Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0509800
Transcript ID	LotjaGi3g1v0509800.1
Related isoforms 5	LotjaGi3g1v0509800.2 LotjaGi3g1v0509800.3 LotjaGi3g1v0509800.4 LotjaGi3g1v0509800.5 LotjaGi3g1v0509800.6
Lotus japonicus genome version	Gifu v1.2
Description	Glucose-1-phosphate adenylyltransferase; TAIR: AT4G39210.1 Glucose-1-phosphate adenylyltransferase family protein; Swiss-Prot: sp\|Q00081\|GLGL1_SOLTU Glucose-1-phosphate adenylyltransferase large subunit 1; TrEMBL-Plants: tr\|I1LQ25\|I1LQ25_SOYBN Glucose-1-phosphate adenylyltransferase; Found in the gene: LotjaGi3g1v0509800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:92687891..92699627) extracted from Lotus japonicus Gifu genome v1.2.

CTAAATCAACCACTTGTTGCTTATGGTCGTGTGGAGTATAAGTAGCAAATTAACATTATTAACTTATATTTTATGTTCTT AGCTATAGTTAATATTTTGGAAATTTTTATATATACTAAGGCCATAAGACTTTTCCCATATTTCTCGTGACTTCGTGAGA AGGCTCTGGCTCACTAGCCAATAAAGGCAACCACACTAGTAGATCACATTTCAGTCTTAGTAATCGGCCTTTAGTTCCCA ATTCCAACAATCTAAATCTCATGATCACCTCTCTGGATTCCCATTTTCATCAATCTTCATAGCTTAAAATATTAGTATTG TTCTATAAGAGCATAGAATTTGATTCTCTTCATCTTCCTTGGTGTCATTGCTTTCATATTCTTACACCATTTTAAAGTAA GATTTTATTTCCCTTCATTAATATTTTATTGTCACTTTGAATTTGATGACAACTATATGTCTCTTGCTTTGTAATATTTT TTTTAAGTAGTGCATGCTTTACTTGATTTCTTTGCAGTTTGAACTTTGAAGTTCAAAATCAAAACTTGTGAGTTTGCTCT TTGCAAGGACTTGAACTGTTGATCCATTACCATCACAAATTCACAATGGTGTCTGCTGCTTGTGTGGCCTGGACAACCAG TTCACAGTTAGCAAAATCTAAAAAAGACAGTACTTTTCTGCAAGATGATGGTTTTCTAGGTGAGAGAATCATCAAAGGGA GTCTGAGTTACAGTCCCTGGATCAATAATCAATTAGCCACAAGTTGGAGAGGCAAGGAGAGTGTGAAGAAGGCCAAACCT GGTGTTGTGTCTGCTGTTCTTACATCAAATGATACCAAGGAATCCTTGGTAAGCTGAATTTTATTCCTTCATTCGTTTTC TGCTTCCCCAACTTCCAGTTATTATGGTATTGATCAATATGATTGTAAGAATAGCATGTTTTGTTTGGATCAACCTCTCT TTTCCCATAATCAATTCTGGCACTCACATCATGTGCATGTTTGGTTTCCCATAATCAATTCTGGCACTCACATCATGTGC ATGTTTGGTTTACCGTCAATTCCGGTGGAGTAAAATCAATTCTGGGTGGAATTATTGATGATGTTTGGGAGTTATTTTTG ATAATTGATTTCATACCGAAAATCAATTCTGGTAGAAGCTAGAAAAACTAGCACTAATCATAATCGATTGTGAGATTTTA CAATTGAATTTCACAAAATTACCTAACAAAAATCACTTTTTCGTAAATGTATTCAAATATGAAATTTTACTTTCAACTCA CTTTTATTACTATAATCAATTTTATCAGAATCAATTGCGACAAACGTTGATCCATACGGGCAAGCTTCCCCCATAATAGA ATATGAAATTTTACTTTCAAGTTTCAACTCACTTTTACTATAATCAATTTTATCATAATCAATTGTGACAAACGTTGATC GATACACGCAAGCTTCTCACAAGAATAGACTTTTGCTTTAGAATCAATTGTAGAAGAATTTTGAAACATAGTCTTATGTC AATGTGGGTGCATTCTTTTGTATCTTATTTGGAAAGTGAATGTATTCTCAATTTCTCATTGAGGGTTTCAATTTCAGAGC