Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0110300
Transcript ID	LotjaGi4g1v0110300.1
Lotus japonicus genome version	Gifu v1.2
Description	Phytochelatin synthase; TAIR: AT1G03980.3 phytochelatin synthase 2; Swiss-Prot: sp\|Q2TSC7\|PCS1_LOTJA Glutathione gamma-glutamylcysteinyltransferase 1; TrEMBL-Plants: tr\|I3T4M3\|I3T4M3_LOTJA Uncharacterized protein; Found in the gene: LotjaGi4g1v0110300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:15717474..15729468) extracted from Lotus japonicus Gifu genome v1.2.

ATAGAACATGTTAACCTTTCTCACTGATGCCTCCAAAGGTCTTTGCTTGAACCACCTTAGTTAATTTTCCTCATCTTCCT CTCAGGTCCGTGTCACATCAATATCTCCTCTTATACGATCATTGCATATCTTGTCATTCTAGTGTGACATAAAATGAATT ATTTTCTTAGAAGAATTTAAATATCTATGAAAGGACCTGGCCAATTTAAGTGATGAGAGTTTTATGGTTTCTCTTTTTGT TACAAGGTTTAAACACTGTTTGACCATCTTTTTAGTGTGAAGAATATATATATATATATATGCAATCTGGCTTTACATCT TCAGGTTCATGCTTATATCAAGGCCTCATAGGGAACCCGACATGCTTTATACTCTGGTATTTTTCTTTCTTTTGTATAGT GAGTTAGAATTTGACACTTTTAAAAGCATACTGTAAATAACATTGATGTTGGTGTGGGTTGGATGGGTCACCTACTTCTG CTGATCTTGCAGAGCTGCAAACACGAGAGCTGGAGTAGTATTGCAAAATTCCTAATCGATGATGTTCCTTCTCTATTAAA ATCAGAGGATGTGAAAGACATTTGTAAGGTTCTTTCAGTTATAGTCACATCGCTACCATCCAACTTCGAAGAATTCATCA AATGGGTTGCGGAGATTAGGAGGCAAGAGGATGGTGGTCCAAGCTTATGTGAAGAGGAGAAAACACGAGCTGTTGTCAAG GTTTAATACATTTTATCTCAACTAGTCAACCATAATTCTCTTCAACACTGTTAAGCACGTTTGGATACACGACTATTTTT CATGAGATCAATTGATTCAAAGAGAAGCTACTCCTAACTAGTAGCTTTTGTGGTAGCTAGCTAGCAGAATTGATTCTGGA AAATTTGAACGTGAATCTAAACATGCAAATCTCCTTCAGTTATTTCATTTTACTGGTAATAGTCTCATGTGTTAACTGAT TTGTTATGCAGGAAGATGTATTGAAACAGGTGGAGAGGACGAGACTTTTCAAACATGTGGCCTCTTTTTGCTGTCGAGAA ACCTGCATGAAATGCGGGAAAGCTGATGATGACACGCCAATAACAAAAGTTTGTGCCACTGTGCTAAATGGCAACACTGA GTCCATAAGGATGCACCCAGCTAGCACTCATGTGTTAACAGTGCTTCTATTGTCCTTACCATCTACAACCTGGGCTGGTA TCACAAATGAGAAGCTTTTGAGGGAAATTCATGGCCTAGTTTCAACTGAAAATCTTCCGGCGGCTTTGCTTCAAGAAGAG GTACTTATCTTTCATTTGTTGTTTTCTAAAATAAAATAAGATAATAACTCATTTTTATCTTTAATTTCTTCCCCCTTGCC CTGGGATGTCCCTTGGGAAACATAATCTTTTGATGCCTGCGAGTGGCCATAATCGTTCTCATTATTTAATCATGATGCTC AGGTATGCTTCAAAGCAAAAATACTGTACCCCTTGGAAGGGGGTACTTTCTTGATACCGTTTGATGTATCTGCAGTGCTC