Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0163400
Transcript ID	LotjaGi5g1v0163400.6
Related isoforms 9	LotjaGi5g1v0163400.1 LotjaGi5g1v0163400.2 LotjaGi5g1v0163400.3 LotjaGi5g1v0163400.4 LotjaGi5g1v0163400.5 LotjaGi5g1v0163400.7 LotjaGi5g1v0163400.8 LotjaGi5g1v0163400.9 LotjaGi5g1v0163400.10
Lotus japonicus genome version	Gifu v1.2
Description	Non-lysosomal glucosylceramidase; TAIR: AT3G24180.1 Beta-glucosidase, GBA2 type family protein; Swiss-Prot: sp\|Q69ZF3\|GBA2_MOUSE Non-lysosomal glucosylceramidase; TrEMBL-Plants: tr\|A0A0S3SPA3\|A0A0S3SPA3_PHAAN Non-lysosomal glucosylceramidase; Found in the gene: LotjaGi5g1v0163400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:41884960..41896400) extracted from Lotus japonicus Gifu genome v1.2.

ATGGTTAGCGGGAGTATCTTTCATTTCAGAAAGAATTCATGGCCTGCTGAAGAGTATATAAGCAAATCCACTTTACAGCG TGTATGTATATGCTTTGATTTTCTGGTTTTTTGATTTGCTTTGTGTTATTCAGAAGCTGATAGAGTGATAGGATAAGGTT GCGAAGTTGCAAAAATTGCATTTGATTATGAATGGAAACTGTGTTTGTTTTTGCAGTTTGATTACGATAGTGCTGCTCCT CCTGAACAAGCTTGGAGAAGGAAATTGAACAGCCATGCCAATCTTCTTAAAGAATTTAAAATCACTTTTATGGAAGCTAT AAAGATGGCAAGTCATTTCATATAGTTGTTATCTTCCTTGTTAAATTCATGTGATGCTCTCTATCTGTTCTTACTGTGAT TGAGATTTCAAAATTGCAGGTTCGATTAGGCATTCGCATGTGGTCATATGTTAGGGAAGAGGCTTCTCATGGAAGGGTAA ATTTCGAATTCTCCTTCCTTATCTGGCCATTAATTGCTCTGTGTGTGTGTTACTATGAAAGAGTTACTTAAATCTCAAAT AGAATAGTGTGTTGAAAGTTGGGATTTCTTACTTCATTCTGTTGGCTTGATTTCTGCAGAAAGCACCTATAGATCCTTTC ACTCGAGAAAGTTGCAAGCCGTCTGCATCGCAAGGAGTTCCACTTGGTGGGATGGGGTATGAAGTAGTCCAATTAAAACT AATTAATCACTTGACTGGTTAATTTTGTTTAGAATTCAAATGAGTAATGGGGTACTCTCTACAATGTGTTTTTCTTGCTT ATTATGTTGATTTATTGTTTATATACTTATGCAGGAGTGGCAGCATATCAAGAGGATTTAGAGGTGAGTTTAGACAATGG CAAATTATTCCTGGCTTATGTGAACCGTCACCTGTCATGGCCAACCAGTTCTCTGTAAGACCTGTTTTTCCATTCTTCTC TAATTGGGTGGCTTTAAATATGCTTGTTTTTTGTTAAGATTCATACCTGTATTTATGTGGATTTATTTCCCTTCTCGTGT TATTAAATTTTTACTGATTTGTTCAGCATGTAGCGTCAGACACGTATAATCATATGCATGTATGTATACGTGATGTAATT ATTATTTAGTGCCATTGTAGCTAGCTATTAACCTTTGCCCATCAGCCACCTAAAGAAGGAAAAAGCTCCATGAAACATGA AAATCCTCTCTAGTATAATTATTTATACCCCTAAAAAATATCCATTAAATTTTTAGGATAAGGCTTGGTTTGTTGTTGGG ATGAAATATGAAATTAGTAAGCCAATATTGTACGTTGATAAGTTTTCTTCAGAATGTAATTGTAATGTCCAAGAACCTGC AATTATAATAAGTGGAAGTTATGATGATAATTTGAAGCATAAAAAAATTTATCATGTAAAAAGGGTTAAGAATCTCATCA TGACTTGCAGTGACAAATCATAAAATTAGACAGCCAACGTGAGGGGAGTCAGAGTGCAGTTATGCAAAAAAGCAATAGAA ATAGAAGTCTGTTAATCATGCTGTCCAGAAAAGAAGAGAACAGAAATACTGAACCTAGTTTCTATTTTCACTTTTAATTA AAAAAAAGAAGTTTCTAGTTTCACTTGTTATTACTTTGCGTACATAAGGTTGTTGCCCTCGTACCTGTGATTATGTTTAC