AT5G11180

Gene Details:

Gene ID: AT5G11180
Gene Symbol: ATGLR2.6, GLR2.6
Gene Name: ARABIDOPSIS THALIANA GLUTAMATE RECEPTOR 2.6, glutamate receptor 2.6
Description: glutamate receptor 2.6;(source:Araport11)
TAIR Accession: locus:2148002
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Transcripts:

AT5G11180.1 AT5G11180.2

Gene Ontology:

GO:0005886 — located in — plasma membrane
GO:0005886 — is active in — plasma membrane
GO:0005262 — enables — calcium channel activity
GO:0008066 — enables — glutamate receptor activity
GO:0019722 — involved in — calcium-mediated signaling
GO:0071230 — involved in — cellular response to amino acid stimulus
GO:0009416 — acts upstream of or within — response to light stimulus
GO:0038023 — enables — signaling receptor activity
GO:0006816 — involved in — calcium ion transport
GO:0005217 — enables — intracellular ligand-gated monoatomic ion channel activity
GO:0006874 — acts upstream of or within — intracellular calcium ion homeostasis
GO:0015276 — enables — ligand-gated monoatomic ion channel activity

Literature:

The identity of plant glutamate receptors. DOI: 10.1126/science.292.5521.1486b ; PMID: 11379626
The identity of plant glutamate receptors. DOI: 10.1126/science.292.5521.1486b ; PMID: 11379626

Sequence:

