Makoto Ohira scite author profile

Summary Proper cell size is essential for cellular function. Nonetheless, despite more than 100 years of work on the subject, the mechanisms that maintain cell size homeostasis are largely mysterious [1]. Cells in growing populations maintain cell size within a narrow range by coordinating growth and division. Bacterial and eukaryotic cells both demonstrate homeostatic size control, which maintains population-level variation in cell size within a certain range, and returns the population average to that range if it is perturbed [1, 2]. Recent work has proposed two different strategies for size control: budding yeast has been proposed to use an inhibitor-dilution strategy to regulate size at the G1/S transition [3], while bacteria appear to use an adder strategy, in which a fixed amount of growth each generation causes cell size to converge on a stable average [4-6]. Here we present evidence that cell size in the fission yeast Schizosaccharomyces pombe is regulated by a third strategy: the size dependent expression of the mitotic activator Cdc25. The cdc25 transcript levels are regulated such that smaller cells express less Cdc25 and larger cells express more Cdc25, creating an increasing concentration of Cdc25 as cell grow and providing a mechanism for cell to trigger cell division when they reach a threshold concentration of Cdc25. Since regulation of mitotic entry by Cdc25 is well conserved, this mechanism may provide a wide spread solution to the problem of size control in eukaryotes.

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An estradiol‐inducible promoter enables fast, graduated control of gene expression in fission yeast

Ohira

Hendrickson

McIsaac

et al. 2017

Yeast

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The fission yeast Schizosaccharomyces pombe lacks a diverse toolkit of inducible promoters for experimental manipulation. Available inducible promoters suffer from slow induction kinetics, limited control of expression levels and/or a requirement for defined growth medium. In particular, no S. pombe inducible promoter systems exhibit a linear dose response, which would allow expression to be tuned to specific levels. We have adapted a fast, orthogonal promoter system with a large dynamic range and a linear dose response, based on β-estradiol-regulated function of the human estrogen receptor, for use in S. pombe. We show that this promoter system, termed Z3EV, turns on quickly, can reach a maximal induction of 20 fold, and exhibits a linear dose response over its entire induction range, with few off target effects. We demonstrate the utility of this system by regulating the mitotic inhibitor Wee1 to create a strain in which cell size is regulated by β-estradiol concentration. This promoter system will be of great utility for experimentally regulating gene expression in fission yeast.

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A novel anti-microtubule agent with carbazole and benzohydrazide structures suppresses tumor cell growth in vivo

Ohira

Iwasaki

Tanaka

et al. 2015

Biochimica et Biophysica Acta (BBA) - General Subjects

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An Estradiol-Inducible Promoter Enables Fast, Graduated Control of Gene Expression in Fission Yeast

Ohira¹,

Hendrickson

McIsaac

et al. 2016

Preprint

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The fission yeast Schizosaccharomyces pombe lacks a diverse toolkit of inducible promoters for experimental manipulation. Available inducible promoters suffer from slow induction kinetics, limited control of expression levels and/or a requirement for defined growth medium. In particular, no S. pombe inducible promoter systems exhibit a linear dose-response, which would allow expression to be tuned to specific levels. We have adapted a fast, orthogonal promoter system with a large dynamic range and a linear dose response, based on β-estradiol-regulated function of the human oestrogen receptor, for use in S. pombe. We show that this promoter system, termed Z 3 EV, turns on quickly, can reach a maximal induction of 20-fold, and exhibits a linear dose response over its entire induction range, with few off-target effects. We demonstrate the utility of this system by regulating the mitotic inhibitor Wee1 to create a strain in which cell size is regulated by β-estradiol concentration. This promoter system will be of great utility for experimentally regulating gene expression in fission yeast. Copyright

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pomBseen: An Automated Pipeline for Analysis of Fission Yeast Images

Ohira

Rhind

2022

Preprint

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Makoto Ohira

Size-Dependent Expression of the Mitotic Activator Cdc25 Suggests a Mechanism of Size Control in Fission Yeast

An estradiol‐inducible promoter enables fast, graduated control of gene expression in fission yeast

A novel anti-microtubule agent with carbazole and benzohydrazide structures suppresses tumor cell growth in vivo

An Estradiol-Inducible Promoter Enables Fast, Graduated Control of Gene Expression in Fission Yeast

pomBseen: An Automated Pipeline for Analysis of Fission Yeast Images

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