Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0099900
Transcript ID	LotjaGi3g1v0099900.1
Lotus japonicus genome version	Gifu v1.2
Description	Cellulose synthase; TAIR: AT2G21770.1 cellulose synthase A9; Swiss-Prot: sp\|Q69V23\|CESA3_ORYSJ Probable cellulose synthase A catalytic subunit 3 [UDP]-forming]; TrEMBL-Plants: tr\|A0A151SXB6\|A0A151SXB6_CAJCA Cellulose synthase; Found in the gene: LotjaGi3g1v0099900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:12420664..12434125) extracted from Lotus japonicus Gifu genome v1.2.

AAAATTAGAAATGTTAAGGTATAGCTAGTGTTACATGTGATCATATCCATCAGCACCAAATGGAGACCAATTTGGGGTTA GTTGCAGGTTCTCACAACAGCAATGAATTCATTATCATACGTCAAGATGGAGACTTTGCTGTAAGTAACCAAGTATAATC ATCTCTTATACAAAGTGGTATTATAAGCATATATTGGTGGACACGAGATTTCTGGTGAAACTAGTAACACATGCAATTTG TGGTTGTTTTTTACTGTCACAAAGCAGAATTATTTTTCTCTTTTTTCATAATGACATACAATTTGAGAATTGACAATAAC ATGTTGCGTGTTGGTTTTTTTGGGTGTGGTGCAGCAGAGAGAGTTCCAAGAGTTACATTGTCAAATATGTCAACTATGTG GAGATGACATAGAAGTTAATGCAGATGGTGATCTCTTTGTGGCCTGCAATGAGTGTGGCTTTCCTGTTTGTAGAAACTGT TATGAGTATGAACGCAGGGAAGGGAGTAAAATCTGTCCACAATGCAAAACCAGATTTAAGCGTCTCAAGGGTAAGTACAA TATATAAGTATATTAATCATTGTAATTAGAGCCGAAAGCATTTATAATTAAACCCCTAATGTCAAAAGTTCAATTCTTAG GAGACGTACTCTAAGGAACATCTTTAACCTTTACCACCACACCCGAGTCGAATGTGATTGTCTCAATAGAGGACATTGAT GGTTAAACCATAAAAATTGAAGACACTTTTTTCCATCTCTAAAAAAAAAATACATAATAACTAGATGGTAACCCGCGCGG TTGCGCGGGCAAATATTGACTTGGTAATATTTTAAGTCTTGATGACAATAAAAAGAATGAAGTTTAGGGTATTAAATTTT GAATAATAATATCAACGTCTTGTATAATTTTGATTTGTTAGATGAAATCATGCAATCTTTGTAATGTATATAGACTACGT GAAAAGTTCATTATTGATAAGATCAAGTTAGTGAAGATGTTCCTTTTGATTGCCTTCCATCTACAAAAAGTTTGTGTTCA TCCTCACAAAATGCTTTAATTGTATGTGTGTTACTTAAGCCAAAATGATATAAAATCAAAACTCGATCAACTAAAACCTT TAGTTTTTTCTTTTTTGAAACATTTAGTTAGTCAAACACAAAAATTTACAAATAAGAAGTCCCCCAGCCGAAAGTGTCTA CTCCAAGTTAAACAACTAATATATATATATATATATATATATATATATGCGCTATATATATATATATATATATGCGCGCA AGTAGTGAGCTCCAAGGAATTTTGTGGATATGTATATGCATTGTTAACAACTAATATTTACAACTTAAGTCTTTGTGATA CTCCAACATGCATAAAACTATTTAAGAGGTATCCAACCTTGTCTTACCTGTGACTGAATAGGTACTTAAAATAATTTTTT GTTCTTCATGAGGCAAAGGTCATTTCACGCACTTGAATGATAAAACTTCTTTAGAGAAAGTTATTAAGACCCAGTAATGA TCATTTTCACGCGGAGGTGGAATTAGTACATAATAGACCAATCCAGCTTGCCTACCGGTCTTCAAGTACTTACTGATTGA CAACTTATTCACGAATCACAGCTCTCAAACCCATTACAATTGAAGTGCATGAAAAGAAACATATATAAATCATTAGTAGC GATCTAACCAACAAATGACATTTAGCTTTAATGGAATCAAATTTGTTTGTCTTTGTCAATTAATCAAGAATTTACAAAAA GTACATCACATGTTTAGAAATTATTCTATAATTGTTATGGAAGCTCGAATGAATTTTGGAAAGAAACTATAACTGTCATA ATTTATTATGCATTGTTCATTTCTGATATTGACAGTTGTATTTTTTTCCTTTCACATTTGTTTATAGTTGATCACCACAA CAAATTCAACTTAAAAAGATAATCTAATCATGTGACAATCTTCATAGATATATGCATCCAGATAGCTAGTTGTAATGACA AAAGAGCGAAATCGCATAAGCATACTTGCATGATCCACTCTAGTCTATTATGCATACGACACACCACAAAAGTACTTTTT TCATAAAATTTCTTTCTTGTTTTTAAGTTTAGATAAAAGGAAACTAAAAACTAATGTGAAGAATGAAGAAAAATCATTGC AGAGGAAACAAACAAACCCGAGGGTAAAACCTTTAACAATAACTTTTCCTTCAACAATAAGGTCTTCATAACTTCTATGG GAACAACTGAAAAAGCCAAACAACACGCAACAATTTGTTTGTTACAATTAACAATTGAATTTGTAACCATAGAAAATAAA TTATTGCCGAGGGGGCGGTTGGAGTCCTTGATGTTCTGATTTTCGTTGGTTTGTCAAAGTATCCAAGGAAACATAAATTA