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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0163400 |
| Transcript ID | LotjaGi5g1v0163400.5 |
| Related isoforms 9 | |
| 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..41895634) extracted from Lotus japonicus Gifu genome v1.2.
ATGGGGTACTCTCTACAATGTGTTTTTCTTGCTTATTATGTTGATTTATTGTTTATATACTTATGCAGGAGTGGCAGCAT ATCAAGAGGATTTAGAGGTGAGTTTAGACAATGGCAAATTATTCCTGGCTTATGTGAACCGTCACCTGTCATGGCCAACC AGTTCTCTGTAAGACCTGTTTTTCCATTCTTCTCTAATTGGGTGGCTTTAAATATGCTTGTTTTTTGTTAAGATTCATAC CTGTATTTATGTGGATTTATTTCCCTTCTCGTGTTATTAAATTTTTACTGATTTGTTCAGCATGTAGCGTCAGACACGTA TAATCATATGCATGTATGTATACGTGATGTAATTATTATTTAGTGCCATTGTAGCTAGCTATTAACCTTTGCCCATCAGC CACCTAAAGAAGGAAAAAGCTCCATGAAACATGAAAATCCTCTCTAGTATAATTATTTATACCCCTAAAAAATATCCATT AAATTTTTAGGATAAGGCTTGGTTTGTTGTTGGGATGAAATATGAAATTAGTAAGCCAATATTGTACGTTGATAAGTTTT CTTCAGAATGTAATTGTAATGTCCAAGAACCTGCAATTATAATAAGTGGAAGTTATGATGATAATTTGAAGCATAAAAAA ATTTATCATGTAAAAAGGGTTAAGAATCTCATCATGACTTGCAGTGACAAATCATAAAATTAGACAGCCAACGTGAGGGG AGTCAGAGTGCAGTTATGCAAAAAAGCAATAGAAATAGAAGTCTGTTAATCATGCTGTCCAGAAAAGAAGAGAACAGAAA TACTGAACCTAGTTTCTATTTTCACTTTTAATTAAAAAAAAGAAGTTTCTAGTTTCACTTGTTATTACTTTGCGTACATA AGGTTGTTGCCCTCGTACCTGTGATTATGTTTACTGTTTATGGCCATTTTGATCTGCAGCTTATATTTGGAATATCTGGT TATTTACTTTCATTGCAGATTTTTATAAATAGAGAGGGAGGAAACAAAAGTTTTGCATCAGTTTTGGCTCCTGGACAGCA TGAAGGTTTAGTAGGGTAAGGAAGAATATGGTGAAAAACAATCTTACTCAACTTAAAGTGCCTCTTTCGTTAAAGTGACC TTTTTATTTGTTATTTCCAATTATCACTAAAAATTAAAAAACCATTGGATTACTTTTACTTAGGGGATAATGGATGATAA GTTAATATCTGTCATTTCCACCCAACGTTCTCTTATTTGACAGTTGAAATTTCATGCAGTCCTATGATCCTTCCATTGAC CTTTTTAATGCTTAAGTGAAGTTCTGGCTTATATTTGTAAATGACGGAACTAAAATTTTGTGGAAGATTTTCATCTTCAT TTTGGAGGGAAGTTATAGATGATGGAAATAATTTACAGGCATGGCAGAATGTGTGTGTGGCTTATAAGAACCAAGTATGG GCACTACAACATTCTAGAAAGCTTTGACTAATAATTTGCTGTGTGCTGCTGTCCATTTAACACCCATGTGGACATCGACA GAAGCAACCATATGGCTATAGCGAGTTAGCACTTTGTTGTCTGTCTGGCAATGAATATAATCTGAAATCTGCTTATCAAG