Chemotaxis in uncertain environments: Hedging bets with multiple receptor types

Abstract: Eukaryotic cells are able to sense chemical gradients in a wide range of environments. We show that, if a cell is exposed to a highly variable environment, it may gain chemotactic accuracy by expressing multiple receptor types with varying affinities for the same signal, as found commonly in chemotaxing cells like Dictyostelium. As environment uncertainty is increased, there is a transition between cells preferring a single receptor type and a mixture of types-hedging their bets against the possibility of an u… Show more

“…Hobson and Stephens [ 323 ] reviewed the mechanical modeling of cell nuclei. Regarding chemotaxis, Hopkins and Camley [ 324 ] recently used in silico modeling to study cells’ ability to accurately process external signals in uncertain environments. They argue that cells should adapt their cell surface receptor expression based on the surrounding environment.…”

Unravelling cell migration: defining movement from the cell surface

“…Hobson and Stephens [ 323 ] reviewed the mechanical modeling of cell nuclei. Regarding chemotaxis, Hopkins and Camley [ 324 ] recently used in silico modeling to study cells’ ability to accurately process external signals in uncertain environments. They argue that cells should adapt their cell surface receptor expression based on the surrounding environment.…”

Unravelling cell migration: defining movement from the cell surface

Trade-offs in concentration sensing in dynamic environments

Microbial models of development: Inspiration for engineering self-assembled synthetic multicellularity