Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0334800
Transcript ID	LotjaGi4g1v0334800.4
Related isoforms 3	LotjaGi4g1v0334800.1 LotjaGi4g1v0334800.2 LotjaGi4g1v0334800.3
Lotus japonicus genome version	Gifu v1.2
Description	Beta-1,3-galactosyltransferase-like protein; TAIR: AT3G06440.1 Galactosyltransferase family protein; Swiss-Prot: sp\|Q9ASW1\|B3GTG_ARATH Hydroxyproline O-galactosyltransferase GALT3; TrEMBL-Plants: tr\|A0A072URG8\|A0A072URG8_MEDTR Beta-1,3-galactosyltransferase-like protein; Found in the gene: LotjaGi4g1v0334800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:71409018..71421992) extracted from Lotus japonicus Gifu genome v1.2.

TTAACCCCGACGAGTGAGACTAGTTTTTTTTTTCCTCTCTTTACCCAATAGGTGGTGTGATTTTTATTCATCTTATATGA AAGTTATTCAATTTCTATGTGTGCAGAAACGGCTATCATTAGTTCAAGGTTTACTGAGAATGAAGAAGTGGTATGGAGGC TTGTTGATCACGGTTTTGGGTATGTCGTTGCTTCTATTCTACAGCCTTAAAGGAATTCAGCCACAGAAGCAGCCAGCAAA ACAGTCAGCATACGGTTTTTTCAATAACCATCCACAAAATGGTTCTGTTAAAGAAAGCATCAGTCTTCCAGTAAACTCTT CTGATGTGGAACCAAATCAGGTACCAGAGCCAAGAAAAAAACCACACTTGATACATGTTGCAGGGCTTGATGACTTGTAT GACATGAAAACAATTTCTGAAGGAGAGATGAATGTTTTGCTTGTTTGGACATACTTGCGTTCCTTGTTGTCACGGTCAGA TTCCTTGCCTGAAACAGCTCAAGGAGTTAAAGAGGCTTCTGTAGCATGGAAAGAGTTGATTTCCACTATTGAAAAGGACA AGGCCTCTAAGATTAGTAAGATAGACAGTCCAGCATATAAAAAGTGCCCGTTCTCCGTGAGCACACTTGGCAAGACAATA GATGATAGTGGAATCACTCTGGATTTCCCCTGTGGTCTAGTTGTAGATTCTTCTATTACACTGATTGGCATCCCTAATGG ACTGAACAGAAGTTTTCAGATTGACCTTGTCGGGCATGAGTTAGAAGAGGAGCCAAATCCTCCGATTATCTTACATTACA ATGTCAGTGTTCCTGGAGAAAACATGACAGAGCAACCATACATTGTTCAAAATACTTGGACTAGTGATTTTGGGTGGGGA AAAGAGGAAAGGTGCCCAGCTCGAGGTTCTGCTAACATCCAAAAAGGTATATTTAGTAATGTCTTAACATGTAATGAGGT CCAGAGCTCGGAATTCTACCTCTAGTCCTCTACACTCGATTTGGCATCAACGTTATGCTTGTTGCTCTTCTTGAAAAACA GAGAAATTTTGCTGATTCGCTTGAGAGATTAACTCTGGGCATTTTGAATTTATATTTACAATGATACAAAACTGAATACC TTAATTTAGGGAAATACAACAATTAAAGTAGCTTCATAATCTATATTGCCAGCGAATGAAATCAATATATATAATGAAAG AACAATATCTTCAACAGCAGAAAATATAGTGGACAAAAACTCTTTTAAAAGTGGAATGTCTTCTTTGTTTTGAAGAGGAT ATATAATTATAGAATTTTATAATTCAACTCAGATAATGTCTTGCTTAAACACTATTTTCCCTAATAGGCTTTAGTGACAA TGCCTCACCTTATTCTTTCGCAGAAAATGTTGTAAGACTCCAATCATACAATAGTCAATAATCTCTTTCATTTTGTGTTA TTATGTTTCTTTATTCTTAAGTGCAGGGAAGTTTGCAGTAAATTCTAAGTTGTCTGACTGTATGTTGTAGTTGATGGACT TGTTCTCTGCAACGTACAAGTTGTCGGGAGTAACAACGAAAATGTGGGTCAACCTACTAGTGATATACCTTCTAATAACT CCTCAGAAAGTGCACACAGAACTGCTAATTTCCCCTTTGCTGAGGGTAATCCTTTCACTGCCACATTATGGGTTGGTTCA GAGGGATTTCACATGACTGTGAATGGAAGGCATGAAACATCTTTTGCTTATAGGGAGGTAAGGTATGGGAAGACAAATAC TGCTTTTTTTTAACTGGAAATGGTCATTCCAACCTTGTATGGTCTTTGTGGATGCAGAAGTTTGACCCATGGTTAGTCAG