Gene Details:
- Gene ID: AT5G24030
- Gene Symbol: SLAH3
- Gene Name: SLAC1 homologue 3
- Description: SLAC1 homologue 3;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Function-related keywords:
Literature:
- Phosphoproteomics of the Arabidopsis plasma membrane and a new phosphorylation site database. DOI: 10.1105/tpc.104.023150 ; PMID: 15308754
- CO2 regulator SLAC1 and its homologues are essential for anion homeostasis in plant cells. DOI: 10.1038/nature06720 ; PMID: 18305482
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Stomatal closure by fast abscisic acid signaling is mediated by the guard cell anion channel SLAH3 and the receptor RCAR1. DOI: 10.1126/scisignal.2001346 ; PMID: 21586729
- A brand new START: abscisic acid perception and transduction in the guard cell. DOI: 10.1126/scisignal.2002164 ; PMID: 22126965
- Ion channels in plants. DOI: 10.1152/physrev.00038.2011 ; PMID: 23073631
- γ-Aminobutyric acid transaminase deficiency impairs central carbon metabolism and leads to cell wall defects during salt stress in Arabidopsis roots. DOI: 10.1111/pce.12033 ; PMID: 23148892
- Arabidopsis nanodomain-delimited ABA signaling pathway regulates the anion channel SLAH3. DOI: 10.1073/pnas.1211667110 ; PMID: 23630285
- Transcriptional dynamics of two seed compartments with opposing roles in Arabidopsis seed germination. DOI: 10.1104/pp.113.223511 ; PMID: 23858430
- Pollen tube growth regulation by free anions depends on the interaction between the anion channel SLAH3 and calcium-dependent protein kinases CPK2 and CPK20. DOI: 10.1105/tpc.113.118463 ; PMID: 24280384
- Guard cell SLAC1-type anion channels mediate flagellin-induced stomatal closure. DOI: 10.1111/nph.13435 ; PMID: 25932909
- Nitrate-Dependent Control of Shoot K Homeostasis by the Nitrate Transporter1/Peptide Transporter Family Member NPF7.3/NRT1.5 and the Stelar K+ Outward Rectifier SKOR in Arabidopsis. DOI: 10.1104/pp.15.01152 ; PMID: 26508776
- S-type Anion Channels SLAC1 and SLAH3 Function as Essential Negative Regulators of Inward K+ Channels and Stomatal Opening in Arabidopsis. DOI: 10.1105/tpc.16.01050 ; PMID: 27002025
- Silent S-Type Anion Channel Subunit SLAH1 Gates SLAH3 Open for Chloride Root-to-Shoot Translocation. DOI: 10.1016/j.cub.2016.06.045 ; PMID: 27397895
- The Nonspecific Lipid Transfer Protein AtLtpI-4 Is Involved in Suberin Formation of Arabidopsis thaliana Crown Galls. DOI: 10.1104/pp.16.01486 ; PMID: 27688623
- A Single-Pore Residue Renders the Arabidopsis Root Anion Channel SLAH2 Highly Nitrate Selective. DOI: 10.1105/tpc.114.125849 ; PMID: 24938289
- from nutrient uptake to stomatal closure. DOI: 10.1111/nph.14685 ; PMID: 28722226
- Danger-Associated Peptides Close Stomata by OST1-Independent Activation of Anion Channels in Guard Cells. DOI: 10.1105/tpc.17.00701 ; PMID: 29716993
- Molecular and electrophysiological characterization of anion transport in Arabidopsis thaliana pollen reveals regulatory roles for pH, Ca(2+) and GABA. DOI: 10.1111/nph.15863 ; PMID: 31132313