CTTTAGGACAAAATGTTTCTGTCTCAAGTTTTAAATACTTTAAGAAGTCAAATCACAATATTGTTAATATTGAAAGTATG AAATTCATTAAGTGCCCGTTTGGCATCCCGTTAGAAACGTGGTGTTTGAATTAACGTGATTTTGTTAAAATGATTTTGAG TAAAATTGTGTTTGAGTAAACGTAATTTATGTTTGGATGATTTGTTACAAACGCGACTTTAAAAAAATGAATATTGTTTG GATGATTTGTAACTAACGTGATTTCGGATAATAAGTTTGGAATTATAATTAAAAAAGACATTATCTTAATCAAAACCAAT ATTAACCGAAGAAAACTCAAAATTAACAAGCTGTATACAAAAATTAAAATACTTTTCAAACAAAAAATTCAAATAATAGT GGCCAAGAACAGAGCACCCAGTCCCTTCCAAACATGAACTTGCATCCTCTTCTCCTTTTTCCTTAAATTTTCCTGAATCC CCAAATTGTCTAGGCAAAATCAAACACCAAGCAACCACAGAAACACAAGTCTTGGTCGCTGGATGTTCAGATTTCCTGCA ACGATGAAATTGGTGAGTGAGAAGAGGAAAGAAATCTGAAAAAAGATACATAAATTCCAGATCTTATGTGGAGGGAAGTG AGTCAAAGCTTTGAAGAGGGTTGGTGAAAGCCACAATTATTTTTTTAATATCATTTCTCAACACTCAAACGCCCAACGCC TGACGCAAAAGCTCCAATTTTTCGGTTCCAAAAAAACGCTATTTTGGGGTAGATGAGCGTTGATGCGTTTTGCAGAACGC ATATCCAAACAGGGTTGCAGATCTGAAGAACCACGTAAATCTAAACGCAACGCCCATTTTCTGGCTGAAACGCCAAAACA AACAGGCCCTAAGAAACCTAAATTTTCTTTAACCCTAATCTGATAAGAAACCTTCTTAACAAATATGGAGGTCATTTGAC TCTGTTAAAGTGCTTCTTGTGACATGACAAACTTCAAATTCTTTATCTGATGTGCCTTGCGACATGTTTGGTATATGTTG AAATCCTCTCCTACCAATGTTGGGTTTCTGAACATGTACTTAGTGCATGTTTGGTTGCACGTGTGAAATCTTCATTTGGA TTCCAAAATTATGTTCATCCATAATTTACAAGATAGAGTGTCTTGGCTAATGTGATTTCGAGTGTGATTCCAACACATCC AAGCACGCTATTAGATTGGCATATGCGTGTTATAGTGCGTTATTAACTGGTCCACAAAAAATGCTTTCTTGGTCTTGCAT AGGAGTACCGGTGTCAACCAATACCCATATCCATTGTATGCTATTATTCATCTAGATTAATCCGATTTTTTTTACCTCAT TTCATCATATCATTCATTCAAAAAAAGATAAAAAAATTTGGGTTTGCCATATTCTATAGATATGACTTCACTATAGTATA TACATATAACTTTGATATATTCAATTCAATGTATTAGAATGGGTTGCCCGGGACTTGAACCCGGAACTAGTCGGATGGAG TAGATATTTTATGGCTTATTAGCACTTTTGGTCCCCCAGGTTTCACATTTGTGCAAACGAGGTCCCTTAAGTTTAAATAT AGCGTTTTAGTACCTCCACGTTTATCTCCGTCAACAGTTTTAGTCCCCCAGCGCATTTCCGTCCAAAAGTTAACGTTTTT TGCTGACGTGTATAATTTTTAATTGATGTGGACACCCATTAGGAGAGAGGACTCATAAGACACACCATGTGAGGTGCACA TGCTCCCTCTTCTTCACCACTACCCAGAAACATCATCTTCTTCAACCCAACCTAAGCAAATCAACCCAGATTTATGCCTC TTTTCTCTTCTCTCTTGTGTGTTCAAACTTCAAAGTGAAAGAGAGGAAGATGATGCTGTGTTTGGGGTCCTGTTTTTGTT ATGGTTTGAAGTGCAAAATCAATTATCAATTATCAATCACAATTGAAAGTGAGATATCAGATTGGAACATGAATGTGATG ACACCATCAACTCGTGAAATCATGTCTCTTGTGCTTTGAGAAAGAAAGAGCAAAAATCCCCTTAAAAATCAAACCTTTCT