4.6 Article

MPK12 in stomatal CO2 signaling: function beyond its kinase activity

Journal

NEW PHYTOLOGIST
Volume 239, Issue 1, Pages 146-158

Publisher

WILEY
DOI: 10.1111/nph.18913

Keywords

allosteric inhibition; CO2 signaling; guard cell; HT1; MAP kinase 12; noncatalytic activity; stomata

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Protein phosphorylation is a key regulatory mechanism in the control of stomatal opening and closure. The interaction between MAP kinase 12 (MPK12) and Raf-like kinase HT1 is known to be involved in stomatal movements caused by changes in CO2 concentration. This study investigates the noncatalytic role of MPK12 in guard cell CO2 signaling, showing that CO2-enhanced MPK12 interaction with HT1 is independent of its kinase activity. The findings suggest that the interaction between MPK12 and HT1 plays a crucial role in guard cell response to changes in atmospheric CO2 concentration.
Protein phosphorylation is a major molecular switch involved in the regulation of stomatal opening and closure. Previous research defined interaction between MAP kinase 12 and Raf-like kinase HT1 as a required step for stomatal movements caused by changes in CO2 concentration. However, whether MPK12 kinase activity is required for regulation of CO2-induced stomatal responses warrants in-depth investigation. We apply genetic, biochemical, and structural modeling approaches to examining the noncatalytic role of MPK12 in guard cell CO2 signaling that relies on allosteric inhibition of HT1. We show that CO2/HCO3- -enhanced MPK12 interaction with HT1 is independent of its kinase activity. By analyzing gas exchange of plant lines expressing various kinase-dead and constitutively active versions of MPK12 in a plant line where MPK12 is deleted, we confirmed that CO2-dependent stomatal responses rely on MPK12's ability to bind to HT1, but not its kinase activity. We also demonstrate that purified MPK12 and HT1 proteins form a heterodimer in the presence of CO2/HCO3- and present structural modeling that explains the MPK12:HT1 interaction interface. These data add to the model that MPK12 kinase-activity-independent interaction with HT1 functions as a molecular switch by which guard cells sense changes in atmospheric CO2 concentration.

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