Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0308200
Transcript ID	LotjaGi1g1v0308200.2
Related isoforms 1	LotjaGi1g1v0308200.1
Lotus japonicus genome version	Gifu v1.2
Description	Alpha-galactosidase; TAIR: AT3G56310.1 Melibiase family protein; Swiss-Prot: sp\|Q8VXZ7\|AGAL3_ARATH Alpha-galactosidase 3; TrEMBL-Plants: tr\|I1KB92\|I1KB92_SOYBN Alpha-galactosidase; Found in the gene: LotjaGi1g1v0308200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:74966603..74982235) extracted from Lotus japonicus Gifu genome v1.2.

CCCCTATAATATATTTTTTTTGACCCTCCTGAGAATTTAAGTTTGCACCCTAGACCCCAACTCCTCTCTCTCTCACACAC TCATCACGTGATCTCTCTCACGCCCTTCACTCTTCTCATTCTCTGATTTCACGTTACACCACAACTCCACAAGCACTCTC ACCGGCCACCACCACGCTGTCCGCCGCACCACCGCTGTCCAGCCGTGCCTCTGGCTCTGCGGTTCTACTTCTACAGGTAT GGCTCCCTACCCTAACCCTAAATGGCAAAATTGATTTCCTTTCTCTTCTCCTTTCTCAAGCTTGATTTCCCTAAATTGAT TTCCTTTCTTTCTCTTCTCCTTTCTCAAGCTTGATTTCCCTAAATTAATTTCCTCAAATGTCATAATTTCATTCAAATGA TGCAAGATGGACAAATTTACATGTTTTTGCTTTCATATACTTTGTAACTCTGAAGCTGAGACTTAGGGTATCAACATTCA TCGGAAAAAGTTTCTTTTTTTTTTGTTTTTAATTATGGATTGTTTCATGGGTTGATTTTTGGTTTTGAATTTTCCTTGCT CTCTCTTGTTGACAGTGGCTGGTTATTTGGGTGATGATTGATTATATTTAGAGATATCCATTCATTATGCAAACAAAACA AAAAAATTCTTAGTATTGACACGTCATAAGATGCAGAAACTGGTCATAGAGAATGGAGAATATTACACGTGAGGTGAGAT TCTTATCCAAAAACAAATAAACACATTATTGTCATTATCATACAACACATGTTTTCATTTTGTAAACTATCATTATTAAT TTATGAATGGCAATAATTGATCCATTTCAAAATTAAAATGTGGGTCACACGTAAATAGCCTTGTCTTCCAGAGCGTTCCA ACTGAAGAGAACTCATGGCGAAGCAGAAACAAAGCAACGCTCTTCACGTGCACTTTGTGATTCTTCTTCTTCTCTGTTCT TCCTCTGTTTCAGTATCAGCAAAAGTTGTTCCTCTCTTGCAGAGTCACAGAAAACCCAGTTTCCGATCAAATTTCCACAC TATCTATGACACTTCAAATTACGGTGTGTTTCAGCTCAACAATGGTTTGGCAAGGACACCTCAAATGGGGTTTGTTTCTT TCTTCGATTCTGGATTATCTGGACTCAAAGTTTCATTTTTTTGATAATTTGATTTTTTTTTAATTTTTTTAATTTTTGCT TAGAATTGGAAATTTGGAGAGAGGACTCATCACTCATGGTTTGTTTGACATGATTTGGTTTTGTGTAGATGGAATAGCTG GAACTTCTTTGCATGCAATATCAATGAAACGGTGATTAAGGAAACGGGTATTGTTTTTTTTTTTCTTGCTTTGATGATGC TACCTGTTTTTGAAGCATAGCTTTCATTTTCTCAATTAATTACTTCATGCACTGATTGTGATCATGACTAACAGGGAAGA TTTCCTTGGCTTTAACTAAAAGTCTAAAACTTTTCATTATCCCTTATAGCTTTTTTGCTGGTAAAAGATAAAAAAAAAAA TTGAACTTTGATTTTATTTTGAATTAATGGCTGAAGAAACCACAACTTGCAAGTCTTGGAAAAGTGGGAAATGATAGGTG TTGTAGAAGCCAATGTATTTTCAGTTTGAGGGGTTTGGGGGGGGGGGGGATTTCTCCCCTTGCTCTCTGACTCTATCAGT GCTTCAAATAACTCGCTTTAATCCGTGAAACATGTAAAGTATTTATTGAATACATATTTACATTATTTCCTTGAGGATTT GTATGAAGATGCTTTATAAAGCATCATCTTACATTCATAATTTCCAATGGCGTATTTGTCTCACTGCAAGTACCGAGGTT CATATGCTTACAAATAATAGTTGTAACTTAATTTTTTTCCTTATTAGTTTATGTCTACCAGTACTGATATTATTATTATA TCCTTTCAGCTGATGCACTTGTATCAACGGGGTTGGCTGACTTAGGTTATGTGTACGTCAATATAGGTACTTTTCATCTA TGATCAAAATGAATATTCTAACAGTAGGTCATCTATTTCATACTTATTTGATATTGGAATGTACATTGTGCAGATGATTG CTGGTCTTCCGTGACTAGAAATTTGACGGTCAGCTCAAATCTGCTCCTTTCATTGTTACTGAAATAACTTTACGGCTTTC