CGCCATTGGGAATAAAGCATGATGCGTTTGAGTGGCTGCTACTTTTCAAGTGAACCTCCAGGAATTAGAGACATTACTTT CCAAGTGAACCTCTATCATTTTTTGTGATGAAGTTGAATTATCATTCCAAGGAAAAAATTCAACAGAAAATGCCTTTAGT CATATTTTTATATGCTTTTCATTTTCATTTCCTCGCATTAAGTTAAGCGTTTCAAGTGGCAGCGGGTATGTCAAGTAGAA AATAGAAAATTAAATGAAATACAAAGAGAGGTGTGTCAAAGGGAACTGATACTTGAGAGAGGCAAAAGGTTTTGAATGCA TAGAGTGTGACATGTCAGCAAAAATACATATGTGGCAAGGAAGGAATAGCTGAATTGTCATTCTAATACTGTGCGCTTCA CAATTCCTATATTATAATAGATAGATAGATAGATTGTTAGAATTTGGATTATGATAACTCTACCTTAAAAACTAATTCAG AAGTGAAGATCGCCCTTCCATTATATTATGTACCAGTACTTCATTAGTCATATATCTCTAACCAATGTACAACATACCAT TATAGAACTTGAATTAAATCTAATTCTATTCTGAAAAAGGTGTGACTTATATTTCATTTGTGATATCTCTAATCAACTTG AAATTTAGCATTCATCAACAAAAAAACCAGTTCATAAGGGTTAACTCAGGCAGTAAGAGTTAAGAGACATAAGAGTAGAG TTAAGGGGCATAAGAGTTTGACGGGGAAATGAAGGGTGAAGGAGTCTAAGTTCAAACGTGAAGAAACTACTAACATCACT AACAACTAACATTTGCTCATAAAAAATCCAAAATTCAATTAACCAAGGAAGTGTTAATGATAAGTATACCCCATTTGTTT CTCTACTGACCGGATGTATGTTGAGTTTGGAAGGGTGTGCTAGAGTTGATGGGGATGAAGAGGAGGATGGCATTGATGAC TTGGAGAATGAATTCAATTTTGAAGGACCAAATAAACTAGATATGAAGATCTCCATGCCGCCTGAGGTAACTAATGCTTT ATCTTTCCTTCTTCTTTCTTTCTTTCCTAAATTCCTCCCACATTCTTTTCACAACCAAACTCAGTGTAAGTGGCTGTAAG GAAAATGAATAATTTTGTTCACGGAAGTTTTAGTTAATTAAAAATACATTTTCTAATTATTATTTCATTTGTAATTTTAA TTATAAAAATGACACATTTTCTATTTTAAAAGTTGTTTAGAGAAAACCGTGAAAACAACTTTTTATTATTTCACGGTTTC CTATATAAAAATACAATTTTGAAAGTGAAAAAAGTGACATTTTTATAATCGAAATAAAAAACAAAGACAAAAAATTAAAA AAAAGTAGACTTTTTTAAACATTTCCCTACTTTACCCGTAGTTATTACACTTATCTACAACTTATTTTTTATTCATCTCT CTTATCTCCACCATGTTAACTCATGTCTCATGTCGCTTCATTTTTCATTGTTCTCTTCTTATCTCCCTGTGCAAAATATT TGTAGAAAATGTTAATTAGTATGAAATTATGAATGGAATTAATCTTGCTTAATTTGTAAGAACTCATAGCCATAGGTTAA TGTTAAATCTCCACGTAGCCATGACATAAAGAAAAAGGAAAAAATCATTTTGTTCTAGATTGTTATGTATTATCTTTTGC ATGCATGCATGATCCAACACACCTACTGGAGAAGGATGACGAAATATCTGAAGATCATCATGCTATAGTTCCTTCTAGTT CAAGCATGGGCAAGGACATAATTACACTGCAAGCAAGACCTATGGATCCTTCTAAGGACCTGGCTGCTTATGGCTATGGA AGTATTGCTTGGAAAGAGAGGATGGAGATATGGAAGCAAAGACAGGGTAAACTCGGTAATATGAGAAAAGAAAAAGAAAA TGAAGACATGGACAAGGTCATTGATGATGAAATAATTGAATTTCCTCTGTAAGTGCCTCCCTAAATTTTCTTAGCATTAA GTAAAAATTATGGGTCTGTTTGTGACTGCTTAAAAGAAAGTGCTTTTGAAGTTGAATGAAAAGTTGATTCTATTTTTAGG ATTTTTTTTAAACGCAAATTAATTTATGTTTGTTTACACATATAAAAAGTGTTTTCATTTTAAAAAGTGATTTTAATTTG TTTGGATATGAAAACATAAGTGTTTTTCTTACATAAAATTACATTTAAGGACATCAAAAACACATTTGATGAATATGTTT GGTTGATTTAAAGATTTGTTAAGGATAAGACTCTAAAACCGAAATCAGGTAACCTTAAAACCCTCTTAAACCATAATTGA TTTTTTTTTCTAAAGCTACTGAAATTAGCTTAAAGAAATAATTAGATTTATTTTCCAAATTTGAATTTTTATCAAAAGCA TACACAAACAGCCCTATATGTTAATATTCCATTTGGATCCTGAGATTAGCAATTTGTGTTGCTTTAGTAGTTGTAAGTGT GCACAAATAAGTCACCGGATGTGTAACTTTTTCATAAATTTATCTTTTTATTTATTTGATTCTTCCATGAACTATATAGT TAACAATATGTAATGGATTAGTTAATGTGGCACACAAGTGTCACAATAAGTGACATGTGTTACCTACTTGACAAAAAAAA AACAGGATTTGTAAAGAAGTTAATAGACTGGAGTATATGATCCCAGGGGCAGGGACCAAATTAGCATATCACAACACAAC TTGTGATCACTTTCAGGACAAATTGCATATTAACTAAGTGAATATTGCTATAAAGATTATTTATATTTTCTTATGGGATT GTATCTTTTCTTTTTATTCTCAGAATGGATGAAGCAAGACAACCACTGTCAAGAAAGTTGCCTATTCCATCCAGTCAAAT