TGTTTATGGCCATTTTGATCTGCAGCTTATATTTGGAATATCTGGTTATTTACTTTCATTGCAGATTTTTATAAATAGAG AGGGAGGAAACAAAAGTTTTGCATCAGTTTTGGCTCCTGGACAGCATGAAGGTTTAGTAGGGTAAGGAAGAATATGGTGA AAAACAATCTTACTCAACTTAAAGTGCCTCTTTCGTTAAAGTGACCTTTTTATTTGTTATTTCCAATTATCACTAAAAAT TAAAAAACCATTGGATTACTTTTACTTAGGGGATAATGGATGATAAGTTAATATCTGTCATTTCCACCCAACGTTCTCTT ATTTGACAGTTGAAATTTCATGCAGTCCTATGATCCTTCCATTGACCTTTTTAATGCTTAAGTGAAGTTCTGGCTTATAT TTGTAAATGACGGAACTAAAATTTTGTGGAAGATTTTCATCTTCATTTTGGAGGGAAGTTATAGATGATGGAAATAATTT ACAGGCATGGCAGAATGTGTGTGTGGCTTATAAGAACCAAGTATGGGCACTACAACATTCTAGAAAGCTTTGACTAATAA TTTGCTGTGTGCTGCTGTCCATTTAACACCCATGTGGACATCGACAGAAGCAACCATATGGCTATAGCGAGTTAGCACTT TGTTGTCTGTCTGGCAATGAATATAATCTGAAATCTGCTTATCAAGGCTATTTAGTACCTTTGAGTGCTTCTCATATATC AAGATACTTATATACATTGACCTCATATGTTTCATGTTAATTTTTCCAGGTCTAGCAAGAAAGCTGATGATCAGGGCATA TCATCATGGGGATGGAATCTAAATGGCCAGCATTCAACTTACCATGCTTTGTTTCCAAGAGCTTGGACAATATATGATGG TATCTCCATTTATTTAAGTTCTTCCATTGCTAAATCTGTATGATCCTCGTGAATTCTTGTTTAATAGCTATTTTCTTATT CTTAGGCGAGCCAGATCCAGAACTAAAAATATCATGCCGGCAGATATCCCCTTTCATACCACATAATTATAAAGAAAGCA GTCTACCTGCTGCTGTTTTTGTCTATACGGTGTGTAATTTTCTTCAACTATTGTTAATTAAATTTATCTGTCAAAAAGGC AATGGCTGACTTCCTTAGTATTGTAAGCTGGTTTTTAACCTGTTTATTGTTATACTTTATTATACTAAATACTGGCTAGT TGCTGCAGCCTAGCTTTCTTAGTTGATAACAGTAATAAGAGGTTTCTCTCAGTTTATGTCGAAGTAGCGTAGAATCTGGT ATACTGTCGTCTTGTATGAAATTATAATTCACTAAGATGTCTGGTCCCCTTATGAAAAACATGTGGATAAGACTGTTTGA TTGCCGCAAATCAGCTGCCTCGGTTTGACCCTTCTGGGATGTTGTTGTGCAAATCCTTTTTCTACTTTCTAGCCTATTTG GTGAAAGCCATGGTTTAAGTTTTTTATTTGGACTACCTTGCTTAATAGAATTCATGCAAATGACATAATTGCTGATTCAT AGGTTACATCAGCCTCTTTCCCTTGTTATTTGTGTTATGTATGGTCATTATTGAGAACCAGTTCCCGTTGTCCAGCATTT TGGTGAATGCATGGGGTTATAATTCAGTGATTTACAACACAGATATATCATGAGTTAGATTTTAACCAATAATGAGTTAT ACAAGTTATTGCCCATTATATATATGTACTGATTAGCTGTTCTTGTAATTAATACTCTACAGCAACAATAACCAAAGCCT TTTCCACTAGGTTTGTATCTCTATTTAATTACTGTATAAAAAGCTAGTTTTACCTGAAGTCTTCATCTACTTCAATATGG CATCAAAGGAGTATCATCATTCATGACTTAGTGTGTTTTGGTTCTAACTTTGGGAGTAGAGTCAATTCTCATTGACCAAA ATCAGTTTTAGGTGATTATATAGATGTTTGGTATCGACTTAGAGAATCGATTTTACTCCCAAAATATATAGATGTTTGGC ATCGACTTAGAGAATCGATTTTACTCCCAAAATGAATTTTGTGGAAAAGCTAGAGAGGGTAGCTTCTAAGTGGACATAAT TAATTGTTGGATTTCATAACTGTATTTTGTTACACTACCCTATAGAAATCAGTTTTCCAATAAACGTATCTAAACACCAA TCACTTCACTTTCAACTCACTTTTGAGCTCACTACCAAAATCAATCCTATCCAGAATCAATTCTGACAATGCTGATGCAA AGTACAAACATGCAGTTAATCTATTTCGTTGCTATGTTCCCAATATACGGAACCCTTTGTTTGGTGTAACTACATAACCT GTGTCAAAGCATGGATCTCCCCCCTGAAATCCATAACCATAGAGAGCTCATTGGAATGTCCTTGCTAGTGAGCAAGGTTT