ATCTTCTCTTGTAATATATACTTGTCACTAGTCAGCTTTCAGTGTTGTCTGTCTATCTTGACTTTTAATTGGACGAGGAA AAGTTGTTTCAATGGAATCTGTTATGTTTGGCCAAGTGGTATTGCAGAAACTAGATATAAATAGTATGTCCTTAGATATA CTTAGGGTTCGGAAATTGCTATGTATAAAATTTTCTAAGATATACTTAGGATTCGGAAATTGCTATGTCTAAAAATTTGA AGTAGTACTTTCTTTATGCTTCCAGTGTGCCGGTGTATTTGTTGTTTTCAATGGTCAATAGAGCAAGAAAGCATGTACAT ATATAATTACATGCACTGTTAATTTCTATGTGAGTAAATGGTTTTCTAGTGAAGCTTAAAACTCAGTGGCTCAAACGTTC CCTCCATAAATAAATGTCGCTCCTTACTGTTTTTGGTTTGGAAGTGCAGGGTCAACTGGTCCCTGATCCTAAGACATTTC CATCAGGAATCAAAGCTCTTGCAGATTATGTGCACGGAAAGGGACTCAAGCTTGGCATATATTCTGATGCTGGGTAAGAT AATATTGCAATATCAGGCCAGATGTTTGAAAAATTCATTATCAAATAAATAAACCCCATGTTGATAGTGACTAACTGATA ACCCAATCTCCTGCTCAATATTTTCACTTTCAACTGTTATCAGGGTTTTTACATGTCAAGTCCGACCAGGATCAATTTTC CATGAAACTGATGATGCAGATTTATTTGCCTCTTGGGTTAGATTCTATTCTCTCATTTTATAACTTGTAAAAGCGTATCA GATACTCTTCATGGTGTATGGAGTTTGTAGAGGTCCTAAGAACAAAAGTATTCTTTATTCATTTCTATGTTATGCTGAGG GTCAGGTCCAAATTTCATGTGATATATGCTTGTAGCTCTGCAGTCTTATGGAATTAATTTGTCTTTTTTTTTAAGAAAAC AACAGCAACCTTTGGGATGAAGTTCTAATTAGAGCCATTATAAACACTAGATTTAGACTAGATAAGAGATTGGGCCATTT ATCGGAATTCTTTTGATGTTCTTAAGAAAATGAATGAAAAATTATACCTATCTAGTTAAAATACTTCTTGTCTCGATCAT TTATATGGTTGAAACTTGTGGAAAGATTGTCTTCATGAAACTCCTTAATGACCAAGACCTTCATAGGTATCATTTTTACG GTGTCCGTTAGATTGTTAGAAATGCCGAAAGGAAAAATAATAAAGGGATACCTGTAAATTCGTCCAGCTGCTAGATAAGT TATGTAAAAATAATATATTGTACTCTTTATTATGTTGACAGATATTTTATATCATATAAGTAGACTCGTCATGGTAACAT CTCGAGGTGCTTTTCGGAATGATTCCTTCATAAACTACATTTCAGTTACATTATTCATAAGTTTCAATTGTTTCTAGTTA CACTTTTCTTTAGATTGTCAGTTATTTTACCCCATTTTATCATTTTACAGGGTGTAGATTATTTGAAGTATGACAATTGT TACAACCTGGGTATCCCTCCGAAAAAACGGTCCTTTTCTCATCTTTATTTTACAGTATTTACAAAAACAACAACACCTAG TATATAAAAATTGAGTCAATGTGGTTGCATGTTTTCCAGATATCCACCTATGCGTGATGCTCTTGGTGCAACTGGAGTTA AAATTTTCTATTCAATCTGTGAATGGTAATAAGGTGTGTCTTTTTTTGTTACCTTAATTTACTTGCATTAGCATGACGAA ATATTCCTACTGCACTTTTGCTTTTGCAGGGGTGTTGATGACCCAGCCTTATGGGCAGGCACGGTTGGTAACAGTTGGCG CACAACTGATGACATCAATGATACATGGGCAAGGTTATAATTCTGGACTTTGACTTATAGTTATAGGTGATGCACTTGAC ATTCTATAAGGGATGCATTTAGTTCAATAACAATAGGCTAGATACACTTCAGATCGTATCCAACCAGATAAAACCAAAGT TCTGGACAGTCCTTGATTGCTACCTTGGAATTTTGCTTTTGTCAGTTCCTTCCTATCCACTAGTGATCCAGTGATATGAA CATGAATTATGTTCATAAATAGTATGTAATGATGACACTCATTTTCTGATTACATTAGAAAAAGTTCTTAAGCTTTCTTT TTAGCTGATGTCGGTAACCAGTCACCACTCAAGGGGGTTTTCCTAATCACCACTGCTAGCCCGATGGTTAATCCCACAAC TATGTCTCGAAACTCCCGATCAAAGACTACGTTAGTAATGTGGGAATTAGAGAAATAATATAATAATATACTTCAATTCT CTACATTAGTCCCTTGGCACCTTAGAATAAAGCAAAGTGAATCAAGTGATGAGTGCATATGCATTGTGCACCGCTAACAA ATGGGTATATATTTAATGGAGTAATGGATACTCTTTATCTGGCCTGGGCTTGCTAGACATGAAAGTATGGGAGAGTTGTA GAGATGAGTAGATGTGTAAAAGGAAGAAGAATTTCTTGGAGCCAGAAGAGGAGAAATGATAGTAATATTTAAATTTATGT GCATGATCTTTATCTGGAGAGTAAGAGATAGGTAGATTCCTTGAAACTCAAATAATCCTAATCTGCCAATTTTCATCTTG TTGATGGTGTCATATAGCGGTTGGACTTAGAGGATTAGATGCACTCTAGTGTGGGGTTATTTTAGTCTATAATTCATCAA