACTACTCTGTTGGTTGGTTCTTAGTGTG TACATCATGTTGTGGCAGTTATCCAACAAATCCTGAAAATGAGTTGGCTAAATTAAGGTTAGCTTCTGAGGAAGGCTGGT CAAATTTGGCTCACTGTCTTGGGTTCTCACCACTAATATTTCGATTAGGAGGAATCTACGGCCCTCGGAGAAGGTACTCA CATTTTTGTTAGGCTTAAATACTCTATTGGTCCTTGAAATTGTAAAGGGAATCAAACCTGGTCCTTATAAAATTTTCGTA TCAAATTGGATCCCCAATTTTTTTTTTTAATTCAATTAAGGACAAAGTGTGCTTGCCGCTGATGTGTCTTAATTTTTTCA TTGTCAGCTTTTCCACGTGGATTTTATCTTTTTTTTTAATACAAACTAATGCCACCTGATATGATTAAATGAAAATTAAC ATGAATTCCTAATTAAGCCCTAATTAACTAAGGTTAGTGAAGAAAGAAGGAACTGATCCAATTTTGTTTACTTCCCCTTT TCCCCCATTTTTTTTCTGGATAACCAAACGCACAAACAGAGAAGAAAGATCAATCTAGCCCGGCATGGTGCTCTGCCCTC TAGCCTCTTTCTCAGCTTCATCCACCCCAACGGAAGGACCCGCTCCGCTCTCATCGTCGTTTGCGGCGAAACGCTTCACC TGAGAGAATCTGGGTGCTTTGGGTGAAAACCCGATGAGGCTGCCACTGAAAGAGAGGTTGGGAGATAACAGGGGTAGGGT TGTGGTCGACATGGCTATAGGTATGGGTGTCGATCTTGGATCTAGAGAGGAATTGTCATTGCAGTGTGTGATAAAACATA AACAAATTCAGCAGCAAAGCTTGAGCAAGACCAAGAAGTGGAAGAAGCAGAGGCTGCCATGGAACAAGCTGTGAACTACC TCGAATCGGCCACGGAAAGCACCATGGTTTTGATCTGGGTTTTAGATCCAAATTGAGGTTCCTCTTCCTCTGTCATATGG GTTTCAAATTCAGATTGAGGATCCAGAACGTGTCTCTTCACTTATGTTTCCTCTTCCTTCCTTCAACTTCAAAGTTCAAA TCAAATAAATCGTTGATGAGGGATTTGGGAAAATATGGAACCAAGGGATTTAATCAGTGTTGATGAGGTTTTGAGAAATT AGAACCCAGGGATTTTTTCTGTCAAATTGTTGATTAGGTTTTTTCTCAGATTCAGTTAGTTTTTTTTTTATTAGATTAGA ATTTTTTTAATGATATGAGTTGGATTTAAAAAAAAGGAATAATAATTAATTATATTTAAAATAAAAGAAAAAAGCCACGT GGAAAAGCTGAGTGAGATAAAAAATAAGCCACATCAGACCAAGACACACTTTGGACCCAATTAGATTAAAAAAAAATAAT TTAAGGACCTAATTTGATGCGAAAATTTTACAAGGATCAGATTTGATTCCCTTTGCAATTTCAGGGATCAAAAGAGTATT TAAGCCTTTTTGTTATTGTAATTTATCTTTAAAGTAATGTCTGAATCCCCAAATTCATCCCTAACGTTTATAAGGGCCAT CAAATTAGTCCCTAAACTCAACAAAAGTAACAATAGGATGATCATTTTTATTTTCTGCAGGTCACATTAGGCCCCCATCT TTATTTTGTCTGTCAAATTAGTCGTTAATCATGGATTAAGAAGGACGAGCGTGACCTGCAAAAAATATATTGAGGATCCT ATCACTAGTTTTCTAAGTCTGGGGACTAATTTGACGACTCTCGTAAACGTTGAGGTCAACTTGGGGATTCACTGATTCAC TCTTCAACTAATGATCTTTTATTAGTTTCTTAATGAGATTTGCAAAAGCATATACTTTTTTTTGTCCAAATTGGACGTTG