Abstract
We demonstrate that dissolved polymers can direct molecular crystallization behavior under dilute and crowded conditions. Larger poly(ethylene glycol)s (PEGs) accelerated caffeine crystal formation in the dilute regime of PEG solutions, which was attributed to the depletion attraction that promoted caffeine cluster aggregation into crystal nuclei. Alternatively, in the semidilute regime, the caffeine crystal formation rate was insensitive to the molecular weight (MW) of PEGs. PEGs with various MWs appeared to induce depletion attraction to a similar extent as the properties of polymer solutions in the semidilute regime described by blobs, which are constant in size at a given polymer concentration irrespective of MW. This study highlights differences between in vitro polymer solutions and crowded intracellular environments composed of folded biomacromolecules and contributes to developing the use of in vitro macromolecular crowding for the control of molecular self-assembly. Dissolved polymers directed molecular crystallization behavior under dilute and crowding conditions. Larger poly(ethylene glycol)s (PEGs) accelerated caffeine crystal formation in the dilute regime of PEG solutions, which was attributed to the depletion attraction that promoted caffeine cluster aggregation into crystal nuclei. In the semidilute regime, the crystal formation rate was insensitive to the molecular weight of PEGs. This observation was consistent with polymer blob properties, which govern depletion attraction and maintain a constant size at a given polymer concentration, irrespective of molecular weight in the semidilute regime.
Published Version
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