GCTATTTAGTACCTTTGAGTGCTTCTCATATATCAAGATACTTATATACATTGACCTCATATGTTTCATGTTAATTTTTC CAGGTCTAGCAAGAAAGCTGATGATCAGGGCATATCATCATGGGGATGGAATCTAAATGGCCAGCATTCAACTTACCATG CTTTGTTTCCAAGAGCTTGGACAATATATGATGGTATCTCCATTTATTTAAGTTCTTCCATTGCTAAATCTGTATGATCC TCGTGAATTCTTGTTTAATAGCTATTTTCTTATTCTTAGGCGAGCCAGATCCAGAACTAAAAATATCATGCCGGCAGATA TCCCCTTTCATACCACATAATTATAAAGAAAGCAGTCTACCTGCTGCTGTTTTTGTCTATACGGTGTGTAATTTTCTTCA ACTATTGTTAATTAAATTTATCTGTCAAAAAGGCAATGGCTGACTTCCTTAGTATTGTAAGCTGGTTTTTAACCTGTTTA TTGTTATACTTTATTATACTAAATACTGGCTAGTTGCTGCAGCCTAGCTTTCTTAGTTGATAACAGTAATAAGAGGTTTC TCTCAGTTTATGTCGAAGTAGCGTAGAATCTGGTATACTGTCGTCTTGTATGAAATTATAATTCACTAAGATGTCTGGTC CCCTTATGAAAAACATGTGGATAAGACTGTTTGATTGCCGCAAATCAGCTGCCTCGGTTTGACCCTTCTGGGATGTTGTT GTGCAAATCCTTTTTCTACTTTCTAGCCTATTTGGTGAAAGCCATGGTTTAAGTTTTTTATTTGGACTACCTTGCTTAAT AGAATTCATGCAAATGACATAATTGCTGATTCATAGGTTACATCAGCCTCTTTCCCTTGTTATTTGTGTTATGTATGGTC ATTATTGAGAACCAGTTCCCGTTGTCCAGCATTTTGGTGAATGCATGGGGTTATAATTCAGTGATTTACAACACAGATAT ATCATGAGTTAGATTTTAACCAATAATGAGTTATACAAGTTATTGCCCATTATATATATGTACTGATTAGCTGTTCTTGT AATTAATACTCTACAGCAACAATAACCAAAGCCTTTTCCACTAGGTTTGTATCTCTATTTAATTACTGTATAAAAAGCTA GTTTTACCTGAAGTCTTCATCTACTTCAATATGGCATCAAAGGAGTATCATCATTCATGACTTAGTGTGTTTTGGTTCTA ACTTTGGGAGTAGAGTCAATTCTCATTGACCAAAATCAGTTTTAGGTGATTATATAGATGTTTGGTATCGACTTAGAGAA TCGATTTTACTCCCAAAATATATAGATGTTTGGCATCGACTTAGAGAATCGATTTTACTCCCAAAATGAATTTTGTGGAA AAGCTAGAGAGGGTAGCTTCTAAGTGGACATAATTAATTGTTGGATTTCATAACTGTATTTTGTTACACTACCCTATAGA AATCAGTTTTCCAATAAACGTATCTAAACACCAATCACTTCACTTTCAACTCACTTTTGAGCTCACTACCAAAATCAATC CTATCCAGAATCAATTCTGACAATGCTGATGCAAAGTACAAACATGCAGTTAATCTATTTCGTTGCTATGTTCCCAATAT ACGGAACCCTTTGTTTGGTGTAACTACATAACCTGTGTCAAAGCATGGATCTCCCCCCTGAAATCCATAACCATAGAGAG CTCATTGGAATGTCCTTGCTAGTGAGCAAGGTTTTCACCTTCCTTTACAGAGAGAGATCACCATCTAATTGATGGAGCTT GGACCTAGAGACAAGTTCACCATTTGTGTCATTGGCATCAACTCAGCTGGTGGACTCACTGGCATTGAAACAGGCACTGG AGAAGAAATGAATGATATCGTTGCCTATCTCAAAGGAGACCCATCATAATAGTCTGATGAGTTGGTGCTTTGGGAGCTTG CTAGGCATGAGTTAGAGCTACTTTAGTGTGGACGAAGAAGTACACTTGCTGCTACTAACTGATCCCGTCCTTGAAGGGCT