- Calcium signals in guard cells enhance the efficiency by which abscisic acid triggers stomatal closure. DOI: 10.1111/nph.15985 ; PMID: 31179540
- Calcium-Regulated Phosphorylation Systems Controlling Uptake and Balance of Plant Nutrients. DOI: 10.3389/fpls.2020.00044 ; PMID: 32117382
- and slow-type anion channels in stomatal regulation. DOI: 10.1093/plphys/kiab202 ; PMID: 34009364
- Large-scale analysis of in vivo phosphorylated membrane proteins by immobilized metal ion affinity chromatography and mass spectrometry. DOI: 10.1074/mcp.T300006-MCP200 ; PMID: 14506206
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- CO2 regulator SLAC1 and its homologues are essential for anion homeostasis in plant cells. DOI: 10.1038/nature06720 ; PMID: 18305482
Sequences:
cDNA Sequence
- >AT5G24030.2
GCCCAAACCAACTCGCTTTTTTTCTATTTTCTCCTAATTCGTCTTCGCTTCTTTCCCTACCAAAACACAATTCTTATCTCTACAAGAATAAGAGAAGATCTGTAGATTTTAAACACCATTTCTGATTTCTACGGCTGCAAAATTTCAAAATCGTCAGAGGAAATTAAAAAGAAGAAAAAAATGGAGGAGAAACCAAACTATGTGATACAAGTAGAAGAAGAGCTTCCAACTTTACTGAGAAAAGCCACAACAGAAGAAATGGTTGGCTTTGACAATTACAAAGAGAATGGTCATCCTTTTCCTCACTCAATCAGTCGTTTTCATCCATCGCATGCCTCCACGACTACTTTGAATGGTCAAGAAACATCAAGATCAATAGACACAATGGAAGCTCATCATCATAACTACAATGAGACAACACCATGGACTCATCAAAGAAAACCATCAATTTCAATGCCAACTTCACCAAATGTTCTCATGATCTCCGACCCGACAACATCTTTGTCTTCCGAAAACCACAAGAACAGTGGGTCGACTGGCAAATCCGTCAAGTTTCTCTCTCAGCCGATGACCAAAGTCTCATCTCTCTACATAGAAAGCGGTAATGGTGATGATGATCGTCGTCAAAGCCATGATAATCATCATCATCATCTTCATCGACAACATCAGAGTGGTCATCATCAAAATCAAAATCAGGCTGCGAACAAGCTTAAAGACAACAGGTACAACTCGTTCAAGACTTGGTCGGGGAAACTTGAGAGACAATTCACAAGAAAACCAGCTTCTGTTGAACCGGAGGCACCAAACCGGAATAACCAAAATTTGAATACCAATGAAGCCATGCCTGTGGACCGTTACTATGACGCCTTAGAAGGTCCTGAATTAGAGACCCTACGGCCTCAAGAAGAGATCGTTCTACCAAATGATAAAAAGTGGCCGTTTCTTCTCCGTTACCCCATTTCCACCTTCGGTATGTGCCTAGGAGTGAGCAGCCAAGCCATAATGTGGAAAACCCTAGCCACTGCAGAGCCAACCAAGTTCCTCCACGTACCCCTCTGGATCAACCAGGGTCTATGGTTCATTTCAGTGGCTTTGATCCTCACTATCGCCACCATCTACCTCCTCAAGATCATCCTTTTCTTCGAAGCCGTACGCCGCGAATACTACCATCCAATCAGAATCAACTTCTTCTTTGCTCCTTTCATTTCTTTACTCTTCCTTGCCCTCGGTGTCCCACCTTCCATAATTACAGATTTGCCGCATTTCCTTTGGTACCTCCTCATGTTTCCATTCATCTGTCTTGAGCTTAAGATCTACGGTCAGTGGATGTCCGGTGGTCAACGACGGCTCTCCCGGGTCGCCAACCCGACCAACCATCTCTCGGTCGTTGGGAACTTTGTTGGGGCCTTGCTTGGTGCGTCCATGGGGCTTAGAGAAGGCCCTATATTCTTCTATGCTGTTGGGATGGCTCATTACTTGGTTCTGTTCGTGACTCTCTACCAAAGGCTACCGACCAACGAGACTTTGCCTAAAGATCTTCATCCTGTCTTCTTCCTCTTCGTTGCGGCTCCAAGTGTTGCTTCCATGGCTTGGGCTAAGGTCACTGGCTCCTTCGATTATGGCTCCAAAGTTTGTTACTTTATCGCCATTTTCCTCTATTTCTCATTGGCTGTTCGGATCAATTTCTTCAGGGGAATCAAGTAAGATTAAGAAAATTACTTTTATTACTGTTTGATTTTTAGTTATTCGCTAGCTCAACTTTCTCACACTTTTTTTTCTCATAGATTTTCGCTGTCCTGGTGGGCGTACACCTTTCCGATGACCGGAGCTGCAATTGCTACCATCAGGTACGCAACAGTGGTTAAGAGCACTATGACTCAAATCATGTGTGTGGTCCTATGTGCCATTGCAACGTTAGTCGTGTTCGCACTGCTCGTGACCACCATTATCCACGCCTTTGTCCTCCGAGATCTTTTTCCCAATGACCTCGCCATAGCCATCAGCAACCGTCCGAGACCCAAACAGAATAGCCAACACCGGTGGCTTGACCAACTGAGAAACGTAAGCTCAGAGAACATCGAGAACTACTTGAAATTCACAGACTCCGACAGCAGTCAGAGTAATGATGTAGAAGCTTGCAACGGCAAAACTCAAGAGAGTGATTCATCATAAATTGGAGAATCACGAAAAAAGTTTTCATAACCCCTAATACAGAGTCGTATCCGAAGTTTTGGTTTTGGTTTGTTGTCAGTGTCTCTGACACAAGTGAGGAACCTAGTAACGTAATTGTTGCTGTGGTTCTAATGATCATGTGTTTAAAGCAGTATTAAGTAAACGGGAGGGGTTGTCTACAATGGTGAACCAATCCAAACGACCCAGTATCTCTTAAACCAGAACTGTTAGCAGTTATCATAATACTTCAAAGAGCATGTATACTTGTTTTGTTCCAATAAATAAAAAGTTTTGAGGGGTT - >AT5G24030.1
