Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0001000
Transcript ID	LotjaGi4g1v0001000.1
Related isoforms 2	LotjaGi4g1v0001000.2 LotjaGi4g1v0001000.3
Lotus japonicus genome version	Gifu v1.2
Description	Non-lysosomal glucosylceramidase; TAIR: AT5G49900.1 Beta-glucosidase, GBA2 type family protein; Swiss-Prot: sp\|Q69ZF3\|GBA2_MOUSE Non-lysosomal glucosylceramidase; TrEMBL-Plants: tr\|A0A072UUL4\|A0A072UUL4_MEDTR Non-lysosomal glucosylceramidase; Found in the gene: LotjaGi4g1v0001000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:163363..174079) extracted from Lotus japonicus Gifu genome v1.2.

GCATTGTGACATCTTTTTAAGTGACTCATATTAGACATTACTTACGTATAGATAAATATTGATCTGCATAAATAACAGGT GGAGTCCTCTTCAATTAGTGGTGGCTGCTTAGGCCTGAAGAACATTGACGGAGGTTAGTAAAGCTCAATTAGAGCCCCAT TACGTTTCTCTCATGAATTTTATCTTTATTCATACAATTCATAGAAAAAAAACAATTAGTGTGGTTCGGTTAGTTTTGGG ACTAAGTTACAACTCACAAGAGAGAAAAAACGCAAGGAAAGTTATGAACAAAAAGGAATAAGATATAAGCGATGAGATTA AGGGTTGCGTTTTGCCTCATTCATCTGGAGCATTAATTAATTAATATAAAAAAAAGTCCCGCTTCTCTCTCTCTCCTAAG CAGGAGTACTACTTTTCTTTTTCTTTTTTCTGGAAACAAACAGCCACCACAGTTATCGTGTAACAAAGAACCATTTAAAA ACAAAACAAAACGATGGAAGCTTAGGACCTCTTCACGAAAACCACCAATTTGAGAAGTAAGCTTCATTGATGAGGTTAAA TATTTCATCAAATTCACAATCCGAGTCATGTTTTGTAGATATATTAGAAAAAGGGATCTTTCTCATTCATAAACTTTGTC CCATTAAATATATTCTGCCGTCCAAATTTGACTTAATTTGTGGTATTAGACTAGTATTAGTTACCAATTACCATCAATAT TGGATCCAATACCGGTCATCTCGTCTTCATATATTATTCACATATAATAAAGTTCAGCAATAATAAAAATACTTGCCTCT GGTTGAGTTGTACTATTGATCAGGTATGTGTTGACTTATTCCTCTTTCCATCCATCCAGTACCATCATGTTTCACTTCTG CCTGTTCCTCCATCATCACTAGACGTGATCTAAGCTTTTTATATTTCTCTGAGGTTATCTCTCGTAATTAAGTCTTCACA TTATATTTTATATTGCAATGCCTCTCTCTGCTTTCCTTGATTTTCCTCACCAATCCCCCACACGCACATATTTTTTTAAG GATGTGATGTTAGATATGTTTGATTTCAAAACTTGTGTGTTTTCAATGGCTTTTGCTAGATGATTAATGGGTTTTGGCAG TTAACTTACTTTGTTACTTTGCCTTGATGATTTCGCTGCATCATCTATGCAACGATAGCAGAATTCATACAGGGAAGCAC GGCGGCATCTAAATGGGACTGGCAGGGGCAGCCCCCCAAGAAATATAATTTTTTTTGTCGACTATATGTATTTTTATAGA TATTTTTAATTCTTAGTCCGCCTCTAAAGATTTTGTAGATTTTTTCATATTTTATTTCGGTCCCCCAACGATAAAATCCT GGATACGCCCCTGCAGGGAAGATGGTGGAAAATGGTTTTGTTGAAGACAACAACAGGACTGGCGAGCCTTCTGGGATCAA GGTAAACTTTATGCTTCATATATCTTTGAGTTGGCATTGAATTCATAGCAATAGCAATCAGTTGTCTATTTAATTCTTAT