Effects of macromolecular crowding on the collapse of biopolymers

Abstract

Experiments show that macromolecular crowding modestly reduces the size of intrinsically disordered proteins (IDPs) even at volume fraction (φ) similar to that in the cytosol whereas DNA undergoes a coil-to-globule transition at very small φ. We show using a combination of scaling arguments and simulations that the polymer size Rg(φ) depends on x = Rg(0)/D where D is the φ-dependent distance between the crowders. If x O(1), there is only a small decrease in Rg(φ) as φ increases. When x O(1), a cooperative coil-to-globule transition is induced. Our theory quantitatively explains a number of experiments.