Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0238000
Transcript ID	LotjaGi5g1v0238000.1
Related isoforms 1	LotjaGi5g1v0238000.2
Lotus japonicus genome version	Gifu v1.2
Description	Protein translocase subunit SecA; TAIR: AT4G01800.1 Albino or Glassy Yellow 1; Swiss-Prot: sp\|Q41062\|SECA_PEA Protein translocase subunit SecA, chloroplastic; TrEMBL-Plants: tr\|G7IBQ7\|G7IBQ7_MEDTR Protein translocase subunit SecA; Found in the gene: LotjaGi5g1v0238000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:54599848..54611603) extracted from Lotus japonicus Gifu genome v1.2.

TCCACAATTTCTTCAAATCCCCTTCTCAATTCTAATTATGGCAGCGTCCTCACTCTCTTCCTCCTTCACCTCCACAACTT TCAACCCCCACACTCACCCTCGCCACAAAACCCTAACCCTACCTGCTTCCTCGTTTCTCCGCCGGAGCCTCCCTCCGCCG TCAGTTTCCAAATCACGCCGGAGCCGGAGGCGCCGGTCCGGCGCGGTCGCCTCGCTCGGTGGTTTGTTAGGCGGCATCTT CAAAGGTAACGATACTGGAGAAGCTACCAGGCAGCAGTATGCTGCCACTGTTAACCTCATCAATCGGTTGGAGCCGGAGA TTTCTGCATTGTCCGATTCGGAACTGAGGGATAAGACCTTTGCGCTGCGAGAACGCGCGCAGCGGGGCGAGGCTTTGGAT TCTCTATTGCCTGTGAGTGTGAATTTTTTTGAATTTTGTTGTTTTGAAGTTTGTATTGTAAAGAGTTGATTCAAGTGAAG TTGCTCCTGATTGTGACCAATGGAACTGTGTGTGTATTGCAGGAGGCGTTTGCTGTTGTCAGAGAAGCTTCCAAGAGGGT TCTCGGCCTTCGTCCCTTCGACGTCCAGCTTATAGGTAAGTTTTTCATTCTATTGTTGATCCAAAGTGTGATTGTATTTC TGTCAGCGCACATTCCAAGACAATTTGAATGTGCTTTTGGCCGACCGATGTCTCTCGTGTCATTGAAGTGAATCTGTTTT TGCCAACTTGAATGTAAATACAAACACACATGAATTGTCTGTTCCGTCAATATATTATACTAAATATTGTAATGTAGCTA GTTCTTGCCTTTTTGTGTGTGACTGTGTATATGTATGTGATTGTGGGGATAATTTATCAATTTTGTTATTTCGGATTTTG TAGGGGGTATGGTTCTTCACAAGGGAGAAATAGCAGAAATGAGGACTGGAGAAGGGAAGACTCTGGTTGCCATTTTGCCG GCTTATTTGAACGCATTAAGTGGGAAGGGAGTTCATGTTGTTACTGTCAATGATTATCTGGCTCGCCGTGATTGTGAATG GGTTGGTCAGGTTCCTCGCTTTCTTGGATTGAAGGTTGGCCTCATCCAGCGTATGTCTCTCTCATGCTTCATTTCTTCGC TTTTCTCCTTTGTTTTTGGATTCTGTTTCTACATCTTCTGTTAGTCAGTTGGAGTGTAATTGTTTTTGAAGCTTCTGTCT TGCTTCTTTGTCATCTGCCTCTGTATTCATTTTCCGGTCCATGTCATCTAGTGGGAACAATCTTTGTTGTTGCTACCGTT CTTCTTCTTGTTATTAACTTAGCTTCTTTAATATGCATCATGTTTTGCGTCTTCTAATTGATAATGCATCTGTTGGCAGA GAATATGACAAGTGAGCAAAGAAGGGAAAATTACTTATGTGACATAACATATGTCACTAATAGTGAGCTTGGTTTTGATT ACTTGAGAGACAATCTTGCCACGGAAAGTAATTCTTCCTTTACATATTTCGTGCATTTGATATATGCTTTGTAAATAGTT AACTTTTATTCTTTAATATCATACTGAACTCCAAACTGCGGAATTTACAGAGTGTCGAGGAGCTTGTCATAAGGGGTTTC