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| Field | Value |
|---|---|
| Gene ID | LotjaGi1g1v0687900 |
| Transcript ID | LotjaGi1g1v0687900.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Xyloglucan endotransglucosylase/hydrolase; TAIR: AT2G36870.1 xyloglucan endotransglucosylase/hydrolase 32; Swiss-Prot: sp|Q9SJL9|XTH32_ARATH Probable xyloglucan endotransglucosylase/hydrolase protein 32; TrEMBL-Plants: tr|I1JPQ7|I1JPQ7_SOYBN Xyloglucan endotransglucosylase/hydrolase; Found in the gene: LotjaGi1g1v0687900 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:125522065..125538263) extracted from Lotus japonicus Gifu genome v1.2.
CTAATCCCTCCACAATTTCACCATTAGTTCTCCATCTGGGTCCCACTAATTTTCTTATTTATATCAAACATACTACCATA CTCTTCTTCCATATGCCCCTCACACTTTGAGCACTTTCCTCCTTTTCTCTTTTTTCTGACCCTGCATTTATACACTGCTT TGTGCTTTCTTCATGGCTCTCCTTGTCTTTGCTATTTTGATCTTCTTGGCCCCTTCAAGCAATGCCTACTGGCCACCTTC ACCTGGCTACTGGCCAAGTTCCAAAGTCAGGTCTTTGAGCTTTCACAAAGGATTTAGGAACCTATGGGGCCCTCAGCACC AAAGACTAGACCAAAGTACATTATCAATTTGGCTAGATAGAACCACAGGTCTCAATCTCTCATCACTCTTACTTCACTTT CAAGTTAAATGCTTTCTCATTTTGTTACATTTACTGCATGTTTGGAAATCCTTGGTCAGAAGCTTTTGACTGTCAGATTA GATTATGAGAAAAGAGAACTTGATCCAAACATGTTACTAATCCATTTCCATGTCTTTGTTTCAGGAAGTGGCTTCAAATC GGTACGTCCATTTCGATCCGGGTACTTTGGTGCTTCCATTAAGCTCCAACCTGGGTACACTGCAGGAGTTATAACAGCTT TCTATGTAAGATATGACCACATGACACTGCAAATGAATAAGTTGATTAATTGGAAGCTAATACAATTTTTTTAGCTTATT AATTACTATTACTAATGCTGAATTGACTAATGGCAGCTTTCCAACAATGAAGCACATCCTGGTTTCCATGATGAAGTGGA CATTGAGTTTCTTGGGACAACATTTGGAAAGCCTTATGTTTTGCAGACCAATGTTTATATAAGAGGGAGTGGAGATGGGA AAATTATAGGTAGAGAGATGAAGTTCAATCTGTGGTTTGATCCTACCAAAGATTTTCACCATTATGCTATACTTTGGAGT CCTAAGGAAATCATGTAAGTCACTATAAATTTAACTCATTTTTCACTTAATCTTTATGATCATATTACCATTTGGGATGT CTACACCCCTCATTGGTGTCTATCAGTTTTATCAACTTTTATCTTTAAAATCAATTCTAACAGTTAAAAGCTACTTAAAG AAGTTGATTTTGGTTTTAGAATCAAAGTTATATGTGAAATTAAATTTGTTGATGTTCAATGCTAGTACTAAAAAGAAGGG TAAACAGGGTAGGCTCTGTTTCTTTTTCTGCTGAAGTAGATTGGCAGGAGACAAGATAAAGAAAATCCAGGTTTAATTGG TTCATAGCTTCTTATCAATTGGCAATTTGGCATCACAGACACAATTGATTGATAGCTTTGAAGATGAAAGGGAGAGGATT TCGTTTTCTCTGAAATAATGGAAGGTAGCAAATACAGATTTGACAGGGTTAATAAATTACATAGGAAAACAGAATCAATA CCACATGAATAGCACAAAAAAACATAGCATGGAAGTGAGGGGTAAACAAAATAATTACTAAGTGTACTGTATAACACCCA TCTAATAAAAAGTTAAAAGCAACATTAATGTATTGATCTACTAGTTTTTTTATGGCCACCAAGGGTAATTGTAATTATAA AATGAATTCTAACTTTCAACCATAACATAAAAAAATTCCATCTAGTTTATGACTCTAAAAAATGATTCTTACCCCAATAC AACTTGTCCATTTTATTTTGTAAATCCTTCTTCTATGTAAAAATAATTTGGGGAGAAGCAAAAATCAATCCTTCTTCTTA TATTAGCGTTTTCTATGATTGTTTCCGGTAAAATAGATTATAGTAAAAAATAAGTTGAAAGTGAAATATTTGGATACAAT CATCAAAACATGATTTTTGCGGTTGTAAAATTTCACATTGATTATATATTTATATCCAATATAGAAGCTTATGTCTCTAG CTTCAACCATAATTATCTCAGGGTCTAGGGTCTGTAATCAATTCTCCAAAAACTAAAATACTTTCATCTATAATTGATTT ACTCTACTCGTATTGATTCTAAGAGTTTTCCAACAAGAAACCAAACACGCTCTGAATAGGGTCTTAGTGTGAGAATTGAT