AGCTCTTAGAACAATCTCAGAATAGTGGAAAATGGAACTAGTGATGGGCAGAGTTTTAGGGCTGTTTGTCATAGAAGAAA CTATTGAATCATGATGAAATGGAATTAGCATATCGTTAGGCATAACATTTTTTCTTTATTTGGAATATTGGTCATACTAT ACTACAGCATCCATCAATTTTGTTTTAGGTTAGTTGGCTTTGAAATAATCCAATACATTCCCTATGATATTTCTGCATAT CTAGTAGTCATAGATTCTTTTTCTGTGGAAACTTGTTTTTCTTGGCAAATTATAGATGTGTATCAAATAATTATACATCT CACTGTCATTACAATACAGAGTTTTAACATTTGAATAGTTAGTATTCTTTTCTGATTTTCTATTTATAGGTAGTCTAATT CTGAATTTGATGTTTTTCTTGTGTAGCATGACGACTATTGCTGATCTTAATGACAAGTGGGCTTCATATGCTGGTCCAGG AGGATGGAATGGTACAGATGTTGTCTTCCTTGAAATTTTATTGGAAATATAGAGCAAACCAGAAGCATTTTTACTTGAAT CTCATATTACCACTCCTGTACAGACCCGGATATGTTGGAAGTTGGCAATGGTGGCATGACTTATCAGGAATACCGTGCTC ACTTCAGCATATGGGCTTTAGCAAAGGTATTGCTCTCAGTTCCTATTTGTTCCCCCTCCCTTTTGTACATTTAGACATGG ACTGATGATGCATACTTTTATACTGGATTTGTACTCTACTCAACTGTCATAACTCATCACCCATTTTTCTATATCTTGCC TGATAATTTTGCTAGTAATTTGGGATCATAGGATAGCAGAAAATAATTATGCTTAAACTAATCTCTGGTAAAAGCAATCC TGTCTGAATTTATAAATTTGTTTAATGTGCGATATGATGGCAATCCTCTTTTCATTAGTATTGGTCATAATTTCTTCTGA ATAAAGCATCAAGACAAACTATCACAAAAGTTACTATTACTGATTTTTTCACATGCTTATAATTGTGAATATGTGCGTGC AGGCTCCTCTATTGATTGGCTGCGATATAAGAAATATGACTGCTGAAACATTAGAGATTATAAGCAATAAAGAAGTCATT GCTATAAATCAAGGTGGTGTTACAACTTTTTTGTTTTTTTTTTAATCAAGTTGATGCATAATCTTCTCTCTCTGTTATTG TTGTTGATTTTGTGCTACTTGGTATAAGTTTTGATTTCTTCTTCCGAAGGTTAGATGAGTAAGGTTACCAATTCTTATGT CTCTTTGTAGACTCACTTGGGGTCCAGGGAAGGAAAGTTCAAGTTGCTGGAAAAGATGGTTGCAGTCAGGTAATCTCTTC TGTATCACCTCATGGTACATCTATGCAATAAAGCTCGTGCATTCTGTCTGTATTTTAGGTTCATTGTGGTCATGCTTCTA AGTTATAATAGTGTCTATCTGGATCAAGTAACTCACTTGCATCATCTTGAATTAAGTTAATTTCACTATCATGTTAATTT TACCTTCTCAGACATGGGCTATACAAAACATGTAATCTTGCCTCTCAAACATTATATGTTCAACAACTCAAAGAAGAATG AATCAAGAACAAATAGACTACTTTTATGCAAGTTTTTCATATTGCCATTTTGGCAGGTCAAATCATTTGGTCCTATTTAG ATCTTTATGTGATAAAGTATGTTGACTTAATATAAAGCTTTTTAATCTATCCTTAAAAAAAATGAGGCTTAAAGTTGTGT GTAGCTTACTACTGTTGACCTTACCTTTACATCTTTGCAGGTTTGGGCAGGTCCTTTATCAGGGGATCGCTGGGTTGTTG CTCTCTGGAATCGGTGCTCAAAAGTTGCTAATATAACAGCTTCCTGGGAAGCACTTGGGATTGAATCTGGAGTTTATGTT ACTGTAAGGGATTTATGGCAGGTAAGCTAGCCTAGCTGTATATAACTTTCTATTAGACAGTTTTTCTTTTTATTCTTATT GGAGCTTAAATTTATTTGTTATTTTTATTGAAAATATTCCCTTACCACTATTTTAGGACTCATTACCCCAAATGTTTTTG TTCCTTTACTAAATTTGCAGCACAAGGTAGTAACCGAAGATGCAGTTTCATCATTCAGTGCTCAAGTTGATACTCACGAT AGTCACCTGTACATTTTCACTCCATCTACAGTATCTCTCTCTGTAATGTAGCTCATAGGTTTTGGTCCATCTGTATTCTG TACACAACTATGCTGCCATCCCATTTTGGATTAACTGCCTTTATGAAAGTTTAGTGAATGAACCTTGCTTGTTTAATTTA TTGTCTCTTTTTACAGCACTTGTTGATCAGGCATGCATAAGTTCAAATCTTCATTGTCAAATATATTGTGTACTAGATGG TCTACAACTCATGAATATGATCACACGATTTCTGTCCTATATGTGGTCCCGTACGGATTTATCGTTAATGATGTTTTCAA AAGGTATGATATGGTTGAAAGAAAAAGTATGACATGAGTTGTGGGAGGAAGATATTATCTTTAGTTTAATTTTCAGATAC TATCAATTCATCCCATATTGCAAAACTCGAGCCAGCAATCATCTTTAGGTTAATTTTCAGATATGAATATGATCATCATA ACTACTAGTTTTCATTATGAGAGTTCCAACTAAAAAATATCACTAACTTGAGAAACATTGTTAGTGGAGACAAACAAAGA