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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0453900 |
| Transcript ID | LotjaGi3g1v0453900.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Callose synthase-like protein; TAIR: AT4G03550.1 glucan synthase-like 5; Swiss-Prot: sp|Q9ZT82|CALSC_ARATH Callose synthase 12; TrEMBL-Plants: tr|G7JSU8|G7JSU8_MEDTR Callose synthase-like protein; Found in the gene: LotjaGi3g1v0453900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:86730300..86744013) extracted from Lotus japonicus Gifu genome v1.2.
TTGCCCTTTTCTTCTTCTCTCCAGTGCAGTGCGCACGTTAGCCACCATCACAACACCCTCTCTCTCTCTCTCTCTCTCTC TCTTCTTTCTCTCTCTGTAACTACCACTACTCTCACTACTAGGGTTCCGATTCCGATGCTATGAGTCGCCGTCCACGTCA CCAACCACCACCGGCATCCGCCACTCCTCCCCGTGAGGATGAGCCCTACAACATCATCCCCGTCCACAACCTCCTCGCCG ACCACCCTTCCCTGCGTTTTCCTGAAGTCCGCGCCGCCGCCGCCGCACTCCGCGCCGTCGGAGACTTACGGCGACCTCCA TTCGCGCAATGGCGTCCTCACATGGACCTCCTTGACTGGCTCTCGCTCTTCTTCGGGTTTCAACGGGACAACGTCCGCAA CCAGCGCGAGCATCTTGTGCTTCATCTTGCTAACGCCCAGATGCGCCTCACTCCGCCGCCGGACAACATCGATACACTCG ATGCCACCGTCCTCCGCCGCTTCCGGAGGAAGCTTCTGAAGAATTACACCTCCTGGTGCTCTTATCTTGGTAAGAAGTCA AACATCTGGATCTCTGACAACCGCCGTGCCGGCGGGGAGTCTGACCTCCGGCGGGAGCTTCTGTACGTCTCGCTTTACCT CCTCATCTGGGGAGAGGCGGCGAACCTCCGGTTCGCCCCTGAATGCATCTGCTACATCTTCCACAACATGGCTAACGAGC TCAACAGGATATTGGAGGATTACATCGATGATAACACGGGGCAGCCTGTGATGCCTTCGATTTCCGGTGAGAATGCTTTC TTGAATCATGTGGTGAAGCCTATTTATGAAACGATTAGGCGTGAGGTTGATAGTAGTAGAAATGGAACTGCTCCTCATAG TGCTTGGAGGAACTATGATGATATCAATGAGTATTTTTGGAGTAAGAGGTGTTTTGAGAAGCTCAAATGGCCTCCTGATG TTGGGAGCAACTTTTTCGTGACGCCGGGGACAGGGAAGCATGTGGGTAAGACTGGTTTTGTGGAGCAGAGGTCGTTTTGG AACCTGTTGAGGAGTTTTGATAGGCTTTGGGTGATGCTGGTGTTGTTTCTTCAGGCTGCTATTATTGTTGCTTGGGAGGA GAGGACTTATCCTTGGCAAGCATTGGAGGATCGCGATGTGCAGGTCAGGGCTTTGACCATTTTCTTCACGTGGAGTGGGA TGAGGTTTGTGCAGTCTTTGCTTGATGTGGGGATGCAGTACAAGTTGGTGTCAAGGGAGACAATGGGGCATGGAGTGCGG ATGGCGATGAAATGTGCGGTTTCTGCTGGGTGGATTGTAGTGTTTGGTGTGTTTTATGGGAGGATTTGGGAGCAGAAGAA CCATGATAGACGGTGGTCGCCGGCGGCGAATACGCGGGTGGTGAACTTTCTGGAAGTTGTGTTTGTCTTCCTCATTCCAG AGCTTCTAGCTTTGGCACTTTTTATAATTCCTTGGATTAGAAATTTTCTTGAGAATACAAATTGGAGGATCTTTTACATG TTGTCGTGGTGGTTTCAGAGCAGAAGCTTTGTTGGCCGTGGTTTGAGAGAAGGGCTTGTAGACAACATCAAGTATTCACT GTTCTGGGTTTTCGTGCTTGCCACTAAATTTTGTTTCAGCTACTTTTTACAGATCAAACCCATGATTGCTCCAACAAAGG CAGTGTTGGACATCAAGAATGTTCATTATGAATGGCATGAGTTTTTTCATCACAGCAACAGGTTTGCTGTTGGGTTACTG TGGCTGCCAGTTGTTTTGATTTATCTAATGGATTTACAAATTTGGTATTCCATATATTCATCTTTTGCTGGGGCGGCTGT TGGGTTATTGGCACACTTGGGTGAGATTCGTAATATGCAACAGCTGAAATTGAGGTTCCAGTTTTTCGCCTCTGCAATTC AGTTTAATCTCATGCCAGAGGAGCAGTTATTGAATGCGAGAGGAACGCTGAAGAGCAAGTTTAAGGATGCCATCCACAGG TTGAAGCTCAGGTATGGGCTCGGTCAGCCTTATAGGAAGCTTGAGTCTAACCAGGTTGAGGCCAACAAGTTTGCTTTGAT ATGGAACGAGATAATTTTATGCTTTAGGGAGGAGGATATTATCTCTGACAGAGAACTTGAGCTGCTGGAGCTGCCACAGA ACTCTTGGAATGTCAGGGTTATTCGCTGGCCATGCTTTCTTCTCTGCAACGAGTTACTGCTGGCACTCAGTCAGGCAAAG GAGCTAGTTAATGATTCTGATAAGAGGCTTTATAATAAGATATGCAAGAATGAGTACAGACGCTGTGCTGTCATAGAAGC ATATGATAGTGTCAAGCACTTGCTTCTTCAGATTATCAAACCCAATAGTGAAGAGCATTCTATCATGACTGTTCTGTTTC AGGAAATTGATCACTCTCTCGAGATTGAGAAATTCACTAAGACATTTAAAACAACTGCGCTGCCTCAGCTCCACAGCAAG TTGATCAAACTTACCGAGTTATTGAACAAGCCTATCAAGGATCTTAACCAAGTGGTGAATACCCTTCAGGCCCTTTATGA