Issue 7, 2022

Temperature-dependent reentrant phase transition of RNA–polycation mixtures

Abstract

Liquid–liquid phase separation (LLPS) of multivalent biopolymers is a ubiquitous process in biological systems and is of importance in bio-mimetic soft matter design. The phase behavior of biomolecules, such as proteins and nucleic acids, is typically encoded by the primary chain sequence and regulated by solvent properties. One of the most important physical modulators of LLPS is temperature. Solutions of proteins and/or nucleic acids have been shown to undergo liquid–liquid phase separation either upon cooling (with an upper critical solution temperature, UCST) or upon heating (with a lower critical solution temperature, LCST). However, many theoretical frameworks suggest the possibility of more complex temperature-dependent phase behaviors, such as an hourglass or a closed-loop phase diagram with concurrent UCST and LCST transitions. Here, we report that RNA–polyamine mixtures undergo a reentrant phase separation with temperature. Specifically, at low temperatures, RNA–polyamine mixtures form a homogenous phase. Increasing the temperature leads to the formation of RNA–polyamine condensates. A further increase in temperature leads to the dissolution of condensates, rendering a reentrant homogenous phase. This dual-response phase separation of RNA is not unique to polyamines but also observed with short cationic peptides. The immiscibility gap is controlled by the charge of the polycation, salt concentration, and mixture composition. Based on the existing theories of complex coacervation, our results point to a complex interplay between desolvation entropy, ion-pairing, and electrostatic interactions in dictating the closed-loop phase behavior of RNA–polycation mixtures.

Graphical abstract: Temperature-dependent reentrant phase transition of RNA–polycation mixtures

Supplementary files

Article information

Article type
Communication
Submitted
30 ต.ค. 2564
Accepted
22 ธ.ค. 2564
First published
23 ธ.ค. 2564

Soft Matter, 2022,18, 1342-1349

Temperature-dependent reentrant phase transition of RNA–polycation mixtures

P. Pullara, I. Alshareedah and P. R. Banerjee, Soft Matter, 2022, 18, 1342 DOI: 10.1039/D1SM01557E

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