Reliable and robust control of nucleus centering is contingent on nonequilibrium force patterns.

TitleReliable and robust control of nucleus centering is contingent on nonequilibrium force patterns.
Publication TypeJournal Article
Year of Publication2023
AuthorsJain I, Rao M, Tran PT
JournaliScience
Volume26
Issue5
Pagination106665
Date Published2023 May 19
ISSN2589-0042
Abstract

Cell centers their division apparatus to ensure symmetric cell division, a challenging task when the governing dynamics is stochastic. Using fission yeast, we show that the patterning of nonequilibrium polymerization forces of microtubule (MT) bundles the precise localization of spindle pole body (SPB), and hence the division septum, at the onset of mitosis. We define two cellular objectives, , the mean SPB position relative to the geometric center, and , the variance of the SPB position, which are sensitive to genetic perturbations that change cell length, MT bundle number/orientation, and MT dynamics. We show that simultaneous control of reliability and robustness is required to minimize septum positioning error achieved by the wild type (WT). A stochastic model for the MT-based nucleus centering, with parameters measured directly or estimated using Bayesian inference, recapitulates the maximum fidelity of WT. Using this, we perform a sensitivity analysis of the parameters that control nuclear centering.

DOI10.1016/j.isci.2023.106665
Alternate JournaliScience
PubMed ID37182105
PubMed Central IDPMC10173738
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