GATTTCTATCAGAGACTTTTTCAAGGAAAAAAGAAATCCTAATCAGCTAAAGGAGGATGGTCTGGCTCAACATAATCCTG CTTCAGGACTGCTTTTTGAGAACGCTGTTCAGTTGCCTGATACCACCAATGAGAACTTCTATCGGCAGGTTCGGCGCTTG CACACAATTCTTACCTCAAGGGATTCAATGCAAAACATCCCAATAAATCTAGAAGCTAGACGGAGGATTGCTTTCTTCAG CAACTCACTTTTTATGAATATGCCTCATGCTCCCCAAGTAGAGAAAATGATGGCTTTCAGTGTTCTAACACCTTACTATA GTGAGGAAGTTTTATTCAGCAAGGAACAGCTCAGAACTGAAAATGAAGATGGGGTTTCTATCCTGTACTATTTGCAGACT ATATATGATGATGACTGGAAGAATTTTGTGGAGAGGATGCGTCGGGAGGGGATGGTGAAAGACAGTGATATTTGGACTGA TAAGATTAGAGATTTGAGGCTCTGGGCTTCGTACAGAGGTCAGACATTATCACGGACAGTTAGAGGTATGATGTACTACT ATCGGGCCCTCAAGATGTTGGCTTTTCTAGATTCTGCATCAGAAATGGACATTCGTGAAGGCACACGTGAACTTGTTCCA ATGGGCAGTCTTAACTCTGAACAGTCACCTTCTTCTAAGAGCAGCCTAAGTAGAGCAAGCAGTTCAGTGAGTTTGTTATT CAAAGGCCATGAGTATGGTACTGCTTTAATGAAATTCACATATGTAGTTGCTTGCCAGATTTATGGAACTCAGAAAGCAA AAAAAGATCCTCATGCTGATGAAATTTTGTCTCTAATGAGAGACAATGAGGCCCTTCGAGTTGCCTATGTTGATGAGAAA ACTTCCGGAAGGGATGAGAAGGAGTATTACTCTGTTCTTGTTAAGTTTGACAAACAGTTGCAGAAGGAGGTGGAAATTTA CCGAGTAAAGTTGCCAGGTCCTTTGAAGCTAGGCGAAGGAAAGCCAGAAAACCAAAATCATGCTATTATCTTCACCCGTG GAGATGCAGTTCAGACTATTGATATGAATCAAGATAACTACTTTGAGGAGGCACTTAAAATGCGAAATCTGCTGGAAGAA TATAGGCTGTACTATGGCAACAGGAAACCCACTATTTTAGGAGTTAGGGAACACATTTTTACTGGTTCTGTTTCCTCTCT TGCTTGGTTTATGTCTGCTCAAGAAACGAGTTTTGTCACCTTAGGTCAGAGAGTTTTGGCAAATCCTCTGAAAGTTAGAA TGCATTATGGACATCCAGATGTGTTTGACAGGTTTTGGTTTTTAACTCGAGGTGGTATCAGTAAGGCTTCCAGAGTGATC AACATAAGTGAGGACATTTTTGCTGGTTTCAACTGTACTCTTCGTGGAGGTAATGTCACTCACCATGAATATGTCCAGGT TGGAAAAGGAAGGGATGTTGGATTGAATCAAGTATCAATGTTTGAAGCAAAGGTTGCAAGTGGAAATGGCGAGCAAATCC TAAGCAGAGATGTGTACAGGTTGGGTCATAGGCTGGATTTTTTCCGGATGCTGTCATTCTTCTACACTACAGTGGGGTTC TTCTTCAACACAATGATGGTGGTTCTGACAGTATATGGATTTTTATGGGGTCGACTATATCTTGCCCTTAGTGGCGTTGA GAGTGCAATGGAAGATAACAGTAGTGACAATAAAGCACTTGGTACCATCTTGAATCAGCAGTTCATCATCCAGCTTGGAC TTTTCACTGCTCTTCCAATGATTGTTGAGAATTCCATTGAGCATGGGTTCCTTCAAGCAATCTGGGATTTCTTGACAATG CAGCTCCAGCTTTCTTCAGTTTTCTATACATTCTCCATGGGCACTCGTAGTCATTATTTTGGCCGGACCGTTCTGCATGG AGGGGCAAAATATCGAGCTACTGGCCGTGGTTTTGTTGTAGAGCATAAGAGTTTTGCTGAAAACTATAGACTCTTTGCCC GTAGTCATTTTGTAAAAGCAATTGAATTGGGGCTAATACTTGTAATTTATGCATCACACAGCCCTGTAGCAACTGACTCA TTTGTTTATATAGCCCTGACCATAACTAGTTGGTTCTTAGTTGCATCATGGTTGATGACACCATTTGTGTTCAATCCTTC TGGCTTTGATTGGTTGAAAACTGTTTATGATTTTGATGACTTTATGAACTGGATTTGGTACCGTGGAAGTGTGTTTGCTA AAGCTGAACAGAGCTGGGAAAGATGGTGGAATGAAGAGCAGGATCACCTAAAGGTAACTGGCCTTTGGGGAAAGCTTTTG GAGATAATCCTAGACCTTAGGTTCTTCTTTTTCCAGTATGGAATTGTCTACCAGCTAGGCATTTCTGCTGGAAGTACCAG TATTGGTGTTTACTTACTATCTTGGATTTATGTGATTGTTGTATCTGTGATCTATGCGGTGATAGTGTATGCCCGGAACA AATATGCAGCAAAGGAGCATATATATTATCGGCTGGTCCAGTTTCTTGTCATAATTCTTGCAATTCTCTTGATAGTTGCT TTGCTGGAGTTTACTCAATTCAAATTCGTGGATGTCTTTACTAGCCTGTTGGCATTCCTTCCCACAGGGTGGGGCCTGAT ATTGATTGCCCAAGTATTTCGACCATTTTTGCAGTCCACAATCATTTGGGATGGTGTTGTTTCAGCAGCTCGTCTATATG ATATATTGTTTGGAGTCATTGTTATGGCACCTGTGGCATTACTATCGTGGTTACCTGGATTTCAGAATATGCAAACCAAA ATTCTTTTCAATGAAGCATTTAGCAGGGGCCTCCGGATATCCCAGATTATTACAGGGAAAAAATCCAAAGTTTGACTGTG ACTCCAGGTAATTTCTATTCATTTTCAGTGAATTTTTGTATTTAAATTAGTTTTGTGGCATAATTGTTCTTGTATGTCAA TGACTTAATCATAATGAGACAATGCTGCCGTTGAGCTAATGGAATCACATTCTTTTTGTTTATGCTTTCCTCCCTAGTGA