GATTTAAGTTCCCGTATTGCAATCATCGGCTGCTGTCAGTGCCACATCCATTTGGAAAGTTTTGACTCTCTTGCATGAAA TTGTATGGCTATCTTGTATAGCTTTTGTTCTTTGCCTACTCTCTTTTGTTTGACTTTTTTGATTAATTGAGATGGAGATT CTTTGGAGGATTTCGAGTTATCCTAGAACTTCAAGCATTTAAATAAGTGGATTATATCCTGTCTGGAAAATATATACTTT CTCTGAAGTGAGAATGCAGTCCAAAAACCTACAAGGAATATGTTAGCATGGTCAAAGCCATGTTTGTTTTTGTCAGTTTT GATCTGGTTTAGTTAGTATTTTTCATATAAAGTCAGAACTGATCAATGTGAGACTTCTGAAATATTTACTAACAATTCAT GTGAGATATAGTTCATTTTATTATAGTATCAGGATTTGGGAGAACACACAAAATTTCTCAAATTTAATTATTTTAAGCCC TTAATATAGATTCTTCACCGGCCATCTTTTTTATGCCTCATTCAAACATCTGTTTTTATGCCCGATTAAGGTTGACCCGG GCAAACCTGACGCACTTACCTGGCAGCGGAAACTAAATAATGAAGGAAAGGCTCCACTAGAATTCACCTTATCTTTAAAA GATATAATTCATCTGGTAAGCCTGCTCATGAGATCATGACTTCTTCCCCTTTTTTATTATTTACTTGCTATAAGAAAAAT CCTTAATAGTGCATGTAATGAACTTATCCTTAATTCTGCTTTAGGACGAGATCCTTCAATGTTACCTACCCCATTGAAAT GCCTTGATGCTTCACTATATTATCCTTGTTAGCAATCCTATATTTTTCTTTGATTTGCTAGGCTCCAATCGGTTACCGGC TATGGCGCCATGTTCGGGAAGAAGCTGCCAAAGGAAGGGTAATCTTCTTTTATCATAAATTTCTATCGTATTTTGATATA TGCTTATTAATTTTCACCTGATTTCTCCTACCATTTATTGGTTTTGATTGTTATTTCTATCCTTCTTGCAGGCGGGAATG ATTGATCCCTTTGCTAAGCATCATGTAACATCTGGTCATGGTGTCCCTTTAGGTGGTATTGGGTAGGTCTTCAATCTTTC TGTCAGTTAGAATCAACATTGTAATATTTGAGCCTTTTACTGGTACCTTGAACAAATTATGTAATGAATTTAAGTTAGAC GTATTTTGTATGAAAAATTATGTGCATATCCTTCCTGGTAAGTGCATTATCTTGAACTTAATAGATTAATAACAGTAAAG ATTAAAATCGTATTCAAGTGAAAAATGTTGATAGGGAAAACATATTTTAATTTCTAATTATATCCATATTAAAATAATTT ACAGTCACATTAATATCCCATCCAATGTTTGCTTAATTTGAGTATCCCAGAACAGTATTTGATTATTTGTGTCTACAACA TGCATTGCTTTTGTTATTGTCAAACTGATCTCCAGTGCAGGGAGCATTGGAAGAAGTTTTAGAGGTGAATTTCAGCGTTT GCAACTATTCCCTAGAATATGTGAAGAGAAACCAGTCTTAGCAAATCAGTTTTCTGTAAGTTGCATTCATTTTATCTGAT CAGAAACATTCCTTGTTGCTATCTCTTTTAAGTTTAAAGCTCAAAATTCAAACTGCTGATACTGGATTTTACATGTCACT ATAACTCGATGATGCTTATTTAATAAGGAAAGACAAAAATGTTATAGGCTATTTACAACATAAAGTTAGACTCAAGTTTC ATGATTAGCCTTTCTTGAAGTTCCAGTATCTATTACAATTTTACTTCAGGTCCATTGTAGTTTGTTAAATGAAAAAAGAC ATTCAGAATCTGATAGGAACCCAATTATTAGGAATAGGCCCAATACTACTAGAGTCTATGAAAGTAAGAGGAAGAGGTGC AATGCACCAAATCTTTTCCCTTGAGAGGAGTAACCGCTTGCTGAGGTGGCATGAGCTGTGCAGGTAGAGAGAGAGAGAGA GATTGGGGATTATATAAGCATGTATTGTGTGAGAGAGAAGGTAGGCTTGATTTGGGATTAGGCTTGGGAGAGTAGAGGCA