TCACCTTCCTTTACAGAGAGAGATCACCATCTAATTGATGGAGCTTGGACCTAGAGACAAGTTCACCATTTGTGTCATTG GCATCAACTCAGCTGGTGGACTCACTGGCATTGAAACAGGCACTGGAGAAGAAATGAATGATATCGTTGCCTATCTCAAA GGAGACCCATCATAATAGTCTGATGAGTTGGTGCTTTGGGAGCTTGCTAGGCATGAGTTAGAGCTACTTTAGTGTGGACG AAGAAGTACACTTGCTGCTACTAACTGATCCCGTCCTTGAAGGGCTGAGTGCTTGAGTCAGGCAGTGCTCAAGGTGGAGT TAGCACTCAAACATGCCATGTTTGAATTTCTAATAGTCTCCCTTCTTGAAATTCCCCTTGTGGAAATGGGGATTGGGGTA GGCCACGGCTTTGTATTTTAACGTCCTTGGTTCCGCCAGGGATCCTTCCCTTGGGGTAAACGTACAGAGATAGGGTATAA CAAAAGTACAAAACCAACTCATTGCGCGGATGGCCACACATCCTCTATCTACTTTTTGAAAGATTTCCTATTAAAAATAA TAATAACAAAAACTATTTTCAACTGGAAGTATAGCCTTTTTTTATGGATTCAAATTCAAAAGAGGAAGTGGTCCTTAGAT TCATGTCTAAGTCAGGAAGCACCTGCTATATTTTTTTTTATGCGGGGCAGAGTGAAACAACTAGGCTTTCTAAAAGGTAT CAAGATAAGGACTATTGGACTCCTGCCCAAACTCTTTGTGAATGAATTCCTCCATCTGAACTCTAACTAATGGTGCTTCT TCTTCCACGATTAACTGTGCAAACATGTAGCTGCGATAACCCTTTGACATCTGCAACAATTGCTGACGTCCTGACATGTT CCCTGATCAGCTCTCCCTAGCAGGCCACCGTGCCTTGCTATGCTTATTTAAGTGTTAGAAATACTATTAATGCTCTCATT GTTTTACATTTTTCACATCCGTAAGCAGGTTGTGTTCTGAAGTGTTCACTGCCTTTTGGTATTCTTGTTTTGATCATTTG GATTGAGGTTGACGTTGGGGGGTTGATGAGGGGCAAGGAAATTTGCGAAATCGTTTCTTTCTTGTTTTCTCTGTTGATAA ACCTACAACTAGTCAGCTACTTCTCTATGAAATAAGAATATAGAATTGTTTGTTTTATTACATTTTCTATTCAAAGTCAG TGAAATATTTGGTATTACTCTGAATTTTCTGCATTCTACATTCTTTTCATATTATCTGTTACATTATGCATTTTGTCTTT TGATATGAAGGAACATGTATTTTCATGATTTTTGAAGAGCTTACTTGTTTCTTTGGTAGTTGGTAAACACTGGCAAGGAA AGAGCTAAAGTCAGCCTTCTATTTACTTGGGCGGTAAGATATTATTTTAATCTGAAGATTTGTTTTAAATTTTCACAACA TTTATTTTTTGACGGTTTGAGGAGGGGGAGGGGTGTTACAATGACTAAGCCATGGATAAATAATCATCCATATTAATTTT CTGCAGAATTCCATCGGTGGAAACTCACACTTGTCAGGAGATCATGTGAATGAACCTTTCATGTTAGTATTTCTTCTAAT CTGATATATGAATGCTTTGTATATAGAGCAAGCTTTACCAACATTTTAACACTATTTTTCATTCACAGAGCTGAAGATGG AGTCTCCGGTGTACTTCTATATCACAAGCAAGTTATCAAACTTTATAGCTATATATGACGGTTGGTTTGCAGATTTCTCT TTATAGTTTATATGCAACTGCTTAATAAGTCAATTACTTGGGTCCCGTTTGGGAAAACAGCTTAATTAAGCGCTTATGAC ATGGGCGCTTATTCATAAGCTATTTTAAAAAAATTATTGAAATAAGTTGAAAATAAGCTATCTATAAGCATAAGCTCTTT TTCATAAGCTACATAAGCTATCTTAAGTAGCTTATGAAAATAAGCTCAAAACAGCTTATGGGTAGGCCATAAGCAGTTTG CATAAGCTTTCCCAAACACTAGCATAAGTGCTTATGCTATCAGATAAGCTCAAATAAGCTCTTCCAAACGGGGCCTTGAA GGTTCTGAAATTTCTAAGGAGCTCTTGCTTATTCTTGTTAATAAGCTGAGCCTGATCATGAATTTACATCTTCCCCGGAG TCCTACACTACTATTCATAAGTTATTGAAATAAGTTAATTTGAGAAGCTTATTGAGATAAGCTCAAAATATGTTATAAGT ATGTATAAGCGTTTATTCATTAGCTGATATGAGCAACTTATGAAAATAAGCTAAAAAAAGTTAATAGGTAGGTCATAAGC TATTTACATAAGCTCTTACAAACACTTGCATTGAGGTTTATGCTATAATATGAACTCAAATAAGGTCTTCCAAATGGGCC