Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping to understand experimental observations. We provide here a comprehensive overview of the range of mathematical approaches used for modeling, within a single bacterium, chemotactic processes caused by changes to external gradients in its environment. Specific areas of the bacterial system which have been studied and modeled are discussed in detail, including the modeling of adaptation in response to attractant gradients, the intracellular phosphorylation cascade, membrane receptor clustering, and spatial modeling of intracellular protein signal transduction. The importance of producing robust models that address adaptation, gain, and sensitiv...
A differential equation describing the chemotactic migration of a bacterial population in a fixed ex...
Abstract. Bacterial chemotaxis is widely studied from both the microscopic (cell) and macroscopic (p...
University of Minnesota Ph.D. dissertation. January 2010. Major: Biomedical Engineering. Advisors: D...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
Abstract Mathematical modeling of bacterial chemotaxis systems has been influential and insightful i...
Research into understanding bacterial chemotactic systems has become a paradigm for Systems Biology....
International audienceThis paper describes a bacterial system that reproduces a population of bacter...
AbstractChemotaxis is the process, by which cells sense changes in their chemical environment and mo...
We review the application of mathematical modeling to understanding the behavior of populations of c...
In this chapter we present an application of membrane systems to the study of intracellular diffusiv...
The motion of motile living cells is a complex phenomenon that arises as the consequence of a cascad...
We review the application of mathematical modeling to understanding the behavior of populations of c...
We review the application of mathematical modeling to understanding the behavior of populations of c...
AbstractComplex networks of interacting molecular components of living cells are responsible for man...
A differential equation describing the chemotactic migration of a bacterial population in a fixed ex...
Abstract. Bacterial chemotaxis is widely studied from both the microscopic (cell) and macroscopic (p...
University of Minnesota Ph.D. dissertation. January 2010. Major: Biomedical Engineering. Advisors: D...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
Abstract Mathematical modeling of bacterial chemotaxis systems has been influential and insightful i...
Research into understanding bacterial chemotactic systems has become a paradigm for Systems Biology....
International audienceThis paper describes a bacterial system that reproduces a population of bacter...
AbstractChemotaxis is the process, by which cells sense changes in their chemical environment and mo...
We review the application of mathematical modeling to understanding the behavior of populations of c...
In this chapter we present an application of membrane systems to the study of intracellular diffusiv...
The motion of motile living cells is a complex phenomenon that arises as the consequence of a cascad...
We review the application of mathematical modeling to understanding the behavior of populations of c...
We review the application of mathematical modeling to understanding the behavior of populations of c...
AbstractComplex networks of interacting molecular components of living cells are responsible for man...
A differential equation describing the chemotactic migration of a bacterial population in a fixed ex...
Abstract. Bacterial chemotaxis is widely studied from both the microscopic (cell) and macroscopic (p...
University of Minnesota Ph.D. dissertation. January 2010. Major: Biomedical Engineering. Advisors: D...