Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0248000
Transcript ID	LotjaGi2g1v0248000.1
Lotus japonicus genome version	Gifu v1.2
Description	Homeobox associated leucine zipper protein; TAIR: AT3G01470.1 homeobox 1; Swiss-Prot: sp\|Q02283\|HAT5_ARATH Homeobox-leucine zipper protein HAT5; TrEMBL-Plants: tr\|B3IX27\|B3IX27_LOTJA Transcription factor Homeobox; Found in the gene: LotjaGi2g1v0248000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:71364106..71376145) extracted from Lotus japonicus Gifu genome v1.2.

GTAGAGGTCTATGAATGATTACTCTAAGAAGATTCATGTTTAACTTTTAAAACCATTTATGAGGAACCGAAATACTATCC AAAAAAAATGGGGCAAAATTGAAGAGGGTAATTCAGTCATTCCACTCTCAAGCAACCACTATAAAACCAACCGGCCTTGG TTCGGACAACTTTAGCAGCACAAGACACTTACTGGAACTGCTCACACAAACCTCCCTCCTCCGTTGAATCTCACCGGAAT TTCAAACTCCGGCAACCACCTTTCCCCTGATTCCGGCAACCCCTTATACCCTTTTCCTGATTCCAGCTCACTCCCTTCCC CCCTTTGACTCTCCCTCCCGAAACTGACGAGCGGAGAAGACCACCGGAGCTGGTGGGTACAACCGAACGGTGCATGATGG GATCTTGCATAATTCCGTTGGAGACTCCGGCGAGGTTACTTTGGACCACTAGCTTCTTCCGCCATAAGCTGATGATCTTT TAATCCATTCACAAACACAAATCACAACGTTTCTGATTCTCAAAGTTACTACTAGTAAGACAGAGAGAAAGAAAGAAAAC ACACACACACACACACGAAGCAAACAGCAAACAAAGCCTTAACGTTGTTGTAAATCTCTCTCACCGGAGAGAGAAGGAAA GAGTGAGTGAGTGACCGACCATGGAGTCTGGACGTCTTTACTTTGACAACAATCGTGGGAACAACATGAACACGTTCTTC CTTGGGAATGCTGATCTTGGTTTTCGAGGTGATTTTCTTTCTCTGTTTTGTTTTTATCTTATACCCCTTTTGTTGGAATG ATTGTTTTGGATTGAATGAATGAACTGTTTTTGTTCTTGTTATGGTAGTGGTGCTGATTGTTATGGTTTTGGCTTGTTCT GTGAGAAAAATTAGGAATAAAAAGTTGTTTCATGTTAAATCAATGGAAAAAAAAAATAGTACATGATTTAATCTATTTGT GTTAAAATGGAAGCAACTTGATTGTGCATCAAATTGGGGTACCAAAAATAAGACATGATTTAATCTGGGTCTGTGTTAAA GGAAGCAACTTGGTTTTGGTTGTGGATCAAACTTGGGCCATGACAAATCAGGAATTAAAATTTTCTATCTGGCTTAATTT TTGTTCAATTTTATGTGTTATTATGTTATAAGTCATAAGACTGATGATGTTTGAAATTTTACTTCTCAATTGATGAAAGC AGGAAGATCGATGATGAGCATGGAGGAAGGCTCAAAGAGGCGACCTTTTTTCAGCTCACCAGACGAACTGTATGATGAGG AGTACTACGAGGAGCAGTCGCCGGAGAAGAAGCGCCGCCTCACTTCTGAGCAGGTTGGTTGGTTGTTTGATTGAATAAAT TGGTATTGATTGTTCTATATGTTGATGAAGACTCTTATATCAGCAATTAGTCTCACAGTTGCTCTCAGTCTGACTTTTAA TACAATACATGGGGGAAAATGGGGTTGACTTTAAACAGAAATTCAATTTTGTAGCTATGAAGTTTATAATTCACAAATCA AAATAGGTAGTTATTGTTATTAATTTACTGATTAATTATGGGATACCAAGATGGAACTGATCAACAAGACTAATAAGAGA TATGTTGTGTAAGGCTTTTACATTCATCACACTTCTGTGGTTAGTATGTATTTGTTTGATAAAAATCTGAAAAGTGGGAA