Heterotrimeric G Protein Signaling Is Required for Epidermal Cell Death in Rice[W][OA]

In rice (Oryza sativa) adventitious root primordia are formed at the nodes as part of normal development. Upon submergence of rice plants, adventitious roots emerge from the nodes preceded by death of epidermal cells above the root primordia. Cell death is induced by ethylene and mediated by hydrogen peroxide (H2O2). Pharmacological experiments indicated that epidermal cell death was dependent on signaling through G proteins. Treatment with GTP-γ-S induced epidermal cell death, whereas GDP-β-S partially inhibited ethylene-induced cell death. The dwarf1 (d1) mutant of rice has repressed expression of the Gα subunit RGA1 of heterotrimeric G protein. In d1 plants, cell death in response to ethylene and H2O2 was nearly completely abolished, indicating that signaling through Gα is essential. Ethylene and H2O2 were previously shown to alter gene expression in epidermal cells that undergo cell death. Transcriptional regulation was not generally affected in the d1 mutant, indicating that altered gene expression is not sufficient to trigger cell death in the absence of Gα. Analysis of genes encoding proteins related to G protein signaling revealed that four small GTPase genes, two GTPase-activating protein genes, and one GDP dissociation inhibitor gene but not RGA1 were differentially expressed in epidermal cells above adventitious roots, indicating that Gα activity is regulated posttranscriptionally.

• Publication year

  2009

• Venue

  Plant Physiology

• Publication date

  2009-08-05

• Fields of study

  Biology, Medicine, Environmental Science

• Identifiers
  DOI 10.1104/pp.109.142133PMID 19656904PMCID PMC2754641
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

• Epidermal Cell Death in Rice Is Confined to Cells with a Distinct Molecular Identity and Is Mediated by Ethylene and H2O2 through an Autoamplified Signal Pathway[W]

  2009cited by this paper
• Function of the alpha subunit of rice heterotrimeric G protein in brassinosteroid signaling.

  2009cited by this paper
• Epidermal cells that undergo cell death differentially express cell identity genes

  2009cited by this paper
• Constitutive expression of a rice GTPase-activating protein induces defense responses.

  2008cited by this paper
• Flooding stress: acclimations and genetic diversity.

  2008cited by this paper
• Whole proteome identification of plant candidate G-protein coupled receptors in Arabidopsis, rice, and poplar: computational prediction and in-vivo protein coupling

  2008cited by this paper
• Heterotrimeric G-protein is involved in phytochrome A-mediated cell death of Arabidopsis hypocotyls

  2008cited by this paper
• Synergistic Activation of the Arabidopsis NADPH Oxidase AtrbohD by Ca2+ and Phosphorylation*

  2008cited by this paper
• Physical Association of the NB-LRR Resistance Protein Rx with a Ran GTPase–Activating Protein Is Required for Extreme Resistance to Potato virus X[W][OA]

  2007cited by this paper
• The plant heterotrimeric G-protein complex.

  2007cited by this paper
• Heterotrimeric G Protein γ Subunits Provide Functional Selectivity in Gβγ Dimer Signaling in Arabidopsis[OA]

  2007cited by this paper
• Heterotrimeric G protein gamma subunits provide functional selectivity in Gbetagamma dimer signaling in Arabidopsis.

  2007cited by this paper
• Arabidopsis extra-large G proteins (XLGs) regulate root morphogenesis.

  2007cited by this paper
• Regulation of Rice NADPH Oxidase by Binding of Rac GTPase to Its N-Terminal Extension[W][OA]

  2007influential reference
• Heterotrimeric G protein signaling in the Arabidopsis unfolded protein response

  2007cited by this paper
• Heterotrimeric G protein alpha subunit is involved in rice brassinosteroid response.

  2006cited by this paper
• Comparative and evolutionary analysis of genes encoding small GTPases and their activating proteins in eukaryotic genomes.

  2006influential reference
• Heterotrimeric G protein α subunit is involved in rice brassinosteroid response

  2006cited by this paper
• Epidermal Cell Death in Rice Is Regulated by Ethylene, Gibberellin, and Abscisic Acid

  2005cited by this paper
• Different Signaling and Cell Death Roles of Heterotrimeric G Protein α and β Subunits in the Arabidopsis Oxidative Stress Response to Ozonew⃞

  2005influential reference
• Characterization of heterotrimeric G protein complexes in rice plasma membrane.

  2004cited by this paper
• Plant heterotrimeric G protein function: insights from Arabidopsis and rice mutants.

  2004cited by this paper
• Down-Regulation of Metallothionein, a Reactive Oxygen Scavenger, by the Small GTPase OsRac1 in Rice

  2004cited by this paper
• The beta-subunit of the Arabidopsis G protein negatively regulates auxin-induced cell division and affects multiple developmental processes.

  2003cited by this paper
• The β-Subunit of the Arabidopsis G Protein Negatively Regulates Auxin-Induced Cell Division and Affects Multiple Developmental Processes Online version contains Web-only data. Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.006148.

