Calcium-dependent modulation and plasma membrane targeting of the AKT2 potassium channel by the CBL4/CIPK6 calcium sensor/protein kinase complex

Held, Katrin; Pascaud, François; Eckert, Christian; Gajdanowicz, Paweł; Hashimoto, Kenji; Corratgé-Faillie, Claire; Offenborn, Jan Niklas; Lacombe, Benoı̂t; Drèyer, Ingo; Thibaud, Jean‐Baptiste; Kudla, Jörg

doi:10.1038/cr.2011.50

Cited by 247 publications

(250 citation statements)

References 40 publications

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“…Arabidopsis CIPK6, CBL10, and orthologs have been shown to participate in different processes like salt stress tolerance, development, regulation of potassium channel AKT2 activity or modulation, or abscisic acid signaling Quan et al, 2007;Tripathi et al, 2009;Held et al, 2011;Chen et al, 2012;Ren et al, 2013). We did not observe any abnormal growth or development in N. benthamiana or tomato plants silenced for either Cbl10, Cipk6, or both, growing under standard greenhouse conditions.…”

Section: Discussionmentioning

confidence: 69%

The Tomato Calcium Sensor Cbl10 and Its Interacting Protein Kinase Cipk6 Define a Signaling Pathway in Plant Immunity

et al. 2013

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Section: Discussionmentioning

confidence: 69%

The Tomato Calcium Sensor Cbl10 and Its Interacting Protein Kinase Cipk6 Define a Signaling Pathway in Plant Immunity

et al. 2013

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“…If the subcellular localization of the BiFC complexes is to be reliably determined, coexpression of a well characterized marker protein fused to a different, compatible FP should be performed to assess colocalization with the BiFC signal. Colocalization and fluorescence intensities can be determined by fluorescence intensity line-scan or scatterplot analyses (Held et al, 2011;Offenborn et al, 2015).…”

Section: Quantitative Analysismentioning

confidence: 99%

Lighting the Way to Protein-Protein Interactions: Recommendations on Best Practices for Bimolecular Fluorescence Complementation Analyses

2016

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ORCID ID: 0000-0001-7502-6940 (R.B.)Techniques to detect and verify interactions between proteins in vivo have become invaluable tools in functional genomic research. While many of the initially developed interaction assays (e.g., yeast two-hybrid system and split-ubiquitin assay) usually are conducted in heterologous systems, assays relying on bimolecular fluorescence complementation (BiFC; also referred to as split-YFP assays) are applicable to the analysis of protein-protein interactions in most native systems, including plant cells. Like all protein-protein interaction assays, BiFC can produce false positive and false negative results. The purpose of this commentary is to (1) highlight shortcomings of and potential pitfalls in BiFC assays, (2) provide guidelines for avoiding artifactual interactions, and (3) suggest suitable approaches to scrutinize potential interactions and validate them by independent methods.

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“…Based on the observation that Ca 2+ is known to regulate the activity of ion channels in many other physiological processes, Ca 2+ and its downstream components are assumed to play crucial roles in modulating ion channel activity during pollen tube growth. The activity or membrane localization of Shaker K + channel is modulated by calcineurin B-like proteins (CBLs) and CBL-interacting protein kinases (CIPKs), which plays important roles in K + uptake and distribution (Xu et al, 2006;Held et al, 2011). In guard cells, Ca 2+ signals can be transduced from some CDPKs or other Ca 2+ sensor proteins to various types of ion channels, such as K + in channels, nonselective Ca 2+ -permeable channels, and S-type anion channels, to regulate stomatal movements (Schroeder and Hagiwara, 1989;Li et al, 1998;Berkowitz et al, 2000;Mori et al, 2006;Geiger et al, 2010;Zou et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Ca2+-Dependent Protein Kinase11 and 24 Modulate the Activity of the Inward Rectifying K+ Channels inArabidopsisPollen Tubes

et al. 2013

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Potassium (K+) influx into pollen tubes via K+ transporters is essential for pollen tube growth; however, the mechanism by which K+ transporters are regulated in pollen tubes remains unknown. Here, we report that Arabidopsis thaliana Ca2+-dependent protein kinase11 (CPK11) and CPK24 are involved in Ca2+-dependent regulation of the inward K+ (K+ in) channels in pollen tubes. Using patch-clamp analysis, we demonstrated that K+ in currents of pollen tube protoplasts were inhibited by elevated [Ca2+]cyt. However, disruption of CPK11 or CPK24 completely impaired the Ca2+-dependent inhibition of K+ in currents and enhanced pollen tube growth. Moreover, the cpk11 cpk24 double mutant exhibited similar phenotypes as the corresponding single mutants, suggesting that these two CDPKs function in the same signaling pathway. Bimolecular fluorescence complementation and coimmunoprecipitation experiments showed that CPK11 could interact with CPK24 in vivo. Furthermore, CPK11 phosphorylated the N terminus of CPK24 in vitro, suggesting that these two CDPKs work together as part of a kinase cascade. Electrophysiological assays demonstrated that the Shaker pollen K+ in channel is the main contributor to pollen tube K+ in currents and acts as the downstream target of the CPK11-CPK24 pathway. We conclude that CPK11 and CPK24 together mediate the Ca2+-dependent inhibition of K+ in channels and participate in the regulation of pollen tube growth in Arabidopsis.

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Calcium-dependent modulation and plasma membrane targeting of the AKT2 potassium channel by the CBL4/CIPK6 calcium sensor/protein kinase complex

Cited by 247 publications

References 40 publications

The Tomato Calcium Sensor Cbl10 and Its Interacting Protein Kinase Cipk6 Define a Signaling Pathway in Plant Immunity

The Tomato Calcium Sensor Cbl10 and Its Interacting Protein Kinase Cipk6 Define a Signaling Pathway in Plant Immunity

Lighting the Way to Protein-Protein Interactions: Recommendations on Best Practices for Bimolecular Fluorescence Complementation Analyses

Ca2+-Dependent Protein Kinase11 and 24 Modulate the Activity of the Inward Rectifying K+ Channels inArabidopsisPollen Tubes

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