ATCTATGCTCTTTTGCCATTGTTGTTCCTGATTCTGAATTTGCTGGTTCTCTCAATATCCGGGGGTGGTGCGCGGTCCTT TATGGATCTTTTTGTTGTAGAATTTCAAGACTCTAACTGTGGGAGAAAACGTTAACTACACTAACTGCAATTAGCTGAGA GAGAAGAATGGAAGGAAAATTTTAATGCATTGATTTCACACACTCAAACTCTGAGTGCTCTTATTTAAAGCAATTACATC AAGGACTCAAAGTCCATTATCACAATAGTCAAGGACTAAACTGAAAACCAACTAACTACTTCTGAATTAACACTCTAATC TCAATACTCCTTCCTAATTCAGAACAGTAGTTACAGACATCACATTCAATTTCTTACACAACATAGCAAATCTATCAGGC TTCAACGCCTTAGTAAACAAATCAGCAAGTTGCTCCTCTGTAGGACAATGAACAAGTTCCAACTTTCCTTTGGATACTTG ATCCCTTAAGAAATGAAATCGTGTCTCGATGTGTTTGCTTCTTCCATGGGCAACTGGATGCTTAGCTAGGTCTATTGCTG ATTTATTATCAACCAGAAGTTTCATTGGACCAGAAACCTTCAAACCTACTTCCTCCATCAACATACTGAGCCATGCAGCT TGACATGCACTATAGGATGCAGCAACATATTCTGCTTCACATGAAGAGAGTGCCACAATTGGCTGCTTCTTGGAACACCA AGAGACTGGTGCATCACCACACAAGAATACATAACCAGTGGTGTTTTTCCTGTCATCTTTATCACCACTCCAGTCTGAGT CCACATAGCCTATCACATCATTCCTTGTGTTGAAAGCTTTCTCAGGAAATAGTATTCCATGATAAGAGTCCCCTTGATAA ATCTGAGTATTCTCTTTGCAGCTAGGAAATGAGATTCTTTAGGATTCTCCATGAATCTACTTATCAGACCCACACCATAA CTGATTTCAGGTCTGCTGCAACACAAATATCTCAGTGATCCCACAATCTGCTTAAACAAGGTTGAATCCACTGATTTCCC AGAATCTGTCTTTGTAAGAGTTATGCCATGCTCAACTGGAGTAACTGCAGGATTACAACCTGCTAGATTAAATCTCTTCA ACACATCAGCTGCATACTTCCTTTGACTCATAAACATCCCTTTCTTAGTTCTGAGAAATTCAATCCCCAGAAAATATGAT AACTCTCCCATGTCACTCATTTCAAATTCCATTTGCATCTTTGCTTTGAATTTATCAATCTCAGTCTCATTGCTTCCAGT TACAAGCAAGTCATCTACATATAAACACACAACAAGTAACCCTGCTCTCTTTGTCTTGCGAACATACACTCCATGTTCAG TAGTACATTTCAGAAATCCCATCTGATTCAAGAAAGAATCAATTCTTCTATTCCAAGCTCGAGGAGTTTGCTTAAGGCCA TACAAAGCCTTGTGTAACCTGTATACCTTGTGTTCACACCCCTGAACTTCAAATCCAGGAGGTTGGTTCATATAAACTTC CTCATCAAGAGGACCATTTAAGAAGGCAGACTTAACATCCAACTGATGTAGTCTCCAACCCTTCAAGCTTGCAGCTCCCA CAACCAACCTAACAGTTTCCATCCTTGCCACTGGAGCAAATACCTCAGTATAATCCAATCCTTTCTTTTGCTGAAACCCT CTGGCGACTAACCTTGCTTTATACTTAGCAACTGTACCATTTGGCTTCATTTTGGTTTTATAAACCCATTTGACTGAAAT TGGCTTCTTTCCTTCAGGTAATTCTACCAAACTCCAGGTCTCATTCTTATCAATTGACTTGAGTTCTTCCTTCATTGCAG TGATCCAATTATCATGTTCGAAGGCCATCTCTAGACTCACAGGCTCAGATTCAGTGTAAAATGCAAAATGCACTAGATCA CCTTCACTAGTAACCTCATTATCAGGGAAAAGTACATAATCATTGAGCCTTGAAGGAGGTTGTCTTGCTCTCTGAACTCT CTGAGTATCATTCTCAACAGGAGCAGTGTTGATAATTGGAATACCTTGAGTACCTTGAGCTTCAGTACTCAAACCCTCAT CCTCAGGTAAAAGATCAAACTCATGAAAGTTATATGCAACCCTGGACTTAGAAGCTTCTGGTTGAGCAACTTTCCATGTC CAAAATGATTCTTCATCTACCACAACATCTCTACTAACTACAATAGTGTTAGTATCAGGATTCAACAACCTGTATGCACC TGTAGAGTGGAAACCGACTAACAAAAGCTTCTCACTCTTGTCATCAAGTTTTTTTCTCCTCTGATCTGGCACATGTCTAT AGCAAACTGAACCAAAAACCCTCAAGTGCTTAACACTAGGTTTGATTCCAGACCAGGCTTCTTCAGGTGTTAGAGCTTTC AACTTTCTAGTAGGACATCTGTTGAGTATATAAGTTGCAGTGGAAACAACTTCTCCCCACAACTGAACTGGCAACTTCTT ACACTTCAACATGCTTCTCACCATATTTGCTATTGTTCTATTTCTCCTCTCAGCCACACCATTGTGCTGAGGAGTATAAG GTGCTATTACCTCATGATATATGCCAGCCTCTTCACAGAATATCTTCATTTGATTGGACACATACTCTCCTCCTCCATCT GTCCTCAGTATCTTGATACTCTTACCACTTTGCTTCTCCACATGTGCCTTAAATTTCTTGAACACTTCAAAGACTTCTGA