Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0429600
Transcript ID	LotjaGi4g1v0429600.1
Related isoforms 1	LotjaGi4g1v0429600.2
Lotus japonicus genome version	Gifu v1.2
Description	Mitogen-activated protein kinase; TAIR: AT4G01370.1 MAP kinase 4; Swiss-Prot: sp\|Q39024\|MPK4_ARATH Mitogen-activated protein kinase 4; TrEMBL-Plants: tr\|A0A072U5I3\|A0A072U5I3_MEDTR Mitogen-activated protein kinase; Found in the gene: LotjaGi4g1v0429600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:80375823..80387844) extracted from Lotus japonicus Gifu genome v1.2.

TTTTTCTAGCTATACTTTTGGTGGTTTTAAAACTTGCTATATAGTCATTATATACCAAAGGTAGAGTATTGCATTACCTG TTTGGTATCCTTCCTCTAACCAAGTACCATGGGAAATGCTTTTAGATATTAGCTTAGCTAGATGCAATCTTTAACTGTGA TTCTGGTTCAATTCTTCACCATTTGTTTTGTAATTTTGATTGGAAAGGTGAAGAAGACCTTCTATTCAAGTTGGAACACC AAACATGGCCACAAAAGAATCAAGTTCTGCTGCCTCTGCTTCTGCTGCAGGGGATGCTAAAATTAAGAGGGTTCTCACCC ATGGTGGTAGATATGCACAGTACAATGTGTATGGAAACTTGTTCGAGGTGTCCTCGAAGTATGTGCCTCCCATTCGCCCC ATCGGTAGAGGGGCTTATGGCTTTGTCTGGTAAGTTTTCTGTTTTATCTTCATGGAGTTCTGGTCTTTGCTCTTCATGAA TTTGATGTTAGTTTGTTGGGAATGATTTTTCTTTTTAGTGCTGCTGTGAATTCTGATACACATGAACAAGTTGCCATCAA GAAGATAGGTAACGCGTTTGACAATATCATTGATGCTAAGAGAACACTGAGAGAAATCAAGCTCCTTCGTCACATGGATC ATGAAAATGTAAGGACTCATTTCTTGTTTCCTACAATCTTTCCTTTCTGTCTAAACATGCTATTATCTTTCACAGATCAT TGCCATCAAGGATATCATACGGCCCCCCAAAAAGGAGACCTTCAATGATGTATACATTGTTTATGAATTGATGGACACTG ATCTGCATCATATAATTCATTCTGACCAACCTCTTAGAGAGGAACATTGTCAGGTTCGGTTCAAATGATATTATTGGATC ATAATTGCATGACTTTTAAATTTTTCTGGATGATGTCTGTCTTGAATATGTTTGCTAATATAACTATATATCTATCTTTG GTTGCAAAAAGTATAGATTCAAGTATAACCTTACTACTTTTCTTGGCAGTTTTTGGTCAAAACATAAAAATTAAGGTGCT TTAATATTGGATTAAGATCATAAACTCTGGACTGATCATATGCCGGTTTAACATTCATATTCAGTACAGAACATTTATCA AAGTCAATGGTATTGAGAAAATATTTTATATTTAAGTAATAATTTTTTTTATATATTTGTACTATAGTGAGACAGATAAA TCTGATTTCTTTATTATGACAAGACAAGTTTCTCACAAAATATATTCTACTCAAGAAGTATTTGAGTTTTGATTTGTACT GTTCAATTGAGCTGGAAATTAAGCATGAAATTGATGTTTCATGAAACTTTTGCAGTACTTCTTATACCAGCTGCTACGGG GGCTGAAATATGTGCACTCAGCTAATGTTTTGCACCGTGATCTTAAGCCCAGTAACTTGCTGATGAATGCAAACTGTGAC CTTAAAATTGGAGACTTTGGTTTGGCAAGGACAACATCTGAAACAGATTTCATGACAGAGTATGTTGTCACACGTTGGTA CAGAGCCCCGGAATTGCTTCTTAGTTGTTCTGAGTACACCTCTGCAATTGATGTTTGGTCTGTTGGATGCATATTTGGTG AAATTTTGACCAGAGAACCCATGTTTCCTGGGAAAGACTATGTTCACCAATTAAGGCTTATAACTGAGGTATGGTTTTGG