Condensation agents determine the temperature-pressure stability of F-actin bundles.

Biological cells provide a large variety of rodlike filaments, including filamentous actin (F-actin), which can form meshworks and bundles. One key question remaining in the characterization of such network structures revolves around the temperature and pressure stabilities of these architectures as a way to understand why cells actively use proteins for forming them. The packing properties of F-actin in fascin- and Mg(2+) -induced bundles are compared, and significantly different pressure-temperature stabilities are observed because of marked differences in their nature of interaction, solvation, and packing efficiency. Moreover, differences are observed in their morphologies and disintegration scenarios. The pressure-induced dissociation of the actin bundles is reminiscent of a single unbinding transition as observed in other soft elastic manifolds.