CTATCTCCCTATCAAGTATTCATGATTTTGGAAAGCAAGGATAAAAAAGCTCTGCGATGCTTTTTTTGCTGTCTTTGTTT GGAATGTCATCCCAGATCGCTTAAACAACATTTTTAGCCATTATATCTCCTGTCAAACAAATCTCATTTTTCTTTTTGGT TCCCAAGTTAATGGTTCTGTGCTTTGTCCCCAACTATTTGAGGTTGTTGGGAATTTTTACCTGTTTCATGAAGGAATTGG GCTTCTCATTGGAGCTGATGTAATCCCTTTCTTGCTTCTGTCATTTGATGATTTTGCTGGATGTGTATCCTCACACTTAT TCTTTTCTCTAATAGAATCTACTTTTTTTCATAAAAATATAAGACATCAGGTGATATCTCCCTTGGAAAAATGGCACTTG AGCTTCTTTCTTCATGTGGAAACTTCTGATCAAATAGGAAAATATCATATATCATATTGTTATAAAAAAATTAGAGAAAA TGCAACTGAGGGAACTGGGATTCATAAGATATCTCCAAAATAGATGCGGATAAAAACAATATTTTTCTGAAATTGATTGT TTAGTCTGGGTTATCCTTTTGGTTTGGGATTTTTAAATGAACTTGTTACTCGTAAAAACAAATTAAGGAAATTCAATCTT TAGGGCTATCGTCTTTTTTTTTATGCATGTGCACATTCATGTGAATTGGGTACATACTGCTACGTAAATGATGAATCTGG TGGGTATATTCTTAAAGTCATTCCGATATTGCAGAACAGGAAAATGCAACCCTCCTGTTACTTTTGCCATAGCTGCATGC GAGACACAGAATGTTAGTGTTTCTGTTTTGCCTAGTTTTGGGCTGTCTGAAGGAAGTAGCGTAACAGCAAAAGGAATGTG GAGTAAAATGGTGAAGGTACTAATCACGTGTGTTTTTGGAGTTTCTAAATGATATTTATAGTTCGCCCATCACCACTACC TTCTTCCAACTATTTTTAGTATGGAAAGGATACAGGATTGGTTCTAATTGAAATGTTGTAATTTAAGGATGGGCATTTTG ACCGGGAAAATTTCTCTTCTGGACCTAGTATTCCCTCATCACCTGGAGAGACACTATGTGCTGCTGTTTCTGCTTCCACT TGGGTAGAACCCCATGGAAAATGCACTGTTGCATTTAGTCTTGCATGGACATCTCCAAAAGTGAAGTTTGTAAAAGGAAG TTCTTTCCAAAGGTAATCAATGTTATTTGAGAATATTTTGGTTAGTATTAATTTATCCTTGAACAGCTTCTTTTCTATAT CTTAAATAAAGAATAGTTGTGTGCTTTTTACCTGCATGTGGTTCAAAATATGGTTTAATCACTTTCTCTGAAATAGGTTG GGCTGCATTTTGGTTTAGGAAAATGACTAAGATAGTTTTATTTTGTTAGTAGAGCAGCTGGGCCTTTGAGTTGCTGAGCT TAGAGGAAAATTTTAAAATCTGTACCGATTTAAAGAGTGCATACAAGATTTAAGCATGTGAAGTTATCTTATGTAATTAC TAATTAGTAAGAGTCCATTGTCTCCTTGTACGTCATTTTTGAATCGTCAATGGTGGTTGCTTTAATGGCATATCATCCAA TTGAACATGGAACGAGTCTTCCTGTACTTTAGAGGCATATGTCATATATGGAACAAATTACCATTGTAAGCTACTAAGCT CTTAATATTATGTTCTTAGTTACTGCATCTATGAAGTTTTTCTTGCTCTCCTCTTAAATACCTCTATATAATTATCTTGT GTTATGCTGCACTATGTGATCCTAGTAAAATGTCGTTATCCTAAATAAAGCTTTGTTAACTCTTCAAATTAATAGCATCA CTCATTTTTCCATTTTTGAACTGATGAGCTTTTTAATGCCCCTCATATGTTTCTGGGCGAGAGAGATTTGTGCCTTTGTG GAATTTTTCTAGAAAATAACAAAAATATTTCCTTTTTGTTGTAAGGTTGCAAGACATGCAGGATACTGGCAATCTATGAA TTATTCTGTATGATTATGTTCTGATAAGTTAAACTCGCTCAATTATTTTACTGCAGGAGATATACAAAATTTTATGGGAC TTCTGATAGAGCTGCAGTGGACTTGGCCCATGATGCATTGACACGTAAGTTGTTGGTTTCGATTGAAATTGATATTCTTC AGGCCAGTTTTTTTTTTTTTTTTTTTTTTCCCGCTTTGCAGTTATATTATGTCACATTTCAAACGTAAAAGATTCTAATG TTTCTCAAGTGATCCGAGACTTTCATTTGTAGCATATAACACCATGAGGTTCTGAATTTTATGCAGATTACAAACGATGG GAAGAAGAGATTGAGAAATGGCAGGGTCCTGTTCTTAAGGATGAGACAATACCTGAGTGGTAATTTCCCTTTTAACTATC