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Heterotrimeric G Protein–Coupled Signaling in Plants

Alan M. Jones, Daisuke Urano

2020UNC Libraries25 citationsDOIOpen Access PDF

Abstract

Investigators studying G protein–coupled signaling—often called the best-understood pathway in the world owing to intense research in medical fields—have adopted plants as a new model to explore the plasticity and evolution of G signaling. Much research on plant G signaling has not disappointed. Although plant cells have most of the core elements found in animal G signaling, differences in network architecture and intrinsic properties of plant G protein elements make G signaling in plant cells distinct from the animal paradigm. In contrast to animal G proteins, plant G proteins are self-activating, and therefore regulation of G activation in plants occurs at the deactivation step. The self-activating property also means that plant G proteins do not need and therefore do not have typical animal G protein–coupled receptors. Targets of activated plant G proteins, also known as effectors, are unlike effectors in animal cells. The simpler repertoire of G signal elements in Arabidopsis makes G signaling easier to manipulate in a multicellular context.

Topics & Concepts

Heterotrimeric G proteinG proteinCell biologyChemistryComputational biologySignal transductionBiologyMechanisms of cancer metastasisPlant nutrient uptake and metabolismProtein Kinase Regulation and GTPase Signaling