ATTCAAGTGCCAACCTTTCTCAGAAGAAAGGCAGACCCTAAAAATGTTGTTTCCATCATATTGGGAGAACGTCCTGGGAT TCAACTCCTTCCTCTTACCAAACGAGCTGCAACACCTGCTGTGAGTAAATCATTGTCTTGACTGAAAAAGCATCACTTTT GTTGGAGTTCCATGCTGTGATGAAACTGTATGCATTTTCAGGTCCCTGTTGGTGGATGCTACAGGCTTATAGACATCCCA ACGAGCAACTGCATTAACAGTGGCATCAACAAAGTATTTGTGTTGACCCAGTTCAACTCTGCATCTCTCAACCGTCACAT CTCCCGCACCTATTTCGGAAATGGCATCAATTTTGGGGATGGATGTGTGGAGGTATGTCTCATGGAGTTGGATGGTAATT GTTAGAGGGCCGTTCACCATAATCTAGTTGATTTATTTTGTAAGATATTATGCACTTTGGTTTCACAATTTGCACATAAT CAAAGACACATTTGCGCAGAAGGCGAGACTTGTAGCTTCTAATCAGAAGTGATTCTAGTTCTATAACATTTCACCATGGA ATCAAACATGCTAGCTATATCTGACTTCAAGTTGCCAATACACATTTTTGTTCATTCATGATGATAAAAGAAACCTAAAT ACTCTACAGGTTCTAGCGGCCACCCAAACACCAGGAGAAGCTGGCAAGAATTGGTTCCAAGGCACTGCAGATGCTGTGAG GCAATTCACTTGGGTATTTGAGGTGGGAACATAATTTTTGCATATATCAGATTTCAGAATGTACTGCATATCCTCAAGTT GAACTGGACAGTAATAGATTGAGTGTTGTAGGATGCCAAGCACACAAACATTGAGAATGTGTTGATCTTGGCAGGAGATC ATCTATACCGTATGGATTACATGGACCTTGTGCAGGTAAAAGGTTACTTGTTTCATGTGTTGGATTAGTTATTCATTTCA TTGTCACAGCTTTTAACTTAAAAAATTAAACAGAGTCATGTAGACAGAAATGCAGATATTACAGTATCATGTGCTGCAGT GGATGACAGGTGTGTTCAGTGCTCTTTTAGATGTGTTCCTTTATTTCCATGTTTGTTTGTTTGTTTGATATCACTTTATT TGAACTTCTAGCTATTTTACTTTTGTTTCACTACTGCGTATTTGATTGAGAAGGAAAGAGCCATGAGAAAAGAGGCATAG ACACACTAACTTCCTCAAAAAAATTATTTCAAACTTAGTTTAATCTAAGTTTCATTTCTAATTGCATACTTTTTAGTCGA GCATCAGATTATGGATTGGTCAAGGTAGATGGCAGAGGCCGCATCATCCAATTTTCAGAAAAACCGAAGGGTTCTGATCT GAAAGAAATGGTAAGTTCCAACTCTATAGCCTATTTGGCATTCAACTGAAGAAGGTTCTTGGTCACTATCTGAAAGCAAA AATTACGGCATGTTTGCATACACAGTAGATTTTCACGTTGGAAGAAGGATTGATTATGAGAGAAGTTACTCCCAGTAGCT TGTGGTTGCAGAAATGATTTTTGAAGTTCTGAACTTGAATACAAACATGCTATACCACCCTCTATTTCAGTAGTCCTTTA AAACTGATCATCTTAGCACTACAGCATCTCCAGAGAAGTTCATACTTTATATTTGATATACATCATAGGATAACATCAAA ATCTCTTGTACTAAACATGTTAATAACATGAAGATCTACATCTAAAACATACAGATATATATAGGCTTGATTATCAAACT TCTAATACAGTTGAATCCCATATTTGTTATTCTACCTTTCCATAATTATGAACTTTTTCTACAAACTTGCAGCCCCAAAT TTTATTTCCATCTGCCCTCATTCTTTTAATGTGTTCCTTTTGCTTCTATGCAGCAAGTAGATACCTCTCTTTTTGGCTTG TCACCTCAAGAAGCATTAAAGTCACCATATATTGCATCTATGGGGGTTTATGTATTCAAGACGGATGTTTTACTTAACCT TCTAAAATGGAGATATCCTACTTCGAATGACTTTGGATCTGAAATCATTCCTGCAGCTGTGAAGGAATACAATGTCCAAG TAAGAAATTCCAGTTCGATATATCGCTTTTCATATTTAGATCTATTCTAGAAGGAGTCTTGTCTTCCATTTACAAGGGAC TGATAACTCCTACGATGAGGCAACAACACAACTTGAATGTTTTGTGCCTTTTTTCAGGGTTACTTTTTTGGTGACTATTG