2016
DOI: 10.1101/080465
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Analysis of noise mechanisms in cell size control

Abstract: At the single-cell level, noise features in multiple ways through the inherent stochasticity of biomolecular processes, random partitioning of resources at division, and fluctuations in cellular growth rates. How these diverse noise mechanisms combine to drive variations in cell size within an isoclonal population is not well understood. To address this problem, we systematically investigate the contributions of different noise sources in well-known paradigms of cell-size control, such as the adder (division o… Show more

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Cited by 10 publications
(11 citation statements)
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“…This is coupled with the observation that growth rate is dependent on birth length (Figure 2D), with smaller cells growing faster than larger cells at birth (for cells grown in glycerol but not for cells grown in acetate or pyruvate; Figures 5B, 6B); a dependence that is not observed in E. coli . How these correlations affect the properties of cell size control is not clear and should be the subject of further modeling studies (Modi et al, 2016), though we note that the striking negative dependence of growth rate on birth length has recently been observed in mammalian cells (Ginzberg et al, 2017). …”
Section: Discussionmentioning
confidence: 77%
“…This is coupled with the observation that growth rate is dependent on birth length (Figure 2D), with smaller cells growing faster than larger cells at birth (for cells grown in glycerol but not for cells grown in acetate or pyruvate; Figures 5B, 6B); a dependence that is not observed in E. coli . How these correlations affect the properties of cell size control is not clear and should be the subject of further modeling studies (Modi et al, 2016), though we note that the striking negative dependence of growth rate on birth length has recently been observed in mammalian cells (Ginzberg et al, 2017). …”
Section: Discussionmentioning
confidence: 77%
“…2C), adder dynamics imposes a characteristic cell size associated with the mode of the distribution, which is often referred to as an 'optimal' cell size. The width of the final distribution is set by the variability in partitioning of volume between daughters at division (although other sources of variability may be envisaged such as noise in the growth rate or the amount of volume added per cell cycle [54], which are neglected here). Under these simulation dynamics, the modal cell volume and the maximum value of rDC are essentially independent ( Fig.…”
Section: Cell Physiological Models Coupled To Cell Deathmentioning
confidence: 99%
“…Cell division is suspected to explain part of this fluctuations in gene expression (Amir 2014, Modi, et al 2017. In rod shaped organisms, physiological implications can potentially affect DNA concentration, surface transport and biosynthesis rates, as well as proteome composition (Willis and Huang 2017).…”
Section: Introductionmentioning
confidence: 99%