All organisms control the size of their cells. We focus here on the question of size regulation in bacteria, and suggest that the quantitative laws governing cell size and its dependence on growth rate may arise as byproducts of a regulatory mechanism which evolved to support multiple DNA replication forks. In particular, we show that the increase of bacterial cell size during Lenski’s long-term evolution experiments is a natural outcome of this proposal. This suggests that, in the context of evolution, cell size may be a 'spandrel' DOI: http://dx.doi.org/10.7554/eLife.22186.00
Many organisms coordinate cell growth and division through size control mechanisms: cells must rea...
Increasingly accurate and massive data have recently shed light on the fundamental question of how c...
AbstractHow populations of growing cells achieve cell-size homeostasis remains a major question in c...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
International audienceSpecialty section: This article was submitted to Microbial Physiology and Meta...
How cells control their size and maintain size homeostasis is a fundamental open question. Cell-size...
High-throughput imaging has led to an explosion of observations regarding cell-size homeostasis acro...
BGPI : équipe 2Size is one of the most important biological traits influencing organismal ecology an...
Diversification of cell size is hypothesized to have occurred through a process of evolutionary opti...
SummaryDiversification of cell size is hypothesized to have occurred through a process of evolutiona...
DNA replication, nucleoid segregation, and cell division must be coordinated with growth and cell si...
<div><p>Increasingly accurate and massive data have recently shed light on the fundamental question ...
During bacterial growth, a cell approximately doubles in size before division, after which it splits...
Various bacteria such as the canonical gram negative Escherichia coli or the well-studied gram posit...
Many organisms coordinate cell growth and division through size control mechanisms: cells must rea...
Increasingly accurate and massive data have recently shed light on the fundamental question of how c...
AbstractHow populations of growing cells achieve cell-size homeostasis remains a major question in c...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
International audienceSpecialty section: This article was submitted to Microbial Physiology and Meta...
How cells control their size and maintain size homeostasis is a fundamental open question. Cell-size...
High-throughput imaging has led to an explosion of observations regarding cell-size homeostasis acro...
BGPI : équipe 2Size is one of the most important biological traits influencing organismal ecology an...
Diversification of cell size is hypothesized to have occurred through a process of evolutionary opti...
SummaryDiversification of cell size is hypothesized to have occurred through a process of evolutiona...
DNA replication, nucleoid segregation, and cell division must be coordinated with growth and cell si...
<div><p>Increasingly accurate and massive data have recently shed light on the fundamental question ...
During bacterial growth, a cell approximately doubles in size before division, after which it splits...
Various bacteria such as the canonical gram negative Escherichia coli or the well-studied gram posit...
Many organisms coordinate cell growth and division through size control mechanisms: cells must rea...
Increasingly accurate and massive data have recently shed light on the fundamental question of how c...
AbstractHow populations of growing cells achieve cell-size homeostasis remains a major question in c...