CTTCTTTTCCAGCAAGTAAGTCCACATCTTCCTAGTATGATCATCAATAAAAGACACAAAGTATCTATTTCCTCCTGAAG ATGGAGTATCAAATGGCCCACACACGTCTGAATAAACCACATCCAAAGCTCCCTTAGATATCACTGGCATATTCTCAGTG AAAGCATTTCTAGATTGCTTGCTGAGCAAACAATCTTCACACAACTGCCCTGAAGCTTTAACAATGGGAAGACCTCTCAC CATATCTTCATGATGCAATTGATATAATCCTTTAAAATGCAAGTGACCATATCTCATGTGCCACAACCAATCAGAGTCTA AACATCTTGCTGACAAGCATTGTGACTCACTAGTATCAAGCTCAACTCTAAATGTCTTATTTCTAGACAATACTGATTGC AAAATCAGATTATGCTTAGGATCATACACTAGTAGTTTCTTCCCCTTAGTCTTCAGAGAATACCCCTTTTCTACTAGCTG CCCTAGACTTATCAAATTGTGCTTCACACTAGGAACATATAAGACCTCTGGAATGTAGGATTTTCTACCATCCTTTTTCT TCACCAGTATTTTACCAACACCATCAGCAGGGATGGTGCTATTATCTGCAAACCTTACACTGCTTTTCCTCTCCTCATCA AGATCAACAAACCACTCTTTGTGGCCAGACATGTGAGAAGAGCAACCTGAGTCTAAGTACCAGGTGTTCTCACTAAGTTT ATGAGAACTCACAGCAGAATTACTAACTTCATAGCTAGAATTTCTAAGCAATTTATCAGGGCAAGAACTAACAGGATCAT CAGGGACTACAAAGAGTACCTGTTCCTCATCAGAGTTATCATCATCATGGGCAGAATATGCACGATCTTCACCATCCTGC TTGTTGCCCTTCTTTTTGTTCTTGCATTCATAAGCATAGTGTCCATATTTCTTGCATTCAAAACACTGGACACTTTGCTT TTTGCTCTTCCCTTTCTTGAACTTATCTTTGTCCTGATGCTTCTCCTTTGAATCCCACTTTCTCTTGGAATCGCCATCTT CCTCATGCTGTGAAGATTGCCCAGAATCTTTGTTTTTCCAATTCTTTCCCTTTGAGGCTTTTCCTCTATCATTCCAACTC TTCTTACTGGAATTTCCACCACGAGTATACAAAGCCTGCTCACTTTCCTTCTCAGAATCTCTCAGGCTCAACCTCATCTC GTGTGCTTCAAGAGACCCTTGTAACTCATCAATCTTGATCAATTCAAGATCCTTTGATTCTTCTATGGTTGTGACAATAT GATCAAATTTTGGAGTGAGTGAACGCAACACCTTTTCCACAAGAATTTGATCAGTCATTGACTCACCATTCGACTTCATC TGGTTCGTCAATGTTTGAAGACGGGTGAAAAACTTCGAAATCGTCTCTGATTTCTCCATACGCATAGCTTCGTATTGCCT CCGCAGAGTCTGCAATTTCACCTTCTTCAATTTCGCCACGCCGTCGTAGCTCTTGTTCAGAATGTCCCATGCCTCCTTCG ACGTCTTTGCTGCCGCAATTTTCTCAAAATTGGCTGGATTCACACACTGGTGAATGATGAACAAAGCTCTCAGATCCTTC TTCTTCGCCTCACGGTGAGCTTCGGTTTGCTCAGCCGTCGGATTCGCCGGTAATGGATCGTACCCAGAAGTTACGTATTC AAGAACCTCTTGAAAACCGAAGATCACCTCCATCTGGGTATGCCAACGATCCCAGTCGGTCTTTCCGTCAAGAACTGGCA GTGACGCCGGAAAGTTTCCATTCGCACCCGCCATGACTTTGAAAGACACGTCCACCTTCACCGTATTCAGAATCTCCGCC GTCGTCGCTTCTTGGACGCCGCCGCAGCTCGCCGTCGCAGCTCGCCGCCTTCGCGTGTTGTTTGAGGTCGCCGAATGTCA CCGAGCTCTTGATACCACTGTTGTAGAATTTCAAGACTCTAACTGTGGGAGAAAACGTTAACTACACTAACTGCAATTAG CTGAGAGAGAAGAATGGAAGGAAAATTTTAATGCATTGATTTCACACACTCAAACTCTGAGTGCTCTTATTTAAAGCTAT TACATCAAGGACTCAAAGTCCATTATCACAATAGTCAAGGACTAAACTGAAAACCAACTAACTACTTCTGAATTAACACT CTAATCTCAATACTTTTGACACAGTCAGGGGTGGAGGCAAGATTACATATTTTCAAGTGCTAGTATATAAGATTTTTGAT TCATTCACACCTCCTTTTCTATTTCCACCTTTTTTCTCTTCCTATCTCTTACTCTTACTCCTATCACATTATCAATCAAA TCTCTCATTTCTTTATTCTTTTCTTCGTATATTTCTAAGTATAAGTGGGTTTTTTTTGTGAACTAAACTTTACTGAATAT ATATATGACCACGGCTTCACCACAGCTTCACAACGAGACAAAAATGCAAGAAAGACAAATTGATATCGCTCCACAGCAGC ACAAGCTTGTGTTTTATTTTTATTTTTATTCATTACTGGGCTAAAGTCGAAAGCTAAGGAACCTCACCCCTAACATAGAG GGTGTTACAAGAGTCAAATAATAAAGGGACATAACTAAAAGCCGGGACAAAATCATAGATCTTGCTAGGCAACAACAACC TAGACCATTCTTAGCAAAGACATCTGCAACTGAGTTAGCTTCCCTAAATACATGCTTAAGATGGACCTGCTCAAAGCAAT