AATTATTGTGTCATTGATGAGGTAGATTCAATCCTTATCGATGAAGCTAGAACTCCACTCATTATATCAGGACCAGCAGA GAAACCCAGTGATCAATATTATAAGGCTGCAAAGATAGCAGAAGCGTTCGAACGAGAAATACATTACACAGTAAGTTTGC TAGGCAATGTTTGCATTTTGAAAGAAAAAGAGGAAACTTGATATAGAATGTATACAGTAAATTTGATGTCTAGTCTAGTT CAGTGGTCTGCTTGGTGATGCTAATGAACTTCTGTTATTCACTTGTGAGTTGTGACTAACAGATGGGTGGTGGATAGTTT TCAGATATGATATCAAAAACAGAAAACAAAAAAAGTAAATATATTTATAGAAGTTTTGTTTCCATGCATCGTGAATGGTC AATGGTTTTAAAATTTCCATCATGTGATAACTTGTTTTATATCAGCCGACAGGCGTAGATGCATACTTTATTTTCAATCC TAGTCTTATTGATGTTGTCATGGCAGGTGGACGAAAAGCAAAAAACAGTTTTACTTTCAGAACAAGGTTATGAAGATGCT GAAGATATTTTAGCTGTCAAAGATTTATATGATCCACGAGAACAGTGGGCTTCATATATCCTAAATGCAATTAAAGCGAA AGAACTATTTCTTCGAGACGTGAACTACATAATTCGTGGAAAAGAGGTTCTAATTGTCGATGAGTTTACTGGTCGAGTTA TGCAGGTATTTAGAGACTCTACTTGACTAGTTGACCTTATAGCATAAACAATTTATCTGGAAAAGCAAATGAGAATATGT ATGGTATCACCAATAGAAGTTTCTTGGGCAGAATTGGATTTTACTATTTTAAAAATTATATTCTTTGCCTTTTCCATGTC CTCATTTTTACCGTCAGGAAGTTTATTTACATTACGGTAGATCTTTTTGGATTATGGCTGACAATAATATTAAATTATAA CTAAATGCATGGTCCTCTATGCAGTTCTTCAGCAATTGAATCATAATCATTTAATTATTAATAATGCAAGTGGTTCTAAT TGAAATTCACTAGATTTAGGTTGAAGCTTCAATGAACAAACTATTTATATTAGTCTATAGTACACACCTAGAGTTTACCT TTCACCCAAAAAAATGGTGTTAATAAAGACAGTAAGATACTAGCCCAAAATTGTAAGCTTAGGTGAAAACACATGAATGG TTCTATATCTAACACTGCCCTTATCTTTAAATAGCATGTGGTGCCTTGGCGCTTACATTTTTAGCTAGTTGTAGTGCCTG TCTAGCCAATATCAAAACACTTACCACCACTTATACCTAGAGAGCAATAAAAATGAAACTTTGGTGAAGTATATTTTGTT GATATCTGAAGGCACAAGTGATTTTTATTTTCTTTTTAATTTCTACTGTTAGGGGAGAAGGTGGAGTGATGGACTTCACC AAGCCGTTGAAGCAAAGGAAGGGTTGCCCATTCAAAATGAAACCGTGACACTGGCTTCTATTAGTTACCAGAATTTTTTT CTGCAGGTTGGAAATGTTATATCTGACCTGTTTGAGTGAATCATCATTTCATAATGTATTTTCCTTAGAAGCTAACTTGA TGCTTTTATATATGCATTTTCACAGTTCCCAAAACTTTGTGGCATGACTGGCACTGCAGCAACGGAAAGCACAGAATTTG AGAGCATTTACAAGCTTAAAGTTACAATTGTGCCTACAAACAAACCTATGATAAGAAAGGTTTCTTCTTCCTTGTCATTC ATATGCAACACTTGAGTGAATGATGATTACTTTGCTATGTGAAATCTGTAGTTCTGTTCCTTAATGGGAAGATTGATTAA TATATTTACTGTGACTATATGGGGAAAGGCAATGTATGGGGTAACTTATTATAGTTCCACAAGAGGTGGTGCTGGTAGAT TATTTCCATCAAAAGCAAAGTTTGGAAGCCTTACTGTTAATTTTAATAGGTTTATTTTGTACACGATAAAACAATATTTA TAAATTATGTGATGTTTGTCTAGTTTCTTATTGTGTCTTCAATTTCGTTTCCCAGGATGACTCTGACGTAGTTTTCAGGG CAACTACTGGGAAATGGCGCGCAGTTGTAGTGGAAATCTCAAGAATGCATAAAACTGGTCGCCCAGTGCTTGTTGGCACA