CACCGCTAAAGTAGCAGGCAGTTTAAGTCTCTTATCAGTCCTGGCTAAAGATTTACCTGTTACTGAAGATAATGATTTAG TTGTTGATGTTGAGAAACTGAAGGCTCCTTCTATTCCCAGAAAAAAACTTGTTTTGCTGATAGGAGTATTCTCTACTGGA AATAACTTTGAGCGTCGAATGGCCCTGAGGAGGTCTTGGATGCAATATGAGGCTGTACGTTCTGGGGAAGTTGCTGTCCG ATTTTTCATTGGACTTGTAAGTGATGGATTTCAGACTTTCTAATTTGAATCTATACAGCAATAGCCAAGCCTTTTATTAC ATGGATTATATGATGTTATAATGCTTTGTCATGTGTATCTATACATTAGAATAATTTATTCAAGTTTATACACAATTTTT TCCAAGAAGAATAATATTGTTTTAGATCTTGACCTACTTTCTAGTTATCTTTGCTTACCTCTTTTGTTAAAAGAAATATA TATGAAGTTGGCTGGTTTATAAATGAAATTGGTGAGGCGTAATTTTTTAGTCTCTTATAACTTTGGGATCCTTTTTCTTT AATTGTTCTTCTACCTCTAAGGTAGTTAGCTTAAAGAGGAGTGCTAGTGGCATCTCAATATTAAGAAATATACTCATGAA TTTACATTATGGAGACTGACTATATGAAGGGTTGTGACTTGTGATGTTCACTGTAATATTTGAAAGCTGAAGTTAGATTC ATTATTAAAATGAATCATATAACTATTTTAGCACAAGAAAATGGTGACCAATGAATACTGAAATCAAAGCTTTCATAGAC TAATGGTCTAACCCACACCCGCCATATGCTGCAGTGTGGACTCAACCAAGCATTCTGCATTGTAGCATAATTTTTTTTTC CTCTGTTGTTAAAAAAAAACTGTTGAGTGACATTTAATATCATCTGATTGCAGCACAAGAAAGATATAGTTAACTTTGAG TTATGGAGTGAAGCTCAAGCATACGGGGATATTCAGTTAATGCCTTTTGTGGATTATTATAGTTTGATTTCTTTGAAGAC AATTGCAATTTGCATTATGGGGGTAAGTTGATTTAGACGCTTAGCAAAGAACATACTGGAATTACTGTTGTTTATTGGCT AGTCAAATTATTCTGAGTCAACTGCTTACAGCCTAAGAAGGAATGGTACTCTATTAGTCTTTTACAGTAACCAATAATTG TATACAATACACCATTTTTAAGAAAGAAAAAACTGTACCAAAAGATGAAATTAATTTTAAAATCTTGATCTGTATGCATT GTGGTTCTATATTGGTATTGTTGTGTATTCCTTATTATGATTCGATACTTGTAAAATGCCAGTTCACTTTTAGTTCCAGA TAATTTTAATTAAGAGAAAGGGAAAATGTTGGCACTTTTATGGTTTTTGTTACAAAATATCTTAAATATATTTATCCATA AACTGTCAATTAAAGCTCTAATTTGGGAGCTATTTCAGAGTTAGTTATTCCTCTAATCATTATCTTAATTAACATTACAT GGAAAGTTTGTAGTAGTGCTTTGGCCTTTACCTTTTAAGAGCTATAAATTTTTTATTATTTAAAATTGCAGACAAAAATC ATCCCTTCTAAATACATCATGAAAACAGATGATGATGCTTTTGTAAGGGTTGATGAAGTTCTTTCCAGCCTCAAAGGTAA GCCATCCGAAGGCCTCTTGTACGGTCTCATATCTTCTAAGTCATCTCCTCAGAGGGATAAAGACAGCAAGTGGTACATCA GTGAGAAGGTATTCATCTCTCTATAATGTTATTAATAAATTACATGAGCAATTTTCCTCCTCAATTTTATTTTGTTACTA ATATTATTATTTTAGGAATGGCCACATGATATGTACCCACCATGGGCACATGGTCCTGGCTATGTCATCTCTCGGGACAT AGCAAAGTTCATTGTCCGTGGCCACCACGAAAGAAAACTCAAGGTAAGAATTTCTTCTTTACCATAATGGGATGTGATAG GCCCCTAAATAGAGAATGGGCTGAGACAATTAATCCTGAGACAATTAATCCAAGACCCAAGGTATGGCACGTGTATGTGA GGAGGGGGAAGGAAGGAAGCATCCAGAAGAAGAGTGAGCTGGCAGTGTGAGAAAGGGTGCTAGGAAGAGTTAGTTACGGG AATTAGGGGAATTGGTGTATAAAGGGGATTCTGTTAGTAGGGGAGAGGTATCTAAGAATATTGTGATTGTAAGAGTGAAT AGAGAAATGCCTTCTCTATAGGAGCTTAGCTCTGGAGTAGTAGTGATACTACTGTAATTGTCCTTTTCCATTAATTCAAT CAAACGATTCCCAGTTTTCTTTTCATTTCCTCTTTACTGTTTCTTTGGTTCCCATCAAATTGGTCCGACCTACCGGATAC TCACGAGACAGAAACCAGTGTTATTCATCGTTGTGCCTGACCTCGAATGCCACCGGCGAAGAAGATGGAAGCGAAAGTAA