TGCTTTCATTCGAAGTTATGATCTTCTGAAACATGCTAAGTTTCTAATTAGTGTATCGCGTTACCTATATATGGCATTAG TTTATTGGTAGCTTCCCTGTGATATCTTGATTTGGTTATGATGTAATAAGCAACTATCGGTTTTTGCTTGTGTATTTCAG TCCCAATCAGAGTTTGATTGGTCTCATAAGTACAATAATATCATGTTCCATCTTCAATGTTATGTTGTTATAGTCAAAGG AATATGAGGAATGCTATAAGGTGATTTTATGGTTTCATGTAAACTGATGGATAGAAGTTGTAACACCATTTTTACACGCT GTTTTCCTTTTGCATTAAAGTTAATAGGGTCACCTGACGATGCTAGCCTTGGATTTCTCCGAAGCGATAATGCTAGAAGA TACTTTAGACAATTCCAACAATACCGGAAGCAAAAATTCTCAGCTAGATTCCCTAACATGTTGCCTGAGGCATTAGATCT GTTAGAAAAGATGCTTATCTTTGATCCAAACAAACGCATCACAGGTATTCTTGTACAATTTGAGTTTCAGGGCTAGATTT ATAACTTTCTAAAGGAGAATGATAGGACAGAAGGTTGAAGAAGAAGAAGAGATGAAGAGAGAAAGAGAAAGAAACCAGAG AGAAGGAGAGAAAGTTTATTCACTATTCAACATGATTACAATTGATTAGTTAACACCCTTTATACTAACCTCAACCGTCT AACAAACTAACCAACTCAGCTTAACAAACTAACCAACTCAGCTTAACCAACTAACAACCCAGCTAACAGTAAACATCTGT AACATATCCCTCCCCTTAACAATTTCCTTGTCCTCAAGGAATAACCCGAGAATTCTCAGGGACAACAACAGTAGTATCAA ATGTAGGGTACTTCAGTTTGAGGTTATACAGAACCTCCCAAGTAGCTTCTTCCTCCATTTCACCTAGCCACTGAACCAGC ACCTCAGTGACTGCCTTGTGCCTGCGCTGAACCATTCGTCTCTTGAGGATCTTAAAAGGAGCCTTTGGCTGATCCAAATT ACCCCACTCTAAAGGAAGTGGTACATGTGGCATAGCCGGTGAAGGGCATGGCTTCAGCAGAGAAACATGGAATGTAGGAT GGATCTTGGACTCAGGGGGAAGGGCCAGAGTGTAAGCAACCTTGCCAACACGGTGAAGCACCTGATAGGGTCCAAAAAAT CGTGGAGATAGTTTTTCAGAAGCCCTGTGTTGAGTGGAACTCTGCCTATAAGGCTGGAGTTTCAACAAAACCCAATCTCC CACAGAAAATTCCCTATCTGTTCTATGCTTGTCAGCCTGTATTTTCATTCTGGCTTGAGCCCTCATGAGATTGGCATGAA GCTTCTGAATCATTTGCTCCCTAGCTGTAAAGCTCCTGTCCACCGCGTCCACAATAGTGCTCTGAGGACAATAAGGAAGA TGGATTGCTGGTGGCTGACCATACACCACCTCATAGGGAGTAGTCTGGATAGCTGAATGATAAGTGGTGTTATACCACCA CTCAGCTAGTGGCAACCAGGTGACCCATTCCTTAGGTCTTTGCCAAGTCATGGCTCTAAGGTAATGTTCTAAACACCTAT TCAGAACCTCACTCTGACCATCAGATTGTGGGTGATAAGCAGTGGTGAGGCTTTGAGAAATGCCCAGCTGCTGTAAGAAA GCAGTCCAAAATGTACTGGTAAACAGAGGATCCCTATCACTGACAATGTTGGAGGGAGCACCATGAAGCCTATAAACCTC TTTGATGAAAATCTCAGCCAAAGTAGAAGCTGTATAAGGATGAGTGAGGGGAATGAAGTGAGCATACTTGCTCAACCTAT CAATGACAACCCAGATAGCATCCTTTCCATGAGACTTAGGCAATTTGTCAATAAAGTCCATAGCAATGCTCTGCCAAACG CCAGCAGGTATGGGGAGTGGTTGAAGTAAACCTGGACTAGCAACTCTCTCATACTTACACCGAAGACAAGTCTCACACTT TTGGATAAAATCAGCAACATCCTTACTGAGTCCCTTCCAGAAAAATAAGGACTTAATCCTAACAACAGTAGCCCTTATAC CAGAGTGCCCACCCTGATGAGAAGAATGCAGCCATTCCAAAATCAATGTTCTGACTTGAGAATTATTAGGAATCATCAAC CTATGTTTCCTAAACAAGAAACCATCCACTACAGAATAGTGAGCATGCAGTTGAGGTTGGGCTAGGACTTGAGAGATGAG