GCCCAAACCAACTCGCTTTTTTTCTATTTTCTCCTAATTCGTCTTCGCTTCTTTCCCTACCAAAACACAATTCTTATCTCTACAAGAATAAGAGAAGATCTGTAGATTTTAAACACCATTTCTGATTTCTACGGCTGCAAAATTTCAAAATCGTCAGAGGAAATTAAAAAGAAGAAAAAAATGGAGGAGAAACCAAACTATGTGATACAAGTAGAAGAAGAGCTTCCAACTTTACTGAGAAAAGCCACAACAGAAGAAATGGTTGGCTTTGACAATTACAAAGAGAATGGTCATCCTTTTCCTCACTCAATCAGTCGTTTTCATCCATCGCATGCCTCCACGACTACTTTGAATGGTCAAGAAACATCAAGATCAATAGACACAATGGAAGCTCATCATCATAACTACAATGAGACAACACCATGGACTCATCAAAGAAAACCATCAATTTCAATGCCAACTTCACCAAATGTTCTCATGATCTCCGACCCGACAACATCTTTGTCTTCCGAAAACCACAAGAACAGTGGGTCGACTGGCAAATCCGTCAAGTTTCTCTCTCAGCCGATGACCAAAGTCTCATCTCTCTACATAGAAAGCGGTAATGGTGATGATGATCGTCGTCAAAGCCATGATAATCATCATCATCATCTTCATCGACAACATCAGAGTGGTCATCATCAAAATCAAAATCAGGCTGCGAACAAGCTTAAAGACAACAGGTACAACTCGTTCAAGACTTGGTCGGGGAAACTTGAGAGACAATTCACAAGAAAACCAGCTTCTGTTGAACCGGAGGCACCAAACCGGAATAACCAAAATTTGAATACCAATGAAGCCATGCCTGTGGACCGTTACTATGACGCCTTAGAAGGTCCTGAATTAGAGACCCTACGGCCTCAAGAAGAGATCGTTCTACCAAATGATAAAAAGTGGCCGTTTCTTCTCCGTTACCCCATTTCCACCTTCGGTATGTGCCTAGGAGTGAGCAGCCAAGCCATAATGTGGAAAACCCTAGCCACTGCAGAGCCAACCAAGTTCCTCCACGTACCCCTCTGGATCAACCAGGGTCTATGGTTCATTTCAGTGGCTTTGATCCTCACTATCGCCACCATCTACCTCCTCAAGATCATCCTTTTCTTCGAAGCCGTACGCCGCGAATACTACCATCCAATCAGAATCAACTTCTTCTTTGCTCCTTTCATTTCTTTACTCTTCCTTGCCCTCGGTGTCCCACCTTCCATAATTACAGATTTGCCGCATTTCCTTTGGTACCTCCTCATGTTTCCATTCATCTGTCTTGAGCTTAAGATCTACGGTCAGTGGATGTCCGGTGGTCAACGACGGCTCTCCCGGGTCGCCAACCCGACCAACCATCTCTCGGTCGTTGGGAACTTTGTTGGGGCCTTGCTTGGTGCGTCCATGGGGCTTAGAGAAGGCCCTATATTCTTCTATGCTGTTGGGATGGCTCATTACTTGGTTCTGTTCGTGACTCTCTACCAAAGGCTACCGACCAACGAGACTTTGCCTAAAGATCTTCATCCTGTCTTCTTCCTCTTCGTTGCGGCTCCAAGTGTTGCTTCCATGGCTTGGGCTAAGGTCACTGGCTCCTTCGATTATGGCTCCAAAGTTTGTTACTTTATCGCCATTTTCCTCTATTTCTCATTGGCTGTTCGGATCAATTTCTTCAGGGGAATCAAGTAAGATTAAGAAAATTACTTTTATTACTGTTTGATTTTTAGTTATTCGCTAGCTCAACTTTCTCACACTTTTTTTTCTCATAGATTTTCGCTGTCCTGGTGGGCGTACACCTTTCCGATGACCGGAGCTGCAATTGCTACCATCAGGTACGCAACAGTGGTTAAGAGCACTATGACTCAAATCATGTGTGTGGTCCTATGTGCCATTGCAACGTTAGTCGTGTTCGCACTGCTCGTGACCACCATTATCCACGCCTTTGTCCTCCGAGATCTTTTTCCCAATGACCTCGCCATAGCCATCAGCAACCGTCCGAGACCCAAACAGAATAGCCAACACCGGTGGCTTGACCAACTGAGAAACGTAAGCTCAGAGAACATCGAGAACTACTTGAAATTCACAGACTCCGACAGCAGTCAGAGTAATGATGTAGAAGCTTGCAACGGCAAAACTCAAGAGAGTGATTCATCATAAATTGGAGAATCACGAAAAAAGTTTTCATAACCCCTAATACAGAGTCGTATCCGAAGTTTTGGTTTTGGTTTGTTGTCAGTGTCTCTGACACAAGTGAGGAACCTAGTAACGTAATTGTTGCTGTGGTTCTAATGATCATGTGTTTAAAGCAGTATTAAGTAAACGGGAGGGGTTGTCTACAATGGTGAACCAATCCAAACGACCCAGTATCTCTTAAACCAGAACTGTTAGCAGTTATCATAATACTTCAAAGAGCATGTATACTTGTTTTGTTCCAATAAATAAAAAGTTTTGAGGGGTT
CDS Sequence
Protein Sequence