TGACAATCAATTCAAGCTAGTCATTCCAAGGATATATCATTCTAATAAGTGGCATACGAGATGTATACTCACATTAGGAA TTTAAATTATAAATTGGGTCTATGTTTACATGGTGCATCTCTGTGTCACTTATGTATCCGTTTAGTATTTTTAATTCTTT TTTCTTAAACAGTTGTTTTGTTTTAGTGCTATTGATACATTAATCAAGCAAAAGCCCTTATCAGAAGGTCAGAAGAGGCG AACACATCGAAAGTACACGTCCAGAGTTCATGTGGAGGATATCTGTCAGGCACTTATGGCTACTATTGATAAACCTCCCC CCAGGTGAGTTTCTTCTATAATTATTGATAGAGACTTGTTCAGAAAGTAACAGTTACAGAAATCAAGAGGTTTTATTGGT GTACTCCTCTTTCCTTGAATCAAGATAACTCAATATTCATAAAAACAGAAATCTAAAATGGAAGCCACCAGGTATTTGAG AGCCTGGCTTCTCCCAGAATCAATAACCAACTAACTGCCCCTTCTTTCCTCTATATCCTTTTGGGTAAACAACTTAATTA AGTGTTTACTTCCATAAGTGTTTATCACATAAACTCGTATTCATAAGCTAATTTGAGAATCGTATTGAGATAAACTCAAA ATAGCATATAGGTGGGTATAAGCGCTTGTGAAAATAAGTTCAAAACAACTTATAGATAGATATTAGATAGGTCATTAGCT CTTTTCATAAGTTTACCTAAACACTTGCATAATCACTTATGCCATAAGATAAGCTCAAATAGACTCTTCCAAACATGGTC CGGCACTTGTCAAACTGTTTGAACTTTGAACAGCTTACAAGGCTTGCTCTCAACTGACAAAGACTCAGTAATAGGCTGGG CCCACTTGATCTCTTGTAAACCTTCCTGATAGAAATCTGAATGAAGAGGTGGGCTTAGTGGTAAATGCTTCAGTGGGCCA AGAAGAGAACAGGCCCAAGGTTTGGCAAGTCTATAGGAGGAAACGGGGCAAGGCTGCTGAGGTGGCATTGGCTCAACAGA ATTAGGTGTTAGTATAAAGTAACCAAGGAAAAGGGAATAAGATTATGCTGGATTGATAATTCTGTTATAGAGAGAGAGTA GCATCTCCCTCGGAGAGAACGCTCTAGAGCTTCTCTGGGTTGTTAGAGTTTTTCTAACAGCACACCTTATCACAATATCT TCTGTAATTGTCCACTTCAATCAATACAATTGCATTTCTATTCCTTCATTTCATCTTCATTACTTGTTAGCTTCCTAATA TCCATCAAATTGGTCCGACCTGCCGGATCAACACCGTGGAAGGAGTCTCAACAAGCTGGTAGATGCCACCGAAAATGACC GATCGAATGGAAGCTCTGGAAAACCAGATGGGAAGCGTTACGACGGCGCTGCAAGAGCTCGCTCTCCAACTGCAGCAGCA GAGCTTGACTCTCACTGAACTGAGCAAGCAAATGGGTCGAAAGGAAACGGGTCACGAAGGAGATACCCCGATAGCGGATT CACACCCCGGTGAGTCTCGCTTGGCCGGAAAGAAGGTGAAGTTGCCGGTGTTCGAAGGAGAGGATCCTGTGGCTTGGATC ACGAGAGCGGAGATCTACTTCGACGTGCAGAATACGCCGGATGAGATGCGGGTGAAGTTAACGCGATTAAGTATGGAAGG ATCGACGATCCATTGGTTCAATCTGTTGATGGAGACTGAGGATAATCTATCCTGGGAGAAGCTGAAACGTGCGTTGATTG CACGCTACGGAGGAAGAAGATTGGAGAACCCTTTCGAAGAGCTATCGACATTACGACAGAAAGGAAGTGTAGACGAATTC GTCGAATCCTTTGAGTTGTTGTCATCGCAGGTAGGGAGGCTACCGGAGGACCAATACCTAGGATACTTCATGAGTGGGCT