  2003cited by this paper
• The heterotrimeric G protein α subunit acts upstream of the small GTPase Rac in disease resistance of rice

  2002influential reference
• G Protein Regulation of Ion Channels and Abscisic Acid Signaling in Arabidopsis Guard Cells

  2001cited by this paper
• Essential role of the small GTPase Rac in disease resistance of rice.

  2001cited by this paper
• Modulation of Cell Proliferation by Heterotrimeric G Protein in Arabidopsis

  2001cited by this paper
• Conformational Display: A Role for Switch Polymorphism in the Superfamily of Regulatory GTPases

  2000cited by this paper
• Ethylene induces epidermal cell death at the site of adventitious root emergence in rice.

  2000cited by this paper
• Rice dwarf mutant d1, which is defective in the alpha subunit of the heterotrimeric G protein, affects gibberellin signal transduction.

  2000influential reference
• The small GTP-binding protein rac is a regulator of cell death in plants.

  1999influential reference
• Suppression of the heterotrimeric G protein causes abnormal morphology, including dwarfism, in rice.

  1999cited by this paper
• Differential expression of a CAK (cdc2-activating kinase)-like protein kinase, cyclins and cdc2 genes from rice during the cell cycle and in response to gibberellin.

  1997cited by this paper
• Anatomical analysis of growth and developmental patterns in the internode of deepwater rice

  1986cited by this paper

• The role of OsRGA1 in aerenchyma formation and adventitious root growth in rice seedlings based on the U-Gompertz model

  2025cites this paper
• 6-Methyl-5-hepten-2-one promotes programmed cell death during superficial scald development in pear

  2024cites this paper
• G protein regulation in rice seed biology

  2024cites this paper
• Extra-large G proteins have extra-large effects on agronomic traits and stress tolerance in maize and rice.

  2023cites this paper
• The multifaceted roles of heterotrimeric G-proteins: lessons from models and crops

  2022cites this paper
• Research Advances in Heterotrimeric G-Protein α Subunits and Uncanonical G-Protein Coupled Receptors in Plants

  2021cites this paper
• Heterotrimeric G protein γ subunit DEP1 is involved in hydrogen peroxide signaling and promotes aerenchyma formation in rice roots

  2021cites this paper
• Heterotrimeric G-protein α subunit (RGA1) regulates tiller development, yield, cell wall, nitrogen response and biotic stress in rice

  2021cites this paper
• Heterotrimeric G-proteins mediated hormonal responses in plants.

  2020cites this paper
• Mutation of IDR1 enhances drought tolerance by reducing ROS production and activating ROS scavenging in rice

  2020cites this paper
• Phytohormone-Mediated Stomatal Response, Escape and Quiescence Strategies in Plants under Flooding Stress

  2019cites this paper
• Exogenous 1-Aminocyclopropane-1-carboxylic acid Controls Photosynthetic Activity, Accumulation of Reactive Oxygen or Nitrogen Species and Macroelement Content in Tomato in Long-term Experiments

  2019cites this paper
• Heterotrimeric G-Protein Signaling in Plants: Conserved and Novel Mechanisms.

  2019cites this paper
• The heterotrimeric G protein β subunit RGB1 is required for seedling formation in rice

  2019cites this paper
• Signalling Interactions in Flooding Tolerance

  2018cites this paper
• Illuminating the role of the Gα heterotrimeric G protein subunit, RGA1, in regulating photoprotection and photoavoidance in rice.

  2018cites this paper
• Defence related molecular signalling in potato

  2016cites this paper
• EPR spectroscopy and its use in planta—a promising technique to disentangle the origin of specific ROS

  2015cites this paper
• Heterotrimeric G protein mediates ethylene-induced stomatal closure via hydrogen peroxide synthesis in Arabidopsis.

  2015cites this paper
• Small and Large G Proteins in Biotic and Abiotic Stress Responses in Plants

  2015cites this paper
• Different Survival Strategies Amongst Plants to Cope with Underwater Conditions

  2014cites this paper
• The role of ethylene and ROS in salinity, heavy metal, and flooding responses in rice

  2014cites this paper
• OsWRKY42 represses OsMT1d and induces reactive oxygen species and leaf senescence in rice.

  2014cites this paper
• Heterotrimeric G protein-coupled signaling in plants.

  2014cites this paper
• Molecular Mechanisms Involved in Adventitious Root Formation

  2013cites this paper
• Role of G Protein Signaling Components in Plant Stress Management

  2012cites this paper
• The role of G-proteins in plant immunity

  2012cites this paper
• Emerging Roots Alter Epidermal Cell Fate through Mechanical and Reactive Oxygen Species Signaling[C][W]

  2012cites this paper
• Brassinosteroid signaling in rice

  2011cites this paper
• G proteins as regulators in ethylene-mediated hypoxia signaling

  2010cites this paper
• Brassinosteroids: A Class of Plant Hormone

  2010cites this paper