CTGCTGTAGAGCCTCATCAGCTGCATAAGCTTGAGTGAGTAAACCCCATAATTCTGAGGAAACGGAAGAAACTGAGAGCT GGAACAACTCTCCATGTGAAGCTCGAGAGAGAGCATCAGCCACCACATTCTCTTTACCCCTTTTGTACTGAATCACATAA GACAAGCCCATCAACTTAGTGACCCATCTGTATTGAGCTGGTGTGGATAATCTCTGCTCCAACAAAAACTTCAAACTTTG CTGATCAGTAAGAATAGTAAACTGCTGAATAGCCAAATACTGGTGCCATTTAGTAACTGCATGGACCAAAGCCAATAGCT CTCTATCATAAACTGATAAGAGTCTATTTCTGGGAGATAGGACCTTACTAATAAAGGCCACGGGATGCTTGTCCTGTAGA AGAACAGCACCAATTCCAGTACTAGAAGCATCAGTTTCCACTGTAAAAGGCTTCTGCAAATCTGGAATAGCAAGCACAGG AGCTTGGACCAAAGCATTTTTGAGCTGGAGAAAAGCTGCTGATGCTGCAGCTGACCAATGGAAACCATCTTTCCTCAAAA GATCTGTCAATGGGGAAGCCAGAATGCTATACCCTTTGATAAATCTTCTATAGTAGCCTGTAAGCCCTAAAAACCCTCTC AGCTGCTTAATAGTCACAGGTTCTGGCCAATCCTGAATAGCTTTGATCTTTGTGGAATCTGTAGAAACCCCTGAAGCTGA AATAAAATGGCCTAAGTACTCAATCACAGGAGTAAAGAAAGCACATTTGCTCCTTTTGACATAAAAGGAATGCTTCCTAA GGACAGCAAACACCTCTCTTAGATGCTGCAAATGAGCCTCAACTGTAGCACTATACACTAAGATATCATCAAAAAATATG AGCACACTCTTTCTTAGAAATGGAGCAAAGATAGCATTCATAGCTCCTTGGAACGTTGAAGGAGCATTTGTGAGTCCAAA GGGCATAACAACATACTCATATTGCCCTGAATGTGTTTGGAAAGCTGTTTTTTCCACATCCTCAGGCCTCATCCTCAATT GATGATAGCCAGCTCTTAGGTCCAGCTTAGAAAAAATTTTAGCTCCACCCAGTTCATCCAATAAATCTTCCACCAATGGG ATTGGGAACTTTGCCTTCACAGTCATGTCATTAAGTTTTCTGTAATCTACACACATTCTCCAACTTCCATCCTTCTTTTT GACCAAGACAATTGGTGAGGCAAAAGGAGAAGAGCTAGGCTGAATGACCCCTGATTCCAGCAGTTCCTTCACCATTTTGT CAATGACATCTTTCTGTGCAGGGGGATATCTATATGGCCTGAGAGAGACAGGATTTGACCCATCTTTAAGGATGATCTTA TGATCATGAATGCCCCTAAAAGGTGGCAGCTGAGCAGGTTCCTCAAACACATCACTGTAGTCCTGCAAAATTGCTTCTTT ATGAGCCTGCAACTCCTCATTCCCTCCTTCTGAAGATAGTCCAGAATTCCCTGATTCAGTGGCCTTGATGGTGCAGCAAG CCACTTCCTGAAAACAAGGAAGAATCTGTAGTAGGAAGCTAAACTTATCTTCCCCAACCATATGGTGTAGTTTGGCAGCA GTGACCAACTTGTTCTCTTTTTCCTCCATGGCCTGCAATCTGACCATCTCTGTTCCCATAGCAAACTCCATAATCAAGTT GGTAAAATCCCATGATATTTTGCCCCTTTGTCTAAGCCATTGCATACCCAAAATGAGGTCACAACTACTTAGAGGAATAG CAATTGCATTATCAGTAAAAGTGTAACCCTGCATTTTCCATGAAATTCCCTCACACCAACCAGTGCCTTGTATGATTCCC CCATCTGCCACTGTTATTTTTACTGGTTGCAAACACTTAATCTTGCTCAACCCCTCATGGCATAATTTTTGGTTAATAAA ATTGTGTGTACTTCCTGTATCTATCAACACAAAAATTCTCTTCTTGCCTAGCCAACCAGTCAATCTCATCATAGGATATT CTGAATCACCATCCAAAGCATCTAAAGAAATTGAATCACCATGCAAAGCATTAAGAGAGACTTTAGGAACATTTACCTCA GGTCGAGATTCTTGTTCCACCCCCTCCAAAAGCTCTTCTGACTCAAGACCATCTACTGCCATAAAGAAGACCTGAGACTT CTTTCTTTGGGGACAATCATGCCCTGGAGTGTACTTTTCATGGCAAAAGAAGCACAGATTCTGAGTACGATGTTCATCCA