GAAGCCTGCGATCAGACGCCGAGTGCGCACACTTAATCCAGGAACTCGAATGGAGATGATGCGAATCGCGAAAGACGTGG AAGAGGAACTAAAGGAAGAAGACGAAGACGATGGCAAGAAAATGGTAAAGAGGAGCGGGTTCGATCGCTCGGGTCAAAGC AATTGGGCCGGGTCATCCGCCAATCGGGTTGGGCTTTTTAGTAGGGATGTGACCCGGTTCTCTAAACCAGGCGGGTCAAT TCCAAGTCGCTCCATGAGTTCAGTAGGATCGACGACGAATTCAGCCGCGTCTCTGGGTTCCTCAACTCGAAAAGGAGAAA ATGATCTCCGTACAGGATCATCGGAGAAGTGGAAAGGGGTCCGCAGCTTCCAGGTGGATGAAATCGCTGAGCGGAGAGCC AAGGGCTTGTGCTTCAAGTGTGGGGGAAAGTATCATCCTACCCTGCACAAGTGCCCCGAGAGATCCCTGCGTGTTCTAAT CCTTGGAGACGGGGAAACCGTTGATGAAGAAGGTGAGATTGTGATGTTGGAGGGAGAACCGGAAGTGAGTGAAGAGGACG AGGCAGTGGTTGAGTACAAATTAATGGGGGTTCTGGGTCGTATGGAGGAGCATCATACGATGAAGATTGAAGGGCAGGTT GACAATGTGAACTTACTGGTGCTTATTGACAGTGGAGCTAGCCACAACTTCATCTCCCCAGCAGTCACCAATGCTCTGGG TTTGGTTATCACCCCTATAGCTTCCCGACACATCAGGTTAGGGGATGGACACAGGGTGGTTACACAGGGAGTGTGTAAGG GAATTAAGGCCAGGCTGGGGAAGATTGAGGTGGTGATTGATGCCTTGGTGTTGGAACTAGGAGGTTTGGACATGGTATTG GGGGTGTCCTGGCTGAGCACACTTGGAAAAGTGGTAATGGACTGGAAACTACTCACTATGCAATTTGTCCATGGAAATCA GGTAGTCAAGTTGCAAGGGCTAGGAGGAAAAGGGAGTAATCACAGTTTTCTACACTCATTCCTCATGGACAAGCAGTACA GAGGTGGTATGGAGTGGTGGTGGTCTCATCTGAATTCCGCAGAAGTCACCAATACTGAGGTAGAAACACCAAGAGAGCTT ATGGAGACACTGGAAGAGTTTCAAGAGGTATTTAGGAGCAAGATTCAACTGCCACCAGAGAGGTCTAAGGTGCATCAGAT AAAGCTTTTCCCTGAGCAGGAGACCATCAATGTGAGGCCTTATAGGTATCCTCACCATCAAAAAGAAGAGATTGAGAGGC AAGTGGCAGAGTTAATGGAGGCAGGAATCATCAGACCTAGCATGAGTGCTTATTCAAGTCCTGTGATCTTGGTAAAGAAG AAAGACAAGAGCTGGAGGATGTGTGTTGACTACAGAGCTTTAAATAAGGCCACCATTCCAGATAAGTATCCAATTCCGAT AGTTGATGAGCTGCTGGATGAATTAAATGGAGCTTCAATTTTCTCTAAAATAGACCTGAAATCTGGCTATCATCAAATCA GGGTGCATGAGGATGACATAGAAAAAACTGCATTTAGAACCCATAATGGACATTATGAATACTTAGTGATGCCATTTGGG CTAATGAATGCTCCAGCTACATTTCAAGCAGTAATGAATGATATTTTCAGACCTTACTTACGGAAATTCGTGTTGGTCTT TTTTGATGATATACTAATCTATAGTAAAGACTTACCTGAACACCTCACTCATTTGAAGTTGGTACTATCTGTCTTGTTAG CTAATTGTTTTGTGGCTAATCAGACCAAATGCAAATTTGGATGTGCTTCAATTGATTATTTGGGTCATATCATCTCGGGA GCTGGCGTGGCAGTAGATCCAGAGAAAGTAAAATGCATTATGGATTGGCCTGTGCCCAAGAATGTTAAGGGAGTGAGGGG