Interplay Between Glass Formation and Liquid-Liquid Phase Separation Revealed by the Scattering Invariant

Overview

Journal J Phys Chem Lett

Publisher American Chemical Society

Specialty Chemistry

Date 2020 Aug 14

PMID 32787309

Citations 7

Authors

Stefano Da Vela

Nafisa Begam

Danylo Dyachok

Richard Santiago Schaufele

Olga Matsarskaia

Michal K Braun

Anita Girelli

Anastasia Ragulskaya

Alessandro Mariani

Fajun Zhang

Frank Schreiber

Affiliations

Soon will be listed here.

Abstract

The interplay of the glass transition with liquid-liquid phase separation (LLPS) is a subject of intense debate. We use the scattering invariant to probe how approaching the glass transition affects the shape of LLPS boundaries in the temperature/volume fraction plane. Two protein systems featuring kinetic arrest with a lower and an upper critical solution temperature phase behavior, respectively, are studied varying the quench depth. Using we noninvasively identify system-dependent differences for the effect of glass formation on the LLPS boundary. The glassy dense phase appears to enter the coexistence region for the albumin-YCl system, whereas it follows the equilibrium binodal for the γ-globulin-PEG system.

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