ACCAGTGTTGAGCAGAGTGATTCTTTGTCGGAACAATTAAAAGAAGTTGGGATTCCACATGAGGTAAAGTCTCTCGTCCT AATGGGAATAGAATATGAGAGCAGTAGAGCACAGTATTTTCTTAATGATACCTGTTTCAAATAATTTTTGTTTTTTAAAA AGGATAGCCTATTCTTAACCTAGATCACCTAGATCAAGTGCTACTAAAACTGAGCTACTTCTCTTCTGTTTGAAAGGAGG AGAATAAATCTTTATCTAATACCGATTTGTGTTTAATTTGTTTTTTTAGTATAAGTATATTGAAATGTGTATTGTTTGAA GGTTCTCAATGCAAAACCCGAAAATGTTGAGAGGGAGGCAGAGATTGTCACACAGAGTGGTCGTCTTGGGGCTGTGACAA TTGCTACCAATATGGCTGGTCGTGGGACAGATATAATCCTCGGTGGTAATGCTGAATTTATGGCACGGTTGAAGCTTCGT GAGATACTGATGCCAAGGTATTATTGAGCTTTAATTGACAAGTTTTATCTATGGAAACTTTGCCCTTCCAAGAAATTTTT CCCTTTTATGTGCTTTTGTGTATTATTTAAATGGTCTTTTATCTTTGTTCCTTTAGAGGAAAGGTTAGATGAGGATGCTC AAAAAGAGATACTGATATGAGTGGGTTTTTAATGAGGTATGCTGCTTGCATGTTAGAGAATAATGCTTCAACGAGAGTGT CCCTTGTGTCATGTGTTTAGGCCTGTGTATAAGAAAGTAAGAGAATTTATTCGGCCGAAGGGAAACAGTGTAGTTATAGT GGAGTATGCTTTAGCTTTCAGGTTTTCAACTGGTCCTCAGTGAGTGAGTGAGTGAGTGAGTGAGTGTGAGAGATAGAGGG GGTGGGGGACTATAGATGTTAAGGTCCTACATTGACAATTTGACAATAGATATGACTAAAATAAGACCTTATAAAGGGTA AAATAATCCTCACCCCTGGGACTACACATTCTATTTTTAGCGCTGTGATCTGCCGCAATTACCTGCAATTTTGGCCGTGA TTCGTGCCGCTCCTGCTGCAATCGTCATCTGGGACGCGATGAACACCCCATAGCGGCAAGAGGCTGTGACGCTCCGCCAC GTCGCTATAGCGCTCTTTTTTCTTCTTCTGGATAAGCGTTATAGCAGCTTGGTTTAGGCTATAGTGCGCTATTGAATACT AAGTACAGAACACTTTAGGAATTAGAGGTTTAAAGTTGTTGGTTACCTTGACTTTTGTTGCCATAAATTTTGAGTATTTT TTACCCTTTATATGTATATAGTTCTGCCATACAAACTATACAAAAAAAACAGCGTAGCTGTAGCGGCCATCCAGCTATGC ACTATACCGCTACGCGCCACTGTCCAAGATTGGCTACACTGTCCCAAATAAATAAATAGTCTTATTCCTTAAGCTACCAG TTTTGTTGTTACAATAAGTTCATATACAGAGCATGTGGTTTAGTGTATCATAATTTCCATGTTTATATCCTAGGTCTGAT ATTTCTTTCTGCTATTATGTGTCCGTGTGTGGGAGTTGTCTTTGTTTAGAAGGTACAACCTATTATAAATTGTAACTTCA TATGCATGTTCCTTGCTTGCACAATCTTCCTATCTCCAGGATTCATTTGTCACTATAAAACCTTCATGGAGAAACGTCTT TTAGTTAATTCCTTTTTTTAGACCCTGTCATGTATTTAACTAAAAATTCCAATATAAGCAACTCGCAAATTGTTGAAGCC ATCATATCAAACATGCATTACAGTCTTTTTCGGAACATATGGTTGCAGAGTTGTTAAACCAGCTGAAGGAGAATTTGTAT CAGTAAAGAAACCTCCTCCCAGTAAGTTTTGGAAGGTATGGTGTTTTTCTTATACTATTGCTTCATGTAAACAAAGTTGT GGTGTGTGGTGTGTTATAGAAATAGGATATTATCTACACCTCCTTTTAGAACAAATATCTCGTGTATTCTTTATTGTCTC TAAAAAGGGAAAGTAAATAAAGATATCTATGACATCTTACTTGCCTCCTTTTCTGATTCTGTCTTTCTCTTCCTACTTAG TCTTATCATCTCTTTAAATACACTGTAATTAGGAGAGAAGGATTCCACTTATTGAAAAACAAAAAAGAGCATAGGTGTGC AGTTCTTGGATATAATGAATCGATGGTTAATAAAAGTGCCTCACTTGGAACTTGGAAGTGTTGGATTGGACATCAATTAA