Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0365700
Transcript ID	LotjaGi5g1v0365700.2
Related isoforms 2	LotjaGi5g1v0365700.1 LotjaGi5g1v0365700.3
Lotus japonicus genome version	Gifu v1.2
Description	Phosphoglucan, water dikinase; TAIR: AT5G26570.1 chloroplastidic phosphoglucan, water dikinase (ATGWD3); Swiss-Prot: sp\|Q6ZY51\|PWD_ARATH Phosphoglucan, water dikinase, chloroplastic; TrEMBL-Plants: tr\|A0A072UBU6\|A0A072UBU6_MEDTR Phosphoglucan, water dikinase; Found in the gene: LotjaGi5g1v0365700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:68036729..68051157) extracted from Lotus japonicus Gifu genome v1.2.

CAAAGTTTAGTTTAGATGATGTCTGAACCGTTGAATTGTAATCCACATCCACGTGTGTGGAGAGAAAGGAGGAGACAATA CAAAGCAAAGCTGTTTGCTTGCTTGCATTAACTTAACTTTACCCTCGAACCAAGATCAGATCCCGAATCAATCAATCGAC AACTCAACTGATTGATAGATAGATAGTTTGAAGTTGCTTGAACTGGAACTGGGATTGTAAAGGAAGAAGAAGGTTATGGA TTCTGCGCGTATCTTGCAATGCCATTCGCACATGATCCGTTCTGGGAGTCGGAAGAAGGAAAAGCAATTAGGAGGATCAT CATCATCATCATCATTCTCCATCCATCATCTCTGTCGTCACACTCCTCATCCTCTTCTTCTTCACCGTCCTAAAACTGTT CCGCATATCTCCGCTGTCTCTTCGACTTCCACCCAAACTAGGGAAGAACGAAATAATAAGAAGAAGAACAAAGTTCGGCT GCGTCTTCGATTAAATCACCAAGTTGAGTTTGGTGATCATGTTGTCATTTCAGGATCAGCCAAAGAATTAGGGTCCTGGA AGAAACCTGTTCCGTTGGATTGGACACAAGAAGGATGGGCATGTTACCTGGATTTCCAAGGGAGCCAACAACTTGAGTTC AAATTCATAATTGTCGACAAGGACAACACTCTGCTTTGGGAAGCTGGAGATAACAGGCTCTTGAACTTGCCCGAGGAAGG TCATTTTGAGATGGTTGCAACATGGAACGCCACGCGCGAGAATATGGACCTTCAGCCTTTGGAATTGGATTTTGATGGAG GAGAGATTCAACAAGAAAAGGACTTCTCTGACGCTGCTACTAATGATGCTCCTCTTTCCCAATCAGAAGAGCCAAGTCCT TTTGTAGGTCAGTGGCAAGGTAACACTGTTACTTTCATGCAATCCAACCAACATCGGACCCATGAAACAGAAAGGAAATG GGACACTACTGGTCTTCAAGGCTTGCCTCTCAAGTTGGTTCAAGGTGATCAAAACGCAAGGAATTGGTGGAGAAAGGTAC TCACTGTCACTCTTCTGTTATTCATTATGTTACTTCCTCAAACTAAACTTATGTAAATAACCAGCCTAATACTATCTTGT AATTAACTCTATCTATACTTTTCACCTTCAAGCTTGATATAGTACGCGAAATTATAGCTGAGAGTCTGCTTGGTAAAGAT CCATTGGAGGCACTCATATACTCTGCTATCTACCTCAAGGTCTTCTTCTTCTGTCTTTTCCTCTGTATTTATATTCATTC ATCTATGGTCTTCTTTTACCATCATCTAATCCCCTCAGGTCATCTTATGCAGTGGATTAACACAGGGCAAATAACATGTT TCGAAGATGGTGGTCACCACCGACCCAATAGGCATGCTGAGATTTCAAGGCTTATATTTCGTGAATTAGAGCGACATACC AGTCAAAAGGATATCTCTCCACAGGTGATTTATTATAATATTTACAGCGACATTAAGGGTAGCCTATTTGGTTCCAGGCA CTGATCAAATTTTAGCTGTTAGTGTGTTGGTCATATTTCATAAGACTGTATGAGGGTATTTCTGTCATAAGAGCTATGTG ATGGTAACGATTTATATCTGTGTATATATATACATATACTACCGCAGGACTGAATTGAGTTATGGATTTAAGTGATTCTG TTTTCTCTTTCTTTTCCCTCGTCTAATAACAATGGATTTTGATGCGCGGATATCTTGAGCTTTAGGAAGCTAGCAGTATT TTTGGCCTCATTTCAGCTTGGTACTATATTGAAGATGTGTAGTTCAAATGAATGCAGTCAATTAGTTTCATATGTTCTTT ATGTGTCCCTAGTTTTTCCGGTTGCAGTTATTTTGATTTTAATGAAGCGCTTAAGCAAAGCCATGTAGTATTGAACATTT AAATTCTCCAGGAATTGGAAAATTTTCCAACAATGCTATTAGTGTAGTATTTGTTTTCATTTGCTACCTTTTATATCTCC CTGTATTAGAAGGTTTATCTTACTTCTTTCATTTACCATTATTTCTTTGATATACAGGAAGTTCTAATTGTTCGTAAGAT TCACCCCTGTTTGCCATCTTTCAAGGCAGAATTCACTGCTTCTGTTCCTTTGACTCGAATTAGAGATATTGCTCATCGAA ATGATATCCCACATGACCTGAAGGTTATTTTTCCCAAATTACTTGAAGTATGGAATATAATTGTAGTTCATGTGAATAGT GGTAACATGTTTTATGTATTCTTTATTTTCCAGACACAAATTAAACATACAATACAAAACAAGCTTCATCGAAATGCTGG