Author: Kundu, Pritha; Sahu, Ranabir
Title: GIGANTEA confers susceptibility to plants during spot blotch attack by regulating salicylic acid signalling pathway. Cord-id: ng7p5idl Document date: 2021_2_5
ID: ng7p5idl
Snippet: Plants throughout their development are challenged by different abiotic and biotic stresses. Growth and developmental plasticity of a plant is under the strict surveillance of the diurnal and circadian control mechanism, fine-tuned by the biological clock. Success of plant life-cycle resides on the continual battle against pathogen that they encounter at different developmental stages. GIGANTEA (GI), a higher plant specific nuclear protein, has been shown to play a major role in shaping plant de
Document: Plants throughout their development are challenged by different abiotic and biotic stresses. Growth and developmental plasticity of a plant is under the strict surveillance of the diurnal and circadian control mechanism, fine-tuned by the biological clock. Success of plant life-cycle resides on the continual battle against pathogen that they encounter at different developmental stages. GIGANTEA (GI), a higher plant specific nuclear protein, has been shown to play a major role in shaping plant development by coupling clock function to the circadian phasing of gene expression in Arabidopsis. Despite the central role of GI in regulating light signalling, clock function, flowering time control and in abiotic stress tolerance, its possible function in pathogen defence is not well known. Here we show that, GI expression positively correlates with susceptibility of plants to the spot blotch pathogen infection in both Arabidopsis and bread wheat. Furthermore, we also show that GI expression promotes disease severity by down regulating the salicylic acid (SA) accumulation and alters the phenylpropanoid pathway, thereby suppressing PR gene expression. It is possible that GI-mediated regulation of SA signalling may be one of the possible ways of coupling the light-temperature input pathway to pathogen defence through circadian clock. Our results indicate that the down-regulation of GI could be beneficial in generating disease tolerant crop plants for sustainable agriculture.
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