cDNA Sequence

>AT5G11180.1 ATGTCTTTATTCAATCATCTTCTATCTCGTGCTCTTCCTTTATGGCTTTTATTTTTTATCAACTTCTTAGTATTACTCGGGAAATCTCAACAGGAAGTTTTACAAGTTCAAGTGGGAATTGTTCTTGACACTAATGCGACATTAGCAGCTTTGAGCTTACGAGCTATCAACATGTCTCTCTCTGAATTCTATAACACTCATAATGGCTTCAAGACGAGGATTGTCCTCAACATCCGAGATTCCAAACGAACTGTTGTTGGTGCTGCAGCTTCAGCTTTATACTTGATAAAGAAGAGGGAAGTGGTGGCCATTATAGGACCAGGGAATTCAATGCAAGCACCATTTTTAATCAACCTCGGAAATCAATCTCAAGTTCCCATAATTTCATTCTCTGCGTCAAGCCCTGTTCTTGATTCTCTCCGTAGTCCATATTTCATCAGAGCTACACACGATGACTCATCTCAAGTGCACGCCATTAGCGCCATCATAGAGTCATTTAGATGGAGGGAAGTTGTGCCTATTTATGCAGACAATGAGTTCGGAGAAGGTATTCTTCCTTACTTAGTTGATGCTTTTCAAGAGATCAACGTTCGTATCCGATACCGAAGTGCCATATCAGTCCATTCCACTGATGACCTAGTCAAGAAAGAGCTTTACAAACTAATGACCATGCCCACTAGGGTTTTTATCGTGCACATGTTGCCTGATCTCGGATCGAGGCTTTTCTCGATAGCAAAAGAGATTGGTATGATGACTAAAGGATATGTATGGATTGTCACAAATGGTATAGCTGATCAAATGAGTGTAATGGGGGAATCAAGCTTGGAGAATATGCATGGTGTCTTGGGCGTCAAGACATATTTCTCAAGATCAAAAGAGCTAATGTATCTTGAAACTCGTTGGCGAAAAAGATTCGGAGGAGAAGAGCTAAACAATTTTGAATGTTGGGGTTATGATACGGCCACAGCACTTGCAATGTCAATTGAGGAAATCAGTAGTAACGTAAACATGAGTTTCAGTCAGACCAAAAGAAACACTTCAAGAGATGATACTGGGACAGATCTTGATGATCTCAGCTTTGCTCTCTCTGGTCCCAAGCTTCTTCAAGCGTTGGCAACAGTCAGTTTCAAAGGCGTTGCCGGAAGATTTCAGCTAAAAAACGGAAAGCTAGAGGCGACGACTTTCAAGATAGTCAATATAGAGGAAAGTGGGGAAAGAACAGTTGGATTTTGGAAATCAAAAGTAGGACTAGTGAAGAGCTTAAGAGTGAATCAAACAGGCATTAAAATATCACACAGCTCGCACCGCCTTAGACCGATAATATGGCCAGGGGACACTATTTTTGTGCCTAAAGGTTGGGAATTCCCAACAAACGCAAAGAAGCTGCGAATAGCAGTTCCAAAGAAGGATGGTTTCAATAATTTTGTGGAGGTAACAAAAGATGCAAATACTAATGCTCCAACGATCACCGGGTTTTGCATAGATGTTTTCGACACGGCAATGAGACAAATGCCTTATGCTGTCCCCTATGAGTACATACCCTTTGAAACTCCTGATGGAAAACCCCGTGGAAGTTATGACGAAATGGTTTATCATGTATTTCTTGGGGAGTTTGATGGAGCAGTAGGGGATACCACAATCTTAGCTAATCGGTCTACATACGTAGATTTCGCGTTGCCATACTCGGAGACGGGTATTGTAGTCGTGGTACCCGTCAAGGATGAGAGGGAAAAAGGAAAATGGGTCTTCTTAAAGCCTTTAACAAGGGAGCTCTGGTTCCTCACTGCAGCTTCTTTTCTCTACATTGGGATCATGAGCTACACAGCAACATTGACATCGATGCTGACGGTTCAAGAACTTCGACCAACAGTGAGACACATGGATGATCTGAGGAACAGTGGAGTTAACATTGGATATCAAACTGGTTCCTTTACATTCGAAAGGCTGAAACAAATGGGTTACAAAGAATCGAGGTTAAAGACTTATGATACTCCTCAGGAAATGCATGAGCTTTTTCTTAAAAAGAGCAGCAATGGTGGTATTGATGCTGCATTCGACGAAGTCGCTTATGTCAAGCTTTTCATGGCTAAATATTGCTCAAAATATACCATTATCGAGCCTACCTTTAAGGCTGATGGCTTTGGCTTTGCCTTTCCATTGGGATCTCCTTTGGTGCCAGATCTTTCAAGACAGATCTTGAATATAACGGAGGGAGAGACCATGAAAGCTATAGAGAATAAGTGGCTCCTCGGAGAAAAACATTGTCTTGACTCAACCACATCGGATTCTCCAATCCGGCTCGATCACCACAGCTTTGAAGCTCTATTTACGATCGTCTTTGTTGTTTCTATGCTTCTACTCTTAGCCATGTTGGTTTGTAGAAGATACCGCCAAGAAAGCAAAAGCGGCGAGATCAATGCTAATAATTCGCCAACAGATGGTAACATGAGAGCTCCACCTAATCAGCCAACAGATGATAACATGAGAGCTCCGACTAGTCCGCCAATTGATGATCAAGTCCTTGAGCCACCTGGTCCAGCATTAAATGAAGCCGATGATCAAGATCAGCTTCTGAATGATGAAGTTAATGTTGGAGATCGAAATGAAGTAGATATTATTGTGGAAGTCGACCCAACTTTGGTTCACCGTAGAAATCTGATCACCTCAAAAACAATACCCACCCGAAGAGCTGCACTATTCTCGAGGATTAAGTCTGCATAGGCTCTGATCGTAGTCTTTCTGAA
