Network dynamics and cell physiology
Complex assemblies of interacting proteins carry out most of the interesting jobs in a cell,
such as metabolism, DNA synthesis, movement and information processing. These
physiological properties play out as a subtle molecular dance, choreographed by underlying
regulatory networks. To understand this dance, a new breed of theoretical molecular
biologists reproduces these networks in computers and in the mathematical language of
dynamical systems.
such as metabolism, DNA synthesis, movement and information processing. These
physiological properties play out as a subtle molecular dance, choreographed by underlying
regulatory networks. To understand this dance, a new breed of theoretical molecular
biologists reproduces these networks in computers and in the mathematical language of
dynamical systems.
Abstract
Complex assemblies of interacting proteins carry out most of the interesting jobs in a cell, such as metabolism, DNA synthesis, movement and information processing. These physiological properties play out as a subtle molecular dance, choreographed by underlying regulatory networks. To understand this dance, a new breed of theoretical molecular biologists reproduces these networks in computers and in the mathematical language of dynamical systems.
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