Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0257600
Transcript ID	LotjaGi2g1v0257600.1
Lotus japonicus genome version	Gifu v1.2
Description	Aldose 1-epimerase; TAIR: AT3G47800.1 Galactose mutarotase-like superfamily protein; Swiss-Prot: sp\|Q5EA79\|GALM_BOVIN Aldose 1-epimerase; TrEMBL-Plants: tr\|I3SM26\|I3SM26_LOTJA Aldose 1-epimerase; Found in the gene: LotjaGi2g1v0257600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:72359347..72374293) extracted from Lotus japonicus Gifu genome v1.2.

AGGATATTTTTCTCATCAACTTTGAAGCCCGAATTCATGACCAAAGCACAAGGAAGGATCGAACTCACGATCTCAGGAGT TCAAACATCTACTTTTAATCAATGCGACTAACTGAATGAGAAAAGCAGGCAGAAGATTAAGAACTTTGCTCACCAATTTT CCCTTGTTTGAATTTCAATTATTAATTTGCTCATTCCTTTTTCTTTGGTGGATTTGAATTTTGATCATGATCCTATACAA AATTGGTGCTTTCCTTTTCTTAACATCATCCAGTTTTGATCATCAAAATGAATGAGCAGCTAGCGTTTGGATCTTATTTC ATCTTCGCTGGTTTATATGGATGCATATATATTAATTACCAACTCACCACCTGTGTATGAGTTCACAAGAGCACTCACTT TGCCATTGGAGCCCAGTTTTTATGCTCCATCTTCTGTAATTTCTCTTCTTAGAACTGGTTTCCTACTTCGTTGAACTGGT TTTATATTATATTTACACAAACTTTATTTTTAATAGTTTCGCAGTGTGCCACGTTGTAGATGGGGTAGAAAGTGGTGGTC GTGAATGTGGGGTTTAAGTCGCATGCTGCTGGAGATGGGGTTCTCACCTTGTTGGTAAGCTTTGACGGCGGCACAATGGA GCACCGGGCCAGCTCCGGCAGAGGAACTCCGGTGACTGCTAAGGTTTGTTTCAATACTCTTTTTACAACAAGGGTCATAG AGCAAATTGGTAACTTTGTTTCAAAATGAAGTTTTTATTCATACCATTAGTTTGCTGTCACTTTCCCATTATCAAAGCAA ATTTCCCATTATTAAGTTGCTGGGCAACCCTCGGAATATCCCGACGCTCCTACTCCAGTGGGCCTCAGTTAGCCTCCCTA ACATGTCATTGACGTCTTGCCCGGTAGTAGCTAGCCTCCCCAACATGTCACTGACATCCTGCCTAGTAGTCTAAAGGTGC TTTCTCTCCATTCTACCATCTTTGTAAAATAAAAAAATTACCCAGATTTTTCAATGAATTTCCAAAATTTGGAAACTTCA ACGAAATCCTGAAACTGCATTATTAGTATGGGTCCCTTGTTGACTTCACAAGTCCCCACAAAAATGTCTCTTATCCTTAT TAATCTTCTTGGCTGATACTAGTCTAGCACTGCAAATCTGCAATTCTCAAACTTTTGCATCTTCATTTTGTGAGGGAGAT GGCTGAGGCTGTGCTTGAAATTGCTCTTGAGAATTTGAGCTCACTCATTCAGAAGGAGCTTGGCTTGTTTCTGGGTTCTG ATCAAGAATTCAAAAGGCTGTCCAGCACACTCACTGCAATCAAGGCAACACTTGAAGATGCAGAGGAGAGACAATTCACT GAGAAAGCTATTAAGGATTGGCTGCGAAAGCTGAAAGATGCTGCTTATGTTCTGGATGACATCTTGGACGAGTGTGCCAC TGAAGCGCTGGAGATGGAGAATGGAGGATTCATGTGTGGTTTATCAGACAAGGTACAAAGCTCTTGTTTATCATCTTTTC ATCCCAAGCATGTTGTCTTCCGTCGTAGAATTGCTAAGAAAATGAAGAGGATAAGTGAGAGGTTAGATGAAATTTCTGAC GAGAGGAGTAGGTTTCATTTAACTGAGATGGTTACACAGAAAAGAGCTGAGTGGCGCCAAACCACCTCCATCATTGCTCA GCCTCAAGTCTATGGAAGAGATGAAGATAAGGATAAAATTGTAGACTTTTTGGTTGGTGATTCTTCGAGTTTCGAGGACT TAGCGGTCTATCCAATACTAGGTTTGGGTGGACTTGGAAAAACAACACTTGCCCAACTTATCTTCAATCATGAGAGGGTA GTCAACCACTTTAAACAAAGAATTTGGGTGTGCGTTTCGGAAGATTTCAGCTTGAAAAGAATGACAAAAGCTATCATAGA ATCAGCATCCGGGCATGCCTGTGAGGATTTAGATCTAGACCCACTGCAGAGGAAACTTATAGATTTACTGCAAGGAAGAA GATATTTGATTGTTCTGGACGATGTGTGGGACGATGAACAAGAGAATTGGCTGAGGTTGAAATCTTTACTGATACATGGA