Geometry-induced asymmetric diffusion
- *ProtoLife, Via della Libertá 12, 30175 Venezia, Italy;
- ‡European Center for Living Technology, S. Marco 2847, 30124 Venezia, Italy;
- §Santa Fe Institute, 1399 Hyde Park Road, Santa Fe, NM 87501; and
- ¶Center for Nonlinear Dynamics and Department of Physics, University of Texas, Austin, TX 78712
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Contributed by Harry L. Swinney, April 18, 2007 (received for review February 26, 2007)
Abstract
Past work has shown that ions can pass through a membrane more readily in one direction than the other. We demonstrate here in a model and an experiment that for a mixture of small and large particles such asymmetric diffusion can arise solely from an asymmetry in the geometry of the pores of the membrane. Our deterministic simulation considers a two-dimensional gas of elastic disks of two sizes diffusing through a membrane, and our laboratory experiment examines the diffusion of glass beads of two sizes through a metal membrane. In both experiment and simulation, the membrane is permeable only to the smaller particles, and the asymmetric pores lead to an asymmetry in the diffusion rates of these particles. The presence of even a small percentage of large particles can clog a membrane, preventing passage of the small particles in one direction while permitting free flow of the small particles in the other direction. The purely geometric kinetic constraints may play a role in common biological contexts such as membrane ion channels.
Footnotes
- †To whom correspondence may be addressed. E-mail: rob{at}protolife.net or swinney{at}chaos.utexas.edu
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Author contributions: R.S.S., N.P., M.S., and H.L.S. designed research; R.S.S. and N.P. performed research; R.S.S., N.P., M.S., and H.L.S. analyzed data; and R.S.S., N.P., M.S., and H.L.S. wrote the paper.
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The authors declare no conflict of interest.
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Freely available online through the PNAS open access option.
- © 2007 by The National Academy of Sciences of the USA