CTTATCTCCTTGATTCTGTCTTGTAATTAAGGAAATGTTCTATTCACGTAAAAACACACATATATGATCAAGAAGGCAAT GAATTCTCTCACCATATGTTTGTGGCAAGTAATTTTTGCATCAGCTGTGTTCTCTTCCAACAAAGCTCATTTTGTTGTCT CTCTTGCAGTAGGGCTAGTAACAGAATCAGATAGGAAATGAAAGAAAGTACTGAGTGAGTCAGCTAAGAGAGAGTAAATG TGTATATTTTGTGTGTCATTGATTTGTGATGTGAACATATACATTTAAAGACTCAGGTTTTAACAGTTAACTAATTCTAT TGTAACGAAGTCAGTTATCGTATTTGTTTCCCATGTAACTTGCTTAGCTGTCAGTAACTGGCATCTGATATTTCATTAAC TATTATCTGAAGCTAGCAGCTAAAGCTAAATCAGAGAGCACTACTCAAATGCTTTGATAGGCTCCTGCCCCCCAAAAGAA AAAGAAAAAGAAAAGTTAGGGGGGTTTCAGAAATAGAAACTGTTCAAAGTCCCCAGTGTTTCTCCCAAGGAGAAAGAAAA CACTTCTTGGATAGGTCCTTTCTAGAACATCAGCAAAGTGAGCATAAGCAGGGATATAAGTTAAGGCTTTTCGCAAGTAC TTTAGCTATGTTTGTTTTAACCCTATTCTACCATTTTCATCAGTTTTAAGAGTTCTAAATGGGAAAACATCATCTTCGAG AACAAAACGTCAAAGGAAATACTGAGCTCCATTATAGAAAAGTTCATTTACGTTTTCTCAATTTTAATGCAAAAGGCACT TTATCATTAACATAGAAGATAATTAGTGTTGGGTACTTCATGCAAGAGTGCAGCATGGGGTTGTGGGATAAGGAGACAGT GCTCAAATTGTTGCAATAGATGATAGGAGTTGTGAGACAAACCTTAATTAATGTTCGTAGAGTGTGAATACAGAGGACTT TAGGCAGTATTAGCCAAGCTATCGTACTCTACTTCTGTGCTTCAGCAGGCAATTTAAGTTTGCTTTGTGGACCACTAGGA GACAAGGTTCGGTCCCTAAAAGATGCACAAGCAAGATGTTGATCTATGATAATTTGTGTTAGAGGCCAGGTTAGCATCAC TGAAAGCTTGAAGAGAAAGAGGATGAAGCGGAGATGCAGGTTGCCACAGAGACCAGAGTGACAGTGCCTCTAAGATATTG GAGAATGTGTTAAACTTTACAATGAGAGAGCAAAGTTTGGACCTTAATTAACCTACTTTGATGACTAAAACTAATTGCAA GTAATGGGAGCATATTGGAGAGAAAATTTGATAACTGTTTCCACCAGAGAAAATGTTCTCATCTAACTTATTGAATGATT GAAACTGAATAGGAAAAAGTCACCAAAGCATTCTCTGGAATTGGGGATTCCATGGTAGCAGGAGGTGTTCCACCTTGCGT GGTGCTTACATAGGATTTGTAGAGGTCATACTAGAGCTTAAAGCTGTGATACAATAATAGGATCAGAGAGAAAATGAGAG TAAGTAGCCAAAGAGCTAAGAGGGTGAACCTGAATATTGTGTTATTGATCGGTGATGTAAACATGCATCTAACACATTCA ATTATTTTATTCATCTTCTAACTTGCTGAGCCATCAGTAACTGACAAGCTGGGCTGTCATTAACTACTACCTAAACCTAA CCATAGCTAATTCTGATGGCACTGCTCATATAAGTTGATAGTTGGAGTCCTTTTACATTATGCAGTTTGTGGAGCTTGAC TTGAGATATTTGTTTGTGTGTGATCTTTCTTGATAATATATACATACCTATATTTGAGTATGTTAACTTGTCTATCTGTT CTTTTTATCTGGTTCATGTTTTCTCCTGGTGCCTTTCATGTATCTGTATGTGAATCTGTGACAGCACTGGCATTATCTGT ACCTTTTATCAGCAACCCATCTTGGTGTGTTTATCTTTTAAGCTAATAGGCTTGTATTATGTTTGCAGGATATATAGAGG GGCTATGGAAGTTGAGAGGCTCAAACTTGCTTTGTTCTCCCGATTTTCCTCTGGGCATGTGAGGGCTGTTGTTAGAGTTG ATGGTTGTGACTATATTTTGTTTTTATTCGTTGGCATGGGGAGAACATTATTTTTTGCTTTCCTTTGATGGTCATTGTAA TTAGCCAATTTTCATGTTTAAAATTAGTTTTGATCATGATCTTCTGATTTTGTGTATGGTCATCTCTGGCAGAAAACGGC AAATTCTTTTATCAGAAGATCAGTTTTAAATGATAGGCAATAGTAGAACGATTCAGAACTCAGGAGGAATTCAGGTAATC AAATTAGAGGTTGGAACATGAAAGGTGAATATAATTTTTATAATTAGATCAGTTTTAAAGGAATGCGATATGGTTCTTTT ATGGGAGATACTTTTTAGTTTTTACACACCTAACAATTATTATTTACACGCCATATAATTCTTTCTTCCTGTAATACCCA TATAATTTAAAACACATCACACACACACACACCTGGGATGTATTTATTGAGTAGAAGGGATCTGCTCAAACATTTTAGAA TATTTTTCACCTCGATAAGATTAAGATCGTCTCATTGTCCCTGATGTTTCTTATGGGTCAGTTTATTTAGCATTAGGATC AGTCAGGGCAGTATACAATGAGATGAATTTGATATTTGAGAATGAGACGAATTTAAGGAAGCTTATTGCTTACATATCAA CCACCAACACGTATTCAAATCAGTTTAATCTTGCATCAGATCAAAGGAACAAGGAAATGAATAGGGAATTGTTATGTCCT CTAACATCAGTTGAACCATGAAAGCTATCCCACTTAGCTGGCAATTTGACAACCAACAAAGAGAACTTTGGCCTCGATTA AAATAGCCAAGGATGCAACTCTGCTATTTCATGCTAAAATGGTTAGTGGCCCCAAATATAGGTTGGATGACCTCCTTGGA ACCCAAAGAACTATTATAGAAGAAATTGTGAATTTCTTCCCAGACAGCCACGAATGAACACAATGAATCACTGTAGGAAG AAATGAATCAGACAGGAATGAAAGAAGCCAAGTTAACAATCCAGAATCACGTTGTTCCTAGACTTCATATGCAGGATTCA