Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0459600
Transcript ID	LotjaGi3g1v0459600.1
Lotus japonicus genome version	Gifu v1.2
Description	Diacylglycerol kinase; TAIR: AT2G20900.2 diacylglycerol kinase 5; Swiss-Prot: sp\|Q9C5E5\|DGK5_ARATH Diacylglycerol kinase 5; TrEMBL-Plants: tr\|A0A072UKH9\|A0A072UKH9_MEDTR Diacylglycerol kinase; Found in the gene: LotjaGi3g1v0459600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:87426091..87438308) extracted from Lotus japonicus Gifu genome v1.2.

CAGCATTCACAATCACAGATTCACACTCAAACATTATTCCACATTGGGTCCCCACACAGATCCCAAAGCGAATAGAAGAT ACCTCCCCTTAATTAATCAATTGCAGATCCAAATTCCAAAGTCAACTTGTGCGCTTTATCTTCTTCAATCCACATCGTTT CTGCATCAACCTCTCCAGGTACATTCATCCATCTATCTCCATTTCAAATCCAATTTCAACCATTTTCCCCTATTTCTCAA TCACAACCCTCTCTTCCTATGCATCCAAATTCACATTCATCAAGTTTCTAAAACTGGATTACATTAACCAATCTCGTTTA GCTCAGATTTTAACTTTCCAAAACTAATTTTACGACCTCAGTAAAAAATTAAATCCAAAACCAGAAAAATTTCAGTTGTC ACATACATTTTTCAAAACCACACATTCATTTATTTATTCAATTTATTTTACTTCCAAACACAATTAATTATTTTCATTAT TTTTTTTACTGCAAAATTAGTTTTGTAATTATTTGTTAATCCCTGTTTGGATTTGTTAATCAGTTTTGCAGCAATGGCTT CTGACTTCTTGAACAACTTTAAGATTCCTGATTACATTTTTGTACCTGAGTCCAAGGTTGACAACGATGGTGGACATGTA CCTCAATGTCCGGTGCTGGTTTTTGTCAACTCCAAGAGTGGTGGTCAGCTCGGAGGGGACCTTTTACAAACATGCCGTAC GGTTCTTAATCAAAAACAGGTATGTAGCACACTCATAATTCTCGTATGTTTGAGGTGTTTCAGTTTTCAAAATCTTCAAG TTCATGAACTGTCTGAAGTTATTGGAAATGTGGGTTTATCAAATTTTGTTAAAGTGGGCTAAATGGAGCATTTAAAATTT CAGGTTTTTGATTTGGGGGAACATGCTCCTGATAAGGTGCTGAGGACAATCTATGCTAATTTGGAAAGACTTAAGATCCG AGGCGATGAGTTTGCTGTAAAGATCATGGAGAGGTTGAAGTTAATTGTGAGTTATATAAATCTTTGATGGGTTGGTGTTT GTTTCCATGTTTGTGTTGTTGGTATGGTCTTTGTTTTGAGTTTCTGATGTGTAGCTTGTTGTCCTTGCCTTTTAGGTTGC AGGAGGAGATGGAACAGCAGGTTGGCTGCTTGGAGTTGTTTGTGATCTCAAATTATCTCATCCGCCACCGATAGCTACTG TTCCATTGGGCACGGGGAATAACCTACCTTTCGCGTTTGGTTGGGTAAGGAATTGCAGTTTATTTCAATAGCCACTGTCT TGGTAGTATAAGATTAATGACCTACAGTTTTCCTTGTTTGCCTGGATTCACTTTAAGAGGGAACATATAATTGTGCTAGT TTATTATTGAACTTATTGCATGTTTACCATTTACTACATTGCAAATAACCACCTACTTTAACTTGTATATCTAAGATTTG TGGTTCCTGTACTGGAAGCTGTGGAAATTTTTGGTTGAACCTGTGCACTTGATGATAAAGAATATATCAGAAAAGTAGAA AAGAAAACAATGATTAAAGAGTGAGGGACATTTTTGCTGCTTTACAGGGTAAGAGGAACCCAGGGACAGATCGAAGCTCG GTTGAAGCATTCTTAGGTCAAGTCTTGAAAGCTAAGGAAATGAAGATAGACAAGTAATGAGTTTTGGGCCTATTCATTGA TCTTATAATTGGGATTATTTTCTTATTTTTTTGCCAATATGACTTACATTTCGTCTATTATGATGCCTTGTGCTTTGTAC CTTTGAGAAAGAAGTTCTGGTGTCTTTATAATTGAGTAAAATCAATCTAAAATTGACTAGTTCATGATTTTAGCCCTGAT