TCCTGAAGATTTGGTTGCTACAGAAGCTATGCTTGCTAAAATCACAAAGAACCCTGGAGAATATAGTGAAACCTTTGTGG AGCAGTTCAAGATATTTCATCGAGAACTCAAGGACTTCTTTAATGCTGGCAGGTTTGACATGAATAACACTAACCTGACT CACTATAACTGTAAATTATATTATATGTAAATGTAGATATTTTTTTCTGCAGATCAATTAGTTTCACTTTAACATTGTGT TGTTTTCTATCGGAAACCTCCTACATGATCACAGCCCCATGATTTTAATACATAATTAAGCCTGTGAACCAATATACTGA TCATGAAACTCCGTGCAGTTGTTAAGAAAATCTTCATTTTTAAGTAACCATATGTTTCCTTAAGTAAGAAAATCAACTGG TTGAGCACTGTGTAGTAGTTTCTCCATCTTGGAGATCCCATGTTCAGTCCCATTAGAAGCAACTTGCTGTGAAGGCTCGC ATAAAAAGGGTGGCCTAGTAAGTGCACCTCTTCCATTCCGAAGTATGAGAGTGTCATGCCTGCAACCTTATTTGTGTTTC GTGAGGCTGTTTGCAGGTCTAAAACCTGTGGGCTGTAGCCATCATTGTCACAAGAGACAACAACCTTACTGTTGCACTGA AACTTGTTGTCTCTTGTGGAACCTCCAGTAGTCATGGAAAATAGAGTAACCAACCTCATTCATTTATGTAACAACAACAG TGTTGGAATATACTTTTTGAGTGATCACATCAAAGTATACAAAATATGAAGGAGATTTTTCATGTAACTTATGGGTTGCT GGAAAGTCATAATTTTAATGATTTCACTTCTGACCTTGTCATGTTGCAGTCTTTCCGAACAGCTAGAGTCAATTCACGAA TCTATGGATAAATATGGGATTTCATCACTTGATTCATTCTTGCAGTGCAAACAGGTGAAATCGCCTTTTCTGATTCTGTT GTGTTTTTAATTTGGTCTCAGGCTTTGACACTGGAATATGCATATTGTGGAACATGACTTAGGAGTTGAACTTCATTATA TGCTGAAATAATCTGATAAATCCGTTAATGTTCTTCTACTTTAGGATTGAATTTTATGTTTGGATTTTTTCTTCCAAGAA TCCTTTCAGTGCATATCATTGTCCTTCAGCTACGTTCATTGAGCCACATACAAACTAGTGCTGTGCATATGAACCTTTGA GTTTTCTGCATTCATTTGGGCTGTTTCCATTAGCCTGGTTGTGAATATTATTCTGAAATACGTCAGCTTATGATTTCTTG GAGATAGATTTTTTCTTCTGTATTTTCAATTTGAACTGTGTTAGAGTATAGGTTATGCAATTCCTTTTTATTCATTCTCT ATTGTATTTTCTGTTATTCATTATAACCTTTCTGTATAAGCTTTCTGTTTGTTAGTTATCCCAGCTGTCATAGTTATTTA CGTACAGCTGTCATAGTTAGTTAGTAAGAAGAGGTTAGTAACTCTGAAGTTGCAACAAACTGTTAGGTTAGTTTCTTTCA GTTCAGGCTATAAATACACATAGCCTGTATCCTTTCACCCACCCAAATGCAATACAATTCAGATTATAAAATCAGTTTTC ATTCTCTCTCTTATCTTTTTGTGCAAATTGGGGCTCTTAACTCTTTTAGTCTAAAGGTCCTTTGGTTTCTTTTGCCTTGT TGTATTTAGGATGGTGTGTTTGGGTCTAAAGGTCCTCCTTCTATGTACTTTTCTTCTTTCTTTTCACTAGACGCACATCT AGGGTTCTAAATTCGAGTTAGTGGGCCTGTTGTGTTTGGGTCTGAGTTTGGTTTTATCTGTTTGCTTTTGTTATTTACTT TGGTATTAAGTTAGCTTTTATTATTTGAGTTGGGCCTATGTTGGGCCAGTGTCATTTACTTAGTAAGGTTAGTAGGGTTA GTTTATTATAAATAGGTACTCTCCGTAGGTTAGAGCATGAATTAATAGAGTTTGTATAAGGATTTTCCCTTGGAAAGAAG GTTTTCCTTCTTGTGAATCCATTAGGATTGTTTTCTTATCCCTCTCTCTTTATCTCTACTCTCTTTCTGTAATAGGTTTT CCAAAATAAACATACTTACATATATTTCACTGGAGTATGGTGTAATTTCAACATCCCATAATATCAAATACCTTTCAAAG GGGCGACTCCATGTAATGGATAGCCTCCTCGACTGTGAATCATATCATATAATCTCATTGAGAGTAGTTACTGTAGTTTT TTTTTCCGGTTTCCCAAGGCATCCCCATGAGACTAATCCTCCGAGCCTCGGAGATTACATTAAGTGGGTAGACCTCTCCC AAAAATGCTTCTCCATACGCACCGCTCAGGGATCGAACCCTGAACTAGATGCTTAAGGAGCCCAACTATCTACCAGTTGT GCTACACCTTGTTACTCTAGTTGATAGTCCTCTTTTTGCACTTATGACTCCATCTAACATATAGACCTCTCCACCCAGAA TCATATAGCTAGGTGCACCTAGACCGTTACCCACACTAACGGCCACGGGGTTCTAAAATGGATCCCTCAAAATACAAATA CAAAACCATTTTAATCACGAAAATAGCATTTTTAATTTATACTAGTCAATTACAAAAATATCATTTTTAATTTCATAATA GTCAATGCGAAAATAGCATTTTTAATACTCATTTTCTATTTCGTAACTACATTCAAAATTAACTGTATACAATTCACAAC ATAGAAAGATTCAAGAATGTAAAAAATAAGTATAAAAACATGTCTCCCCAAGTTTAATTTAATTAACAATTTCTAATATG ACAAGATAAATAAAAGTGACAATTATAGAAGTATTTAAAGATGTCACAATTTTGAGGAACCAACAAACCCACTCCCAACA