Ser6 in the maize actin‐depolymerizing factor, ZmADF3, is phosphorylated by a calcium‐stimulated protein kinase and is essential for the control of functional activity

Smertenko, Andrei; Jiang, Chang‐Jie; Simmons, Nicola; Weeds, Alan G.; Davies, Dewi R.; Hussey, Patrick J.

doi:10.1046/j.1365-313x.1998.00107.x

Cited by 132 publications

(110 citation statements)

References 32 publications

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“…Thus, there is strong evidence supporting a regulatory role for the Ca 21 gradient through imposing spatial control on the site of cell expansion in these tip-growing systems. Indeed, the structures of the apical actin cytoskeleton and its regulatory proteins (villins, gelsolins, and actin-depolymerizing factors; Smertenko et al, 1998;Tominaga et al, 2000;Allwood et al, 2001;Ketelaar et al, 2003;Fan et al, 2004) are thought to be regulated by the tip-high Ca 21 (Yokota et al, 2005). Similarly, there is evidence that annexins (Blackbourn et al, 1992;Clark et al, 1992;Carroll et al, 1998), phosphoinositide metabolism (Preuss et al, 2006), and calmodulin and protein kinases (Moutinho et al, 1998;Yoon et al, 2006) also play roles in sustaining tip growth and are regulated via the cytosolic Ca 21 gradient.…”

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Imaging of the Yellow Cameleon 3.6 Indicator Reveals That Elevations in Cytosolic Ca2+ Follow Oscillating Increases in Growth in Root Hairs of Arabidopsis

2008

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(M.A.M.) In tip-growing cells, the tip-high Ca 21 gradient is thought to regulate the activity of components of the growth machinery, including the cytoskeleton, Ca 21 -dependent regulatory proteins, and the secretory apparatus. In pollen tubes, both the Ca 21 gradient and cell elongation show oscillatory behavior, reinforcing the link between the two. We report that in growing root hairs of Arabidopsis (Arabidopsis thaliana), an oscillating tip-focused Ca 21 gradient can be resolved through imaging of a cytosolically expressed Yellow Cameleon 3.6 fluorescence resonance energy transfer-based Ca 21 sensor. Both elongation of the root hairs and the associated tip-focused Ca 21 gradient show a similar dynamic character, oscillating with a frequency of 2 to 4 min 21 . Crosscorrelation analysis indicates that the Ca 21 oscillations lag the growth oscillations by 5.3 6 0.3 s. However, growth never completely stops, even during the slow cycle of an oscillation, and the concomitant tip Ca 21 level is always slightly elevated compared with the resting Ca 21 concentration along the distal shaft, behind the growing tip. Artificially increasing Ca 21 using the Ca 21 ionophore A23187 leads to immediate cessation of elongation and thickening of the apical cell wall. In contrast, dissipating the Ca 21 gradient using either the Ca 21 channel blocker La 31 or the Ca 21 chelator EGTA is accompanied by an increase in the rate of cell expansion and eventual bursting of the root hair tip. These observations are consistent with a model in which the maximal oscillatory increase in cytosolic Ca 21 is triggered by cell expansion associated with tip growth and plays a role in the subsequent restriction of growth.

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Imaging of the Yellow Cameleon 3.6 Indicator Reveals That Elevations in Cytosolic Ca2+ Follow Oscillating Increases in Growth in Root Hairs of Arabidopsis

2008

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“…The activity of ADF proteins is also regulated by phosphorylation in plant [20]. It has been reported that CDPKs phosphorylate ADFs in plant [19,20]. In this study, we identify that 14-3-3  interacts with ADF1 in plant and functions in ADF1 phosphorylation regulation to modulate actin cytoskeleton reorganization.…”

Section: Discussionmentioning

confidence: 65%

“…In plant, actin interacting proteins (AIP) interact with ADF proteins and enhance their F-actin severing and depolymerizing activity [41][42][43]. The activity of ADF proteins is also regulated by phosphorylation in plant [20]. It has been reported that CDPKs phosphorylate ADFs in plant [19,20].…”

Section: Discussionmentioning

confidence: 99%

“…The phosphorylation of Ser 6 is required for ADF actin binding and severing activity [18,19]. Phosphorylation is key regulatory mechanism of ADF activity [20,21]. However, these regulation pathways are not well documented in plant.…”

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“…However, these regulation pathways are not well documented in plant. In Arabidopsis, ADF1 is possibly phosphorylated by calcium-dependent protein kinase (CDPK) at Ser 6 [19,20].…”

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14-3-3 λ protein interacts with ADF1 to regulate actin cytoskeleton dynamics in Arabidopsis

Zhao

Guo

2015

Sci. China Life Sci.

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Actin cytoskeleton dynamics is critical for variety of cellular events including cell elongation, division and morphogenesis, and is tightly regulated by numerous groups of actin binding proteins. However it is not well understood how these actin binding proteins are modulated in a physiological condition by their interaction proteins. In this study, we describe that Arabidopsis 14-3-3  protein interacted with actin depolymerizing factor 1 (ADF1) in plant to regulate F-actin stability and dynamics. Loss of 14-3-3  in Arabidopsis resulted in longer etiolated hypocotyls in dark and changed actin cytoskeleton architecture in hypocotyl cells. Overexpression of ADF1 repressed 14-3-3  mutant hypocotyl elongation and actin dynamic phenotype. In addition, the phosphorylation level of ADF1 was increased and the subcellular localization of ADF1 was altered in 14-3-3  mutant. Consistent with these observations, the actin filaments were more stable in 14-3-3  mutant. Our results indicate that 14-3-3  protein mediates F-actin dynamics possibly through inhibiting ADF1 phosphorylation in vivo.Arabidopsis, 14-3-3, ADF, phosphorylation, actin cytoskeleton dynamics Citation:Zhao SS, Zhao YX, Guo Y. 14-3-3  protein interacts with ADF1 to regulate actin cytoskeleton dynamics in

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Actin and Actin‐Modulating Proteins

Staiger

Hussey

2018

Annual Plant Reviews Online

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Ser6 in the maize actin‐depolymerizing factor, ZmADF3, is phosphorylated by a calcium‐stimulated protein kinase and is essential for the control of functional activity

Cited by 132 publications

References 32 publications

Imaging of the Yellow Cameleon 3.6 Indicator Reveals That Elevations in Cytosolic Ca2+ Follow Oscillating Increases in Growth in Root Hairs of Arabidopsis

Imaging of the Yellow Cameleon 3.6 Indicator Reveals That Elevations in Cytosolic Ca2+ Follow Oscillating Increases in Growth in Root Hairs of Arabidopsis

14-3-3 λ protein interacts with ADF1 to regulate actin cytoskeleton dynamics in Arabidopsis

Actin and Actin‐Modulating Proteins

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