TTGATTTTGGGGAGAGGCTAAATAACAGTATTGTTATCAGATAGCTGCATTACCGGTTAGTGTAGACATGTTGATTTTTC ATTTAAATCCAAAATGAAAATTAATGATTTCCTTTTTTATTTCCATCTTGTTGACACTACAGAAATCTTCTTTTATGACA TGTTCAAATAATTTTTTTGTTCATTGTTCTGTTTATGGGGCTTCTTTAGTGGCAGCATTATTTTACTGTCTACTTTATTT CCTAGGGTTACAAAAGGTGGTCTTAGTGTGGGGAGGGAAATGGTAACCCAAAGTGCAAGCAAAGTGGCTTGGTAGGATTC AATCACAGTATCAAGCAGTCCCCAAAGGGACTCAGTGGGGACTCAGTGCCACCTGAGCTTTGGTTCTTGGGCTACTTGCA GGGCTTTGTTTACTGTTTGAACTCTGAAGTTTGGAATTTGCGCCTTATACTTCCTAATTCCAGTCCTTAATGCCCCTTAG TCCAAAGAAAATATATATGAATGGTTTTAAGAACTGCTATCTGTTCATGTTCTGTATTCAGTTTCTGCATATATTTCTTC TACAAAAGGCTGTTTTGCTGATAATTTTTGTTTGTCTTTCTAACCCTTAAGCTGGCATATTCTCATGAGGATGAGAGCTC CAAAAGAAGGTACCTGTGATCCGATTCCACCACTTGAGCTCCCACATTCTTTGCATGCCTTCCATCGTGTATCTGAAGCC GATGAGCTTAACATGGTAAGACACAATTAACATGACTACTTAGTTTCTTTTGCTGGATCTTTTTTCCATGATACCTTCAG TTTCATAGGCGATATATATTTTGGCATAGCATCAATTGGTTGTTAACTTTTTTGAAGATTAACCAGATGAATATTTGTTT TTCACTATCAATGACATGAACCTACTTACCTACCTAATCATGGGACAGTGCAAACAACTAGAACAAATTTTCTGCAGATT TTATGCACTTTCTACTTGGTTTTCATAGTGCATTTACGGAAATTAAAGGGGTGATAAAAGTTCTTTTCTAAGATGTTTTG TTTTAATTTTGAATCATTAGAAGGTTGTTTTCTTTACTGTTTGACATGCTTCCTCTTTTCTCTGTTTCTAACTGCTTCTC AGGAAGGCTGCCACACTTTTCGTGGGGGATTTTGGAATTACTTTAGCATGGGTGAGAACACTTCTTCCTGGGTTCTTTTG TTCCTGAACTTTTATGTTGTGGAATGTAGATTATATCTATATAAATCAATTTTCCACTTAAGGATTAATTGATTTATAGC ATGTTTGGGTCAACTTTTCTCTCATCAGAATCAATTTTCAATTACTGTTTCTCTTTATCAGTTTGAAATTCATTAATGTT TTGGATATTTACACTATATCAGGGGATTTTTTATTTTCTGTCCACCTTACTCCAATATTTGTTTAATTAACGGTTGACCT CAGGAATGGATGCTCAAGTGTCTTACGCATTTCATTCTGAACGAAAGATGAATCCTGAAAAATTCAAAAACCAGTTGACT AATCAGGTATGAGTTGTTTCTTCACTTATTATACTAAGGCGGAAACTCTTTAATGGAAAGCATAGATAACTTTGCATTCT CATCCTCTTTTTTCTCTTATTTTTAAAAGAAAACAAATATTTCCTGATTTCAATCTTCATTTTAGAGTACTTATCTTAAG CTTGGATGCACTCAAGGATGGTTTTTTGCTTCTCTATCCCAACCTGCTTCCAGGTCAGTTCATTAAGATCTCTCATTGAA TGGAAAATGGACTTGCATATTGTGCTTTATCTTTTGGTTGTTTTCACCCCCTCAATTTTCATGAAATTTAAATGCATACA AATTCACACCTGAGACATTCACTACTAGAATTATATATTTGAAATCCAGTTACTTATAGTTGACTTGACACCATACAAAT GGTACTCTGACTTTATATATTAGGCTATCTTGATTTATTATTTTATTTTAATTTTTATGAAGTTAACATGTATATCTTGG GTAAGCTTAGTTTTCTCTGTTACTGAGTCTCTTTCCAAATGAGTATGATTTGATGATTTATTAGTGCATTGCTTAGACAA TTTAGCAGGAGAGAAAAATTATGCATTGTTAGTAAGAGACATACATCAAAGGTGAAAATTGGAAAATATAATTTTACCAT AAGTCTCATATTACCTCTGATCCATCATATAAAATGATGGGGAGATAGAGGCAGATGTAAATCATAGGATCTAAACAGGA TAAATGAAATGGAAGTAAACTCAATATTGAAAAGTTGTGAATATTGCTATGGATGAGTGGTTTTACAAGACATTGATCAG