Add to ORKGResearch into understanding bacterial chemotactic systems has become a paradigm for Systems Biology. Experimental and theoretical researchers have worked hand-in-hand for over 40 years to understand the intricate behavior driving bacterial species, in particular how such small creatures, usually not more than 5 µm in length, detect and respond to small changes in their extracellular environment. In this review we highlight the importance that theoretical modeling has played in providing new insight and understanding into bacterial chemotaxis. We begin with an overview of the bacterial chemotaxis sensory response, before reviewing the role of theoretical modeling in understanding elements of the system on the single cell scale and features u...
We review the application of mathematical modeling to understanding the behavior of populations of c...
Bacterial chemotaxis represents one of the simplest and best studied examples of unicellular behavio...
Motile bacteria use chemotaxis to migrate towards environments that are favorable for growth and sur...
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...
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...
AbstractChemotaxis is the process, by which cells sense changes in their chemical environment and mo...
The motion of motile living cells is a complex phenomenon that arises as the consequence of a cascad...
We present in this paper an artificial life ecosystem in which bacteria are evolved to perform chemo...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
This paper describes a bacterial system that reproduces a population of bacteria that behave by simu...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
We review the application of mathematical modeling to understanding the behavior of populations of c...
We report the application of agent-based modeling to examine the signal transduction network and rec...
We review the application of mathematical modeling to understanding the behavior of populations of c...
Bacterial chemotaxis represents one of the simplest and best studied examples of unicellular behavio...
Motile bacteria use chemotaxis to migrate towards environments that are favorable for growth and sur...
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...
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...
AbstractChemotaxis is the process, by which cells sense changes in their chemical environment and mo...
The motion of motile living cells is a complex phenomenon that arises as the consequence of a cascad...
We present in this paper an artificial life ecosystem in which bacteria are evolved to perform chemo...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
This paper describes a bacterial system that reproduces a population of bacteria that behave by simu...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
We review the application of mathematical modeling to understanding the behavior of populations of c...
We report the application of agent-based modeling to examine the signal transduction network and rec...
We review the application of mathematical modeling to understanding the behavior of populations of c...
Bacterial chemotaxis represents one of the simplest and best studied examples of unicellular behavio...
Motile bacteria use chemotaxis to migrate towards environments that are favorable for growth and sur...