TAACCCTTACCGTTTGATCATAATAATTAGACTCGTTGTTCTTGGGTTCTTCTTCCACTACAGAATTAAGCACCCAGTAG ACAATGCCTATGCTTTGTGGTTTGTGTCAGTAATATGTGAGATGTGGTTCACCCTTTCATGGATTCTAGACCAGCTCCCC AAGTGGCTTCCTGTCACAAGGGAAACCTACCTGGACAGGCTTTCCTTGAGGCAAGTAATCTACAAACTTTGGTTGTGTTG AAATATAATGTGCCCTTGAGTGTTTCTCATTCTCGATTAAAAACAAACATAAGTTTGTAACTGCTTCACTCGGTCTTTTT TAATTGACATGACAATATTTCATTGGTGAGACAACAAATTGAGACACCATTAGTGACAGAAGATGTTGATCTGTATTGGA ATTTTTTATCTCCTAATTGTGTCTCAATTTCTTGTCTCCCTAATGACATATTGACATAATAATTAAAAACAACCAAGTTA AATGTGTAGCTGCCTTACTCATGTCATTTTTTAATGGATATGACAATTTCATTGGTGGGACAGGAAATTCAGACATGCTG ATATATATATATATATACTTTTGCCCTTTATTGTGTTTTCTTTTCAAGTTTATGAATAATTTTTTACCTGTTCATATAGG TATGAAAAGGAAGGCCAACCTTCACAACTTTCTCCAATTGATATATTTGTGACTAGTGTTGATCCACTAAAAGAACCTCC TCTAGTGACAGCAAACACAGTTCTTTCAATTCTAGCTGTAGATTATCCTGCTGAAAAGGTTTCATGTTATGTATCTGATG ATGGAGCAGCAATATTAACATTTGAGGCTTTATCTGAAACTTCTGAATTTGCAAGGAAATGGGTTCCTTTCTGTAAGAAG TTCAGCATTGAGCCAAGGGCTCCTGAATGGTACTTTGCTGAGAAAATTAACTATCTAACAGATAAGGTGCAACCATCATT TGTGAAAGAGAGAAGAGCAATGAAGGTAAAGATGCTTCCATCCCTTGGTTTATCATCGATAACCCTAATCGAGCTAGGAA CATCCACATCCTGGTGGAGCTTCCAGCGGGGAAATTTTTCATACACAACACTCAAATTCGAGATATTGTTTAAGGAAAAT CTACCGTTTGAACAATCACCCGTTGGTAAAAATTCACATAATATGCAAAAGAACTAAAAATTTGTTTCCATTGTAATGCA GAGAGAATATGAAGAGTTCAGAGTTCGAATTAATTCTCTGGTTGCAAAGGCTAGGAAAGTTCCAGAAGAAGGGTGGACAA TGCAAGATGGAACACCATGGCCTGGAGACAATGTTCGTGATCATCCAGGAATGATACAGGTTAGTTTGTAATAAAGAACA TATCATCATATCTATTTTATTTTTGCAAAAATCACATCATATATATTGCATGTTAGGACCAACTTATTTTTCGGAGAATC AATTCAGGCACCTAAAAATTACTCACATAAACTTCTCGGCATAATAGAGCTTGACCTCATATTCAAATATATAAAGATTT CCAAATATGCAATAGGCAATTTTTGCATAACTTTATGATGGTCCATCTCAATCATTCATCAGGTTTTTTTAGGAGAAAGT GGGGGGTGTGACATGGATGGAAATGAATTGCCACGCCTGGTATATGTTTCTAGAGAAATGAGGCCTAAATTCAATCACCA AACAAAGGCAGGAGCACTCAATGCATTGGTAAGTAAGTTTTTAGGCTCTCAATTTTCCATCAGATTCGATTTTGGTCTCT ATCATCTAATTTTTATGGTTTTAGTCCCTATTTTTAAATGTAACTTTGATTTCAGTCACCGATTTATAATCTATATATAT ATATATATGTGTGTGTGTAAAGCACACTTGAGTTTTTTCATTAAATACAAAAGCAAAACTCAAGTGTTGCATTGTATTAA AAGCAGCAAAACAAACAAAAAACTTTGTAATAAATATGTTAAACAATAATAAACTTAAAATTGAAAATATATATATTGTA AAAACTATTCAACTACTTATAATAAATAACAACATCCATATACTTAAAATTTTTTTCGAAAGAAGAAAATATATTAATGA GGAAATAGACATGAAATACACCGGTTAGCAAAAGTAAAAACAGCTCCAAAAAATATAGCACCCAACCCAATCTACCCAAA GCCTATACAAACCAACTAAAAGCCCTTACAAATACTAGAAAAACCCACCAAAAGCCAAGCAACTCCCAAGCTCCCGCCAA CACCCAAGAAACTCCTTTGCTAAAACTAAAAACTAAAACTACTTACGCGCCATGATTTGAGCTGCAATCATGCTGTGGGC CGTTTCGTCTGTGTAATCGTAAACCATACCTAAGCGTTTCCCCATCAGAATAGCGCTCCGCGCCCGAGTCATGACACTGT AGGGCTCCGACAGCTCCCCTGGCAACACCAATAGCTCTCTCCCAGACCTCGTCTCCGTCTCCGCAGTGCCGCTAACTTCT AATTCAACCCGAGAAGAGCTTTCAGACCGGCTTTGCAACTTGTTTCCTGCTAGCACAACCTTCTTAGGTCTACCCCGACC CCTCGGAGTTTTCAGAACCATAGTGAGAGGTTGCTCAGAAGGACCAACAAGCACATCTACAGCCACATGGGGAAACTCCA AAGGGGGAGAGGGGGGAGCACCAGAGGAGTCATGGCCAACATCAGAAATAGAGTACCTGCAAACAGAAAGTTCAGGGAAA AGCACCATGGGAGATAAATCAGAAATCACCAAGTCTCCTCTATCAAGCCCAAGAAGCATCAAGTCTTCATCCTCTGAGAA CTGCAGCACTTCTCTGCGAGCAGCACCAACAGCCTCCATCACCAAACCCTGGTACCCGTGCACCTCCAAACCATGTCGGG