TCCGATAGTAAAAAGTTATTGAAACATGTTTGTCATTATTACTGACATTGAACTATATACGTGTCAGTTTCCTAGTAGAT GATGTGCCAATAAGGAGGTACCCGAGGAAGAGCAGTGCAACATTTCCAGTGAGGCCAATGTGGCTTTATGGTTCAATATG GGATGCCTCATCATGGGCAACAGAAGATGGAAAGTACAAAGCTGATTACAAGTATCAACCTTTTGTTGCAAAATACACCA ACTTCAAAGCTAGTGGCTGCTCAGCCTTTGCCCCTCGGTGGTGCCACCCGGCCTCAGCCTCACCGTACCCCTCAGGTGGG TTGACCTCACAGCAGTACGGGGCCATGTCGTTTGTGCAGAGACACCACATGGTTTATAACTATTGTCAAGACTCCAAAAG AGATCACAGGCTCACACCTGAGTGTTGGGGTTAAATCTTAAAAGGATAATCATACATAGACATACATTTTGTGCTAAACA TACTTTAAACATATCATCTTGTGATGGTTTTTTAACAATCACCACAAATGTGGAGATTTAAAATTGTCACAACATGGTAT ATCTGAAGGATGTTGCAAAAAAAATGTATGTCTATCTATCCTTTTCTCTATCTTAAAACTATCACACGGCTACTAATGTC ACCACAAACTAAGCAAACCACAAGTTAAATGAAACATTAAGTAAATGTCAAACAAACATAAACGAGGTCCAAACAACTAG TGGTCACTATTACAGTTATCCAAATCAAACTCAAAGTACCACAAGATAACTAACTATGAATCCCTAACTGAATTACAAAT AACCAAAGGTCAAACATCAAAACAAAGAAAGCACAAACACAATGAAAAGCCAACAAACTAGTTAATGCCCTCATGTAACC CCCTAACCGAAGCGGAAAGAACATCAACACGATCATTCAAATCGACAAGATGAGCATTGGTAGCCACAAATTGATCACCG ACATAGGACCGGAAGGAATCAAGACTGTCATTAACATGAAGTTGAAAAGCATCCAAACGATCCAAGACCACTTGAAAAGG AGAGGAATCAAGTGAAGGGGTACGAGAAGCAGCAGCAGGAGCACGAGGAATCGAAGTAGCATCAACCTCATCGTCATCAG TGAATTTATAGCTACGGGAATCCTCATCTAACACAATTTTCAAATGACCCAAATAATTCTTATCAATGCGATCGTCATCA CGACCAATCGAACTCGGCTCACCATCAAGAGGGACGCCACGGGCCTGAAACACATGAGTAAGCAAACGTGCATAAGGAAA AGCTGTTGAGCCCGCTTTTGCCTTAGCCATATGGTTCATGATAACAAAAGCCCAGTTGACCTTATTGTGATTCTTCATAG CATACATCAGTTGCAATTCCAACTCATTAATTTGAGCATGGTTTGTACCCTTTGGTAAAAAGACATAGGTCATAAAATAG TGAAGCAGGCGATCATCAGGATTCAAAATACCAACAAGCATTGTGTCCTTTGTCTTATGAGTCTCACAAAGTTCCCTTTT CTTAAGCAAAGATGCTAACTTAGACTCACGACACAAAGAGGTATAATAAGCTTTCTTATCAAAATCAGACCAAGGACATG GTAAACCATCACCCAACTCGAGTCCCACACTAGGAATACGAGCACAGTTCCCAAAAGTAGCAACATCCATGCGAATCTTC TTGCCCTTAACTTGAGAATACAAAACATTCTTTTCTACCTTAAGGTTGCAATAAAACACCTTAACCAAATCGGGATAATA TTCAACAGTGTCTTCAAACATTTGGTCTAAACCTTGTTCCTCAATAAGATTTTGAAAAAGAAACCCACCAGAATTAAAAG ATAAAATATTACCAAATTTTGTAGGTAGGATTGAACGGGAAGCAAAGGACGTGACTTCCCTTTGATCCTCACCTTCATCC AGAGGATTATATGGCTCCGTGGTCTTCCTTTTGCGTTTCAACTTTGAAGGATGAGAAGGAGGCATGATTTTAGGGTTTAG GGTTTTAGGATCTCTCAAATGGAAAAGAAATTGAAGAAACTGAGTTGGGGAAAGTGTTTAGAACACTTGAGATATATGAA ATTGATCTTTATTTCTATCAAATCGGTGAACACTTGAGTCGCGTGATCTAGAGGGAAAGAGAAGCTTGGAAACGCGTTTC CAGGGAGCCCAGGAGAAGAAAAACGCGTGAATGAAGGAAGAAGGAGCTGGTTCGAATTTAAAGTGGAACATGTAATCGAT TATTTATTAATTGTAACCGATTCCTGTAGGATTCTGTTTGGCCGTTCTGAACCCTGGGGATCGCGTAATCGATTTCCCAA CTTAACTGCTGAAAGCTGAAAACTCGAAATCAAACACCTCGGCAAAAACAGGAGATCCAAAATGTGACAGTATAACAGCA GCATGTTATCCCTTGGTTTTTCTCATGGGATTTCCGAGTGGCTCGGTTAGAGTTGAGGTAGCAAAATACTTCACGGTCTG AGAGAATGGCAAGGGGCTCTTGTTCTTGAAAATCATGAATTGAATCACAACTTCATATAGAAAATTTTTAGGCAAATCTC CCTCTAAACAAAACAAAAGTAATCTCATCATGTTTCATGCACTCTTGTATACAAATTAAATTATATACTTGGTTTATAAA TGTCATATGAAAGTGCATGTCTTGTAGTACAAATTTATCCACAATACACATATTTTTTTATACCAAATACTTTAACTTAT