CCTCATCAAGATCTTGATCTTCCTCGGTGAGATACTTGAGAGGAATGATTGGATTAACAATCAACCGATGCAACTTGTCC ATGAGAATCACTCCTCCAATCTGTTGTCTCCATGAGAAGAAGTTTGTCTCATCAAGCTTGATGCTGATGGAGTGAGAAAA CGCCAGAGGCGCTGCGTAAGAAGCGAAAGGATTCACTGCAGTCACATAACTAAGAATTGATTATAGCTCTTGATACCATG AAGAAATTCTTAGAAAAGAAAGCAAATAAAATTTCTCTGAAAATGTAATTGATTCATTGATTGAATTTTGTATACAAGAA GGTTTTATATACAGCTGAGTTAGTTATAAGTATAACACCAGTTAGTGAAACTGTTGCTAATGATGCCAGCTTTTAATCAC ACTGTGCCTACAACTAACTGAAGAGAACCAAGTGCAGCTTCAGGAATACACCCTGTGAGAGGGGAATTGAGTTTGGTGCC CCACCCCTTAGGCTTTGCACCCCACTTTATTAAATACGGAATTTAAAGTTCCGTATCAATACGGAAAATAAAATTCCGTA TCTGTTTTAGTATATAATGAGTGGTTGAAAATGTGACACGCATGCTTAAATACAGTACGGAATTTTAAGTTCCGTATTCA ATAGGGAGAATACGGAATTTTAAATTCCGTATTTGATAAAGTGGGGTGCCAAGCCCCATAGGTGGGTGTCAAACTCAACT CCCCTGTGAGAGGGAGAGGGGTGAGGAAAAGAGGCAAGTATCTTTTTGTAAATCCAACAGTCGGAGGGAAATGCTTGCTG CAGCTGCAGGAGAGGATCAGATTCCAAATAAATTTCTTCTGTTCCCTACCCTCTCTCCATTCTCTCTCTCTCTCTCTCTC TCTCTCTCTCTCTCTCTCTCTCTGTCTATCTTCAAGCTCCACCCATGGCTTCTGAATCGTCCATTGACAATCAAGCCGAT CTGGTCATCACGCCCAATTCAACTCAGGTATATATATATACCCACTTGCAAACACTTGAGCTATCAAACAAGCTCTTCCA AACATGGCCAAATCATTATATAGACCATCATGTTTACATTTATAGATAAATCAATGAGTATATTATTTCAAGATATTATA ATAAAAATCTAATGTAGCAGTGATAAATGATAATATTAATTTGTTTATTAAATTTGACAAACAATAACTAACTTCTCCCC AAATACAAAACATCCGTTTTCTTCATCCTCTCATACATCCTCAGCCCCTTAGTCCTCTTTGCATCTGCCATAACATCAGA AGGTCCATCTTATTTGCTCCAATACTTTTGGGCCATAAAAAGCTCTCGGGAAGTTTTGAAGTATGGAAAAAGCAATTATT TCTCCACAATTAGCTAATCAAAACATGTCAAGTGCCATGTATAAATGTTTTGAAGAATCAGATAGTATGTTACGTTTAAT TTGACTAGACAGGTACCTTGACTGTTGATTAATATATGCTGTATGGTACATGATTGCTCAATGATCTAGTGCAAAACTAG AAAATGGAATCTTTTATTGACCTACTTTGGCTTGGATTGGATGCCTGAGAATGAGTGTGATTAAAAGAAAAACCCTGCAA AACTTCATCCTGTCAAGCAAAGTACTGGTAAACATTAAAAGGTAAATCCATTGAAATTTAGGAGGAAGGAGACTGATGAA AACATAATTATCTTTGGTGTTTAAAGCAAGGTTTGCTGCTCTAGTCATTGACAGTTATTACTTGTTTTCCTTGAGAAAAG CCATAAACTGACATTTATCCATTGAGTTATAATGGTTATTGTAACCAAATTGGTTTGCTATTTACATATAATTGTCATGC TTGCTTTATTCTGAGTTTTTACTTTTTAATAACATTGCTCAAGCTTTTTGTTTCTTATATGCATCATCATTCATCCATGT ATATACTTGTCATGATTATGAGCCAATGTCCTTGAGAGTAATTCCATACCTTTCTAGTAAGTTTTTGAACCTCAACTCCA CAAACATTTTGGCAGGATTTTGACCAATCAAGGGCGGAAAGGACATTGATTTTCCCTGATACTTCCTATAATCCACCTGA AGATTCTTCGAGCCAAGATGCGATTGCAACTGTGGAGAAGAATATGAAAAAGTATGTGGACAACCTCATGCGGTTTCTGG AGGGAATTAGTTCTAAGCTATCACAGTTGGAGTTACATTACTACAATCTTGACCAATCTATTGGAGAAATGAAATCTGAA TTAAATTTTAACCTTGGGGAGCAATATTCAAAGCTCAAATCTCTAGAAAAGCACCTTCAAGAAGTAAGTCCCAACTTTAA TTGATAATATCAGTAATAGTGTGTTAGCATTCAAGTTAAAGTACTCCATTCTTTCATTTATTTTGACGTTCTTGATAAAT TGTTGTAGTTCTTGGCTGCATAAATACAGGTAAGTACATGTGGACTGATATTAGCATAAGTAGGGATATTGAATACAGTA AATTTTCTAAAATTCAGGGTCTGGGGGTGTTATACTATAGAGATTATTGTTTAGATTAAACTACCATTTTGGTCCATGAA CAATCCACTTGATATCAATTTCACCCTCCATTGTCCATTGATTTATGTCAACAAATCAATCCTTCAGAGATTTAAAATGA CATCAAAATAATCCATATTGATGTGTGTGACACCGAGCTTGAAGGAAGGGCTATTTTGACGTCGCTTTAGTTTTTGGAGG ATCAGATTGATTTCAAGTGTCTTTAGAAAGGAAAAATGCTAGTTTAGTCTTATTGTTATTACATGGCTTATTGCCTTTTT TCTGTTATTATATAAACCGATATTGTGCAAACTTAACCCCCAAATAAATTTTTCTGGCTTCAGCTCTTGCAATATGATCA CTTCCATCAAGATGTTAAACACCATAGAGTGTTTTCATCTTTCCTACCTTCACTCTCATCCTCTCTTACTCTAAGAGACA GCATTGATGTAACCAGTGCACCTAAAACTCACAAGAAATTCATAATAATCTTTGCTGGTTATTTGTAAAAGAGTGATACT