GAGTGCTTGAGTCAGGCAGTGCTCAAGGTGGAGTTAGCACTCAAACATGCCATGTTTGAATTTCTAATAGTCTCCCTTCT TGAAATTCCCCTTGTGGAAATGGGGATTGGGGTAGGCCACGGCTTTGTATTTTAACGTCCTTGGTTCCGCCAGGGATCCT TCCCTTGGGGTAAACGTACAGAGATAGGGTATAACAAAAGTACAAAACCAACTCATTGCGCGGATGGCCACACATCCTCT ATCTACTTTTTGAAAGATTTCCTATTAAAAATAATAATAACAAAAACTATTTTCAACTGGAAGTATAGCCTTTTTTTATG GATTCAAATTCAAAAGAGGAAGTGGTCCTTAGATTCATGTCTAAGTCAGGAAGCACCTGCTATATTTTTTTTTATGCGGG GCAGAGTGAAACAACTAGGCTTTCTAAAAGGTATCAAGATAAGGACTATTGGACTCCTGCCCAAACTCTTTGTGAATGAA TTCCTCCATCTGAACTCTAACTAATGGTGCTTCTTCTTCCACGATTAACTGTGCAAACATGTAGCTGCGATAACCCTTTG ACATCTGCAACAATTGCTGACGTCCTGACATGTTCCCTGATCAGCTCTCCCTAGCAGGCCACCGTGCCTTGCTATGCTTA TTTAAGTGTTAGAAATACTATTAATGCTCTCATTGTTTTACATTTTTCACATCCGTAAGCAGGTTGTGTTCTGAAGTGTT CACTGCCTTTTGGTATTCTTGTTTTGATCATTTGGATTGAGGTTGACGTTGGGGGGTTGATGAGGGGCAAGGAAATTTGC GAAATCGTTTCTTTCTTGTTTTCTCTGTTGATAAACCTACAACTAGTCAGCTACTTCTCTATGAAATAAGAATATAGAAT TGTTTGTTTTATTACATTTTCTATTCAAAGTCAGTGAAATATTTGGTATTACTCTGAATTTTCTGCATTCTACATTCTTT TCATATTATCTGTTACATTATGCATTTTGTCTTTTGATATGAAGGAACATGTATTTTCATGATTTTTGAAGAGCTTACTT GTTTCTTTGGTAGTTGGTAAACACTGGCAAGGAAAGAGCTAAAGTCAGCCTTCTATTTACTTGGGCGGTAAGATATTATT TTAATCTGAAGATTTGTTTTAAATTTTCACAACATTTATTTTTTGACGGTTTGAGGAGGGGGAGGGGTGTTACAATGACT AAGCCATGGATAAATAATCATCCATATTAATTTTCTGCAGAATTCCATCGGTGGAAACTCACACTTGTCAGGAGATCATG TGAATGAACCTTTCATGTTAGTATTTCTTCTAATCTGATATATGAATGCTTTGTATATAGAGCAAGCTTTACCAACATTT TAACACTATTTTTCATTCACAGAGCTGAAGATGGAGTCTCCGGTGTACTTCTATATCACAAGCAAGTTATCAAACTTTAT AGCTATATATGACGGTTGGTTTGCAGATTTCTCTTTATAGTTTATATGCAACTGCTTAATAAGTCAATTACTTGGGTCCC GTTTGGGAAAACAGCTTAATTAAGCGCTTATGACATGGGCGCTTATTCATAAGCTATTTTAAAAAAATTATTGAAATAAG TTGAAAATAAGCTATCTATAAGCATAAGCTCTTTTTCATAAGCTACATAAGCTATCTTAAGTAGCTTATGAAAATAAGCT CAAAACAGCTTATGGGTAGGCCATAAGCAGTTTGCATAAGCTTTCCCAAACACTAGCATAAGTGCTTATGCTATCAGATA AGCTCAAATAAGCTCTTCCAAACGGGGCCTTGAAGGTTCTGAAATTTCTAAGGAGCTCTTGCTTATTCTTGTTAATAAGC TGAGCCTGATCATGAATTTACATCTTCCCCGGAGTCCTACACTACTATTCATAAGTTATTGAAATAAGTTAATTTGAGAA