Browse our latest Physics of Living Systems articles

Flow experiments show how the formation of cyanobacterial colonies is driven by cell division, aggregation, and fragmentation under different hydrodynamic conditions.

Conservation levels of gene expression abundance ratios are globally coordinated in cells, and cellular state changes under such biologically relevant stoichiometric constraints are readable as low-dimensional changes in Raman spectra.

Geometric confinement paradoxically enhances bacterial chemotaxis through chiral surface swimming and sidewall alignment, with optimal performance when lane width matches the circular swimming radius.

Exatrack is a framework for analyzing Brownian, directed, and confined motion using a hidden-variable probabilistic model to extract physical insight into particle diffusion.

A novel pipeline for analyzing longitudinal two-photon microscopy data of cerebrovasculature in mice interrogates the vasculature network before and after optogenetic stimulation, revealing new insights into their coordination.

Stable pressure gradients can arise in cells from the combination of actomyosin-generated cortical tension, cytoplasmic poroelasticity, and water flows across the membrane.