CCCTCTCCATTCTCCACACCACCATCAGACCTTTCTCCCTCTCCATTTTTCACACCACCTATCTCCCTCTTCAATGTGGA AAGGTTCCTCCCTTCTTATTTATGGCATCGGATTCGAAGAGAGGAAAGCAAGATCTACCTCAAAGTTCCTTCCTTTCTGA AAAAAGAGGTCGCCGGAGTTGACGGTGGCAGCGGCGGTGTGGCCAAAGGGGAAACTGGTTAGTGGGTTTTTTTGCGGACA GGATGGTGGTTTCAATGGTGGTGGTCTCGTGATGAAAGGACACGGGAGTTCGCTGGAAAACGTCGTCGGAGTTTTCACCG GGAAACTCGTCGGAAATCACCTCTACGGTGGAGCACGGCGGGGGACGACGAGAGCAACTGGATCTTCCTCTGCTCGTGGC AACGATCCTCATGGTGGTGTTTGTTTTCTCAAAATGTGGAGGATTTGGAGGATTTAGCAAGTCTGGAACATTCAATTAAG CTTGTTAGCCCAACACCATCGTATTACATATCTCCCCTTTCATTCTCTATCTCATAAATTCTTCACGATCAACCATGTCG TCCACAACTCTATCCCCTGTAACCCTTTCACATGTATTACAATAAAAAATGTTGATTTTTTCTTTCATACTTTCTCTGTA ACAAGCAAGTGACTTACTTTGTGTTTTGATTTCAGCTATGATAGGGAAGATGAAGAAGATGATAGAGAAGGAGATGAAGA TTATGAATATTTTGGGTTCAGATTGGGTCACCTGAGGGCCACATGATGTTTTTTTTTTATCCCATTAACCTTTCTCTCTC CTACTCTCATGCCACCTCAATTAAAAAACTGCCAAATCAGACAAAAACGTTAACTTTTGGATGGAAAGGCGCTGGGGGAC TAAAACTGTTGACGGAGATAAACGTGGAGGTACTGAAATGCTATATTTAAACTTAAGGGACCTCATTTGCACAATCGTGA AACCTAGGGGACCAAAAGTGCTAATAATGTATTGTTTAATGAAATTAAACAATAAAACAAGAAAAAAAACCCTCCCCAAG CCGTTCTTGCATTTTTCATTGCATACGGCTTTCCCTACACTTAACTTTTGCTAATTTTACTTCATCTTCATTCGTCAACT TGAACTTGTTATGAAATTTTGCATTTCAGGTTTTGCATTTAAGACGTCAGCTACACATACTCAAGAGATGTCAAGAAGGT AAGGTAGATGGGGATCTTGGTGTACCTTCGTCTAAGCAGCTCCTTAATTCTTATTCGTCCATGACGAGGCTTTGTTTGAG AACCAGGGTCGCATTTTAATACACTAGGGTTATTTATACACCAATGATAAGAAAATTGAATTCATGAAAATTAAGCAACA AACAAGAGAATTGAAACAATAAATTCAAGTTTGAATTCAGGAAAATTTAAATATCCATAAAAAGTGATACATGAGAAAGT GAATAGTAAGAGAGAAAATTAAAATAGAAAGGTTCTAAATGTTGTACCACTTAAGCAAAATCATTGTTCTTTCTCTTTGC TTTGTTTGAGTTGTTTCTTTAATTAAACAAATCTCTATTAGACAATGAAATTTTCTTCTCTTTGGCCTTTGCCTTGTATT TTTCCTTTCTTTGTGCTTCTGTTTCACGGCTTCTGTTTCTATGTTTTTAAATTGTAGTTTCCTCTTAGTTTTTAAATTAT ACTAGATCTTGTGGGACCCACAGCATGTGTTAAAAGAAAAACAAGAAGAATAATAGGTTCTCTATAAACGTATAAAAAAA AAGTGTCGTGCTGCCCATTGCTAGTTTGCTACCTCACGTGCTGTGATGTCTAGACTAGGGGTGACTGCCTCAAAAAAAAT TTCTTTGGAATTGTTAGGAAGCCAGGGGTGACTTCCCTGTGCTTAGTCACCCCAGTGCTTCCGCCACTGGGTATTTTAGA GGAAAATTAAGAATTCTTTACATTTGATAGTAGGAATAAGATGTTGTCTAAGATGTAATAGTGAGTGGGTCTTGCACCCA