CAGCTCTGGAAAACGAAGTTGCCAGCCTTCGAACCACCCTGATCACGATGAAGGAGCAAGCAGAGAACAATCAAGCACAA TTGCTTGCGCTCTTCACCCAGAACCTGTCCAAGCAAACTCCTGAGAAGGAGGACTCAGGGAGCATTCGTAACAACGACAC CCCAATCAGATCTGGGAAAGACGTCGGCGGATCATCTGGTGTGTCTGGATGGACCAAGCTCGATGGAGGTCTTCTGGACG AATTCCGGAAATCTGCAAAGAAGGTGGAGCTACCATTGTTCAACGGCGACGACCCCGCTGGGTGGATTGCGCGCGCAGAG GTGTATTTCCACATCATGGGTACAAGCCCAGAAGTCAAGGTGAATTTGGCGCATTTGTGCATGGAGGGATCGACGATCCA TTATTTCAACTCTCTGTTGCATTTGGACCCTGGTTTAACCTGGGAAAAGCTCACCAATGAGCTGCTGAAGCGCTATGGCT CTGCAAGCAAAGGGGATGTGTTTGAGCAACTCTCAGATCTCCAACAGAAGGGAACAATCGATGAATACGTTCTGGAATTT GAGCGTTTGTTGTCTCAAACTCCAAATCTACCTGATGAGCAATTCTTCGGATACTTCATTCATGGTCTCCGAGAGGATAT TCGAGCACGCGTCCGGAGTATGCGTACGTTGGTGCCTCTGCCACGTTCTCGATTGATACCTTTGGCAAGAGCAGTAGAGA CGGAGCTCCACGACCCAGGTCACTCGCGCACCGGGTCGAAGGAAGGAGCCTCACTTTCTGGATTCGGATCGGGTTCTTTT ACCAGAGCGGCCCAACATGCGTCACTTGGGTCTGGCCCACCGGGTCAGAAACCCAATCAGGGATGGGTAATGGTCAAGAG CAAAGACGATAAGGTCGATCGACGTGAGGACAACATCAACCCTCGCACACCTCCGCGCGATCGAGGGATACGTCACCTGC CTTACCAAGAGCTTCTGGATCGAAGGCAGAAGGGGTTGTGTTTCAAATGCGGAGGAAAGTATCATCCTCTTCATCAGTGC CCTGATAAGCAACTTCGTATAATGTTAGTCGATGAATCGGAAGAGGTGAACGACAAGCCTGAGCAAGAAGCAGACACGAC GGGAGCGGTGGTGGATGGTGAGTGCAGCATCATGAGCCTGGAAGCGGAGCCAACCCAGACTCGAACCATGAAGCTACAGG GGGCAATCGGTGGTGTACAAATGCTCATTTTGGTGGACAGTGGCGCGACGCATAACTTCATATCCCGCCGCGTGGTGGAA GCCATGGGATGGGTTGTTCAGACAACACCGATGATGCGAATCCGATTGGGAGATGGGTATAAAGCCATTGCTCGAGGAAA GTGTGAACAAATGGAGGTAGGAATCAGAGATTACAAGACAACAGTGGATGCCCTGCTGTTAGACTTAGATGACACCGACT TGGTCTTGGGAGTGGCATGGCTCGCTACGCTTGGGGAAATGAAGGTTCATTGGGGGAAAAGGACTATGAAATTCCAACAC GAGGGAAAGTGGGTCTATCTACAAGGTCAGGACTATGCTCGGGAAGAAGGAAAGGCTCTACAGAGTTTCTTTGGCAGTAA CAAGTGGGAATTTGGGGGGTGTTACCAGGCTTCTTCTTTGCTTACCCTGGAGCCTGCAGATGACAAGCAGGGAGAATCTC ACCTAACCAAAGTCCAGGCACAACAATTAGCCACCTTACTGTCAAGTTTTGATTATATCTTTGCCACAGTATATGGACGT GACCCTCCTATTATCCTTCGATTCACATCTGGTGAAACAAACGTAAAAGCAGTGGCACTAGAACTGGTAACTCACGGTGA AGCTCTACGCCAACTCAAGCACCACTTAGCCCGCGCCCAAGGGAGAATGAAATCCCAAGCTGACAAGAAGAGGGGGGACA AGCAAATTGCGATTGGGGAATGGGTTTATCCCACTTTTCACGTTTCACTACTCAAAAAAGCGGTTGGGGACTATTCTATG GAGCAAGGATTACCACAGGGAATGAATGGCAAGTTCGTGGAGTCAGTGGAACCTGCATTGGTACTAGCCACCCAAGATAT ATTGCAACTCGACGAAACAGTGAAGCAATTTCTGATCCAGTGGCCGGGGAAACCTGCGGACGAAGCAACTAGGGAAGATG AGCAAACATTTTTGAACCAATTTCCCGCTTTCAACCTTGAGGACAAGGTTGTGTTTCAAGGGGGTGGTATTTATTAGAGT ATATAGGTGATATGAAAATATTGGTTATGCTTAGTGTGTGTGTGCCAGCTGGAATGCCAGCTGGACACAGTTGTTAATTC TGTTTTGAACAGCTGTCAATTCTGTTAGAGGAACAGCTGTCAATTCTGTTAGAGGTTGTTACCATTCAGTTAGAGTTAGC TTAGCTGTTAGTTTAGCTTGTAGAGCAAGCTTCTTCAATCCTATATAAGGATTCAATCCTCATTGTATCGGTTAACAATT CATAGTGAATATTTCATATGCAAATCTTTTTCTCTTTCTCTGGTTTTCCTATTATGGTATCAAGAGCCTAAGATCCATGG