CCACACACTACACGTGCAATACCAAACACACAATCTCTAACTTATCTGCTAATTGCCAAGGAACTCACTAATCATGAACA AAAATTCCAAGTTCATTAGTTTACAAACAGAACACAAAAAGGTACAACGATTTATAATAGAACATTATTGGCCTAAGTTC CTTTCTTATATTTGGAAACCATTCATTATCTGTACATTTTCAATTTGAATTTGTTCCAGCTCAAATAGGAATATAAAATG CAGCAGCAAACTAAGAAGAAAACAATTTAATCTTGGTTTGATTACCATCACGTTAGGCGGCAGTCACCATTGTATTGGGA TAAGAAAAATGTCCAAGGGTTACTGTCTCTTGCCTAATTCATGTTCTAACTTTTTGCTCATTCCCACTAAATGTCCAAAG CTCCTAGCCTAATGCATAATCACGCATAACATGGGTTTCTTACTCCAGCAACTACTGCTGAAAAAGTTATTAAATGAATA TGGTACCCTCAATTTGGAGGTTCTAAAAAAAAGGAATGAAACATTGTAAGCAACCTTTAGAATTCAACAATCAATAATCA GTAACAAATTAAACAATCTGCTGCCAATACAAAGATTCAAGCAACCTCAGCATCAAGGAGAACTATCTGGATACCAAATG GATTAATTGGTTCTCCAACAGTACGAAGCTCCCACACCTCAAGAACCCTGACTTTCACTCTCCATAGATCTCTTCTAGGT ATAAGGCTCTTAATCGAATTAAAACCACCATTAATATCAGAGGTTGGAAACTTGGAATGAGGATTGTGTGAATTGTGGTG GAGTGAATTGTCGTGCAGCAAGAGTTGTGTGAGCATTTATAGGCAAATGGATATGAGTAAAAATTCAAAGGAGAAGAAGT TGTGTAATGCATTCGACCTGTAACCCTAGAACTAAAAACCTAATCCCAACTTCAAATCAGAATGGAAATGACAGATGCAT AAAAATGGATGAACCGAACCTAACAATGGGGAGTGGTTGCAAAGCAAGTACCAAATCCCCCAAAAAAAAAATCACATCTA ATAAAAAAGATCAGATAAAAAATTCAAATAAAGGACGAAATTAAGAACAAACGTATGAGATTTGCTAAGCTACAGCGGAT TTAAGCTCAATGGAGAATTGTTACTAAGCTTAACCATGCAATGGTTGACGAGCGACGTGATAGCCAGAGCCGGAGGAGTG ACGTCAATCACAGCTGAAGCAGGGGAAATACATGACGTTGCTAAAGTCGCAGAAGAGAAAAATCGGAGAGAACAGAGGTG GAAGAGAAGTGAGGTCGTGCTTTCCCCATGAAATCCGGAGTGGAGGGAGGCAGCGTGGGCAAAATGAGAGAGAAACAGGT GCCAAAATAAGAAACGACGTCGTTTAGAATGTTCCGGTTGAAAAAAAACACAATATGTAAGTAAAAAAGCAAGCCATGTG GCGCAATGCGATTGGAGGTGTTTTAGCTACAGTAAAAAAGCAGCTCACAAATAAGGAGTAGTAGATGCCAAGCATGAGTA TCAAGTATCAATGCCAATCTTTTTGAAATCCATTATTAAAGAGTAGGCTAACAGTATGTTATTTCTTTTAAAAATATCAT TCTACGCTGAGATAAAGACATGACTCAAAATCCATCACATTGGAACTAATCATTTTTCAAGTCAATCTGCTCAAAAAGAC CACATGCATTCAAAAATTGGGATGCATATACTCAACCATAAAAGCTAGCTCAAGAGTTAAGGTTTACACAACCCTTATAA AGGCTATCTATGCTCTATCTCTAGCCAATGTGAGACTTCTAACACACTCTCATGTCCAGGACTGAACAACCTAGAACGTG GAAACAACAACAGGTGTCCCAAATATGAGAAGTCTCGGAAACAAACAACAAATGGACACATTTGAGCTCCCCTGAGCAAG AGTGCTACTTCTTTTTCTCTCAAGAGGTGCAAGCCATGAATTCCAGAGATAAGTGTTGAGTGTTAACTCTGAAAACAACT GGTTACAGAATTTTTTTCAACTCTTTTTCATGGCATTACGCCAAAGAACAATAACATAATTTCTTTCAACTCTTTTTTGA TGGCATTACGCCAACGATCAAGAACATAAACCTGGTTGATCAACCAACATCATATTTCAACAATGGAAACTGCAATAAAA AACCTCTAAACCGAAAACTTAGCTGTAGATTTCAGTGCACCGGTTTTACATGAAAAGTCGTATGCCGGTCAAATTGATCT TCCCACCCACAAGTACAGTGCTATAAACTTAGCTCATAAGATGATTGAATGGTCGCATCAATCAACAGAGCAAATATTAC AAGAGCTCTTTTACACAGCCAATTAATGCGTGCTAGTTATATATGATAAAACAAAATCACACTCAAATCCAATCAAATGA TTTCTTATCATTGTTTTCCAATTCTACCAACTGTAAAAGGTATATATAGATGGTCTCACAACATGTAAAATAAAATTAAA ATAATAACTTGTTCCATGACTACTAAGAACAACCACAAAAGTCTTGTCTTATCCCACTAAGTGAGGTAGGCTAAGATGAC AAAGAGAAGATAGATTTCAGCTGATCTCAATCCTTAAAAGGGTGATCCATTTGTGCTCTTGAATGTCAGCTGGATTCACT