AATGTACATTATATTATATGTGTGAGTGTGTGTGTGTGTTTCACCGTGTGTTTTTGAGTTATGGGTCATTGCTAATGCTA GTTACTCAAAGCTTGAGGTCTATAGGTGTAGAGTACAAGACATATAGTAAAACTTGGTTTTTTCTAGCTGATGTATAGCT CTCTATTTTTTTGGCATAAATTGCATTTTGGACTGTTAAAAAGCAAAGATGCTTCGATATGTGTTTCAAACAATCATTCT CCTCCTTTGTTCCAAGAATGGGTTTATGGTCTTTCCTTCGGGTTATTTGTCTGATCTCAAGACCCAGGCGCTGACTTTGT ATAATTAAGCATGCATGCTTTTGTGTATTCTGTCCAATCTGTAGAAGATAGATCATTGAACAGTAACAGAAGCCTTTTTC CAACCAGGTGGAGTTCCTAAATCATTTTTTCAGTAAAAATAATCATAAAGATCTAATGTTTTTAATGGCTTCTCTAGAGT TTTCCTTTGTCTTGCTCTACCTCTATTTATCAAGCTATCCTCTATCCACTCTTCTTGCTGTGCCTTTTATTGGGGGCTAG GTGAAGGTAGACAATGCACTTAAACTTTCTTTTTACAGGTACAAGTTTACATTGTTTAATGAACTCTACTTCCTTGTTGC TGGTGGAACGATTTGGATTGGTATGTATGAAAATAAGCTTATTGTATTACAGTTTATTTTCAATGGGTGTCTGGTTTGTC ATTGGAAGTTCCTAGTCAGTTTAGTCTTAATGAAATCATTACTGCCTTGATCTTTCTGCCAGACTCGCCATTGCAATCTC CGCTTGTGAGGAGTGACCGGGATCAGGTGAATGCGTTGCAAAATGCAGTTGTCAAAGTTACTGAAGCTAAAGTGGACTGC CGAACAAGGGAAGTTGTTGAGTGTACTACAGATAGTACCTATGATTCTACTACTTCTAGAGGGCATAATCATGTATATGA AAATCATTTTGTAGATGAGTCTCATGAAAATGAATCTGTGGATACTCTCAGAAGAGAAAACTCTATTGGCACTCACAATA CCTCAACAATGATGGGCCAACAATATGATGATAATGATGTTGGAAGGTTCTTGTACTTGGAAGGAGTGGAATATATCATG TGGTGCACATATGATGTGCACTTTTATGCTTCATTTGCGCTTCTTGCACTCTTTCCTCGTATTGAATTAAATATACAGCG TGAGTTTGCTAAAGCTGTCTTGTGCGAGGACGGCAGAAGAGTTAAGTTTCTGGCAGAGGGAAACTGGGGGATTCGTAAGG TTTATGGGGCTGTGCCACATGATTTGGGTACACATGATCCGTGGTTTGAAATGAATGCTTACAACATTCATGATACTAGT AAATGGAAAGACCTGAACCCAAAATTTGTACTTCAGGTGTATCGAGATTTTGCTGCAACAGGTGATTTGCAATTTGGAGT TGACGTGTGGCCTGCTGTTCGTGCTGCAATGGAGTACATGGATCAATTTGATAGGGACGGCGATTGCCTTATTGAGAATG ACGGGTTCCCTGATCAAACATACGATACATGGACGGTCCACGGTGTGAGTGCTTACTGTGGGTGTCTTTGGCTTGCTGCT CTTCAAGCTGCAGCTGCCATGGCCCTTGAACTAGGTGACAGAGATTTTGCGGAATCATGCAAGAGGAAGTTTATGAAGGC GAAGCCAGTTTTTGAAGAAAAACTGTGGAATGGTTCTTATTTTAACTATGACAGTGGATCAAGTGGTAATAGTAAATCCA TTCAAGCAGATCAATTGGCTGGGCAATGGTATACAGCTTCCTCAGGGCTTCCCTCCCTTTTTGATGAACCTAAAATAAAA AGTGCTCTCCGTAAGGTTTATGATTTCAATGTAATGAAAATTAAAGGAGGCAGGATGGGTGCTGTAAATGGCATGCATCC CAATGGTAAGGTGGATGAGACCTGTATGCAGTCTCGCGAAATATGGACAGGTGTAACCTATGGTGTTGCTGCTACTATGA TACTTTCCGGAATGGAAGAAGAGGCCTTCAGAACTGCTGAGGGTATATTTCTAGCAGGCTGGTCAGAAGATGGATACGGG TAACTTCCTATGTTAGAACTAACTCAGCATTCTTTTCACACAAATATATTTAGCTATTTGACTTCATATTTTTCTTTTCA ATATGGTAATTATTTTAATCCAGTGATAGAATTAATGAGAATCATCACACTATAAGTTGTTAGGTAGTGTAATGTGTGAC AAGTCTTAAATTTATGCAGTTATTCCTTCTCTAACATTCTACCATTTGGCACATAACAGATACTGGTTTCAGACTCCAGA GGCATTTACAATTGATGGGCACTACCGGTCTCTCATATATATGAGGCCACTGGCAATTTGGGGCATGCAATACGCATTAA CTCTGCCTAAGGCAATTCTTGAGGCCCCTAAAATGAACATCATGGACAGAATCCATATATCCCCTCTTAATGGAGGATTC TCTCACAATGAAACAGGTGTGAGAAAGATTGCAACAAAAGCAAAATGCTTTAGCAATTCTGTGTTTAATTGTGCTTGCTG A