GGTAAGGGTGCTTCAATTTTGGTCACTACTCGTCTCCAGAAAGTTGCAGCCATCATGGGAACAATACCTCCTTATGAATT ATCAATGCTATCTGATGATAATTGTTGGGAATTGTTTAAACAACGAGCATTTGGACCGAACGAGGTAGAACGTGCAGAGC TTGTGGGCATAGGAAAGGAGATAGTAAAGAAGTGTGGGGGAGTGCCTCTTGCAGCAATAGCACTAGGAAGTCTTTTGCGC TTTAAAAGAGAGGAAAAAGAATGGCTCTGTGTCAAGGAAAGCAAACTTTGGAGCTTGCAAGGTGAGAACTTTGTCATGCC TGCCTTGAGACTAAGTTACTTGAACTTGCCCGTGAAATTGAGACAATGTTTTTCCTTCTGTGCATTATTTTCCAAAGATG AAATAATAAGCAGGCAGTTTCTAATTGAACTTTGGATGGCTAATGGATTGGTTTCGTCCAATGAAATGGTGGATGCAGAG GATATCGGAGATGAGTTATTTAATGAATTATATTGGAGATCAAATTTTCAAGATATTAAGACAGATGAATTTGGCAAAAT TACAAGTTTCAAGATGCATGATCTTGTTCATGATCTTGCTCAATATGTTGCTGAGGAAGTCTGTTGCAGTGCAGTTAATA ATGGTATAGCTGATGTGTCTGAAGGAATCCGGCACCTATCATTTTATAGGACAGCCTCATGGAAACAGGAAGTTAGTTCA ATCCAGTCGGGTCGATTCAAATCTTTGAAGACCTGCATATTAGGGGAACATGGTCATCTATTTGGGGGTCGTTCAGTAGA GGCATTGAAATCTAATTCTTTGCGGATGCTTAACTACCACCGCCTAGGAAGTTTGTCAACTTCAATTGGTCGTTTCAAAT ATCTAAGACACTTAGATATCTCTTCCGGATCGTTCAAATCTCTTCCGGAATCCCTTTGCATGCTCTGGAATTTGCAGATT TTGAAATTAGACAATTGTCGTTATCTGGAAAAGTTACCTGCTAGTTTGGTACGCCTAAAAGCTCTACAGCATCTATCATT GATTGGCTGCTATTCTTTATCAAGATTTCCCCCTCAAATGGGGAAGTTGACTTGTCTAAGGACTTTAAGCATGTATTTTG TTGGCAAGGAAGAAGGGTTCCAGTTGGCAGAATTGGGACGATTGAACCTTAAAGGACAACTTCACATCAAGCACCTGGAG AAAGTAAAAAGTGTAATTGATGCTCAAGAAGCCAATATGTCGAGTAAGCACCTGAATCATTTGCAGTTGTCATGGGGGAG AAATGAAGACTGCCAATCACAGGAAAATGTTGAGCAGATTCTTGAAGTGCTTCAACCTCATACCCATCAACTTCAAATTC TTGCTGTGGAAGGATATACAGGTGCATGTTTCCCACAATGGATGTCCAGTCTTTCTCTCAAGTATTTAAATTCTTTAAAA CTTGTGGATTGCGAAAGCTGCTTAGACCTTCCTCAGCTAGGGAAGCTACCTGCTCTGAAGTATCTAGGTATATCTAACAC GAGTTGTGAAATAGTATACTTATACGAGGAGTCCTGTGCTGATGGAATTTTCATAGCTCTGGAATCTCTTAAACTGGAGA AGATGCCGAACTTGAAGAAGTTATCGAGGGAGGATGGAGAAAACATGTTCCCGCGCCTTTCAGAACTTGAAATTATTGAA TGTCCTCAATTGTTAGGGCTGCCGTGCCTTCCATCTCTCAACAGTCTAATGATGCGAGGGAAAGGAAACCAAGATTTACT AAGTTCAATTCATAAATTCCACAGTCTTGAACATCTCTACTTGGGAGGGAATAAAGAGATAACTTGCTTTCCAAATGGGA TGCTAAGTAACCTTTCTTCTCTAAAAAGACTGCACATTTTTGGTTGCTCCAAACTTGAGGAGTTACTCCCAAATGAAGTC GTTAACCTTGGTGCTCTCCAACCACTGGACATAAAACATTGCCAGAGCCTAAATTCATTAACAGATGGAGTATTGCAAGG GTTGCAGTCTCTCAAGAAATTAGTTATTGTGGGGTGCCATAAGTTCAATATGTCAGCAGGTTTTCAATACCTAACTTGCC TTGAGTATTTGGTGATTCATGGTAGCTCAGAAATGGAAGGATTACATGAGGCTTTACAGCATGTGACTGCCCTGAAAACC TTAGTATTGTGTAATCTTCCAAACCTAGAATGCCTGCCTGCCTACTTGGGAAACCTTGGCTCGCTTCAATTATTAGCTAT TTCTAAGTGCCCCAAGTTGACGTGTATTCGCATGAGTATCCAATCCCTGAAAATGTTGGGAATTTACAGTTGTGAAGTGC TAGGGAAGCGATGTCAGGCAGAAACAGGGGAGGATTGGTCAAATATAGCTCATGTTCAAGATATTGTAATACTAAACAGT GGACCGCTCTTGGGCATCAGCGGGTTGAGTAAAGACGAACATATGGCTGCAGCTTCATTCAAGCACAACGACCTTGAAGA ATTAGAAGCGATCTATTCCACACTGATGTTGCAGCAACAGTTACTGCCAAATAACTGAGACTTCACAAACGTGAATGAAA AATGTTTCTACACCTTTCAGAATTGGAGTTGATTAGTTTCTCTGATTCTCAAATGTATTACTAATACTGATGTGTTTCTA