GAAACCTTGCCATAGACACCGAAAGAGCCGCATCCCCCAAGCGGAACCCATTGAGGAAGTCAATGGCCTTCGACGCCACC TCCAGGGAAGCAAACCTCACGAACCCAAACCGGAACAGTCTTCCGATTTTCCTCTGTCTTTGAACAAAAACATTAACAAC CCTGCCAAATTGAGCAAACAACCCACGAATCTGGTAATAGTCGGTGCGGTCTGGAATTCCATCGACAAAGAGAGTGAAGA TGGAGGGAAGAATCGAGTTCTTCCAGTCTGAGACGCCTCCTCTGCTAGACGCTGGGTCCTTGAGCGGTCCGATCATCTTT CTCCAGTTCGAATCACCGCCGGGATTCCCTGTAATGCCGCCGTCTTGAGAACCTTCCTCCTTCCTCCATTCTGGGTCGCG ATTCCTACTTGCCTTGAACGGAGGTTCTGTCGTCCTCCTCTGGTACGAGTCGCCTTTGGGATGAGAGCCTTTCGATTTCA AGGGCGTTGAACCATCTCTGTCCGTCGCCGCTCCCCCGCCTTCGCCGTCGTCGTCCTCGGAAGTAGCAGTAGGGAGAGAA GTGCTGCCACCAGCAGCAGGGCATGAAACCCTAGCAGAGAACAAAATTTACTTGAGTTTTGTATTTCATAAATATTAAAA ATAAATTCAATAAGAAAATAATATTTATTAACAAATAATTTTGGGAAGAAAGAGACAAAAATATTTCAACATTAAACTTT CATTAGCACACTTTTCATAAATTTTCAACTGAAAGTACTACTTTCCAGGCCAAAACATGAAAGAAAGAGATAAATACCAC TTTATAAAAGTCTTTTTTCTTTTATAAAAGATTTTACACAAACACAGACTAAATTATTCAACTCTAATTATATATTTTCA TACTTTTTCTTATTATTGAGAGTGCATTACTATTGGAACATATTATCACCAAATGAACTGGAAATAATTTCTATTAAAGC ACAACATAAAACATGTGCTTTAATATACTAAAACATTAGTGTACATTTCATTACATTTATCATATTTTTAATTATCTACT GTTGAATAAATTTTTTTATATTACATATATTATTGTTACAAATAATAGACACATAACTTAATACAAATCCGTGCGTTACC CGTGCAACGCACGGGTTTAATTTCTAGTATTTCACTATTAATCGGTGATGTGGCTAACAAAGAGTCACATTACCATTACC ACTTTTCTATGTTACCTATTTTGCTTCCAAATCAAATCAATGACTAACTCTTTTATGAAAAAGAAATTTCAGCTATCATT TCTCAATCCTAAGAAATTGTTTTATTAAAATTGCTAGCTATCACATTTGACTTGGAAGTAATATAGGTCATATAAGTTTA GTTTGGACACGTGGCAATGGTTACATAGCCCTTTATTAGCCACATCATCAGATAACAGTGACATTATAATATGGTGACTG AAACCAAAGTTATTAGTAAAAATAGGATCAAATCAAAACCATACAAAATTAGCTGGTAGGGATCAAGACCAAATTTGAGT ATAAAATGAGGAACTAAACATATTCATGTGAAAAAAAAGAGGGTGACAAGAAACTAGATGAAGTTCTCCTTCGTTTTTAG TTGATGATGCAAGGAACATTAGGGCTTCAGACTTTCTGATATATTTCCTTGTTGAACATATACTATCAAACAGGTCAGAG TGTCAGCTGTGCTTTCCAACTCACCTTTTTTGTTGAACTTGGATTATGACAATTACATCAACAATAGCAAGGCAATAAGA GAAGCAATGTGTTTCATGATGGATCCATTATTAGGAAAAAAGGTCTGCTATGTTCAGTTTTCTCAGAGATTTGATGGCAC TGACAGCAATGATCAACATGCATATCAAACAAGTACATTTTTTGATGTATGAAAATTCTTCTCATACTCTCAAAAAGAAA ACAACTTACTCAATGTTTTATTTTTCCTTCTAAATGGAAATTATATTAAGCTAACTCTCTTCCCTTTCAGATTAACATGA AAGGTTTGGATGGTATCCAAGGACCTACATTTGTTGGGATAGGGTGTGTGTTCAGAAGGCAAGCACTTTATGGTTTTGAT GCTCCAAGAAAAAAGAAGCCTCCAACCAAGACATGCAATTGCTGGTCCAAGTGTTGTTGTGGATGGTGTTGTATGGGAAA GAGGAAGAAGAAGTTGAAAAAATCTAAGGTAGAGACAATGGAGACCAGTCACAGAAAAGTACATTCTGAAGCATCACTAG CTGAAAAGTCTATTGAACTTAGCACTAAAGGTAAAATTTTCACATCTAGTCTTCATAAGCATTGTACATATATAATGGTT ATTTTTAGTTAAAAATCCTAGGAGAAATACTTTTACTTCTCAAAAAATAATTTTGTTCTTGAGGGAAGAAAATGTTAGGT TCTGAGACTTGTATCAAATTCCAATGATGTCATGCTTATTTGATAATCTCTCATACTTCATTGTGTAAATAAAGATGCCT TTAATAGGCTTATGAAGTAGGAATCCGGTTGATTTTGTAAGTATATCACTCATCTTATCTAAACTTTTAATGCCTTGAAT TTAGGCCTTGAAGATGAAACTTTGGCTCCAATCTCAAATCAGAAGTTTGTCAGAAAATTTGGACAGTCTCCTATTTTCAT TGCATCCACTCAATTGGTGGATTGTGATGATGGGACACTAAAACATGGAAGCCTTGCTTCTCAACTTACTGAAGCCATAC ATGTCATTAGCTATGGCTATGAAGCAAAAACAGAATGGGGAAAAGAGGTAACAAAATCCTTTACATCATTATCCTCTTCT AAAACCCTTCTTAATTACTGTTTTGTAAAACAGTTTTTAGTCAGAAAAGAAGAAACACTTATTTGATATGAAGTTTTTCA CAAGTAACTTGTTCTTAAAAACAGTTCTCATTTTCAATTTAAAAGTTAAAATCCCACGTATCTGATAGGATTTTCTGTTA