Diversification of cell size is hypothesized to have occurred through a process of evolutionary optimization, but direct demonstrations of causal relationships between cell geometry and fitness are lacking. Here, we identify a mutation from a laboratory-evolved bacterium that dramatically increases cell size through cytoskeletal perturbation and confers a large fitness advantage. We engineer a library of cytoskeletal mutants of different sizes and show that fitness scales linearly with respect to cell size over a wide physiological range. Quantification of the growth rates of single cells during the exit from stationary phase reveals that transitions between “feast-or-famine” growth regimes are a key determinant of cell-size-dependent fitne...
The importance of individual cells in a developing multicellular organism is well known, but precise...
Many cellular populations are tightly packed, such as microbial colonies and biofilms, or tissues an...
Although bacterial cell morphology is tightly controlled, the principles of size regulation remain e...
SummaryDiversification of cell size is hypothesized to have occurred through a process of evolutiona...
Body size covaries with population dynamics across life's domains. Metabolism may impose fundamental...
BGPI : équipe 2Size is one of the most important biological traits influencing organismal ecology an...
All organisms control the size of their cells. We focus here on the question of size regulation in b...
Bacteria adopt a wide variety of sizes and shapes, with many species exhibiting stereotypical morpho...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
The maintenance of cell size homeostasis has been studied for years in different cellular systems. W...
Abstract How cells control their shape and size is a fundamental question of biology. In most bacter...
SummaryAlthough bacterial cell morphology is tightly controlled, the principles of size regulation r...
Adaptation to local resource availability depends on responses in growth rate and nutrient acquisiti...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
The importance of individual cells in a developing multicellular organism is well known, but precise...
Many cellular populations are tightly packed, such as microbial colonies and biofilms, or tissues an...
Although bacterial cell morphology is tightly controlled, the principles of size regulation remain e...
SummaryDiversification of cell size is hypothesized to have occurred through a process of evolutiona...
Body size covaries with population dynamics across life's domains. Metabolism may impose fundamental...
BGPI : équipe 2Size is one of the most important biological traits influencing organismal ecology an...
All organisms control the size of their cells. We focus here on the question of size regulation in b...
Bacteria adopt a wide variety of sizes and shapes, with many species exhibiting stereotypical morpho...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
The maintenance of cell size homeostasis has been studied for years in different cellular systems. W...
Abstract How cells control their shape and size is a fundamental question of biology. In most bacter...
SummaryAlthough bacterial cell morphology is tightly controlled, the principles of size regulation r...
Adaptation to local resource availability depends on responses in growth rate and nutrient acquisiti...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
The importance of individual cells in a developing multicellular organism is well known, but precise...
Many cellular populations are tightly packed, such as microbial colonies and biofilms, or tissues an...
Although bacterial cell morphology is tightly controlled, the principles of size regulation remain e...