Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0601000
Transcript ID	LotjaGi1g1v0601000.1
Lotus japonicus genome version	Gifu v1.2
Description	basic helix-loop-helix (bHLH) DNA-binding superfamily protein; TAIR: AT4G00050.1 basic helix-loop-helix (bHLH) DNA-binding superfamily protein; Swiss-Prot: sp\|Q8GZ38\|UNE10_ARATH Transcription factor UNE10; TrEMBL-Plants: tr\|A0A1J7GWP9\|A0A1J7GWP9_LUPAN Uncharacterized protein; Found in the gene: LotjaGi1g1v0601000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:114586705..114598763) extracted from Lotus japonicus Gifu genome v1.2.

GTTAGTAATTTGTAATTTACTACTTTTTAAGCCATGGATATTTGTATTGACATGACAGGACACTCATCTTGGTGGAGCAG GAATTGATATTGAGAGAAAGCCTTGAGTCAAAATCTTTACCAAGCAAACAGCCACCAACTGGTTCCAAGAAATCTGGTTC AAGGGGTGAGGTAGGTTTCAAAAACTTGGCTATGAATCTAGATATAATTTAGCACCGTCTTGAAATTGTGTAGTTAGAAC TAGGCTTAATAGCACTTTTGGTCCCTCACGTTAGCTATATGTGCGAAAACCGTCCCCTAAGTAAGAAAATAGCAAAAAAC GTCCTCACTTTGTCAAACGGCAGCACTTTTGGTCCCTCCTCACTATTCCGTCAAAATACTAACGTTTTCTGTCAAATATT AAACGGTTTTCTCAGAAAAATTAATAAAAAATGAAAACCCAGAAAATTTATGATGCTCTTCATCATAGTCAGTATGTTCT TCATCTTCTTCAGTTATTTTTCAGAAAAATAACAAACCCATCATCAACAACAGGCCACCAAAACAGTCCCCCTCAATCTT TCCCCTCCATCATAAGAAAAAAATCATGTTGTTGCTCAATTCAGGACTGAGAACAGGGAGAATTTAGGAGGTGCTTTAAA TCAACCACTCACAATTTCTCAGGTGGCTGCCATCGCTGCACAAGATCAAGATGAACAACATGAACAATGACACTGACAGT TACGGCGTCACCACCGGCTTCGGTGCCACCTCCCATCTCAGAACGGAAAATGGCAATACTTTTGAAACCCTTTTCATCTG AGCAGCGGGCTCGTTGACGGCAGAGGCGCGATGAAGATGTTGGTTTCAGATTTGATGCAAACCGAGTTAATTGCACGATA AAGAGGGAACTGAAATGTAGATGCTAACCGAGTTGATTTTTGAATGAAACTGCAGAAATTTCATATCTGACTCTCACCCA CACGACAAACAAAATCCCTAATTTTCCGATGCCTGAATCGGTGAAATTTCAGATCTGGCTCTCTCCTCGACTTGCTTCTT TCTCGATCTCATCCTCCCTGTTCTCGATTTCTTTTTCTCCCTGATCTGAATTTGTGTTGTTGACGGTGGGGGAGAGACGA GGCAGCGGCAGAGCTTTGGCTTTCTTCTGGGAAGGTGGGTGTGGAAGAAGAAGGTTGGAAGTGTTGGTGTGATGTTCTGA GGAAAGAAAGCAGAGAGCTTTTATGGGGTTTTTTTTAGTGTTAAGAGTGAGGAAAGAAGCATAGAGTTTTTCTGGTGTTT TTAGATGAAGAAGATGAATATTCATACTTTATGTATTTACATTTTTATTTTATTTTTTATTAATTTTTTTTTTGCTAGAA ACTGTTAAGATTTGGATGAAAGTCAACGGAATAGTGATGAGGGACCGAAAGTGCTGTCGTTTGACAAAGTGAGGGATTAT TTTTGCTATTTTCTTACTTAGGGGATGATTTTCGCACATATGACAAACGTGAAGGACCAAAAGTGCTATTAAGCCTTAGA ACTATTACCAAATACCACTTATTGTAATAGCACCTTCTTCTCTCTGCAATATTTGTATTATTTCATACTATGAGTATTTA