TGCGATTAATAGATAGAAAAGATGGTTATTTGTATCTTAAGTGGTTTGAGACTTTGAGCCATAGAGGCGATATGTAGAAG CATCGGTAAAGAGGGTTGACTTGATGGAGAATAGTTCAATAGTTAGATCAAGTTAGAGGTAAATAGTCTATCTTTCAACT TGATACATAATAGAGAAGTATGGCGTGAATGATCCATGTAGTTGACCTAACCTAGTGAGAAAAGACTTTGTTGTTATTGT TTTTGTTGTTTTTAACATGTTATGAATTGCTTAGACAATTTAAGATGATCAAATGAAATATGATTTATTCAAGTTATTTT CATGACTTCTGAGAAAAATGTTATTAACATTTGGAAATTTCAAAGTCTTGACAGATAGCAGAAATTCAATCTCAAAAACA TAGGCTCCCTAATTTAGTCCTCATATCAACTTCCCATATGATGCTGGAAGAAAAACCAAAAGAAAAAGGTGTCTCCAGCT CAAATTGAGCTCATTTATAAGTATTACCGACCACATACCAGGCAGCCTCCTAACCTGTTTAACGTAGTTATTTGTTATAG GCTTTGGTTACACAGGTCACATTGGCCGGTTATTAGAACTAATGAAGCATTACAATTATTGATTGTATCAGGATAGGATT ATTCTCTGTATTATTTTAAAAGACCAACTTTAATTGGTAATAGCCAATAAGATTATTAAAAGGAAAACTAAATGATTTTC TAGTATATTCGGTTAACTTATTCCATTGATCAAAATGGAATGTGGACAACAATGCAGGAATCATATTTTCATCCGAAGTA ATAATTAGGGTTCTTTTTTCCTTTTCTGTATAAATTGTAAAATTAAAAAAATATGAAGGGTTGTAAACAGTGCTTGCCTG CTTGGTATAGGAAACTGAGGCAGGCTTAGCAATTTGAAATGCTATGTATATTTGGATGCTAGAATTGATAAGCATGCATT ACTACACAAAACATAATTTGTCATTTGTCTGCTTGAATAAATATAACTTGATTTTCTAATGCAGGAACACAGGACAACTT ACAAAAGTAAAATTCATGAAAAGACATGGTCAATGGGAAGACTTGGACATTCCTCCCAGGTAAATCATTTTATGTACTAT CTATATCTTTTGCGAAACATACAAAAGTGAATTTTTAGTGGAACAAGTCCTGCATTTTAAACTAGCCAAAGATCATATTA GGCGAGAACTATTTCTCTGAACATTGCTTTAATGGCTTTCTCAGTTAAAGGGCAGAGCAGTATTTATCCTTGAGCTAGTT TTTTGGTAGAGTTAGGTTTAGTTCTAAGATTATATCAGAGCCTCATAGATCCGTTTATTAGATCACTCACAAATACTCAG TCTTGCAAATTTCGCGCTCTAGATGCTTGGCCATGGGATAAGAAGGTCTTACATAATCACATTGACCAGATATATGACTA AAAAAGTTCTTATAAAGGGTACAACAATCTCAATCCCTAAGATTGCTTTTTGGATAGAGTTAGGTCTAGTCTGAATTTTA AGAGTCACTCTTGTTGGCCACTCAGTTATTGATGTCTTTCGCAGTGGCAACTTATGAATAGATATTTATAAAAACAGCCA TATAATTACAAATCAATTTACTATTTGGATGAACTGACCGTGTAAAGAGTTTTACATAGACATTCAATTCAATCATATTT TGGCATGTTTCTTTTTTATTTTATTTTATTTATGATATGGGAAAATAGTAAATATGATTGGATGTATGTATCAAACTTTT TTACACTCTCCGTCCATAGTTATTAAACTCTTACATTTTTATTCTGATACTCTCCTGTCTCCTTGCTTTGTTTACTTCTT GAATAACACCTAATATGACTCCTTCTATTGTATATACAGCATCCGGTCAATTGTATGTCTTAACTTGCCCAGCTTTTCTG GTGGATTAAATCCATGGGGCACACCGAACAGGAAAAAGCAGCGTGACGTAAATTTCATATGCTAATTCTGAAATAATTAT TTATTTTACAAAATATGTTTTCTTGTTACTTTTGAGGTTCAGTACTAGACCACTAGTAAACAAACATCCAGTAGTTTTCT GCAAGTTATTTTACTTTTTTTTTCCCTACAACTAAGGTTTCTTGATTGAAAACAGAGAGATTTGACACCACCATATGTGG ATGATGGGCTTCTAGAGATTGTTGGTTTTAGAAATGCGTGGCACGGGCTTGTTATGCTTGCTCCAAATGGTCATGGAACT CGTCTTGCTCAGGTATGCATAAAATGTTGGGCACACGTTTGATTCGATGGTGTCATTCTCAGACTGCAGATTTGTGCAAA AATGGCTTAAAAGTTTGTATCATCTTTATAAAATAGCTAAACATATAGTAGGATTTAGTTGTTAATTTTCCCTTGATCCA