TTAAAAGGACTTATTCAACCTTAATTAAAAAAGGTTAAACTTACAACTTAAATTTGAAATTCAAACAGGGAGCACATGAA ATTCTCTAAACTCATTAAATTCTTCTTCGGTTCAATCAGCCAAAACCAGAAAACTCCTAGCACCACTTGGGGGATGGTCC TAACAAGAGCTGAATTGAAGTTCACAAAAAAAAAGGACAAAGATATATAAGAAAGAAAGAAAACATGAAATTAATTAATT AATTAAACTCGATATGATTTAGGGCTGGTACCTTACCTTTAGCGAAGGTAACCTTCTGGCAGGTGTGCAGCGGGATCGAA GTCTTTCAAACATCTGATGTCTTCCACGGATATATGATTATCAATCGGCCGATAAATACAATGTTCTTCTCTAAACCGCT CAATTTCTTGTTCGGTTCTATCAGCCATACTCAGATAACGCCATCCATAACCTGGGGGAGTGGCCCTATAAGATTTCGTG AACAACTCCAACCTCATAACTTCCTCATCTTTGCCACTGTATTCTTCTCCAAACACTTTGCGCCAGATTTCGAAAGCTTC CTCAGGGGTAAATTCCATGGCTTCAACAATTACAACAACAAAAACAGAAAAACCAGCAAAGATATATGAGAAAGAAAGAA AGAGGAAAACATGAAATTAATTAACTCAATATGATTTAGGGTTTACTTTAGGATTGGAATCTACAACAAACAAGAATATA TAAGAACAAAAGAAAACATGAAAATATGATTTAGGGTTTGTACATTTAGGAACAGAATCAGTGTTGTGTTCTTCTCCTCC TACTAAATCCTTGTCAACTTTGAATTTCTTTACCGGTGGAGCAAAATCCTTCCCATTCTCAGCTGACCAAAAGAAAACAA ACAAGGAATCCATTGGAACGGGCACAAACAAGAATGAAACAAGCCAGCCAATAACATAAAAAGGAAAGAAAACATGAAAA TATGATTTAGGGTTTGTACCTTTAGGAACGGAATCAGTCTTGTGTTCTTCAAGTACTAAATCTTTCAATTTCGCAAAATC CTTCTCATTCTCAACTGAACAAAAGAAAACAAACAAGGCATCCATTGGAAAGAGAACCAACAATAATGAAACAAGCCAGC CAATGCCAGCCAATAATATAAGAAAGAAAGAGAACATGAAAATAAGATTTAGGGTTTGTACCTTTAGGAACGGAATCAGT GTTGTGTTCTTCTTCATCTCCTACTAAATCCTTGTCAACTTTGAATTTCATTACCGGTGGAGCAAAATCCTTCTCATTCT CAACTAATCAAAAGAAAACAAGAAATTAATTAATTAAACTCATATGATTTAGGGCTTGTACTTTTAGGAAAGGTAACCTT CTGGCAGGTGTGCAGCAGGATTGAAGTCTTTCAAATATTTGATGTATTCCACGGATATATGATTATCAATCGGCCGATAA ATACAATGTTCTTCTCTAAACCGCTCAATTTCTTGTTCGGTTCTATCAGCCATAGTCGGACAACGCCATCCATAACCTGA GGGAGTGGTCAGGTAAGATTTCGTGAACATCTCCAACCTCATAACTTCCTCATCTTTGCCACTGTATTCTTCTCCAAGCA CTTTGTGCCAGATTTCGAAAGCTTCCTCAGGGGTAAATTCCATGGCTTCAACAACAAAAACAGAAAAATCAGCAAAGATA TATAAGAAAGAAAGAAAGAGGAAAACATGAAATTAATTAACTCAATATGATTTAGGGTTTACTTTAGGATTGGAATCTAC AACAAACAAGAATATATAAGAACGAAAGAAAACATGAAAATATGATTTAGGGTTTGTACATTTAGGAACAGAATCAGTGT TGTGTTCTTCTCCTCCTACTAAATCCTTGTCAACTTTGAATTTCTTTACCGGTGGAGCAAAATCCTTCCCATTCTCAGCT GATCAAAAGAAAACAAACAAGGAATCCATTGGAACGGGAACAAACAAGAATGAAACAAGCCAGCCAATAACATAAAAAGG AAAGAAAACATGAAAATATGATTTAGGGTTTGTACCTTTAGGAACGGAATCAGTATCAGTGTTGTCAACTTTGAATTTCT TAACCGGTGGAGCAAAATCCTTCCCATTCTCAACTGATCAAAAGAAAAAAACGATTGTAATTAAATTAGAGGTTGTGCTG CGTGCTTTGGTTTACGTGGTTTGTACCTGAATCGTGGTCTCGAATTAGAGACGCGGAGGGGCTGGAAATGGAGGCGCTAG GCGTCGACATCGTTGCGTTGCGTTGCGGCGCGGCGGTTGAGAGAGGAGAGGAAGAATGGAACGGAATGAATGAAAGAATG ACCACGCTTGCTTCTTTGTATGGTTATTTGTGTAATTGTGTTATTTATTGACTAGAGAATCAATCCTGATCGTTTGTTGG TTTTGATCATGAGCGTTAATTCTTTAAAAGGAACTTAAATCCTCTTTCGCTGAAACGTGAAACGTGAAAGTTGAAACGCT TTGTGAAACGTATTACACTGCTACTTACTCTGTTCAGTCCCTTCGAAGATGGCTTCACCCAGGGGCGGAGCTAGGTTCCG GCTAGGCATGGCACATGCCCAGGCTTCTTGCCAAATTTTTTTTTACTTGGGCCATAGGCCTTTTTTTTAAAAAAAAAAGA ATTTCAGATGGGCAAAAACAAATTTGATTGACACTGCCCTTGGCCCTTGCACACAACAGTTTTCCTCTCTTCTCTTAGTC