ACTTGTGGGACAAATGACAAGATTCTAAGGAAAAGACAAGGTATATTTCCTTTTGTGACACTATTATTTGATGATTTTAG GTCAATCTGCTGGAGAAGAGCTTTGAGGAAGAGAATAAACTGGAACCAGAGAGAAAGACCCAATTGGCCAAGAAGCTGGG GTTGCAGCCAAGACAGGTGGCTGTGTGGTTTCAGAACCGAAGGGCTCGTTGGAAGACCAAGCAACTTGAAAGGGATTATG ATGTTCTCAAGTCTTCCTATGACTCTCTACTTGCAACATATGATACCATTGCCAAGGAGAATGAGAAACTCAAATCTGAG GTACATACATAAATACATCTGTTCTGTAAAAAGGAATTGAATCATTATATGTATGCAATAACCATAGTATGATTTTTTTA CTTTTATAAATTTAGATTTGGTCTCTCATGCATGCAATCTGATAATTAATGAACACCACAATGATTACAGCTTATACACA AAAAGGTGCTGAGATATTGGGTGTGTATAACATAGATTATCAGTGAGTGAACAGTTGATTTGTGAGTGAGTTCCTGTATA GGATAGAATTAGTGGCTTTACAATCAGAACTCCATCATAGGGAAGCAAATCGACACTTAACCTATTAAGATGATTGGGAG CTATCAGAGAGGGTCCTACACATTAGATTCTACACTATATTAATCACATACTATCAAGAGTAGCATCTGTTCGGAACCCC ACCTCGTTTGAAAAAGAATGCCCTGTCAAAGTAACTATGCGAATATACTTTTCTAGATTACTCAAAATATGCTTTAAGAC TTCCTTTACTGAAAAAGACACATGAATTTCTTTACTAATGGGGTATGCAAGCGAGGCCACTAACTAATTAACAATTCAAG TATGATTTATTGTCTTAAGGACATGTATGTTGACTATTCTGCAGGTGGTATCCTTAAATGAAAAGCTTCAAGTTCAAGCT ACAGAGATGCCAGGGGAGCCACCATCAGACAAGAAAGCTGACCCACTTCCCGTGGATATGGTCCAAATTTTCAGCATGAA GGTGGAGGACCACATGAGTTCTGGGAGCGTTGGAAGTGCGGTGGTGGACGAGGGCAGTCCCCAGCTTGTTGTCGACAGTG TTGATTCATACTTTCCAGCTGACAACTACGTTGAATGTGTGGTGGCCCCGGCGGCCGAAAGAGTTCAATCAGAGGAGGAA GATGGGAGTGATGATGGGAGGAGTTACTTGGACGTGTTTGTGATATCTGAAACCGAGCAGCAGAATCATGAGAATGGAGA GGGATTGAATTGGTGGGGTAACATGTATTATGTTGCATAAGCAACAGTGCTTTTTCAATTAGTTGTTAAACTAAGATAAG GTAAGAATATTGTATAATTAGAAGATATATCATGTGGGCCAGGATGAAGAGCTAAAACGTCTGGTTTGGGTGGCCTTTAG TGTCCTTAGGCCAAGCTTAATAAATAAAGTTCCAGTAACTTGGTCAATGGCGTCCTGTGTTGTATTTCCTAGTGGACAAT AAGTATTCTCTTGTTCAAGTATAAAAACATGGTTAAGAACATATGTTAAACCCTCACAATTATTATATTTCATTTGAGTA TAAACATCCTTATCTTATATTTATGATTTACTAATAGCAATGAACTGAGAAAATAAATTGCATGCCTCTCTAAATATTTA TAAATCTCAATGGTTTTACTGATTAGTGTTTATGAGAGATTGACAAAATTTTATATCATATGTAAATTCCCGATATGAAA AAAATGAAGTCCATAATATTGAATCTCAAATTAATAGTAGAAGTACTGGTGATGGGGTTTTTTTTTTTCTCACTTGTCTT AACGCTTCTTTTCTTTGGAGAAAAATTCATCCAAAGACATCCACGACCATTTTCTATAATGAGTAAAACCTATTGATTCA GCTGGCAAATTTTTCTGAGACTTCTTGTCAAATGGGGGACAAGGCGAACGAGTTTGACTTCAGGACATTTTTGCTATCGG TTTATAACATTGATACAAATAATATTCAATTCAAGCTGAGATAAAAAGCTAGTGACAAACTCTAATCACAAGTTTGTTGG AAGATACCATCGATTTAACAATTTATTCATAGGAAATCGATTAACAAAAAATTGAATAATGCATGTAATATAAACTATTA