TAAACAAACTCTTAATATCCTTAACAAGAGGAGCTGGAGGCTTTGAAGGAGAGCAACCTTGATTGACTAGACTAACAACA AAGCTTGAGTTAGATTCAACAAGTATCCTTTTAAATCCTCTGGCTTGAGCAATTTTAGCACCATGGAAGATCCCCAGAGC TCCGCGTGATTAATGGAGCAGCATCCCAATCTAACTGAGAAACCAGCAATGAAGGTGCCTTCATGGTCCCTCAGAACTCC TCCACAGGCAGCACGGTTTGAGGAAGGAGCGAAAGAGCCATCTGTGTTGATTTTAATACACCCTTCCATGGGCACAGACC ACCTGACAAAGGTTGTGCCTGAAGCCCGAAACGCAAGGGCCTCATCTGAGGAATCAGCTAGAGCAGATTGGGAATCAACT ATAATGTCAAGATTGTTATTCACGTAAGTTCGGTTTGGTCGGATCGCGGGTTGAGTTGGGTCTTTAGTCTCCAAATTCGA TATACAAACCAATAAAGCACACTTGAGTTTTTGCTTATGTATTTAATGCTAAACTCAAGTGTGAACTATTAATTATTAAC TTTTGAGTTTCTTATAAGAAAATAATTTGTTAGGTTTTAATTAAAAATAGATAGAATCTTAATTATTAATAATAAATTCA GAAAAAATGTAAAACATTTAAAAATAAACAAATAAATGTAATTATATGTAAATAATATTAAGAATTTAGATTAATTAACC GTAAAAATAATATTTATTAATAAATCATTAAGAAAAAATTATTTTCAAATTAAAAAATGTCTCTATAAAGTACATACTAA TAATTATATCATATGCGTGTATTATTTGAAAGAGATTTTTTAGATATTCTGTTTGATTTATTTTGATAGTAATAAAAATA AGTAGAGAAAGCATAATAGAGAAAAATAACTATAACCAAATATGAATACATTTAAATTTACTAAATAAAATTTTATGATA TTAAAATTATAGCTTATTATATTAAAACATATTATTTGAGGTAAAATATTTCAAGTTCACTTAATCATTTTTCATATTAT TCAATAAAAAATTAAATTTAAAATGATAAGATATAATTAAATAATAGAATAACATTTGGGGAACAGTACTCTCCCAAGTG AGTATCTATGTTTACAACTAGAGATATGACATCATACTCCTACACAACCAAAACGATAACAATAAACCTCAAACAAGAAC ATCAGTCAATTAAAATATTTGTGTTGATCCCAGAACTATACACTAAAATGTACAATTTAACTTAAATTTCTAATGAAATA AACTCAATAATATTAACAAGAAAATCACACCTATAAGTCAATGCAATATAAACCAACTTTCATCTTATGTCATAAGAAAA ATTTCATTCATTTTTTATCTTAAAGTGTGTCAATGTCAATATATACTGGTTCCAATGAATGTCCAAATATAGCTTTAGTT TTTACAGTCTCGTTATATGAACCCTGAGTTTGGGCAACATCCAACCCACACACAATATTTGTGTTAGTTTTTGACTGTCA CAAAATCTAACATCTAAGAAAACATAATACAGGTCTGACGCTCAAAATTTGCGTATTTCGGGTAGAGAAATCATTTCCGT TTTTCTAAACATCATTGCTTAAACATAGCTTAAGCAACAATAAAGCTCACTGGAGTTCTTGCTTCATGTGTTCAAGCAAC GAAACTACCGCTTGCAATAACCAATGGATTCAACACAAACACAAAATACATGTCACTGTTGCAAATACAGATTCAAGAGC TGGTATTATCCGCTCCACCAGTTTCATTAATCATTTTCTCAAGACTTGCAGCCATTTTATGTTTGGAACTTTGAAAATTT CTATAGAATGGATATGAAAGTGATTGGTGATGCAAGATCCACTCTTCTGGTTCAACCATTATGGATTAGAGGACCAAATA ATTCATGTCAACTTCATCTTGCATGATCTGGTTTGGGAGCACCTCCCAATGTCTTTCTTTCTATTTGTAGTTTTCTTGAT GAGAAGTTTATCCAAAAATGTTATAAGAATGATGTTGGGGGTGCTTATGCAATGCAATGCATTACCATTTCATTGACAAT TAAATAATCAAATAACTATCAGGGCATATCCATATTAGCTTGCAGATGTTAGGTCACAAAACTTGCAATATGACCAAGAA AGTAGATATGCCCTTCAACATTTGTGAGCATTAACCAATGCTTTGTTTGCTGTGACAGCAATGTGTGTGGATTTATCCCC AGAGGAGTCTTCAGCACCAAAATCACGAAGAGACAGAAACCTGCAGTAGTTCTTTGGCAATACTAATGCATTCAGTCATG GGGCAATTCGTCTTGATTGCATTTGTTTTTATGTGAGACCTGCTGGCAGCATAACCCTTCTGCAATAAGCAAACATAGAA GGTAAGTAGATGTCTGGTTTCTAAAGTTTTCTCTAGCGTCAACATGAATATTCTATGGTCCAATGTTCTCGACGAAGGAT GTTACAGACCAAGTGAATCTCAACAGCATAAAGATGGAGTCAACCCAGTCAAGAGGAATTGGGGTGGTTGAGAAGCTCTA CAATGTCTTTAGTCATACAGAATAAAAGGAAAC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0308200.