TCTCCTTAGGAGTGAGTTTCTTCTGGAATGTGTAATTTGGCTTGCCCAGAATACCTTCCTGGTTGTTTTCCCTAACAGTT TTCCTCTCAATCGCCTTCTTCTCCACTGTTACAGGTGCTACTCCCTTCCTTTCACTCCAATTGCTGTAGGTTTTGGTCAC TGAATTAGATTTCTTATGCAACAATTCCAAACTTCTCTCTTGCAATTTAGCAATTCTCATTGCTTCCAGCAGAGTGCGAG GACCAAACATCTTCACCCCAGTACATAGCTCAGGATTGAGGCCTCCAAGATAACACTGAAGCTTCAACGACTCAGAAAGC TCTGTTCTACATGCAAGATTGTCAAAAGCTTCATGATATTCCTCAAGATTTCCCTGTTGCACCAATCGTTTGAGCTCCTC CATCGGCGACTCAAATTCAACCCCAAATCGTGTTCGCAGCGCCGCCGCAAACTCCGGCCAAGTCACTCTTCCCACCGTAC CTTGCTCCAATCCCTGAAACCACCTGAACGAGCTCTCGTCCATGGCGATACTGGCAACAGCGACACGCTCGCCTTCAGGA GTGCCATCCAACGCAAAAAACCTCTCGCACTTAGCGATCCAAGAATCGACATCGTCCTTGCTGAATTTCGGAAAATCCAA CCTCGTGAGGCGAGTTGGCATCCTGTGATCTCCATCGCCTGGTGTTCTGCTACGTCGTGCAGAAGCCAAGTCGGTGACCT GCAAACCAATTCCACGCATAGCTTCCTGGAAACCATTGAATTGCGTCTCGAACCGAAGTTCCAGTTCACGCATGTGGCGG GCGATGCAAGGATCCATCGCTGCCATGATTCGCTCCTCCGCTTCACGAATCGAACTCTGAAACCTTGTTGCTTCAGCCAT GGCGGTTCCGTGAATCTTAGGGCTCTAGATACCAATGATAGGACAGAAGGTTGAAGAAGAAGAAGAGATGAAGAGAGAAA GAGAAAGAAACCAGAGAGAAGGAGAGAAAGTTTATTCACTATTCAACATGATTACAATTGATTAGTTAACACCCTTTATA CTAACCTCAACCGTCTAACAAACTAACCAACTCAGCTTAACAAACTAACCAACTCAGCTTAACCAACTAACAACCCAGCT AACAGTAAACATCTGTAACAGAGAATCCGGGTATAAGGGTTCCCTTCCGGGTATAAGGGTTCCCTTATACCCAGATTCTC TTTTAGTTTCTTCTCTTTTTGTTTCATATTTATGAAGTATTTTCATTTATTTGCAGTTGAAGAGGCACTTAGTCACCCAT ACCTTTCATCACTTCACAACATCAATAACGAGCCAGTTTGCCCAAGGCCATTCAGTTTTGATTTTGATCAACCAACATGC ACTGAAGAGCAGGTCAAGGAGCTCATCTGGAAGGAATCAGTGAAGTTCAATCCAGATCCTTCGTGTCAGTAATCCTTTCA TGTTTGTATAAATATAACAACATAAAACCTCTTTCCCTTTAAATGTATTGCATGTTCATCATCATTTAGATGATGTGCTA AGGACACAAGTTCGCTTCCTTGTTGTAATCTAATCCTAAACCAATGAGGATATGGAAACACATTTCTCCTGGAAAATGGG TGATCTTTAGAAATCTTGCTGGAATGCTGGACGTTACCATTATACACATTTATACGAATAATGAAAAATATGCTGTATTG TGCTGAAGTTTGATTTAGGAGGGATGGGGTGTAAGGCATTGACAAAGAAATATGATGATGGCAAAGATGTAGGTATGTCA TGGAGTCTCTTTCTTAGTACTTGGAAAATAATCTTAAAATGCGCTTTCTAGTTTCGATGCATGTTTGGAAGCCCTTCTAT AATTGATCTGCCTTCCCTTTTTGTAACATACCCAGGCTCCCTCCTTTCCAATCACTAAGAAAAATAATTCCAATCAAAGC CCTATCTAAGTAAAGCTTCGTCTGTTATTTTTCCATCCCCAGGGGAGTTTGAGAAACTAATCCAAACATGCTATAAACCT GGCACCATTTTTGCCTGACTTCGCATATGGTTTTTGGTGAATATCCTTGTTACATGGCTGAACTTGTTGACTGTGAAAAA GTGATATGTTCGCTAACACTAAAGAGTAGGATTAACTGTGAATCAATGATAAATCTGCATAATGGAAGTATGAAACTATA TATATGTTGAATTGAGAGCAAGGTTAACGCGAAAAATCAACAAGCAGATGGGAAAAGCACATATTTATTGTTGAGTTGGT