CTATGGATGCTTCATCTCCTTCCTTACCTTCTTCTTCTTCTTCTACAAACACTCTCTCTCAAGCGTTTTCTCACAAATTG AGCATCAAGCTCGATGACTCCAATTTCTATTCATGGAAACAACAAGTGGAAGGGGTCATCAGATCACACAAGCTTCAGAA ATTTGTGCAAGATCCACCTCTGATTCCTGAGAAGTTCTTGACTGATGCAGATAGGATCACAGAGAATGTGAATCCTGCAT TCTCAGATTGGGAGCAACAAGATTCACTCCTCTTCACATGGCTTCTCTTTACTCTTTCACCTTCAATTCTTCCAAATGTG ATTCAGTGTGTGCACTCCTGGCAGATTTGGGAAGAAATTCACTCATTCTTCAATGCAAAATCACGTGCTCAGTCAACACA GTTGAGGAATGAACTGAAGAACATCACAAAAGGTACAAAAACTGCTTCTGAGTTTCTGCAAAGAATCAAGACAATTGTGA ATACTCTTGCTTCAATTGGAGAACCTGTCACCTTTCGTGATCATCTAGAAGCGATTTTCGATGGTCTCTCAGAAGAATAC AGTGCTTTGATGACTGTTATCTACAATCAAACCACCTATTACACAATCTCTGAAGTGGAAGCCATGGTGATCTCTCATGA AGCGCGGTTTGACAGGATGCGGAAGAAGCAACTCGCAGAAACCACTCCTTCGGTGTTTCTGACGCAAGCGACAGCGCCGT CTGCGTCTTCTACAACACCGGCGCCGCCGCCACAAGCTTTGTGGACTCAGCCTGCTCCGGCGCCGCCGCCACCAGCGACG CAACCTCCAGCGACAGCTGTCGCTCCTTTCCAGCCAGTCGATGCTGCTGTTGACTCTGGTTATGGGAATCGCGATGATCA AAATCGCAATTCTGGAAACTATGGCAGAGGACGCGGGCGCGGAAGAGGACGCAATGTCCAGTGCACTTACTGCAACAAAT GGGGCCATGATGCAGCTTCTTGTTGGTCGCGTCCCTCAGGAGTTAGTCCTCATGCTAATTCCAGTACCAATTCTGGTCAA TCTGGAAATTTTGGTCAGAATTACCCTGCTCCTGGTGTCAATTTAGGGTTTCCTTCAATGCAATTTGGGGGTTTTCCCTC TATGGCCAATTTTGGGTTTTCTCCTTATGCTTCGTGTAATTCAGTGTTTCCTCAGTATGGTTCAGGTGCTATTCAACCTT CTGGCATGCCTCAATGGCCTCCTTGGTGTATTCCACAAATGCCTTATCCACAAGCTGCTGGAATGCAATTTGCTCGTCCT TGGACTCCTCAGGGTCAGTTCTCAGCACCTTCTGCTCCATCACCTCAATTTCCTAGGCCACCACAGCAACAAGTCTCTAC TGGAATGCTTCCTCAGGCCATGTTAGCTACTGTTCCTACACAGAATTCATCACAGATAGCTTGGTGCCCTGACTCTGGAG CCACTCACCATGTGACTAACAATCCAGGCATTTTTGTGGATCATATTCCATCACCAACACAGGATCAGCTTCTGGTGGGA AATGGTCAAGGACTGTCAATCCAGTCTATAGGTTCAGCCACTCTTCCTTCTTCTTTTAATCCTACAGCTAGTTTAATTCT TAAAAAGCTTCTTCTTGTGCCTTCTATAACTAAAAATCTTGTTAGTGTTAGTCGTTTTGCTCGTGATAATAATGTTTTCT TCACTTTTCATGCCAATCATTGTTGTGTTCGTCATCAGGACACTTATGAGCTTCTTCTCACTGGTGCTGTTGGAGATGAT GGTCTATACTACTTTGATGGACCACTCACCAAAGCTAGCTCACAACCTGCTGTCAATGTTTCTTCTCTGTCCTCTTTACA TTCTCAGTCTTTGTCAAGGTCTTCACAGGCTTGCTTAGCTTCCAAGTCTGCAGCAAATAAAGCAACTTCTGCTATTAGTT TGCATTCTGCTTCTGTTTCTCCTGTTGTTTCTAGTATAACTCAGTGCAATAACTCAGTGCATTCTGTTCCTGTTTCATCT ACTGTTTCTGGTTCAGCACATTGTAATAGTGGTAGTAGCATTTCTCTTTATGATTTGTGGCATTCAAGATTAGGTCATCC TCATCATGATGTACTTAAACATACTCTTTCTTTGTGTAATGTTTCTGTTCCAAATAATAAAAGTGTGTTTTCCTTTTGCA AGGCTTGTTGTCTGAGTAAACTTCATAGACTACCTTCTTCTCCTTCTACTGCAGTTTACAATACTCCTTTTGAACTTGTC TTTGCTGATTTGTGGGGACCAGCCTCTCTGGAATCCTCTTGTGGGTTTTTATATTTTCTAACATGTGTTGATGCATGTAC TAGATATACTTGGATATTTCCCTTGAAGAGAAAATCAGACACTTGTGCTACTTTTATCAATTTTCAAGCTATGGTTGAGT TGCAGTTTGGTCACAAACTTAAGAGTGTCCAAACTGATGGGGGAGGGGAATTTAAACCCTTATCCTCTCATTTTCAGAAG