GTTATTTTCTTCCTTTCTAATGCTGATTTTGTTTTCTTTCACTCTGTAAGTGTGAGAGGAAGGTGGTATAATGTACAACT GTTTGTCATTTTACTACATTGAGGTTTTATAGGTGGTCCATATCTTTCATTCTCATACATAATGTTGATTGTTGAACATG GGCAGTTAATTTGAGATGTTACTGTCATATTGATTTGGATCAGTGCATGACATAATTTCATATTTCATGAGGCTAGTGGT GGATAGATTTTATTTTCAAAATGAAATATGTTGTTTGTGATGGTGTAATTTTAACAACATATATATAATTTATTTTAAAC CTACAATTCTTATACATGTTAATTAAGTGTTGATCAATAAACCTCTGGAGTAGTACACTCAACTTAAGGCCAAAATGAAG AGGTACTAGAGTAGCACACTCAACTGTGAATTAACTACTTTATATGTTGTATTTAACTGCGATATTCAGAGAAGTTCATC CCACCAATGTGAACAACCAAATTGTTGTACTGATATGCAAAATCCAAATTTTGTTTATTTTTGATAATGCAATAAAATGT AAGAACGTGAGTGCATTGTCAGTGTAAAGTTTCTTTACACAAACGTCTAATGATTGATCTCACATCAACAAATAAATTAA TTTAATTAAAATAAAAAGAATGTAATTACTTCAAATGTTGCATTTTCAGTGTAAAGAATTACCATCAAAATTAAACTCAT AAATTATTACATGTAGTACAATATTTCTAAGAAAAATTGAATTATTGAAACTCATATTTATCACAGTAAGATGACACAAC AAAGAACCAGGTCTCAAACCGTGCTTGGTGTGCTATATATAAGGCATAGTCAGAGAGCTACCATGTTCCAAATTGACTAG CCATTCCTTTGTAGGAAAATGAAGACCAAGATCTTTGTGCTACTATGTCTTCTCTTCTTAGCTGCTTCTGGGTTTGTCAA TGGCTCTGCTAAGAAGGAGAAGGACCATATTAGGTTATTTGAGCTCAAGAAAGGTGATCTTTCTTTGAAGGTTTCCAACT GGGGTGCAACACTTGTGTCTCTAGTCCTTCCTGATAAGCATGGTACCATATATGTATCTGTTTTGATTGTGTTCAAAATA TCCAATTTAATTTCTTCTTTTCTGTGCATTAATTATGAATATGTTTCTTAATAACATCTAATTGTTTTCATTAACTATGA TTTAATTTGTCTCAGGGAAGTTGGGTGATGTTGTTCTTGGATATGACTCTCTCAAGCAATATACTGTAAGTGTCTAAGTT AAGAGATAAGGATAAAACTTCTCAATGTTCTTCAACTTCGATTGATTCAATGAAATATTTGATAGCTAAGATTTGGATTT TGGGGTTTACTTTGTTTGTCACTTTGTGTTGCTCACCTAATCCTTTTGAATAGTCAGCGACTCAGCGGTCACCGCTTGTT TGTGTCCTACTCTTAAGTAATTAGCTAGGCACCACATATATATCCGATTCTGAATTATTCATTTTGTTTTATATAGTTTT TTATTTCATTTAGTTTTTAAACATTTAGTATTTCATGTAAATGTGTTGATAAAAAGTAGTCATGGAAATTAAATATGATG AAAATTTGCAGAATGATTCAACATACTTTGGAACTACTGCTGGTCGGGTTGCTAACAGAATTGGAGGAGCTCAATTTACT CTAAATGGAATCCATTACAAATTAATTGCCAATGAAGGAAACAACACGCTTCATGGTACACTTTTTTTTTTCTGAGGAAG GTTAATCTTTATTTTTGAATTAAGAAATTTATTTAAAAAAAATCATTAAATTAGAGATTTTTAAATAACCAAAACCCGTA AGCGAAATAGGGTGAGAGTGAAAGTAATTGGGTCGAAATGAGCGTCTCCTTTGTAAGTTTCATTGCCGTTTCCCCCCAAA ACCATCCAAATAAGTTCTAAGTAAACACATAATCTTTGATTATAATTGTATGGTGTTTGTAATTTATCCTATATGAGAAG GCGTGTTGAAAGATATCACATAGTACTCTCTGATTTCCCTTAGGTGGACCCAGAGGATTCAGTGATGTTCTATGGAAAGT GGAAAGGTATGTAAAAGAAGGTGACAAACCCAGAATCACCTTCAGTTACCACAGTTTTGATGGTGAAGAAGGTAATTAAA CATTGCCATTATATTTATTTTATTTATTTATTCAATGTAGATGCACTTTGAATTCCTAATTTCTGGTAAGAATTGGAACT GCACAGAGTGTTTGTGATTTGAATTATGTGTGTATATATAGGATTTCCTGGTGATCTGCTGGTAACTGTGAGCTACATTC TTGGGAGCAAAAACTCTCTGAGTATAATCATGAAAGCAAAAGCTCTAAACAAGCCTACTCCAGTGAATCTGATTAACCAT GCTTATTGGAACCTAGGAAACCACAACAGTGGAAACATTTTAGGTGAAGTGGTTCAAATTTTCGGGTCCCGAATCACAGT TCTTGATAGCCATCTCATTCCCACTGGTGAAATTGCTTCTGTGAAAGGAACCCCATATGATTTCCTTAAGCCACAAGTTG