ACTCTAGAAGAAGCAAACAATGTGATAGCCGGTAGATCTATAAGTACCAATAAATATTTTAAAGACTAGAAATTTATTTA AATCTCTTGAACAAGGACAACCCTAAAATATCCAAATTTATTCTCAAAGTCATAGAAGTAATTTTACCTAAGCTAACATT AATAGAAGTCCATTCTTTAAATTTTTGAGTTGTGAGTATACCTCAAAAGAGCTCAAATAAATGACCGGGTGGTACCCTTC TCATTCTTTAGAGAATTAACTCTAAGGCAAAAAATTTACCTTACAGGCTCGTGTAAGAGAAAGGTGGAAAGCTTAGCTTG AAAGTAATAAAACCTTCCCCCAAGAGGTGGAGTCTTACAAGTGGGATTTCAAGGGATTGCGGTGAAAGAAATTGGAAGAG ATCAGGCGGACAGAATGTGCTGCAACAGAGGAAAAAAACAACAAGAGTGAGAGAGAGTACCTTAAAGATGAAGTCGATGG GCATATGTATTTTAGTCTTAGTTTTTTTTTTAGTTAAGAGTTGAGACTTAAGTCATACGGTGCATTCATATTCTCAACCA TTTGTTTTCCCCCCCCTTCTCTTTTGTCGAAATACTTCTCCACTAATTATAAAAATGACATAAGAATAACTTTTGAATAA TTTATGCTCATCATATTCAGCATAAAAGTGAAATATTATAGTTGTAAAGCTATTGCTTTTATTAAGGTCCCACATTGAAT TGATACTTGGCTAAAGTAGTCCTTATAAGGGATAATACAATCCCCACCCCTGAGCTATAGGGGTAGGCCTAGTCCAAATT CAAATTCCACGCTCCAAATGTCCATCCCTAGTGTGTGAGGGGGGGGGGGTGTTGTGGTCCCACATTTATTAGAGACATTG GCAAAGTAGTCCTTAGAATGGCTAGGTCGCTAGGACAATCATTATCCTTGAGTTAACTTTTGGGGCAAAGTTAGGTCCAA ATTCAAGAGCTTTTATAAGAACTCTCCTTTCCGTTTTTGTTTTGTTGGTGGTGGGGGGGATAAGTACTATTGATCTTTTT AACTTGACTCTAGTACTCAGTTTTTCTTATAATGACATCTACTGATAAGGGATCACAATACATTTCCAGACAATGGACTC TGCTGCAGACTCAACACCTGGTGTGGAACAAGAAATTAAACTTCTGTTTAAAACCATGGAATCCTTGATTGCTTTGAGAG AAACTTTTGTCAAGGGTCTTGAAAGTGGCCTCAGAAATGATGCTCCAGATTCCGCAATTGCTATGCGTCAAAAGGTGACA CTTATTTTATTGATCTATTAACAAAGCTTGAGTCTGGTTAGCTATTTAAAAAATGTTTTAACAACTTTTGATCCTTGTTT CTTTGGAAGTACAGTGGCGCCTCTGTGAGATTGGGCTTGAGGATTACTCATTTGTTCTTTTAAGCAGGTTCTTGGCATAC CTTTTCATAATTTACATTTTGAACACTTGTCAAATACTCAGATGTTGAACTACTTTCATGAAATATATGAAGAACACATT ATTTTGCAATAGGCACGGAGTTCTTGTTATCTACTTGGACAATAGTAGTTGCAGCTAGAATATAAATGCTTACTTGCTCT AATTGTGTGAAGATAGATGTTTATTGGGCCTTGAATTTATTCAAAGAATTATATCAATTCTTGAATTCTTTAGATTGGCA AAATATATGAAATATCCAATGTTGTGAAAAGCTAGATTCTACGTAGAATCGGAGAGGGGGTTCAAAATCGTATAATCGTA TAATCGTATATTGAATCGTAAGATTCTACCATAAATAGAAAAACAAAAAAATAGCATAGATATCTTGTAAATCACATCAT TTAACAAAAATTGGAATAAAAATTCATCAGATTAACATTCATATAAGTCATAATCTCAATCCAAAATCATAAGAGTACTA GAACATGAAACTAAAAGATGAAACAGACACGTTGAAGAATGAAGGAAAACAAAGATGTTGGAGAATGAAGAGAAAACAGA AGAGGAAGAGACCTAGATAGAGACTACAGAAAACAGAGCATGAATGCGTGATTCAATTCACTCTACTATGAGTGAATTAT ATAGGCAATTAGAGGCGTGAAGGTTGGGTCATGTGGGTTGATTTTTCAAAATATACAATCAGTTATTAATTCTTATCAAT TAACCATTCAAATTTGGCAACTACAATCGATTAGAGCTTCAATTTTGAAATCCCCTAAATGCTGGGTGGTGGGTTGTTTT TTCCACCAAGTCAAAAAACTCTTTAGTTTCCCCAATTTTAGGAATCAGCTTCAAAAATTAAAAAAATACTAGAATCGTAA GATTCAATAGGATTTTACGATTAAAATCTAAGATTCTACGCGATTCCACCAAAAAAAGATTTTGCATGCGTTTTGAATCA GAACAGTGCTTAGGATTTTGCGATTTTGCTATAGATTTTGCTAACATTGGAAATATCTTTTCAAATTTAAACGATCACAA CTTATGGGGATGTAGTGTGAAGTCAAGCTGCCTAGATGTCACTTGATAATGATGTATATCGAACCATGTTGAACTTGATT GATGGAGAATTGGTGATATAAAACTTTTCCAGCTACATGGCACTTATAAATTGTAATGAAAAGACCTTCCTCTTGGTAGA GCATTAACTTCTGAACTCATATGAATAGATTTATCAATGTGCTTGAAGCTATGGGAGGTGCTCATTGGCTGGCTGCAAAT TTGCAGTCAAAAAATGTGAACTCTTGGAATGACCCGCTTGGGGCCCTTACTATTGGAGTCCACCAGTTGAAGTTATCTAA TTGGAAGCCAGAAGAATGTGGTGCTATTGAAAATGAGCTCATTGCCTGGAGTGCAAGAGGCCTTTCTGAAAGGGAAGGTA AACTCACGTATTTGCTTAACTTGTCGTGTTGACTAGTTTTTCACTTTAGATGTGCTATGCTTTCCCAGGAAATGAAGATG