GGAAGACATTGGAACAATAAAATCGTTTTACGATGCTAACATGGCTCTTACTGAAGAGGTGGGTTAAAGATATTTACAGT TGGAAAATTTCTAATATAATGTTTTTCCTCTGATACCATGCATTAGTCACAAGCCAAAATATCAAAGATGCACTAATGAC ACTATGACATAGTTACAATGACACTATGAACTCAAATAGCTACTAGAATGTAGTAGCAATTTGTAGGAGAAGCTAATCTG TTTTATGTTACCCTCTAGCAGAATCCAATGTTCAAATTTTATGATCCCAAGACGCCCATTTACACATCTCCAAGATTCTT GCCACCAACAAAGATTGATAAATGCCGGGTATGGCTATGATCACTCATTTCAGAAGCTCTCTCTTAATTTAATAACATGT CTTGCTTATCATATTTGAGTTCCTCTTGCAGATTGTGGATGCAATAATTTCCCATGGATGTTTCCTGAGAGAAAGTAGTG TCCAACACTCCATTGTGGGTGAACGTTCACGTTTGGATTATGGCGTTGAGCTCCGGGTAAACTACCATAATTTCTAGACC AAGGACACTAGAATTCTCTAATTAAAATTCCTACCATCTAAGATCTCATTTTACAGGACACTATAATGATGGGAGCAGAC TATTACCAAACTGAATCCGAAATCGCTTCCCTGCTAGCAGAGGGGAAGGTTCCCATTGGGATCGGAAAGAACACCAAAAT TAGGTAATCATACTAGCAGTTACTACATCCTAACATGGATAGCTAGACCACCTAATTCAATATGTTGGTTTTTGCATGAA CCAACTATCTCAAAAGCTTAAGTTATTAGGTAAAGACGTATACTGATTTTATATTATATTTCTAACACGTTCTCTCACGC TAAAACACATTAGGCTTGAACTCTAATGCCATGTTATGGACCAATTATTCTAAAAGTCTAAGTTAGTTGAGTAGGGTGAA GATGTATCATATATGAATGATTTTGTGTTATATTTCTATCAGTTTTGAAACTTAAAACTTAAAAGTAAATACAAATAGTG CCTTTACCATGATGATAAAGAATTAGATTAGCATTTAGAATCTTCATGTTATAATTGTTATTTGTGTCTTTGTTGAAGGA AATGTATAATTGACAAGAATGCAAAGATTGGGAAAGATGTCATCATCATGAACAAAGATGTGAGCATGGCTGCCCCCTAT CTTCTTTTTTTACACAACTCATTACCCTTCATTAGTTCTTAGTTATAAGTATCAAGTTATCTATGAATAGTTTATCACCA TTCAAATGCTTTGAGTTGAGTGTAGGGTGTGCAAGAAGCAGATAGAGCAGAGGATGGATTCTACATTAGATCAGGAATCC CTATCATAATGGAGAAGGCAACAATAGAAGATGGAAGAGTGATATAAGTCGGGTGTGTTTTACTTATTTCATGTGGCTGG TTGTCAAAGTAGCTGCAAGAAGCATTCCAAGGAACACTTATCTTTGGGAACTGAAGAGTAGCAGAGAAGTTGCAATACCA CGTTCAGCTGAAAAACCAGCAGTCATTTTTGCTGTATGTGCAAAATAGAAGGCTACTTGTACAAATAGAATGTATAAATA AAATATGAAATCGGAATGTACAAAAGCAAAAAAATAAAGGTTATGTTTGGCACGCTTAGCTGATAAGCTAGCTGAAAGTT GATAGCTGAAAAGCTAGCTCATAGCTGAAAGTTGATAAGCTAGCTGAAAGCTGAAAAGTTACGTAATTGTAACAAATGTG TTTGGTAAAATTAGCTGTTGAACAAGCTGAAATTGTAAAATGACATAAAAGGACATACTTGTATAATTATTTTTATATTT AACATTACTTTATTTTCACATTAATATCTATAAGATATTAATATTAAAATTATTATACATTTATACCTTTAAATATTTTA ATTTGACTCAATTTATTTATCATCTTAAAAATAGGTTTTTTGAAGGAACAAAAAAATCATCTTAAAAATATAATATTAAT TTTTACTTATTTTATTTTAACATTAATACTTATAGGTGGAATTTTAATAAAATAATAAGGATAAAAATGACAATAAATTC AATAAGCTATAAGCTACCTCAGATAGCTTATAGCTTATAGCTTAAAGCTTTAAGCTACTGAAATAAGATCCTTCACCAAA CACTTTTATAGAGCTTTTAAGCTAGTCAAATAAGCTTTAAGCTAGTCAAATAAGCTATAAGCTAGCTAAAATGACATGCC AAACATAGCCAAAATGAAAGGGTTAGTGTGAAAGAGTTTATAATATTAGTAAAAAAAACAGGACATCTCATAATAATCTA