TTGGGGCCAGGATCAACCAGTTGCCAAAAACTAATGGCTATGACATCAATTATGTGCTTGATGGTGGAAAAAGCAAAGGA TTAATCAAATTGGCGGCGATAGTGATGGATAAGAAATCAGGGAGAGTGATGAAGCTCTTTACAAATGCTCCAGGGTTGCA GTTTTACACTGCTAATAAAGTGAAGAATGAGAAGGGGAAAGGTGGGTTTGTTTATCAACCGCGTGCAGGGTTGTGTTTGG AGTCTCAAGTCTTCCCTGACTCTGTGAATCACCCTAACTTTCCCTCAAGTATTGTGACCCCTGAAAAGCCTTATAAACAT GTTATGCTACTTAAGTTTTCCACCAAAGCTCCATATGCTTTTTCACAGTCCTAAGCATTCTGAGCTTTCAGCCACTTTTC ATGTGTGCTCAGTTTTCAGTGTAGCATGAGTTCATGCAAACTTTAGTTCAATAAAATGAATAATAAGGGAGTGCACATTT ACCTCTATGCGTGTTATATATGTGAGGGAGAGATTAAGCTTAATTGCATTTCAAATAGTGTCTTTACCTTTAGATAATTT TAATCATTAATTTTTTCAATTAAAACATCCCTCCTTGTATTTCACATTAGTTAAATTTCCTCCTATGTGCTTTGATTCTA CTTAAATTCCAGTGTGATATTTTTCTTTTTTAGTCGAGAGTATCCGGTGCCAATAACAGTAACTAATTTTCTCATTGCAG GTGCTCATATTAAGCGGTAAATAACTGATCACAAAATGTGTTTCATTCTCATAGATGAGGGACCGAACTCCTCACATCAT AATTAAGGAACGACGTGAGCAACCACCGCGCCAACATCTCGGGATTAACAAATAGCTTATACACAATTTTGAAGTTTTTA ATGAGTTTTTATATTTCTAAATAGTTTAATTAAATTTTTACTAAGTGATTGAATTCTTAAATGAAATAATCATTGCTAAA CTTTTAACAATATGGTCTAATGCACATATCATGCACCGAAAGACAATCTAATTCATGCAAACATTCATATTCTAGTGAGA CTAACTCTTTTTAGCAGATTTTTTTCTTTCTACACACAATACTCAAACTCGAAATCTTAAATAATAAATCATGCATGCAC CACGTAAACCAACCACCAACTTTTAACAACTACTCATAATAAATTTCTCATAATAAGAATCACTTAAAAATTTTAAATCT ATAAATATATCTCACTAAAATCTTCTATTAAAAGTTCAATAAAAAGTAACATAAATATCATGTAGTGTGTAGTTTGAGCT AATGTCAAAACAGATGGCTCTGCAGTTGCATCATTGCTTCACACACTTCCCTCCCTTCACTTCAACAACTACACCTTCAT CTCTCTCTGCTTCACCAACCACTTCCCTTCAATTCCCTTCACCATTCACAGATTTTCGTGGACCAAACCGTTGCCTCAAC CTTAATCCTCTTCATTCTGGGAAAACCCATTTGCGGAACAACCACTGTTCCTCAATGGTTTCTTCTTCTTCTTCGACATT GTCAGCGCAGGACAAAGGTAAAAGATCCAAGAGTGTGTGGATATGGACCGAGAACAAGCAGGTCATGACTGCAGCAGTGG AGAGAGGATGGAACACTTTCCTTTTCTCCTCACACCATCAAAAGGCCCATGATTGGTCATGTGAGTCACTTCCCTCATTT CCCTTTTAAGTTTCATTTGGAAGGAAAATTTCAATACCCATTTGTTGTTTTTTCCTTTTTAGTTCACATTTGATACAATA TGTTAGGACAACCTTGAAAAGGTTAGATTTTTCATGCAGTAGTACAATTTGTTAAATACATGATTGGATAATAGTCAAAG AGGTTGGGAAAAATCTAGGCAATGTTGAATTCAGAAACATTTTTGTTATGTTGAAGTTGCTAAATGTTCATCATAATTCA TAAGATGGCCTTAATTGTTTAGTATTTATGTTTTTTTTTATGATGAGTAAAATGGAGTTTGAGCTGGTATGTTTAGTGAT GTGGATATTTTATCATGTCTAATTTTATGAATTTGGAATTTTGGCCATGATGGGGTGAAGCCATTGCGGTAATATGCCCT CTTTTTGTTGGCGAGGGAGAGATTTTGGATGGACAGGATAAAAGGGTAGCCACAGTTTTTGATGTTTCAACTCCGGAGGA ACTAGAGCGACTAAGACCTGAGGAAGAGCAAGCCGAGAACATTGTAGTTAATTTACTAGACTGGCAGGTATGCTTGTGAA AAACTGCTATATGAATTGTCATGGATAGTTTGGAAACTTGTCATCCATTGATTTTTTGTTTGTAGTTGACACATACTACC AATTTGGTTTGGAGGAAGATAAGATCAACTTGTTTTTCTACTTTATAAAGTGTGGTTACTTATATTAAGAGAGTTTGCAC ATGTTTATGCTACCTCTTGTTCATGGTTGCGTTCTAGAAGTTAGATATAGGCTACGAAATATCAGTTACAATTAATACCT TGTTGAAAATATTTTGTATAACATTAGCTAGTTTAGTTTGTAGTAAATTGGTGAAATCGATTGACTTTCAAATATGCTTT GATTCCTTGATTAGTTTTATGTGTATTATTATTGTAACTCATACTCTTTATATGGAAGTTATTCTGCCTGTTTGTGACGA