TGCCATACATGTTAGGAACAATGGAATCACACCACCTATCAGAGTAGAGAATTGGAAACTGATTGGTTCTGTTAATAGAT TTTTTTAACTTATTTTAATTTGTTTTGCTTTTGTCAATAAAGACCTTTACTATAGGAGGTGGTCTATCACACTTAACCCC TTCGCCCCTCTTTTCCTCCCGGAGCCTCCCTCCGACCACCATCGATGAAGAAACACCAGATCTCTGAGAAGCCAATCTCT TCCCCTCTTCCCTTTCTTCAACTTCTGCCCCTTTCTGGGTTTAGAAGATGTGAAAACCCAAAAATGTTGTAGCAGAGCCC ATCATCATAGGCAAGATAACTTGGCTTACCACTCTTCTCTCAGAACTTGGTCACCCTTTGCCCTCTATGCCTAGAATTCA TTGTGATAATATTGGGACCACGTATCTATGTGCAAACCCAGTTTTTCACTCAAGAATGAAACACTTGGCCATTGATTTTC ACTTTGTCAGGGAACTAGTTCAACAAGGTAAGCTCACTGTCTCTCACATATCAACTAAAGACCAACCAGCTGATGCCTTG ACTAAACCTTTATCTGCTGCCAAGTTCTGCACATTTAGAGACAAGATGCATGTCATTGATGGTGACATCATCTTGCGGGG GCGTAAAGATAATCAGTTACCACAAGAAGAGGAGCAGCAAATATTTTCTGTTAGCACGTGAAGAGAAGCCATTATGTATC TGTTGTGAATTGGTATATTAATACATTATGTATCTATATCAAGTTGCTATTTTATCTCCAGTTTAAATTTAAATGTAGAG CTTATATCTCTTGAGTTGTTAGTCACTATGTGTATATATAGAGATACATGTAATGTTGAATTGGCAATAAAATACAGTTC TGCTATATACTCTTTTAGGCTATCTGTGTCAGGGGAACCAGCTCTATCTGGAAAAGTGACAGCGCAGCTGAAGGTGCAAC TAACTTTCAAAAGTTCCTGTTTTTATTTACCAATTCTCTCATTGTGCTAAGGTCTTAAGAAATAAAATCCCAATCCCATC CCGGAGTTGTCACTGGTTAATTATTGTTTCTTTAAAACATTAGGATATAATGGTGCTAACTGCTAAATTACTTGAAAGTC CAACAAAATCAGGAAACGAGGGTGGCGTTGGATTTAGAAAAAGGAATGATGATGAGAAAAAGCCTACTAAGCAGCTTACA AAATGGTTCAAATCCTAGTTGAAGCACAAGGCAAAACAAGTGAACAAAATAAAATTGCCCAGTCTACATGGCAAAGCATA AGATTCATACATCAAGCTCTTCCAAAAGATAAGCTCATTGACTGTTACAAAAATCTACTCAAAGCTTGAACACCTGAATT GTTAGCAAAGCTTGCAACCAAAAAAAGATATTGCAACACATGGCAACAAGAGCATCATCCCTGAGGAGGAGCACCCACTA CCACAAAAATGGCTTTGGGCAGCGGCTATGGGGTAGCGGTTCACTGTTTACCGCTGCCCAAGTCTTATAGCAAAAAAAAA AATATGGAAAGAAGCTATCTTGTAGCATTAAAAAAACAGAAAAAATCAATTTTATAATGAAACCGCTACTCAAATAAAAT TTCTCGGTGCTAGGTAGCGGTTACTGGAACCGCTACCCAAATTGAACCCTTTTCCCCCAAATTTATCAAAACCCTACTTG CGAAATCCTTTTCCCTTTCCTTCTCTCGTGAACGCAATAACCCTTGCTCGATGTCGTAACCGTCTTCGCATCTGAACCAC AAGCCTTGGCTGCCTTCCACCAGTGCTCGACACAAGCTCGGCAGGGGCACAAGCTCTACAGGTGACATCTCCCTTCTTTC ATCTTACCTTCTTTTTTTACTGCTGCTTCTGTTACTCACGCGTCTCCCTACTTTCGCGATCCTGATCTCAACCCTTCCTC GTTGCCATCACCGTCTCTGCATCTTAGAGAGTCGTAGTTCCGCGCCGCATCTCAAGGAGCCCTAGTTCTGCGCTGTCTCT CTCTCTTCACCGAGCCTTGGTTCCGTTCTGCTGCTTCGTCACCGGCTCACAACACATCTCGCCGCTCTTCAATTCTCTTC