New fundamental physics research provides insights on the process of diffusion in complex systems such as living organisms. This new theoretical framework has broad implications for active surfaces, ...

The researchers found that in the first case, a process of "superdiffusion" occurs, with accelerated motion, while in the second case a subdiffusive process takes place, with much slower movement.

Small-scale analysis of RNA diffusion rates throughout cells of yeast and bacteria reveals that rates of change of entropy in certain time intervals are larger in areas with higher diffusion rates, ...

Inside living cells, proteins are constantly moving, interacting and organising into complex structures. In many cases, they ...

Self-propulsion or slow diffusion: How bacteria, cells, and colloids respond to stimuli by International School of Advanced Studies (SISSA) edited by Stephanie Baum, reviewed by Robert Egan Editors' ...

Recent studies have revealed that within cells of both yeast and bacteria, the rates of diffusion of RNA proteins - complex molecules that convey important information throughout the cell - are ...