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Tomato and cotton G protein beta subunit mutants display constitutive autoimmune responses

Thi Thao Ninh, Wei Gao, Yuri Trusov, Jing-Ruo Zhao, Lu Long, Chun‐Peng Song, José Ramón Botella

2021Plant Direct16 citationsDOIOpen Access PDF

Abstract

Abstract Heterotrimeric G protein Gβ‐deficient mutants in rice and maize display constitutive immune responses, whereas Arabidopsis Gβ mutants show impaired defense, suggesting the existence of functional differences between monocots and dicots. Using CRISPR/Cas9, we produced one hemizygous tomato line with a mutated SlGB1 Gβ gene. Homozygous slgb1 knockout mutants exhibit all the hallmarks of autoimmune mutants, including development of necrotic lesions, constitutive expression of defense‐related genes, and high endogenous levels of salicylic acid (SA) and reactive oxygen species, resulting in early seedling lethality. Virus‐induced silencing of Gβ in cotton reproduced the symptoms observed in tomato mutants, confirming that the autoimmune phenotype is not limited to monocot species but is also shared by dicots. Even though multiple genes involved in SA and ethylene signaling are highly induced by Gβ silencing in tomato and cotton, co‐silencing of SA or ethylene signaling components in cotton failed to suppress the lethal phenotype, whereas co‐silencing of the oxidative burst oxidase RbohD can repress lethality. Despite the autoimmune response observed in slgb1 mutants, we show that SlGB1 is a positive regulator of the pathogen‐associated molecular pattern (PAMP)‐triggered immunity (PTI) response in tomato. We speculate that the phenotypic differences observed between Arabidopsis and tomato/cotton/rice/maize Gβ knockouts do not necessarily reflect divergences in G protein‐mediated defense mechanisms.

Topics & Concepts

BiologyMutantGene silencingGene knockoutArabidopsisMutagenesisRNA interferencePhenotypeNicotiana benthamianaCell biologyGeneGeneticsHeterotrimeric G proteinSignal transductionG proteinRNAPlant-Microbe Interactions and ImmunityTransgenic Plants and ApplicationsPlant Virus Research Studies