TTAGGCACACAGAATCCGGTTTGAGTTTCGCAAAGGTGCGGCAGATCATACATTCATGAGGATCGATGGAGAACCATGGA AGCAACCTCTTCCAGTTGATGATGATACTGTTGTGGTAGAGATTTCTCACCATGGCCAGGTTAACATGCTTGCCACTCAT ATTTGCAAGTCTAAAAGTGTGTATGACCCGTCATCTCCACATCATGATGATGAGGAAGATGACAGTGAAGATGAAGAAGA TTCTTTAGCTGAGGAATTTCGGAAGTTTGGTGCAGCAGATACATTTAAAATCCCAGATGAGGTTGATCTTTCTCAACTTA GTTAGGTCCTTCACTATTAAGCCATTCTTCAGTGTTATGTGGTTGACAATTACTAAACTAGTTAACCCCTTCCCAAAATT TGTTATTACTTCAATTGATGTAACAACCAGTTAGCTCAATTCTAGCACTAGCAGCATTGTGGCTGAAAATATGATAACTC CTTTGAGATACAATAACTGATTCATCCTCAACATATTTTGCCGTTGAAATACATAGATTTCAAGTAACTCCCACGACCTT TGCATTCTGCTTTAGGGGTGATAGGCTCCAAAGCTTAAGCGTTAGTATTTATTTGTTACATTGTAATATTGGCTTTCAAA AGTCAAATAAACCTTTCTGCACGTCGTGATAATGATATGTTAGATGACTATCTGATGCCATGTTCGCCATAATTTTTAGT TCAAGTGTAAACAGATACAGATTCAGTCATTTGGATTTTGGAAGGAACTCAAGTCTTATCGACCACTCTGAAATGTATAA TTTGCACACTATAATTTCAGTTTAGAAGCTAAACTACACTCTGTACATGAGTATATCCAATTCATAGATGCAAATTGCAC AACTTTCTGCAAAAGGTAAATTTTTGAGATAGGAACCGAACATGTACCCCAGAAAAATGTGAGATATACTGAAATGTTAA CAACTTCAGTTATCTGAATATATGACTTCAGGCATGCATTTGAGAAAGAATACATGCCTACAATTCAGAAAATTGCTCTT GCCCCAAACATTTTGTAATGGCCTCATTAGCCTTTTGCGGCTCAGCCCTTTCTTCTTGCTTCTTCTTCTCCCTGAAGCAA AATGTTATTTTTCAAAGAAATCAAAACCTTGCGGAGAAAATATAACCATAACATCTACTAGAAAATATTTAAGGATATTT AGAGTATAACGTTGAATCTGTCATAAAACTGAAGAAATAGTACACAGGCCATGTATCTACCTCCAATTTCAATTATAAGT TAATGTTTTTAGCAAGTTATCAGGAAGTTTGTGATCTCATTTTTATTCCACAAAATGGACATTTAGAATAAAGAACCTGA TGAGCTAAAGAATTTCTAGATAATTTACAACTGCAGACTAAAGGCAGTGGATGGAAAAAAAAAAATACAGTCACGGATTA TATCATAGAGGAAAACCCAGAACAAGTGAGAACAACTCAAAAATTGTAAGGTCTGATGTTTACCTGTCAACATATTCCTT TAGCAGCTCTTTAGCTTGAACCAACTTAGAAAGCAGATTACGGTACACGTCCAAGTCCCGATCCACACTTCTTTTGTCGA CATTCAAAGCCGCACAAAGCTGTTGAATAGATACCAGATATTAATTTATAAATAATCATAACAAAAAGTTATTTAGTAGT AGAAAATAGATACGTTTACAACTTGACATTCGGAGCATCCTCCGCTATACCAGTGTCATATAATCTCAGATGCTAAATAT TTTTAGTTTTCTCTGTTATTTTGATGCCTGTAATGTTAACGTCGTCAACATTATTACAAAAGAATGGGGCATTCTCCTTC ATAAGTCATAGAACAATGAAATCATTTCAGTAGAAGCAAATCTATTCCTATATAGATAAAGGAAATGAAGGGATTCACGC CACCAATGAGGCCAGAACTAGGTGGAAGAGAGATCAGGATGTCAAGGTCATTTAATTCACTTCAGCTAATCCAAACTGGT CGGCAAGCCACAGGAGAACATCTAGATAAGTGAGTCTGTCTTGAATGTCCGGTTTTCTAGAACTGGTATAAATGAGAACC AGATTTGGTAGTTTAAACATAAAATTGCAAAAAGAAATATAATCAAATAAGCATTTGGTCTTTCAAAAAAAAAAAGCATT TGATAAGTTGCAATCAATATATCATGATGACTAAATGAACTAGGTAACCTTTTCCAAAATTGCTGGTTCCATTGCATTTC CCAGTTCAAGAAGACGAAAAAGGCCTATTGCGAAGAAACGACTATAACTGAAATCCCCCTTTCCTCCTGCTCTTTCTGCA