CTCTCGAATTGCCTCAGTTTCTTATCTTTAATTTTCTACTGTTATTTGTAATTCCCTAAAACACTGCTTCTGGGTATTTT CCAGAGGATTCAGTGTTCATCTATCCTATTTTCACTCTTAGTCATTGTGCTATTTTCTGGTTCCTAACAGAATCAGATAT ATTTTCTTTATTTCATACTACTTAATATAACCTTTTTTAACATGAAAAAGACTACTCTCTCAGGTTTTCATTTCTCGTCC AAGTGGTGAAAAATATTCAAGTGTGCTATGTCCAGGAAAGCCAGATATATCAAAGTAAACCTTTTATAGGTGGCCTTGTA ATTTTACAGTTACTAGTTTATCATTTCCAATTCCAGATTCAAATTATTTGAATTTAACTTAAAATATTATGCATGAATTA GAGAAACTCCAGTGTCAGGGATTGAATCATGGGACTGGAATATGAAAGGAAACAGTTCCATGTATCATGCATTATACCCA AGAGCTTGGACTGTATATGAGGGTAAGTTATGCTAGTTGGCGTACTTTCAAGTCCATTATTCTATCTCTTACATTGATCA TTTCTTGTGTTCAAATGCAGAACCTGACCCAGCATTGAGAATAGTTTGTCGTCAGATTTCACCTGTTATACCCCATAATT ACAAGGAGAGTAGCTTTCCTGTATCAGTTTTCACTTACATGGTAAACAAGGATCGATTCAATATAATTTTAGGTTAGATT TTTATAGATATAAAGTTGATATTAAGAAGTCAGTTTTATTTTATGCAGCTGAATAATTTTGGTAAGACAACAGCAGATGT CACTTTGCTTTTCACATGGGCTGTGAGTGATACTTCTTTGTTGGCTGTTACCATTATTTTGAATACTTCATCTTTTTATT TGAGGTATTGAATGCAAACAATTTCTGTGTGCATTCAGAATTCTGTTGGAGGACTTTCTGAATTTACTGGTCATCACTTT AATTCAAAGATAAAGTAAGAAAATTGACAGTTGGTTTACCTTCTTTGTGATGACACGTTGATTTGATTGAACTTTCCCCC TCTCCCTTCCCCACAGCTTGCCTATAATTTATTCTAACATTCAAGATACATGTTATCTCCTGGTAGGGTGAATGATGGGG TGCATGGTGTGCTTCTACATCATAAGTAAGTCTAACTTGTTAATATCTTTTTGAACAAAGAATGAAAAGAAAAATAACTC TGGAATTTATAAATTAATTCATATATGCATGTACAGGACTGCTAATGATCGATCTCCAGTCACATTTGCAATTGCTGCAG AAGAGACTGAATATGTTCATATCTCAGAATGCCCTGTCTTTGTTATATCTGGTGCTTACAAGGGTATCTCGGCTAAGGAC ATGTGGCATGAAGTGAAACAGGTTATGCCCCCTGCTTTCAGATTTTATACATTATTTCATTTAAATATCTTTATTTAATG TCTTGAGTTATTCATCCCTTCACGCTGTCTTCTCACAGATAAGCTAAGTCTAAGCATTTTGTAAATTATTACACATGTAC TTTGAGTTTCCATTATTTCCTTTTCCTTTTCATTTTGGTGTCTGAGTTTCATGTTATCAATCATGACAACTATTAATACT TGAGTCTCTTGAACATCACTTTTTCAGGAAAGAATCACACCTCTTGAACCTATTTTTGATTTCCCATGCCTCTTGTTAAT CTTAGGGATGATTTGGTCATTGCAAATCTGGATTTTCATTGTTGCAACTTATATAGAAATCATACTTTCTAATCATAAGA TAAAGTAAAACTCGTTTTTGCATTATGAGTGATCTTAGGTCAAGCATCCATGTAGGCTGAAATATCACCATTTTCTAGCA GATTTTGTTATAGAAACTCAACATCTTAATTGGCTCCTCAAGGATGGACCGGCTACAGATCTATCTGAAGTTTAAAATTG TCATGAATGTAACTTCTAAGTTATGGTTTAATCTTCAGCAGTGAATGTGTTGAGATAGGAATGGCTGAGCTGATTAAATG AAGATAATGCTGATGCAGATACAAATTCTCTTTTCAGCGTAGCTTGTTCTTTTCCTGTATTTGGATTGAGACTAGGATTT ATACATGTGTGTGTGTGTGTGTGTGAGTGTGTGTCTTCTTTGTTCCCATAAGGAACATTGTAATGATGAAACTCAAGAAA AAAAATTCTGGTTGGTGACATAATGACGCTCATTATCTTCCCTTGATGAAAGTAAAGTTGCCATTGTATATTTATTTTAA ATTGATGCAAGTTAGAGAGTATTAAACTTCCTGCCATCCATAAGCTTGCTATTCCATATTTCACTAAACTGAACTGTGGT ACACTCTCTTTTCAGCATGGTTCATTTGACCATCTGAATTTTACTGAAACACCTGTGCCTTCAGAACCAGGATCAGCCAT TGGAGCAGCTATTGCAGCAACTGTGACTATCCCTTCTGATTCTCAGCGTACTGTGACGTTTTCATTGTCATGGGACTGCC CTGAAGTCAAGTTCCCTGGAGGGCGGATTTATTACAGGTTCGTGGTAGAAAATCTGTATAAGAAGATTTCCTATTTCAAA ACTACACATAACTAATGAAACTTGTTTAGCAGGCGGTACACTAAATTCTATGGTACTAATGGAGATGCTGCTGCACATAT TGCACATGATGCTATTACTGGTAATATTCTTTTAAATTAACTTTTGCATCTGTAAGGTGGGTATTGCATCTAAATTTGAT AGCAAGCATAGGAGCCAGACTATGGATATAGTTTTTGTTTTGTCAATTTTAGCCAAGGTTCCCCACCTTATTGATAAAAT CATGCACAGGCATACCTTATTTGTGATTGTTAATACCACTAATAAATTACTTATTCAAACTTGTATGAATTGGTGATGTA GAACATTGTAAGTGGGAGTCCCAGATTGAAGATTGGCAAAGACCAATCCTTGAAGACAAGAGACTTCCTGAATGGTAACT GTCAGTTTTTAATTCACAGTGTGCTCTTAGAGCCAAAACCTGAGGCTTTTAGAGTACCGTGCAGGTACCCCACTACTCTT TTCAATGAACTATACTATCTGAATTCCGGGGGATCAATTTGGACAGGTATTTTTAGCTCTTAAATTTTGGGATCCTATTT ATCAAAGAATTTTCCTAAAGTTTATTTTCCTTTAAAAATCCTCCAAACCTCGCATACATGATAGTATGTGACTCTTGTCA ATTTGTCATACTTGTTTTTCCCCTTTGCAGACGGTTCACCTCCAGTGCCTAGTTTAGTTAACATAGGAGAAAGTAAATTT TCCCTGGATGGGTTCATATCTGATTTAGAGAACAAAAGTAATATATCACATCAAAATGATACTGCTATGAACATTCTTGA AAGATTTAGCTCAGCCGTCGGGAAAATACACACTCCACAGGCATCAAAGTCTGCATATGGAGTTAGTTTGCTCCAAGAAG GGGAGGAAAACATTGGTCAGTTTCTTTATCTTGAAGGCATTGAGTATCAAATGTGGAATACCTACGATGTCCACTTTTAC TCCTCTTTTTCACTAGTCATGCTGTTCCCAAAGCTTGAACTCAGTATCCAAAGAGACTTTGCTGCAGCAGTACTGATGCA TGATCCTGGAAAGATGAAACTTCTAGAAGATGGTCAATGGGTACCGAGAAAGGTTCTCGGTGCTGTTCCTCATGATATTG GAATCAATGACCCGTGGTTTGAAGTAAATGGCTATAATCTTTATAATACAGATAGATGGAAAGACTTGAATCCAAAATTT GTTCTCCAGATTTACAGGGATGTGGTTGCCACTGGTGACAAGAAGTTTGCACAAGCTGTTTGGCCCTCAGTTTATATTGC AATTGCTTATATGGACCAATTTGACAAGGATGGTGATGGAATGATTGAGAATGAAGGCTTCCCTGATCAAACTTATGACA CATGGTCTGTGTCCGGTGTGAGTGCGTATAGTGGTGGATTGTGGGTAGCAGCGCTTCAGGCAGCATCAGCCCTGGCACAT GAAGTTGGTGACAAGGGTTCTGAAGAATATTTTTGGCTGAAGTTTCAAAAAGCGAAGGCTGCATATGAGAAATTATGGAA TGGTTCTTACTTCAATTATGATAGCAGTGGTGGAAGTTCGAGTTCTTCCATTCAAGCCGATCAATTAGCTGGACAATGGT