ATTTATTCATAGAAAATCCTGCGAGAGCGATGCAGGAGTTAGAGTCGCTAGATCCTCAGCGAGATGGTCAAACCGATTGG GAGGGGATTAATTATATCTTTGCGTTAAACAAATCAAAGAGAACTTGCACTAGGCAAACACACACAAAAAAGCAGATGGA AAAATGCATTGATTCCAATAAATCCTTGCATTCGAACACATCTGCAGATGATGCTCTAGAACAAAATCAAGAGCATGCGT GTGCGGGACTTCTGTAGGGGTCAGAGAAAATGTATAAAGAATGAAATATTGCCTACATTAATTCTGATTTTTTTCCCATC CTTTCTTTTTCACTTACTTCTATTCCTTCTTTACATTAATTCCATTTGTATACATATCTGGATCAGGCTCTGCAAGAAAA ATGAAAAATATAATACCACTTCTCGCCGGAGCAACCAATTGGAAGCTGCAGCAGAAATCACTTCAAAATTGGATGCATCA TCATGATTCCCTCATACTGGTGCCCTCACTGAAAGCAGATAATCCTACAAGTTCTGCTTAGCCAAAAACCAGCATCCGAG TTAGCAGGTCAGCTTAACCTATATGTACATGCACGCAAGAGACACCAGCAGCTGAGGCTGCCCCTTCAATAACCTGAAGT TGTCCCCGTGACATCTCCATCCAAACCCATATCAGTGGATGATAATATCACACCACATAAAGTGGACATGCTTTCTGACT TTCTCAGCCAAGAACACAGTATAAGATCAACCACCCGGTTCCCTTCTTTTCCTGTTCGACTTCCGGCTTGCTTTGGATTT CTCTGGATCCACAGCCACCAGTGATTTCTGTTCTGCTATGGTAGGAGGTTCAGAGCTGTCAGTAAAACTTGAATAGGGCA CTTTCTCATATATAATGGCTGAATCAAGGGAGTATATGCGGAGCGCAAGGGAAGGCAAAGTAGAAGATTTGGCCGCAGCT GAGAATGATGACCAGTACCACCAGTCATTCCTTAAGTACTCTGTCTTAATCATATCCTCTAGTGTAATTGTTGCCTGAAC CATCTGAAAATATGGAAGGAACGTCAATTAACATTAACAAATTCAAGTCCATCAAAGTATAGTGTATTGTTTCTCAACAA GTTCTTGTACACATATAAAACAGCTGCTTTTTACTGACATTTATAGTAATTGTGCAGAGTGGAATTAATAAGTCAACAAA CTGCAGCCTAACTCAAATCTCAGAAAGCAGAGCTGCAGTGTTGAACCTTTAAGGGATAAGATGTGTTTTAACAATGCCCG ATTGCCTGTAAAAAGAAAAGTATACATGCCAGAGTCGCAGAAATTAAACAAACCTCATATATAGTCTTTGCAGATTTAAC AAATGAACGCCAGGCCTGTCTTCTGTCCGACTGTGCCTTTGATGGTCTTAAAGCAACCTTGGGGAGTGCAGCATCCATAT CAAGTAGATTAATCTTCAATTGCCTCAAAATATGAGAAACTTTTCCAACTAATGGTCTCAAGGAAGACGAAGGGACCACA CAACAGCCATCGACTACCATATCTGAAGCCGGACTACAAAAAGAAATCTTTCCATCTCTTTGTTCTCCCAAGGATGACTT TCCTGCATTACTGGTTTCATTTGCAGCTAACCTTTCAGTAGATTCGCCTGATTGATGATCATGACATATGCCAGCTACAT CAGTGTTTATCTGAGAAATCCGGCTTTCTGAAGCTTTAGATGCACCACCACCATCCATGTCATTCTTTTGAGCTGAGAAT AGTGTATAGTCACTAACAAAAGGAGATATGGATGGAACAATGGATGGGATGCCATCTGAACCAATAAAACCTATTTCTCT GACAAGTTCCTTGTTGGAGTCGTTTGTCACAAACTTCATACATATATCTTCAAAGTTAAATGGGCATGTGGATTCTTCGT TTGAAAATTTAATCAATCTTGAGCTCAGGTTGGAACACCCACTAATTGAAGTTCTGCTTGCTTCTGCATCTGCTCTGAAT TTTTCATGCGGTGCATCCGATTTTAAGTTCCCTCTTCCTTTGGAAAATACTTTTTTATCCTTAGTCTTCTCCAAAGCCAG ATGGCCCGCATTACATTTGCCATCATTGTGATCCTCAAATTCAACATCACTCGAAACAGTTTTGTGGCAATACATGCAGT GTTTCCTAGAAGGCCATGCAGGTTCTAGGCACTCACACCTATACAACTTTTCATCATTAGTTGTTCTAGCCTTTTTACTC