ATATCCTTTAATGCCCCCTCAACTTCTCCTTCTCTCGATGAAAATTCAATCAGTGATGTTGAGCTTTGTGTCCGGGCCCA TTCTTCCAACTTTTGTGCATCTTCTCTGTAGAAGGCAATATAAAAGATTATTTGAAGTAAGATAAAGAATACATAAGTGC AATTTATTTAAATCCAGTGGATGTGAAAGGATATTTTCCTTCAAATGCATTCCTGAGATGCAACTAAATTAAGTATTCAC TCCACAGTTTACACACATGCAGATTAAAATTAATAATTTCTACTTTTTATTAATTAACAACAATCATCAAGGACATAAAA GATGCTTGGATGGTCGGTTATACTATACCTGACAATAAATTCACAAAATGTAAAAGAATATCTATTAGAATTGACTATTC ATGCAGGGAGTCATTCGATTATACCATCCTTCTCTTCAGAAATAATTTATGCAACTAATATGAGTATCCACTGGGTAGTA CAGCAAACAAAATGTGACAACAATCATCAAGGACATAAAAGATGCTTGGATGGTCGGTTATACTATACCTGACAATAAAT TCACAAAATGTAAAAGAATATCTATTAGAATTGACTATTCATGCAGGGAGTCATTCGATTATACCATCCTTCTCTTCAGA AATAATTTATGCAACTAATATGAGTATCCACTGGGTAGTACAGCAAACAAAATGTGACTCACAAATCACGAAATCATGCT GCAGGCAGAATCTACATTTCGTAGCTTCTGCTTGAATGTGATTTCGAGTGCCAAAATCTTGTCCGGGATCCCAAATGTGT CCTAAACACACCATTAGATTCATGGTAAGCTGATTTAACACAGTCTATGGTGGCTCACACTACAGCCATTAGTTTTCACT TTTCGGTCATTGAGTTGAAAGTATTGGAATAGAAAACACAGAAGGAAAACACACACACACATTCATGCTTCTAACCTGTA TTGCCCTGGGTCTTCCTTCAATGCCTTGATGTATGCTTGAAAGATGGCATCGCGGTCCTCATCACTAGGATACCCTTCCA TGAGTTGCTCATATACAGTGACGAAGCCAAGAGCAAATACAGGGTCATAGCGGTACGACCTCTTGAATCTCATCAAATGT TGCTGGACTATGAGCTCCTGCAGAACCGTGTTGTAGATACTAGGAATTGGTCGTTTATATTCCTTGAGAAAATTTAACTT TGTCTCAGAAACAGGTGGAGGGTCTGCAAATCAAATATTCAGACAACACATAACTAACTGATGATAACAAGTTTTATTCT CTGCTTTTATCTATTGCCTTTTTGGCGTATGTGTCTTTGAATGATGAAGGAACCTAATGTGGAAATATTCACACCATTTG ACACATTATGATCATGCCTCATGTATCCAGATGTATAAGAGGAGATGCTTTAACAGAATGAATCCTTTAATATGTAGTTC TAAGAAGGCATTCATTTTTGAAACCATACCACATGCTGGATATATTTCAACCGCATTCAGTAATGAAAGAAAGAGCTACA AAGAAATTCAGATTAATATTTACACAAAAAAATTCCAGGGATACCACAAGGTGGAATTGGTTGTGAAATTTCTCCCATTC TGCATTCCTACTTTAAACTTTACCAAATTCATAGGTAAACTCATAACCAACATAACAAATAATAATATCGTCAACTATCC TTTGATCTGAAAAAACAAAACTAGATGATATAATAAGGAAGATAGGTCAGAAATTTCAAGTCAAGTAGAACTTTTATTGA TAACAAGAGGTAGATCAACGGAATGCTACCACTGTGGTATAAAAGATCACTTGAAGAAAGATTGTCGGCACCACAAGAAT ACAAAAAAGCCTACTAATGGAACAGCCTCTCAAGGATGTGCCACTTCTACAAGACACCTCAAATGACGGGAAATCTTGTA TAGCAAAGAAGAAATTGGTCCTAAAGGCAGAATACAACTAAATGATGTAAGGACAATGGAAGCGAGTGCAACTTGACACA TGACCCCACACCAAATTTGGGTTTTTGCACTTATCAGCCTATCTCAAAAGGATTTATGTTTATGGAAAATGATCATGTCA TAGAATTTGGAGTTGGTTATATTAAACTAAAAATGTAAGATGATACTGTTAGACAATTCCTTAGAAATTGATATGAAGGG CTTCAGACAGTAAACAAGATTTAACGGATGCAAATTCACCACGATATAGAAGAAAGGAAGATTTGGCTATCTCAAACAAT ACGCAAGACTACAATCTAATCTTTACCCCACTTCGTGTTGTATGCATTAGCGATTGGAAGCATTAAACATGCAATGATCA