AGCATGAAACTCCTGAAGTGGTATTCTTAAGTCTTAGTTGACCTGGGGTCAAATAATCAAATACCAAAGATAAAACAAAA TAGATTGTCTCAAGATAAGGTAAAATCCCTATTTTATCATAAATATAAATTATGAAGTTAATATGCTTATCCTCTGCACT TGCACTGTACAACAGTATAGAGCAAATGGCAACAAAGATGCAGATTGCAGGGAGAGAATCCCAATCCGTTAGTTTTTCTT TTGTGCTTGTTAGAACTTAGAAGTGTTCCTTAGATTCTCATAATTGTACTCACAACGAATAGTGAGGATAAGTCACTAGC TCATGTCTGCCATGCTGACAAGGATCAGGATCAGTAAATTGACTAACTGCTGAGTGCTGACTGAAAAGCATGAAGTCAAA CATAGTTAAGGATTCTCCACCTTTTTGTGTCAGGTGGTTTTTACAGCAAAAGCTGTGTTTCAAGGGGGGTAAGAAAAAAA CAAATGAGCCACATCTGTGTGTTAATGTGGGTGGGTGTGGGATATAACATTTGAATTTTTTTTCTCTTATTTGGGAGCGG ATGCCCAATTTTGACTTAACATGGTTTCATCCATCTAACTCGGGCTAATATAACATTTGAATATTAGTCTATTGAGGAAA AAATTTCTCTTATGGGAAGCGGATGCCCAATTTTGACTTATCCTGGTTTCGTCTAACTCATACTTCTATTGTTCTTCTCA CAAGTCCAAGCCATAAAAATAAATTATACCTGTGCATGCTGGGATTTTTTTTTTAAATAGAAGTCTTTTTTTTTTTACTA ATCAATTAGAAAACATTCTTTCTGAATCTGCAAACCCAACCATGCTCTTATCTTGATATGCAAATTTTCAATATGCTTTG TACATAAAGGTTGTCAATTGCCAACCTGCCTTTTATGCAAGGTTGCTGAAATAGGAATCTTTTATTTCTATATTAATATG TTTCTCCTTGATATCTTTCCAACCTTATCATTGACATGATGCTTACTTGGTCATGTAGATTCACAGCTCTGAACAAGTTT TAAGAGTCAAGCCTCAACTTGCTCAGAAAGAATCATCTTCCTTGAGACATTCACTGTCCAATGAGGACAGATCTCCTTCT ACCAAATATGCTAAGAAAACTGATAATGCATCTGATGCTCCCAACAGGTGGATATCTTTTACCCCGCCCCATCAAATTGC CCCTCAGCCTCAGCCTACAACAGCCCCGCCCCAAGCTCCGACACCTTATGTGACTCAAGCCACTCAACAACCTGCTTTTT ACCCTTTGCCTGGCATGCAATCTCTGAAAAAGACGGCCCCAGACATGAGAAGAGGAGCTGGTGGTCCTGTTTCTCATCCC AACTCCAAATATACACCATATAAATTTCTAGCATATTGAGCTTCTTTACTGAGGAACCTGATAGGTATATCTGGATTTAC AATGAATATATGGACGTAGTGTCCTTTGATCACTGCATTTTCTGGAATTGTGGATTCCATGTGCAGGAGGAGGTGGTAGT TGTTCCACCTTGCTCCGTGCTTGCAAAGGATTTGGATAGGCCACACTAGAGCTTAAAGCTCTGATACAAAACAGTGTCAG AGAGAAACTGAGCTAAGAGTGAATCTGAATATTGTATGTTATTGATTTGTGACGTGAACACGTACATTTATAGAGCCAGG TTTGAACATTTAACTCAATACTGTTATAACAGATTCAATTAACTGAATCGTCTTCTAACTAAACCTAGCCATAGCTAATT CAGTCAAAGAGCACTGCTCATGTAAGTTGATAGTTGGAGACTTGGAGTGCTTTTTGTTGAGCTCCTGGCATCAGGCATGT CCTATGAATAAAAACCATGCCATAACTATTTATGTTTCATGCTCATTTTGTCATATGATGTCCCTGAAGTGACTATGCTT TGGCATGGTTTTGTTGACTCATACAGTGAATTCA
CDS sequence (LotjaGi3g1v0453900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAGTCGCCGTCCACGTCACCAACCACCACCGGCATCCGCCACTCCTCCCCGTGAGGATGAGCCCTACAACATCATCCC CGTCCACAACCTCCTCGCCGACCACCCTTCCCTGCGTTTTCCTGAAGTCCGCGCCGCCGCCGCCGCACTCCGCGCCGTCG GAGACTTACGGCGACCTCCATTCGCGCAATGGCGTCCTCACATGGACCTCCTTGACTGGCTCTCGCTCTTCTTCGGGTTT CAACGGGACAACGTCCGCAACCAGCGCGAGCATCTTGTGCTTCATCTTGCTAACGCCCAGATGCGCCTCACTCCGCCGCC GGACAACATCGATACACTCGATGCCACCGTCCTCCGCCGCTTCCGGAGGAAGCTTCTGAAGAATTACACCTCCTGGTGCT CTTATCTTGGTAAGAAGTCAAACATCTGGATCTCTGACAACCGCCGTGCCGGCGGGGAGTCTGACCTCCGGCGGGAGCTT CTGTACGTCTCGCTTTACCTCCTCATCTGGGGAGAGGCGGCGAACCTCCGGTTCGCCCCTGAATGCATCTGCTACATCTT CCACAACATGGCTAACGAGCTCAACAGGATATTGGAGGATTACATCGATGATAACACGGGGCAGCCTGTGATGCCTTCGA TTTCCGGTGAGAATGCTTTCTTGAATCATGTGGTGAAGCCTATTTATGAAACGATTAGGCGTGAGGTTGATAGTAGTAGA AATGGAACTGCTCCTCATAGTGCTTGGAGGAACTATGATGATATCAATGAGTATTTTTGGAGTAAGAGGTGTTTTGAGAA GCTCAAATGGCCTCCTGATGTTGGGAGCAACTTTTTCGTGACGCCGGGGACAGGGAAGCATGTGGGTAAGACTGGTTTTG TGGAGCAGAGGTCGTTTTGGAACCTGTTGAGGAGTTTTGATAGGCTTTGGGTGATGCTGGTGTTGTTTCTTCAGGCTGCT ATTATTGTTGCTTGGGAGGAGAGGACTTATCCTTGGCAAGCATTGGAGGATCGCGATGTGCAGGTCAGGGCTTTGACCAT