GCTTATTGAGATAAGCTCAAAATATGTTATAAGTATGTATAAGCGTTTATTCATTAGCTGATATGAGCAACTTATGAAAA TAAGCTAAAAAAAGTTAATAGGTAGGTCATAAGCTATTTACATAAGCTCTTACAAACACTTGCATTGAGGTTTATGCTAT AATATGAACTCAAATAAGGTCTTCCAAATGGGCCCTATCTCCCTATCAAGTATTCATGATTTTGGAAAGCAAGGATAAAA AAGCTCTGCGATGCTTTTTTTGCTGTCTTTGTTTGGAATGTCATCCCAGATCGCTTAAACAACATTTTTAGCCATTATAT CTCCTGTCAAACAAATCTCATTTTTCTTTTTGGTTCCCAAGTTAATGGTTCTGTGCTTTGTCCCCAACTATTTGAGGTTG TTGGGAATTTTTACCTGTTTCATGAAGGAATTGGGCTTCTCATTGGAGCTGATGTAATCCCTTTCTTGCTTCTGTCATTT GATGATTTTGCTGGATGTGTATCCTCACACTTATTCTTTTCTCTAATAGAATCTACTTTTTTTCATAAAAATATAAGACA TCAGGTGATATCTCCCTTGGAAAAATGGCACTTGAGCTTCTTTCTTCATGTGGAAACTTCTGATCAAATAGGAAAATATC ATATATCATATTGTTATAAAAAAATTAGAGAAAATGCAACTGAGGGAACTGGGATTCATAAGATATCTCCAAAATAGATG CGGATAAAAACAATATTTTTCTGAAATTGATTGTTTAGTCTGGGTTATCCTTTTGGTTTGGGATTTTTAAATGAACTTGT TACTCGTAAAAACAAATTAAGGAAATTCAATCTTTAGGGCTATCGTCTTTTTTTTTATGCATGTGCACATTCATGTGAAT TGGGTACATACTGCTACGTAAATGATGAATCTGGTGGGTATATTCTTAAAGTCATTCCGATATTGCAGAACAGGAAAATG CAACCCTCCTGTTACTTTTGCCATAGCTGCATGCGAGACACAGAATGTTAGTGTTTCTGTTTTGCCTAGTTTTGGGCTGT CTGAAGGAAGTAGCGTAACAGCAAAAGGAATGTGGAGTAAAATGGTGAAGGTACTAATCACGTGTGTTTTTGGAGTTTCT AAATGATATTTATAGTTCGCCCATCACCACTACCTTCTTCCAACTATTTTTAGTATGGAAAGGATACAGGATTGGTTCTA ATTGAAATGTTGTAATTTAAGGATGGGCATTTTGACCGGGAAAATTTCTCTTCTGGACCTAGTATTCCCTCATCACCTGG AGAGACACTATGTGCTGCTGTTTCTGCTTCCACTTGGGTAGAACCCCATGGAAAATGCACTGTTGCATTTAGTCTTGCAT GGACATCTCCAAAAGTGAAGTTTGTAAAAGGAAGTTCTTTCCAAAGGTAATCAATGTTATTTGAGAATATTTTGGTTAGT ATTAATTTATCCTTGAACAGCTTCTTTTCTATATCTTAAATAAAGAATAGTTGTGTGCTTTTTACCTGCATGTGGTTCAA AATATGGTTTAATCACTTTCTCTGAAATAGGTTGGGCTGCATTTTGGTTTAGGAAAATGACTAAGATAGTTTTATTTTGT TAGTAGAGCAGCTGGGCCTTTGAGTTGCTGAGCTTAGAGGAAAATTTTAAAATCTGTACCGATTTAAAGAGTGCATACAA GATTTAAGCATGTGAAGTTATCTTATGTAATTACTAATTAGTAAGAGTCCATTGTCTCCTTGTACGTCATTTTTGAATCG TCAATGGTGGTTGCTTTAATGGCATATCATCCAATTGAACATGGAACGAGTCTTCCTGTACTTTAGAGGCATATGTCATA TATGGAACAAATTACCATTGTAAGCTACTAAGCTCTTAATATTATGTTCTTAGTTACTGCATCTATGAAGTTTTTCTTGC