CCATAATGTAATGGATGCGATTCTGCCAGATATAACCTTATTCATGATATAATTATGTTTCACTCTATGCCCTCCTTTCT CCTTTTCATGACTCGTAATGACTTCGACAGTTAGCATTATTTGTTTCCTGCATCACCTCAAAAGCTTGGACTGTCATTTA AAAATGTAGTGCTATTATTTTTTTTTCAATAATTGACATTTATCATTTTCGATGACGTACAATATGTTAACTTTCTTCAT ATGCAACTGATCAGGTAATACCAGCAGAAAATATAATTGCTGCATTTCAAAGCAGCGGAAAGAAAGTGATTGCCATCTCT AGTAATGCATCTGAAGCTCAGATATTTCTTGAGGTATATAACAGGAGACTAATGAAGTTAACTTTTCAGAGTTAAAGCTC ATGTAATGTAAATCGTATATAATAATTATCTTTTACTTTTAGCTTTAGTTCTCTCCTTATAGTTGCTCCCTTTGGATTTT ATAGGCACTTGAACATGGTTTAGATGGCATAGTTTTGAAAGTAGAAGATGTTGAGTCTATTCTTGAGCTAAAGGTATTCC TGACCTCATTAAAGCTTCTTGAGTAATGAGGCTTGACCTCTTATTTCAGTTGGAAACTTCCAGGAATATTTTGATAGAAG AACAGAAGAAAGCAATCTATTGAGCTTGTCCAAAGCCACCGTGACACATGTTCAAGTGGCTGGAATGGGGGATCGCGCTT GTGTAGACCTGTGCAGTCTCATGAAACCCGGTGAAGGACTTCTTGTATGTATTGCAATCCTTTCCTCTGTAAAGGTTAAA TCATTATTCAGTTAATCTAGTGAAGCTGCCATTCTAATGGGCCAAATATTTTCCACAGGTTGGATCTTTTGCCAGAGGAT TATTTCTTGTTCACTCAGAATGCATGGAGTCAAATTACATTGCTAGCAGGCCTTTTCGGGTGAATGCAGTAAGTTGTGCG TTCAAATCTTAGTTTGAAATTGATATATTCATGGCCTTTTACCTTGGATAAAATACCCCTCTTTTCATCATAATCCACAA CAATGGGGTGAAAGTGTGAGACTGATGAAACCCTGATATTATTCAACAGAAAAATGTACAAGAAACAGATGAGTATTCGA GAGACTCATCACTCTCCTAATTCCCAATTCCCAAATGATCCCAAAGATACCTAAACCCTCTTCACACTCCCTTATTTATA GGCTAAGCCATAACTAACTAACTAACTCTAAATGCTAACCCTTAACTAACTAACTAACTCCAAGTACTCATCAATACTCC CCCCTAAACATCCACCTTGTCCTCAAGGTGGGGTAAAACACAAGCTTCTTTAAACAAACAAAAAACAAATACTCCAACAG TTGGGCCTGGCCCATTAGAGTAAGGGAATGAACTGGTCTGTAGATGATTGAGAAAGAAAAGTTCCTCTTGGGCCCGTTCC TTCTGTTTAGCATTATGGGCTTTGGCCTTGTGGTCAAACTTTGACCCAATTCTGAAAAATCTAGCTGAGCCAGCCTTGCT CTGCTTCGTGTGAACGCGTGTGCGTGTGAAGACAACGGAAAGACCACACCCAACCAGCGACGACGGAAACGAGCGTCCCC CGCCATAACTGCAAAGTCCGGTGGCTTCGCCGGCGGCCGTGAAACGGTTACCGACTTGCGAATGAGCGAGCGCCCTTTAC TCTCCTCCGTGCGAACTAACTCGAGGCCACAGTATCCCACCACCGCTGTCTCAGCCAAATCCGGTGGCTTAGCTGGAGGA CGGTTGGCCACCAAGTCCGATCTGCAAGAATCGCCAAGGATGAAGTGTGAGCTGCCACCACTGCGGTCTGGTGGCTTAGT CTCCAGTTGAATGGCAACCATCGAAGAGCAAAGAACAGAGGTCTGAATGAAGACCTCCGTCCAGCAAAAGAACGTGTCCG GCAGTCGATTGGCGGTTACCGCCGTGCAGAGACATGAATCCGGCGGTTTCCGCGGCGGCCGTCTCTCCCAATCGAACCCT AAATCACTGATTTGGGGCAAAACGATTGGTTGCACCTTCTTCCTCCCATGAATGCTGCAAATCTGCCATTTCTCCATTGA AGAACCTTCCTGTAACCGCTTGATTTTGATTTCCCCTTCGGCGTCGATCTTCTCCCCTTTCGCCGTCAACGTGCAATCGA TGTAATCAACCACGGTGACCGGTTGACACCGTGACACCTCCGCTGTTTGCTCCGCCGCCATTGCAAACTCCGAGTCTTTC CGCGACGCTTCCATCTCAGAATTCTCCGGCGAATATGGCTTGATCTCTGATTTCGCCAACAGCACTGAATTGGCCTCAGG TTTGGCTTCCACCACAACAGTTCTTCGTTCTGCCTCCAAGACTTCTTGCTTCCCAGGGATTTCTTCCTCCTCTGAATCTT GAACTGGTTCTGGCATGTACGGTTCCAATTCTGGTTCGAATTTCCTCAACAGAGCCTCCACAAATTCCCACCATGTTGCC TTCTGATTGCGTCTTCTCCAGCAAAACCACCACATGAAAGCTTCACCAGTCAAAGCCTTCTCTGCCCCTGAGAATTTCTC