GGCTTCTTCAACACCTCAACTGAATCCCACTCAAAGAAGGGACCGTATTTCTTTTCCAGCAAGGAAGTGGCCTTTGTGAC AAGAGAATTAGATACTGTTTTCTCTCCCTTTTTCGGAATAGAAATAGGTCCTTGGTCCGAAACCTGACATTCAGTCTGTG CATTAAGAAACTGTTGATATCTTGATTTTGGCCCTGCCATAATGGAAACTTTCAGTTCTCTTTCTTTAGGGTCATTATCA TTTAGCCAACCAAGGAGCTCTTCGATTTCTGCATCAGTTTCATAAGCAATCCATGGTGAACTACTGACCAAAGCAGTACT TGGTTGAGACATTAAAGGAGACGAGTCCTTGATCACCCCTAAAATCTTGTAGTTATCTTTGTTAGATTGTGCACAATGCT GCAGAACAGAAAACTTTTCCACTGAGTTCTGACTAACTGTCATTCCTTTTCCATGCAGCACTACAGCACTTGCATCAACA ACTATACGTGAATGTCCCCTCGGTGTAGGCAAAGCCCAGTACAGTCGACCAATGGAGTCGATACCCAAAAATTCCCTACG GAAAGAGAGCTTCAGCAGCTGTGATACTACACTAGTTATGGAATCCTGCACCAGAGAAACATCACGCTTGATGGCATTGA GCTCAAGGTGGCAGGTTTCTGACTCATTCATAGCACTCTGAGGAACTTCAACAGGCACACATTGTCCTTGCTGGTATGCC ACAAGAGTAGATACATCCCTTCCCTCACATTTCTGGTAGTTATCCGGGATATGAGCTGCTCCACCAGAACCATTTATGTC ATGTGACATATGATTTGGTGATGAACAAGACTTGGGGGATTTATCAGTACATTGGGACTCCACAGCCACAGAAACATTCC TTTGTACCTCTCCATCTATGGAATTCATATTTTGGCTATCAGAATCTGAATTTGTCATAGATACACTTTTATCAACACTA TGGAACCTATACTTCTCTTTGGTAATCTCTTCTGAAGGCAAACTATCAACAAATACCCCAAAGCTACTAGGATTGTCAGC TGCAGTATGCGGCTGCCCCAGACATTTACCAGAATTTGAGAACAAAGCTTGTAATCCTTCTTTAAGACCAACTTCTCCAG CAGTATTTAGAGAGAATGTATCAAGTTTTGCAGCTTTTGTGGATAAAATGTCCTCTTTAGTTTTCAGGTTTTTCCACTCA ACAGATAGTGCACGCAATTTCTGATGTAACTCAACAGACAAGTCAGCACATTGCTCAAGGTGCTGGCGTATCAGGGAAGA GTTAAGCAACTCATCACATAAAAACTTGAGGAGGAAAGTTCTCTGCAATGATTGAAAAGGGAAAAGAAATAAACAAATAG AAATACAGAAAAAAGCAGTACAGAGCCATATGTCATCAGAACTCAGCTTGCAAACCACAGCATTTTAAAATTAAAGTAAT AGTAATCAATTCAAGCATCATAAAAATGCTGATAACAAGAAAATGTATTATGCTCAAGGAAATCAATAAATGAAAATCAG CAATTGTGATTTGTGAGTCTGGACAATAAATTATTAACACAAAAGAAACCGGTTAAGATTCATTCAGATAATAATGAAAG GAATTTTATACCAACATTACCCATTACCAACAAAAATTCTTTTTCATGGCAGTATGATTTCAAGTGTAAAAAAGAAGTTC ATGCTGCCATTCTATCAGCAAGGCTTATATGCATTAACCAGGTGAGAGAAAAAAAGGTAACATAGCTAAGGTGCCTATGA ACAAACCTCGGCCACGCTGTACTCCCAGTATTCTTTTTCTTCAACCACAGTTGACAAATGAGTTAGAGCTTCCAAGTTAA GACGATTAACTTCTCCCAGGAATTTTTTACTACGACGTTTGCCAATAATCTGCGAGTGTTCTATAACATTTTGAGTTGCA TGCTTACCATCAACACAAGAAGGACAGTACCAGTTTCCTTCAGGGATCCTTGCAAGTGGAGGATTCAAGCAATATGTATG ATACTCAGCATCACAAGTATCACATAGTAGAACACTGTCATCATCCTTATCAAGACCACATACTTTACAGACTCCCTCAT CCCAAGGGGCTTTCGGAATCTCACTTATTGACGCAATAAAACCGTCAACTTCTTTTTTCATCTCTGCATTTAAGCATTCC