TAGACATTACTTAACCCACCTAGTATGTTTGCATCCTCCCAGCATTATCAGTTTATAATACTGAACAGTATACATAGGAA AGTATTCGGGCTTTGAACCAGTGAGAAAATCTGCCAATCATGAAAGAGGGAAGAATATGAGTTCACATTATATAATAGAA TTAAGTTGTGAATTTGAATCTTTTTGCCAATAGAGAAAGGACGGTGAAGAGGGAGCGAGGTCTGGACGTCTGATAAAAAA GAAAGCTGGATCCAAGAATTTATTTCAAAATTTCAAAAGCACCTACACATTTGTGTTACTCGAAAAAATGTTTTTTAGCT CTGGATTTTGTGTTTAAATCCATACTTTTTACAATTACTGTTTTGAAACTCCACATATATCGTTATCCAGGTGAATGAGA AGCTGTTTCCATGCCAACTATCAAAGATAAATGCTGAATTGGCTGAGAAGGCTGTGGAATTAGCTGTTAAAACTTGGGGC AAGAGATCATTAACTGAGCTTGAAGCAGAGGAGCGCCTATCTTATTCTTGTGAAAAGGTTACATTTTGTTGATAATGAAC TTTTTTAATGTATTCAATGCTTGAAGTCAGTGTAATTATCTTACATTAAAACCTTTACACAGGTGATGTTTATCTTCTTT AATACTTCACTTTGTCTATTTTGGTCCTGTTTTATCAAATTGTCATAATGGATTTATATGTAGGGCCCTGCCCAAGATGA AGTCATTGCTGAGCTGAGAAATGCATTTCTGGAAATCAGCAAGGAATATAAAGTCTTCACTGAAGAAGAGAGGAAGAAGG TTAATTTGTTTCTTGGTCACTACTTTCCTTGGTCTGTTGTTGATACATTTTTGACAATAATTATGGTTGCAGGTCGTGGC AGCTGGTGGACTACATGTAGTGGGTACAGAGCGTCATGAATCTAGGCGAATTGATAATCAGGTTTTCTTTGCTTCTCTCC ATTGCCTTTCTGGGTTGAAAGGTGGAGGGGTGGGGGCTGGAATAGTTTGTGGCCTTACGCATCCACATATTCCCTACCTT TTATTATTCTCACTGTTATCATATACCCCTGTCTACCACTCCTTCTTCCCTTCTGAAAAAAACACTATTGTCAAATAAGT ATTTAAACTCGAAACTCAATTCTTTTCCATGAAGCTGCGTGGTCGAAGTGGCAGGCAAGGGGACCCTGGAAGCTCACGCT TTTTCTTAAGTCTTGAAGATAATATTTTTCGGATATTTGGTGGGGACCAAATTCAGGTAATGTGTTTGTTGTGTTACTGC TGCCCCTGGAATTTTATTTCCCAAAACATGGTTGATATTTTTTTATGTGTAGGGCTTAATGCGAGCTTTCAGAGTGGAAG ACCTACCTATTGAGTCCAAGATGTTGACCAAAGCATTAGATGAAGCCCAAAGGAAAGTAGAGAACTATTTCTTTGACATT CGGAAGCAACTATTTGAGTTTGATGAAGTACTTAACAGCCAAAGAGATCGTGTTTATACAGAGAGAAGACGAGCCCTTGA ATCTGACAATCTTCAGTCTCTTCTTATTGAATATGCTGAATTGACGATGGATGACATTTTAGAGGTAAGTCTTATTTAAA TTATGCTTCTTTTTGTACCTTTGCTTTACCTTGCAATGTAAAAATGCGCGCTTGTGATGAATTAGGCAAACATTGGCTCT GATTCTACAAAAGACAGCTGGGATCTCGAGAAACTGATCGCCAAAATTCAGCAGTAAGTGAAATCTTTTGATCCTGTGCT TGATGCCTTGATCTGTTTAGTTATATGCAGAATCTTGATTGTATTCCTATTGTGCTTTCATGCTTGATCTCTATATTCTC ATTAAGTAGACACTTTTGAAACCTGGACCAGCCAGTCTCTTCAACTATGAACCAGTCACTTTTTTCAGTCTCCTTGATGT CTACCCAAATAGGACTTATCATGAACCAACTATCCTAAAAGCATAAGTTGTTGGGTAAAGGACATATGAGTAGGATAATA TAACATTTCTAACATGCTCCCTTGCACAAGAGCTCGTTACACTTGAAGCGTGGGCAATGCACATAGCTAAACGAGACATG AGGGGTTTTATATTATATTTCTAACAACTGAATTTAATTGCCATGAATTGACGAAAACTAGGGTGGAATTTAATGAAGCT