TGCACCTTGATTCCCCATAGCCAAATCAGCTTCACCAATAATAGGTATCATTTTCATTTTGTTGTTTGGGCTTTTGAATT GAATTCGGTGAAGCTCAATTTCTGCATCATGATAAATCGAAATAAAAAATTTGATTGCATTTCTTATGCTGATATGCTAC CTCTTGCTGCTAGAAATTTTGTTCTTATGGTTTGTTTATGTGACTAGGACCTACGTATCTCCAATTCATTGACTTGGGTC CTCACTATATTGATTTTTAAGGATTTCTTCTGGTTGTGTATTATTAGAAGATTGGCTTGATTTAATCTTGAACATAACAG CTAAACAGAGAAAGGAAGTGGAAATCCATTTATTCCTTTATTATGTTTTTCTGGAATGTGTATTCGTACTCTAAATGTGC ATTATCTTTCCCTGAAAAATTAGCAAACCATTTATTTGTCTAAATGAATTTTTATGTTGGTTCAGCTAGTTGAATACTCA TGTCTTTATGTGTGCATATTTGTGTTATTTTATGGTCTTTTGCTCTAGATACTCCAGGAGGTGCTCTGGTTGTGTGCTTC AAGATGTGCCAAGTGTGTATTCAAGGTTAATCCGCTCATGTTTCTAATCATGTACTGTTATGTGTTTAAACTTATACAAA GTTGGTGTTTCTCCTAAATCTCTGGTGTGAAAGTTGTTGGATGTTTTTCCTTTTGTTTATCCTTGTAGGTAACATGGGTT GAGCATGGAAAAGTAGAAGAGAAACCTGACCATCAGATATTCCGTAAGAATGGCAGTTGGAGCACAACGCTGGTTATGAG TTTTGCAGAGACTGTGTGAAAGGGTTGCTAGCCTCATGGTCATGGCCAGAAACATATCAGATCCTAGAGGTTCTCAAAAT CTTATCTACCTTTTGTCAAATTTATGATAATTGTATATTAAGTTATAAATTTTCCCAACTTAGTAAAAAATGGTGCATGA ACTGAGCTATAACAAAATTAGGGAAACTAGTTCAGTTATAGAATAATAGAATAGACTAAAAAAACAGATATAATAACTTT GATTTTACTTATTTTCTCTGCTTTGTAGTGATACCTTCTTCAGAAGCAAGGAAAAACTAGATGAAACTAGCTCAAGGTAT GACAGAAACATTTAGCCTTAACATGAACACCTTTGGTGGCCAATCTTGGACTGCCATATCAGATTTCCCTGAAGACACAG TTAGAATCACATCTAGGAAAACCACAACCTGGGCAGCCTAATGGCTAATGGGGTGATTCTCAGTGCAGTTTCAAGTTTCA ACCATCTGACTTCCTTATCCTCACACCAAGGTCTTTGATCTTCTAAGGAATGAATGTCAAAGATCTAAGGTACCACAAAC AATTCATAATAGCATGTGTAGTTTTCACGAGTTTTCTATTTTGCTTTAGCTTTCTATTGTTATTTACTAAGTGAATTATT GTTTTATCACATTAGTGAATTATTTACTGGATGGTGTCTGATTGGTTTGGTAGCATGTGTGCGAAGATGCAAGATTAGCC ATGAAAGTTTATTCAGTGAATTGTTGTTTTATCACATTAGTAAATTATTTACTGAATGGTGTATGATTGATTTGGTTGCA GGAAAAGGGATTAATTATCTCCATGAAGCCTCTTATTGTGCCTTGGGATCTCAAATCCCCAAACATGTTGGTATAACTAG TATTTTTCTTTGATTTTTTGTTAGCCCTCTATATTCTGAACTAGTTTAAAGCTTTTAGTTATCAATATGTTTCTAGTTAG TGATAATTTCATACCTTTTCATAGAGTTTTAGTATAGTAAGTTGGTACTTGAGTGTGTCCTAGGTCCTAGTATATTTATT GGGTTTAGCAATGAAACATCATGTATATCTTTTGATTTAATCTTCTCTTGTCTATGAGTTTTTGGAGGCCAGGGAATTTG GATTCAGTATGAGTTTTATATGTGTGTTGATGTTTCTATTTAATCTAAAAATATTTGTTTCATATGGTTGAATATAGTTT