CCTGTTTCATTAGTATCCAATATTCCAATGTTTTAAATACAAGCAGCATTTGAAGCATAATGTTGTTTGGTTTGTTTCCT AGAAATAAGCCATTCCTTTTACCCTTATCATAAATTCCTTCTGTAAGTACACGTCTGAACCTTGACATCTTCAATGGCCA AATTGTCTTCTGGGAAGGAACATGCTCCAAACTTCTCTTCTGCCTGCCCTGGCAAGAGTTCACATGGCTCAGGAGTCACT CCACTGGAAATCCCGGAAACATCAGTGCAAGTCCAAGGCACTTTTTTAGCCTTCTTGGCCAGTTCAATGGTTACATTGGA TATGCAAATTCCAGTAAAAGGGGCACCGGATATACCCTCCAACCTTGCTGCCATGGTCACATTCTCAGCAACCATGTCAC GGTAGTTAATGTTCTCAATCACAGGAATTGCGTTAGGATCATAGTTGTTGTCAGCATGAGATCCATAATCCCCTGTCATC CAAAATACCCATTTCATGGTTTTCATAGTCATCCTTCTAACATATATGTCCCTGACATAGCCTCCTCTTCCAACAGCAGT TTTGATCCTGACCCCTGATTCTGAATTAATGGCTAGAATGTCCTCAGCTCTTACATCCTCAATCCCACCAGACATTTCAC TCCCTAAAGCAATCACAGCACTGGTTGGAGAAATGCAAGTGAGTCTTCTGATTACAAGGTGCTTTGTTGGCATTCCATAA GATATACCATACTCATCCCAACCACTCTTCACAGCCACACAGTCATCCCCAGACACAATATAACAGTCTTCAATCCGTGT GTTTGTGCAAGAGTCTGCATCAGAACCATAAATGTTAGTCAGTTGGGGCATGATGTCTAGACAATTCATTGTATTATCTT AGAACCCTGCTCACACACTCATAGAAGTTTCTCCACAGAATTGATCATGCTTTCAGAGTCAATTGTAGTAGAGTTTCTAC ACTGAGTGCGTGTCTGGATCAGCATTGTTGTCATAATTGATTTTTGATAGAAGTGACTAGTAAAATTGACTGTGATAAAA CAAAGTTAAAAGTGAAGTGATTAATGTTTGGTTTTATTTAGGAGAAAATTGGTTTTTGTAGGCACTGTTGTGAAATCCCA CAAATGTTTATGTCTAAAGGCAGAAGCTAGATTTTGTAGTTTCATCCCAGAATTGATTTTGAAGCTAGAATATGAAATAA AACAACAAAAATCCTAAAAATTTATTGTAAGAGTGGAGAATCAATTATGATGTTTACAAATAGCACCAAACACCCTATGA GATGTTCACTAACTTACCAGGGTTGATGCCGTCTGTATTTGGGGATGTCACAGGAGCAAGAATTGTGATGCCTTGAACAA TAACGTTGCTGCATTCAACTTCTTAATATTAAAATTTAAAAGACATGAAACAGTTTGATAAATTTTCCCTGTCAACTTCT TAATATTAAAATTTAAAAGACATGAAACAGTTTGATAAATTTTCCCTGCAGGCTTGATGACTAAAGGAAATGTGATGCAT TTCATCAAGGTAGTTTGAAGAGCAAATGACTAAAGATTGAAAATAGACATGGCAGAGAAAAAAAATATAAACCTGCAATA AACAGGATGGATATTCCATGATGGAGAATTAACCAAAGTGAGATTGGATATCTGAACATTATCTGAATACATAATTTCAA TCAGGTAAGGCCGGGTATATTGTAGCTGCTTATTGTGGAATTTTTTCCACCACAGATCACCTTGTCCATCTAATGTGCCA TTGTCCCCTGGAAACAAATTTATATTCAAGGCTTATATTCAATAATGGAAACTGGAAAGAAGCAAATTTTTAGTCGGAAT AGATATCTAGAGTCTGTTTGGATACTAAAGAGTACTTAATAGAGTTTATCTAGTGTATTTGTTAGTATAGTTTCTTTAAT AAGTGTTTTTTTGTCAGTATCCAAACGGGCTCATAAGCTCAAAAGCACTAGTTCATTACCAGTTATGATCACATCTGTGA GGTGGGTTCCAAAAATAAGACTGCTAAACCTTCCACCTTGGGTATCCCTCCCTCTACCATAAGATGGAAGAGGATCAATC ACTGGCCACTCATTTTCATCCTAATACAAGAGTTGCAATACAAATACAATATCAGCACAAACTACATCTAGTGAATAACA AGTTAACAACATTTGCATATTGATCAAAAAGAGCTTATAGCATGTTTTGAAGTCATTCTACAATTAATTCTGAAGCCAAA