Add to ORKGBacteria growing under different conditions experience a broad range of demand on the rate of protein synthesis, which profoundly affects cellular resource allocation. During fast growth, protein synthesis has long been known to be modulated by adjusting the ribosome content, with the vast majority of ribosomes engaged at a near-maximal rate of elongation. Here, we systematically characterize protein synthesis by Escherichia coli, focusing on slow-growth conditions. We establish that the translational elongation rate decreases as growth slows, exhibiting a Michaelis-Menten dependence on the abundance of the cellular translational apparatus. However, an appreciable elongation rate is maintained even towards zero growth, including the station...
Many cellular activities in bacteria are organized according to their growth rate. The notion that p...
Bacteria must constantly adapt their growth to changes in nutrient availability; yet despite large-s...
SummaryRibosomes elongate at a nonuniform rate during translation. Theoretical models and experiment...
Bacteria growing under different conditions experience a broad range of demand on the rate of protei...
For cells to grow faster they must increase their protein production rate. Microorganisms have tradi...
In nature, bacteria frequently experience many adverse conditions, including heat, oxidation, acidit...
Maximization of growth rate is an important fitness strategy for bacteria. Bacteria can achieve this...
Bacterial growth significantly depends on protein synthesis catalyzed by ribosome. Ribosome translat...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
Protein homeostasis of bacterial cells is maintained by coordinated processes of protein production,...
In different environments, bacteria are known to allocate their proteome differently and achieve dif...
Abstract Background In vivo protein formation is a crucial part of cellular life. The process needs ...
ABSTRACT In nature, bacteria frequently experience many adverse conditions, including heat, oxidatio...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
Although sequencing of ribosome footprints has uncovered aspects of mRNA translation, the determinan...
Many cellular activities in bacteria are organized according to their growth rate. The notion that p...
Bacteria must constantly adapt their growth to changes in nutrient availability; yet despite large-s...
SummaryRibosomes elongate at a nonuniform rate during translation. Theoretical models and experiment...
Bacteria growing under different conditions experience a broad range of demand on the rate of protei...
For cells to grow faster they must increase their protein production rate. Microorganisms have tradi...
In nature, bacteria frequently experience many adverse conditions, including heat, oxidation, acidit...
Maximization of growth rate is an important fitness strategy for bacteria. Bacteria can achieve this...
Bacterial growth significantly depends on protein synthesis catalyzed by ribosome. Ribosome translat...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
Protein homeostasis of bacterial cells is maintained by coordinated processes of protein production,...
In different environments, bacteria are known to allocate their proteome differently and achieve dif...
Abstract Background In vivo protein formation is a crucial part of cellular life. The process needs ...
ABSTRACT In nature, bacteria frequently experience many adverse conditions, including heat, oxidatio...
Ribosomes elongate at a nonuniform rate during translation. Theoretical models and experiments disag...
Although sequencing of ribosome footprints has uncovered aspects of mRNA translation, the determinan...
Many cellular activities in bacteria are organized according to their growth rate. The notion that p...
Bacteria must constantly adapt their growth to changes in nutrient availability; yet despite large-s...
SummaryRibosomes elongate at a nonuniform rate during translation. Theoretical models and experiment...