TATTTGATTTTATATTTAAATAATTGGGCATTAAAGAGGTGAAGAATATTTGTATGTAGATACAAATTATCAGGTTATAA TACCCAATCAGCATGAAAAGATAGTTTGGTTGATAACCTCTAATTGAAGAGGACTAGTTAAGAGGGTTAGAAACCTCTAT AAAAAGATATTTAGTATATAGGCTTAATCTAGTTTTTGGTCCCCATCATTTGTCATAAATATGGCTTTAGTCCCTCACCG GAGCAAAGGTGGAGCTAGGTCCCCAGTTTTTAGCAAAATAGTTGGCTTGGGTCCTTCCGGCCGGTTGGGTCAACGCCGGA GCTCCGCCGGCTGACGTGGCCGGTGCCACGTCAATTAATGAGCCCAGCTGGATTTTTTTTCTTTTTTTCATTAAATTTAA ATAAAATTAAAACTTACTAATTAACTTATTAAATAATTTTTTTTTAATCATCTCCTTTGTTCTTCCTCTTCATGTTCATC ATCATCTTCTTCTTGTTCTTCTGCCCATAAATTAAAAACATTTAACCCAAAATCACAAAATCCTTTCCCCATCATCAATC AAACCCAACTCAGAAAGAATCCTAAACTCAAGAAAAATTCTCAAACCCACAAAATATCCATTTGCAGAAGAACTTGTTGC AGTGCAAGGCGTGCAACTAGGTCTCATCAAAACATATATCGCATTTCCTGCAACCAGACCTTTTCACCATTGCTTCAGCA AGCAAACAAAATTCAAAAATGGTAATGAAAGTAAAAAAGTATAGAAATCCGTATAGCAAAATAAGGCAAGAAACAGTGAA TTTGTACAACAACATTGCTGTGGTTAAATTAAAAAAGGCCACAAGACAAGGAAATCTCAGTGTAAGAGACAAAAAGAAGA AAAGAAGAAATCGATTGTTCAGTGAGCAGGCCAGAAAATTGAAATACCCAGAAGACAAGACCATTTCCTTGTAGGCAGAA TAACACTACCTTTCCCCAGCCAAATCTCAAACCCGTTTTCGTTCTTGCTACAACCACTCTCTAATCTCCATCTTTTTCCC TCTCTCGTTGTATTCATCTCCCCAGCCAAATCCACGGCACCCAATGAAACCTCCAATCAACTTAGCTCCTTTTCCACACC ACAAACGAAACCAACCAACACCCATCTCGTCTTTCCCTCCATTTCACAAAGAACAAGTGATTTCTGCCATAAAATCCAAC TGAAAAATTGCTTCATGTTAACCCACAAATGAAATTGGACCCAGAAACAATCAACTCAAAGAACACACCTTTTGTTCAAG GCTTTCGTTGAACCACCACCAGATCCGAAACCTCGGAGACCAACAAATCCAAATCTAGATTTGGAATTGATCGGCTCAGT CCCTTTCCATTTCCCTCACTCGAGTTTGCAAAAACCCAGATTTCACTGAGATGAGAGGGTGGGTTGACGAGAGGGAGGGA GAGGGGTTGGGGTTCATGAGTTTGGGGTGGGGGTGGGTTGATGATTACTGGGTTTTGTGGGAAAGATTATCAAAATGATA ATGAATTTTCTTTGGAGAAGATGAACATTCATTGGGTTTTCTGGAATTGGAAGATGAGCATCATGAATTAAAAAAAGAAA AACTCAATTGGAATAAGTCCCTGCCACTTTTGATTAGTTAATTAGTAAGTTTTAATTTTATTTAAATTTAATGAAAAAAA GAAAAAAAAATCCAACTGGGCTCATTAATTGACGTGGCCGGTGCCACGTCAGCTGGCGGAGCTCCGGCGTTGACCCAACC GGCCGGAAGGACCCAAGCCAACTATTTTGCCAAAAACTGGGGACCTAGCCCCACCTTTGCTCCGGCGAGGGACTAAAGCC ATATTTATGACAAAGGATGGGGACCAAAAACTGGATTAAGCCTAGTATATACACTCCTACAGTTAATGGAGGTTAATAAT CCCCACAAAATAAACCCCTGCAAGGGAGGTGTAAAACCCCTAAATAAACTCCCACAGCTAAGGGAGGTTGAAAACTCCGA CTAAAAAACCCCCCTCTAAAAAAATCTCCACTAAATAATGCATGTTCAAGGGGTTGCTGAAAAACGCTGGAAATGCCGGA AATTCCTTGTGGCGGCATAACTTCAGTGGTCTTCAAAACTGTCGAGAAACGATTTACGAAGGTTGAAAGCCCCCTCTAAA AATGGAAAAAACCACCGGTAAATGTGTTTTTTTTGTAGTGCAACAACCGTAGCTAACTTGACCACACATCAACACAATTA