CTCTTCGGATACTCCCTTGGCCTCACAGTGTTGCTCCACCATAATGAGCCATCCGTAGGCCTCTCTTCCATCAAATTCTG GAAACATCTTCACGAATTGATGGCAATCACAGCACCTAGATCGGTGCTCTGATACCAATTGATGAAACCCTGATATTATT CAACAGAAAAATGTACAAGAAACAGATGAGTATTCGAGAGACTCATCACTCTCCTAATTCCCAATTCCCAAATGATCCCA AAGATACCTAAACCCTCTTCACACTCCCTTATTTATAGGCTAAGCCATAACTAACTAACTAACTAACTCTAAATGCTAAC CCTTAACTAACTAACTAACTCCAAGTACTCATCAGAGACTAACAGTAACCTACTCGGAAAATAGTCTCTGTGGTGATGTG TGTAATTCTCATCACTGAATCTATTATTTTGTACACATATTTAATGCTAATCAACATTGGTCTCTAATAATTCCAAAGAT TTGATAGAATCTAAAATCATTTTAAAATATATTTATTGCTATAGCATGTGAAGAATTTTTATTAACAGAGAAACTTCATA ACTCTCCTTTTCTTGTTTATCACTTCATTTTTCATTGCACTAAATCGGGATTCATTTACTTTTCAAAGCAGACTTTGGTC AGAAACTTTTAGAATCACACTAAGCTACTCTTAATAATTTTTTCCCCTTCTATTTTTCATTAATGGCAATTGTCAAGTAT AATTTACGTAGTGTTAGTACAGGTTTGGAGATCTGTAAATCTGTAATTTGATTGATAGCTAAAACAGTTGTAATCGGTCA TTGTGTTACTTTAATTGAGCACATCTACCTTTTTGGAAGGCGAAAGGTTGATATTTTGGAATTTTCAGTTTTAAAAGTGT ATTCTACAGTAAAGGTAATCTTTATGAAATCCTTTTAACCAATCACTTACCATAACAGGGACCAGTGCATGCCTATGTTG CTGTTCCAGGAGGCAGAACATGCTACTTGTCAGAATTAAAATCAGGAAAAGAAGTGATTGTGGTTGATCAGAAGGGTCGG CAACGAATTGCAATTGTCGGGCGTGTGAAGATAGAAAGTAGACCATTGGTCCTAGTGGAGGCAAAGGTTTGTGTTTTCAT TTTTGGCGAAATTGATTGAAAAAAGTTTCTTTTGGATTTTTCTTCAATTATGAGCTTCTTGCGGTACAGTACAGTTACTG TCGAATATCATGCTAAACCTTAAATATTGTCTTAAAGCTGTCAATCGCTTGACTGTATACTCTGAGATTAGAACTTCTCT TAGGCGTGTTTAGAAAGTTCTTGAAACTAGATATGTAACTATGTAAGGGTGATGGGCAGTTTCAAATATAACATGCGTGG TAACTGCTTACATTTTCAGAAATTGGTTCCAGAAATGGTTTAAAACAAATTTTAACTGAACTTAGCTGAAACTAGATGCA AAATAAACTGATTTTATATAACTAATTTTTCTTAAGCAGTTATGGACTAGTATTGAAATTTGCCACACTGTCCCATATTT AGCATTTAATGAAATCTGCATTTAATGTTTTCCTTATTTTGGGAAATATTTACTCTATACAACCAAAATTCATTCATATC TAATAGATTTATCATCGGAGTTCAGAAGTTGAAGTTACAACAACCATTGTGTAAAGGTTTGAACCTGAAACATTCTTGAG TAATATATTGGTCCTAAAATCAGATTTTTGTGGGTTAACATTTATGGTTTGCTGATACTGATTCTAAACTCTGATTTGGT AATGGTAATCATGTCATTTCAGATAGACTCAGATGATCAAACGATCAGCATACTTTTGCAGAATGCAGAGACAGTTCCCT TGGTTTGTCCCCAACAAGGTAATTCACTCGGTTTTCTATTTTCTGGTAGTTTCTTGAGTGTCCTTAAAAGTTGTCTGTTT CCCTATTCAGGAAATGCACTGTCAAAGACAGCTATTCCTGTGACCTCACTCAAAATTGGAGATGAAGTTCTGTTGAGAGT GCAAGGAGGGGCTCGGCATACAGGAATAGAGATACAAGAATTTATAGTTGAGAAATGAACAAATAATGATGTGTTCAAAT TGTGCTTTTCATTCAATTTGTGAACTTATGTTCTCCTTGCAGCTCCTATGATGCTAGAGTAGCATATGATTTGGTTAGAG AAATGGAAAAGGGAGCTCGTATCTTGCTTTGCACAGTGACATTGAAGATGCAGAGTACAATCACAGACCAAGAGGGGATC AACAATGTGAAAGTTCTAGCACATGTCTTATAATACCTTCATTATTATTGAACTTCAATAATCATCCAGATATGTTTAGA GTAAATTCTCATTTTCACTCTTGATTTTGGTAAAAGTTATCATATCAATAGTACTCACCATTGCAAGACTTACTGGAATG AAGTGTAGGAATGGCATGATTGGTTACTTAAAAGTCTCGTATAGGCTATATAGCATTATTGTTTTCA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0257600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAGACCAAGATCTTTGTGCTACTATGTCTTCTCTTCTTAGCTGCTTCTGGGTTTGTCAATGGCTCTGCTAAGAAGGA