AATTTAGCATAGTCCACAAATTTTTGGACATAGGCGACAACCTGAACCGAAGAAAGAAATTGAATGTTCAATTAATAACT GAAGACACAAATGTACAAGTATTGAGGTATACACAAACAAGCTACCAACCTCCTCATTATATAACGATTCAAAGTTCTGG GATAACTTTTCAGCCAGTTCAACTAACTCCGGTTGATCCCCAAAAGCAACACGAACATTTTTCCACAGCTGCAAAATCAA AGTTACAATTTAGTGCCCCAACATGTCAAAAAGTATCTGGCAGAAAGCATATCAGATACCAGTATTGGAAGGAAAACGTG AGGAAGCAAATCACGATGCCCTTAAGCCCCTCACATGGAACACAAACAACCATACAAAATACTATTTACAAACCAAAACT ATACCATAATTGCACAGAAATTTGGGCCTAAAGGGAATAAAGTCTAAATGTCTAATTGGCAAAATAGAATTAGAATACTG TTTGGTGGTCAAGCACTCAGAAGTTTGATATAACACATACCTCACGTACATCCTCAAGAAAAGCTTCATGAGATCCACCA TAAGCTCCAGAAGCCAATCTTAGGTCAATAGTCCGGAAATCAAGAGGACGGGCCACCATAGCTGGAGATCCAAGAAGCCC CTCATCATCATTATCTGAAGAATTTATTAATTTTCTTCCCAGCAAATTACAGAAAACCTTTGAATCATCTGCAGCAGCTG CACGACGTAATACAATGCGACATTGTTTGGTGATGATGTCAGAAATAGATATAGCTATCTTCTTTTTCCTTCCTTTATTG GGGTTTGATAGCAAGCCTTCACCAACTACGTCATTCAACACTGAAAGAACTGCTTTCTGTTTATAAACAACAATATCCAA TTTGGGATCATGCTTCATAAGAAAACCAAACAAAACTAAGAAAAGTTTATGTTAACCTGTTGAACTATCACATTCTAATA TAGAGAATAACATGAAGCCTTTAGTTCTGTTATAACACATGTACAGTATGAAACTGAGTTTCAGTAACATATACACACTG AAAAGTACCTTTGTTGGTCCAGATGCGTTGCCCTTGTACACTTCCTTACTAATTGAATGCTCCAGTATTTTCCTAGCCCA CTCTGGTGGATCCTTACTTAGAGCATCATAAACACACTTCCTGATTCGTGTTCCCACATTTGTTGGTAGCTTTCTGACAG GTTCCAGCAATTCTGCCCATTCAGGAATACCATCATTTGCCAAATTCTGTTCAGAAGCATCCTTTGCATCAGACTCTTCC TCTTCCATGGTTAAGACGTCATTTTCTCTCGTCAAAGAACCAAATATTTTCTTTGTAGCCTCTGCAAGCAACTGAGAACC GACATAGGAAAAACTTCAGAGTTACTTATACAATTCCCTTCAGTATGACTACTTCAATTAAAGTTTAGAAAAGTTCGACC AGCAGCAAAGTACAAAACCTAAAGGCATGTATGATATTTGAAAGATACTTTTATAGGGAGTTCAGTAGCAAGATTAAACA TGCACTCAACTCAAGCCATGAGAAAGTTCAGTGAAGGAATGTGTTGAATATCTATTAAGATTTAGTTTATTATTAGTCTT ATTTCATAGAGATATAGTTAAGATTTGTTTATCTATTTTAGATTAGTATCTATTTAAATAGAGATATGTTTAGATAGATT TAGTTTCTTTTGATCTCTTTGTTAGTCTATATATACTGTAGTCTTTAGTCACGTATTATCAATGAAATACGAGTATTATT TTATCAAATTCAAGTTGGTATCAGAGCAAGTTTCGATCCTACCGCTGTGAGGGGGCTCTTCCCCCGTGAGCCCCCTCATG GTGACTTTCCAAATCTCTTTGGATTTATTTTTCGTACTTTGCTTCCGTTGGTTAGTTCTAGCCGTTTTCTTACGGCCTCG TTTCTTTCTGATTATGGCTCCCTTTCTCTTGGAACCTAGTGATCCTTGTCACGTTCTTGGCAGTCACCATTGACGTTCAA CACTGTCAACGTCCCTTCACTCACGGCTTCCCTCCTGGCGCGTGATGTTAACGCGCCGCCCTCCAAGCATCCTTTCGCTG TCGTGATTGCACAGGCAAGGTCGTCTTCCCCTCCTGGTGCTATTCCAGGGCTCTTTTTGCCCAGATCCAGAGTATTGTTT GCTGTTCTTGGAGGCCTACTTCAGATTTTTCTATTTATGTGCAAATGTGGACTTACTTTATTTCTAAGTGGTGGTAAAGC