CTTTTTTTAGTTTTTAAATTGTAGGCTTTTAGCCTTTAGATAACATCTCATTCGAACAATTTTTTTCTTTAATTTTTTTG GAAAACAGATTTTAAAAGTTGTTTCTGCAAAAAAAAATCAGAAAACTTAGAAGGAAATCAATCTTCTTGCTCATGTTGTA ACCATGGACTCACCTCTATAAAAATTATTTTAATCACTCAGGTGGGGTGGATCTATGGTTCGGTTACAGAAAATACTTTG ACAGGCTTCAAAATGCATTGCCATGGATGGAGATCTATATTTTGCATTCCTGGAAGACCTGCATTTAAAGTATCTTCCCC GGGAAACCTTTCTAATGGTCTGCAACAAGTCTTTCAATGGGCCCTTGGATCCATTGAAATATTCATGAGTAAACATTGCC CTCTTTGGCATGGATACAGAGGAGGACTAAAGTGGTTAGGGCGCATTTCTTACATAAATGCTACAGTATATCCATTGACA TCAATTCCTTTGGTGGCATATTGTACCCTTCCTGCAGTTTGCTTGCTTACTGAGAAGTTTATTGTTCCTGAGGTATGAAG TTTTTTATGTCCAAAAGACCTGTTCACTTTCTTAATTTCTCATTATGATTGGAAGTTAGGAACCTTGGACATAGTTAGAG TCATATAGAGTGAATTGTAGTGTTAAGAAGTCTCACATTGATTTGACTTATGGCTAAGTAAGTTACTAAGTCCTTATAAA GATACAGCTACTCCAAACTCAAATTCAAAGATGGTATTAGAGTCTATTCTAGATTCATTTATTAAGCCACCCATAATTAG GTCACCCGCCCACACAGTCTTGCAAATTTCACGGTTCATATGTCCAACCTTGGGTGTAAGAGGGAGTGTTGAGAGATCTC ACATTGAGTAAAGATATGACTAAATAAGTTCTTATGCCTAATCCAAATTGTAAGATGTAGAAACACCACTTCTATTGCTG TGGTGCTCTAAAAAACGTCTATGCTTATCAATATTATTGGCATTGCAGCTAAGTAAAGCAGGTGGCATGTGGTTTGTGTC TCTTTTCATGTGCATTTTCGCAACGAGTATGCTAGAGATGCGATGGAGTGGAGCTACTGTTGGGGAATGGTGGAGAAATG AGCAGTTTTGGGTGATTGGAGGGGTATCAGCACATTTATATGCTGTGTTTGCAGGGCTGTTCAAATCCTTGACAGGAGTA AATATAAACTTCATTGTGACACCAAAAGTAGATGATGACAAGGAGCATTCTGAGATGTTTGCTTTGAAGTTTACCACTTT GCTAATCATACCAACAACATTGCTGATACTAAACATAATTGCTGTAGTTGCTGGAGTCTCTCATGCAATAAATAATGGCA TTGCATCATGGGGGCCTCTACTTGGGAAACTCTTGTTTTCCCTTTTGGTGATTCTTCATTTGTATCCATTTCTCAAAGGA ATGACAGGTAGGCATAACAGGACTCCCACTATTGTTCTTGTTTGGTCAATCTTACTTGCCTCTTTCTTCTCAGTCTTGTG GGTGAGAATTGATCCATTCACCCCCAAGTCAGAGGGTCCAATTCTGGAGGAATGCGGATTGGACTGCAAATAGTTACAAA GTTTGACAAACCAAAGTGGCTTACATGCATGGATGATAATTAATAGTGATAGAGAAAACTAGCATTTGTTTGGTTGTGGG CTATAGTGAAGATTGTTTGGCTTGTTGCCCCCTTTTAACTTATACTAGTTTTTTCTGCTTTAGTCATATCCTGATTTCTA ATGGGTCCTAATGTGAGTTAGAAGAACATTTTGTACACAAGTCAGGTGCTTACATGGTTTTTCTTTTCTATAAAAGAGGG CACGATGTAGAATTTACAGAACATTGTCCTATTTGTTAGAACAACAACCTGTATACTAGAAGAATACTAGAGGGAGAAAC AGACAATCGCAAGCAATGAAGAACACAAGAGATTTGTTCACACCGTTCGGCTGGCATACCTTTGCGACTACAGAGCAGAT GCTAGACCTAGTTACAGAGTAATCAGTGGCGGAGCCAGGATTTTCGTGGAGCCTGGGCAAGGTTAAATTTAAGCTTAGCT GCTCACACCTGATGTCTGACCTAGGTTTTAAATTGCGGTTGCAGGTACTGCAGTTGCAGGCATTGCGGCTATTACGACGT GATTACGTGAATAACCTGTTGCAATGACAAATATGTCACCTTCTCAATTAAACACTCACCTTAAACATATAGGTACACTC CATAGTAATAAGGTTCGTCGTACCAAATTAAAACTTAAAAGACGGTGTCAATAGATTTGAGATAAAATAAAAAGTTATTT TCTTAACTATAGTATCCTAAAA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0099900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGACCAATTTGGGGTTAGTTGCAGGTTCTCACAACAGCAATGAATTCATTATCATACGTCAAGATGGAGACTTTGC TCAGAGAGAGTTCCAAGAGTTACATTGTCAAATATGTCAACTATGTGGAGATGACATAGAAGTTAATGCAGATGGTGATC TCTTTGTGGCCTGCAATGAGTGTGGCTTTCCTGTTTGTAGAAACTGTTATGAGTATGAACGCAGGGAAGGGAGTAAAATC TGTCCACAATGCAAAACCAGATTTAAGCGTCTCAAGGGGTGTGCTAGAGTTGATGGGGATGAAGAGGAGGATGGCATTGA TGACTTGGAGAATGAATTCAATTTTGAAGGACCAAATAAACTAGATATGAAGATCTCCATGCCGCCTGAGGATGACGAAA