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0163400.6) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTTAGCGGGAGTATCTTTCATTTCAGAAAGAATTCATGGCCTGCTGAAGAGTATATAAGCAAATCCACTTTACAGCG TTTTGATTACGATAGTGCTGCTCCTCCTGAACAAGCTTGGAGAAGGAAATTGAACAGCCATGCCAATCTTCTTAAAGAAT TTAAAATCACTTTTATGGAAGCTATAAAGATGGCAAGTGTTCGATTAGGCATTCGCATGTGGTCATATGTTAGGGAAGAG GCTTCTCATGGAAGGAAAGCACCTATAGATCCTTTCACTCGAGAAAGTTGCAAGCCGTCTGCATCGCAAGGAGTTCCACT TGGTGGGATGGGGAGTGGCAGCATATCAAGAGGATTTAGAGGTGAGTTTAGACAATGGCAAATTATTCCTGGCTTATGTG AACCGTCACCTGTCATGGCCAACCAGTTCTCTATTTTTATAAATAGAGAGGGAGGAAACAAAAGTTTTGCATCAGTTTTG GCTCCTGGACAGCATGAAGGTTTAGTAGGGTCTAGCAAGAAAGCTGATGATCAGGGCATATCATCATGGGGATGGAATCT AAATGGCCAGCATTCAACTTACCATGCTTTGTTTCCAAGAGCTTGGACAATATATGATGGCGAGCCAGATCCAGAACTAA AAATATCATGCCGGCAGATATCCCCTTTCATACCACATAATTATAAAGAAAGCAGTCTACCTGCTGCTGTTTTTGTCTAT ACGTTGGTAAACACTGGCAAGGAAAGAGCTAAAGTCAGCCTTCTATTTACTTGGGCGAATTCCATCGGTGGAAACTCACA CTTGTCAGGAGATCATGTGAATGAACCTTTCATAACAGGAAAATGCAACCCTCCTGTTACTTTTGCCATAGCTGCATGCG AGACACAGAATGTTAGTGTTTCTGTTTTGCCTAGTTTTGGGCTGTCTGAAGGAAGTAGCGTAACAGCAAAAGGAATGTGG AGTAAAATGGTGAAGGATGGGCATTTTGACCGGGAAAATTTCTCTTCTGGACCTAGTATTCCCTCATCACCTGGAGAGAC ACTATGTGCTGCTGTTTCTGCTTCCACTTGGGTAGAACCCCATGGAAAATGCACTGTTGCATTTAGTCTTGCATGGACAT CTCCAAAAGTGAAGTTTGTAAAAGGAAGTTCTTTCCAAAGGAGATATACAAAATTTTATGGGACTTCTGATAGAGCTGCA GTGGACTTGGCCCATGATGCATTGACACATTACAAACGATGGGAAGAAGAGATTGAGAAATGGCAGGGTCCTGTTCTTAA GGATGAGACAATACCTGAGTGGTACAAGTTTACATTGTTTAATGAACTCTACTTCCTTGTTGCTGGTGGAACGATTTGGA TTGACTCGCCATTGCAATCTCCGCTTGTGAGGAGTGACCGGGATCAGGTGAATGCGTTGCAAAATGCAGTTGTCAAAGTT ACTGAAGCTAAAGTGGACTGCCGAACAAGGGAAGTTGTTGAGTGTACTACAGATAGTACCTATGATTCTACTACTTCTAG AGGGCATAATCATGTATATGAAAATCATTTTGTAGATGAGTCTCATGAAAATGAATCTGTGGATACTCTCAGAAGAGAAA ACTCTATTGGCACTCACAATACCTCAACAATGATGGGCCAACAATATGATGATAATGATGTTGGAAGGTTCTTGTACTTG GAAGGAGTGGAATATATCATGTGGTGCACATATGATGTGCACTTTTATGCTTCATTTGCGCTTCTTGCACTCTTTCCTCG TATTGAATTAAATATACAGCGTGAGTTTGCTAAAGCTGTCTTGTGCGAGGACGGCAGAAGAGTTAAGTTTCTGGCAGAGG GAAACTGGGGGATTCGTAAGGTTTATGGGGCTGTGCCACATGATTTGGGTACACATGATCCGTGGTTTGAAATGAATGCT TACAACATTCATGATACTAGTAAATGGAAAGACCTGAACCCAAAATTTGTACTTCAGGTGTATCGAGATTTTGCTGCAAC AGGTGATTTGCAATTTGGAGTTGACGTGTGGCCTGCTGTTCGTGCTGCAATGGAGTACATGGATCAATTTGATAGGGACG GCGATTGCCTTATTGAGAATGACGGGTTCCCTGATCAAACATACGATACATGGACGGTCCACGGTGTGAGTGCTTACTGT