ATCAATTTTTGCGAGAAGTTTCTGTAAGTAGCTTTTGGGTGTTGGAATTGATTTTGAAGTCAAAATCAATTTTGGTGAGA AGCTTTTGTAAGTAGCTTCTGGATGACAAAATTGATCCTTAAGCCAGAATCTATTCTATGGAGAAGCTTCTGGCTGCCAA AATTGATTTTGAAAAAAAAAAAACTGATCCAAACATGTTATTAAGCTATTAAACCTGAGAGCCAAGAATCACAGCATCCT TGTGAATGAATAAAGTGAAGTGGCTGGTGAGATTGAAGCTTCCAGTCAACCATCTTCCTGGAGGAACATAAAGCTGAGAC CCTCCATTAGATGAGTACTGGCTCAAATGTTCTATGGCTTTCCGAAAGGCTTGTGTGTTCAAAGTTGTTCCATCACCAAC CCCTCCAAAATCTGTCACTGAGGCACTGTAAGCTCTGCAGTTCACAGCACAGTACTCGAAATTTTCCAGAACTGGAGTTC TTACACTCTCCACCACATGCAGGCTTGGCAGAACAACCATCATAAATACTAATAGTAATAGAACATCCATGACCTATAAA ATTCCACAAGCCAAATGATTTTGGGGTTTCCCAGTAAGAAACATGAATAAAACAAGGTATTCAACCTCTCTACTTCTAAA TGCTGGAAAAGAAAGATGAGAGTAAAACAAAGTTGTTCTTGTACCTGAGTATTTTTTGGGAGAGAAGTGAAGAGTAGTTG AGCTATTGGTATATGTTTACATAAAAAGACATTGTAGACTTATATGTGTGTGTGTTTATATATATGAGTATTGAGCATTA GTTTTCGGCTTTTCGCTTTCACCTCACCCAACCACAAGTCATGTTTCTTTATGTAATATGATAACAGAAACGTGAGATGT AACTTGCAGTTTCAAACTTAGTCCATAGAGTTATTTTGGATTTAATTCGATAGTGAGTTTTAAGAAGAGATAAAGATTAA ACAGAATTGATGTTTCCAATTTTTACATTTTAGGTGGGATTTGTCAAATTGGTAAATTCTATGCTCAAATAGTAATAAAA AATGCATCTTAGATTAGATTTGAGACTTACTGTTACAATTACATAAATATCTGCCTAGTTCAAAAGTTAAGTGCTGAAAT ATCTGCATAATTTGAGTATTTTAGTGCATTGCTATTTGCTCTATGCAAGGCCTTTTACTATTTTCAGTTTCACCTCCTTT TGCTTTCAATTTGCAAGCCATTTTATTTCACCTTATGGTATGGTTCTTCTTCCCTAGCTAGTAGCTAGTCACACACTTAG TGCAGGAACAAAGTATAGCACGCACGTTCATTTGAAGTTTTAAGTGGTACACTATCGCTTCTGCTTTAAGCTTTAGCAGA GAGTGGCATGGGCAATCGGTGC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0429600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCACAAAAGAATCAAGTTCTGCTGCCTCTGCTTCTGCTGCAGGGGATGCTAAAATTAAGAGGGTTCTCACCCATGG TGGTAGATATGCACAGTACAATGTGTATGGAAACTTGTTCGAGGTGTCCTCGAAGTATGTGCCTCCCATTCGCCCCATCG GTAGAGGGGCTTATGGCTTTGTCTGTGCTGCTGTGAATTCTGATACACATGAACAAGTTGCCATCAAGAAGATAGGTAAC GCGTTTGACAATATCATTGATGCTAAGAGAACACTGAGAGAAATCAAGCTCCTTCGTCACATGGATCATGAAAATATCAT TGCCATCAAGGATATCATACGGCCCCCCAAAAAGGAGACCTTCAATGATGTATACATTGTTTATGAATTGATGGACACTG ATCTGCATCATATAATTCATTCTGACCAACCTCTTAGAGAGGAACATTGTCAGTACTTCTTATACCAGCTGCTACGGGGG CTGAAATATGTGCACTCAGCTAATGTTTTGCACCGTGATCTTAAGCCCAGTAACTTGCTGATGAATGCAAACTGTGACCT TAAAATTGGAGACTTTGGTTTGGCAAGGACAACATCTGAAACAGATTTCATGACAGAGTATGTTGTCACACGTTGGTACA GAGCCCCGGAATTGCTTCTTAGTTGTTCTGAGTACACCTCTGCAATTGATGTTTGGTCTGTTGGATGCATATTTGGTGAA