AT5G19700

Gene Details:

Gene ID: AT5G19700
Gene Symbol: ELS1
Gene Name: EARLY LEAF SENESCENCE 1
Description: MATE efflux family protein;(source:Araport11)
TAIR Accession: locus:2183169
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Transcripts:

AT5G19700.1

Gene Ontology:

GO:1990961 — involved in — xenobiotic detoxification by transmembrane export across the plasma membrane
GO:0005770 — located in — late endosome
GO:0010015 — involved in — root morphogenesis
GO:0015297 — enables — antiporter activity
GO:0016020 — is active in — membrane
GO:0060586 — acts upstream of or within — multicellular organismal-level iron ion homeostasis
GO:0010150 — acts upstream of or within — leaf senescence
GO:0042910 — enables — xenobiotic transmembrane transporter activity
GO:0022857 — enables — transmembrane transporter activity

Germplasm Phenotype:

SAIL_1236_H10 — No visible phenotype under typical growth conditions.
els1-D — Early flowering. Early leaf senescence. Dwarf due to shortened internodes between siliques. Smaller and irregular seeds. Smaller lateral organs.Iron deficiency.

Literature:

Predicting transmembrane protein topology with a hidden Markov model: application to complete genomes. DOI: 10.1006/jmbi.2000.4315 ; PMID: 11152613

Sequence:

cDNA Sequence

>AT5G19700.1 CTAAGTCCGACGTGACGGACATATAGGTAATTTGTGTATATAAACCAGAAGTGTTCTGCTGGTAATCATATCTTGTAACCATAATCGTCTTGTGTCTTTTATTTCACAGAGACAAAATGGAAACCCCAAACATCATCAGCCACACAAATCTTCTATCGAAGATAGACCTGGAAAAACAAAACCCTGCCCCCATTTTCCCGACAATCACTGAGCTTAAAAGTGAGGCTAGGTCTCTCTTCTCCTTAGCCTTCCCGACAATCCTCGCGGCCCTCATCCTCTACGCTCGCTCCGCCATCTCGATGCTCTTCCTCGGGCATATCGGTGAACTAGAGCTAGCTGGTGGCTCCCTGGCCATTGCCTTCGCTAACATCACTGGCTACTCCGTTCTAGCAGGTCTTGCACTCGGCATGGACCCACTCTGTTCGCAAGCCTTTGGAGCCGGCAGACCAAAACTCCTCTCTTTAACGCTTCAACGAACCGTACTTTTCTTACTCACAAGTTCGGTAGTAATCGTCGCTCTATGGCTCAACCTGGGGAAGATCATGATTTATCTTCATCAAGATCCAAGTATCTCATCGTTGGCCCAAACATATATCCTCTGCTCTATTCCTGATCTGCTCACCAATTCCTTTCTTCACCCTCTTCGTATATACCTTCGAGCACAAGGTATCACAAGCCCTTTAACTCTCGCAACACTCGCTGGCACCATCTTCCACATACCCATGAACTTTTTCCTCGTTTCTTACCTCGGATGGGGTTTCATGGGCGTTTCAATGGCCGCAGCCGCTTCAAATCTTCTTGTTGTCATTTTCCTTGTGGCCCATGTTTGGATCGCAGGTCTACACCAGCCAACGTGGACCCGCCCCAGCTCGGAATGTTTCAAAGATTGGGGACCAGTCGTAACCCTAGCCATACCTAGCTGCATCGGGGTATGCCTAGAGTGGTGGTGGTACGAGATAATGACCGTTCTATGTGGTTTACTCATAGACCCTAGTACTCCAGTGGCATCAATGGGCATTCTTATCCAAACGACGTCTTTGCTTTACATTTTCCCATCGTCTCTAGGGTTAGCAGTCTCCACCCGAGTTGGTAACGAACTTGGCTCAAACCGCCCAAACAAGGCTAGGTTATCAGCCATAGTGGCGGTTTCCTTTGCTGGGGTAATGGGTCTGACGGCGTCTGCGTTTGCTTGGGGCGTAAGCGATGTCTGGGGATGGATCTTCACAAACGACGTTGCTATCATCAAATTAACCGCAGCCGCGTTGCCGATTCTCGGGCTTTGCGAGCTCGGGAACTGCCCGCAAACAGTAGGTTGCGGGGTTGTTAGAGGCACTGCACGGCCGTCCATGGCAGCGAACATAAACCTAGGAGCGTTTTACCTCGTTGGAACGCCTGTAGCCGTTGGGCTAACGTTTTGGGCCGCATATGGATTTTGCGGACTTTGGGTAGGTCTTTTAGCTGCTCAGATATGTTGTGCTGCCATGATGCTATATGTCGTGGCTACTACGGACTGGGAGAAAGAAGCAATTAGAGCCAGAAAGCTAACGTGTACTGAAGGCGTTGATGTGGTAATAACAACAACGCAAACCAACGGAGACTTATCGGAACCATTAATTTACGTTGTCACTGTCGCTACTGACTGACATCGATCGGTGTTTTGAGTTGTTTTATTTTATTTTACTTAATATTTGTGGATGAATCGATCAGTTTTTTTTGGGAGGGCATTGGGAGACATTTGTATTTTTAAACGAGAAAGTTACCAAAAAGAATCTGATTCATAATTTTG

CDS Sequence

Protein Sequence