Diffusive processes on nonplanar substrates are deeply relevant for cellular function and transport and increasingly used to probe and characterize the behavior of proteins in membranes. We present analytical and numerical analyses of in-plane diffusion of discrete particles on curved geometries reflecting various generic motifs in biology and explore, in particular, the effect that the shape of the substrate has on the characteristic time scales of diffusive processes. To this end, we consider both collective measures (the relaxation of concentration profiles towards equilibrium) and single-particle measures (escape rates and first passage times of individual diffusing molecules): the first relevant for the correct interpretation of FRAP e...
When the motion of a motile cell is observed closely, it appears erratic, and yet the combination of...
Surface curvature both emerges from, and influences the behavior of, living objects at length scales...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
Diffusive processes on nonplanar substrates are deeply relevant for cellular function and transport ...
We study some geometric aspects that influence the transport properties of particles that diffuse on...
For a substance diffusing on a curved surface, we obtain an explicit relation valid for very small v...
AbstractSingle-particle tracking of biomolecular probes has provided a wealth of information about i...
We study by computer simulations the physics of domain formation on surfaces, as a model for pattern...
International audienceDiffusion-mediated surface phenomena are crucial for human life and industry, ...
Dynamics simulations of constrained particles can greatly aid in understanding the temporal and spat...
Chemical reactions inside cells are generally considered to happen within fixed-size compartments. H...
Structural proteins of the membrane skeleton are thought to form "corrals" at the membrane surface, ...
We introduce a new finite difference scheme to study the dynamics of Turing patterns of a two-specie...
Surface curvature both emerges from, and influences the behavior of, living objects at length scales...
The rate constant that describes the diffusive encounter/reaction between a particle and a large sp...
When the motion of a motile cell is observed closely, it appears erratic, and yet the combination of...
Surface curvature both emerges from, and influences the behavior of, living objects at length scales...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...
Diffusive processes on nonplanar substrates are deeply relevant for cellular function and transport ...
We study some geometric aspects that influence the transport properties of particles that diffuse on...
For a substance diffusing on a curved surface, we obtain an explicit relation valid for very small v...
AbstractSingle-particle tracking of biomolecular probes has provided a wealth of information about i...
We study by computer simulations the physics of domain formation on surfaces, as a model for pattern...
International audienceDiffusion-mediated surface phenomena are crucial for human life and industry, ...
Dynamics simulations of constrained particles can greatly aid in understanding the temporal and spat...
Chemical reactions inside cells are generally considered to happen within fixed-size compartments. H...
Structural proteins of the membrane skeleton are thought to form "corrals" at the membrane surface, ...
We introduce a new finite difference scheme to study the dynamics of Turing patterns of a two-specie...
Surface curvature both emerges from, and influences the behavior of, living objects at length scales...
The rate constant that describes the diffusive encounter/reaction between a particle and a large sp...
When the motion of a motile cell is observed closely, it appears erratic, and yet the combination of...
Surface curvature both emerges from, and influences the behavior of, living objects at length scales...
Diffusing membrane constituents are constantly exposed to a variety of forces that influence their s...