TCATTTTTTTTAATTTTGCAATATTGTCAAGCTCAATAAAACATAAAATAAAAATTTTACCATCCTTTTTCTCCTCCAAA ATATTTCAATGTACTTGCACTCTCAATCACAAGAACGTTAATACAAGGTACTTTCACCCTAATGAAATGCATATTAGTTT AACAGTCAACATTTTTTTTTTTTGGTCAATAGAGCTTAGATTCATATTCAAAGATTGCCGAATGGCACTTAAGTCACTTC ATTCTGAACAGTTCTTAGAAATGGTTGTTTAACATCCTTTTATAGTTTTGTTTCGAAATAGACATGTGGGGACAATGCAA GCATTATGCAATTCATATGTTGTACGAAAAGGACAGTAATGTAGATGCTATTCTCAATAATCTGGTTATATTTTCTAGGA ATAAGGAACTTTATTAGGATGAATTCCATGGTATATTTTATTGGAATATGAAAATATTAGCTAGGAAGAATCCCATGGAA ATTATCATAAAAGAATACATAGAAGAATGGCTTTTCTATCCTGGACCAGATTCCTCAGGTTGGCAAATTTTATTTCTTTC TAGTTTGGGGTTAGCTGCACATGGTGCTTGAGACATTTCCTTGGTCCTTCGTTGCAATTGCAAACCCTGTTTTTTAGCAT TTGACGACACTTTTAACGAGTGCATATTATCCTAAAACCTTAATTTTTCAAAAAAATTTAGGGTCTGATGATAAAGATGT TCAGTTAACGCAAGGTCAACGGAGTCTTTGAATCTCTTTCACGTACATGCCATGAAACTTGAGAGCATAACCCAAACACA CTTAGTCGAGATACAAATCTTAGCTTCTGTTCTGGACATAATCATTTAAGATTTCACAACTCGATTTTACAACATTAACC TACAAAAAATTAAGTTTCTCACAAATGTAACCAACCATACATCATTCATTTCAACTCACTGTTACCATAATGAGTCTTAC CAAAATCAACTCTATCCACAATTCATTCCAACAACACTAGTCCAAACACACACTAATTAAGCCAACACTAAAGCTCAAAA GTTCTCAACTTGCAGCACCAAAACAAAAGCCACCTATCGATGAAATGACATAAAGGATTGTCTAACCTACACCACATGCT ATGCAACCACATCGTAGATGGAGAAGTGTAATGAAAAAAAAAAAACGCATCAGAAATTACATTCACTTCTGTACTACAAT TTCCATAGATAAAATTATTGGTCCAAAGATGAGACTGATTAACTCATTTGAGGCAAGTTAGACAAACCCCATGAAATGAA AAAAACTATTGCACATAGCCTCCAAATTAAGGCTGCTTTGAAGAAACATAAAAATGGTAGACCAAATGGAAAAACAATGA TATTTTGAAATATTAAAAACACATTTGAACATTATTCTTAAATAAATTTTACCTCACATTGCAGATCATCACCACATTGA GGAAGCTATTATTCACGAATGAAAATTCACTGGTACATGAAACCCAACATGATATGCTATCAAACCTTATGATTTACTCC GTTAATACATGATTCGCTTGGCAATAAGACTTGGGTGATAATGCAGAACTCAAGCCCTCTAGATAAATTTCTCCCACACT GGATGGAAACAAGGTCTTGCAAAAAACATTTAGGTTACATGCGAAAACAATGCACGTTCCCATACATAACATCCTTAGAT GCATGCACTGCTTATATTTTGTTTAGCTTAGTCCAAATCTGAGGAGACAAGGAAGTAACATAAACAATATGTTCAACCCC ATTTCTCCATACTAATGCAGCCATAAGTATTCATCTGATATTAATCCCGTGAATCTCCCACCATAAGCATAAGAATCAAT ATATAGCACCAGTGGCCAACAACTTCAAAATCCCTTTGTATTCCAAACTATTATGGGTCCTTTTTTTGTAAGCTCAGAGG GATTCAAACCGTTCATTGCCTTTCCCATCAGGGCCATAGCAGCAATGCTTGGAAACTGCTTCTTTTGAAACTCTTCTATA GTAGTGTTTGAAGACTTTGGTTCCCGAAACTCCACTAATTCATGACTCTTTTGGGAACACGCAGCTCGACTGTGACTCCA TCTCTGAATCCAGGGATGTGAAAGTGTAATATCTACAGTTTTCTTCGCTTCAGTAAAAGATGGATTGCCATTTGTTAATG CTGTTGCAGGTAGATCTGGTACCGTCTGTCCTTCAGCAGGACATACCACTTTGGTTTCCAAACTAGTTTTGCTGAATGTA