GGGTGTCTTTGGCTTGCTGCTCTTCAAGCTGCAGCTGCCATGGCCCTTGAACTAGGTGACAGAGATTTTGCGGAATCATG CAAGAGGAAGTTTATGAAGGCGAAGCCAGTTTTTGAAGAAAAACTGTGGAATGGTTCTTATTTTAACTATGACAGTGGAT CAAGTGGTAATAGTAAATCCATTCAAGCAGATCAATTGGCTGGGCAATGGTATACAGCTTCCTCAGGGCTTCCCTCCCTT TTTGATGAACCTAAAATAAAAAGTGCTCTCCGTAAGGTTTATGATTTCAATGTAATGAAAATTAAAGGAGGCAGGATGGG TGCTGTAAATGGCATGCATCCCAATGGTAAGGTGGATGAGACCTGTATGCAGTCTCGCGAAATATGGACAGGTGTAACCT ATGGTGTTGCTGCTACTATGATACTTTCCGGAATGGAAGAAGAGGCCTTCAGAACTGCTGAGGGTATATTTCTAGCAGGC TGGTCAGAAGATGGATACGGATACTGGTTTCAGACTCCAGAGGCATTTACAATTGATGGGCACTACCGGTCTCTCATATA TATGAGGCCACTGGCAATTTGGGGCATGCAATACGCATTAACTCTGCCTAAGGCAATTCTTGAGGCCCCTAAAATGAACA TCATGGACAGAATCCATATATCCCCTCTTAATGGAGGATTCTCTCACAATGAAACAGGTGTGAGAAAGATTGCAACAAAA GCAAAATGCTTTAGCAATTCTGTGTTTAATTGTGCTTGCTGA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0163400.6) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVSGSIFHFRKNSWPAEEYISKSTLQRFDYDSAAPPEQAWRRKLNSHANLLKEFKITFMEAIKMASVRLGIRMWSYVREE ASHGRKAPIDPFTRESCKPSASQGVPLGGMGSGSISRGFRGEFRQWQIIPGLCEPSPVMANQFSIFINREGGNKSFASVL APGQHEGLVGSSKKADDQGISSWGWNLNGQHSTYHALFPRAWTIYDGEPDPELKISCRQISPFIPHNYKESSLPAAVFVY TLVNTGKERAKVSLLFTWANSIGGNSHLSGDHVNEPFITGKCNPPVTFAIAACETQNVSVSVLPSFGLSEGSSVTAKGMW SKMVKDGHFDRENFSSGPSIPSSPGETLCAAVSASTWVEPHGKCTVAFSLAWTSPKVKFVKGSSFQRRYTKFYGTSDRAA VDLAHDALTHYKRWEEEIEKWQGPVLKDETIPEWYKFTLFNELYFLVAGGTIWIDSPLQSPLVRSDRDQVNALQNAVVKV TEAKVDCRTREVVECTTDSTYDSTTSRGHNHVYENHFVDESHENESVDTLRRENSIGTHNTSTMMGQQYDDNDVGRFLYL EGVEYIMWCTYDVHFYASFALLALFPRIELNIQREFAKAVLCEDGRRVKFLAEGNWGIRKVYGAVPHDLGTHDPWFEMNA YNIHDTSKWKDLNPKFVLQVYRDFAATGDLQFGVDVWPAVRAAMEYMDQFDRDGDCLIENDGFPDQTYDTWTVHGVSAYC GCLWLAALQAAAAMALELGDRDFAESCKRKFMKAKPVFEEKLWNGSYFNYDSGSSGNSKSIQADQLAGQWYTASSGLPSL FDEPKIKSALRKVYDFNVMKIKGGRMGAVNGMHPNGKVDETCMQSREIWTGVTYGVAATMILSGMEEEAFRTAEGIFLAG WSEDGYGYWFQTPEAFTIDGHYRSLIYMRPLAIWGMQYALTLPKAILEAPKMNIMDRIHISPLNGGFSHNETGVRKIATK AKCFSNSVFNCAC

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
PANTHER	PTHR12654:SF21 View details on PTHR12654:SF21 Search for proteins/transripts with this domain View external data on PTHR12654:SF21	1	474	474	0.0	–
PANTHER	PTHR12654 View details on PTHR12654 Search for proteins/transripts with this domain View external data on PTHR12654	1	474	474	0.0	–
PIRSF	PIRSF028944 View details on PIRSF028944 Search for proteins/transripts with this domain View external data on PIRSF028944	33	284	252	9.8E-68	IPR014551 Show description in modal box View details on IPR014551 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	87	107	21	-	–
