Add to ORKGBackground The rising consensus that the cell can dynamically allocate its resources provides an interesting angle for discovering the governing principles of cell growth and metabolism. Extensive efforts have been made in the past decade to elucidate the relationship between resource allocation and phenotypic patterns of microorganisms. Despite these exciting developments, there is still a lack of explicit comparison between potentially competing propositions and a lack of synthesis of inter-related proposals and findings. Results In this work, we have reviewed resource allocation-derived principles, hypotheses and mathematical models to recapitulate important achievements in this area. In particular, the emergence of resource allocation ...
International audienceDifferent strains of a microorganism growing in the same environment display a...
Cellular metabolites frequently have more than a single function in the cell. For example they may b...
This is a chapter from the free textbook "Economic Principles in Cell Biology" In this chapter, we ...
Abstract Background The rising consensus that the cell can dynamically allocate its resources provid...
Cells need to make an efficient use of metabolites, proteins, energy, membrane space, and time, and ...
Escherichia coli is among the most widely used host organisms for engineered functions due to its we...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Constraint-based approaches such as Flux Balance Analysis permit quantitative predictions for the me...
Protein mass is a major constituent of bacterial cell dry weight. An exponentially growing cell dive...
Microbial cells evolved a remarkable ability to adapt to environmental conditions, or to withstand o...
As microbes face changing environments, they dynamically allocate macromolecular resources to produc...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Effective coordination of cellular processes is critical to ensure the competitive growth of microbi...
International audienceBacterial growth is a fundamental process in which cells sustain and reproduce...
This is the author accepted manuscript. The final version is available from Science Reviews 2000 via...
International audienceDifferent strains of a microorganism growing in the same environment display a...
Cellular metabolites frequently have more than a single function in the cell. For example they may b...
This is a chapter from the free textbook "Economic Principles in Cell Biology" In this chapter, we ...
Abstract Background The rising consensus that the cell can dynamically allocate its resources provid...
Cells need to make an efficient use of metabolites, proteins, energy, membrane space, and time, and ...
Escherichia coli is among the most widely used host organisms for engineered functions due to its we...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Constraint-based approaches such as Flux Balance Analysis permit quantitative predictions for the me...
Protein mass is a major constituent of bacterial cell dry weight. An exponentially growing cell dive...
Microbial cells evolved a remarkable ability to adapt to environmental conditions, or to withstand o...
As microbes face changing environments, they dynamically allocate macromolecular resources to produc...
International audienceIntracellular processes rarely work in isolation but continually interact with...
Effective coordination of cellular processes is critical to ensure the competitive growth of microbi...
International audienceBacterial growth is a fundamental process in which cells sustain and reproduce...
This is the author accepted manuscript. The final version is available from Science Reviews 2000 via...
International audienceDifferent strains of a microorganism growing in the same environment display a...
Cellular metabolites frequently have more than a single function in the cell. For example they may b...
This is a chapter from the free textbook "Economic Principles in Cell Biology" In this chapter, we ...