TTTTTGACTTTTTCATTTGAAGAAGTTTCTCCAATTTGTTCGCTCTTGGTACCATGAGCAGACCCCAATGTGCATAACTT GAGTCGTTTAACCCATCTGCTACTTGGATCTGGCCCCAAAGAACTACTGCCAGATTTTGTCTTCGCATTTTCATCCGCAT GAGAAAGAAGTTGTTCCACATCAAGGCTGTGGGTTCTTGATGTGCTAGTCTCCCTGTCAACCACTGGACTTGCATGAGTG AGAAGCTCATGAGGCTCTTTGTTCATATCCAGCATTGCTGTATTCGCTGATTTTGCTATGGTTTTCACTCTGGCTGAAGT TTCTGCAACTTGAGACGTGAGCAAGTTTTGACTATCCTTGAAGCACTACAAAATTGAAAAGTTGATAACTCATACTTGAT TAGCCTCTCAAAGTTTGAATAATATCATATTTTTAACGGGGCACAATATGGTTGCTTGCTACGAGATAACTCTCTAGATA ATCAAGTTATTAAATTTAAGAACTAATTACAAAGCACGAAGCATTGTATGTCTGGGTATGTAGAAACAGACAAACAGTGA CATTCAAACAGCTGCATCTCTGTATGATGCCGTACAACATTCACCATAATCGACATGAATGTAAAAGTTAATGAAGTTCT TATTTATCCTAAAAGGCAGATTATGATATATTAAGTGTCAAAGACCATGTTACGATGAAAATCATTTAAATGCTGATGGA AAATCAATTGGCAAGGTATCGGGAAGATCAAACAATACCTTATTTATTTGCAATGGAACATCACCTGCAATAGACAGGAA GAAGCATCATCAGTTCCAAACTAAAACTTCGATTAAATTAAACTGAAAATATGGAAAGTTGAATATTATTCAAGTATTAA TCAAACTCAGAATAACATATGAAAAGCTTTTAATAACATTAAGTACAGCATTATCTGGTATGCCCTTTAAAAGTGTGCAT ACTTACCAGGAAGAGTCTCATGTAAAGCACTGATGTCCATAGTGTCTGTCTCAGCAGATGATTCATTCTTCAAGTTTGTC GGACATTTGAAATCTTGGACATTTTCCTTTCCTTCAGTCTTTCTGGAGCTCCCTTGAGTTTCCAGCTTAAGACCTTCCCG AGCATGGTTGCTCATGGGTGAAGAGAGATCAATGATCCTATTGAAAGTGTTTCCTCTGAATTTGGTAGGAGCTGCTGAAT CTCTAAAGAACTGACCTCTGTCAGGTAGATTAACATCAGTTTTTTTGGACATCAGAAGATGGTGAGTTGTCTGGGAAAGT TTGGGATGACCTCTTGACGATTCTTCTACTGAATCAATACCAGTGTATATCTTCATAGTCTCCACGTCATGAACAGCACA CGGAACTTGCGGTACCAAAGAGGTGGTTACATCACAAAATTTCTGTGGTTTAGTTGACTCAAAGAATGCAGTCTGGTCTG CAATGTTTGGATTTGCAGTATAATTTTGAGTCTTACGGCGCTGACCACGAACAAAATATAACCCATCATCACTACCAGCT ATGGGATCATGGGGGAAATGAGCAATACCATCATGCATCAATCTCGTAAACGAAGATCGATGGGGTTCTACCAGGCTACT TATTTTCTTCTCATGAATAAAAAGAGAAGAATAGCTGTGATATTTCGTGCTAGTGAAATGCTCTTCAGATGCTAAGTTGT AGCTCGATTGATATACTTCATATGGTCCACGCGTAAATTGGGGCATCAACATTTTTCCTTTGTCACGTCTATTTGGTACC AATTCAGAAGCTGATTTTACAAAGCCATCCCATAATAATGTTGAGGCAGCTAGGTCCTTTGGTTCAACAGCATATGGAGA TTTCTTCAGCAGAGGCAGAGCAGGCGGTAAGACTTCCTGAGACAATACTTGACACTCTCTCACTAAAGTTTCTGTATTAG GAGAAGCGTGTGCAGATGTTGATGGCAAGTGACTCCGAGCTCCATTGAGAGAAACATTTGCATCTTCAGAGCAGGCTTCA GCTTCACATTTTCCATCATCTGCGTGACGAACACCATTCTGTTCCCCCTGCGTGGACAATCCTCGATCTATCTTCCTGGG AAAGTTAAAAATAGGATATGATTTGGAATCAAAGTTTGTTTTCTTTGACTTTCCGGTATTCGCCCCATTGTTTAAGCTAA CCCTTGTGGCCCCAGATGCTTCTCCAACGTCTCCAGCATGCATAGAACTATCAACCGCAACTTCTGACCCGAGGATTTCA CCATGCTTCTCAGCATCACTGTGTTCTTTGACTTCTTTAAGCTTACAACCAACCCTCAAAGTCAAATGACTGCGAGCAGG