Guard cell anion channel SLAC1 is regulated by CDPK protein kinases with distinct Ca
            <sup>2+</sup>
            affinities

Geiger, Dietmar; Scherzer, Sönke; Mumm, Patrick; Marten, Irene; Ache, Peter; Matschi, Susanne; Liese, Anja; Wellmann, Christian; Al-Rasheid, Khaled A. S.; Grill, Erwin; Romeis, Tina; Hedrich, Rainer

doi:10.1073/pnas.0912030107

Cited by 494 publications

(584 citation statements)

References 53 publications

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“…Further research on the structural basis for the HT1-OST1 interaction and phosphorylation sites on OST1 will provide a more detailed molecular mechanism underlying OST1 inhibition by HT1 kinase. Given SLAC1 is also regulated by other protein kinases including CPKs [30][31][32] and calcium sensor kinases CBL-CIPKs 52 , further work should also be conducted to find out whether HT1, similar to the PP2C A-type phosphatases in ABA signalling, can also interact with and inhibit calcium-dependent kinases.…”

Section: Discussionmentioning

confidence: 99%

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A molecular pathway for CO2 response in Arabidopsis guard cells

et al. 2015

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Increasing carbon dioxide (CO 2 ) levels in the atmosphere have caused global metabolic changes in diverse plant species. CO 2 is not only a carbon donor for photosynthesis but also an environmental signal that regulates stomatal movements and thereby controls plant-water relationships and carbon metabolism. However, the mechanism underlying CO 2 sensing in stomatal guard cells remains unclear. Here we report characterization of Arabidopsis RESISTANT TO HIGH CO 2 (RHC1), a MATE-type transporter that links elevated CO 2 concentration to repression of HT1, a protein kinase that negatively regulates CO 2 -induced stomatal closing. We also show that HT1 phosphorylates and inactivates OST1, a kinase which is essential for the activation of the SLAC1 anion channel and stomatal closing. Combining genetic, biochemical and electrophysiological evidence, we reconstituted the molecular relay from CO 2 to SLAC1 activation, thus establishing a core pathway for CO 2 signalling in plant guard cells.

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Section: Discussionmentioning

confidence: 99%

“…A group of kinases such as OST1 (STOMATAL OPEN 1), CPKs (Ca 2 þ -dependent protein kinases) and GHR1 (GUARD CELL HYDROGEN PEROXIDE-RESISTANT 1) can phosphorylate and activate the SLAC1 anion channel 23,24,[29][30][31][32] . Such activation is often considered to be the key step for ABA-induced stomatal closure [21][22][23][24] .…”

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confidence: 99%

A molecular pathway for CO2 response in Arabidopsis guard cells

et al. 2015

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“…The phenotype of single gene mutants in the key SnRK2 for stomatal responses to ABA, OST1, are profound, displaying no sensitivity to ABA (Mustilli et al, 2002) or VPD (Merilo et al, 2013;Merilo et al, 2015). While other SnRK2-independent signaling pathways for ABA perception and SLAC activation have been suggested (Geiger et al, 2010;Brandt et al, 2012;Pornsiriwong et al, 2017), these are redundant and many either converge or require cross-talk with functional OST1 to activate anion channels (Brandt et al, 2015). Whether these alternative SnRK2-independent ABA signaling pathways play an adaptively relevant role in stomatal function is yet to be determined.…”

Section: Co-option Of An Ancient and Highly Conserved Aba Signaling Pmentioning

confidence: 99%

Evolution of the Stomatal Regulation of Plant Water Content

2017

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“…Structural analysis revealed that the interaction between SnRK2.6 and HAB1 mimics the interaction between ABA-bound PYL2 and HAB1 [12]. PYLs can inhibit PP2C activity in the presence of ABA, and thereby activating SnRK2.6, which can phosphorylate slow anion channel1 (SLAC1) and activate SLAC1-mediated ion currents [13,14].…”

Section: Introductionmentioning

confidence: 99%

The unique mode of action of a divergent member of the ABA-receptor protein family in ABA and stress signaling

et al. 2013

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Proteins in the PYR/PYL/RCAR family (PYLs) are known as receptors for the phytohormone ABA. Upon ABA binding, PYL adopts a conformation that allows it to interact with and inhibit clade A protein phosphatase 2Cs (PP2Cs), which are known as the co-receptors for ABA. Inhibition of the PP2Cs then leads to the activation of the SnRK2 family protein kinases that phosphorylate and activate downstream effectors in ABA response pathways. The PYL family has 14 members in Arabidopsis, 13 of which have been demonstrated to function as ABA receptors. The function of PYL13, a divergent member of the family, has been enigmatic. We report here that PYL13 differs from the other PYLs in three key residues that affect ABA perception, and mutations in these three residues can convert PYL13 into a partially functional ABA receptor. Transgenic plants overexpressing PYL13 show increased ABA sensitivity in seed germination and postgermination seedling establishment as well as decreased stomatal conductance, increased water-use efficiency, accelerated stress-responsive gene expression, and enhanced drought resistance. pyl13 mutant plants are less sensitive to ABA inhibition of postgermination seedling establishment. PYL13 interacts with and inhibits some members of clade A PP2Cs (PP2CA in particular) in an ABA-independent manner. PYL13 also interacts with the other PYLs and antagonizes their function as ABA receptors. Our results show that PYL13 is not an ABA receptor but can modulate the ABA pathway by interacting with and inhibiting both the PYL receptors and the PP2C co-receptors.

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Guard cell anion channel SLAC1 is regulated by CDPK protein kinases with distinct Ca ²⁺ affinities

Cited by 494 publications

References 53 publications

A molecular pathway for CO2 response in Arabidopsis guard cells

A molecular pathway for CO2 response in Arabidopsis guard cells

Evolution of the Stomatal Regulation of Plant Water Content

The unique mode of action of a divergent member of the ABA-receptor protein family in ABA and stress signaling

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Guard cell anion channel SLAC1 is regulated by CDPK protein kinases with distinct Ca 2+ affinities

Cited by 494 publications

References 53 publications

A molecular pathway for CO2 response in Arabidopsis guard cells

A molecular pathway for CO2 response in Arabidopsis guard cells

Evolution of the Stomatal Regulation of Plant Water Content

The unique mode of action of a divergent member of the ABA-receptor protein family in ABA and stress signaling

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Product

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Guard cell anion channel SLAC1 is regulated by CDPK protein kinases with distinct Ca ²⁺ affinities