TTGGGAATTATTCATAGACTTACCTGCCCACATACTCACCATCAAAATGGGAGTGTAGAGAGAAAACATAGGCATATAGT TGAAACTGGTTTAGCTTTGTTGTCTCATGCCTCAATGCCTTTGCATTTCTGGGATCATGCTTTTCTTGCTGCCACTTATC TCATAAATAGAATGTCTACAACAACTTTACAAGGTGCAAGTCCTTACTTCAAATTGTATGGTCAACATCCTGATTTTAAG AGTCTAAAGGTCTTTGGGTCAGCTTGCTTTCCTTTTCTTAGACCTTATAATTCTACTAAATTGTCTTTGCATTCCAAAGA GTGTGTGTTTATAGGGTACTCAATTAATCACAAAGGATACAAGTGTTTGGATCAATCTGGTAGAATTTATATCTCTAAAG ATGTTCTTTTTCATGAACATCGCTTTCCCTATCCTAGTCTTTTTCCTGATGAGACTACTTCTTCTACCTCAGCTGAGTTT TTCCCTTTATCTACTATCCCTATAGTTTCACACACTACACCACCTGCATTGGCTAGTTCTGGCTTTTCCTCACCAGGTTC AGCTGATTCACCACAACTGCAGCAGCCTCCAAGTGTTACTGTTTCAGCAGATGTTCCTTCTTCATTAGTTTCTGCAGATA CTTCCCCAGCATTATCTTCTGCTCATGATCAGCCAGCTGATACTCCTGTTTCAGTGGCTGTTGCAGCTCCTCCAGTGGCT GTTAACAGTCATCCTATGCAAACTAGAGCCAAATCAGGAATTGTCAAGCCAAGGTTACAACCCACTCTGTTACTTACTCA CATGGAACCAACTTCTGTCAAGCAAGCTATGAAGGATGCTAAGTGGTATAAGGCAATGCAAGAAGAGTACACAGCTCTTA TGAACAATGGTACATGGACTCTTGTTCCTCTACCAACTAACAGAACAGCGGTGGGGTGTAAGTGGATTTTCAGAATCAAA GAGAATCCTGATGGCTCTATCAACAAGTACAAAGCACGGCTGGTGGCTAAAGGCTATAGTCAAGTTCAAGGGTTTGATTA TTCTGAGACCTTTTCCCCAGTAGTGAAGCCTATTACAGTGAGACTTATCCTTTCACTTGCTATTTCAAGAGGCTGGCCAC TACAACAGCTGGATGTCAACAATGCTTTTCTTAATGGTGTGTTGGAAGAAGAGGTGTACATGGTACAACCTCCTGGTTTT GAGCACAAGGACAAGAATCTGGTCTGCAAGTTGCAAAAGGCCCTTTATGGCCTCAAACAAGCTCCAAGAGCTTGGTTTCA TAGGCTGAAAGAGGTTCTCATCAAGTTTGGTTTCCAAGCCAGCAAGTGTGATCCCTCCTTATTCACCTACTATTCCTCAC AAGGCTGCATTTACATGCTTGTTTATGTGGATGATATCATCATCACTGGGGCTTCTATGACTCTCATTCAACAACTTACA ACTCAACTTCATTCTATTTTTGCTCTAAAACAGCTTGGTCAACTTGACTATTTTTTGGGTGTTCAAGTCACTCATTTGAC TAGTGGAAGCTTGCTGCTGAATCAAACTAAGTATATTTCAGACCTTCTCACCAAAGTCAACATGCTTGATGCTGCAGCTA TTTCCACTCCTATGCAATGTGGCGTCAAACTCTCCAAACATGAAGGTTCTGTTCTAAAGGATCCTACTGAGTATAGAAGT GTAGTTGGTGCACTTCAATATGCAACCATTACTCGCCCAGAAATCTCATTTGCAGTCAACAAGGTGTGCCAATTTCTGGC ACAACCTCATGAGGAGCATTGGAAAGCTGTCAAAAGGATTCTAAGATACCTAAAGGGCACTCTTACTCATGGTGTACTTC TTCAACCATGTTCCATGACCAGGCCTCTCCCTTTGATTGCCTACTGTGATGCTGATTGGGGATCTGACCCTGATGATCGC AGGTCCACATCAGGCTCATGTGTTTTTCTTGGTTCCAATCTTATTTCTTGGACAGCTAAGAAGCAGACTCTGGTTGCAAG GTCAAGCACTGAGGCAGAGTATAGGAGTCTAGCAAATACTACTGCAGAACTGTTATGGGTGCAATCTTTACTCACAGAAC TGAAAATTCCCTTTACTACTCCTACAGTTTATTGTGACAACATGAGCACAGTGTTGCTGACTCACAATCCTATTTTGCAC ACCAGAACTAAGCATATGGAAATGGATATATTTTTTGTAAGAGAGAAGGTTCAGGACAAGAGTCTCCTTGTTCAGCATGT GCCCTCTGAACATCAAAAAGCTGACATCTTCACCAAAGCTCTCTCCCCATCAAGGTTTCTACAGCTCAAGGACAAACTGA ATGTAGTTGACAAGCTTCAGCTTTTGTCACCTCCTTCAGTTTGAGGGGGTGTATTAGAGTATATAGGTGATATGAAAATA TTGGTTATGCTTAGTGTGTGTGTGCCAGCTGGAATGCCAGCTGGACACAGTTGTTAATTCTGTTTTGAACAGCTGTCAAT