GCAAGATGATCTGGGCATTGAGACTGAAAGCTACTCTTGATAGATCAAAGAGGCTAACTGATGAATACACTGAAGAACTT CTTAAAATATTTCCTCAAAAAGTCCAGGTCAAATAGTAATATTATTCTGTTAAAAGCCTGATATTTTAATGCCCAAAGCA AAACAAATATTATATATATTGAAGCCCAAGTACGACCAAGACTAGGGAATAAAAGAAGTACAAAAAATCCCTTGACTGAT AATATATAATTAAATGAAAAAACAGTTTGCTAGTCTTAATAACCCTAATATAATTTTGATTAGTACCTAGTAGGATCTAT GCACTTTTCCACTCAGCTTTTCAATCAGAAATAAGCCAGAATGGCTTACAAATTCATTTCAAACCTAAATAACTTACGCC TTTTAATACTTTTACCCTGTTTGGTTTCTAAACCAGGTTCCTTTGCATGTTATGAATGTATCTTGAAATAAACAAAATTG TCCCTTTAAATTTTGCAGACACTAGGAAAAGCTCTAGGAATCCCTGAAAACAGTGTCAGAACATATACTGAAGCTGAGAT TCGTGCTGGGTATGGTAATACAACATTTTATTAAGAGAACAAGTTACAGGAAATCAGGAATTATATTCTGTAGTGTTATC ATCAATATCTGTGGTTTCTTGTCATGTTTTTTTTCCTAGACTATGGATTTCATTACGATAAACATAACTAGTATATTATC TGACTTCTCTACTGTAAATTTTAGCGTGATTTTTCAGGTTTCAAAACTATGTATTCTTCTGCTAAAAGCTGTTAGAAGTA CACTTGGTTCTGATGGTTGGGATGTTCTTGTTCCAGGAGCTGTTTTAGGAACATTAGTTCAGGTACTGAGCTACAATTAG AAATATCACTAGCAATGTTATTGTGATAGTTACTCTGGTGCATGTGTGTGTGTGTGTTTGTTTGAGAGAGAGAAACAGAG ATCTTTAAAAAACAACCAGTATTGAATTTAAAAAAGTTATCCCTTACGTTGCTGTCTTAAAAGTTTATTATACCCTCATA TTAATATTAATAAGACTATTGCAAGATGGAGCATATTAGAACAGTGTTTGGATACACTTGGGTGTGAAATTCTGGTTCTC GCACAGGACAGATGTCGAACGCGATGTTGGGACAATCGGTTCGACAATTGCACAACAGTACATAAATTAAATCAACGAAA AAAACACAGGGAATTGTTAACCCAGTTCGGTGCAACATCACCTACATCTGGAGGATACCAATCCAGGAGTCAATTCACTA TCAAATAATAGCTCTCAGGTCACATGAAAGTCCCTCCTATACCTAAGTACTCCCCCTTAGTATAGAGCCTCTTCAATGTC TACCACTATTACATAAGTGAATCTAGCTTAGCCCTTCTCCTCTAAGCTATGAGGAAACTTCCTCTAACCCCTAAAGACCA CTGCCACAGCGATCAAGACATGTTTATCAATAAACAAGTTTGATGAGATTACAACTCAACTAAACATATCAACTTAGTAC TTGCAATAGCACAGGAAGCACTAAGTTGTTACAATACTCACAACAGGACTCAAATAATAAACCCTAAGATCAGTATATCA CGCTCAGAATCCCTGTTTTGCTAGGGTTTATAAACTCCTTTATATAGACGTTCACGTGAGGCTTGGATCTTCAATGGGCC GAACGTCATAGAGTCCACAACAGCACTTCTGGAAAGAATCTTCAAGGAATCAACTCTTACCAGAATAAAATAACAGAACC AAGTAAGTTTAAATTCAAACTTTGAGATATACTTGGTTCACACGTTATCAATCTTGTTACTTCAGCCAAGATTAAAACAA ACACGCCTTCAGAAGATAAAACGCACAGCATAGGATAAATCTTCTGAATCCCCTTACAGTCAGCAGCCCAACAAATAACT TGATTTCAGCGATTGAACCACCAACATACGTAAACACACCATGTTGTTCCAGATGTTGGAACATATGGTTGCACATCATG TTTTGAGCAAAATGCAGCCAATCAAAAGAACTACAGGGTGTACTTGATTACATCCTTAGGATTTCTTTAGTCTATTATTA CAGATGTAACTAGTAGTTATTCAGTTGACTAGTCTGTTACATGTCAACAATATTCGAGCATCTATATAATTCTAGTATCT AGACTCTTTTCTTAATCAATAAGTTAGTTCTCTACTTTTCTCTTTACTCTCATTTTCCTACAGAGCATAAATAATAATTA TGCCTAGATTGTTACCATTATTTTACTTACCTTCCACAATACTAAATTTTCTATGAAAAAGCTCGTAGTTATCTTTTTTT GGACCATCGATCTAGCAGAGAAGCCTAGTTTGCATCAGGAAAACCTATTCTAAAATGACTATGATGCCAACCAGATTTCC GTGTAGCACATCCTAGCAGCCTCCCAGCTTGCAGATGCACTGACTAAGCCTTTGTCCTCCTCTTGGTTCCTTGATCTTCG GATCAAGCCCAATGTGCAGAATGTGCCTTCCTTCCTCAGCTGAGATTGAGGGGGGAATATTGGAGTACACTACACTGATA TACAGTGTACCCGTTGTATTCTGTCATAGCTCTTGTGGTTAGTTATGGTTAGTTAGTCCAGTCAGTTTGTTAGCCTACAA TTACTTTAGTTACCTTGTGATCTAAGCACATCTGTATATATTGTAACTCTCAGTTCTATTGAACAATACAGTCATTTTCA GATTCAGTCTCTCTCTCTGTGTGTGTGTGTGTGTGTGTGTGTGTCTCTCTCTCTATGGTTGACCTCTCACCACCCATGAT GGACCAAGTGCCTCTGAAATTTCACACTATTATTTACAATCAACAATCAAACAGAAGTCCTCAAGCTGTGGAAAGGGGGC ATCTATAGCCCTCTACACAAGCAAACCTATAAATAAAGTGATAACCAAATAGGTAAGAAACTAGTAGGGATATCCCCATC