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Stomatal CO2/bicarbonate sensor consists of two interacting protein kinases, Raf-like HT1 and nonkinase-activity activity requiring MPK12/MPK4
Authors
Krystal C. Bosmans
Po Kai Hsu
+14 more
Jaakko Kangasjärvi
Hannes Kollist
J. Andrew McCammon
Karnelia Paul
Julian I. Schroeder
Christian Seitz
Maija Sierla
Yohei Takahashi
Thien Trac
Triin Vahisalu
Yuh Shuh Wang
Dmitry Yarmolinsky
Chung Yueh Yeh
Li Zhang
Publication date
7 December 2022
Publisher
Doi
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on
PubMed
Abstract
Publisher Copyright: © 2022 The Authors.The continuing rise in the atmospheric carbon dioxide (CO2) concentration causes stomatal closing, thus critically affecting transpirational water loss, photosynthesis, and plant growth. However, the primary CO2 sensor remains unknown. Here, we show that elevated CO2 triggers interaction of the MAP kinases MPK4/MPK12 with the HT1 protein kinase, thus inhibiting HT1 kinase activity. At low CO2, HT1 phosphorylates and activates the downstream negatively regulating CBC1 kinase. Physiologically relevant HT1-mediated phosphorylation sites in CBC1 are identified. In a genetic screen, we identify dominant active HT1 mutants that cause insensitivity to elevated CO2. Dominant HT1 mutants abrogate the CO2/bicarbonate-induced MPK4/12-HT1 interaction and HT1 inhibition, which may be explained by a structural AlphaFold2- and Gaussian-accelerated dynamics-generated model. Unexpectedly, MAP kinase activity is not required for CO2 sensor function and CO2-triggered HT1 inhibition and stomatal closing. The presented findings reveal that MPK4/12 and HT1 together constitute the long-sought primary stomatal CO2/bicarbonate sensor upstream of the CBC1 kinase in plants.Peer reviewe
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Helsingin yliopiston digitaalinen arkisto
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oai:helda.helsinki.fi:10138/35...
Last time updated on 12/03/2023
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eScholarship - University of California
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PubMed Central
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oai:pubmedcentral.nih.gov:9728...
Last time updated on 20/12/2022