Browse our latest Physics of Living Systems articles

Zebrafish implement a stochastic recursive algorithm during prey capture that reflects an implicit physical model of the world.

Theoretical analysis and in vitro reconstitution of a biological reaction-diffusion system identify key functional motifs as well as underlying principles and enable rebuilding pattern formation in a modular fashion.

An experimentally supported model of grid cells naturally enables them to participate in firing sequences that encode rapid trajectories in space.

Responses to anesthetics differ among individuals and fluctuate stochastically despite constant drug concentration, however, the amount of noise driving transitions between the responsive and the unresponsive state is conserved.

The nucleoplasm surrounding nucleoli in living cells plays a key role in nucleolar dynamics and shape fluctuations in vivo.

In the microbe Chlamydomonas reinhardtii, a disassembly rate which depends on flagellar length provides an effective method to regulate the length of its two flagella.

Fluorescence lifetime imaging microscopy, paired with fluorescent, voltage-sensitive dyes, provides a method for measuring and quantifying membrane potentials of living cells.