CATACAATAGATCATGACTAACATGAATTTGGGCATCTTTGACCTAGGTTGAAAGAATTGTTCCTGGATCCCTACCATCT TCAGTGGAAGGTCCAATTATCCTTCTTGTTAACAGAGCTGATGGTGATGAAGAGGTATATTTATACTTCATTGAGTGTAT ATGAAGTAACAAATAGATCAATGTTTGTAAGTTTGATTATGCTGCCAGGTAACAGCTGCTGGGAGGAACATAGTGGGAGT TATACTTCAGCAAGAGCTGCCTCACTTGTCTCATCTTGGTGTTAGGGCCCGGCAGGCAAGACTTCTTTCAATGTTTCCAA TTCCAATGAATGATTTTGAAGTTTGAATTTACACATTGTCCATGACATTCATACAGCTATTGCTAATTACAGGAGAAAGT CGCCTTTGTAACGTGTGAAGATGATGAAAAAATTGCTGATGTAAAAAGTCTTATTGGGTCATGTGTGAGGTTATTTGCCA AGACAATTTTCTCGTCCTTGAACCCTTATCCTTAAAACTTAAATCAATTAACTTTTCAAATTACTTTGATAATATTGTCA TTGTGAATACATTTAATCCTATAATGTTTTCCATTTTCCCTTCCTATAATGTTTTCCATTTTCCCTTTTCCTGCTTTTAT TTAACTTTCCAGGTTGGATGCATCCGCTGCTAGTGTTACTCTGAAGTTGTCTTCTTCAGTGGACTCCAATGGCAGTTTTT CTGTTGAAAGGGCTTCTGATGATAGTTTCTCTGGAGTTGAGGTTCCTGCTTTCTCTGCTGGTGGAATCTCCAATTCTAAT CAGGTAGAGAATGATAGAATTATTCACTTTTATTTTGGCGATGTGCTGACATTTTTTTTCACATCTAGAAATGAACTTTC AGCATGGTGAAAGTGGTGAGATTTTGAGGTGAAAGATTGAACTGACATTTTCATGATGCTAATGATGGGTTCTGCATGAT AGAGATAAAAACCTTCTGTTATTGAGATGAGAAGAAGACACTCGAATTGAGATAAATTTACAGAGAATGGAAATGTAAAT CATAAAGGTGGACCTGATCCAAATGTTAACACTCTGATTGCACTACAAATAACTACTTACCCCAATGCAATATCCTAATA CTAAATATATTCCTAAATCTGTTATCCCTTTCATATTTCACATAACAACATACAACTACTACGCGAGGTTGGCTATAGGA ATCACACCACGCCACTGAGCTCAATCAAAAACCAAAATTTGTGGGATATTAATTCACATAACAGCATCAGCTTTTAACTT GATTAGTTCATTAACATGGTATGACCGTATGAGGGTGTACAAAATTAAACAACCTAGAGGTTAATCCCTACTGGCTCCAT TATCATAATTAAATGAAGTTTTAGAATAAAGCAGGTCCTTCATGTGTAGGGGTCTGTTGAGATAGCAGACAATACTTATC CCTTACCTAATAATGTAAGCTTTAAAGTTGATTTTTTTTTACTGCATATGTAGATAACCTTTAAGGTTATTCAGAGTAAT GATTTTTTGATGCAAAGCATTCAATCAATTGCCTAATTATGCTGTTCATTTGAAGGATGCTTCATCTGGTGGAGTTATCT TGCTTCCTGATGCAGAGACTCAGACTTCCGGTGCAAAGGCTGCTGCATGTGGTCGCTTGTCATCATTGTCTGCAGTTTCT GATAAAGGTATGATTCAATTGTGTTGCATAATTATGTCAGACCACCACTATTACACTTACAGTGAGTAACCTCATCTCAA AGTACTATTTAAAACATTCTTTTATATATTTATTTTGGTTTACCAACAGTCATAACGATAGAGGTTCAAGGTCCGGAATT TTGTTTTTAAACTATCCAGCTCGAGATTTTATCTTTAGAGAATTTTACTGAAACAATCAAATCTTTATGTTCATCTCAAA TTTGATTTAATGCTTTTTTTTGTGAGCTGAAACAATGTCTTGTAGTGTAACTCTTTACTCTCTTTTACTTTTAATGAATT TTTCTTTATCCCCCGAATAACCGGTTATTTACTTTAATGAATTTAATGACAATAATGTACTCTTGCAAATCACATTTCTA AAATCTGATTTTTGGATGACAGTTTACAGTGATCAGGGAGTGCCTGCTTCTTTCCAAGTTCCTTCTGGGGCAGTTTTGCC TTTTGGATCCATGGAATTAGAGCTAGAGAAGAGCAACTCGACTGAAACATTCCGGTCTATACTGGATAAGATAGAAACAG CAAAACTGGAGGGTGGTGAACTTGATGGTCTTTGCCATCAACTCCAGGAACTGGTTTGTTCCCTGAAGCCATCAAAAGAT GTCATTGAAAGCATTGGGAGAATATTTCCAAGCAGTGCATGTTTAATTGTTCGATCCAGTGCCAATGTAGAGGACTTAGC TGGAATGTCAGCAGCTGGACTTTATGAATCAATACCCAATGTTAGTCCTTCCAATCCAACAGTTTTTGGAAATGCAGTTA GCCGAGTTTGGGCTTCGCTGTACACACGAAGGGCAGTTTTGAGCCGGCGTGCTGCTGGCGTGCCTCAGAAGGAAGCTTCA ATGGCTATTCTGATTCAAGAAATGCTCTCACCTGATTTGTCATTTGTGCTACATACCGTGAGCCCAACAAACCAGGATAG TAATACTGTGGAGGCTGAGATTGCTTGTGGGCTGGGTGAAACTCTGGCTTCTGGAACTCGGGGCACACCATGGCGCATAT CATCTGGGAAATTTGATGGGGTTGTACAAACGCTGGCTTTTGCAAACTTGAGTGAGGAGTTGCTGGTACGTGGTGCAGGA CCTGCTGATGGGGAGGTTATCCGTTTAACTGTGGATTACAGCAAGAAACCCCTGACAGTTGACCCAGTTTTCCGGCGACA ACTTGGTCAACGCCTATGTGCCGTTGGGTTTTTCCTGGAAAGAAAGTTTGGGTCCCCACAAGATGTAGAAGGATGTCTTG TTGGAAAAGACATCTATATTGTTCAGACAAGGCCCCAACCTAATTAAACACACATGAAATCTCTTGTCTGTAAGACTGTA ACTATAGTTATTCATACGGATGGGTGGCCTCTGCCTCTTGAAATGACAGTAATTTTATGTGAAACAGCTGCTGCACAATA GTTTCTGAGGTATAGAGGAAGCACGTAGCTAGTACTTTTTAGTTTTAATTTGGAGCTGTATGGATTAAGTATTGCAATGG ATTGTAAAAAAACAGATTGAGACTATCAGTTTTGTTGTCGCCAATGTTGGATAATCGGTTGCTTGACAGAGCCTCAACGA TCAAGCGGAAGCGGTCTAGAGTTGTTTGA