ATACAGCTACAAAACCAAATGTTGCTCAAGCTACTACAGAGACAGGCTATGCATTCACACTTGCAATAGAGGTATGCTGG TGCATTTATGGTCAATACATTTTTTTACAACTTTACCCCGAGGACACAAGTTGACAATGTCAAAATGCAGCAAACAGAAG GAGTTCCAGCCCTATAAATAGCAACTCCCTTTAAAATGCAAATATAGTGGATTCTTGCATGTGATTTTTTTCTCAAATCT CTTTTTTCTCTCATTTCTATCTTTAACTTACAATTGCCTAACTCTAGGTAATCAACACATTATTCTCATAAAAGAGCTAT ATGTCAGTTGCAACACTAAATACTAAATCATACTAAAAGCAAACCCCTTTACTCTAAATTTCCAAATCCCACAAACCAAA ATTCAAAATCAGACATAAAATTTTCACATCCAAACACACTTCAAATCAAAATATCAACTTTCCACAAGGATCAAACCTTC ACAAAAAACAAAGGACTACCCAGTTCCCAGAAAATCGAAACGAGTCCTAAACTCGTAGAAAATTGTCCCTTATCCCCTCT TTTCACACACACTTTCTCAAGAACCGAACAAACCTGACACAGAAGAGGAGCACCGAACGACCAATTTGGAAGCAGAATTG GAAGCTTGAACACCCACTTGCTGGCACAAGAAACTCTTCCGGAATCGAATGCCATCTGAATTGGAACCAAGGACGCAAGT AGAAGAGAGGGTATGCTTCCTCTGCGAAGATTGAGTGAGTGCCGAGAAAGAGAAAGAAGAAGTAACAGTAGCCATCGGAA GAAAGAGAGAATGAGACAGCGGCGGCGGAGGGTGGTGGCCGGAATCAGAAACTTTCCGGCATAGCAAAAGAAGAGTGTTC AGAGTTGCATCTTGTGCATTGCTTTCAGAAATCAGAATAGCGTGTCCATTGTGTAGGAAAAGGAAAGTGAAGGTAAGGTG TCTGTGAATTACAAGAAAGAAAAACAAAAATCTTATCCAATTTGATAGTGAAACTTTT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0459600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTTCTGACTTCTTGAACAACTTTAAGATTCCTGATTACATTTTTGTACCTGAGTCCAAGGTTGACAACGATGGTGG ACATGTACCTCAATGTCCGGTGCTGGTTTTTGTCAACTCCAAGAGTGGTGGTCAGCTCGGAGGGGACCTTTTACAAACAT GCCGTACGGTTCTTAATCAAAAACAGGTTTTTGATTTGGGGGAACATGCTCCTGATAAGGTGCTGAGGACAATCTATGCT AATTTGGAAAGACTTAAGATCCGAGGCGATGAGTTTGCTGTAAAGATCATGGAGAGGTTGAAGTTAATTGTTGCAGGAGG AGATGGAACAGCAGGTTGGCTGCTTGGAGTTGTTTGTGATCTCAAATTATCTCATCCGCCACCGATAGCTACTGTTCCAT TGGGCACGGGGAATAACCTACCTTTCGCGTTTGGTTGGGGTAAGAGGAACCCAGGGACAGATCGAAGCTCGGTTGAAGCA TTCTTAGGTCAAGTCTTGAAAGCTAAGGAAATGAAGATAGACAACTGGCATATTCTCATGAGGATGAGAGCTCCAAAAGA AGGTACCTGTGATCCGATTCCACCACTTGAGCTCCCACATTCTTTGCATGCCTTCCATCGTGTATCTGAAGCCGATGAGC TTAACATGGAAGGCTGCCACACTTTTCGTGGGGGATTTTGGAATTACTTTAGCATGGGAATGGATGCTCAAGTGTCTTAC GCATTTCATTCTGAACGAAAGATGAATCCTGAAAAATTCAAAAACCAGTTGACTAATCAGAGTACTTATCTTAAGCTTGG ATGCACTCAAGGATGGTTTTTTGCTTCTCTATCCCAACCTGCTTCCAGGAACACAGGACAACTTACAAAAGTAAAATTCA TGAAAAGACATGGTCAATGGGAAGACTTGGACATTCCTCCCAGCATCCGGTCAATTGTATGTCTTAACTTGCCCAGCTTT TCTGGTGGATTAAATCCATGGGGCACACCGAACAGGAAAAAGCAGCGTGACAGAGATTTGACACCACCATATGTGGATGA TGGGCTTCTAGAGATTGTTGGTTTTAGAAATGCGTGGCACGGGCTTGTTATGCTTGCTCCAAATGGTCATGGAACTCGTC TTGCTCAGGCACACAGAATCCGGTTTGAGTTTCGCAAAGGTGCGGCAGATCATACATTCATGAGGATCGATGGAGAACCA TGGAAGCAACCTCTTCCAGTTGATGATGATACTGTTGTGGTAGAGATTTCTCACCATGGCCAGGTTAACATGCTTGCCAC TCATATTTGCAAGTCTAAAAGTGTGTATGACCCGTCATCTCCACATCATGATGATGAGGAAGATGACAGTGAAGATGAAG AAGATTCTTTAGCTGAGGAATTTCGGAAGTTTGGTGCAGCAGATACATTTAAAATCCCAGATGAGGTTGATCTTTCTCAA CTTAGTTAG