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGAAGCAGAAACAAAGCAACGCTCTTCACGTGCACTTTGTGATTCTTCTTCTTCTCTGTTCTTCCTCTGTTTCAGT ATCAGCAAAAGTTGTTCCTCTCTTGCAGAGTCACAGAAAACCCAGTTTCCGATCAAATTTCCACACTATCTATGACACTT CAAATTACGGTGTGTTTCAGCTCAACAATGGTTTGGCAAGGACACCTCAAATGGGATGGAATAGCTGGAACTTCTTTGCA TGCAATATCAATGAAACGGTGATTAAGGAAACGGCTGATGCACTTGTATCAACGGGGTTGGCTGACTTAGGTTATGTGTA CGTCAATATAGATGATTGCTGGTCTTCCGTGACTAGAAATTTGACGGGTCAACTGGTCCCTGATCCTAAGACATTTCCAT CAGGAATCAAAGCTCTTGCAGATTATGTGCACGGAAAGGGACTCAAGCTTGGCATATATTCTGATGCTGGGGTTTTTACA TGTCAAGTCCGACCAGGATCAATTTTCCATGAAACTGATGATGCAGATTTATTTGCCTCTTGGGGTGTAGATTATTTGAA GTATGACAATTGTTACAACCTGGGTATCCCTCCGAAAAAACGATATCCACCTATGCGTGATGCTCTTGGTGCAACTGGAG TTAAAATTTTCTATTCAATCTGTGAATGGGGTGTTGATGACCCAGCCTTATGGGCAGGCACGGTTGGTAACAGTTGGCGC ACAACTGATGACATCAATGATACATGGGCAAGCATGACGACTATTGCTGATCTTAATGACAAGTGGGCTTCATATGCTGG TCCAGGAGGATGGAATGACCCGGATATGTTGGAAGTTGGCAATGGTGGCATGACTTATCAGGAATACCGTGCTCACTTCA GCATATGGGCTTTAGCAAAGGCTCCTCTATTGATTGGCTGCGATATAAGAAATATGACTGCTGAAACATTAGAGATTATA AGCAATAAAGAAGTCATTGCTATAAATCAAGACTCACTTGGGGTCCAGGGAAGGAAAGTTCAAGTTGCTGGAAAAGATGG TTGCAGTCAGGTTTGGGCAGGTCCTTTATCAGGGGATCGCTGGGTTGTTGCTCTCTGGAATCGGTGCTCAAAAGTTGCTA ATATAACAGCTTCCTGGGAAGCACTTGGGATTGAATCTGGAGTTTATGTTACTGTAAGGGATTTATGGCAGCACAAGGTA GTAACCGAAGATGCAGTTTCATCATTCAGTGCTCAAGTTGATACTCACGATAGTCACCTGTACATTTTCACTCCATCTAC AGTATCTCTCTCTGTAATGTAG

Download CDS Sequence

Protein sequence (LotjaGi1g1v0308200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAKQKQSNALHVHFVILLLLCSSSVSVSAKVVPLLQSHRKPSFRSNFHTIYDTSNYGVFQLNNGLARTPQMGWNSWNFFA CNINETVIKETADALVSTGLADLGYVYVNIDDCWSSVTRNLTGQLVPDPKTFPSGIKALADYVHGKGLKLGIYSDAGVFT CQVRPGSIFHETDDADLFASWGVDYLKYDNCYNLGIPPKKRYPPMRDALGATGVKIFYSICEWGVDDPALWAGTVGNSWR TTDDINDTWASMTTIADLNDKWASYAGPGGWNDPDMLEVGNGGMTYQEYRAHFSIWALAKAPLLIGCDIRNMTAETLEII SNKEVIAINQDSLGVQGRKVQVAGKDGCSQVWAGPLSGDRWVVALWNRCSKVANITASWEALGIESGVYVTVRDLWQHKV VTEDAVSSFSAQVDTHDSHLYIFTPSTVSLSVM

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_POSITIVE	SignalP-TM View details on SignalP-TM Search for proteins/transripts with this domain	1	29	29	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	9	9	-	–
SignalP_GRAM_NEGATIVE	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	29	29	-	–
SignalP_EUK	SignalP-noTM View details on SignalP-noTM Search for proteins/transripts with this domain	1	29	29	-	–
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	29	29	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	10	21	12	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	12	34	23	-	–
PANTHER	PTHR11452:SF75 View details on PTHR11452:SF75 Search for proteins/transripts with this domain View external data on PTHR11452:SF75	16	431	416	6.3E-239	–
PANTHER	PTHR11452 View details on PTHR11452 Search for proteins/transripts with this domain View external data on PTHR11452	16	431	416	6.3E-239	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	22	29	8	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	30	433	404	-	–
