PLoS Biology (Dec 2016)

Natural Variation in Arabidopsis Cvi-0 Accession Reveals an Important Role of MPK12 in Guard Cell CO2 Signaling.

  • Liina Jakobson,
  • Lauri Vaahtera,
  • Kadri Tõldsepp,
  • Maris Nuhkat,
  • Cun Wang,
  • Yuh-Shuh Wang,
  • Hanna Hõrak,
  • Ervin Valk,
  • Priit Pechter,
  • Yana Sindarovska,
  • Jing Tang,
  • Chuanlei Xiao,
  • Yang Xu,
  • Ulvi Gerst Talas,
  • Alfonso T García-Sosa,
  • Saijaliisa Kangasjärvi,
  • Uko Maran,
  • Maido Remm,
  • M Rob G Roelfsema,
  • Honghong Hu,
  • Jaakko Kangasjärvi,
  • Mart Loog,
  • Julian I Schroeder,
  • Hannes Kollist,
  • Mikael Brosché

DOI
https://doi.org/10.1371/journal.pbio.2000322
Journal volume & issue
Vol. 14, no. 12
p. e2000322

Abstract

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Plant gas exchange is regulated by guard cells that form stomatal pores. Stomatal adjustments are crucial for plant survival; they regulate uptake of CO2 for photosynthesis, loss of water, and entrance of air pollutants such as ozone. We mapped ozone hypersensitivity, more open stomata, and stomatal CO2-insensitivity phenotypes of the Arabidopsis thaliana accession Cvi-0 to a single amino acid substitution in MITOGEN-ACTIVATED PROTEIN (MAP) KINASE 12 (MPK12). In parallel, we showed that stomatal CO2-insensitivity phenotypes of a mutant cis (CO2-insensitive) were caused by a deletion of MPK12. Lack of MPK12 impaired bicarbonate-induced activation of S-type anion channels. We demonstrated that MPK12 interacted with the protein kinase HIGH LEAF TEMPERATURE 1 (HT1)-a central node in guard cell CO2 signaling-and that MPK12 functions as an inhibitor of HT1. These data provide a new function for plant MPKs as protein kinase inhibitors and suggest a mechanism through which guard cell CO2 signaling controls plant water management.