TTTCTTCACGTGGAGTGGGATGAGGTTTGTGCAGTCTTTGCTTGATGTGGGGATGCAGTACAAGTTGGTGTCAAGGGAGA CAATGGGGCATGGAGTGCGGATGGCGATGAAATGTGCGGTTTCTGCTGGGTGGATTGTAGTGTTTGGTGTGTTTTATGGG AGGATTTGGGAGCAGAAGAACCATGATAGACGGTGGTCGCCGGCGGCGAATACGCGGGTGGTGAACTTTCTGGAAGTTGT GTTTGTCTTCCTCATTCCAGAGCTTCTAGCTTTGGCACTTTTTATAATTCCTTGGATTAGAAATTTTCTTGAGAATACAA ATTGGAGGATCTTTTACATGTTGTCGTGGTGGTTTCAGAGCAGAAGCTTTGTTGGCCGTGGTTTGAGAGAAGGGCTTGTA GACAACATCAAGTATTCACTGTTCTGGGTTTTCGTGCTTGCCACTAAATTTTGTTTCAGCTACTTTTTACAGATCAAACC CATGATTGCTCCAACAAAGGCAGTGTTGGACATCAAGAATGTTCATTATGAATGGCATGAGTTTTTTCATCACAGCAACA GGTTTGCTGTTGGGTTACTGTGGCTGCCAGTTGTTTTGATTTATCTAATGGATTTACAAATTTGGTATTCCATATATTCA TCTTTTGCTGGGGCGGCTGTTGGGTTATTGGCACACTTGGGTGAGATTCGTAATATGCAACAGCTGAAATTGAGGTTCCA GTTTTTCGCCTCTGCAATTCAGTTTAATCTCATGCCAGAGGAGCAGTTATTGAATGCGAGAGGAACGCTGAAGAGCAAGT TTAAGGATGCCATCCACAGGTTGAAGCTCAGGTATGGGCTCGGTCAGCCTTATAGGAAGCTTGAGTCTAACCAGGTTGAG GCCAACAAGTTTGCTTTGATATGGAACGAGATAATTTTATGCTTTAGGGAGGAGGATATTATCTCTGACAGAGAACTTGA GCTGCTGGAGCTGCCACAGAACTCTTGGAATGTCAGGGTTATTCGCTGGCCATGCTTTCTTCTCTGCAACGAGTTACTGC TGGCACTCAGTCAGGCAAAGGAGCTAGTTAATGATTCTGATAAGAGGCTTTATAATAAGATATGCAAGAATGAGTACAGA CGCTGTGCTGTCATAGAAGCATATGATAGTGTCAAGCACTTGCTTCTTCAGATTATCAAACCCAATAGTGAAGAGCATTC TATCATGACTGTTCTGTTTCAGGAAATTGATCACTCTCTCGAGATTGAGAAATTCACTAAGACATTTAAAACAACTGCGC TGCCTCAGCTCCACAGCAAGTTGATCAAACTTACCGAGTTATTGAACAAGCCTATCAAGGATCTTAACCAAGTGGTGAAT ACCCTTCAGGCCCTTTATGAGATTTCTATCAGAGACTTTTTCAAGGAAAAAAGAAATCCTAATCAGCTAAAGGAGGATGG TCTGGCTCAACATAATCCTGCTTCAGGACTGCTTTTTGAGAACGCTGTTCAGTTGCCTGATACCACCAATGAGAACTTCT ATCGGCAGGTTCGGCGCTTGCACACAATTCTTACCTCAAGGGATTCAATGCAAAACATCCCAATAAATCTAGAAGCTAGA CGGAGGATTGCTTTCTTCAGCAACTCACTTTTTATGAATATGCCTCATGCTCCCCAAGTAGAGAAAATGATGGCTTTCAG TGTTCTAACACCTTACTATAGTGAGGAAGTTTTATTCAGCAAGGAACAGCTCAGAACTGAAAATGAAGATGGGGTTTCTA TCCTGTACTATTTGCAGACTATATATGATGATGACTGGAAGAATTTTGTGGAGAGGATGCGTCGGGAGGGGATGGTGAAA GACAGTGATATTTGGACTGATAAGATTAGAGATTTGAGGCTCTGGGCTTCGTACAGAGGTCAGACATTATCACGGACAGT TAGAGGTATGATGTACTACTATCGGGCCCTCAAGATGTTGGCTTTTCTAGATTCTGCATCAGAAATGGACATTCGTGAAG GCACACGTGAACTTGTTCCAATGGGCAGTCTTAACTCTGAACAGTCACCTTCTTCTAAGAGCAGCCTAAGTAGAGCAAGC AGTTCAGTGAGTTTGTTATTCAAAGGCCATGAGTATGGTACTGCTTTAATGAAATTCACATATGTAGTTGCTTGCCAGAT TTATGGAACTCAGAAAGCAAAAAAAGATCCTCATGCTGATGAAATTTTGTCTCTAATGAGAGACAATGAGGCCCTTCGAG TTGCCTATGTTGATGAGAAAACTTCCGGAAGGGATGAGAAGGAGTATTACTCTGTTCTTGTTAAGTTTGACAAACAGTTG CAGAAGGAGGTGGAAATTTACCGAGTAAAGTTGCCAGGTCCTTTGAAGCTAGGCGAAGGAAAGCCAGAAAACCAAAATCA TGCTATTATCTTCACCCGTGGAGATGCAGTTCAGACTATTGATATGAATCAAGATAACTACTTTGAGGAGGCACTTAAAA TGCGAAATCTGCTGGAAGAATATAGGCTGTACTATGGCAACAGGAAACCCACTATTTTAGGAGTTAGGGAACACATTTTT ACTGGTTCTGTTTCCTCTCTTGCTTGGTTTATGTCTGCTCAAGAAACGAGTTTTGTCACCTTAGGTCAGAGAGTTTTGGC AAATCCTCTGAAAGTTAGAATGCATTATGGACATCCAGATGTGTTTGACAGGTTTTGGTTTTTAACTCGAGGTGGTATCA GTAAGGCTTCCAGAGTGATCAACATAAGTGAGGACATTTTTGCTGGTTTCAACTGTACTCTTCGTGGAGGTAATGTCACT CACCATGAATATGTCCAGGTTGGAAAAGGAAGGGATGTTGGATTGAATCAAGTATCAATGTTTGAAGCAAAGGTTGCAAG TGGAAATGGCGAGCAAATCCTAAGCAGAGATGTGTACAGGTTGGGTCATAGGCTGGATTTTTTCCGGATGCTGTCATTCT TCTACACTACAGTGGGGTTCTTCTTCAACACAATGATGGTGGTTCTGACAGTATATGGATTTTTATGGGGTCGACTATAT CTTGCCCTTAGTGGCGTTGAGAGTGCAATGGAAGATAACAGTAGTGACAATAAAGCACTTGGTACCATCTTGAATCAGCA