Download CDS Sequence

Protein sequence (LotjaGi3g1v0459600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASDFLNNFKIPDYIFVPESKVDNDGGHVPQCPVLVFVNSKSGGQLGGDLLQTCRTVLNQKQVFDLGEHAPDKVLRTIYA NLERLKIRGDEFAVKIMERLKLIVAGGDGTAGWLLGVVCDLKLSHPPPIATVPLGTGNNLPFAFGWGKRNPGTDRSSVEA FLGQVLKAKEMKIDNWHILMRMRAPKEGTCDPIPPLELPHSLHAFHRVSEADELNMEGCHTFRGGFWNYFSMGMDAQVSY AFHSERKMNPEKFKNQLTNQSTYLKLGCTQGWFFASLSQPASRNTGQLTKVKFMKRHGQWEDLDIPPSIRSIVCLNLPSF SGGLNPWGTPNRKKQRDRDLTPPYVDDGLLEIVGFRNAWHGLVMLAPNGHGTRLAQAHRIRFEFRKGAADHTFMRIDGEP WKQPLPVDDDTVVVEISHHGQVNMLATHICKSKSVYDPSSPHHDDEEDDSEDEEDSLAEEFRKFGAADTFKIPDEVDLSQ LS

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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
PIRSF	PIRSF030829 View details on PIRSF030829 Search for proteins/transripts with this domain View external data on PIRSF030829	2	431	430	4.1E-208	IPR016961 Show description in modal box View details on IPR016961 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11255:SF94 View details on PTHR11255:SF94 Search for proteins/transripts with this domain View external data on PTHR11255:SF94	3	480	478	2.3E-274	–
PANTHER	PTHR11255 View details on PTHR11255 Search for proteins/transripts with this domain View external data on PTHR11255	3	480	478	2.3E-274	IPR037607 Show description in modal box View details on IPR037607 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50146 View details on PS50146 Search for proteins/transripts with this domain View external data on PS50146	29	182	154	19.962	IPR001206 Show description in modal box View details on IPR001206 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.10330 View details on G3DSA:3.40.50.10330 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10330	31	182	152	1.5E-5	IPR017438 Show description in modal box View details on IPR017438 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF111331 View details on SSF111331 Search for proteins/transripts with this domain View external data on SSF111331	32	424	393	1.18E-36	IPR016064 Show description in modal box View details on IPR016064 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00046 View details on SM00046 