Gene Details:
- Gene ID: AT5G19410
- Gene Symbol: ABCG23
- Gene Name: ATP-binding cassette G23
- Description: ABC-2 type transporter family protein;(source:Araport11)
- TAIR Accession: locus:2150290
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0042626 — enables — ATPase-coupled transmembrane transporter activity
- GO:0055085 — acts upstream of or within — transmembrane transport
- GO:0016020 — is active in — membrane
- GO:0055085 — involved in — transmembrane transport
- GO:0016887 — enables — ATP hydrolysis activity
- GO:0140359 — enables — ABC-type transporter activity
Literature:
- The Arabidopsis thaliana ABC protein superfamily, a complete inventory. DOI: 10.1074/jbc.M103104200 ; PMID: 11346655
- The predicted candidates of Arabidopsis plastid inner envelope membrane proteins and their expression profiles. DOI: 10.1104/pp.008052 ; PMID: 12376647
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Inventory and comparative analysis of rice and Arabidopsis ATP-binding cassette (ABC) systems. DOI: 10.1016/j.jmb.2004.07.093 ; PMID: 15381434
- Genome-wide analysis of ATP-binding cassette (ABC) proteins in a model legume plant, Lotus japonicus: comparison with Arabidopsis ABC protein family. DOI: 10.1093/dnares/dsl013 ; PMID: 17164256
- Host origin of plastid solute transporters in the first photosynthetic eukaryotes. DOI: 10.1186/gb-2007-8-10-r212 ; PMID: 17919328
- Plant ABC proteins–a unified nomenclature and updated inventory. DOI: 10.1016/j.tplants.2008.02.001 ; PMID: 18299247
- Acyl-lipid metabolism. DOI: 10.1199/tab.0161 ; PMID: 23505340
- Disruption of the ABA1 encoding zeaxanthin epoxidase caused defective suberin layers in Arabidopsis seed coats. DOI: 10.3389/fpls.2023.1156356 ; PMID: 37008500
Sequence:
cDNA Sequence
- >AT5G19410.1 CAACAATACTCATACCATGGCTTCCTGCTTCCACCCTTCTGCTATGGCTACAAGCCACCGCGAGGAAGACTCCATCATTCTTTTCTCAGCATCAAACTCTCCTGATGAATTCTCCTCTGCTTCCTCTTCCTTTTCTTCTTCACCACTCCCAACCCCTAACCGCTACTCTTTAACCGTCACTAACCTATCCTACACCATCAATCACACCCCAATACTCAATTCCGTTTCATTAGCTGCTGAATCCTCTAAAATCCTAGCCGTGGTTGGACCGAGTGGAACAGGAAAATCCACTCTTTTAAAGATCATTTCAGGAAGAGTGAACCACAAGGCACTAGATCCGTCTTCCGCGGTTTTGATGAACAATCGTAAAATCACTGACTATAACCAACTACGAAGGCTATGCGGGTTTGTCCCGCAGGACGATGACCTACTGCCTCTACTTACCGTGAAAGAGACGTTAATGTATAGCGCCAAATTCAGTTTGAGAGATTCAACGGCTAAGGAAAGAGAAGAGAGAGTGGAGAGCTTGTTGAGTGATCTCGGTCTTGTTCTCGTCCAAGACAGCTTCGTGGGAGAAGGAGACGAAGAGGATCGTGGCGTTTCGGGTGGAGAGAGGAAGAGAGTCTCTATAGCCGTTGAGATGATTCGTGATCCACCAATTCTGCTTCTTGACGAACCAACCTCTGGTTTGGATAGTCGAAACTCGCTTCAGGTTGTTGAGCTTTTGGCTACTATGGCGAAATCCAAACAGAGAACCGTCCTCTTCTCCATCCACCAACCAAGTTATAGGATCCTCGATTACATCTCCGATTACCTGATTCTTTCTCGCGGATCGGTTATCCACTTGGGAAGTCTTGAACATCTCGAGGACTCGATAGCGAAACTAGGGTTTCAGATTCCAGAACAGCTGAATCCTATAGAATTCGCCATGGAAATAGTTGAGTCCTTGAGAACTTTTAAGCCAAACTCGGTAGCTGTCGTAGAATCATCATCAATGTGGCCTGAAAACAACGAAAACGATGGGATTATCTCTAAGAAAGAAGCGTTTCGTGTCCTAGACGTCACCGAGATCTCATACCTCTGCTCAAGATTCTGCAAGATCATCTATAGAACAAAGCAGTTGTTCCTGGCGCGAACAATGCAAGCGGTTGTAGCTGGATTAGGTCTAGGTAGCGTCTACACAAGACTCAAGCGTGACGAAGAAGGCGTTGCAGAGCGGCTTGGACTCTTTGCCTTCAGCTTAAGCTTCCTCCTCTCTTCAACAGTCGAAGCACTTCCCATTTACCTCCGAGAACGTCGCGTTCTGATGAAAGAATCATCTCGTGGATCCTACCGAATCTCATCCTACATGATAGCCAACACCATCGCATTTGTACCGTTCCTCTTCGTTGTATCTCTCCTCTTCTCCATCCCAGTCTACTGGATCGTAGGCCTAAACCCATCGATTCAAGCCTTCTCCTTCTTTGTCCTCTGCGTCTGGCTCATCATTCTCATGGCCAGTTCTCTGGTGCTTTTCCTCAGCGCTGTTTCTCCTGACTTCATCTCTGGTAACTCCCTCATATGCACTGTTCTTGGAGCCTTCTTCCTCTTCTCCGGCTACTTTATCCCAAAAGAGAAGATCCCAAAACCATGGATGTTCATGTACTATGTGTCCTTGTACCGTTACCCGCTGGAGTCTATGGTGGTGAATGAGTACTGGAGCATGCGAGAGGAATGCTTCTCCAGTGGGAACATGGGCTGCTTGATGACCGGAGAGGATGTGTTGAAGGAGAGAGGGCTTGACAAGGATACGAGATGGATCAACGTCGGGATCATGCTTGCCTTTTTCGTTTTTTATCGAATCCTCTGCTGGGGTATTCTACTCAGGAAGGCTTCCAAGTCAACCCATTAAAGATTTCATTGTATAGGGAGAACTGTATTCAGTCTTCTATGTTCATATACAATTACAACTTCTTTTTAACATTTTTCGACATCAGTTTTATCAAGTTCATTTGTAGCAGCATTG
- >AT5G19410.2 CAACAATACTCATACCATGGCTTCCTGCTTCCACCCTTCTGCTATGGCTACAAGCCACCGCGAGGAAGACTCCATCATTCTTTTCTCAGCATCAAACTCTCCTGATGAATTCTCCTCTGCTTCCTCTTCCTTTTCTTCTTCACCACTCCCAACCCCTAACCGCTACTCTTTAACCGTCACTAACCTATCCTACACCATCAATCACACCCCAATACTCAATTCCGTTTCATTAGCTGCTGAATCCTCTAAAATCCTAGCCGTGGTTGGACCGAGTGGAACAGGAAAATCCACTCTTTTAAAGATCATTTCAGGAAGAGTGAACCACAAGGCACTAGATCCGTCTTCCGCGGTTTTGATGAACAATCGTAAAATCACTGACTATAACCAACTACGAAGGCTATGCGGGTTTGTCCCGCAGGACGATGACCTACTGCCTCTACTTACCGTGAAAGAGACGTTAATGTATAGCGCCAAATTCAGTTTGAGAGATTCAACGGCTAAGGAAAGAGAAGAGAGAGTGGAGAGCTTGTTGAGTGATCTCGGTCTTGTTCTCGTCCAAGACAGCTTCGTGGGAGAAGGAGACGAAGAGGATCGTGGCGTTTCGGGTGGAGAGAGGAAGAGAGTCTCTATAGCCGTTGAGATGATTCGTGATCCACCAATTCTGCTTCTTGACGAACCAACCTCTGGTTTGGATAGTCGAAACTCGCTTCAGGTTGTTGAGCTTTTGGCTACTATGGCGAAATCCAAACAGAGAACCGTCCTCTTCTCCATCCACCAACCAAGTTATAGGATCCTCGATTACATCTCCGATTACCTGATTCTTTCTCGCGGATCGGTTATCCACTTGGGAAGTCTTGAACATCTCGAGGACTCGATAGCGAAACTAGGGTTTCAGATTCCAGAACAGCTGAATCCTATAGAATTCGCCATGGAAATAGTTGAGTCCTTGAGAACTTTTAAGCCAAACTCGGTAGCTGTCGTAGAATCATCATCAATGTGGCCTGAAAACAACGAAAACGATGGGATTATCTCTAAGAAAGAAGCGTTTCGTGTCCTAGACGTCACCGAGATCTCATACCTCTGCTCAAGATTCTGCAAGATCATCTATAGAACAAAGCAGTTGTTCCTGGCGCGAACAATGCAAGCGGTTGTAGCTGGATTAGGTCTAGGTAGCGTCTACACAAGACTCAAGCGTGACGAAGAAGGCGTTGCAGAGCGGCTTGGACTCTTTGCCTTCAGCTTAAGCTTCCTCCTCTCTTCAACAGTCGAAGCACTTCCCATTTACCTCCGAGAACGTCGCGTTCTGATGAAAGAATCATCTCGTGGATCCTACCGAATCTCATCCTACATGATAGCCAACACCATCGCATTTGTACCGTTCCTCTTCGTTGTATCTCTCCTCTTCTCCATCCCAGTCTACTGGATCGTAGGCCTAAACCCATCGATTCAAGCCTTCTCCTTCTTTGTCCTCTGCGTCTGGCTCATCATTCTCATGGCCAGTTCTCTGGTGCTTTTCCTCAGCGCTGTTTCTCCTGACTTCATCTCTGGTAACTCCCTCATATGCACTGTTCTTGGAGCCTTCTTCCTCTTCTCCGGCTACTTTATCCCAAAAGAGAAGATCCCAAAACCATGGATGTTCATGTACTATGTGTCCTTGTACCGTTACCCGCTGGAGTCTATGGTGGTGAATGAGTACTGGAGCATGCGAGAGGAATGCTTCTCCAGTGGGAACATGGGCTGCTTGATGACCGGAGAGGATGTGTTGAAGGAGAGAGGGCTTGACAAGGATACGAGATGGATCAACGTCGGGATCATGCTTGCCTTTTTCGTTTTTTATCGAATCCTCTGCTGGGGTATTCTACTCAGGAAGGCTTCCAAGTCAACCCATTAAAGATTTCATTGTATAGGGAGAACTGTATTCAGTCTTCTATGTTCATATACAATTACAACTTCTTTTTAACATTTTTCGACATCAGTTTTATCAAGTTCATTTGTAGCAGCATTG
CDS Sequence
Protein Sequence