TATCTGAAGATCATCATGCTATAGTTCCTTCTAGTTCAAGCATGGGCAAGGACATAATTACACTGCAAGCAAGACCTATG GATCCTTCTAAGGACCTGGCTGCTTATGGCTATGGAAGTATTGCTTGGAAAGAGAGGATGGAGATATGGAAGCAAAGACA GGGTAAACTCGGTAATATGAGAAAAGAAAAAGAAAATGAAGACATGGACAAGGTCATTGATGATGAAATAATTGAATTTC CTCTAATGGATGAAGCAAGACAACCACTGTCAAGAAAGTTGCCTATTCCATCCAGTCAAATTAACCCTTACCGTTTGATC ATAATAATTAGACTCGTTGTTCTTGGGTTCTTCTTCCACTACAGAATTAAGCACCCAGTAGACAATGCCTATGCTTTGTG GTTTGTGTCAGTAATATGTGAGATGTGGTTCACCCTTTCATGGATTCTAGACCAGCTCCCCAAGTGGCTTCCTGTCACAA GGGAAACCTACCTGGACAGGCTTTCCTTGAGGTATGAAAAGGAAGGCCAACCTTCACAACTTTCTCCAATTGATATATTT GTGACTAGTGTTGATCCACTAAAAGAACCTCCTCTAGTGACAGCAAACACAGTTCTTTCAATTCTAGCTGTAGATTATCC TGCTGAAAAGGTTTCATGTTATGTATCTGATGATGGAGCAGCAATATTAACATTTGAGGCTTTATCTGAAACTTCTGAAT TTGCAAGGAAATGGGTTCCTTTCTGTAAGAAGTTCAGCATTGAGCCAAGGGCTCCTGAATGGTACTTTGCTGAGAAAATT AACTATCTAACAGATAAGGTGCAACCATCATTTGTGAAAGAGAGAAGAGCAATGAAGAGAGAATATGAAGAGTTCAGAGT TCGAATTAATTCTCTGGTTGCAAAGGCTAGGAAAGTTCCAGAAGAAGGGTGGACAATGCAAGATGGAACACCATGGCCTG GAGACAATGTTCGTGATCATCCAGGAATGATACAGGTTTTTTTAGGAGAAAGTGGGGGGTGTGACATGGATGGAAATGAA TTGCCACGCCTGGTATATGTTTCTAGAGAAATGAGGCCTAAATTCAATCACCAAACAAAGGCAGGAGCACTCAATGCATT GGTCAGAGTGTCAGCTGTGCTTTCCAACTCACCTTTTTTGTTGAACTTGGATTATGACAATTACATCAACAATAGCAAGG CAATAAGAGAAGCAATGTGTTTCATGATGGATCCATTATTAGGAAAAAAGGTCTGCTATGTTCAGTTTTCTCAGAGATTT GATGGCACTGACAGCAATGATCAACATGCATATCAAACAAGTACATTTTTTGATATTAACATGAAAGGTTTGGATGGTAT CCAAGGACCTACATTTGTTGGGATAGGGTGTGTGTTCAGAAGGCAAGCACTTTATGGTTTTGATGCTCCAAGAAAAAAGA AGCCTCCAACCAAGACATGCAATTGCTGGTCCAAGTGTTGTTGTGGATGGTGTTGTATGGGAAAGAGGAAGAAGAAGTTG AAAAAATCTAAGGTAGAGACAATGGAGACCAGTCACAGAAAAGTACATTCTGAAGCATCACTAGCTGAAAAGTCTATTGA ACTTAGCACTAAAGGCCTTGAAGATGAAACTTTGGCTCCAATCTCAAATCAGAAGTTTGTCAGAAAATTTGGACAGTCTC CTATTTTCATTGCATCCACTCAATTGGTGGATTGTGATGATGGGACACTAAAACATGGAAGCCTTGCTTCTCAACTTACT GAAGCCATACATGTCATTAGCTATGGCTATGAAGCAAAAACAGAATGGGGAAAAGAGGTGGGGTGGATCTATGGTTCGGT TACAGAAAATACTTTGACAGGCTTCAAAATGCATTGCCATGGATGGAGATCTATATTTTGCATTCCTGGAAGACCTGCAT TTAAAGTATCTTCCCCGGGAAACCTTTCTAATGGTCTGCAACAAGTCTTTCAATGGGCCCTTGGATCCATTGAAATATTC ATGAGTAAACATTGCCCTCTTTGGCATGGATACAGAGGAGGACTAAAGTGGTTAGGGCGCATTTCTTACATAAATGCTAC AGTATATCCATTGACATCAATTCCTTTGGTGGCATATTGTACCCTTCCTGCAGTTTGCTTGCTTACTGAGAAGTTTATTG TTCCTGAGCTAAGTAAAGCAGGTGGCATGTGGTTTGTGTCTCTTTTCATGTGCATTTTCGCAACGAGTATGCTAGAGATG CGATGGAGTGGAGCTACTGTTGGGGAATGGTGGAGAAATGAGCAGTTTTGGGTGATTGGAGGGGTATCAGCACATTTATA TGCTGTGTTTGCAGGGCTGTTCAAATCCTTGACAGGAGTAAATATAAACTTCATTGTGACACCAAAAGTAGATGATGACA AGGAGCATTCTGAGATGTTTGCTTTGAAGTTTACCACTTTGCTAATCATACCAACAACATTGCTGATACTAAACATAATT GCTGTAGTTGCTGGAGTCTCTCATGCAATAAATAATGGCATTGCATCATGGGGGCCTCTACTTGGGAAACTCTTGTTTTC CCTTTTGGTGATTCTTCATTTGTATCCATTTCTCAAAGGAATGACAGGTAGGCATAACAGGACTCCCACTATTGTTCTTG TTTGGTCAATCTTACTTGCCTCTTTCTTCTCAGTCTTGTGGGTGAGAATTGATCCATTCACCCCCAAGTCAGAGGGTCCA ATTCTGGAGGAATGCGGATTGGACTGCAAATAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0099900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

