Shengping Xiao scite author profile

Shengping Xiao

3Publications

99Citation Statements Received

51Citation Statements Given

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National University of Singapore

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Frequency and amplitude control of cortical oscillations by phosphoinositide waves

et al. 2016

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Rhythmicity is prevalent in the cortical dynamics of diverse single and multicellular systems. Current models of cortical oscillations focus primarily on cytoskeleton-based feedbacks, but information on signals upstream of the actin cytoskeleton is limited. In addition, inhibitory mechanisms--especially local inhibitory mechanisms, which ensure proper spatial and kinetic controls of activation--are not well understood. Here, we identified two phosphoinositide phosphatases, synaptojanin 2 and SHIP1, that function in periodic traveling waves of rat basophilic leukemia (RBL) mast cells. The local, phase-shifted activation of lipid phosphatases generates sequential waves of phosphoinositides. By acutely perturbing phosphoinositide composition using optogenetic methods, we showed that pulses of PtdIns(4,5)P2 regulate the amplitude of cyclic membrane waves while PtdIns(3,4)P2 sets the frequency. Collectively, these data suggest that the spatiotemporal dynamics of lipid metabolism have a key role in governing cortical oscillations and reveal how phosphatidylinositol 3-kinases (PI3K) activity could be frequency-encoded by a phosphatase-dependent inhibitory reaction.

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Mitotic Cortical Waves Predict Future Division Sites by Encoding Positional and Size Information

et al. 2017

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Dynamic spatial patterns such as traveling waves could theoretically encode spatial information, but little is known about whether or how they are employed by biological systems, especially higher eukaryotes. Here, we show that concentric target or spiral waves of active Cdc42 and the F-BAR protein FBP17 are invoked in adherent cells at the onset of mitosis. These waves predict the future sites of cell divisions and represent the earliest known spatial cues for furrow assembly. Unlike interphase waves, the frequencies and wavelengths of the mitotic waves display size-dependent scaling properties. While the positioning role of the metaphase waves requires microtubule dynamics, spindle and microtubule-independent inhibitory signals are propagated by the mitotic waves to ensure the singularity of furrow formation. Taken together, we propose that metaphase cortical waves integrate positional and cell size information for division-plane specification in adhesion-dependent cytokinesis.

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Erratum: Corrigendum: Frequency and amplitude control of cortical oscillations by phosphoinositide waves

Xiong¹,

Xiao²,

Guo³

et al. 2016

Nat Chem Biol

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In the version of this caption initially published, the cover artwork was credited to Erin Dewalt, based on imagery from the author, rather than stating that it was created by Michael B. Battles and the design was by Erin Dewalt. The error has been corrected in the HTML and PDF versions of the caption. ERRATUMFrequency and amplitude control of cortical oscillations by phosphoinositide waves In the version of this article initially published, the genus name 'Mycoplasma' was incorrectly used in place of the correct 'Mycobacterium' . The error has been corrected in the HTML and PDF versions of the article.ERRATUM npg

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Shengping Xiao

Frequency and amplitude control of cortical oscillations by phosphoinositide waves

Mitotic Cortical Waves Predict Future Division Sites by Encoding Positional and Size Information

Erratum: Corrigendum: Frequency and amplitude control of cortical oscillations by phosphoinositide waves

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