Pfam	PF12215 View details on PF12215 Search for proteins/transripts with this domain View external data on PF12215	104	414	311	4.1E-101	IPR024462 Show description in modal box View details on IPR024462 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF028944 View details on PIRSF028944 Search for proteins/transripts with this domain View external data on PIRSF028944	279	926	648	7.0E-236	IPR014551 Show description in modal box View details on IPR014551 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12654 View details on PTHR12654 Search for proteins/transripts with this domain View external data on PTHR12654	520	973	454	0.0	–
PANTHER	PTHR12654:SF21 View details on PTHR12654:SF21 Search for proteins/transripts with this domain View external data on PTHR12654:SF21	520	973	454	0.0	–
Pfam	PF04685 View details on PF04685 Search for proteins/transripts with this domain View external data on PF04685	555	916	362	5.9E-156	IPR006775 Show description in modal box View details on IPR006775 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48208 View details on SSF48208 Search for proteins/transripts with this domain View external data on SSF48208	566	919	354	8.26E-43	IPR008928 Show description in modal box View details on IPR008928 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.50.10.10 View details on G3DSA:1.50.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.50.10.10	612	906	295	1.2E-22	IPR012341 Show description in modal box View details on IPR012341 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	966	973	8	-	–

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:0004348 View details of GO:0004348 AmiGO InterPro QuickGO	Molecular function	Glucosylceramidase activity	Catalysis of the reaction: D-glucosyl-N-acylsphingosine + H2O = D-glucose + N-acylsphingosine.	Subterm of View details of GO:0004553
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:0006680 View details of GO:0006680 AmiGO InterPro QuickGO	Biological process	Glucosylceramide catabolic process	The chemical reactions and pathways resulting in the breakdown of glucosylceramides, any compound formed by the replacement of the glycosidic hydroxyl group of a cyclic form of glucose by a ceramide group.	Subterm of View details of GO:0006678 View details of GO:0046477
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0163400.6, 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…

LotjaGi5g1v0163400.6