Browse our latest Physics of Living Systems articles

The onset of habituation phenomena enables accurate processing of external stimuli when biological systems adapt their parameters to balance dissipation and the information between input and response.

Reaction-diffusion network modeling unveils general design principles that both stabilize cell polarization patterns and enable tunable interface localization, reconciling extensive experimental observations and deepening the understanding of asymmetric cell division.

Gliding multicellular cyanobacteria results from cellular coordination, the loss of which results in the collapse of orderly back-and-forth movement of filaments and in filament buckling.

Animals may learn to locate preys effectively by memorizing short excerpts of their scent trace, which duration is dictated by the sparse nature of turbulent odor plumes.

Theoretical modeling uncovers an unusual acceleration in microbial growth following osmotic shock, driven by the coordinated regulation of osmolyte production and cell-wall synthesis.

A simple mathematical model, incorporating reversible deactivation of β-cells, can potentially explain the rapid onset and remission of a diabetes subtype, ketosis-prone diabetes.