GTTCATCATCCAGCTTGGACTTTTCACTGCTCTTCCAATGATTGTTGAGAATTCCATTGAGCATGGGTTCCTTCAAGCAA TCTGGGATTTCTTGACAATGCAGCTCCAGCTTTCTTCAGTTTTCTATACATTCTCCATGGGCACTCGTAGTCATTATTTT GGCCGGACCGTTCTGCATGGAGGGGCAAAATATCGAGCTACTGGCCGTGGTTTTGTTGTAGAGCATAAGAGTTTTGCTGA AAACTATAGACTCTTTGCCCGTAGTCATTTTGTAAAAGCAATTGAATTGGGGCTAATACTTGTAATTTATGCATCACACA GCCCTGTAGCAACTGACTCATTTGTTTATATAGCCCTGACCATAACTAGTTGGTTCTTAGTTGCATCATGGTTGATGACA CCATTTGTGTTCAATCCTTCTGGCTTTGATTGGTTGAAAACTGTTTATGATTTTGATGACTTTATGAACTGGATTTGGTA CCGTGGAAGTGTGTTTGCTAAAGCTGAACAGAGCTGGGAAAGATGGTGGAATGAAGAGCAGGATCACCTAAAGGTAACTG GCCTTTGGGGAAAGCTTTTGGAGATAATCCTAGACCTTAGGTTCTTCTTTTTCCAGTATGGAATTGTCTACCAGCTAGGC ATTTCTGCTGGAAGTACCAGTATTGGTGTTTACTTACTATCTTGGATTTATGTGATTGTTGTATCTGTGATCTATGCGGT GATAGTGTATGCCCGGAACAAATATGCAGCAAAGGAGCATATATATTATCGGCTGGTCCAGTTTCTTGTCATAATTCTTG CAATTCTCTTGATAGTTGCTTTGCTGGAGTTTACTCAATTCAAATTCGTGGATGTCTTTACTAGCCTGTTGGCATTCCTT CCCACAGGGTGGGGCCTGATATTGATTGCCCAAGTATTTCGACCATTTTTGCAGTCCACAATCATTTGGGATGGTGTTGT TTCAGCAGCTCGTCTATATGATATATTGTTTGGAGTCATTGTTATGGCACCTGTGGCATTACTATCGTGGTTACCTGGAT TTCAGAATATGCAAACCAAAATTCTTTTCAATGAAGCATTTAGCAGGGGCCTCCGGATATCCCAGATTATTACAGGGAAA AAATCCAAAGTTTGA
Protein sequence (LotjaGi3g1v0453900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSRRPRHQPPPASATPPREDEPYNIIPVHNLLADHPSLRFPEVRAAAAALRAVGDLRRPPFAQWRPHMDLLDWLSLFFGF QRDNVRNQREHLVLHLANAQMRLTPPPDNIDTLDATVLRRFRRKLLKNYTSWCSYLGKKSNIWISDNRRAGGESDLRREL LYVSLYLLIWGEAANLRFAPECICYIFHNMANELNRILEDYIDDNTGQPVMPSISGENAFLNHVVKPIYETIRREVDSSR NGTAPHSAWRNYDDINEYFWSKRCFEKLKWPPDVGSNFFVTPGTGKHVGKTGFVEQRSFWNLLRSFDRLWVMLVLFLQAA IIVAWEERTYPWQALEDRDVQVRALTIFFTWSGMRFVQSLLDVGMQYKLVSRETMGHGVRMAMKCAVSAGWIVVFGVFYG RIWEQKNHDRRWSPAANTRVVNFLEVVFVFLIPELLALALFIIPWIRNFLENTNWRIFYMLSWWFQSRSFVGRGLREGLV DNIKYSLFWVFVLATKFCFSYFLQIKPMIAPTKAVLDIKNVHYEWHEFFHHSNRFAVGLLWLPVVLIYLMDLQIWYSIYS SFAGAAVGLLAHLGEIRNMQQLKLRFQFFASAIQFNLMPEEQLLNARGTLKSKFKDAIHRLKLRYGLGQPYRKLESNQVE ANKFALIWNEIILCFREEDIISDRELELLELPQNSWNVRVIRWPCFLLCNELLLALSQAKELVNDSDKRLYNKICKNEYR RCAVIEAYDSVKHLLLQIIKPNSEEHSIMTVLFQEIDHSLEIEKFTKTFKTTALPQLHSKLIKLTELLNKPIKDLNQVVN TLQALYEISIRDFFKEKRNPNQLKEDGLAQHNPASGLLFENAVQLPDTTNENFYRQVRRLHTILTSRDSMQNIPINLEAR RRIAFFSNSLFMNMPHAPQVEKMMAFSVLTPYYSEEVLFSKEQLRTENEDGVSILYYLQTIYDDDWKNFVERMRREGMVK DSDIWTDKIRDLRLWASYRGQTLSRTVRGMMYYYRALKMLAFLDSASEMDIREGTRELVPMGSLNSEQSPSSKSSLSRAS SSVSLLFKGHEYGTALMKFTYVVACQIYGTQKAKKDPHADEILSLMRDNEALRVAYVDEKTSGRDEKEYYSVLVKFDKQL QKEVEIYRVKLPGPLKLGEGKPENQNHAIIFTRGDAVQTIDMNQDNYFEEALKMRNLLEEYRLYYGNRKPTILGVREHIF TGSVSSLAWFMSAQETSFVTLGQRVLANPLKVRMHYGHPDVFDRFWFLTRGGISKASRVINISEDIFAGFNCTLRGGNVT HHEYVQVGKGRDVGLNQVSMFEAKVASGNGEQILSRDVYRLGHRLDFFRMLSFFYTTVGFFFNTMMVVLTVYGFLWGRLY LALSGVESAMEDNSSDNKALGTILNQQFIIQLGLFTALPMIVENSIEHGFLQAIWDFLTMQLQLSSVFYTFSMGTRSHYF GRTVLHGGAKYRATGRGFVVEHKSFAENYRLFARSHFVKAIELGLILVIYASHSPVATDSFVYIALTITSWFLVASWLMT PFVFNPSGFDWLKTVYDFDDFMNWIWYRGSVFAKAEQSWERWWNEEQDHLKVTGLWGKLLEIILDLRFFFFQYGIVYQLG ISAGSTSIGVYLLSWIYVIVVSVIYAVIVYARNKYAAKEHIYYRLVQFLVIILAILLIVALLEFTQFKFVDVFTSLLAFL PTGWGLILIAQVFRPFLQSTIIWDGVVSAARLYDILFGVIVMAPVALLSWLPGFQNMQTKILFNEAFSRGLRISQIITGK KSKV
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 |