Search for proteins/transripts with this domain View external data on SM00046	33	176	144	3.0E-21	IPR001206 Show description in modal box View details on IPR001206 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00781 View details on PF00781 Search for proteins/transripts with this domain View external data on PF00781	33	158	126	2.7E-24	IPR001206 Show description in modal box View details on IPR001206 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.200.40 View details on G3DSA:2.60.200.40 Search for proteins/transripts with this domain View external data on G3DSA:2.60.200.40	225	408	184	3.3E-7	–
Pfam	PF00609 View details on PF00609 Search for proteins/transripts with this domain View external data on PF00609	226	400	175	3.6E-38	IPR000756 Show description in modal box View details on IPR000756 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00045 View details on SM00045 Search for proteins/transripts with this domain View external data on SM00045	228	400	173	3.9E-13	IPR000756 Show description in modal box View details on IPR000756 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	434	460	27	-	–

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:0003951 View details of GO:0003951 AmiGO InterPro QuickGO	Molecular function	NAD+ kinase activity	Catalysis of the reaction: ATP + NAD(+) = ADP + 2 H(+) + NADP(+).	Subterm of View details of GO:0016301 View details of GO:0016773
GO:0004143 View details of GO:0004143 AmiGO InterPro QuickGO	Molecular function	Diacylglycerol kinase activity	Catalysis of the reaction: NTP + 1,2-diacylglycerol = NDP + 1,2-diacylglycerol-3-phosphate.	Subterm of View details of GO:0016301 View details of GO:0016773
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0007205 View details of GO:0007205 AmiGO InterPro QuickGO	Biological process	Protein kinase C-activating G protein-coupled receptor signaling pathway	The series of molecular signals generated as a consequence of a G protein-coupled receptor binding to its physiological ligand, where the pathway proceeds with activation of protein kinase C (PKC). PKC is activated by second messengers including diacylglycerol (DAG).	Subterm of View details of GO:0007186
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

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0459600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0459600.1