GGCTACAAAATAAAGGTGCGAATTGGCAAAATATTGCCACAAATACTTGTGGGGGTGACAAACCGCCACTATTCTACAAA AAATATTTAAAAATAAAAACGTGTTAGGTAGCGGTTCTGCCCAAGGTTTAACGCAAAAAAAAAAAAAAGGCTGGCAGTAT TGGTAGCGGTTCCCATTGGTATGAACCGCTACCCCAGATCAATTTGCGCAGCGGTTATTAACCGCTACCTATCTTTAGCA CCGCTGAGTTATGCACCACTCATTTAACCGCTGCCTAACTTGTTATAGAACCGCTACCTAAAGGCATTTTTGTGGTAGTG ACCCGTATCGATCATGAGAAAGTCTACAAGAAGTTGCACTCGCAAGAATAAAACCTGTTTAATGAATAGTGCTAATTAGT ATCACCAACTCATAAATGATATCAACTTAGCCGGTAAGTATTATTATAACAATTTCCTCAAAACTAGTCATTTCTCTTCA ATTAGTTATCATGAATTCACTCTTAAAGTACTGAAAAAGCTGGTTCTAACGAAAACATTACCTCTTCCTGAAGTAAGAGA GGAAGATTTTCAGTTATTAGCCCAGTAACTTCGGCACGCAACTTCTCTTCTTTGATGGCCGACCATATATGCCAAGGCAA GGCCAATAAAAGCACTGTTAAGACATTTGCAGTGACCAACACATCAAGTTCACTGCTAAAATGTGGCAAAAACAGGGCCA CATGCTTGAAGAGTTCTGTCCTCTGCACCTGTTGCAACACCTCTTCCTGCATAACAAATCAGTTAACACTTGAGACTATT AAAAGTAAAATAAACTAACTAACTGTAGTTGATTTGCATGTTAAAACTTGAGACTATTAAACCTTGACAATAGCTCGTGT TTTCTCCTCTTCTTCACTTAAGATTGGACCACCATCCTCTCGCCTCCTGTCCTCCGCAACCCATTTGCTGATTTCTTGGA AGTTAGGTAGCGATGTGACTATAAGTGAAAGAACCTTACGTATGTCTTTCACATCCTCTGCTTTCAGTAGAAGAGGAACA TCATTGATTAGGAATTTTGCAATACCATGCCAACTTTCATGTTTGCAGCTCTGCAAGATCAGCAAAAGTAGGCAACATCA ATGTCATTTACAATATGCTTGAAGTGTCAAATTAATTCTGATTCACTTTATAAAGGAATAAAAAATACCATAGTATAAAG CATGCCAGCTTCAATTATCAAAAAAAAAAAAAAAGCATGCCAGCTTCCCTGTGAGGCTTTGAGACAAGCATGAACCTGAA GAGGATAAAGCCAAATTGCATATATAATTAACATCAAAAAGATGACCAAATAATGTTTAAACCATGTAATAAAAGAGAAA CCATGAAACTTTCTCATCACTTATCCAAAAGTTAACCTCAATTACATTCTAACAGTTGGATCAATCAAGCTAGAAGGTAA ATGAAATAAACTTTACCCCCTGGTTTTTCCCGTGGACTCATCAACACAATTCATGCCTTCCCAAAGAACCGTAAGGGGGA CCCAATGGGGAGGATACTTGAAACGTGCAACATCCAAAATAAGCACCATGTCCCTTCCAGCATGATAGCCTCCAATAGGA GTAAAGTGACCAGTTCCTTTCTGTCACAAAAATAATTAAAAAGAATCAACTAAACATTCTCACCGAAGGTTATTAAAACC GAACCGGTGATCAAACCGGTGAGAGCACTGGTTCAAGGTTCATTGGTTCAACCGTATTAGAACTGTGGTCTGACCGATAT TACTGCTATAAATTAATTAATATTATTTTAAAATAAATACATAATATATGAATATATGAAGTAAAAAAATATTGATTTCA ATATATAATAAGAAAGAAATATTGAATTAAAATATATTATCCATTACTTCATAATCAATATCAATATCAATATCAATCAA TCAATCAATCAATATCAATATCAATATCATATATATTAGAAAAGAACAACTTTTAGCATGACGTGTCAGCACCAGATTAA TTCTTAGTGACGTGTCATTCTCACGTTAATTCTCATAAAAAAAATTCCACGTGTCATTCTCAGGTATTTTTAGAGTATTA