TCTGTTAGAGGAACAGCTGTCAATTCTGTTAGAGGTTGTTACCATTCAGTTAGAGTTAGCTTAGCTGTTAGTTTAGCTTG TAGAGCAAGCTTCTTCAATCCTATATAAGGATTCAATCCTCATTGTATCGGTTAACAATTCATAGTGAATATTTCATATG CAAATCTTTTTCTCTTTCTCTGGTTTTCCTATTAGTATTGATAGGCCCCTAAATAGAGAATGGGCTGAGACAATTAATCC TGAGACAATTAATCCAAGGCCCAAGGTATGGCACGTGTATGTGAGGAGGGGGAAGGAAGGAAGCATCCAGAAGAAGAGTG AGCTGGCAGTGTGAGAAAGGGTGCTAGGAAGAGTTAGTTACGGGAATTAGGGGAATTGGTGTATAAAGGGGATTCTGTTA GTAGGGGATGGTTCCCATCAGGATGTGAGTTATATGCTTATTGAAGTATCTTTTGCATAATTCAAGGATATGCTTCTTAG CATTTTTTTCTTTGTATTAAAAGTGTTAAATGGTTTCCACATCTGTTTCTTGCTTAATTATTGGGATTGAGAATATAATC TCACTCCTGTATAAACAATTTCCTAGGACTCACTCCTATAAAATAAAATGGAACTTAGTGCATGTCTGGAAATTCACCCA GAAACCAGTTGAAGCCAAAATGACACTCTTAGTGCTTTTTTGTAACTCCGAATCAATTCTGACTCATGTCAATGCGAAAC CAAACATGGAATTAAGTTGACATAGAAAAGTTTATCTTAACCTAGTTACAGGTGCACTTGTAGAAAGCTAAGTTGCCACA CTGCACTATTCTTCTGCTCACCCCACTATATATGTATATTGAATACAAAATAAAACTGTATTATTTGTTTTTTGTAAACC TCATCTTATGTGAAATCACCTTGTTTAACCACTCCCTTTTATTCTTAGCTCTTTAAACTAGAAGACGTTGCCATGGGCAT ATGGATTGAACAGTTCAAGAATGGTGGTAAAGAAGTGCATTATGAGAATGATGAGAAGTTTTACAATGCTGGTTGTGAAT CAAATTATATACTTGCCCATTATCAGAATCCAAGAATGGTTCTATGCCTTTGGGAGAAACTGCAGAAAGAACACCAACCA GCATGCTGTGAGTAG

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0334800.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAGAAGTGGTATGGAGGCTTGTTGATCACGGTTTTGGGTATGTCGTTGCTTCTATTCTACAGCCTTAAAGGAATTCA GCCACAGAAGCAGCCAGCAAAACAGTCAGCATACGGTTTTTTCAATAACCATCCACAAAATGGTTCTGTTAAAGAAAGCA TCAGTCTTCCAGTAAACTCTTCTGATGTGGAACCAAATCAGGTACCAGAGCCAAGAAAAAAACCACACTTGATACATGTT GCAGGGCTTGATGACTTGTATGACATGAAAACAATTTCTGAAGGAGAGATGAATGTTTTGCTTGTTTGGACATACTTGCG TTCCTTGTTGTCACGGTCAGATTCCTTGCCTGAAACAGCTCAAGGAGTTAAAGAGGCTTCTGTAGCATGGAAAGAGTTGA TTTCCACTATTGAAAAGGACAAGGCCTCTAAGATTAGTAAGATAGACAGTCCAGCATATAAAAAGTGCCCGTTCTCCGTG AGCACACTTGGCAAGACAATAGATGATAGTGGAATCACTCTGGATTTCCCCTGTGGTCTAGTTGTAGATTCTTCTATTAC ACTGATTGGCATCCCTAATGGACTGAACAGAAGTTTTCAGATTGACCTTGTCGGGCATGAGTTAGAAGAGGAGCCAAATC CTCCGATTATCTTACATTACAATGTCAGTGTTCCTGGAGAAAACATGACAGAGCAACCATACATTGTTCAAAATACTTGG ACTAGTGATTTTGGGTGGGGAAAAGAGGAAAGGTGCCCAGCTCGAGGTTCTGCTAACATCCAAAAAGTTGATGGACTTGT TCTCTGCAACGTACAAGTTGTCGGGAGTAACAACGAAAATGTGGGTCAACCTACTAGTGATATACCTTCTAATAACTCCT CAGAAAGTGCACACAGAACTGCTAATTTCCCCTTTGCTGAGGGTAATCCTTTCACTGCCACATTATGGGTTGGTTCAGAG GGATTTCACATGACTGTGAATGGAAGGCATGAAACATCTTTTGCTTATAGGGAGAAGTTTGACCCATGGTTAGTCAGCAC CGCTAAAGTAGCAGGCAGTTTAAGTCTCTTATCAGTCCTGGCTAAAGATTTACCTGTTACTGAAGATAATGATTTAGTTG TTGATGTTGAGAAACTGAAGGCTCCTTCTATTCCCAGAAAAAAACTTGTTTTGCTGATAGGAGTATTCTCTACTGGAAAT AACTTTGAGCGTCGAATGGCCCTGAGGAGGTCTTGGATGCAATATGAGGCTGTACGTTCTGGGGAAGTTGCTGTCCGATT