TCACGCTCACGCACATGGAAAACATTCTCTGAAATTCTGAAACGGCTTGAATCTTCCCTTGTGCCTGCTTCTTCTTCGTC GCTTGTTCCTGATTTGTGCCTTGCAGTTGTGCCTGTTTGTGACTGCTTCTTCCTCTCTCTCTATCTTGTTCAGTTGTTCT ATTAGGTATGTTGATTTTGCTTCTTCCCCTGTCTTTGGATTTGTCTCCTCTGTTGATTCTGCTTCTTCCCCTCTCTCTGG ATTTGTCTCTTCCTAGTTCTATTTCACTTGCTTTATATGATAAGGAAATTTTCAGCATTTATTCTTAATTGGGTATTGTC ATTCGTTTACTGTGTTTCATTGGTGATTCTGATTTTTGTGTTTTTGTTGTTGTTCTATCCAATTTCAATATACTATGTGC CTATTTCAATAGTGGCAATTGTTAAGCATGTGAATTTTGAGCTAATTTAATTGTTAAAAATGAATTAGCGTTGCTTTACA GATTAATAGTTGCAGAGTGAATCAGCCTTGCATTGCATATTAACTCCATGTATTTGAATACAACACAAGGGTTGGTCTCC TTGCATAACAAAAGAGAATAACTCCATGTATTTTAACACTAAATATGTTTCAGGCTTTGAGTGAGAGGGGATATGAGCTT GTTTCCGGTGGAACTGATTTGCAATTGTAACATTCAGTGCTAATAATTGTGTTATAGTCCCAAACCTTACATTTAATTGT CTATTGGTTGTGTCTTATAGAACAATTTTAGATGTTGCATTATAGATTATATATCTAAATGTATATCACTATGTGCCTCG TTTACCTCTTTTTCTTGTTCTTTTATCCTCAAGCTTTGTTGTTAGTTTGTCTTGTTGTCTCTTTCTCTTGTTCTTTTATC CTCAAGCTTTGTTCTTTTTCTTGTTCTTTTGCTGGTGACTATAGTTTCCTTTTCCCTACCCTGAGAGGGTTGTTCTCAAG GTTGCTTTTTATCTAATATATTATTCCTTTTTCTAAAAAAAATAATCAAATAAATTATTCGCGGTTCAATTTTTTTTGCC CAGGCTTCAAAATAATCCTGGCTCCGCCACTGGCTTCACCCACAGAATCGCATCATCTCTTCTTCAATCGCCGATCACCC AAATCCTTCCTCACCAATTCCTCAACCCACAGGATCTCATCTCAAGGAGGCCGATTTGGAGGACAAACTTCAGTTTTAGA GTCAGATCAACGCAGAACTACGAGATGAAAGGAGCAGCAATCGATAAAGAAGGGGATTCCAGTATGATTTGCCGAAGATT AGGGGTTTTAATCTTGGGATTTTGTTTATTGATTTCACGTTATGGTATCGCAGGGCGCAACTCTCTATTCTGCCATGCCA GGGTATTCTCATTTCTTCTCTCATATGGCTTATCTCCTTTCTCCTCTCTCACCTGTGGCTTCACACAACATCCCATCACA ACTCAGCGAGTGAAGAAGGGAAAATTTCATGTTCCTCCAATCTTCTTTATAATTTGATAGTTTCTTACAACTACTTTTCT ATTGTTTCAATCGTTTTACCAAAATTTCTTCTTAAAAATACAATGTCTTATTGTGCAGAGGCTTCTGAGACAGTGATGAG GCTTTAGAAGATTCCTTGGTGCCCGAAAGGTGAGCAATTGTTCACCTTTGCTTTAACTTCTACCTTTATGGAAATTAACA TAGTAATATGCAGGTTGATATGCAAAATTAAAATGCCTTTACTTGAGGAGAGAGCATGTGCCAGAACAGACTCATTATGT AGGTTAGCATTGCAGCATATAGATATGCTTGAAGCTGCTCTCGGAGACAAAAACAATGTGAGTTTTCATATATACAATGA TTCTTATTTACCATGAGTAAGAGTCACAGATTAAATCCTTGATCTCTATTCATCTAGGGTTTAGTTCTTCATTTAGGGGA AAACCCAGTGATTGCCTCTCTATATTTGTATCCACCTCTGATCCTCTTCTTGCTTTCCTCCTAGGCTGCAGGTTATTAAT ATGGCTTCATTATTTATATGATTTCAATAGTCTAATAGTGTCTTTCCTGTTTCCCCCTTTGAATGCAGAAAGCATGGTGT TGTCATCTTCTATCTCTCTGAATCACCCGTCTCCAAAGGTATACCTTCTTTTCAGTAATCTATCTATATACTATAAAAAA GAAGAACTCTGTGAGACCCACTTAGATGAGTTGGCACTCCCAGGTTCACTCTCACTCACCCTCCTCTTTAGTTGACAAGT GTCAAACTCAAATTCATTTTGACTAATTTATGGCCTTCTCCTTGATTTTAGTTTTGTGTCCCATCATTGTCAAGCATTCA AATAATCTTGAAATAACTCATTAATTGTTGTTTAATGATTTTTAAAGAATTTTTTAAATGAATATCAGAGAAGGATTATT CAATCAATTTTTTTAAAAAAATCTAATTTTAAGTAATCAAATGGTTGCATCTATTATGGAATTAAATCAATCAAGCATAC ATAAATTTCATTTTTTTTAATTATTCAAAGATAAATTATGCAAGATATGCTCTACTATTGATCAACCAGTATTCAGTGTT ACCTTTAATTTTCTTTATAACAAATTATGAAAAGTCATTTTTTTCCAATCCTATTTTTGGGAGAAAATCCACGTTTTAAT GGTAAAAATATGATTAATATTTGAATAAAGTCCAAATAATAATTGTGAAGAGTTTTATTTTATAATCAAAATAAGTTGGA