GGCTGAACTGATACTAGTTCGGTGGGATAACTGTCCTATGATTGCTTACTGGACACCAGTAACATGTTGTAATGGTCAAC CAATAGAACCCATCAACTTCGCTGGTATAAAAAATTGCATTTATAAATGGCTTAAATACTCTGGAGGTCCCTGAAATTGT ATGGCGTATGAAAATAAGTCCCTGAAAAATATTTTTCCGATTTGGGATCCCTGAAAATATTTTTTTAATCAAATTGAGTC CCTACCCGTGTTTCAGGCTTATGTGACTCAATTTTTACACAATCAGCATTTCCACGTGGATTTCTTTTTTATTTATAATG CTTAGGTGAAATTTTAAATTAATATATTTATTACATGTGTGTAATTAATAAATAATACTAAATTATTAATTAAAAAATTT CCTTATTATATCTTTAAATTATTAATTAAATCTCATAAATCCTAATTAAACTACTTTAAAACAAATTAGACTTTTCATCT TCAACTTCATCAAACTTCCAGAAATACATTTCTTCATCTTCATCAAAGACTTCATCAAATTTCTTTATCATCTTCTCATT CATACTCTTCCACCATCATCACTTGTAAACATACCCAGAACCTCAACTCCAACCTCTTTCTTCACTTATCTGTGCTAGCT CTGTCCATCAATAAAATACTAGAGGAACAAATTCAAGCAACACAATTTGTAACATAATTCTATATAATGCACATGTGAGT AACATGTGAAGCTTCAAGCTTTGAGAAACACTTCAAATTAATCACCGGAAAAATGAAAATGAATACAGCTTCATCCTTTA ACCCCAAAACCCATAAACTAAAAAAAAAGTAATGGGGGAAGCTCCAAAGCAATTACAGTGGGGAAACGACATAGAAGGAA AACGGTGGTGGAATTGTTGATGGATGAATGGTATGGAACCCTCCTCCTCTGTACTGAAACAAAGCGAGACCAGACTCAGA TGCATGCACTTGGGTAACACCCAATTACTCAAAACTCAGATTTTCTTTCTCAGATCTGAAAACTCAGAAACTGAATTCAC CTCAAAGAGATCGGTGGTGCTGGGTTTGAAGAGAAAAAGGGGTATTTGGAGTAGCAGGTCGATTTAGGGTCCCTTGGGTT TGCTGGGGTTGGGAAAGAAGAAGAAGAAGAAGAAGAGGAGGAAGCTCTGCCTCTTCTCCTCAAGTGCGGCAGATCTCCTT TATGTGAAGGTTTGTGGCTGGGAAAAGAAGAGGTAGGAGGTGGGGGTTGGCTGGGAGGAAGAGGAAGAAGGTTGGTGGCT AGGGTTCTGGAGGAAGAAGATGATGGTTTTCTCACTCCTTGCTGAGAAAGAAGAACCAGAAGGAAATTGGATTGAGTAAT TAAGTCCCTGAGTTGTAATTAAAATAATTATTTAATTATTATCTGACATGGAAAATAAAAAACCACGTGGAAATGCTGAT TGTGTAAAAATTGAGCCACATGAGCCTGAAACACGGGTAGGGACCCTTTTAGATTAAAAAAAATTCTCAGGGATCCCAAA TCGGAAAAAAAAAATTCAGGGACTTATTTTCATATTTCATACAATTTCAGGGACCTCGAGAGTATTTAAGCCTTTATAAA TACTAGACTATTTATAAAAATCAAAACATTTCTATTTCATATAAGTGATTAATGCAATAAAACAATTCGCTATAAAAAAA GAATGTACTGCATCTTTATTTAATTTTTCTTCATTCATTAAAAAGTTGAATGGGTCAAACTGATCTAGTTTTCCTTTTTT TTTCTGTGGGGGGGGGGGGGGTGTGTGTGTGGTGGAGTGTTAGATGGGAAGGGAGATTTTTTTTTATCAAGGAAGATAAA GTTTTTATGCGAGCAATCTGAAGATTTCTCCCTTCACATCATCTCGTGCATTGAGGGAAGTTAAAACCAGGCTTGTTAAT AGCGCGCAATAGCGTAGCCCCCTGGGGGTTCACTGCTACTCCACTATTCACCGCTATAGCGCCACAATAGCGTTCGAAAT AGCCTTTTTTGGGCTTGCCGCTACGCTACGCTATCCGCCATTAACAACCCTGGTTAAAACAACAATAAAAGGATATCCCA CTAAGTTAGGTCGACTTTATGGATCACACAATGCCATTGTGCTCGATCAAAAACCAAATTTTGTCAAATGTTATTGACAG