ATTCTTGGGGCTGACCGGATACTACAGGAAATTCATCAAAGATTATGGGAAAATGGCTAATCCTCTCACTGAGTTGACTA AGAAGGACAGTTTTTCTTGGGGACCAGAGGCAGATAGGGCTTTTCTTCAATTAAAGAGGGTAATGACATCTCCTCCTGTC TTGATACTACCCAATTTCACTCTTCCCTTTGAAGTAGAGTGTGATGCTGCAGGGAGAGGGATTGGAGCTGTCTTAATGCA ACAAAGACAACCTCTAGCTTTCTTTAGTAAAGCTTTATCAGCTGGAAACTTGGCTAAGTCAGTGTATGAAAAAGAATTAA TGGCCTTGGTTTTAAGCATTCAACATTGGAGGCACTACCTATTGGGGAAAGAGTTCATAGTCTATACTGATCACAAAAGC CTTAAGCATTTCCTGCAGCAGAAAGTTTCTTCACCAGACCAACAGTGTTGGTTAGCAAAATTACTGGGTTACCAATTTCA AGTCAAATACAAACCCGGCTTGGAAAATAAGGCTGCTGATGCCTTGTCCAGGCGCTATGATGAGGTGGAGCTGCATTCTC TGATCTCATTTCCTCTCTGGAATGACCGAAAGAGACTCTTGGAGGAGATTACCCAAGATCCCTACATCCAGGACTTGCAA TCTGCAGTACAGAAAGATCCTGCAAGCAAACCTGGATTTGCAGTACAACATGGAGTTTTACTATATCATGGAAGGCTAGT CTTATCTCCTACCTCTCCTTCCATCCCATGGCTACTTGAGGAGTTTCATGGCTCACCTTCTGGGGGTCACTCTGGCTTCC TGAGGACCTATAGACGCTTGGCAACAACATTGTATTGGGTAGGAATGCAAAAGAGGGTCAGAGATTATGTCAGAGCTTGT GATGTTTGTCAAAGACACAAATACAGCGCCTTAAGCCCTGGAGGCTTGTTACAACCTCTTCCAATCCCTAATGCTGTGTG GGAAGACTTGTCTCTTGACTTCATTACAGGTCTACCCAAATCCAAGGGCTTTGAAGCAGTACTGGTGGTTGTGGACAGGC TGTCAAAATACAGTCATTTTATTCTGCTCAAGCATCCCTATACAGCCAAGTCTATTGCAGAAGTGTTTGTAAGAGAGGTG GTGCGCCTCCATGGGATTCCTAATTCAGTCATAAGTGATAGGGATCCTATTTTTGTTAGCCATTTCTGGTCTGAACTCTT TAAGCTGCAGGGGACCAAACTGAAAATGAGCTCGGCTTACCATCCGGAAACTGATGGACAAACAGAGGTCATAAACAGGT GTTTGGAAAGCTACCTGAGGTGTTTTGCTTCTGATCATCCCAAGTCTTGGTCACATTGGATTTCCTGGGCAGAATTTTGG TACAATACTACTTTTCATAGCTCAATTGGACAGACACCCTTTGAGGTAGTCTATGGAAGACAAGCACCCCCTATTGTCAA GTTCTTATCCAATGAGACTAAGGTAGCCGCTGTGGCCCTAGAGCTAAGTGAAAGAGATGAAGCCCTGCGACAGCTAAGGG GTCATTTACAGAAGGCTCAAGAACAAATGGCTATTTATGCAAATAAGAAGCGGAGGGATTTGTCCTTTGCAGTAGGAGAG TGGGTATTTCTCAAACTGAGACCCCACAGGCAGCATTCTGTGGTGAAGAGGATCAATCAGAAGCTTGCTGCCAGGTTTTA TGGACCTTTTCAGATAGAGGCCAAGGTAGGAGCAGTTGCTTATAGGCTGAAGTTGCCTGCAGAGTCCAAAATCCACCCAG TTTTTCACATTTCTCTGTTAAAGAAGGCTGTGGGAAACTATCAAGTGCAGGGTCAGTTGCCAGCGGATTTGGGGGTTGAT GACACCACTGATATTTACCCTGAAGTCATAGTGGGCACTAGGACTGTCAGGCTCGGGGACAGTGAAGTGCATCAGAGCTT