|---|---|---|---|---|---|---|
| MobiDBLite | 1 | 22 | 22 | - | – | |
| Phobius | 1 | 305 | 305 | - | – | |
| PANTHER | 17 | 1761 | 1745 | 0.0 | – | |
| PANTHER | 17 | 1761 | 1745 | 0.0 | – | |
| SMART | 157 | 273 | 117 | 1.4E-74 | ||
| Pfam | 159 | 271 | 113 | 1.5E-38 | ||
| Phobius | 306 | 325 | 20 | - | – | |
| Phobius | 326 | 344 | 19 | - | – | |
| Phobius | 345 | 364 | 20 | - | – | |
| Phobius | 365 | 384 | 20 | - | – | |
| TMHMM | 378 | 400 | 23 | - | – | |
| Phobius | 385 | 403 | 19 | - | – | |
| Phobius | 404 | 422 | 19 | - | – | |
| TMHMM | 421 | 443 | 23 | - | – | |
| Phobius | 423 | 445 | 23 | - | – | |
| Phobius | 446 | 456 | 11 | - | – | |
| Phobius | 457 | 475 | 19 | - | – | |
| Phobius | 476 | 486 | 11 | - | – | |
| TMHMM | 485 | 503 | 19 | - | – | |
| Phobius | 487 | 503 | 17 | - | – | |
| Phobius | 504 | 532 | 29 | - | – | |
| Phobius | 533 | 550 | 18 | - | – | |
| TMHMM | 537 | 559 | 23 | - | – | |
| Phobius | 551 | 555 | 5 | - | – | |
| Phobius | 556 | 576 | 21 | - | – | |
| Phobius | 577 | 1332 | 756 | - | – | |
| Pfam | 873 | 1661 | 789 | 7.1E-266 | ||
| Phobius | 1333 | 1359 | 27 | - | – | |
| TMHMM | 1334 | 1356 | 23 | - | – | |
| Phobius | 1360 | 1378 | 19 | - | – | |
| Phobius | 1379 | 1401 | 23 | - | – | |
| Phobius | 1402 | 1412 | 11 | - | – | |
| Phobius | 1413 | 1431 | 19 | - | – | |
| Phobius | 1432 | 1470 | 39 | - | – | |
| Phobius | 1471 | 1490 | 20 | - | – | |
| Phobius | 1491 | 1501 | 11 | - | – | |
| TMHMM | 1501 | 1523 | 23 | - | – | |
| Phobius | 1502 | 1524 | 23 | - | – | |
| Phobius | 1525 | 1574 | 50 | - | – | |
| Phobius | 1575 | 1596 | 22 | - | – | |
| TMHMM | 1579 | 1601 | 23 | - | – | |
| Phobius | 1597 | 1607 | 11 | - | – | |
| Phobius | 1608 | 1629 | 22 | - | – | |
| TMHMM | 1608 | 1630 | 23 | - | – | |
| Phobius | 1630 | 1640 | 11 | - | – | |
| TMHMM | 1640 | 1662 | 23 | - | – | |
| Phobius | 1641 | 1662 | 22 | - | – | |
| Phobius | 1663 | 1668 | 6 | - | – | |
| Phobius | 1669 | 1692 | 24 | - | – | |
| TMHMM | 1675 | 1697 | 23 | - | – | |
| Phobius | 1693 | 1711 | 19 | - | – | |
| TMHMM | 1712 | 1734 | 23 | - | – | |
| Phobius | 1712 | 1731 | 20 | - | – | |
| Phobius | 1732 | 1764 | 33 | - | – | |
| Coils | 1764 | 1764 | 1 | - | – |
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 |
|---|---|---|---|---|
| Cellular component | 1,3-beta-D-glucan synthase complex | A protein complex that catalyzes the transfer of a glucose group from UDP-glucose to a (1->3)-beta-D-glucan chain. | ||
| Molecular function | 1,3-beta-D-glucan synthase activity | Catalysis of the reaction: UDP-glucose + [(1->3)-beta-D-glucosyl](n) = UDP + [(1->3)-beta-D-glucosyl](n+1). | ||
| Biological process | (1->3)-beta-D-glucan biosynthetic process | The chemical reactions and pathways resulting in the formation of (1->3)-beta-D-glucans, compounds composed of glucose residues linked by (1->3)-beta-D-glucosidic bonds. | ||
| Cellular component | Membrane | A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
Expression pattern of LotjaGi3g1v0453900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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