TGAGATCGTTTTTAACAATCTTCCAATGTTCCTTTTGGCCTCTTTCTACCCCTCATCACTGGACTAAACCAATTTATCAA CTCTTCTCATGGGTGCCTCCAAAAGTATTTTCTTAAATCCTGACCAAAGTCCGTACAGGTTTCAGATTAATAATCATTCG TTTTTAAACACTAGGGCAATCTCTTGGATATTTGATCTGGACTTTTACATGACTGATGATATGGTTGTCGATTATTGTTG ATGTGGTTTTCTTTTTGTAGTTGATATAAACCAGTGCATGTTGTCATTTAATCTAGATTTAACAAATTTGTTGACAGAAG ATATTTGATATTTCTTCAGATATTGCTACTTGTTGAATGATCTGACTCCTGATTTGCTGAGGAGCAAGTGCTCAGATTAT GGGGAATTGCAGAACTATCTCCAGCTTCGTGGTAAAGAAGCCTATCAGCAAAAAAGGGTCAGTAAGACTGTTACTTAATA TTTGTAATCCTTTTATAGTTTTTTTGTTTTTTTTTTTTTTGTTTTTGGGTGTCAAAGATCAATCCTTTAAGGAAATCATA AATATACTATAATGTAATGCTTGAGTTTTGCTTTAGAAAGTATTGGCATGTATGGAGAGTACTAGAAAAAGACCTGTTGA AGAGGATAGATAATATATCAAATGGAGGGCAAATAGAATAAGACTAATAAACAGATAGGTCAAACCATTATGGAGGACTT GGTTTTAAACACTATATAGTTTGTCATTAGATATTGTTATGATGCAATATTATTACATCTTATGATTCATATAACTAACT TCACTTGGTGAGAAAGAGACTTTGTTCTTGCAATCTAATGCTCGGACTTATAGCACCTTGTGTGTCATATTTAAACAACT CATACACTCAGTACACATTTTCTTTTCAATTTATTTCTTTTGATATTTTCTTACATGATTATAAATGCTGCCATAGGATA TTGTGGAGCAACAAGCACCAGGATTGATGAAAGAAGCAGAGCGATTCCTGATCTTGAGCAATATTGATCGCCTGTGGAAA GAGCATCTACAAGCACTAAAATTTGTTCAACAAGCTGTGGGTTTACGAGGATATGCACAGCGGGATCCACTCATTGAATA CAAGCTTGAGGGCTACAACCTTTTCTTGGAAATGATGGCACAAATAAGAAGAAATGTTATTTATTCTATATATCAGGTTT GCATCAAGTTAGATTTTTAGGCTCCTTATCCTTTTTTTTTCTTGGTGGCTTTATAACTCCCTTTCATAACCTTTGAACTT TTGGCAGTTTAAACCTGTGATGGTAAAGCAGGATCAGGATAAAACGGAGAATCCGAAATCAGGAAAACGTAACGCACGCA ATCAAGCCAATACCAACTCAGAACCAATTGGCACTGTTGAGCCTTCAAGTATATAACCGGAATCCCAACTTTTTGA

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0238000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAAGAAGCAGAGCGATTCCTGATCTTGAGCAATATTGATCGCCTGTGGAAAGAGCATCTACAAGCACTAAAATTTGT TCAACAAGCTGTGGGTTTACGAGGATATGCACAGCGGGATCCACTCATTGAATACAAGCTTGAGGGCTACAACCTTTTCT TGGAAATGATGGCACAAATAAGAAGAAATGTTATTTATTCTATATATCAGTTTAAACCTGTGATGGTAAAGCAGGATCAG GATAAAACGGAGAATCCGAAATCAGGAAAACGTAACGCACGCAATCAAGCCAATACCAACTCAGAACCAATTGGCACTGT TGAGCCTTCAAGTATATAA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0238000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKEAERFLILSNIDRLWKEHLQALKFVQQAVGLRGYAQRDPLIEYKLEGYNLFLEMMAQIRRNVIYSIYQFKPVMVKQDQ DKTENPKSGKRNARNQANTNSEPIGTVEPSSI

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	PTHR30612:SF6 View details on PTHR30612:SF6 Search for proteins/transripts with this domain View external data on PTHR30612:SF6	1	75	75	8.3E-32	–