AGTCAAGTGGAAGCATAAGTCAATGGAGGAAGTCACCTGGGAAGACAATGTCGTTCTAGCTGGTCAGTTTCCTGAATTCT GCCTTGAGGACAAGGCTGTTCCAATGGAGGGAGGAATTGATAGAAATCTGAATGAAGAGGTGGGCTTAGTGGTAAATGCT TCAGTGGGCCAAGAAGAGAACAGGCCCAAGGTTTGGCAAGTCTATAGGAGGAAACGGGGCAAGGCTGCTGAGGTGGCATT GGCTCAACAGAATTAGGTGTTAGTATAAAGTAACCAAGGAAAAGGGAATAAGATTATGCTGGATTGATAATTCTGTTATA GAGAGAGAGTAGCATCTCCCTCGGAGAGAACGCTCTAGAGCTTCTCTGGGTTGTTAGAGTTTTTCTAACAGCACACCTTA TCACAATATCTTCTGTAATTGTCCACTTCAATCAATACAATTGCATTTCTATTCCTTCATTTCATCTTCATTACTTGTTA GCTTCCTAATATCCATCACTTCCTTAATGGGGTTTGGATGCTAATATTAACTTTCTGGATATCACCCTTTGTTGTGAAAT GTTTCTTAACTAACTAGGCAATTTTTTTCAAGATTGGAGTAAATAGGCAGGAATATCAAACAATATATTCTACTATTCTA GTCCTTCACATGTTTAGTCTAATGTAGTGGAACGTTATGATTATTACAATTAACTGCCACCATGGTTGGAAAAACTGGAC TTTCTTGTCAGCAAACATGCAAACCATATTAACTGCCGTAATGGAATGGTGGGTGCTAGTTAGTATTTCCTATCTTCTCA TTCTTCGTTGACTTGACTAAGAAGTTCCACTTTCTTATGAGTCACATACTATCGTCCCTAATAAAAAATGAACTGGAGAA ATGGGTTTGGTTCATTGATTGCAGTTTCGCACTTGTCATTTTCAGGGAAGTTTACAATATCGTTGATGATGATCCTGCTC CAAGAGAAGAAGTATTTGAAAATGCAAGAAAATTGGTGGAGAAAAAGTGGCCAGGCTTGAACCTACAACCGCTGGAGCAG AAAGACAGGTCTATTGTAGAAACAAGAAATTTAAAGGGCGAGAAGCGAGTGTCTAATGCTCGAATGAAGAACGAACTAGG GGTGCAGTTACTTCACCCAGATTACAGATCAGGACTGCAAAGTATAATTGACCAGATTGAGAGCCCTTTCTAATGCTACT CATCTTATTTTTGTCTAATAAATATGCGGGCAATTGACTCATTTCCATGCCCAGTCATGATTACATATCACATCATGTTT GTGTTGAAGGTTAAAAGTAAACAAACACTTCAGGATCAGGAGGATAAATAGTTCTACCATCTAACATGAAACTGTTGAGT TCTTAATTTATTTCTCCCATTTTCTTCTGTATGTCGACTCCTCCGGACATCGTCTTAATTGAACAATGAGAACCACGCTA GCGTAAGTTGATGGATTATAAACAATCCTACAAGATTCTAGCGTTGCCATAATTATTAATGATTTTTTCACACTTTACTT TCTCGTC
CDS sequence (LotjaGi5g1v0012200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAGTTGGTCAAATTCGAGGTTCAGCGGTTTATCTCCACCGTGGCCATCATCGGAGAAGTTTGAGTGTCTCATTGTC AATAGCCCCACCAAAATCTGAAAAGCGCATATTCATGTTAGGAATGGGATTCGTGGGGCAAACACTCGCACGCAAACTCC ACAACCAAGGATGGGTTGTGTCTGGGACTTGTACAAACCATGTGAAGAAGAAGCAGCTTGAGGATATGGGGTTTCATGTT