ATGTTTTTTTGTCTTTTGAAAACTATTTTGTATCTGTATTCCTTATTTACTTCGGTAGCTCTATGGAATGGCTGACACTG TCCTACTATTATTGTGCACTGATCCATTAATACATGAGTTAGAGTACACTGCTGAATTTTATGTATGCATTTTCACTGTG TGACATGGTTTTCAATATAATTTTATCGCTCTAGATAGCTTTGATGGCCAAGAAAATGAATGTGGTCCGTTTGTTTAATG CATGAGGACTCATTCAGGTGAAACAAGTTATTAACTGTTATGTGCATATATGTTGTGATTACTTGTTAAATCCTTTAATG CGCCCCAGTTAGAAGAGCTTATTAGATGTTGGACAGTACATAATTAAAGGGAGAGGAAGACCAAAAAACTCAGTGAAACC ATCAAAAGTATTTAGACCTAAATGGGCTCTCTGCAAAATTTGCTTTAGAAATAGCACACAGGCAGCATTTGATCCATGTA TTCAATCCATCGTGATAAAGCTTTGGCTGTTGTATATAAACATGGATTCTGAAGTTAAAGCCTTATCAGAAGAAACTGCA AGCATCTAAACACAATGCTGTAGAGTTTATTCTAAATACAATTTGAATTTTGATCTATGGTCAATTTTGGCCGATGTACC CTTACTCATGGTAATATTTAAAATAGAATTGAAACTTCCTATTTCTTGTTTTGCAGGTATGCTAGAGCATGTGGTCTTTT TCCAATTGTTGAAGAAAAGAAAGCTAGAAGTGCACTTCAAATGGTTTATAATTACAATGTTATGAAAGTAAAGGATGGGA GGCGTGGAGCTGTAAATGGGATGTTACCTGATGGAAAAGTTGACAAGTCAACAATGCAATCACGAGAAATATGGTCAGGA GTCACATATGCCTTAGCTGCAACGATGATCCAAGAAAACATGATTGATATGGCATTTCAAACTGCTGGTGGAATATATGA AGCTGCATGGTCCGACGATGGACTCGGGTATAGTATATTGTCCTCTTGATGGTACTTGTGGACTGAATTTGATAACAAGT TGCTTTAACTACTGAAACAGAATCTTTAAGAGTGAATTTGTCTGACAAGATAAAAGTTATCATTTTATTTTTTTTCTTTT CCCAACAAGTTTCTTGCATGTGTTACTAATTTTTAGCTTGTCCTGTTACCTGCCTTGAACTCCTAACCTATGTTTGATGG AAAAAATATTACAGATTCAATTTCTTTCCTTTAATTACTTCAATACTGATTGAATATTGATTCTTACATTCTTCCATGGA AGATCCGTATCTAAAGAACAATCTCATTACTACAATTTTAGCTGCAAGCTAATCTAGTAGAAATTAGCCTGTTCGGTTAT AACATGAAACTGATTTTCTGGTTTTGAAGTTGTAAAAAACAGAAAGTGTGAAAGCTTGTTAAGCAACAAGACCTTTTGCA GCTGCTTTTCTGTCTTTCCTTACCATAACTCTTTAGATGATTTTTTTTTTCATAAGAAAAATGATATATATACACTTGAA AAATATTGAAAAGTACAAAACCCCAACAAGTCGCAAATATATACTGTATATTGGACCAAAAAAGTCCCGAAAAAGCCCAT GAAACACCTACTCTTTAGGTGATTTTTATCTGGGCAATTTCATTATTTCTAATTTATCTTTAAGTTCTCTTTGAAAAATA TCAAATTCACTAATACTAATAATGGTATATTTGCAACTTGTGCCCAAATTCTTGTTTGACATATAGTTGTACTTGTAAGA ACCATGAAAGATAGGCCATTATGATTATTAGACATAACTTAGTAATGCCTTTTAGGTCATGGTTGCTTTGTGACAAATTA TCACTTGAATGAAGTCTGGTCATATTTTCATTTACTCTTTACAATAACTAATTAAGTTTCTTTTATTTGATCAACAGCTA TTCTTTTCAAACTCCTGAAGCATGGAACACTGATGATGAATACAGATCTTTATGTTACATGCGCCCTTTAGCCATATGGG CAATGCAGTGGGCATTATCAAGAGCAAAGCACACTCAGAATGAGAGTAAATCTGATATAAAGGAAGATGATAATTTGTCT