Abstract
In living cells, protein-rich condensates can wet the cell membrane and surfaces of membrane-bound organelles. Interestingly, many phase-separating proteins also bind to membranes leading to a molecular layer of bound molecules. Here we investigate how binding to membranes affects wetting, prewetting and surface phase transitions. We derive a thermodynamic theory for a three-dimensional bulk in the presence of a two-dimensional, flat membrane. At phase coexistence, we find that membrane binding facilitates complete wetting and thus lowers the wetting angle. Moreover, below the saturation concentration, binding facilitates the formation of a thick layer at the membrane and thereby shifts the prewetting phase transition far below the saturation concentration. The distinction between bound and unbound molecules near the surface leads to a large variety of surface states and complex surface phase diagrams with a rich topology of phase transitions. Our work suggests that surface phase transitions combined with molecular binding represent a versatile mechanism to control the formation of protein-rich domains at intra-cellular surfaces.
Highlights
Surfaces introduce a new level of complexity, as Wolfgang Pauli alluded to in his famous quote: ‘God made the bulk; surfaces were invented by the devil’ [1]
Protein condensates can adhere to intracellular surfaces and membrane-bound organelles [2, 7, 8], which resemble condensates wetted on surfaces. These observations indicate that phase-separating proteins in living cells phase-separate in the bulk but can undergo phase transitions related to the membrane surface
We find that the relation between interaction parameters χbm and χb (equation (16)) can lead to a rich plethora of phase diagrams with complex topologies of phase transition lines that qualitatively differ to results obtained from models without surface binding [9, 11]
Summary
Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Xueping Zhao1,2, Giacomo Bartolucci1,2, Alf Honigmann2,3 , Frank Jülicher1,2,4,∗ and Christoph A Weber1,2,∗ Keywords: surface phase transitions, thermodynamics of wetting and prewetting, surface binding
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