TTCAGAAGAGGTTTTTGTTGGAGCTTTCCTTTCTATTTCATCAACAACAGTGGTATTAAAGTTTTTGATGGAAAAGAACG CTACTAATGCCCTTCATCTTGTGATTCTCCTATGATTTCTTCGTCAATTTCCTTCTTTGCCAATTCATATACTGAATATT CGGTGTAGAAACCACAAAAAAAGATCATTGATCATTACATCTGTGGCGATTTCTCAAAATCAGTTTTTCATAAATTAATG TGTTAACAGTGATAAAGTGTTCGACCAACATCATTACAATTCTGGTTCATGACAAGGTTGAGATTTTCTTGATGCAACAG TTTAAGCGATTTCAGATTTCGCAGATTCACTCTCTTTTTTCCTACTGTGCGAAAGGGGCAAAGTCTTTACCTACTCGTTG GAAGTAGGTGCTGAAGGGAAATTTCAAGCCTCAACAACTTCTGATTACTGCATTTGTTTGTGTTTGTCTTTAATGGTACA TAAAAGTTTTCATGTTGCTTTAAGCAGTGGTGATATTAGAAGTTTCTGATGGTGCCAGAATGAAGCACCACGTGGCTCTT TGGTCCAGTCCAGTTCTCAATTAGTGTGTTGGGTTGCTCTTGGTTTCTTGGTTTTGGTTGGCACAGTTGTGGTTTTAGAG TTGGAAAAGATTTTTGGATTGTTTTTGGGAATTTCTCTCTCCGGCAGCAGCGGCTTCTCAAGTTAATTATTTTTGTTACA AGCTATGCATATGATATATATGCTCTAGCTTGAGGGGAAGTGTTGTGTGAATTTCTCTCTCCGGCAGCAGCAGCTTCTCG AGTTAATAATATTTGTTACAAGCTATGCATATGACATATATGCTTTAGCTTGAGGGGAAGTGTTAGATATTGTTAAATAT CTTAGAGACTACAGTCAGCCACCGCCGCCGGATTCCAAGCCACACACCTCCCATCTCTCTGCGTGTGAAGTCCACGCACC ACTCTCTCTGCTGCTTTGTTCACGCTGGTCCACTTTGTGTATCAGCCAGGTTGCGCCGCTCTCTCCGCTGCTTTGTTCTC GCTGGTCCTCTTTGTGTATCAGCCAGGTTTGGTTTTAAGGATCCTCTGTTTTGACGTGTGTTGTGCCTTTACAATTGTGA TCATCCGATCTTCCTCTCCCTGTTTGGTTTGTGGGTCAGCTGTTTTACCCTGTTTGGACGTTTCTCGTTCCATATCTCAC TGTTGGCCAAGTTTGGTTTGGTTTGGTTTAGAGTTTTAACTCTGTTTTGACGCTCAGGTCCACATTGGTTTTTGAGATTT GAGTTGTTGTTTGCGTCTCATGGTTCGAGATGCTATTATTATATTGATCTTGGCTGACTTTATGCAATTTGGTTTGGTTT GGTTTTGAAGGTGATAGTGTCACCTTCGTTTGTTTTGTCTCGATTGTTTGGTTTTCTGGTTTCAGGGCTTCAGCTGCGAG TTGCGCTGGCCCACTCTCTAGTCGAGAGTTATTGGTTCTGGTTTTAGGGCTTCAGCTGCGAGTTGCGCTGACCCACTCTC TAATGTTTGAGAGTTGTCTGTGTCAAAGTTGACACCATTG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0248000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGTCTGGACGTCTTTACTTTGACAACAATCGTGGGAACAACATGAACACGTTCTTCCTTGGGAATGCTGATCTTGG TTTTCGAGGAAGATCGATGATGAGCATGGAGGAAGGCTCAAAGAGGCGACCTTTTTTCAGCTCACCAGACGAACTGTATG ATGAGGAGTACTACGAGGAGCAGTCGCCGGAGAAGAAGCGCCGCCTCACTTCTGAGCAGGTCAATCTGCTGGAGAAGAGC TTTGAGGAAGAGAATAAACTGGAACCAGAGAGAAAGACCCAATTGGCCAAGAAGCTGGGGTTGCAGCCAAGACAGGTGGC TGTGTGGTTTCAGAACCGAAGGGCTCGTTGGAAGACCAAGCAACTTGAAAGGGATTATGATGTTCTCAAGTCTTCCTATG ACTCTCTACTTGCAACATATGATACCATTGCCAAGGAGAATGAGAAACTCAAATCTGAGGTGGTATCCTTAAATGAAAAG