GGTTGCTGATTTACAACTCGTGTTCGCCCAGTGAGACATCCATGCCGATTTGGACCCATGCATTGCTGGAGCATCCACCC TCTCACCATCATGACATGCAGCAACATCATCAGGCATCATGGTCAATGATCTACTTTCTCCAGCACAAGAACACACCACT ATTTTGACCACACACACTCACAGCAGTCAACTCAAAAACCGGTCAAAACCTGGATTTTCAAGACTATGATTAGAAAAAAA AAAAACTCGCATGCAGATACAGAAAATTGAACAGAAGTAGATCGGAATCACCAAACACTATCTATGACATGAAGAAAGCA AAAATCGTATGAGCCTAACTGATGCACAAATCACTATTCATTATGGAATACAGTTCAACGATTGTATCTTTTGGTGTTAA TTTCAAATCGAAATTAATGATTTCATTGAGATTGAATTAGCAGTAAATGGAATTTCCATGGAATTCAGTCCAAACAAGAA ACTCAACGAACAAGAAAATCAGTGGAAAATTCAAAAACAATTCAAAGGTACCTTCAAAATACAGTGATGCAGAGGAGCGA AGATGGTGAAGCTGGGAACCATTGATGAGGGAAATGAAAGAAATGCGATGGAAAATACAGTTAGAAGAAGAAGAAAATGA GATACTGAAGAAGGGGAAGGTGGAAGGAAATGTATTTTCATGCTTAGAATCAACGGTCAGATGTTCGTCGTACGTGGGGG CCCCACACGTATGGAAACGATCCTGCCGTTCATTTTTGTAGTGTGGTTGTTAGCCATGAAAGATTAGTTTTTAATCGTGG CTGACAGCAATGACTAATCTTCTCGTTGCACATGCTCACTCCGACCATAATATGCGTTTCATATTAAACCCTCAACCTCA TACCTCATGGTCAAATGACGAAGTGAGCTAAACAAATCAGGAGGATTAGTTTGAGTTGTCACTTCTTCACTCAGTTGTTG GTGTGGTTCCATTCATTCATTCCTCAACCACACGAATAAGGCTCGAACCAATAGGAC

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0509800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGTGTCTGCTGCTTGTGTGGCCTGGACAACCAGTTCACAGTTAGCAAAATCTAAAAAAGACAGTACTTTTCTGCAAGA TGATGGTTTTCTAGGTGAGAGAATCATCAAAGGGAGTCTGAGTTACAGTCCCTGGATCAATAATCAATTAGCCACAAGTT GGAGAGGCAAGGAGAGTGTGAAGAAGGCCAAACCTGGTGTTGTGTCTGCTGTTCTTACATCAAATGATACCAAGGAATCC TTGAGCATTCAAGTGCCAACCTTTCTCAGAAGAAAGGCAGACCCTAAAAATGTTGTTTCCATCATATTGGGAGAACGTCC TGGGATTCAACTCCTTCCTCTTACCAAACGAGCTGCAACACCTGCTGTCCCTGTTGGTGGATGCTACAGGCTTATAGACA TCCCAACGAGCAACTGCATTAACAGTGGCATCAACAAAGTATTTGTGTTGACCCAGTTCAACTCTGCATCTCTCAACCGT CACATCTCCCGCACCTATTTCGGAAATGGCATCAATTTTGGGGATGGATGTGTGGAGGTTCTAGCGGCCACCCAAACACC AGGAGAAGCTGGCAAGAATTGGTTCCAAGGCACTGCAGATGCTGTGAGGCAATTCACTTGGGTATTTGAGGATGCCAAGC ACACAAACATTGAGAATGTGTTGATCTTGGCAGGAGATCATCTATACCGTATGGATTACATGGACCTTGTGCAGAGTCAT GTAGACAGAAATGCAGATATTACAGTATCATGTGCTGCAGTGGATGACAGTCGAGCATCAGATTATGGATTGGTCAAGGT AGATGGCAGAGGCCGCATCATCCAATTTTCAGAAAAACCGAAGGGTTCTGATCTGAAAGAAATGCAAGTAGATACCTCTC TTTTTGGCTTGTCACCTCAAGAAGCATTAAAGTCACCATATATTGCATCTATGGGGGTTTATGTATTCAAGACGGATGTT TTACTTAACCTTCTAAAATGGAGATATCCTACTTCGAATGACTTTGGATCTGAAATCATTCCTGCAGCTGTGAAGGAATA CAATGTCCAAGGTTACTTTTTTGGTGACTATTGGGAAGACATTGGAACAATAAAATCGTTTTACGATGCTAACATGGCTC