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0365700.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGATTCTGCGCGTATCTTGCAATGCCATTCGCACATGATCCGTTCTGGGAGTCGGAAGAAGGAAAAGCAATTAGGAGG ATCATCATCATCATCATCATTCTCCATCCATCATCTCTGTCGTCACACTCCTCATCCTCTTCTTCTTCACCGTCCTAAAA CTGTTCCGCATATCTCCGCTGTCTCTTCGACTTCCACCCAAACTAGGGAAGAACGAAATAATAAGAAGAAGAACAAAGTT CGGCTGCGTCTTCGATTAAATCACCAAGTTGAGTTTGGTGATCATGTTGTCATTTCAGGATCAGCCAAAGAATTAGGGTC CTGGAAGAAACCTGTTCCGTTGGATTGGACACAAGAAGGATGGGCATGTTACCTGGATTTCCAAGGGAGCCAACAACTTG AGTTCAAATTCATAATTGTCGACAAGGACAACACTCTGCTTTGGGAAGCTGGAGATAACAGGCTCTTGAACTTGCCCGAG GAAGGTCATTTTGAGATGGTTGCAACATGGAACGCCACGCGCGAGAATATGGACCTTCAGCCTTTGGAATTGGATTTTGA TGGAGGAGAGATTCAACAAGAAAAGGACTTCTCTGACGCTGCTACTAATGATGCTCCTCTTTCCCAATCAGAAGAGCCAA GTCCTTTTGTAGGTCAGTGGCAAGGTAACACTGTTACTTTCATGCAATCCAACCAACATCGGACCCATGAAACAGAAAGG AAATGGGACACTACTGGTCTTCAAGGCTTGCCTCTCAAGTTGGTTCAAGGTGATCAAAACGCAAGGAATTGGTGGAGAAA GCTTGATATAGTACGCGAAATTATAGCTGAGAGTCTGCTTGGTAAAGATCCATTGGAGGCACTCATATACTCTGCTATCT ACCTCAAGTGGATTAACACAGGGCAAATAACATGTTTCGAAGATGGTGGTCACCACCGACCCAATAGGCATGCTGAGATT TCAAGGCTTATATTTCGTGAATTAGAGCGACATACCAGTCAAAAGGATATCTCTCCACAGGAAGTTCTAATTGTTCGTAA GATTCACCCCTGTTTGCCATCTTTCAAGGCAGAATTCACTGCTTCTGTTCCTTTGACTCGAATTAGAGATATTGCTCATC GAAATGATATCCCACATGACCTGAAGACACAAATTAAACATACAATACAAAACAAGCTTCATCGAAATGCTGGTCCTGAA GATTTGGTTGCTACAGAAGCTATGCTTGCTAAAATCACAAAGAACCCTGGAGAATATAGTGAAACCTTTGTGGAGCAGTT CAAGATATTTCATCGAGAACTCAAGGACTTCTTTAATGCTGGCAGTCTTTCCGAACAGCTAGAGTCAATTCACGAATCTA TGGATAAATATGGGATTTCATCACTTGATTCATTCTTGCAGTGCAAACAGACAATGGACTCTGCTGCAGACTCAACACCT GGTGTGGAACAAGAAATTAAACTTCTGTTTAAAACCATGGAATCCTTGATTGCTTTGAGAGAAACTTTTGTCAAGGGTCT TGAAAGTGGCCTCAGAAATGATGCTCCAGATTCCGCAATTGCTATGCGTCAAAAGTGGCGCCTCTGTGAGATTGGGCTTG AGGATTACTCATTTGTTCTTTTAAGCAGATTTATCAATGTGCTTGAAGCTATGGGAGGTGCTCATTGGCTGGCTGCAAAT TTGCAGTCAAAAAATGTGAACTCTTGGAATGACCCGCTTGGGGCCCTTACTATTGGAGTCCACCAGTTGAAGTTATCTAA TTGGAAGCCAGAAGAATGTGGTGCTATTGAAAATGAGCTCATTGCCTGGAGTGCAAGAGGCCTTTCTGAAAGGGAAGGAA ATGAAGATGGCAAGATGATCTGGGCATTGAGACTGAAAGCTACTCTTGATAGATCAAAGAGGCTAACTGATGAATACACT GAAGAACTTCTTAAAATATTTCCTCAAAAAGTCCAGACACTAGGAAAAGCTCTAGGAATCCCTGAAAACAGTGTCAGAAC ATATACTGAAGCTGAGATTCGTGCTGGCGTGATTTTTCAGGTTTCAAAACTATGTATTCTTCTGCTAAAAGCTGTTAGAA GTACACTTGGTTCTGATGGTTGGGATGTTCTTGTTCCAGGAGCTGTTTTAGGAACATTAGTTCAGGTTGAAAGAATTGTT CCTGGATCCCTACCATCTTCAGTGGAAGGTCCAATTATCCTTCTTGTTAACAGAGCTGATGGTGATGAAGAGGTAACAGC TGCTGGGAGGAACATAGTGGGAGTTATACTTCAGCAAGAGCTGCCTCACTTGTCTCATCTTGGTGTTAGGGCCCGGCAGG AGAAAGTCGCCTTTGTAACGTGTGAAGATGATGAAAAAATTGCTGATGTAAAAAGTCTTATTGGGTCATGTGTGAGGTTG