CTTCAAGTTCAAGCTACAGAGATGCCAGGGGAGCCACCATCAGACAAGAAAGCTGACCCACTTCCCGTGGATATGGTCCA AATTTTCAGCATGAAGGTGGAGGACCACATGAGTTCTGGGAGCGTTGGAAGTGCGGTGGTGGACGAGGGCAGTCCCCAGC TTGTTGTCGACAGTGTTGATTCATACTTTCCAGCTGACAACTACGTTGAATGTGTGGTGGCCCCGGCGGCCGAAAGAGTT CAATCAGAGGAGGAAGATGGGAGTGATGATGGGAGGAGTTACTTGGACGTGTTTGTGATATCTGAAACCGAGCAGCAGAA TCATGAGAATGGAGAGGGATTGAATTGGTGGGGTAACATGTATTATGTTGCATAA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0248000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MESGRLYFDNNRGNNMNTFFLGNADLGFRGRSMMSMEEGSKRRPFFSSPDELYDEEYYEEQSPEKKRRLTSEQVNLLEKS FEEENKLEPERKTQLAKKLGLQPRQVAVWFQNRRARWKTKQLERDYDVLKSSYDSLLATYDTIAKENEKLKSEVVSLNEK LQVQATEMPGEPPSDKKADPLPVDMVQIFSMKVEDHMSSGSVGSAVVDEGSPQLVVDSVDSYFPADNYVECVVAPAAERV QSEEEDGSDDGRSYLDVFVISETEQQNHENGEGLNWWGNMYYVA

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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
PANTHER	PTHR24326:SF497 View details on PTHR24326:SF497 Search for proteins/transripts with this domain View external data on PTHR24326:SF497	17	277	261	1.2E-85	–
PANTHER	PTHR24326 View details on PTHR24326 Search for proteins/transripts with this domain View external data on PTHR24326	17	277	261	1.2E-85	–
ProSiteProfiles	PS50071 View details on PS50071 Search for proteins/transripts with this domain View external data on PS50071	60	120	61	18.625	IPR001356 Show description in modal box View details on IPR001356 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF46689 View details on SSF46689 Search for proteins/transripts with this domain View external data on SSF46689	63	131	69	5.56E-20	IPR009057 Show description in modal box View details on IPR009057 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00389 View details on SM00389 Search for proteins/transripts with this domain View external data on SM00389	63	124	62	1.5E-19	IPR001356 Show description in modal box View details on IPR001356 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00046 View details on PF00046 Search for proteins/transripts with this domain View external data on PF00046	65	118	54	5.7E-18	IPR001356 Show description in modal box View details on IPR001356 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00086 View details on cd00086 Search for proteins/transripts with this domain View external data on cd00086	65	121	57	5.9625E-19	IPR001356 Show description in modal box View details on IPR001356 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.60 View details on G3DSA:1.10.10.60 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.60	68	118	51	2.2E-19	–
PRINTS	PR00031 View details on PR00031 Search for proteins/transripts with this domain View external data on PR00031	91	100	10	4.3E-6	IPR000047 Show description in modal box View details on IPR000047 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00027 View details on PS00027 Search for proteins/transripts with this domain View external data on PS00027	95	118	24	-	IPR017970 Show description in modal box View details on IPR017970 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00031 View details on PR00031 Search for proteins/transripts with this domain View external data on PR00031	100	116	17	4.3E-6	IPR000047 Show description in modal box View details on IPR000047 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02183 View details on PF02183 Search for proteins/transripts with this domain View external data on PF02183	120	162	43	1.7E-17	IPR003106 Show description in modal box View details on IPR003106 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	133	167	35	-	–

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:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
GO:0006355 View details of GO:0006355 AmiGO InterPro QuickGO	Biological process	Regulation of transcription, DNA-templated	Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription.	Subterm of View details of GO:0010468 View details of GO:1903506 View details of GO:2000112 Regulates View details of GO:0006351
GO:0043565 View details of GO:0043565 AmiGO InterPro QuickGO	Molecular function	Sequence-specific DNA binding	Interacting selectively and non-covalently with DNA of a specific nucleotide composition, e.g. GC-rich DNA binding, or with a specific sequence motif or type of DNA e.g. promotor binding or rDNA binding.	Subterm of View details of GO:0003677

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0248000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0248000.1