Greg Huber

TL;DR: A theory is described that predicts the flow velocity, the rate of growth of the ring, and the distribution of solute within the drop that is driven by the loss of solvent by evaporation and the geometrical constraint that the drop maintain an equilibrium droplet shape with a fixed boundary.

TL;DR: Improved staining and automated ultrathin sectioning electron microscopy methods are used to analyze stacked ER sheets in neuronal cells and secretory salivary gland cells of mice to show that stackedER sheets form a continuous membrane system in which the sheets are connected by twisted membrane surfaces with helical edges of left- or right-handedness.

TL;DR: This work studies the shape and formation of a tether in terms of the classical soap-film problem, which is applied to the case of a membrane disk under tension subject to a point force.

TL;DR: A combination of computational modeling and quantitative experimentation demonstrates that actin polymerization depends on Nck density as a result of a 4:2:1 Nck/N-WASp/Arp2/3 stoichiometry.

TL;DR: Very similar shapes are found in molecular dynamics simulations of the nuclear pasta phases of dense nuclear matter that are expected deep in the crust of neutron stars, suggesting both systems may have similar coarse-grained dynamics.