GAGAAGACTAACATGGCAACAAACTACTCATCTAAGTAACAAACTAGCTAATCAATCGATACTTCTAGTAGCCCCCGGAA GCTGGAAGCGGTAAGCACTAGCACCACCAGCTTCAGAATAGAACTATCCAAAAAACATCCATTTATGAACATCAACAGAA ATCTTGAACAGAAATGAGCTTGAATTGCATATTCCCTGAAATCTGTTATGTCTTCCAATCAAAGCTATAAACTATATCAC CAAGATTCTCTAGGCAATCCCATGTAGAAGAAGCTTTGACAAATAGAACACCGCAAACAGAGTATGTGGTAAAGCTGTTG TGCCAAAATTCTGTCAAGGAAAAATTGCTTCCATTTACTTTCTCGAAGCATCTGTTCAAACACCTTTAAAGAAACTCCAA GATCCACTCGGATCAAACAAAATTATCCAATCTTGCAACCAAATAACAAACAAGGATTCCATGCAAATGACTAACAAAGA CTCCACGAACCACTACCTTTCTTTGTAATTGTTATCAACAAATTCATGGAAAAACCCTACAACATCTGAAGCTCTATTAG CCAAACCAATTAAAACACCTTGTTTCTTTTTCTGCTTTTCAAAAACTTGCTTTCTGGTTTCATTTGAAACTTCCTTACCA TCGAGTATGAATGCGGAAGAAAAGATCGTTGCGTCAAGAAAACTTACCCTAACACAGGGTACTTCTACGAGATATACCGG GAAAAAGTTGTTTGTCAATAGTATGAAAATTTCCACGATGGGAGTGAGAAGTTGTTGGAACTAGACTTGTTGTGAAGCAA TCTATTCCAAACATCTCCCGATATTGAACGGTGGTGAGCAGAAAATAAACTCTCACCTCATGTAAAATTTCTTCGTCAAA GGAAGAGATGGCTCGTTTCCATCATCATGTTGTGCTTTCTTGCAAAGATGATTGACGATAATCTTTGCATGGAGAAATCT CTTATCACCGATATAACAAGATCCATTTTGAATTATATTTAAGGGATTATTTGGTTGTTTTCTCTGATGGTCCTTGCTTT GCATCGTCTTTACGAGAGCAAACAATGCTAGAATAAGGTCTTTCTTGTCTCAAACCCGAATGACGTGTTGCTGCTCAAAG GAAACCTGAGAATCGAATTTTGAAGCATTCTCACTCCAAATGAAATTGCTGACAATGAAAGGATCTTTTGTTGATTTCCA TGCCGGATATTCAGCTTCTGTATTGGCAAAGAAAGACAGTGAAAAATCACCGAAAATTCTTATACTTTGAGTTATCTATG GTGGAAACAAAGGAAGGTGAATTCATGTAGACGTTGACTCCAAGGCTGGTGATGAATTCCAAGAAACTGATGCCATTGCA GCGCTTGAAACCTTGACGGCGAGTTTGTCGAAGGTGGCTGTCATAGCGAGACAGAAGTAGTGATGAGCTCCATTTTTGGA GCTCTCATACCATATTAGGATAATAGAATAGAAGATCCCAAGACCAGCAATAATTCACAGAAAAAGAATAACCAGCAGTC ATTTGTAGACCTAGACCAGCAATCACTCATGATGGAAAAGATTGAAAATTTCTAATGAAGAAGAATTCATTGAAGAGAAC TATGAAAGATTACTACAGAATGATACAATCTGATCACTATTTATGCAATGAATCATACGAGTGTTAACTCTATGATAGTT AACCAAGTCTACTACTTAGTTATACATTAACCATAACTAACATCACCACACATCAACATAGTAATACAAACCTAATTAAC ATCACAACAAACTAATCATCTAAGTAACTAGCTAATCAATCAATACTTCTAATAAATAGGAAGAGAAGGTTAGTGGAAAT GTGATTATAAGAAAAAGTGAGAATCTATCAAAATTTTGAAACTGATAATATTTGTATTTATTCTTAATTTTTTGTCGAGT AATGTAGTATAGTACACCTTCAAATATGTTCTGAAAACTCTTTATATGGTATGATACACAGCATTGTTCCAATGTACGTG TAAGGGTATAATGGTACACTACAAGGAACAAATCTAAGTGGTTGAAACGACAAAACAGATCTGACTCCACACAAAAATTT GTCCACCTTCTCACTCATCCAATACATATATGGACTAGATTCTCTCCTTTTCAGTAGTGAAATTAACTCCACAAGCTACT