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	61	333	273	2.0E-129	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51445 View details on SSF51445 Search for proteins/transripts with this domain View external data on SSF51445	61	331	271	1.11E-102	IPR017853 Show description in modal box View details on IPR017853 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	63	82	20	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16499 View details on PF16499 Search for proteins/transripts with this domain View external data on PF16499	68	331	264	2.4E-79	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd14792 View details on cd14792 Search for proteins/transripts with this domain View external data on cd14792	69	331	263	2.1678E-156	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	99	114	16	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00512 View details on PS00512 Search for proteins/transripts with this domain View external data on PS00512	104	120	17	-	IPR000111 Show description in modal box View details on IPR000111 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	140	161	22	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	174	191	18	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	201	219	19	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	266	285	20	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00740 View details on PR00740 Search for proteins/transripts with this domain View external data on PR00740	287	308	22	2.1E-67	IPR002241 Show description in modal box View details on IPR002241 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51011 View details on SSF51011 Search for proteins/transripts with this domain View external data on SSF51011	326	424	99	1.58E-21	–
Gene3D	G3DSA:2.60.40.1180 View details on G3DSA:2.60.40.1180 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.1180	334	426	93	1.8E-24	IPR013780 Show description in modal box View details on IPR013780 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF17801 View details on PF17801 Search for proteins/transripts with this domain View external data on PF17801	346	422	77	1.5E-18	IPR041233 Show description in modal box View details on IPR041233 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:0004553 View details of GO:0004553 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity, hydrolyzing O-glycosyl compounds	Catalysis of the hydrolysis of any O-glycosyl bond.	Subterm of View details of GO:0016798
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

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0308200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0308200.2