GAAGGACCATATTAGGTTATTTGAGCTCAAGAAAGGTGATCTTTCTTTGAAGGTTTCCAACTGGGGTGCAACACTTGTGT CTCTAGTCCTTCCTGATAAGCATGGGAAGTTGGGTGATGTTGTTCTTGGATATGACTCTCTCAAGCAATATACTAATGAT TCAACATACTTTGGAACTACTGCTGGTCGGGTTGCTAACAGAATTGGAGGAGCTCAATTTACTCTAAATGGAATCCATTA CAAATTAATTGCCAATGAAGGAAACAACACGCTTCATGGTGGACCCAGAGGATTCAGTGATGTTCTATGGAAAGTGGAAA GGTATGTAAAAGAAGGTGACAAACCCAGAATCACCTTCAGTTACCACAGTTTTGATGGTGAAGAAGGATTTCCTGGTGAT CTGCTGGTAACTGTGAGCTACATTCTTGGGAGCAAAAACTCTCTGAGTATAATCATGAAAGCAAAAGCTCTAAACAAGCC TACTCCAGTGAATCTGATTAACCATGCTTATTGGAACCTAGGAAACCACAACAGTGGAAACATTTTAGGTGAAGTGGTTC AAATTTTCGGGTCCCGAATCACAGTTCTTGATAGCCATCTCATTCCCACTGGTGAAATTGCTTCTGTGAAAGGAACCCCA TATGATTTCCTTAAGCCACAAGTTGTTGGGGCCAGGATCAACCAGTTGCCAAAAACTAATGGCTATGACATCAATTATGT GCTTGATGGTGGAAAAAGCAAAGGATTAATCAAATTGGCGGCGATAGTGATGGATAAGAAATCAGGGAGAGTGATGAAGC TCTTTACAAATGCTCCAGGGTTGCAGTTTTACACTGCTAATAAAGTGAAGAATGAGAAGGGGAAAGGTGGGTTTGTTTAT CAACCGCGTGCAGGGTTGTGTTTGGAGTCTCAAGTCTTCCCTGACTCTGTGAATCACCCTAACTTTCCCTCAAGTATTGT GACCCCTGAAAAGCCTTATAAACATGTTATGCTACTTAAGTTTTCCACCAAAGCTCCATATGCTTTTTCACAGTCCTAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0257600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKTKIFVLLCLLFLAASGFVNGSAKKEKDHIRLFELKKGDLSLKVSNWGATLVSLVLPDKHGKLGDVVLGYDSLKQYTND STYFGTTAGRVANRIGGAQFTLNGIHYKLIANEGNNTLHGGPRGFSDVLWKVERYVKEGDKPRITFSYHSFDGEEGFPGD LLVTVSYILGSKNSLSIIMKAKALNKPTPVNLINHAYWNLGNHNSGNILGEVVQIFGSRITVLDSHLIPTGEIASVKGTP YDFLKPQVVGARINQLPKTNGYDINYVLDGGKSKGLIKLAAIVMDKKSGRVMKLFTNAPGLQFYTANKVKNEKGKGGFVY QPRAGLCLESQVFPDSVNHPNFPSSIVTPEKPYKHVMLLKFSTKAPYAFSQS

Download Protein Sequence

Domain prediction

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
SignalP_GRAM_NEGATIVE	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	22	22	-	–
SignalP_GRAM_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	24	24	-	–
SignalP_EUK	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	22	22	-	–
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	22	22	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	4	4	-	–
PANTHER	PTHR10091 View details on PTHR10091 Search for proteins/transripts with this domain View external data on PTHR10091	3	367	365	2.1E-222	–
PANTHER	PTHR10091:SF34 View details on PTHR10091:SF34 Search for proteins/transripts with this domain View external data on PTHR10091:SF34	3	367	365	2.1E-222	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	5	24	20	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	5	16	12	-	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	17	22	6	-	–