TTACTGAAGAGAATCCAATGTTCAAATTTTATGATCCCAAGACGCCCATTTACACATCTCCAAGATTCTTGCCACCAACA AAGATTGATAAATGCCGGATTGTGGATGCAATAATTTCCCATGGATGTTTCCTGAGAGAAAGTAGTGTCCAACACTCCAT TGTGGGTGAACGTTCACGTTTGGATTATGGCGTTGAGCTCCGGGACACTATAATGATGGGAGCAGACTATTACCAAACTG AATCCGAAATCGCTTCCCTGCTAGCAGAGGGGAAGGTTCCCATTGGGATCGGAAAGAACACCAAAATTAGGAAATGTATA ATTGACAAGAATGCAAAGATTGGGAAAGATGTCATCATCATGAACAAAGATGGTGTGCAAGAAGCAGATAGAGCAGAGGA TGGATTCTACATTAGATCAGGAATCCCTATCATAATGGAGAAGGCAACAATAGAAGATGGAAGAGTGATATAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0509800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MVSAACVAWTTSSQLAKSKKDSTFLQDDGFLGERIIKGSLSYSPWINNQLATSWRGKESVKKAKPGVVSAVLTSNDTKES LSIQVPTFLRRKADPKNVVSIILGERPGIQLLPLTKRAATPAVPVGGCYRLIDIPTSNCINSGINKVFVLTQFNSASLNR HISRTYFGNGINFGDGCVEVLAATQTPGEAGKNWFQGTADAVRQFTWVFEDAKHTNIENVLILAGDHLYRMDYMDLVQSH VDRNADITVSCAAVDDSRASDYGLVKVDGRGRIIQFSEKPKGSDLKEMQVDTSLFGLSPQEALKSPYIASMGVYVFKTDV LLNLLKWRYPTSNDFGSEIIPAAVKEYNVQGYFFGDYWEDIGTIKSFYDANMALTEENPMFKFYDPKTPIYTSPRFLPPT KIDKCRIVDAIISHGCFLRESSVQHSIVGERSRLDYGVELRDTIMMGADYYQTESEIASLLAEGKVPIGIGKNTKIRKCI IDKNAKIGKDVIIMNKDGVQEADRAEDGFYIRSGIPIIMEKATIEDGRVI

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
PANTHER	PTHR43523:SF16 View details on PTHR43523:SF16 Search for proteins/transripts with this domain View external data on PTHR43523:SF16	1	530	530	0.0	–
PANTHER	PTHR43523 View details on PTHR43523 Search for proteins/transripts with this domain View external data on PTHR43523	1	530	530	0.0	–
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	82	395	314	1.4E-88	IPR029044 Show description in modal box View details on IPR029044 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR02091 View details on TIGR02091 Search for proteins/transripts with this domain View external data on TIGR02091	98	494	397	6.2E-136	IPR011831 Show description in modal box View details on IPR011831 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02508 View details on cd02508 Search for proteins/transripts with this domain View external data on cd02508	101	361	261	1.5158E-74	–