ACAACATAAATTTCGTAGATTAGGAATCCTAATATTGATATATTCACAATACCTTATTTATTTATCATTCTTCTCCCTAC ATACGGTCTAAATTTCTTTTCCTCTGACCTATTTGTTACTTTGTAGTTTCTATAAGGTTTGTTTAAAATTTTCAAATTAT ACACAGTTTATATTTGTATCGATTACTGATTATTACTCTTATATAAATTTTTTCCTTTGTAGGTTCTATAACTCAAATAT GCTTGATTAACAACAAGATCGTTTATGAAGTTTTTATCATTAATCATGGACTACAACTTATAATAAGGGTTCATGTTGTT GTCATTGTTATGTTTATCTCATTTCAATTTCAAATAAATGCATTCCTTAAAAACTTGATTCTTATTACTATTCAAATGTT GACATTGTGAGGTCTATACAACCTCATCAAATTAATATATTTATTGTGGTCCATTCAAATAGTTATTCATAAATTTCCTT TTTTTTAATTATTCAAAGATAAATTATGCAAGATATGTTCTACTATTGATCAACCAGTTTTCAGTGTTACCTTTAATTTT CTTTACAACAAATTATGAAAAGTCGTTTTTTTCCAATCCTATTTTTTTGGAGGAAATCAACGTTTTAATGGTAAAAATAT GATTAATATTTGAATAAAATCTAAATAATAATTGTGAAGAGTTTTATTTTATAATCAAAATAAGTTGGAACAACATAAAT TTCGTAGATTATGAATCCTAATATTAATATATTCACATTACCTTATTTATTTATCATTCTTTCCCCTGCATACGGTCTAA ATTTATTTTCCTCTGACTCATTTGTTACTTTGTAGTTTCTATAAGGTTTGTTTAACATTTTCAAATTATACACAGTTTAT ATTTGTATCAGTTACTGATTATTACTCTTATATAATTTTTTTCCTTTGTAGGTTCTATAGCTCAAATATGCTTAATTGAC AACAAGATCGGTTATGAAGTTTTTATCATTAGTCATGGACTACAACTTCTAATAAGGGTTCATGTTGTTGTCATTGTTAT GTTTATCTCATTTCAATTTCAATATAATGCATTTCTTAAAAACTTGATTCTTATTACTATTCAAATGTTGACATTGTGAG GTCTATACAACCTCATCAAATTAATATATTTATTGTGGTCCATTCATCTACATGTTTGTAACATATGTTCGGTTCCATAT CTGTTCTACTTACTAAAAAGAGCCTAAATTAAGTCAAAACATATTTCTACTGATTCATCTTTACAATAAATTTAATCGCC GTGCAACGCACGGGTAAAGAACACTAGTAAATCTTATAGCAACATTGTTTACTTTTCTTTTTTGAATAGTTACATTCTTT CTCAGTCAAGGTATATGTTAGATGTGGGTTTTATGTTATGACTGCTTGATTCTATTTTCAATCTCATGTTCTATTTTAAT CTGTTTCAATTTTTTTTGTTATTTCTCTTATAAGTTCCTCTATTGTTTAGATTTTTTGTTCATTTTTTTGTAATTTTGTA ATTTTGTAATGTGTTTATTTTGTAAGTGATCTGAAGTGTTGTTTAGATAATTTCCTTTTTCCTATGTCAGCTGAAAACTA CAGAAAAGCACTTCAAATGGTGCTGCAGGAAGTGCTTTGCGAGTAGTGGTTACTGCATATTTTGATTGAAATATTCAAAG AGCTGATAATCTGCTGCTTTTCATAATATTGACATCTTTTACTACATAAATATGCTATTGAATAGCTATTAAGTTGATTA TCATACTATGAGTAAAAGTAGGCATCGTTCTTACTCTTTTTTACACTTGAAATTGGTTTTCGCTCTAAATTAGCTTTATA TTTATAATAATATTTTCTACATGGGATGCAGATCAATTTGACTTATGATTACCAGTTTGTTTAATTTAGTGTAGATCAAG ATTTTCATTGCGGAGCAACGATCCCAACAGTTTGGAAGATATCCTCTCCGCAAGTCATGCTTTTGAGGATCCAAATGAAG GTTAGTTCGAGGGCAATAGGCATAAGCTAGGTGTGCGACTTACCAAGCCTAAAATGTCCAGGTACTGCATTAAAATTAAT TGAATATCTGGTGGCTTCATCTTCTCTGACATAACACAACTTCATCTAGAGTATATATATATATATATATATATATATAT ATATATATATGTCTCTAACTCTCCATGGTTGTTGAATTATATCAAATTACTTAACCGAACTGAATTTCAGCATCTTTCTA TTGTTTCAAAACTTTGCTATGAGCTAATGCTTTTTAATTTGTTGATATATTATATAATTTGTCAAATTTTCATTGGATTT TTTATTGAAGACATGTATCTATTTTAGCAACGGATGTGCCACCATTTCCAAACATATGTACTGAATGATTTATTGATTAT GATTGATGTTGGGTTTGGGAAAAGATTATGATTCCTTTTTTCTTTTCTACTTCAATTTCTCCTAACTCAGGTTTAACCTT TTGTTTGCATAAGAGGTTTACTAGGGTTGGACTATAATTAGAATGATTTGGAGGAACTATTATCACATTCGATAGGGAAT TGGTGGCTATTTTACCTGTCTGTACATAGTCGAGAAGCAATTGGCAATTGCTATTTTACGCATCTGCTAACAAGCTATGG AAGGTGAAAGGAGAATCCTTGATCCGTTAGAGGGAACCTTCTGAAAATTAGAGCACTGCATGAGTTCTCTAATTCCTTTA