Gene Details:
- Gene ID: AT5G19610
- Gene Symbol: GNL2
- Gene Name: GNOM-like 2
- Description: GNOM-like 2;(source:Araport11)
- TAIR Accession: locus:2183159
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0090406 — located in — pollen tube
- GO:0009846 — acts upstream of or within — pollen germination
- GO:0005085 — enables — guanyl-nucleotide exchange factor activity
- GO:0005634 — located in — nucleus
- GO:0032012 — involved in — regulation of ARF protein signal transduction
Germplasm Phenotype:
- gnl2-1 — The mutation did not affect pollen formation, but resulted in the failure of pollen to germinate in vitro and in vivo.
Literature:
- Rapid identification of Arabidopsis insertion mutants by non-radioactive detection of T-DNA tagged genes. DOI: 10.1046/j.1365-313x.2002.01416.x ; PMID: 12383089
- The PIN auxin efflux facilitators: evolutionary and functional perspectives. DOI: 10.1016/j.tplants.2005.02.009 ; PMID: 15817418
- MIKC* MADS-protein complexes bind motifs enriched in the proximal region of late pollen-specific Arabidopsis promoters. DOI: 10.1104/pp.106.089805 ; PMID: 17071640
- Membrane association of the Arabidopsis ARF exchange factor GNOM involves interaction of conserved domains. DOI: 10.1105/tpc.107.056515 ; PMID: 18203920
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- GNOM-LIKE 2, encoding an adenosine diphosphate-ribosylation factor-guanine nucleotide exchange factor protein homologous to GNOM and GNL1, is essential for pollen germination in Arabidopsis. DOI: 10.1111/j.1744-7909.2009.00858.x ; PMID: 19686373
- Nonselective Chemical Inhibition of Sec7 Domain-Containing ARF GTPase Exchange Factors. DOI: 10.1105/tpc.18.00145 ; PMID: 30018157
Sequence:
cDNA Sequence
- >AT5G19610.1 AAACAGTTGCTGAATGATTTTTCTTCTTTATCGGCAAGAAGAGTGTGATAAGGTGAGAAATGGATCGTATCGCCGTAAGAGCAAAGCGGAAAGAGCTAGGGATATCATGCATGCTTAACACGGAGGTTGGTGCAGTCCTTGCCGTCATTCGTAGACCCCTTTCAGAAAGTTACCTTTCTCCCCAAGAAACAGACCACTGTGATTCATCAGTCCAACAATCTCTCAAATCTCTTAGAGCTCTTATTTTCAATCCTCAACAAGATTGGCGCACCATAGATCCTTCGGTTTATCTTTCTCCTTTCCTCGAAGTTATTCAAAGCGATGAGATTCCGGCTAGCGCCACAGCTGTCGCTCTTTCCTCCATCTTAAAGATCCTTAAAATCGAGATCTTCGATGAGAAAACACCTGGTGCAAAAGATGCTATGAATTCTATTGTCTCCGGGATTACTAGTTGTCGTTTGGAGAAAACAGATTTGGTGTCTGAAGATGCTGTAATGATGAGGATTCTTCAAGTTTTAACCGGAATCATGAAACATCCATCCTCTGAGTTATTAGAAGATCAAGCGGTTTGCACAATAGTCAATACATGTTTCCAAGTAGTGCAACAATCTACCGGTAGAGGAGATTTGCTGCAACGAAATGGAAGATACACAATGCATGAGCTGATTCAGATCATTTTCTCCAGATTACCTGATTTTGAGGTCAGAGGAGACGAAGGTGGTGAGGATTCAGAATCTGATACTGACGAAATCGACATGAGCGGCGGATATGGAATCCGATGTTGCATCGACATTTTTCATTTCTTATGTTCGTTGCTCAATGTTGTTGAAGTTGTTGAGAACTTAGAAGGGACAAACGTTCACACTGCAGACGAAGATGTGCAGATTTTTGCTTTAGTTTTAATAAATAGCGCCATTGAGTTAAGCGGTGATGCGATCGGGCAACACCCTAAGCTTCTTCGGATGGTTCAGGACGATCTATTTCACCATTTAATCCATTATGGAGCTTCTTCAAGCCCTCTTGTGCTATCAATGATCTGTAGTTGTATACTCAATATATATCACTTCCTCCGCAAGTTCATGAGGCTACAACTCGAAGCTTTCTTCTCCTTCGTGTTGTTGAGAGTTACAGCTTTCACAGGCTTCCTTCCGTTACAAGAAGTTGCTCTTGAAGGGCTAATCAACTTTTGTCGACAACCTGCTTTCATAGTCGAAGCTTATGTAAACTACGACTGTGATCCGATGTGTAGAAATATATTTGAAGAGACCGGAAAAGTTCTATGCAGACATACATTCCCTACCTCTGGTCCTTTAACCTCTATACAAATCCAAGCCTTTGAAGGTCTTGTGATCTTGATTCACAACATCGCCGACAATATGGATAGAGAGGAAGATGAGGGTAATGAAGAAGATGATAATAACTCCAATGTGATTAAGCCAAGCCCTGTTGAGATTCATGAGTACATACCCTTTTGGATAGATAAGCCAAAAGAGGATTTTGAGACGTGGGTAGATCATATAAGAGTAAGGAAAGCTCAGAAGAGAAAGCTAGCGATCGCTGCAAATCATTTCAACAGAGATGAGAAAAAGGGTTTGGAGTATTTGAAGTATAACTACTTAGTCTCAGATCCTCTTGATCCAATGGCATTAGCTTCATTTTTCAGATTCACACCGGGTTTGGATAAGACAATGATTGGAGATTACCTTGGAGATCCTGATGAATTACATCTCAGTGTTCTTAGAAGCTTTACACATACATTTGAGTTCACTGGTATGAATCTTGATACCGCATTGAGGACATTTCTTGAGTCATTTCGGTTACCGGGAGAGTCTCAAAAGATCGAACGTATGATTGAAGCCTTCTCTGAGAGATTCTATGATCAACAATCATCTGATATTTTTGCAAGCAAAGATACTGTTCACATTTTGTGTTACTCGCTTATAATGCTCAACACGGATCAACATAACCCTCAAGTTAGGAGGAAAATGACAGAAGATGAGTTTATCCGCAACAACAGGGCAATTAACGCGGGAAATGACCTTCCAAAGGAATACCTCTCTGAGCTTTTTCAGTCCATTGCAACAAATGCATTCGCTTTATCGACACATTCCGGTCCGGTGGAAATGAATCCAAACAGATGGATTGAGCTAATGAACAGAACAAAGACTACACAACCTTTTAGTTTATGTCAGTTTGATCGTAGAATAGGAAGGGATATGTTTGCAACCATTGCAGGTCCATCAATAGCAGCAGTTTCTGCATTCTTTGAGCATTCAGATGATGATGAAGTGCTTCATGAATGTGTTGATGCTATGATCTCTATAGCAAGAGTTGCTCAGTATGGCCTTGAAGACATTCTTGATGAGCTCATTGCTTCCTTTTGTAAATTCACAACGTTGTTAAACCCTTACACTACACCTGAAGAGACTTTGTTTGCATTTAGTCACGATATGAAACCGCGAATGGCTACTCTCGCGGTTTTCACGCTCGCTAACACATTTGGTGATTCTATCAGAGGAGGGTGGAGGAACATTGTGGATTGCCTCTTGAAACTTAGGAAGCTTCAGCTTCTTCCACAGTCTGTTATTGAGTTTGAGATAAATGAAGAAAATGGCGGATCAGAATCCGACATGAACAATGTTTCGAGCCAGGACACAAAATTTAACCGACGACAAGGTTCTAGTCTAATGGGTCGGTTTTCACACTTCTTGGCATTAGACAACGTGGAAGAATCTGTAGCTCTTGGAATGAGTGAGTTTGAACAAAACCTTAAAGTCATAAAACAATGCAGGATCGGTCAAATATTCAGCAAAAGCTCAGTGTTGCCGGATGTTGCGGTGTTGAATCTTGGTCGGTCTTTAATCTATGCAGCTGCTGGGAAAGGACAGAAGTTTAGTACAGCTATCGAAGAAGAAGAGACGGTTAAGTTTTGTTGGGATTTGATCATAACCATTGCATTATCTAACGTCCACCGGTTCAACATGTTTTGGCCAAGTTACCATGAATATCTACTCAACGTTGCAAACTTTCCGCTCTTTTCACCCATTCCGTTTGTCGAAAAAGGGCTCCCGGGTTTATTTAGGGTATGCATCAAGATTCTTGCTTCTAACCTTCAAGACCATCTACCAGAGGAGTTGATTTTTAGGTCCTTGACAATAATGTGGAAGATAGACAAAGAAATCATTGAAACATGTTATGACACAATAACAGAGTTTGTCAGCAAGATCATTATAGACTACTCTGCGAATCTGCATACCAATATAGGGTGGAAAAGTGTTTTACAACTACTTTCTTTATGTGGAAGACATCCAGAGACCAAAGAGCAAGCGGTGGATGCTCTCATCGGTTTAATGTCATTTAACGCATCGCATCTATCGCAGTCAAGCTACGCTTATTGCATCGATTGCGCCTTCAGTTTTGTTGCTTTAAGAAATAGCTCTGTTGAGAAGAACTTGAAAATATTGGATCTCATGGCAGATTCAGTGACAATGTTGGTAAAATGGTACAAAACTGCCTCTACTGATACCGCGAATAGCTATAGCCCGGCAAGCAACACAAGCAGTTCATCATCCATGGAAGAAAACAACTTGAGAGGGGTTAACTTTGTTCATCATCTTTTCCTCAAACTCTCCGAGGCTTTTCGAAAAACGACCCTTGCACGCCGAGAAGAGATAAGGAACAGAGCAGTGACGTCTCTAGAGAAAAGTTTCACCATGGGTCATGAAGATCTTGGATTCACACCTTCTGGTTGTATATACTGCATAGACCATGTCATATTCCCAACAATCGATGACTTGCATGAGAAGCTTCTCGACTATTCAAGGCGCGAAAACGCGGAAAGAGAGATGAGAAGCATGGAGGGGACGTTGAAGATAGCTATGAAAGTGCTCATGAACGTTTTCTTGGTTTACTTGGAACAAATTGTAGAAAGTGCTGAGTTTAGAACTTTTTGGTTAGGAGTGTTGAGGAGAATGGATACGTGTATGAAGGCGGATTTGGGAGAGTATGGAGATAACAAACTTCAAGAGGTTGTCCCTGAACTTTTGACCACCATGATTGGTACCATGAAGGAGAAAGAGATTTTGGTGCAGAAGGAAGACGATGACCTTTGGGAGATTACGTATATTCAGATTCAATGGATTGCTCCAGCGCTCAAGGATGAGTTATTTCCCGATGAAGAGATTTAGACTTTTATTATTGTACTATGTAATTCATGATTTAATGCTCAAATTATATGATCAACTTCAAGAAGTCATGAGATTTTGGAT
CDS Sequence
Protein Sequence