Browse our latest Computational and Systems Biology articles

Tricellular vertices possess sliding behaviors that harness radial forces and drive cell shape changes and intercalation in an epithelial tissue.

A model reveals how translation of an mRNA leader could provide resistance to global downregulation of translation.

The universal eukaryotic DNA replication kinetics is the consequence of simple physicochemical rules resulting from the localisation of potential replication origins at discrete sites and the diffusion of limiting origin firing factors in the nuclear space.

Cells employ two strategies, adjusting both their cell cycle lengths and their growth rates in a size-dependent manner, to correct aberrations in cell size.

Metabolic division of labor in B. subtilis controls the extracellular environment.

The emergence of subpopulations that perform distinct metabolic roles has been observed in populations of genetically identical bacteria.

A comprehensive approach to prediction of stabilizing mutations in G-protein coupled receptors yields high hit rate and crystal structures of 5HT2C in both active and inactive states.

There is no such thing as a representative skeletal muscle tissue, as each member of this family of tissues expresses a specialized mRNA program.

Shearing in fluid flow induces or enhances budding dispersal in microbial populations, resulting in stronger cooperative behavior.

Single cell analysis reveals how period differences between cells and cell-to-cell coupling generates the spatial structure of the plant circadian clock.