TCTTTTCTATTTTTCACTGCTTTTAATATGCATTTGTTATGTTGATCTTAGATAGCTCTCTAGGCTCTCAATTTGATGAT ATAAGACCTCTGGTGAGGTTAAAATGGGTGCCTCTTTGTCACTCCCTTTGTCTTTTCCTTTTATGCTTATATTCTAACCT GATTATACGTAATGGAAACAAGATTAAGTTTGCCATTGATGCCCATCATGGTTTTAATAAGTTCAAGACATTTTTCCCAC AATTCAAAAATGGTCTTCAAGGTTTGATTATGGTTTTTCATTGGTTGTTTATGCATTGTGGGTTGAGCTGTGATTGGAAC ATGTGGGGGAAATTTATCACCAATGTTCGTGATGAAAGACTAGATAAAATAGTCTTTGGAATCTCGCAAGAGATAGATGA TGGAGTAACATTAAAAGTGATTAATTTGTAAAGGTTTAGAGACATTCAAAGTTATAAATTTGTTACATACGATAGACATT AAAAGTGATTAATAAGTTATGTGTGAAGAAACATTAAAAGTGATTAATTTGTAACGGATGAGAGACATTAAAAGTTATTA ATTTTTAATAGGTGAGAGGTGAATTTAGTTTTATGTCAC
CDS sequence (LotjaGi1g1v0687900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTCTCCTTGTCTTTGCTATTTTGATCTTCTTGGCCCCTTCAAGCAATGCCTACTGGCCACCTTCACCTGGCTACTG GCCAAGTTCCAAAGTCAGGTCTTTGAGCTTTCACAAAGGATTTAGGAACCTATGGGGCCCTCAGCACCAAAGACTAGACC AAAGTACATTATCAATTTGGCTAGATAGAACCACAGGAAGTGGCTTCAAATCGGTACGTCCATTTCGATCCGGGTACTTT GGTGCTTCCATTAAGCTCCAACCTGGGTACACTGCAGGAGTTATAACAGCTTTCTATCTTTCCAACAATGAAGCACATCC TGGTTTCCATGATGAAGTGGACATTGAGTTTCTTGGGACAACATTTGGAAAGCCTTATGTTTTGCAGACCAATGTTTATA TAAGAGGGAGTGGAGATGGGAAAATTATAGGTAGAGAGATGAAGTTCAATCTGTGGTTTGATCCTACCAAAGATTTTCAC CATTATGCTATACTTTGGAGTCCTAAGGAAATCATTTTCCTAGTAGATGATGTGCCAATAAGGAGGTACCCGAGGAAGAG CAGTGCAACATTTCCAGTGAGGCCAATGTGGCTTTATGGTTCAATATGGGATGCCTCATCATGGGCAACAGAAGATGGAA AGTACAAAGCTGATTACAAGTATCAACCTTTTGTTGCAAAATACACCAACTTCAAAGCTAGTGGCTGCTCAGCCTTTGCC CCTCGGTGGTGCCACCCGGCCTCAGCCTCACCGTACCCCTCAGGTGGGTTGACCTCACAGCAGTACGGGGCCATGTCGTT TGTGCAGAGACACCACATGGTTTATAACTATTGTCAAGACTCCAAAAGAGATCACAGGCTCACACCTGAGTGTTGGGGTT AA
Protein sequence (LotjaGi1g1v0687900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MALLVFAILIFLAPSSNAYWPPSPGYWPSSKVRSLSFHKGFRNLWGPQHQRLDQSTLSIWLDRTTGSGFKSVRPFRSGYF GASIKLQPGYTAGVITAFYLSNNEAHPGFHDEVDIEFLGTTFGKPYVLQTNVYIRGSGDGKIIGREMKFNLWFDPTKDFH HYAILWSPKEIIFLVDDVPIRRYPRKSSATFPVRPMWLYGSIWDASSWATEDGKYKADYKYQPFVAKYTNFKASGCSAFA PRWCHPASASPYPSGGLTSQQYGAMSFVQRHHMVYNYCQDSKRDHRLTPECWG
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 |
|---|---|---|---|---|---|---|
| Phobius | 1 | 18 | 18 | - | – | |
| Phobius | 1 | 1 | 1 | - | – | |
| SignalP_GRAM_NEGATIVE | 1 | 18 | 18 | - | – | |
| SignalP_EUK | 1 | 18 | 18 | - | – | |
| SignalP_GRAM_POSITIVE | 1 | 18 | 18 | - | – | |
| Phobius | 2 | 13 | 12 | - | – | |
| PIRSF | 3 | 293 | 291 | 1.5E-100 | ||
| PANTHER | 4 | 292 | 289 | 6.5E-178 | – | |
| PANTHER | 4 | 292 | 289 | 6.5E-178 | – | |
| Phobius | 14 | 18 | 5 | - | – | |
| ProSiteProfiles | 16 | 228 | 213 | 30.124 | ||
| Gene3D | 17 | 291 | 275 | 9.3E-92 | – | |
| Phobius | 19 | 293 | 275 | - | – | |
| Pfam | 39 | 220 | 182 | 5.2E-52 | ||
| SUPERFAMILY | 59 | 279 | 221 | 4.64E-63 | ||
| Pfam | 252 | 291 | 40 | 4.4E-12 |
