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  • Structural basis of the myosin X PH1(N)-PH2-PH1(C) tandem as a specific and acute cellular PI(3,4,5)P(3) sensor.

Structural basis of the myosin X PH1(N)-PH2-PH1(C) tandem as a specific and acute cellular PI(3,4,5)P(3) sensor.

Molecular biology of the cell (2011-10-04)
Qing Lu, Jiang Yu, Jing Yan, Zhiyi Wei, Mingjie Zhang
ZUSAMMENFASSUNG

Myosin X (MyoX) is an unconventional myosin that is known to induce the formation and elongation of filopodia in many cell types. MyoX-induced filopodial induction requires the three PH domains in its tail region, although with unknown underlying molecular mechanisms. MyoX's first PH domain is split into halves by its second PH domain. We show here that the PH1(N)-PH2-PH1(C) tandem allows MyoX to bind to phosphatidylinositol (3,4,5)-triphosphate [PI(3,4,5)P(3)] with high specificity and cooperativity. We further show that PH2 is responsible for the specificity of the PI(3,4,5)P(3) interaction, whereas PH1 functions to enhance the lipid membrane-binding avidity of the tandem. The structure of the MyoX PH1(N)-PH2-PH1(C) tandem reveals that the split PH1, PH2, and the highly conserved interdomain linker sequences together form a rigid supramodule with two lipid-binding pockets positioned side by side for binding to phosphoinositide membrane bilayers with cooperativity. Finally, we demonstrate that disruption of PH2-mediated binding to PI(3,4,5)P(3) abolishes MyoX's function in inducing filopodial formation and elongation.

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Brain Extract from bovine brain, Type I, Folch Fraction I