TCTCCTCTTAAATACCTCTATATAATTATCTTGTGTTATGCTGCACTATGTGATCCTAGTAAAATGTCGTTATCCTAAAT AAAGCTTTGTTAACTCTTCAAATTAATAGCATCACTCATTTTTCCATTTTTGAACTGATGAGCTTTTTAATGCCCCTCAT ATGTTTCTGGGCGAGAGAGATTTGTGCCTTTGTGGAATTTTTCTAGAAAATAACAAAAATATTTCCTTTTTGTTGTAAGG TTGCAAGACATGCAGGATACTGGCAATCTATGAATTATTCTGTATGATTATGTTCTGATAAGTTAAACTCGCTCAATTAT TTTACTGCAGGAGATATACAAAATTTTATGGGACTTCTGATAGAGCTGCAGTGGACTTGGCCCATGATGCATTGACACGT AAGTTGTTGGTTTCGATTGAAATTGATATTCTTCAGGCCAGTTTTTTTTTTTTTTTTTTTTTTCCCGCTTTGCAGTTATA TTATGTCACATTTCAAACGTAAAAGATTCTAATGTTTCTCAAGTGATCCGAGACTTTCATTTGTAGCATATAACACCATG AGGTTCTGAATTTTATGCAGATTACAAACGATGGGAAGAAGAGATTGAGAAATGGCAGGGTCCTGTTCTTAAGGATGAGA CAATACCTGAGTGGTAATTTCCCTTTTAACTATCAATGTACATTATATTATATGTGTGAGTGTGTGTGTGTGTTTCACCG TGTGTTTTTGAGTTATGGGTCATTGCTAATGCTAGTTACTCAAAGCTTGAGGTCTATAGGTGTAGAGTACAAGACATATA GTAAAACTTGGTTTTTTCTAGCTGATGTATAGCTCTCTATTTTTTTGGCATAAATTGCATTTTGGACTGTTAAAAAGCAA AGATGCTTCGATATGTGTTTCAAACAATCATTCTCCTCCTTTGTTCCAAGAATGGGTTTATGGTCTTTCCTTCGGGTTAT TTGTCTGATCTCAAGACCCAGGCGCTGACTTTGTATAATTAAGCATGCATGCTTTTGTGTATTCTGTCCAATCTGTAGAA GATAGATCATTGAACAGTAACAGAAGCCTTTTTCCAACCAGGTGGAGTTCCTAAATCATTTTTTCAGTAAAAATAATCAT AAAGATCTAATGTTTTTAATGGCTTCTCTAGAGTTTTCCTTTGTCTTGCTCTACCTCTATTTATCAAGCTATCCTCTATC CACTCTTCTTGCTGTGCCTTTTATTGGGGGCTAGGTGAAGGTAGACAATGCACTTAAACTTTCTTTTTACAGGTACAAGT TTACATTGTTTAATGAACTCTACTTCCTTGTTGCTGGTGGAACGATTTGGATTGGTATGTATGAAAATAAGCTTATTGTA TTACAGTTTATTTTCAATGGGTGTCTGGTTTGTCATTGGAAGTTCCTAGTCAGTTTAGTCTTAATGAAATCATTACTGCC TTGATCTTTCTGCCAGACTCGCCATTGCAATCTCCGCTTGTGAGGAGTGACCGGGATCAGGTGAATGCGTTGCAAAATGC AGTTGTCAAAGTTACTGAAGCTAAAGTGGACTGCCGAACAAGGGAAGTTGTTGAGTGTACTACAGATAGTACCTATGATT CTACTACTTCTAGAGGGCATAATCATGTATATGAAAATCATTTTGTAGATGAGTCTCATGAAAATGAATCTGTGGATACT CTCAGAAGAGAAAACTCTATTGGCACTCACAATACCTCAACAATGATGGGCCAACAATATGATGATAATGATGTTGGAAG GTTCTTGTACTTGGAAGGAGTGGAATATATCATGTGGTGCACATATGATGTGCACTTTTATGCTTCATTTGCGCTTCTTG CACTCTTTCCTCGTATTGAATTAAATATACAGCGTGAGTTTGCTAAAGCTGTCTTGTGCGAGGACGGCAGAAGAGTTAAG