The Cytosolic/Nuclear HSC70 and HSP90 Molecular Chaperones Are Important for Stomatal Closure and Modulate Abscisic Acid-Dependent Physiological Responses in Arabidopsis
Copyright policy )The Cytosolic/Nuclear HSC70 and HSP90 Molecular Chaperones Are Important for Stomatal Closure and Modulate Abscisic Acid-Dependent Physiological Responses in Arabidopsis
AbstractCytosolic/nuclear molecular chaperones of the heat shock protein families HSP90 and HSC70 are conserved and essential proteins in eukaryotes. These proteins have essentially been implicated in the innate immunity and abiotic stress tolerance in higher plants. Here, we demonstrate that both chaperones are recruited in Arabidopsis (Arabidopsis thaliana) for stomatal closure induced by several environmental signals. Plants overexpressing HSC70-1 or with reduced HSP90.2 activity are compromised in the dark-, CO2-, flagellin 22 peptide-, and abscisic acid (ABA)-induced stomatal closure. HSC70-1 and HSP90 proteins are needed to establish basal expression levels of several ABA-responsive genes, suggesting that these chaperones might also be involved in ABA signaling events. Plants overexpressing HSC70-1 or with reduced HSP90.2 activity are hypersensitive to ABA in seed germination assays, suggesting that several chaperone complexes with distinct substrates might tune tissue-specific responses to ABA and the other biotic and abiotic stimuli studied. This study demonstrates that the HSC70/HSP90 machinery is important for stomatal closure and serves essential functions in plants to integrate signals from their biotic and abiotic environments.
570, CYTOSOL, MOLECULAR DOMAIN, NODULATION, Transcription, Genetic, CRUCIFERAE, ANGIOSPERMAE, STOMATAL CONDUCTANCE, génétique moléculaire, Arabidopsis, Germination, Plants genetics, Genes, Plant, ABSCISIC ACID, [SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, Cytosol, Gene Expression Regulation, Plant, santé des plantes, [SDV.GEN.GPL] Life Sciences [q-bio]/Genetics/Plants genetics, Génétique des plantes, STOMATAL MOVEMENT, HSP90 Heat-Shock Proteins, RELATION PLANTE-MICROORGANISME, SESQUITERPENES, 580, CHAPERONE, DICOTYLEDONE, Adenosine Triphosphatases, Cell Nucleus, SPERMATOPHYTA, Dehydration, Arabidopsis Proteins, PLANT GROWTH SUBSTANCE, HSC70 Heat-Shock Proteins, ARABIDOPSIS THALIANA, Darkness, PLANT GROWTH SUBSTANCE;SESQUITERPENES;EXPERIMENTAL PLANT;SPERMATOPHYTA;ANGIOSPERMAE;DICOTYLEDONE;CRUCIFERAE;PLANT PHYSIOLOGY;ABSCISIC ACID;ARABIDOPSIS THALIANA;PHYSIOLOGICAL PARAMETER;UNCTIONAL RESPONSE;NODULATION;STOMATAL MOVEMENT;STOMATAL CONDUCTANCE;CHAPERONE;MOLECULAR DOMAIN;CYTOSOL;RELATION PLANTE-MICROORGANISME, PHYSIOLOGICAL PARAMETER, PLANT PHYSIOLOGY, UNCTIONAL RESPONSE, Mutation, Plant Stomata, Seeds, EXPERIMENTAL PLANT, Peptides, Abscisic Acid
570, CYTOSOL, MOLECULAR DOMAIN, NODULATION, Transcription, Genetic, CRUCIFERAE, ANGIOSPERMAE, STOMATAL CONDUCTANCE, génétique moléculaire, Arabidopsis, Germination, Plants genetics, Genes, Plant, ABSCISIC ACID, [SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, Cytosol, Gene Expression Regulation, Plant, santé des plantes, [SDV.GEN.GPL] Life Sciences [q-bio]/Genetics/Plants genetics, Génétique des plantes, STOMATAL MOVEMENT, HSP90 Heat-Shock Proteins, RELATION PLANTE-MICROORGANISME, SESQUITERPENES, 580, CHAPERONE, DICOTYLEDONE, Adenosine Triphosphatases, Cell Nucleus, SPERMATOPHYTA, Dehydration, Arabidopsis Proteins, PLANT GROWTH SUBSTANCE, HSC70 Heat-Shock Proteins, ARABIDOPSIS THALIANA, Darkness, PLANT GROWTH SUBSTANCE;SESQUITERPENES;EXPERIMENTAL PLANT;SPERMATOPHYTA;ANGIOSPERMAE;DICOTYLEDONE;CRUCIFERAE;PLANT PHYSIOLOGY;ABSCISIC ACID;ARABIDOPSIS THALIANA;PHYSIOLOGICAL PARAMETER;UNCTIONAL RESPONSE;NODULATION;STOMATAL MOVEMENT;STOMATAL CONDUCTANCE;CHAPERONE;MOLECULAR DOMAIN;CYTOSOL;RELATION PLANTE-MICROORGANISME, PHYSIOLOGICAL PARAMETER, PLANT PHYSIOLOGY, UNCTIONAL RESPONSE, Mutation, Plant Stomata, Seeds, EXPERIMENTAL PLANT, Peptides, Abscisic Acid
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