GATGCATCCGCTGCTAGTGTTACTCTGAAGTTGTCTTCTTCAGTGGACTCCAATGGCAGTTTTTCTGTTGAAAGGGCTTC TGATGATAGTTTCTCTGGAGTTGAGGTTCCTGCTTTCTCTGCTGGTGGAATCTCCAATTCTAATCAGGATGCTTCATCTG GTGGAGTTATCTTGCTTCCTGATGCAGAGACTCAGACTTCCGGTGCAAAGGCTGCTGCATGTGGTCGCTTGTCATCATTG TCTGCAGTTTCTGATAAAGTTTACAGTGATCAGGGAGTGCCTGCTTCTTTCCAAGTTCCTTCTGGGGCAGTTTTGCCTTT TGGATCCATGGAATTAGAGCTAGAGAAGAGCAACTCGACTGAAACATTCCGGTCTATACTGGATAAGATAGAAACAGCAA AACTGGAGGGTGGTGAACTTGATGGTCTTTGCCATCAACTCCAGGAACTGGTTTGTTCCCTGAAGCCATCAAAAGATGTC ATTGAAAGCATTGGGAGAATATTTCCAAGCAGTGCATGTTTAATTGTTCGATCCAGTGCCAATGTAGAGGACTTAGCTGG AATGTCAGCAGCTGGACTTTATGAATCAATACCCAATGTTAGTCCTTCCAATCCAACAGTTTTTGGAAATGCAGTTAGCC GAGTTTGGGCTTCGCTGTACACACGAAGGGCAGTTTTGAGCCGGCGTGCTGCTGGCGTGCCTCAGAAGGAAGCTTCAATG GCTATTCTGATTCAAGAAATGCTCTCACCTGATTTGTCATTTGTGCTACATACCGTGAGCCCAACAAACCAGGATAGTAA TACTGTGGAGGCTGAGATTGCTTGTGGGCTGGGTGAAACTCTGGCTTCTGGAACTCGGGGCACACCATGGCGCATATCAT CTGGGAAATTTGATGGGGTTGTACAAACGCTGGCTTTTGCAAACTTGAGTGAGGAGTTGCTGGTACGTGGTGCAGGACCT GCTGATGGGGAGGTTATCCGTTTAACTGTGGATTACAGCAAGAAACCCCTGACAGTTGACCCAGTTTTCCGGCGACAACT TGGTCAACGCCTATGTGCCGTTGGGTTTTTCCTGGAAAGAAAGTTTGGGTCCCCACAAGATGTAGAAGGATGTCTTGTTG GAAAAGACATCTATATTGTTCAGACAAGGCCCCAACCTAATTAA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0365700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MDSARILQCHSHMIRSGSRKKEKQLGGSSSSSSFSIHHLCRHTPHPLLLHRPKTVPHISAVSSTSTQTREERNNKKKNKV RLRLRLNHQVEFGDHVVISGSAKELGSWKKPVPLDWTQEGWACYLDFQGSQQLEFKFIIVDKDNTLLWEAGDNRLLNLPE EGHFEMVATWNATRENMDLQPLELDFDGGEIQQEKDFSDAATNDAPLSQSEEPSPFVGQWQGNTVTFMQSNQHRTHETER KWDTTGLQGLPLKLVQGDQNARNWWRKLDIVREIIAESLLGKDPLEALIYSAIYLKWINTGQITCFEDGGHHRPNRHAEI SRLIFRELERHTSQKDISPQEVLIVRKIHPCLPSFKAEFTASVPLTRIRDIAHRNDIPHDLKTQIKHTIQNKLHRNAGPE DLVATEAMLAKITKNPGEYSETFVEQFKIFHRELKDFFNAGSLSEQLESIHESMDKYGISSLDSFLQCKQTMDSAADSTP GVEQEIKLLFKTMESLIALRETFVKGLESGLRNDAPDSAIAMRQKWRLCEIGLEDYSFVLLSRFINVLEAMGGAHWLAAN LQSKNVNSWNDPLGALTIGVHQLKLSNWKPEECGAIENELIAWSARGLSEREGNEDGKMIWALRLKATLDRSKRLTDEYT EELLKIFPQKVQTLGKALGIPENSVRTYTEAEIRAGVIFQVSKLCILLLKAVRSTLGSDGWDVLVPGAVLGTLVQVERIV PGSLPSSVEGPIILLVNRADGDEEVTAAGRNIVGVILQQELPHLSHLGVRARQEKVAFVTCEDDEKIADVKSLIGSCVRL DASAASVTLKLSSSVDSNGSFSVERASDDSFSGVEVPAFSAGGISNSNQDASSGGVILLPDAETQTSGAKAAACGRLSSL SAVSDKVYSDQGVPASFQVPSGAVLPFGSMELELEKSNSTETFRSILDKIETAKLEGGELDGLCHQLQELVCSLKPSKDV IESIGRIFPSSACLIVRSSANVEDLAGMSAAGLYESIPNVSPSNPTVFGNAVSRVWASLYTRRAVLSRRAAGVPQKEASM AILIQEMLSPDLSFVLHTVSPTNQDSNTVEAEIACGLGETLASGTRGTPWRISSGKFDGVVQTLAFANLSEELLVRGAGP ADGEVIRLTVDYSKKPLTVDPVFRRQLGQRLCAVGFFLERKFGSPQDVEGCLVGKDIYIVQTRPQPN

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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	33	33	-	–
PANTHER	PTHR47453 View details on PTHR47453 Search for proteins/transripts with this domain View external data on PTHR47453	53	1186	1134	0.0	–
PANTHER	PTHR47453:SF1 View details on PTHR47453:SF1 Search for proteins/transripts with this domain View external data on PTHR47453:SF1	53	1186	1134	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	59	78	20	-	–