TTTCTGGCAGAGGGAAACTGGGGGATTCGTAAGGTTTATGGGGCTGTGCCACATGATTTGGGTACACATGATCCGTGGTT TGAAATGAATGCTTACAACATTCATGATACTAGTAAATGGAAAGACCTGAACCCAAAATTTGTACTTCAGGTGTATCGAG ATTTTGCTGCAACAGGTGATTTGCAATTTGGAGTTGACGTGTGGCCTGCTGTTCGTGCTGCAATGGAGTACATGGATCAA TTTGATAGGGACGGCGATTGCCTTATTGAGAATGACGGGTTCCCTGATCAAACATACGATACATGGACGGTCCACGGTGT GAGTGCTTACTGTGGGTGTCTTTGGCTTGCTGCTCTTCAAGCTGCAGCTGCCATGGCCCTTGAACTAGGTGACAGAGATT TTGCGGAATCATGCAAGAGGAAGTTTATGAAGGCGAAGCCAGTTTTTGAAGAAAAACTGTGGAATGGTTCTTATTTTAAC TATGACAGTGGATCAAGTGGTAATAGTAAATCCATTCAAGCAGATCAATTGGCTGGGCAATGGTATACAGCTTCCTCAGG GCTTCCCTCCCTTTTTGATGAACCTAAAATAAAAAGTGCTCTCCGTAAGGTTTATGATTTCAATGTAATGAAAATTAAAG GAGGCAGGATGGGTGCTGTAAATGGCATGCATCCCAATGGTAAGGTGGATGAGACCTGTATGCAGTCTCGCGAAATATGG ACAGGTGTAACCTATGGTGTTGCTGCTACTATGATACTTTCCGGAATGGAAGAAGAGGCCTTCAGAACTGCTGAGGGTAT ATTTCTAGCAGGCTGGTCAGAAGATGGATACGGGTAACTTCCTATGTTAGAACTAACTCAGCATTCTTTTCACACAAATA TATTTAGCTATTTGACTTCATATTTTTCTTTTCAATATGGTAATTATTTTAATCCAGTGATAGAATTAATGAGAATCATC ACACTATAAGTTGTTAGGTAGTGTAATGTGTGACAAGTCTTAAATTTATGCAGTTATTCCTTCTCTAACATTCTACCATT TGGCACATAACAGATACTGGTTTCAGACTCCAGAGGCATTTACAATTGATGGGCACTACCGGTCTCTCATATATATGAGG CCACTGGCAATTTGGGGCATGCAATACGCATTAACTCTGCCTAAGGCAATTCTTGAGGCCCCTAAAATGAACATCATGGA CAGAATCCATATATCCCCTCTTAATGGAGGATTCTCTCACAATGAAACAGGTGTGAGAAAGATTGCAACAAAAGCAAAAT GCTTTAGCAATTCTGTGTTTAATTGTGCTTGCTGA
CDS sequence (LotjaGi5g1v0163400.5) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGGAGTGGCAGCATATCAAGAGGATTTAGAGGTGAGTTTAGACAATGGCAAATTATTCCTGGCTTATGTGAACCGTC ACCTGTCATGGCCAACCAGTTCTCTATTTTTATAAATAGAGAGGGAGGAAACAAAAGTTTTGCATCAGTTTTGGCTCCTG GACAGCATGAAGGTTTAGTAGGGTCTAGCAAGAAAGCTGATGATCAGGGCATATCATCATGGGGATGGAATCTAAATGGC CAGCATTCAACTTACCATGCTTTGTTTCCAAGAGCTTGGACAATATATGATGGCGAGCCAGATCCAGAACTAAAAATATC ATGCCGGCAGATATCCCCTTTCATACCACATAATTATAAAGAAAGCAGTCTACCTGCTGCTGTTTTTGTCTATACGTTGG TAAACACTGGCAAGGAAAGAGCTAAAGTCAGCCTTCTATTTACTTGGGCGAATTCCATCGGTGGAAACTCACACTTGTCA