TCCCCTTGTTTCCATCATATAGGGGGGTCACCCGCAACAACTTGAACAAATCATGCATATCATCTAACAATCAATATCCA CTTCTCTTTCTCCACAATAATCCGTGTTCCTCTCCAACATTATGTGTGAAGAAAAAGCATAACACTATCACAAAAAAAAA TGAGCCAGTGTGTTCCCAGCTGGGATATCGATGACAACCCACCACCCCCAAGAGCCTCTCTTCGTTCCAACTCCAATTCA ACTGCCCCTGATGTCTCCATGTAAGTTTTCTTTCTTTCTATTCCTTGCTTTCTCTTTTCATTTATCTTCCTTTTTTATCA TATATTATCTGTCATATCTCGAACATTTCTCTCTTCCATTCCTGTCTCTCATATTAATGTCTTGTTCGTGTGACTTGATG AATTCAGGTTAGACTATGATGTTGCAGAGCTTACATGGGAAAACGGACAACCTTCCATGCATGGCTTAGGGCTGCCGCGA GTGCCGGTGAAATCATCCACTACCACCACCAATACCGCTCCTCACAAGGAGGCATGGGAAAAGCCTCGTGGTAGTGGCAC CTTGGAGTCTATAGTGAACCAAGCCACTACCTTACCCCAGTGGGGTAAGTCATCTTTTGTTGGCGGTGACAATATTGGTG GCGTTTATGGGAACGTGCTAGTCCCATGGCTTAACCCACACCGCGCTGCGGCCATCGCAGCTGCCAGCGCCTCCAACACC ATGACCATGGATGCGCTCGTGCCCTGCACGAATCGTTCTGAGGAGAAGAGCACCCAGGTCATTGATTCTGCTGCAACCGG AGGGCTTGGAACGAGCATGATGGGTGGTTCCACACGTGTGGGGTCATGCAGTGGTGTGGCTGCCACGGCTGCACGGGAGG ATGGCGCGTTCCTGGCGGAGGTTGCAAAGCGTGGCAAGGTGGCGACAACACGCGTGCCGGCAAACAGCCGTGACCAGAGT GTGAGTGGCAGCGCCACCTTTGGGATGAACAGCCAGCACGTGACACTAGACACATGCGACATGGAGTTTGGTTTGGGTTT TACTTCCACCTCCATAGGGTCTTTGGAAAACACAAAGACCACCACAGTTGATGACCACGATTCTGTTTGCCATAGTAAAC CAACGGTAATACTTTATTTTATGTTGAAATATTTGCTAATATTTTTCACAATAGATTAACTTTTTTAAGAGATTCTTCCT ATAATGGTCAATGGACTTTATGCATACATTATTTGGTCCACCACATTATTTTCCTTTGTTATGAACTTCTACTTTTCATA TTGACCTTCATATCAATCTTTTCATGCTAATTAATAATTGCTATCTTTGAGAGAGAAGGGGGGGGGGGGGGGGCATATGT GAGTTATAACCTACTTTAATAAGTGCACTTAGACTCTACTATTTGATCTTACTTTTATGATTAGACACTCTTCATATACT ATAATTGTAAAGTTAAGATTACTTTCACTCACCTATTTTGCAAGTATATGCTAGAACCCTTGAATTATTATATATTTGAA ATTAATATATTTCTTTTATTTTTGATTTCTTCCAAACACACACACATATATATTTATATTGAATGTTATTCTTAATATTT TATCTTTTATGTTAGTTTTATTATTTGTAACTATCTCTTATGCAATTTTGGAAGAGAGGGGACGGGGCGGAGGAGAGAAA GAGAGAAAACAGAAAATCTTCAGTGTGCACCAAAAGGAGCAGAGCTGCAGCTATACACAACCAATCTGAAAGGGTGAGCA CCGAATCAACTTTAATTTAATGTACGTGTCTGAGCGTGTAAAATAGCAAAATCAAGAATTTGTTTTTCATTGGTTCATTT TGTATAATTGGCTTTTCAGAAAAGGAGGGATAAGATAAACCAAAGAATGAAGACACTGCAAAAGTTGGTCCCAAATTCCA GCAAGGTACGTATATAGAATATAATTGAAACTAGTGGATATTTTTCTAAGCTGCCAATTATGGGTGCTCACTAGGGTGGA CTATTAGTATTTTGGTCCACCGGTGCACTCGGGGCATTTCAGACTTTTTACTGTGGGTATTTTAGACTTTTCCCTTCTTC TCTTTCTCCCTCCCACCCTCCCCTCCACTCACTTCGGTCATCTCCAACAACACCCACAAACACCATCAGCACCACCGTGA AGAAAACGTTAAAAATCACCTTTGATTTCTCCTTTTGTTTTTTTTTTCTTTTCAATTTTGATGGAAGGGGAGAGTTCCCC