ATTTTGACCAGAGAACCCATGTTTCCTGGGAAAGACTATGTTCACCAATTAAGGCTTATAACTGAGTTAATAGGGTCACC TGACGATGCTAGCCTTGGATTTCTCCGAAGCGATAATGCTAGAAGATACTTTAGACAATTCCAACAATACCGGAAGCAAA AATTCTCAGCTAGATTCCCTAACATGTTGCCTGAGGCATTAGATCTGTTAGAAAAGATGCTTATCTTTGATCCAAACAAA CGCATCACAGTTGAAGAGGCACTTAGTCACCCATACCTTTCATCACTTCACAACATCAATAACGAGCCAGTTTGCCCAAG GCCATTCAGTTTTGATTTTGATCAACCAACATGCACTGAAGAGCAGGTCAAGGAGCTCATCTGGAAGGAATCAGTGAAGT TCAATCCAGATCCTTCGTGTCAGTAA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0429600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MATKESSSAASASAAGDAKIKRVLTHGGRYAQYNVYGNLFEVSSKYVPPIRPIGRGAYGFVCAAVNSDTHEQVAIKKIGN AFDNIIDAKRTLREIKLLRHMDHENIIAIKDIIRPPKKETFNDVYIVYELMDTDLHHIIHSDQPLREEHCQYFLYQLLRG LKYVHSANVLHRDLKPSNLLMNANCDLKIGDFGLARTTSETDFMTEYVVTRWYRAPELLLSCSEYTSAIDVWSVGCIFGE ILTREPMFPGKDYVHQLRLITELIGSPDDASLGFLRSDNARRYFRQFQQYRKQKFSARFPNMLPEALDLLEKMLIFDPNK RITVEEALSHPYLSSLHNINNEPVCPRPFSFDFDQPTCTEEQVKELIWKESVKFNPDPSCQ

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	PTHR24055 View details on PTHR24055 Search for proteins/transripts with this domain View external data on PTHR24055	24	381	358	2.6E-219	–
PANTHER	PTHR24055:SF383 View details on PTHR24055:SF383 Search for proteins/transripts with this domain View external data on PTHR24055:SF383	24	381	358	2.6E-219	–
Gene3D	G3DSA:3.30.200.20 View details on G3DSA:3.30.200.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.200.20	28	377	350	1.6E-180	–
CDD	cd07858 View details on cd07858 Search for proteins/transripts with this domain View external data on cd07858	40	376	337	0.0	–
ProSiteProfiles	PS50011 View details on PS50011 Search for proteins/transripts with this domain View external data on PS50011	47	333	287	45.516	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00220 View details on SM00220 Search for proteins/transripts with this domain View external data on SM00220	47	333	287	2.7E-95	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56112 View details on SSF56112 Search for proteins/transripts with this domain View external data on SSF56112	50	340	291	1.03E-96	IPR011009 Show description in modal box View details on IPR011009 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00069 View details on PF00069 Search for proteins/transripts with this domain View external