Living systems must adapt quickly and stably to uncertain environments. A common theme in cellular regulation is the presence of multiple feedback loops in the network. An example of such a feedback structure is regulation of tryptophan concentration in Escherichia coli. Here, three distinct feedback mechanisms, namely genetic regulation, mRNA attenuation and enzyme inhibition, regulate tryptophan synthesis. A pertinent question is whether such multiple feedback loops are “a case of regulatory overkill, or do these different feedback regulators have distinct functions?” [Freeman (2000) Nature 295, 313–319]. Another moot question is how robustness to uncertainties can be achieved structurally through biological interactions. Correlation betw...
Recent work on engineering synthetic cellular circuitry has shown that non-regulatory interactions b...
Metabolism is the core of what we consider to be a living cell. It covers all chemical reactions tha...
Organized systems such as living organisms or cells require that the level of crucial elements someh...
AbstractLiving systems must adapt quickly and stably to uncertain environments. A common theme in ce...
Biological networks have evolved through adaptation in uncertain environments. Of the different poss...
The tryptophan system present in Escherichia coli represents an important regulatory unit described ...
Living cells are made up of networks of interacting genes, proteins and other bio-molecules. Simple ...
Biological systems respond appropriately to a variety of environments thus representing complex syst...
Living cells are made up of networks of interacting genes, proteins and other bio-molecules. Simple ...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
A mathematical model has been developed to study the effect of external tryptophan on the trp operon...
The genetic and biochemical networks which underlie such things as homeostasis in metabolism and the...
Cells need to respond to a vast range of different disturbances and changes over small and large tim...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
A widespread mechanism of bacterial signaling occurs through two-component systems, comprised of a s...
Recent work on engineering synthetic cellular circuitry has shown that non-regulatory interactions b...
Metabolism is the core of what we consider to be a living cell. It covers all chemical reactions tha...
Organized systems such as living organisms or cells require that the level of crucial elements someh...
AbstractLiving systems must adapt quickly and stably to uncertain environments. A common theme in ce...
Biological networks have evolved through adaptation in uncertain environments. Of the different poss...
The tryptophan system present in Escherichia coli represents an important regulatory unit described ...
Living cells are made up of networks of interacting genes, proteins and other bio-molecules. Simple ...
Biological systems respond appropriately to a variety of environments thus representing complex syst...
Living cells are made up of networks of interacting genes, proteins and other bio-molecules. Simple ...
Background: Feedback regulation plays crucial roles in the robust control and maintenance of many ce...
A mathematical model has been developed to study the effect of external tryptophan on the trp operon...
The genetic and biochemical networks which underlie such things as homeostasis in metabolism and the...
Cells need to respond to a vast range of different disturbances and changes over small and large tim...
AbstractCellular events that execute life programs are ordered and reproducible, despite the noise a...
A widespread mechanism of bacterial signaling occurs through two-component systems, comprised of a s...
Recent work on engineering synthetic cellular circuitry has shown that non-regulatory interactions b...
Metabolism is the core of what we consider to be a living cell. It covers all chemical reactions tha...
Organized systems such as living organisms or cells require that the level of crucial elements someh...