Chemotaxis is a fundamental guidance mechanism of cells and organisms, responsible for attracting microbes to food, embryonic cells into developing tissues, immune cells to infection sites, animals towards potential mates, and mathematicians into biology. The Patlak–Keller–Segel (PKS) system forms part of the bedrock of mathematical biology, a go-to-choice for modellers and analysts alike. For the former it is simple yet recapitulates numerous phenomena; the latter are attracted to these rich dynamics. Here I review the adoption of PKS systems when explaining self-organisation processes. I consider their foundation, returning to the initial efforts of Patlak and Keller and Segel, and briefly describe their patterning properties. Application...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
Chemotaxis, a big word in biology, but broken down into its Greek roots it actually has a quite simp...
addresses: Centre for Mathematical Biology, Mathematical Institute, University of Oxford, Oxford, Un...
F.R.M. gratefully acknowledges support from the RSE Saltire Early Career Fellowship ‘Multiscale math...
In this thesis we present a mathematical formulation of the interaction between microorganisms such ...
Abstract Mathematical modelling of chemotaxis (the movement of biological cells or organisms in resp...
Chemotaxis, the directed cell movement in response to external chemical gradients, is a vital biolog...
We review the application of mathematical modeling to understanding the behavior of populations of c...
Directed cell motility plays a crucial role at some stage for most forms of life. Single celled orga...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
International audienceThis paper describes a bacterial system that reproduces a population of bacter...
How signals coordinate and direct chemotaxis is an issue that is actively investigated. A new study ...
As motivated by studies of cellular motility driven by spatiotemporal chemotactic gradients in micro...
Bacterial chemotaxis, the ability of motile bacteria to navigate gradients of chemicals, plays key r...
In this paper an alternative derivation and interpretation are presented of the classical Keller-Seg...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
Chemotaxis, a big word in biology, but broken down into its Greek roots it actually has a quite simp...
addresses: Centre for Mathematical Biology, Mathematical Institute, University of Oxford, Oxford, Un...
F.R.M. gratefully acknowledges support from the RSE Saltire Early Career Fellowship ‘Multiscale math...
In this thesis we present a mathematical formulation of the interaction between microorganisms such ...
Abstract Mathematical modelling of chemotaxis (the movement of biological cells or organisms in resp...
Chemotaxis, the directed cell movement in response to external chemical gradients, is a vital biolog...
We review the application of mathematical modeling to understanding the behavior of populations of c...
Directed cell motility plays a crucial role at some stage for most forms of life. Single celled orga...
Mathematical modeling of bacterial chemotaxis systems has been influential and insightful in helping...
International audienceThis paper describes a bacterial system that reproduces a population of bacter...
How signals coordinate and direct chemotaxis is an issue that is actively investigated. A new study ...
As motivated by studies of cellular motility driven by spatiotemporal chemotactic gradients in micro...
Bacterial chemotaxis, the ability of motile bacteria to navigate gradients of chemicals, plays key r...
In this paper an alternative derivation and interpretation are presented of the classical Keller-Seg...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
Chemotaxis, a big word in biology, but broken down into its Greek roots it actually has a quite simp...
addresses: Centre for Mathematical Biology, Mathematical Institute, University of Oxford, Oxford, Un...