METNLGLVAGSHNSNEFIIIRQDGDFAQREFQELHCQICQLCGDDIEVNADGDLFVACNECGFPVCRNCYEYERREGSKI CPQCKTRFKRLKGCARVDGDEEEDGIDDLENEFNFEGPNKLDMKISMPPEDDEISEDHHAIVPSSSSMGKDIITLQARPM DPSKDLAAYGYGSIAWKERMEIWKQRQGKLGNMRKEKENEDMDKVIDDEIIEFPLMDEARQPLSRKLPIPSSQINPYRLI IIIRLVVLGFFFHYRIKHPVDNAYALWFVSVICEMWFTLSWILDQLPKWLPVTRETYLDRLSLRYEKEGQPSQLSPIDIF VTSVDPLKEPPLVTANTVLSILAVDYPAEKVSCYVSDDGAAILTFEALSETSEFARKWVPFCKKFSIEPRAPEWYFAEKI NYLTDKVQPSFVKERRAMKREYEEFRVRINSLVAKARKVPEEGWTMQDGTPWPGDNVRDHPGMIQVFLGESGGCDMDGNE LPRLVYVSREMRPKFNHQTKAGALNALVRVSAVLSNSPFLLNLDYDNYINNSKAIREAMCFMMDPLLGKKVCYVQFSQRF DGTDSNDQHAYQTSTFFDINMKGLDGIQGPTFVGIGCVFRRQALYGFDAPRKKKPPTKTCNCWSKCCCGWCCMGKRKKKL KKSKVETMETSHRKVHSEASLAEKSIELSTKGLEDETLAPISNQKFVRKFGQSPIFIASTQLVDCDDGTLKHGSLASQLT EAIHVISYGYEAKTEWGKEVGWIYGSVTENTLTGFKMHCHGWRSIFCIPGRPAFKVSSPGNLSNGLQQVFQWALGSIEIF MSKHCPLWHGYRGGLKWLGRISYINATVYPLTSIPLVAYCTLPAVCLLTEKFIVPELSKAGGMWFVSLFMCIFATSMLEM RWSGATVGEWWRNEQFWVIGGVSAHLYAVFAGLFKSLTGVNINFIVTPKVDDDKEHSEMFALKFTTLLIIPTTLLILNII AVVAGVSHAINNGIASWGPLLGKLLFSLLVILHLYPFLKGMTGRHNRTPTIVLVWSILLASFFSVLWVRIDPFTPKSEGP ILEECGLDCK

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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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	233	233	-	–
Gene3D	G3DSA:3.30.40.10 View details on G3DSA:3.30.40.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.40.10	21	112	92	1.1E-37	IPR013083 Show description in modal box View details on IPR013083 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF57850 View details on SSF57850 Search for proteins/transripts with this domain View external data on SSF57850	25	111	87	2.0E-32	–
PANTHER	PTHR13301 View details on PTHR13301 Search for proteins/transripts with this domain View external data on PTHR13301	26	117	92	0.0	–
PANTHER	PTHR13301:SF81 View details on PTHR13301:SF81 Search for proteins/transripts with this domain View external data on PTHR13301:SF81	26	117	92	0.0	–
Pfam	PF14569 View details on PF14569 Search for proteins/transripts with this domain View external data on PF14569	31	105	75	4.4E-36	IPR027934 Show description in modal box View details on IPR027934 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd16617 View details on cd16617 Search for proteins/transripts with this domain View external data on cd16617	37	87	51	3.20879E-30	–
ProSiteProfiles	PS50089 View details on PS50089 Search for proteins/transripts with this domain View external data on PS50089	39	85	47	8.919	IPR001841 Show description in modal box View details on IPR001841 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR13301:SF81 View details on PTHR13301:SF81 Search for proteins/transripts with this domain View external data on PTHR13301:SF81	149	1047	899	0.0	–
PANTHER	PTHR13301 View details on PTHR13301 Search for proteins/transripts with this domain View external data on PTHR13301	149	1047	899	0.0	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	234	252	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	234	256	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	253	263	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	263	282	20	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	264	283	20	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	284	827	544	-	–