CTCACCAAAGCATGACATTGCAGAGGAGTGGATGGAAGGGGAGAGTGGTAGATCTGGTCTGAAACACCATCAGGCACTCT GGTCCGGCTCTCAATTTCTCCTACTGTTTCAGTCTCAATACACACCTTAGTGAGTTTCAGTCTCAATACACGTCTGGTTC CCTTCCCTTTTGAAGCTTTGACTCAAAACTCTGACCCAGATCGCTCTCAATCTCTCTTGGTGAACCAGATCCGTTTCTTT TATGTTTTATGGGTTTCAGAAAGCTTTAATATTTTTCCTGGGTTTGGATGTATTTGAGAGGCTTGATCAAGGGTATTTGG GATTTGAAGGGTTGAATGAGGTTGAGATTTTTTTTGCATTTGGTGGGATTTTATTTCTTTTTTAATTTCAACTTCCAGCT GCACGTCGAGTTCTGTACTGGGTGGGGAAAGCTAGGCATGAATAGCAATTGGGTTTTTCTTTTGAGCTCGTTAGTTTGCT TTGTAAATTCTCCCATGTGTTTGCAACCAGTGTTCTGCATTGGTTTTCTTTTTTGTCTTTACCCAAAAATAATGGAAGTG GTGGTTCATGGAATTGATGGAAGTAGTAGCTCATGGAAGGTGTCACCGTGATTCACTTCTCCGGCAAGGAGGGGAAGGGT GGGGAAGAAGTGTCTGAGTCATTTACAGTTTTACCCTTTTTACATTCATCAAATTCTCATCATTCAATTAAAGAATATTC TAAGATGCTGAGATCTAATGGTGATAAATGATGGTGCACCGTTGGACCAAAATATTAATGGTCCACCCTAGTGGGCACCC CAATTATGATATTGTAATTGTGGTATCTGACTCAATTCCTTAGTATCTAATGGTCCCAAATTATATCAGTTTAGTGAGAG AAACAGTTGTATATACTTCACTGATGTAACATTGATTTTGCTCATTCACTTAACTAGACTTCAAGTAGAGGTCCCATGAG GATTCGGCACTATGAAATTCATATTCTTTTAGGGTCTTCCCTTTAAGCAAATAATGTAGGATTTTATTAATTAAATTTGG TATTGTTTAACTCCTTAAATTTATTTTAGATGGACTAATAATATTAATTATTAATTTCAAATAAAAAGTGACTAGATATA TGACAAGATAGCCCTTATATATATATGAAGACAATCCTCACCTACAAGCTAACTTTTGGGGTAGAGTTAGATCTCTCAAA TTCTAATATGGTATTAGATCGTTTATTGGATTGGATGTACTTAACACCGTAACACAGCTTATTCTCATGCTATATAATTG ATATAAAAACATTTTAATATTTAATTATCTGCATGATATTAAAATTTGTTTAGCTAGCTACTCTGGCTGATGGGATATAT GTGGACATGAACATTTTTCATTCAACGTATACAGCTATGGTAATCTGGGGATAGTGTTTGTAGCCTTCTAAGTCCACACA TACTCCAATTACTTATAGCAGTGACACTTCGACACAAGGTTGTTTGGTGAGGAGACACTGAACTGCCACCACAGAAGCCC TTTTTCTAGTGTAGGGCCTGATGATCATTGATGCCAAAAACATACAGACAATTTACATTAATTTTGACAAAACACCCAAA ACAGGGATGAAAAGAAAGAAGTTAGAAAAAGAACCCAAAATCTCCGGATAAGAAAGAAGTAAGAAAAAGAACCCAAAATC TCCGGATAGATGGAAGAAAAAAAAACATTTCAACCCTACAATCAAACATTTTGCTGCAGAAAAGTAGATTTTTCATCCAA GAATGATTTAATTATTAGACATTTTATTATGATGTTTATATGTTTATAATTCAATTTCATATATATTGCACGTATATTTG TGGTTATAGATATTATATGGTTATCACATATGAACTTTATTATTAATTTTTTCTAATAGGCTGATAAAGCTTCAATGTTG GATGAGGTGATAGAATATCTGAAGCAATTGCAAGCACAAGTGCAGATGATAAACAGATTCAACATGTCATCCATGATGCT CCCGATGACCATGCAACAACAACTTCAAATGTCGATGATGGGGCCAATGGGCATGGGGATGGGAATGGGTATGGGGATGG GAATGGGAATGGGGATGGATATGAACACCATGAATCGGGCTAACATGCCCGGCATGCCTCCAGTCCTCCACCCTTCTGCC TTCATGCCCATGGCCTCATGGGATGCTGCGACAGCCGCAACCGGCGGTGACCGGCTTCAAGGACCTCCAGCCACCATGAT