Pfam	PF00483 View details on PF00483 Search for proteins/transripts with this domain View external data on PF00483	101	376	276	1.2E-70	IPR005835 Show description in modal box View details on IPR005835 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	105	491	387	1.33E-66	IPR029044 Show description in modal box View details on IPR029044 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00809 View details on PS00809 Search for proteins/transripts with this domain View external data on PS00809	194	202	9	-	IPR005836 Show description in modal box View details on IPR005836 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00810 View details on PS00810 Search for proteins/transripts with this domain View external data on PS00810	309	319	11	-	IPR005836 Show description in modal box View details on IPR005836 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51161 View details on SSF51161 Search for proteins/transripts with this domain View external data on SSF51161	392	530	139	8.84E-24	IPR011004 Show description in modal box View details on IPR011004 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.160.10.10 View details on G3DSA:2.160.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.160.10.10	396	530	135	1.2E-47	–
CDD	cd04651 View details on cd04651 Search for proteins/transripts with this domain View external data on cd04651	398	524	127	9.42245E-26	–

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:0005978 View details of GO:0005978 AmiGO InterPro QuickGO	Biological process	Glycogen biosynthetic process	The chemical reactions and pathways resulting in the formation of glycogen, a polydisperse, highly branched glucan composed of chains of D-glucose residues.	Subterm of View details of GO:0005977 View details of GO:0009250
GO:0008878 View details of GO:0008878 AmiGO InterPro QuickGO	Molecular function	Glucose-1-phosphate adenylyltransferase activity	Catalysis of the reaction: alpha-D-glucose 1-phosphate + ATP = ADP-glucose + diphosphate.	Subterm of View details of GO:0070566
GO:0009058 View details of GO:0009058 AmiGO InterPro QuickGO	Biological process	Biosynthetic process	The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones.	Subterm of View details of GO:0008152
GO:0016779 View details of GO:0016779 AmiGO InterPro QuickGO	Molecular function	Nucleotidyltransferase activity	Catalysis of the transfer of a nucleotidyl group to a reactant.	Subterm of View details of GO:0016772

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0509800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0509800.1