Mesoscale molecular assembly is favored by the active, crowded cytoplasm

Abstract: The mesoscale organization of molecules into membraneless biomolecular condensates is emerging as a key mechanism of rapid spatiotemporal control in cells. Principles of biomolecular condensation have been revealed through in vitro reconstitution. However, intracellular environments are much more complex than test-tube environments: They are viscoelastic, highly crowded at the mesoscale, and are far from thermodynamic equilibrium due to the constant action of energy-consuming processes. We developed synDrops, … Show more

“…Increased crowding can favor phase separation both in vitro and in vivo [16], [41]. On the other hand, very high crowding, or solid-like networks like chromatin in the nucleus, can prevent droplet fusion and therefore frustrate the growth of condensates [42,43]. Therefore, phase separation can transduce changes in molecular crowding into mesoscale changes in cellular organization.…”

Macromolecular crowding: Sensing without a sensor

“…Increased crowding can favor phase separation both in vitro and in vivo [16], [41]. On the other hand, very high crowding, or solid-like networks like chromatin in the nucleus, can prevent droplet fusion and therefore frustrate the growth of condensates [42,43]. Therefore, phase separation can transduce changes in molecular crowding into mesoscale changes in cellular organization.…”

Macromolecular crowding: Sensing without a sensor