GGAGATCATGTGAATGAACCTTTCATAGCTGAAGATGGAGTCTCCGGTGTACTTCTATATCACAAAACAGGAAAATGCAA CCCTCCTGTTACTTTTGCCATAGCTGCATGCGAGACACAGAATGTTAGTGTTTCTGTTTTGCCTAGTTTTGGGCTGTCTG AAGGAAGTAGCGTAACAGCAAAAGGAATGTGGAGTAAAATGGTGAAGGATGGGCATTTTGACCGGGAAAATTTCTCTTCT GGACCTAGTATTCCCTCATCACCTGGAGAGACACTATGTGCTGCTGTTTCTGCTTCCACTTGGGTAGAACCCCATGGAAA ATGCACTGTTGCATTTAGTCTTGCATGGACATCTCCAAAAGTGAAGTTTGTAAAAGGAAGTTCTTTCCAAAGGAGATATA CAAAATTTTATGGGACTTCTGATAGAGCTGCAGTGGACTTGGCCCATGATGCATTGACACATTACAAACGATGGGAAGAA GAGATTGAGAAATGGCAGGGTCCTGTTCTTAAGGATGAGACAATACCTGAGTGGTACAAGTTTACATTGTTTAATGAACT CTACTTCCTTGTTGCTGGTGGAACGATTTGGATTGACTCGCCATTGCAATCTCCGCTTGTGAGGAGTGACCGGGATCAGG TGAATGCGTTGCAAAATGCAGTTGTCAAAGTTACTGAAGCTAAAGTGGACTGCCGAACAAGGGAAGTTGTTGAGTGTACT ACAGATAGTACCTATGATTCTACTACTTCTAGAGGGCATAATCATGTATATGAAAATCAATATGATGATAATGATGTTGG AAGGTTCTTGTACTTGGAAGGAGTGGAATATATCATGTGGTGCACATATGATGTGCACTTTTATGCTTCATTTGCGCTTC TTGCACTCTTTCCTCGTATTGAATTAAATATACAGCGTGAGTTTGCTAAAGCTGTCTTGTGCGAGGACGGCAGAAGAGTT AAGTTTCTGGCAGAGGGAAACTGGGGGATTCGTAAGGTTTATGGGGCTGTGCCACATGATTTGGGTACACATGATCCGTG GTTTGAAATGAATGCTTACAACATTCATGATACTAGTAAATGGAAAGACCTGAACCCAAAATTTGTACTTCAGGTGTATC GAGATTTTGCTGCAACAGGTGATTTGCAATTTGGAGTTGACGTGTGGCCTGCTGTTCGTGCTGCAATGGAGTACATGGAT CAATTTGATAGGGACGGCGATTGCCTTATTGAGAATGACGGGTTCCCTGATCAAACATACGATACATGGACGGTCCACGG TGTGAGTGCTTACTGTGGGTGTCTTTGGCTTGCTGCTCTTCAAGCTGCAGCTGCCATGGCCCTTGAACTAGGTGACAGAG ATTTTGCGGAATCATGCAAGAGGAAGTTTATGAAGGCGAAGCCAGTTTTTGAAGAAAAACTGTGGAATGGTTCTTATTTT AACTATGACAGTGGATCAAGTGGTAATAGTAAATCCATTCAAGCAGATCAATTGGCTGGGCAATGGTATACAGCTTCCTC AGGGCTTCCCTCCCTTTTTGATGAACCTAAAATAAAAAGTGCTCTCCGTAAGGTTTATGATTTCAATGTAATGAAAATTA AAGGAGGCAGGATGGGTGCTGTAAATGGCATGCATCCCAATGGTAAGGTGGATGAGACCTGTATGCAGTCTCGCGAAATA TGGACAGGTGTAACCTATGGTGTTGCTGCTACTATGATACTTTCCGGAATGGAAGAAGAGGCCTTCAGAACTGCTGAGGG TATATTTCTAGCAGGCTGGTCAGAAGATGGATACGGATACTGGTTTCAGACTCCAGAGGCATTTACAATTGATGGGCACT ACCGGTCTCTCATATATATGAGGCCACTGGCAATTTGGGGCATGCAATACGCATTAACTCTGCCTAAGGCAATTCTTGAG GCCCCTAAAATGAACATCATGGACAGAATCCATATATCCCCTCTTAATGGAGGATTCTCTCACAATGAAACAGGTGTGAG AAAGATTGCAACAAAAGCAAAATGCTTTAGCAATTCTGTGTTTAATTGTGCTTGCTGA