ProSiteProfiles	PS51166 View details on PS51166 Search for proteins/transripts with this domain View external data on PS51166	74	172	99	14.42	IPR002044 Show description in modal box View details on IPR002044 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.40.10 View details on G3DSA:2.60.40.10 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.10	76	171	96	3.6E-17	IPR013783 Show description in modal box View details on IPR013783 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49452 View details on SSF49452 Search for proteins/transripts with this domain View external data on SSF49452	77	171	95	1.74E-19	IPR013784 Show description in modal box View details on IPR013784 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM01065 View details on SM01065 Search for proteins/transripts with this domain View external data on SM01065	77	168	92	1.1E-16	IPR002044 Show description in modal box View details on IPR002044 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00686 View details on PF00686 Search for proteins/transripts with this domain View external data on PF00686	80	162	83	1.1E-14	IPR002044 Show description in modal box View details on IPR002044 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.1490.20 View details on G3DSA:3.30.1490.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.1490.20	857	1047	191	9.9E-29	IPR013815 Show description in modal box View details on IPR013815 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56059 View details on SSF56059 Search for proteins/transripts with this domain View external data on SSF56059	866	1185	320	3.77E-34	–
Pfam	PF01326 View details on PF01326 Search for proteins/transripts with this domain View external data on PF01326	897	1185	289	6.1E-30	IPR002192 Show description in modal box View details on IPR002192 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.470.20 View details on G3DSA:3.30.470.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.470.20	1048	1186	139	6.9E-10	–

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:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0016301 View details of GO:0016301 AmiGO InterPro QuickGO	Molecular function	Kinase activity	Catalysis of the transfer of a phosphate group, usually from ATP, to a substrate molecule.	Subterm of View details of GO:0016772
GO:0016310 View details of GO:0016310 AmiGO InterPro QuickGO	Biological process	Phosphorylation	The process of introducing a phosphate group into a molecule, usually with the formation of a phosphoric ester, a phosphoric anhydride or a phosphoric amide.	Subterm of View details of GO:0006796
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
GO:2001070 View details of GO:2001070 AmiGO InterPro QuickGO	Molecular function	Starch binding	Interacting selectively and non-covalently with starch.	Subterm of View details of GO:0030247

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0365700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi5g1v0365700.2