Add to ORKGA large number of molecular mechanisms exist to ensure the continued function of perturbed cells. Here we explore a range of mechanisms of molecular robustness. A theory of robustness is proposed in which mechanisms are classified into those that purge damage, and those that buffer damage. The strategy upon which a system settles, is a function of the cost of purgation, and thereby a function of population size.
Negative feedback is common in biological processes and can increase a system’s stability to interna...
Robustness is an inherent property of biological system. It is still a limited understanding of how ...
Robustness is the invariance of phenotypes in the face of perturbation. The robustness of phenotypes...
Robustness, the ability to maintain performance in the face of perturbations and uncertainty, is a l...
AbstractRobustness, the ability to maintain performance in the face of perturbations and uncertainty...
Cells are very complex to analyze because they consist of many components that interact with each ot...
Robustness has been long recognized to be a distinctive property of living entities. While a reasona...
Two key features of RNA viruses are their compacted genomes and their high mutation rate. Accordingl...
Classical population genetics a priori assigns fitness to alleles without considering molecular or f...
BackgroundOrganisms use a variety of mechanisms to protect themselves against perturbations. For exa...
Biological systems are robust, in that they can maintain stable phenotypes under varying conditions ...
Robustness is a prominent feature of most biological systems. Most previous related studies have bee...
Selective robustness is a key feature of biochemical networks. It confers a fitness benefit to organ...
The main goal of systems biology is to understand the dynamical properties of biological systems by ...
Fine-tuning has received much attention in physics, and it states that the fundamental constants of ...
Negative feedback is common in biological processes and can increase a system’s stability to interna...
Robustness is an inherent property of biological system. It is still a limited understanding of how ...
Robustness is the invariance of phenotypes in the face of perturbation. The robustness of phenotypes...
Robustness, the ability to maintain performance in the face of perturbations and uncertainty, is a l...
AbstractRobustness, the ability to maintain performance in the face of perturbations and uncertainty...
Cells are very complex to analyze because they consist of many components that interact with each ot...
Robustness has been long recognized to be a distinctive property of living entities. While a reasona...
Two key features of RNA viruses are their compacted genomes and their high mutation rate. Accordingl...
Classical population genetics a priori assigns fitness to alleles without considering molecular or f...
BackgroundOrganisms use a variety of mechanisms to protect themselves against perturbations. For exa...
Biological systems are robust, in that they can maintain stable phenotypes under varying conditions ...
Robustness is a prominent feature of most biological systems. Most previous related studies have bee...
Selective robustness is a key feature of biochemical networks. It confers a fitness benefit to organ...
The main goal of systems biology is to understand the dynamical properties of biological systems by ...
Fine-tuning has received much attention in physics, and it states that the fundamental constants of ...
Negative feedback is common in biological processes and can increase a system’s stability to interna...
Robustness is an inherent property of biological system. It is still a limited understanding of how ...
Robustness is the invariance of phenotypes in the face of perturbation. The robustness of phenotypes...