GCCTGACCCTATGTCCACATTTTTCGGATGCCAATCACAGGTGAGCAAATAGTATTATATTATGCATCTTTCATTCTTTG TTGTGTTTCAATTATGTTGTAAGCTATTTACATAAACTCTCACGAACACTAGAATTAACGCCAATCTTATAAGATAACCT TTAAGACGATTTTATGTTTCTCAAACGTGGCCCTATTGTCTAATCAATTGTAAGAAAATAAAAATAGAAAATAATTTTTT ATTGAATATTTGTATTAAAAGTAAAAAGTTACTTTTATAGGATAAAGTATTATCCTTCTCATTATAAGCATTGAAAGCAA CCTTGTTTTGTTGATCTGGCTGGGTAATGAACACTAAAGGCACTAGTGATGATTGACAAGGTTGTAGAAATCGGTCATAT CATTTGCCTTGCGGCATTAATTTTGTATTTTGGATTGTTAGGATGTTGACAAAGTTGATTAAATAAAATTTGTATCTAGC TAATATCCGTCACTCTCCAAAGTTGTCACGGAAAAGGATCGTGATCATGAGGTTCCATAGAAATTCCTCAAAATATATTT AACAATTTCAAATTAGTAAAGGCTTTAAATTGTCCACATCTCTCCATTATCTAACAAGAATCTTCATTTTGACTTATGGC ACCAATTGGCAATTAGAATACCTTTATTTGGAATTTTAGAACTTTTTAAAACTCCTCTTAGATGTATATATGGTTATAAA AAACTCTTATTGAGTGAGGTGACTTTCTTTAGCTTTGATATATTTTTTTTAATTTTTTTTCGTATGTATGATTTCATTGA TGATTTTTTAACCAACATAATGAGTACAATTAGTAGTGATTTTTTTTAACCTATTCATTATTCACAGCCCATGAACATGG AAGCCTATAGTAGGCTTGCTGCGATGTATCAACAGCTGCACCAGCCTCCAGCTTCTGGTCCAAAGAATTGAGATGTTTGC TGAGTTGCAGCAAAAATGTGTGCATATTTATTCTTTATATGAGAAATATTCATATTAGCTCCAAAGCTGGTTATGTGAAA CAATAGCATAGTATTTACACTGCCCTTCTTGGATGAGAAATTTATTAAGAATCGGTGGCTTTCTATTGTAACTTGAATAA TATATTTGTTGTTTTGTTCAATAGCTTATTTGTTATTTCTTTTATTTTCTTCTTTTCACTTTATTGAATGGCTTGACTTG AATGATTATCATAAAGTAACAGTACTTTCTTTTTAATGGACCCCAAGAGTTTTTTTTTTTAAACAGTGAGAATCATATCA CATTCATTTTATCTTGGGCCCTTTTATCTTTCAAAGTGCAACAGCGGAAGCCGAATGGGCAATGACTACCCAAACATGCT ACTCCCTCCCTCCGGTCCTATTTATAAGCATGAAAGAGAAGAAAAATCTTGGTTCTTTTTATAAGAACCAAATGAAAGTT TGAGCTATATTAATTAATTTTTTCCAATGATGCCCTTATTAATTCTAACTTGTAAAATGTGTCTCATTAATTATTCTCTC TTTTCCACTTTCCAACACTAATAACAAAGGATAATTTTGGAAGTTCATTTTAATTTAAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0601000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGCCAGTGTGTTCCCAGCTGGGATATCGATGACAACCCACCACCCCCAAGAGCCTCTCTTCGTTCCAACTCCAATTC AACTGCCCCTGATGTCTCCATGTTAGACTATGATGTTGCAGAGCTTACATGGGAAAACGGACAACCTTCCATGCATGGCT TAGGGCTGCCGCGAGTGCCGGTGAAATCATCCACTACCACCACCAATACCGCTCCTCACAAGGAGGCATGGGAAAAGCCT CGTGGTAGTGGCACCTTGGAGTCTATAGTGAACCAAGCCACTACCTTACCCCAGTGGGGTAAGTCATCTTTTGTTGGCGG TGACAATATTGGTGGCGTTTATGGGAACGTGCTAGTCCCATGGCTTAACCCACACCGCGCTGCGGCCATCGCAGCTGCCA GCGCCTCCAACACCATGACCATGGATGCGCTCGTGCCCTGCACGAATCGTTCTGAGGAGAAGAGCACCCAGGTCATTGAT