data on PF00069	51	333	283	7.4E-71	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00107 View details on PS00107 Search for proteins/transripts with this domain View external data on PS00107	53	77	25	-	IPR017441 Show description in modal box View details on IPR017441 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS01351 View details on PS01351 Search for proteins/transripts with this domain View external data on PS01351	82	185	104	-	IPR003527 Show description in modal box View details on IPR003527 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.510.10 View details on G3DSA:1.10.510.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.510.10	131	360	230	1.6E-180	–
ProSitePatterns	PS00108 View details on PS00108 Search for proteins/transripts with this domain View external data on PS00108	169	181	13	-	IPR008271 Show description in modal box View details on IPR008271 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:0004672 View details of GO:0004672 AmiGO InterPro QuickGO	Molecular function	Protein kinase activity	Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP.	Subterm of View details of GO:0016301 View details of GO:0016773 View details of GO:0140096
GO:0004707 View details of GO:0004707 AmiGO InterPro QuickGO	Molecular function	MAP kinase activity	Catalysis of the reaction: protein + ATP = protein phosphate + ADP. This reaction is the phosphorylation of proteins. Mitogen-activated protein kinase; a family of protein kinases that perform a crucial step in relaying signals from the plasma membrane to the nucleus. They are activated by a wide range of proliferation- or differentiation-inducing signals; activation is strong with agonists such as polypeptide growth factors and tumor-promoting phorbol esters, but weak (in most cell backgrounds) by stress stimuli.	Subterm of View details of GO:0004674
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:0006468 View details of GO:0006468 AmiGO InterPro QuickGO	Biological process	Protein phosphorylation	The process of introducing a phosphate group on to a protein.	Subterm of View details of GO:0006464 View details of GO:0016310

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0429600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0429600.1