>AT5G11180.2 ATGTCTTTATTCAATCATCTTCTATCTCGTGCTCTTCCTTTATGGCTTTTATTTTTTATCAACTTCTTAGTATTACTCGGGAAATCTCAACAGGAAGTTTTACAAGTTCAAGTGGGAATTGTTCTTGACACTAATGCGACATTAGCAGCTTTGAGCTTACGAGCTATCAACATGTCTCTCTCTGAATTCTATAACACTCATAATGGCTTCAAGACGAGGATTGTCCTCAACATCCGAGATTCCAAACGAACTGTTGTTGGTGCTGCAGCTTCAGCTTTATACTTGATAAAGAAGAGGGAAGTGGTGGCCATTATAGGACCAGGGAATTCAATGCAAGCACCATTTTTAATCAACCTCGGAAATCAATCTCAAGTTCCCATAATTTCATTCTCTGCGTCAAGCCCTGTTCTTGATTCTCTCCGTAGTCCATATTTCATCAGAGCTACACACGATGACTCATCTCAAGTGCACGCCATTAGCGCCATCATAGAGTCATTTAGATGGAGGGAAGTTGTGCCTATTTATGCAGACAATGAGTTCGGAGAAGGTATTCTTCCTTACTTAGTTGATGCTTTTCAAGAGATCAACGTTCGTATCCGATACCGAAGTGCCATATCAGTCCATTCCACTGATGACCTAGTCAAGAAAGAGCTTTACAAACTAATGACCATGCCCACTAGGGTTTTTATCGTGCACATGTTGCCTGATCTCGGATCGAGGCTTTTCTCGATAGCAAAAGAGATTGGTATGATGACTAAAGGATATGTATGGATTGTCACAAATGGTATAGCTGATCAAATGAGTGTAATGGGGGAATCAAGCTTGGAGAATATGCATGGTGTCTTGGGCGTCAAGACATATTTCTCAAGATCAAAAGAGCTAATGTATCTTGAAACTCGTTGGCGAAAAAGATTCGGAGGAGAAGAGCTAAACAATTTTGAATGTTGGGGTTATGATACGGCCACAGCACTTGCAATGTCAATTGAGGAAATCAGTAGTAACGTAAACATGAGTTTCAGTCAGACCAAAAGAAACACTTCAAGAGATGATACTGGGACAGATCTTGATGATCTCAGCTTTGCTCTCTCTGGTCCCAAGCTTCTTCAAGCGTTGGCAACAGTCAGTTTCAAAGGCGTTGCCGGAAGATTTCAGCTAAAAAACGGAAAGCTAGAGGCGACGACTTTCAAGATAGTCAATATAGAGGAAAGTGGGGAAAGAACAGTTGGATTTTGGAAATCAAAAGTAGGACTAGTGAAGAGCTTAAGAGTGAATCAAACAGGCATTAAAATATCACACAGCTCGCACCGCCTTAGACCGATAATATGGCCAGGGGACACTATTTTTGTGCCTAAAGGTTGGGAATTCCCAACAAACGCAAAGAAGCTGCGAATAGCAGTTCCAAAGAAGGATGGTTTCAATAATTTTGTGGAGGTAACAAAAGATGCAAATACTAATGCTCCAACGATCACCGGGTTTTGCATAGATGTTTTCGACACGGCAATGAGACAAATGCCTTATGCTGTCCCCTATGAGTACATACCCTTTGAAACTCCTGATGGAAAACCCCGTGGAAGTTATGACGAAATGGTTTATCATGTATTTCTTGGGGAGTTTGATGGAGCAGTAGGGGATACCACAATCTTAGCTAATCGGTCTACATACGTAGATTTCGCGTTGCCATACTCGGAGACGGGTATTGTAGTCGTGGTACCCGTCAAGGATGAGAGGGAAAAAGGAAAATGGGTCTTCTTAAAGCCTTTAACAAGGGAGCTCTGGTTCCTCACTGCAGCTTCTTTTCTCTACATTGGGATCATGAGCTACACAGCAACATTGACATCGATGCTGACGGTTCAAGAACTTCGACCAACAGTGAGACACATGGATGATCTGAGGAACAGTGGAGTTAACATTGGATATCAAACTGGTTCCTTTACATTCGAAAGGCTGAAACAAATGGGTTACAAAGAATCGAGGTTAAAGACTTATGATACTCCTCAGGAAATGCATGAGCTTTTTCTTAAAAAGAGCAGCAATGGTGGTATTGATGCTGCATTCGACGAAGTCGCTTATGTCAAGCTTTTCATGGCTAAATATTGCTCAAAATATACCATTATCGAGCCTACCTTTAAGGCTGATGGCTTTGGCTTTGCCTTTCCATTGGGATCTCCTTTGGTGCCAGATCTTTCAAGACAGATCTTGAATATAACGGAGGGAGAGACCATGAAAGCTATAGAGAATAAGTGGCTCCTCGGAGAAAAACATTGTCTTGACTCAACCACATCGGATTCTCCAATCCGGCTCGATCACCACAGCTTTGAAGCTCTATTTACGATCGTCTTTGTTGTTTCTATGCTTCTACTCTTAGCCATGTTGGTTTGTAGAAGATACCGCCAAGAAAGCAAAAGCGGCGAGATCAATGCTAATAATTCGCCAACAGATGGTAACATGAGAGCTCCACCTAATCAGCCAACAGATGATAACATGAGAGCTCCGACTAGTCCGCCAATTGATGATCAAGTCCTTGAGCCACCTGGTCCAGCATTAAATGAAGCCGATGATCAAGATCAGCTTCTGAATGATGAAGTTAATGTTGGAGATCGAAATGAAGTAGATATTATTGTGGAAGTCGACCCAACTTTGGTTCACCGTAGAAATCTGATCACCTCAAAAACAATACCCACCCGAAGAGCTGCACTATTCTCGAGGATTAAGTCTGCATAGGCTCTGATCGTAGTCTTTCTGAA

CDS Sequence

Protein Sequence