Protein sequence (LotjaGi5g1v0163400.5) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGSGSISRGFRGEFRQWQIIPGLCEPSPVMANQFSIFINREGGNKSFASVLAPGQHEGLVGSSKKADDQGISSWGWNLNG QHSTYHALFPRAWTIYDGEPDPELKISCRQISPFIPHNYKESSLPAAVFVYTLVNTGKERAKVSLLFTWANSIGGNSHLS GDHVNEPFIAEDGVSGVLLYHKTGKCNPPVTFAIAACETQNVSVSVLPSFGLSEGSSVTAKGMWSKMVKDGHFDRENFSS GPSIPSSPGETLCAAVSASTWVEPHGKCTVAFSLAWTSPKVKFVKGSSFQRRYTKFYGTSDRAAVDLAHDALTHYKRWEE EIEKWQGPVLKDETIPEWYKFTLFNELYFLVAGGTIWIDSPLQSPLVRSDRDQVNALQNAVVKVTEAKVDCRTREVVECT TDSTYDSTTSRGHNHVYENQYDDNDVGRFLYLEGVEYIMWCTYDVHFYASFALLALFPRIELNIQREFAKAVLCEDGRRV KFLAEGNWGIRKVYGAVPHDLGTHDPWFEMNAYNIHDTSKWKDLNPKFVLQVYRDFAATGDLQFGVDVWPAVRAAMEYMD QFDRDGDCLIENDGFPDQTYDTWTVHGVSAYCGCLWLAALQAAAAMALELGDRDFAESCKRKFMKAKPVFEEKLWNGSYF NYDSGSSGNSKSIQADQLAGQWYTASSGLPSLFDEPKIKSALRKVYDFNVMKIKGGRMGAVNGMHPNGKVDETCMQSREI WTGVTYGVAATMILSGMEEEAFRTAEGIFLAGWSEDGYGYWFQTPEAFTIDGHYRSLIYMRPLAIWGMQYALTLPKAILE APKMNIMDRIHISPLNGGFSHNETGVRKIATKAKCFSNSVFNCAC
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 | 1 | 845 | 845 | 0.0 | – | |
| PANTHER | 1 | 845 | 845 | 0.0 | – | |
| PIRSF | 1 | 798 | 798 | 7.1E-296 | ||
| Pfam | 1 | 318 | 318 | 2.4E-102 | ||
| Pfam | 427 | 788 | 362 | 4.3E-156 | ||
| SUPERFAMILY | 434 | 791 | 358 | 5.53E-43 | ||
| Gene3D | 483 | 778 | 296 | 8.7E-23 |
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 | Glucosylceramidase activity | Catalysis of the reaction: D-glucosyl-N-acylsphingosine + H2O = D-glucose + N-acylsphingosine. | ||
| Molecular function | Hydrolase activity, hydrolyzing O-glycosyl compounds | Catalysis of the hydrolysis of any O-glycosyl bond. | ||
| 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. | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
Expression pattern of LotjaGi5g1v0163400.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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