TTTCATTGGACTTCACAAGAAAGATATAGTTAACTTTGAGTTATGGAGTGAAGCTCAAGCATACGGGGATATTCAGTTAA TGCCTTTTGTGGATTATTATAGTTTGATTTCTTTGAAGACAATTGCAATTTGCATTATGGGGACAAAAATCATCCCTTCT AAATACATCATGAAAACAGATGATGATGCTTTTGTAAGGGTTGATGAAGTTCTTTCCAGCCTCAAAGGTAAGCCATCCGA AGGCCTCTTGTACGGTCTCATATCTTCTAAGTCATCTCCTCAGAGGGATAAAGACAGCAAGTGGTACATCAGTGAGAAGG AATGGCCACATGATATGTACCCACCATGGGCACATGGTCCTGGCTATGTCATCTCTCGGGACATAGCAAAGTTCATTGTC CGTGGCCACCACGAAAGAAAACTCAAGCTCTTTAAACTAGAAGACGTTGCCATGGGCATATGGATTGAACAGTTCAAGAA TGGTGGTAAAGAAGTGCATTATGAGAATGATGAGAAGTTTTACAATGCTGGTTGTGAATCAAATTATATACTTGCCCATT ATCAGAATCCAAGAATGGTTCTATGCCTTTGGGAGAAACTGCAGAAAGAACACCAACCAGCATGCTGTGAGTAG

Download CDS Sequence

Protein sequence (LotjaGi4g1v0334800.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKKWYGGLLITVLGMSLLLFYSLKGIQPQKQPAKQSAYGFFNNHPQNGSVKESISLPVNSSDVEPNQVPEPRKKPHLIHV AGLDDLYDMKTISEGEMNVLLVWTYLRSLLSRSDSLPETAQGVKEASVAWKELISTIEKDKASKISKIDSPAYKKCPFSV STLGKTIDDSGITLDFPCGLVVDSSITLIGIPNGLNRSFQIDLVGHELEEEPNPPIILHYNVSVPGENMTEQPYIVQNTW TSDFGWGKEERCPARGSANIQKVDGLVLCNVQVVGSNNENVGQPTSDIPSNNSSESAHRTANFPFAEGNPFTATLWVGSE GFHMTVNGRHETSFAYREKFDPWLVSTAKVAGSLSLLSVLAKDLPVTEDNDLVVDVEKLKAPSIPRKKLVLLIGVFSTGN NFERRMALRRSWMQYEAVRSGEVAVRFFIGLHKKDIVNFELWSEAQAYGDIQLMPFVDYYSLISLKTIAICIMGTKIIPS KYIMKTDDDAFVRVDEVLSSLKGKPSEGLLYGLISSKSSPQRDKDSKWYISEKEWPHDMYPPWAHGPGYVISRDIAKFIV RGHHERKLKLFKLEDVAMGIWIEQFKNGGKEVHYENDEKFYNAGCESNYILAHYQNPRMVLCLWEKLQKEHQPACCE

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
Phobius	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	25	25	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	7	7	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	5	23	19	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	8	20	13	-	–
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	21	25	5	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	26	637	612	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	51	71	21	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	51	66	16	-	–
PANTHER	PTHR11214:SF258 View details on PTHR11214:SF258 Search for proteins/transripts with this domain View external data on PTHR11214:SF258	82	634	553	1.4E-237	–
PANTHER	PTHR11214 View details on PTHR11214 Search for proteins/transripts with this domain View external data on PTHR11214	82	634	553	1.4E-237	IPR002659 Show description in modal box View details on IPR002659 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51304 View details on PS51304 Search for proteins/transripts with this domain View external data on PS51304	172	362	191	