Miroslava Kacirova scite author profile

Miroslava Kacirova

3Publications

43Citation Statements Received

52Citation Statements Given

How they've been cited

How they cite others

178

Affiliations

Case Western Reserve University, Charles University, Czech Academy of Sciences, Institute of Physiology

Publications

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Mechanisms of the 14-3-3 Protein Function: Regulation of Protein Function Through Conformational Modulation

Obšilová¹,

Kopecká²,

Košek³

et al. 2014

Physiol Res

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Many aspects of protein function regulation require specific protein-protein interactions to carry out the exact biochemical and cellular functions. The highly conserved members of the 14-3-3 protein family mediate such interactions and through binding to hundreds of other proteins provide multitude of regulatory functions, thus playing key roles in many cellular processes. The 14-3-3 protein binding can affect the function of the target protein in many ways including the modulation of its enzyme activity, its subcellular localization, its structure and stability, or its molecular interactions. In this minireview, we focus on mechanisms of the 14-3-3 protein-dependent regulation of three important 14-3-3 binding partners: yeast neutral trehalase Nth1, regulator of G-protein signaling 3 (RGS3), and phosducin.

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Structural Characterization of Phosducin and Its Complex with the 14-3-3 Protein

Kacirova

Košek

Kádek

et al. 2015

Journal of Biological Chemistry

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Background: Phosducin is a conserved regulatory phosphoprotein involved in phototransduction whose function is regulated in a 14-3-3-dependent manner. Results: The 14-3-3 protein binding affects the structure and the accessibility of several regions within both domains of phosphorylated phosducin. Conclusion: The 14-3-3 protein sterically occludes the whole G t ␤␥ binding interface of phosducin. Significance: Mechanistic explanation is given for the 14-3-3-dependent inhibition of phosducin function.

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Structural Basis for the 14-3-3 Protein-Dependent Inhibition of Phosducin Function

Kacirova

Nováček

Man

et al. 2017

Biophysical Journal

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Phosducin (Pdc) is a conserved phosphoprotein that, when unphosphorylated, binds with high affinity to the complex of βγ-subunits of G protein transducin (Gβγ). The ability of Pdc to bind to Gβγ is inhibited through its phosphorylation at S54 and S73 within the N-terminal domain (Pdc-ND) followed by association with the scaffolding protein 14-3-3. However, the molecular basis for the 14-3-3-dependent inhibition of Pdc binding to Gβγ is unclear. By using small-angle x-ray scattering, high-resolution NMR spectroscopy, and limited proteolysis coupled with mass spectrometry, we show that phosphorylated Pdc and 14-3-3 form a complex in which the Pdc-ND region 45-80, which forms a part of Pdc's Gβγ binding surface and contains both phosphorylation sites, is restrained within the central channel of the 14-3-3 dimer, with both 14-3-3 binding motifs simultaneously participating in protein association. The N-terminal part of Pdc-ND is likely located outside the central channel of the 14-3-3 dimer, but Pdc residues 20-30, which are also involved in Gβγ binding, are positioned close to the surface of the 14-3-3 dimer. The C-terminal domain of Pdc is located outside the central channel and its structure is unaffected by the complex formation. These results indicate that the 14-3-3 protein-mediated inhibition of Pdc binding to Gβγ is based on steric occlusion of Pdc's Gβγ binding surface.

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