ATTAATTTTTATGGTATTTTTATTGAATTTTCGGATTTTTAATTAATTCTGGATTTTATGAGTTTTTATTGTGATTTGCT AGATTTTGGTAGTTTTTATCTATATTTGTTTCTCTATTTTAGATTAGTATCTACATAAAAAATATTTTTTTAAGATTTTG TTTTGTTTTTATTGTTATTTGTTAGATTAATTATTATTAGTCTTATCTCATTGAGATATAGTTTAGATTTGTTAC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0110300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCTTATATCAAGGCCTCATAGGGAACCCGACATGCTTTATACTCTGAGCTGCAAACACGAGAGCTGGAGTAGTATTGC AAAATTCCTAATCGATGATGTTCCTTCTCTATTAAAATCAGAGGATGTGAAAGACATTTGTAAGGTTCTTTCAGTTATAG TCACATCGCTACCATCCAACTTCGAAGAATTCATCAAATGGGTTGCGGAGATTAGGAGGCAAGAGGATGGTGGTCCAAGC TTATGTGAAGAGGAGAAAACACGAGCTGTTGTCAAGGAAGATGTATTGAAACAGGTGGAGAGGACGAGACTTTTCAAACA TGTGGCCTCTTTTTGCTGTCGAGAAACCTGCATGAAATGCGGGAAAGCTGATGATGACACGCCAATAACAAAAGTTTGTG CCACTGTGCTAAATGGCAACACTGAGTCCATAAGGATGCACCCAGCTAGCACTCATGTGTTAACAGTGCTTCTATTGTCC TTACCATCTACAACCTGGGCTGGTATCACAAATGAGAAGCTTTTGAGGGAAATTCATGGCCTAGTTTCAACTGAAAATCT TCCGGCGGCTTTGCTTCAAGAAGAGGTTTTGCATTTAAGACGTCAGCTACACATACTCAAGAGATGTCAAGAAGGTAAGG TAGATGGGGATCTTGGTGTACCTTCGTCTAAGCAGCTCCTTAATTCTTATTCGTCCATGACGAGGCTTTGTTTGAGAACC AGGGTCGCATTTTAA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0110300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MLISRPHREPDMLYTLSCKHESWSSIAKFLIDDVPSLLKSEDVKDICKVLSVIVTSLPSNFEEFIKWVAEIRRQEDGGPS LCEEEKTRAVVKEDVLKQVERTRLFKHVASFCCRETCMKCGKADDDTPITKVCATVLNGNTESIRMHPASTHVLTVLLLS LPSTTWAGITNEKLLREIHGLVSTENLPAALLQEEVLHLRRQLHILKRCQEGKVDGDLGVPSSKQLLNSYSSMTRLCLRT RVAF

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	PTHR33447:SF9 View details on PTHR33447:SF9 Search for proteins/transripts with this domain View external data on PTHR33447:SF9	1	111	111	4.9E-62	–
PANTHER	PTHR33447 View details on PTHR33447 Search for proteins/transripts with this domain View external data on PTHR33447	1	111	111	4.9E-62	IPR040409 Show description in modal box View details on IPR040409 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09328 View details on PF09328 Search for proteins/transripts with this domain View external data on PF09328	8	111	104	2.5E-48	IPR015407 Show description in modal box View details on IPR015407 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR33447:SF9 View details on PTHR33447:SF9 Search for proteins/transripts with this domain View external data on PTHR33447:SF9	112	219	108	4.9E-62	–