34.585	IPR001079 Show description in modal box View details on IPR001079 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00070 View details on cd00070 Search for proteins/transripts with this domain View external data on cd00070	173	359	187	3.76289E-22	IPR001079 Show description in modal box View details on IPR001079 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00337 View details on PF00337 Search for proteins/transripts with this domain View external data on PF00337	173	360	188	4.8E-36	IPR001079 Show description in modal box View details on IPR001079 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49899 View details on SSF49899 Search for proteins/transripts with this domain View external data on SSF49899	173	362	190	1.21E-24	IPR013320 Show description in modal box View details on IPR013320 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00908 View details on SM00908 Search for proteins/transripts with this domain View external data on SM00908	176	361	186	1.0E-23	IPR001079 Show description in modal box View details on IPR001079 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01762 View details on PF01762 Search for proteins/transripts with this domain View external data on PF01762	403	585	183	1.0E-40	IPR002659 Show description in modal box View details on IPR002659 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:0006486 View details of GO:0006486 AmiGO InterPro QuickGO	Biological process	Protein glycosylation	A protein modification process that results in the addition of a carbohydrate or carbohydrate derivative unit to a protein amino acid, e.g. the addition of glycan chains to proteins.	Subterm of View details of GO:0006464 View details of GO:0043413 Part of View details of GO:0009101
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:0030246 View details of GO:0030246 AmiGO InterPro QuickGO	Molecular function	Carbohydrate binding	Interacting selectively and non-covalently with any carbohydrate, which includes monosaccharides, oligosaccharides and polysaccharides as well as substances derived from monosaccharides by reduction of the carbonyl group (alditols), by oxidation of one or more hydroxy groups to afford the corresponding aldehydes, ketones, or carboxylic acids, or by replacement of one or more hydroxy group(s) by a hydrogen atom. Cyclitols are generally not regarded as carbohydrates.	Subterm of View details of GO:0005488

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0334800.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0334800.4