Gene3D	G3DSA:1.10.3060.10 View details on G3DSA:1.10.3060.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.3060.10	1	79	79	3.5E-27	–
PANTHER	PTHR30612 View details on PTHR30612 Search for proteins/transripts with this domain View external data on PTHR30612	1	75	75	8.3E-32	IPR000185 Show description in modal box View details on IPR000185 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07516 View details on PF07516 Search for proteins/transripts with this domain View external data on PF07516	1	70	70	1.2E-23	IPR011116 Show description in modal box View details on IPR011116 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF81886 View details on SSF81886 Search for proteins/transripts with this domain View external data on SSF81886	1	79	79	3.14E-26	IPR036266 Show description in modal box View details on IPR036266 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	78	112	35	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	90	112	23	-	–

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: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:0006605 View details of GO:0006605 AmiGO InterPro QuickGO	Biological process	Protein targeting	The process of targeting specific proteins to particular regions of the cell, typically membrane-bounded subcellular organelles. Usually requires an organelle specific protein sequence motif.	Subterm of View details of GO:0006886
GO:0006886 View details of GO:0006886 AmiGO InterPro QuickGO	Biological process	Intracellular protein transport	The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell.	Subterm of View details of GO:0015031 View details of GO:0046907 Part of View details of GO:0034613
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575
GO:0017038 View details of GO:0017038 AmiGO InterPro QuickGO	Biological process	Protein import	The targeting and directed movement of proteins into a cell or organelle. Not all import involves an initial targeting event.	Subterm of View details of GO:0015031

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0238000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi5g1v0238000.1