PANTHER	PTHR33447 View details on PTHR33447 Search for proteins/transripts with this domain View external data on PTHR33447	112	219	108	4.9E-62	IPR040409 Show description in modal box View details on IPR040409 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09328 View details on PF09328 Search for proteins/transripts with this domain View external data on PF09328	141	203	63	1.1E-22	IPR015407 Show description in modal box View details on IPR015407 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:0010038 View details of GO:0010038 AmiGO InterPro QuickGO	Biological process	Response to metal ion	Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of a metal ion stimulus.	Subterm of View details of GO:0010035
GO:0016756 View details of GO:0016756 AmiGO InterPro QuickGO	Molecular function	Glutathione gamma-glutamylcysteinyltransferase activity	Catalysis of the reaction: glutathione + Glu(-Cys)(n)-Gly = Gly + Glu(-Cys)(n+1)-Gly.	Subterm of View details of GO:0016755
GO:0046872 View details of GO:0046872 AmiGO InterPro QuickGO	Molecular function	Metal ion binding	Interacting selectively and non-covalently with any metal ion.	Subterm of View details of GO:0043169
GO:0046938 View details of GO:0046938 AmiGO InterPro QuickGO	Biological process	Phytochelatin biosynthetic process	The chemical reactions and pathways resulting in the formation of phytochelatins, any of a group of peptides that bind metals (Cd, Zn, Cu, Pb, Hg) in thiolate coordination complexes. The structure is of the type (gamma-glutamyl-cysteinyl)n-glycine, where n is 2 to 11.	Subterm of View details of GO:0043043 View details of GO:0044550 View details of GO:0046937

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0110300.1, 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…

LotjaGi4g1v0110300.1