Pfam	PF03552 View details on PF03552 Search for proteins/transripts with this domain View external data on PF03552	317	1041	725	0.0	IPR005150 Show description in modal box View details on IPR005150 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53448 View details on SSF53448 Search for proteins/transripts with this domain View external data on SSF53448	331	805	475	2.44E-7	IPR029044 Show description in modal box View details on IPR029044 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	415	435	21	-	–
Gene3D	G3DSA:3.90.550.10 View details on G3DSA:3.90.550.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.550.10	476	609	134	1.1E-9	IPR029044 Show description in modal box View details on IPR029044 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	826	848	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	828	848	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	849	859	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	860	878	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	861	880	20	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	879	897	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	895	914	20	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	898	926	29	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	927	946	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	944	966	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	947	970	24	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	971	975	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	976	998	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	976	998	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	999	1009	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1010	1030	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1011	1030	20	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1031	1050	20	-	–

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: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
GO:0016760 View details of GO:0016760 AmiGO InterPro QuickGO	Molecular function	Cellulose synthase (UDP-forming) activity	Catalysis of the reaction: UDP-glucose + ((1,4)-beta-D-glucosyl)(n) = UDP + ((1,4)-beta-D-glucosyl)(n+1).	Subterm of View details of GO:0016759 View details of GO:0035251
GO:0030244 View details of GO:0030244 AmiGO InterPro QuickGO	Biological process	Cellulose biosynthetic process	The chemical reactions and pathways resulting in the formation of cellulose, a linear beta1-4 glucan of molecular mass 50-400 kDa with the pyranose units in the -4C1 conformation.	Subterm of View details of GO:0030243 View details of GO:0051274

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0099900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0099900.1