Statistical Mechanics of Membrane Adhesion by Reversible Molecular Bonds
- 8 May 1995
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 74 (19) , 3900-3903
- https://doi.org/10.1103/physrevlett.74.3900
Abstract
We present a simple statistical-mechanical model for membranes adhering by thermally fluctuating, reversible molecular bonds. The free energy of the molecular bonds, which interact through the membrane tension, can be related to that of the one-component two-dimensional Coulomb plasma in the grand-canonical ensemble. Using the known properties of the Coulomb plasma, we compute the macroscopic membrane-membrane adhesive potential. We find that, unlike existing theories of membrane adhesion, thermal fluctuations assist adhesion and that the weak-adhesion potential has an unexpectedly long, temperature-controlled range.Keywords
This publication has 18 references indexed in Scilit:
- Self-assembly of membrane junctionsBiophysical Journal, 1994
- Adhesion Forces Between Individual Ligand-Receptor PairsScience, 1994
- Carbohydrates in Cell RecognitionScientific American, 1993
- Selectins: Interpreters of Cell-Specific Carbohydrate Information During InflammationScience, 1992
- Adhesion of vesiclesPhysical Review A, 1990
- Magnetic particle motions within living cells. Measurement of cytoplasmic viscosity and motile activityBiophysical Journal, 1987
- Lateral interactions among membrane proteins. Implications for the organization of gap junctionsBiophysical Journal, 1987
- Steric Interactions in a Model Multimembrane System: A Synchrotron X-Ray StudyPhysical Review Letters, 1986
- Detailed mechanics of membrane-membrane adhesion and separation. I. Continuum of molecular cross-bridgesBiophysical Journal, 1985
- Steric Interaction of Fluid Membranes in Multilayer SystemsZeitschrift für Naturforschung A, 1978