Add to ORKGCell biology is characterised by low molecule numbers and coupled stochastic chemical reactions with intrinsic noise permeating and dominating the interactions between molecules. Recent work [9] has shown that in such environments there are hard limits on the accuracy with which molecular populations can be controlled and estimated. These limits are predicated on a continuous diffusion approximation of the target molecule (although the remainder of the system is non-linear and discrete). The principal result of [9] assumes that the birth rate of the signalling species is linearly dependent on the target molecule population size. In this paper, we investigate the situation when the entire system is kept discrete, and arbitrary non-linear cou...
Phenotypic differences of genetically identical cells under the same environmental conditions have b...
<div><p>A biological signal is transmitted by interactions between signaling molecules in the cell. ...
AbstractSingle-molecule imaging analysis of chemotactic response in eukaryotic cells has revealed a ...
Low molecule numbers and intrinsically noisy, coupled stochastic chemical reactions are common in ce...
Negative feedback is common in biological processes and can increase a system’s stability to interna...
Negative feedback is common in biological processes and can increase a system's stability to interna...
Understanding and uncovering the mechanisms or motifs that molecular networks employ to regulate noi...
ABSTRACT Understanding the information processing ability of signal transduction pathways is of grea...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Many crucial biological processes operate with surprisingly small numbers of molecules, and there is...
It is common when modelling biochemical networks to use qualitative information such as the general ...
The survival of biological organisms relies on their capacity to sense and respond to various enviro...
• Interested in modeling biochemical networks of interacting pro-teins/genes within a single eukaryo...
Molecular kinetics in living systems fundamentally shape the response function of signal transductio...
The communication within a cell is taken care of by an intriguing system of ‘messages in molecular b...
Phenotypic differences of genetically identical cells under the same environmental conditions have b...
<div><p>A biological signal is transmitted by interactions between signaling molecules in the cell. ...
AbstractSingle-molecule imaging analysis of chemotactic response in eukaryotic cells has revealed a ...
Low molecule numbers and intrinsically noisy, coupled stochastic chemical reactions are common in ce...
Negative feedback is common in biological processes and can increase a system’s stability to interna...
Negative feedback is common in biological processes and can increase a system's stability to interna...
Understanding and uncovering the mechanisms or motifs that molecular networks employ to regulate noi...
ABSTRACT Understanding the information processing ability of signal transduction pathways is of grea...
Complex networks of chemical reactions mediate many processes in cellular biology, such as gene expr...
Many crucial biological processes operate with surprisingly small numbers of molecules, and there is...
It is common when modelling biochemical networks to use qualitative information such as the general ...
The survival of biological organisms relies on their capacity to sense and respond to various enviro...
• Interested in modeling biochemical networks of interacting pro-teins/genes within a single eukaryo...
Molecular kinetics in living systems fundamentally shape the response function of signal transductio...
The communication within a cell is taken care of by an intriguing system of ‘messages in molecular b...
Phenotypic differences of genetically identical cells under the same environmental conditions have b...
<div><p>A biological signal is transmitted by interactions between signaling molecules in the cell. ...
AbstractSingle-molecule imaging analysis of chemotactic response in eukaryotic cells has revealed a ...