CACCTCTTTGATGCAAACTACCCTGATCTGAATGTCCTACAACTACTGAAGAATTACACTCACTTTCTTGTTTCTGTCCC TCCTATGTTGGGCATTGGTGACCCGATGCTTCAGCATGAAGAACTTATAAGAAGCTCGTTAGTCAATGGGGATATGCAGT GGCTCTGTTACTTGTCTTCAACTAGCGTTTATGGAGACTGCGGCGGTGAATTGGTGGATGAGGATTATCCAACAAATCCT GAAAATGAGTTGGCTAAATTAAGGTTAGCTTCTGAGGAAGGCTGGTCAAATTTGGCTCACTGTCTTGGGTTCTCACCACT AATATTTCGATTAGGAGGAATCTACGGCCCTCGGAGAAGTGCTATTGATACATTAATCAAGCAAAAGCCCTTATCAGAAG GTCAGAAGAGGCGAACACATCGAAAGTACACGTCCAGAGTTCATGTGGAGGATATCTGTCAGGCACTTATGGCTACTATT GATAAACCTCCCCCCAGGGAAGTTTACAATATCGTTGATGATGATCCTGCTCCAAGAGAAGAAGTATTTGAAAATGCAAG AAAATTGGTGGAGAAAAAGTGGCCAGGCTTGAACCTACAACCGCTGGAGCAGAAAGACAGGTCTATTGTAGAAACAAGAA ATTTAAAGGGCGAGAAGCGAGTGTCTAATGCTCGAATGAAGAACGAACTAGGGGTGCAGTTACTTCACCCAGATTACAGA TCAGGACTGCAAAGTATAATTGACCAGATTGAGAGCCCTTTCTAA
Protein sequence (LotjaGi5g1v0012200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEVGQIRGSAVYLHRGHHRRSLSVSLSIAPPKSEKRIFMLGMGFVGQTLARKLHNQGWVVSGTCTNHVKKKQLEDMGFHV HLFDANYPDLNVLQLLKNYTHFLVSVPPMLGIGDPMLQHEELIRSSLVNGDMQWLCYLSSTSVYGDCGGELVDEDYPTNP ENELAKLRLASEEGWSNLAHCLGFSPLIFRLGGIYGPRRSAIDTLIKQKPLSEGQKRRTHRKYTSRVHVEDICQALMATI DKPPPREVYNIVDDDPAPREEVFENARKLVEKKWPGLNLQPLEQKDRSIVETRNLKGEKRVSNARMKNELGVQLLHPDYR SGLQSIIDQIESPF
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 | 23 | 334 | 312 | 1.9E-125 | – | |
| PANTHER | 23 | 334 | 312 | 1.9E-125 | – | |
| Gene3D | 32 | 331 | 300 | 9.3E-85 | – | |
| SUPERFAMILY | 35 | 330 | 296 | 1.17E-30 | ||
| CDD | 37 | 310 | 274 | 1.51823E-69 | – | |
| Pfam | 133 | 251 | 119 | 1.8E-5 |
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 | Coenzyme binding | Interacting selectively and non-covalently with a coenzyme, any of various nonprotein organic cofactors that are required, in addition to an enzyme and a substrate, for an enzymatic reaction to proceed. |
Expression pattern of LotjaGi5g1v0012200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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