TCTGCTGCAACCGGAGGGCTTGGAACGAGCATGATGGGTGGTTCCACACGTGTGGGGTCATGCAGTGGTGTGGCTGCCAC GGCTGCACGGGAGGATGGCGCGTTCCTGGCGGAGGTTGCAAAGCGTGGCAAGGTGGCGACAACACGCGTGCCGGCAAACA GCCGTGACCAGAGTGTGAGTGGCAGCGCCACCTTTGGGATGAACAGCCAGCACGTGACACTAGACACATGCGACATGGAG TTTGGTTTGGGTTTTACTTCCACCTCCATAGGGTCTTTGGAAAACACAAAGACCACCACAGTTGATGACCACGATTCTGT TTGCCATAGTAAACCAACGAGAGGGGACGGGGCGGAGGAGAGAAAGAGAGAAAACAGAAAATCTTCAGTGTGCACCAAAA GGAGCAGAGCTGCAGCTATACACAACCAATCTGAAAGGAAAAGGAGGGATAAGATAAACCAAAGAATGAAGACACTGCAA AAGTTGGTCCCAAATTCCAGCAAGGCTGATAAAGCTTCAATGTTGGATGAGGTGATAGAATATCTGAAGCAATTGCAAGC ACAAGTGCAGATGATAAACAGATTCAACATGTCATCCATGATGCTCCCGATGACCATGCAACAACAACTTCAAATGTCGA TGATGGGGCCAATGGGCATGGGGATGGGAATGGGTATGGGGATGGGAATGGGAATGGGGATGGATATGAACACCATGAAT CGGGCTAACATGCCCGGCATGCCTCCAGTCCTCCACCCTTCTGCCTTCATGCCCATGGCCTCATGGGATGCTGCGACAGC CGCAACCGGCGGTGACCGGCTTCAAGGACCTCCAGCCACCATGATGCCTGACCCTATGTCCACATTTTTCGGATGCCAAT CACAGCCCATGAACATGGAAGCCTATAGTAGGCTTGCTGCGATGTATCAACAGCTGCACCAGCCTCCAGCTTCTGGTCCA AAGAATTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0601000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSQCVPSWDIDDNPPPPRASLRSNSNSTAPDVSMLDYDVAELTWENGQPSMHGLGLPRVPVKSSTTTTNTAPHKEAWEKP RGSGTLESIVNQATTLPQWGKSSFVGGDNIGGVYGNVLVPWLNPHRAAAIAAASASNTMTMDALVPCTNRSEEKSTQVID SAATGGLGTSMMGGSTRVGSCSGVAATAAREDGAFLAEVAKRGKVATTRVPANSRDQSVSGSATFGMNSQHVTLDTCDME FGLGFTSTSIGSLENTKTTTVDDHDSVCHSKPTRGDGAEERKRENRKSSVCTKRSRAAAIHNQSERKRRDKINQRMKTLQ KLVPNSSKADKASMLDEVIEYLKQLQAQVQMINRFNMSSMMLPMTMQQQLQMSMMGPMGMGMGMGMGMGMGMGMDMNTMN RANMPGMPPVLHPSAFMPMASWDAATAATGGDRLQGPPATMMPDPMSTFFGCQSQPMNMEAYSRLAAMYQQLHQPPASGP KN

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	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	373	373	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	30	30	-	–
PANTHER	PTHR45855:SF23 View details on PTHR45855:SF23 Search for proteins/transripts with this domain View external data on PTHR45855:SF23	26	481	456	2.1E-153	–
PANTHER	PTHR45855 View details on PTHR45855 Search for proteins/transripts with this domain View external data on PTHR45855	26	481	456	2.1E-153	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	48	81	34	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	256	314	59	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	258	291	34	-	–
