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Developmental Roles of the Hog1 Protein Phosphatases of the Maize Pathogen

J Fungi (Basel). 2021-01; 
Rina Zuchman, Roni Koren, Benjamin A Horwitz
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摘要

Protein phosphorylation cascades are universal in cell signaling. While kinome diversity allows specific phosphorylation events, relatively few phosphatases dephosphorylate key signaling proteins. Fungal mitogen activated protein kinases (MAPK), in contrast to their mammalian counterparts, often show detectable basal phosphorylation levels. Dephosphorylation, therefore, could act as a signal. In , the Dothideomycete causing Southern corn leaf blight, ferulic acid (FA)-an abundant phenolic found in plant host cell walls-acts as a signal to rapidly dephosphorylate the stress-activated MAP kinase Hog1 (High Osmolarity Glycerol 1). In order to identify the protein phosphatases responsible, we constructed mutants in... More

关键词

ferulic acid, mitogen activated protein kinase (MAPK), plant defense, plant pathogen, plant phenolics, protein phosphatases, signaling pathways, stress response
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