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Full-Text Articles in Plant Sciences
General Control Nonrepressible4 Degrades 14-3-3 And The Rin4 Complex To Regulate Stomatal Aperture With Implications On Nonhost Disease Resistance And Drought Tolerance, Amita Kaundal, Vemenna S. Ramu, Sunhee Oh, Seonghee Lee, Bikram Pant, Hee-Kyung Lee, Clemencia M. Rojas, Muthappa Senthil-Kumar, Kirankumar S. Mysore
General Control Nonrepressible4 Degrades 14-3-3 And The Rin4 Complex To Regulate Stomatal Aperture With Implications On Nonhost Disease Resistance And Drought Tolerance, Amita Kaundal, Vemenna S. Ramu, Sunhee Oh, Seonghee Lee, Bikram Pant, Hee-Kyung Lee, Clemencia M. Rojas, Muthappa Senthil-Kumar, Kirankumar S. Mysore
Plants, Soils, and Climate Faculty Publications
Plants have complex and adaptive innate immune responses against pathogen infections. Stomata are key entry points for many plant pathogens. Both pathogens and plants regulate stomatal aperture for pathogen entry and defense, respectively. Not all plant proteins involved in stomatal aperture regulation have been identified. Here, we report GENERAL CONTROL NONREPRESSIBLE4 (GCN4), an AAA+-ATPase family protein, as one of the key proteins regulating stomatal aperture during biotic and abiotic stress. Silencing of GCN4 in Nicotiana benthamiana and Arabidopsis thaliana compromises host and nonhost disease resistance due to open stomata during pathogen infection. AtGCN4 overexpression plants have reduced H+-ATPase activity, stomata …