Gene3D	G3DSA:4.10.280.10 View details on G3DSA:4.10.280.10 Search for proteins/transripts with this domain View external data on G3DSA:4.10.280.10	292	357	66	6.5E-19	IPR036638 Show description in modal box View details on IPR036638 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF47459 View details on SSF47459 Search for proteins/transripts with this domain View external data on SSF47459	294	358	65	3.79E-18	IPR036638 Show description in modal box View details on IPR036638 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50888 View details on PS50888 Search for proteins/transripts with this domain View external data on PS50888	296	345	50	17.561	IPR011598 Show description in modal box View details on IPR011598 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	299	314	16	-	–
Pfam	PF00010 View details on PF00010 Search for proteins/transripts with this domain View external data on PF00010	301	346	46	8.3E-14	IPR011598 Show description in modal box View details on IPR011598 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00083 View details on cd00083 Search for proteins/transripts with this domain View external data on cd00083	301	350	50	1.58588E-17	IPR011598 Show description in modal box View details on IPR011598 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00353 View details on SM00353 Search for proteins/transripts with this domain View external data on SM00353	302	351	50	4.5E-18	IPR011598 Show description in modal box View details on IPR011598 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	302	322	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	372	394	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	374	394	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	395	482	88	-	–

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:0046983 View details of GO:0046983 AmiGO InterPro QuickGO	Molecular function	Protein dimerization activity	The formation of a protein dimer, a macromolecular structure consists of two noncovalently associated identical or nonidentical subunits.	Subterm of View details of GO:0005515

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0601000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0601000.1