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 | Hydrolase activity, hydrolyzing O-glycosyl compounds | Catalysis of the hydrolysis of any O-glycosyl bond. | ||
| Cellular component | Cell wall | The rigid or semi-rigid envelope lying outside the cell membrane of plant, fungal, most prokaryotic cells and some protozoan parasites, maintaining their shape and protecting them from osmotic lysis. In plants it is made of cellulose and, often, lignin; in fungi it is composed largely of polysaccharides; in bacteria it is composed of peptidoglycan; in protozoan parasites such as Giardia species, it's made of carbohydrates and proteins. | ||
| 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. | ||
| Biological process | Cellular glucan metabolic process | The chemical reactions and pathways involving glucans, polysaccharides consisting only of glucose residues, occurring at the level of an individual cell. | ||
| Biological process | Xyloglucan metabolic process | The chemical reactions and pathways involving xyloglucan, the cross-linking glycan composed of (1->4)-beta-D-glucan backbone substituted at regular intervals with beta-D-xylosyl-(1->6) residues, which is present in the primary cell wall of most higher plants. | ||
| Molecular function | Xyloglucan:xyloglucosyl transferase activity | Catalysis of the cleavage of a beta-(1->4) bond in the backbone of a xyloglucan and transfers the xyloglucanyl segment on to O-4 of the non-reducing terminal glucose residue of an acceptor, which can be a xyloglucan or an oligosaccharide of xyloglucan. | ||
| Biological process | Cell wall biogenesis | A cellular process that results in the biosynthesis of constituent macromolecules, assembly, and arrangement of constituent parts of a cell wall. Includes biosynthesis of constituent macromolecules, such as proteins and polysaccharides, and those macromolecular modifications that are involved in synthesis or assembly of the cellular component. A cell wall is the rigid or semi-rigid envelope lying outside the cell membrane of plant, fungal and most prokaryotic cells, maintaining their shape and protecting them from osmotic lysis. | ||
| Cellular component | Apoplast | The cell membranes and intracellular regions in a plant are connected through plasmodesmata, and plants may be described as having two major compartments: the living symplast and the non-living apoplast. The apoplast is external to the plasma membrane and includes cell walls, intercellular spaces and the lumen of dead structures such as xylem vessels. Water and solutes pass freely through it. |
Expression pattern of LotjaGi1g1v0687900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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