Nordholt et al. show how growth-rate and protein-concentration homeostasis is achieved in Bacillus subtilis, through systematic rate adjustments during cell-cycle progression. They identify two distinct growth regimes in this bacterium's cell cycle, suggesting a link between growth-rate dynamics and size homeostasis
DNA replication, nucleoid segregation, and cell division must be coordinated with growth and cell si...
Despite a remarkable diversity of lifestyles, bacterial replication has only been investigated in a ...
Cell size control and homeostasis are fundamental features of bacterial metabolism. Recent work sugg...
Bacillus subtilis and Escherichia coli are evolutionarily divergent model organisms whose analysis h...
ABSTRACT Bacillus subtilis and Escherichia coli are evolutionarily divergent model organisms whose a...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
International audienceTo survive and adapt to changing nutritional conditions, bacteria must rapidly...
How cells control their size and maintain size homeostasis is a fundamental open question. Cell-size...
It is known that nutrient availability is a primary determinant of cell size in Bacillus subtilis. C...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
ABSTRACT Bacterial cells need to coordinate the cell cycle with biomass growth to maintain cell size...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Evolutionarily divergent bacteria share a common phenomenological strategy for cell-size homeostasis...
Each cell must achieve the dual tasks of replicating the genetic material and dividing its component...
International audienceBacteria are able to adapt to nutrient availability in the environment. For ex...
DNA replication, nucleoid segregation, and cell division must be coordinated with growth and cell si...
Despite a remarkable diversity of lifestyles, bacterial replication has only been investigated in a ...
Cell size control and homeostasis are fundamental features of bacterial metabolism. Recent work sugg...
Bacillus subtilis and Escherichia coli are evolutionarily divergent model organisms whose analysis h...
ABSTRACT Bacillus subtilis and Escherichia coli are evolutionarily divergent model organisms whose a...
Like eukaryotes, bacteria must coordinate division with growth to ensure cells are the appropriate s...
International audienceTo survive and adapt to changing nutritional conditions, bacteria must rapidly...
How cells control their size and maintain size homeostasis is a fundamental open question. Cell-size...
It is known that nutrient availability is a primary determinant of cell size in Bacillus subtilis. C...
SummaryCell size control is an intrinsic feature of the cell cycle. In bacteria, cell growth and div...
ABSTRACT Bacterial cells need to coordinate the cell cycle with biomass growth to maintain cell size...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Evolutionarily divergent bacteria share a common phenomenological strategy for cell-size homeostasis...
Each cell must achieve the dual tasks of replicating the genetic material and dividing its component...
International audienceBacteria are able to adapt to nutrient availability in the environment. For ex...
DNA replication, nucleoid segregation, and cell division must be coordinated with growth and cell si...
Despite a remarkable diversity of lifestyles, bacterial replication has only been investigated in a ...
Cell size control and homeostasis are fundamental features of bacterial metabolism. Recent work sugg...
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