PIRSF	PIRSF005096 View details on PIRSF005096 Search for proteins/transripts with this domain View external data on PIRSF005096	20	364	345	1.5E-112	IPR015443 Show description in modal box View details on IPR015443 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.70.98.10 View details on G3DSA:2.70.98.10 Search for proteins/transripts with this domain View external data on G3DSA:2.70.98.10	21	364	344	2.6E-115	IPR014718 Show description in modal box View details on IPR014718 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	23	372	350	-	–
SUPERFAMILY	SSF74650 View details on SSF74650 Search for proteins/transripts with this domain View external data on SSF74650	27	362	336	4.58E-108	IPR011013 Show description in modal box View details on IPR011013 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd09019 View details on cd09019 Search for proteins/transripts with this domain View external data on cd09019	33	361	329	1.50138E-157	–
Pfam	PF01263 View details on PF01263 Search for proteins/transripts with this domain View external data on PF01263	33	359	327	2.2E-86	IPR008183 Show description in modal box View details on IPR008183 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003674
GO:0005975 View details of GO:0005975 AmiGO InterPro QuickGO	Biological process	Carbohydrate metabolic process	The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule.	Subterm of View details of GO:0044238 View details of GO:0071704
GO:0016853 View details of GO:0016853 AmiGO InterPro QuickGO	Molecular function	Isomerase activity	Catalysis of the geometric or structural changes within one molecule. Isomerase is the systematic name for any enzyme of EC class 5.	Subterm of View details of GO:0003824
GO:0019318 View details of GO:0019318 AmiGO InterPro QuickGO	Biological process	Hexose metabolic process	The chemical reactions and pathways involving a hexose, any monosaccharide with a chain of six carbon atoms in the molecule.	Subterm of View details of GO:0005996
GO:0030246 View details of GO:0030246 AmiGO InterPro QuickGO	Molecular function	Carbohydrate binding	Interacting selectively and non-covalently with any carbohydrate, which includes monosaccharides, oligosaccharides and polysaccharides as well as substances derived from monosaccharides by reduction of the carbonyl group (alditols), by oxidation of one or more hydroxy groups to afford the corresponding aldehydes, ketones, or carboxylic acids, or by replacement of one or more hydroxy group(s) by a hydrogen atom. Cyclitols are generally not regarded as carbohydrates.	Subterm of View details of GO:0005488

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0257600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0257600.1