AAATATCATGCTGGTTTTCTGAAAGTTGCTCACCTTTTAAAGGTGAAGGAAGAGAAAGCATCTAGAAGTCTATTTCAGGT TATATATGATTTTACTTGCAAGAGGATGATATGACTAGAATGTCTGTTTGTTTGATGAACTTACCATCTTTCAGTAAGAA ATTGTTTCAGTTTCAGTAAATTATATAACTAAGGTTTTATTGTAATAAAATCATTACATGGAAAAATTCCTGCGTCTTTC AATAATCATGTGAGGGGAGAGTATCTAGTGAGGGAGAAGGGGAAGACAGAGGACATGATGTCACTCTGTTTTCAATCAAT TGAGTTGTTTCCGTTCTAATTTTTTCTGAAGCTGTTCTTTGGCTCGAAAATTTTCGTTTTTTTTTTTGAAACTGGATGAA TATATTAAAAATCAAGAAACCAGAGGCCAGTACATCAGCTTGAATCAAGGATTCTACTTCCGGCGGAACCTCTTCAATCC AAACATAGTTGGGAAATTTTGAAGAGTTCTTGGCCAAGTAATCAGCCACAGAGTTGCCGGATCTACGCACAAACGATAAT TGAAAAAACCTAAAGGATGAGACTAAGTCTCTACAATCATTTAAAACTGAAAACAAATAAGAAGAACCATGTCTAGCCTT ATTCCAAGTCTCAAAAATTTGCAAATTATCTGTCTCACAACACACCTGTTGAAACCCAAGATCCTTAGCAAGGGATAGGG ACCAACGAAATGCCAAAGCTTCCGCAACTAGAGGAGAAATGGCCTCAACTGGATGAGCCATAGCTGCTGCCATGACTTGG GCATTCTCATCCCGTGCTATAAAACCAAGTCCAGCTCCCACAGTAAGCATCCAAGTGGCGTCGAAGTTGATCTTGAT

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0001000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTGGAAAATGGTTTTGTTGAAGACAACAACAGGACTGGCGAGCCTTCTGGGATCAAGGTTGACCCGGGCAAACCTGA CGCACTTACCTGGCAGCGGAAACTAAATAATGAAGGAAAGGCTCCACTAGAATTCACCTTATCTTTAAAAGATATAATTC ATCTGGCTCCAATCGGTTACCGGCTATGGCGCCATGTTCGGGAAGAAGCTGCCAAAGGAAGGGCGGGAATGATTGATCCC TTTGCTAAGCATCATGTAACATCTGGTCATGGTGTCCCTTTAGGTGGTATTGGTGCAGGGAGCATTGGAAGAAGTTTTAG AGGTGAATTTCAGCGTTTGCAACTATTCCCTAGAATATGTGAAGAGAAACCAGTCTTAGCAAATCAGTTTTCTGTTTTCA TTTCTCGTCCAAGTGGTGAAAAATATTCAAGTGTGCTATGTCCAGGAAAGCCAGATATATCAAAAGAAACTCCAGTGTCA GGGATTGAATCATGGGACTGGAATATGAAAGGAAACAGTTCCATGTATCATGCATTATACCCAAGAGCTTGGACTGTATA TGAGGAACCTGACCCAGCATTGAGAATAGTTTGTCGTCAGATTTCACCTGTTATACCCCATAATTACAAGGAGAGTAGCT TTCCTGTATCAGTTTTCACTTACATGCTGAATAATTTTGGTAAGACAACAGCAGATGTCACTTTGCTTTTCACATGGGCT AATTCTGTTGGAGGACTTTCTGAATTTACTGGTCATCACTTTAATTCAAAGATAAAGGTGAATGATGGGGTGCATGGTGT GCTTCTACATCATAAGACTGCTAATGATCGATCTCCAGTCACATTTGCAATTGCTGCAGAAGAGACTGAATATGTTCATA TCTCAGAATGCCCTGTCTTTGTTATATCTGGTGCTTACAAGGGTATCTCGGCTAAGGACATGTGGCATGAAGTGAAACAG CATGGTTCATTTGACCATCTGAATTTTACTGAAACACCTGTGCCTTCAGAACCAGGATCAGCCATTGGAGCAGCTATTGC AGCAACTGTGACTATCCCTTCTGATTCTCAGCGTACTGTGACGTTTTCATTGTCATGGGACTGCCCTGAAGTCAAGTTCC