Robustness and Universality in Organelle Size Control

Kiandokht Panjtan Amiri; Asa Kalish; Shankar Mukherji

doi:10.1103/PhysRevLett.130.018401

Robustness and Universality in Organelle Size Control

Kiandokht Panjtan Amiri, Asa Kalish, Shankar Mukherji

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

One of the grand challenges in cellular biophysics is understanding the precision with which cells assemble and maintain subcellular structures. Organelle sizes, for example, must be flexible enough to allow cells to grow or shrink them as environments demand yet be maintained within homeostatic limits. Despite identification of molecular factors that regulate organelle sizes we lack insight into the quantitative principles underlying organelle size control. Here we show experimentally that cells can robustly control average fluctuations in organelle size. By demonstrating that organelle sizes obey a universal scaling relationship we predict theoretically, our framework suggests that organelles grow in random bursts from a limiting pool of building blocks. Burstlike growth provides a general biophysical mechanism by which cells can maintain on average reliable yet plastic organelle sizes.

Original language	English
Article number	018401
Journal	Physical Review Letters
Volume	130
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.130.018401
State	Published - Jan 6 2023

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10.1103/PhysRevLett.130.018401

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title = "Robustness and Universality in Organelle Size Control",

abstract = "One of the grand challenges in cellular biophysics is understanding the precision with which cells assemble and maintain subcellular structures. Organelle sizes, for example, must be flexible enough to allow cells to grow or shrink them as environments demand yet be maintained within homeostatic limits. Despite identification of molecular factors that regulate organelle sizes we lack insight into the quantitative principles underlying organelle size control. Here we show experimentally that cells can robustly control average fluctuations in organelle size. By demonstrating that organelle sizes obey a universal scaling relationship we predict theoretically, our framework suggests that organelles grow in random bursts from a limiting pool of building blocks. Burstlike growth provides a general biophysical mechanism by which cells can maintain on average reliable yet plastic organelle sizes.",

author = "Amiri, {Kiandokht Panjtan} and Asa Kalish and Shankar Mukherji",

note = "Funding Information: We thank D. Laman Trip, T. Maire, and H. Youk for critically reviewing our Letter. This was was supported by NIH R35GM142704 (to S. M.). K. P. A. was supported by a fellowship from the Center for Science and Engineering of Living Systems at Washington University in St. Louis. Publisher Copyright: {\textcopyright} 2023 American Physical Society.",

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Robustness and Universality in Organelle Size Control

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