CTGGAGGGCGGATTTATTACAGGCGGTACACTAAATTCTATGGTACTAATGGAGATGCTGCTGCACATATTGCACATGAT GCTATTACTGAACATTGTAAGTGGGAGTCCCAGATTGAAGATTGGCAAAGACCAATCCTTGAAGACAAGAGACTTCCTGA ATGGTACCCCACTACTCTTTTCAATGAACTATACTATCTGAATTCCGGGGGATCAATTTGGACAGACGGTTCACCTCCAG TGCCTAGTTTAGTTAACATAGGAGAAAGTAAATTTTCCCTGGATGGGTTCATATCTGATTTAGAGAACAAAAGTAATATA TCACATCAAAATGATACTGCTATGAACATTCTTGAAAGATTTAGCTCAGCCGTCGGGAAAATACACACTCCACAGGCATC AAAGTCTGCATATGGAGTTAGTTTGCTCCAAGAAGGGGAGGAAAACATTGGTCAGTTTCTTTATCTTGAAGGCATTGAGT ATCAAATGTGGAATACCTACGATGTCCACTTTTACTCCTCTTTTTCACTAGTCATGCTGTTCCCAAAGCTTGAACTCAGT ATCCAAAGAGACTTTGCTGCAGCAGTACTGATGCATGATCCTGGAAAGATGAAACTTCTAGAAGATGGTCAATGGGTACC GAGAAAGGTTCTCGGTGCTGTTCCTCATGATATTGGAATCAATGACCCGTGGTTTGAAGTAAATGGCTATAATCTTTATA ATACAGATAGATGGAAAGACTTGAATCCAAAATTTGTTCTCCAGATTTACAGGGATGTGGTTGCCACTGGTGACAAGAAG TTTGCACAAGCTGTTTGGCCCTCAGTTTATATTGCAATTGCTTATATGGACCAATTTGACAAGGATGGTGATGGAATGAT TGAGAATGAAGGCTTCCCTGATCAAACTTATGACACATGGTCTGTGTCCGGTGTGAGTGCGTATAGTGGTGGATTGTGGG TAGCAGCGCTTCAGGCAGCATCAGCCCTGGCACATGAAGTTGGTGACAAGGGTTCTGAAGAATATTTTTGGCTGAAGTTT CAAAAAGCGAAGGCTGCATATGAGAAATTATGGAATGGTTCTTACTTCAATTATGATAGCAGTGGTGGAAGTTCGAGTTC TTCCATTCAAGCCGATCAATTAGCTGGACAATGGTATGCTAGAGCATGTGGTCTTTTTCCAATTGTTGAAGAAAAGAAAG CTAGAAGTGCACTTCAAATGGTTTATAATTACAATGTTATGAAAGTAAAGGATGGGAGGCGTGGAGCTGTAAATGGGATG TTACCTGATGGAAAAGTTGACAAGTCAACAATGCAATCACGAGAAATATGGTCAGGAGTCACATATGCCTTAGCTGCAAC GATGATCCAAGAAAACATGATTGATATGGCATTTCAAACTGCTGGTGGAATATATGAAGCTGCATGGTCCGACGATGGAC TCGGCTATTCTTTTCAAACTCCTGAAGCATGGAACACTGATGATGAATACAGATCTTTATGTTACATGCGCCCTTTAGCC ATATGGGCAATGCAGTGGGCATTATCAAGAGCAAAGCACACTCAGAATGAGAGTAAATCTGATATAAAGGAAGATGATAA TTTGTCTAAATATCATGCTGGTTTTCTGAAAGTTGCTCACCTTTTAAAGGTGAAGGAAGAGAAAGCATCTAGAAGTCTAT TTCAGGTTATATATGATTTTACTTGCAAGAGGATGATATGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0001000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVENGFVEDNNRTGEPSGIKVDPGKPDALTWQRKLNNEGKAPLEFTLSLKDIIHLAPIGYRLWRHVREEAAKGRAGMIDP FAKHHVTSGHGVPLGGIGAGSIGRSFRGEFQRLQLFPRICEEKPVLANQFSVFISRPSGEKYSSVLCPGKPDISKETPVS GIESWDWNMKGNSSMYHALYPRAWTVYEEPDPALRIVCRQISPVIPHNYKESSFPVSVFTYMLNNFGKTTADVTLLFTWA NSVGGLSEFTGHHFNSKIKVNDGVHGVLLHHKTANDRSPVTFAIAAEETEYVHISECPVFVISGAYKGISAKDMWHEVKQ HGSFDHLNFTETPVPSEPGSAIGAAIAATVTIPSDSQRTVTFSLSWDCPEVKFPGGRIYYRRYTKFYGTNGDAAAHIAHD AITEHCKWESQIEDWQRPILEDKRLPEWYPTTLFNELYYLNSGGSIWTDGSPPVPSLVNIGESKFSLDGFISDLENKSNI SHQNDTAMNILERFSSAVGKIHTPQASKSAYGVSLLQEGEENIGQFLYLEGIEYQMWNTYDVHFYSSFSLVMLFPKLELS IQRDFAAAVLMHDPGKMKLLEDGQWVPRKVLGAVPHDIGINDPWFEVNGYNLYNTDRWKDLNPKFVLQIYRDVVATGDKK FAQAVWPSVYIAIAYMDQFDKDGDGMIENEGFPDQTYDTWSVSGVSAYSGGLWVAALQAASALAHEVGDKGSEEYFWLKF QKAKAAYEKLWNGSYFNYDSSGGSSSSSIQADQLAGQWYARACGLFPIVEEKKARSALQMVYNYNVMKVKDGRRGAVNGM LPDGKVDKSTMQSREIWSGVTYALAATMIQENMIDMAFQTAGGIYEAAWSDDGLGYSFQTPEAWNTDDEYRSLCYMRPLA IWAMQWALSRAKHTQNESKSDIKEDDNLSKYHAGFLKVAHLLKVKEEKASRSLFQVIYDFTCKRMI

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 View details on PTHR12654 Search for proteins/transripts with this domain View external data on PTHR12654	1	945	945	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	25	25	-	–
PANTHER	PTHR12654:SF3 View details on PTHR12654:SF3 Search for proteins/transripts with this domain View external data on PTHR12654:SF3	1	945	945	0.0	–
PIRSF	PIRSF028944 View details on PIRSF028944 Search for proteins/transripts with this domain View external data on PIRSF028944	25	894	870	3.6E-297	IPR014551 Show description in modal box View details on IPR014551 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF12215 View details on PF12215 Search for proteins/transripts with this domain View external data on PF12215	91	408	318	2.1E-105	IPR024462 Show description in modal box View details on IPR024462 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF04685 View details on PF04685 Search for proteins/transripts with this domain View external data on PF04685	524	884	361	1.4E-157	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	534	889	356	4.12E-40	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	577	881	305	1.2E-19	IPR012341 Show description in modal box View details on IPR012341 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: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 LotjaGi4g1v0001000.1, 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…

LotjaGi4g1v0001000.1