Your search keyword '"dynamic triangulated surfaces"' showing total 2 results

1. A Multi-Scale Approach to Membrane Remodeling Processes

Author

Weria Pezeshkian, Melanie König, Siewert J. Marrink, and John H. Ipsen

Subjects

dynamic triangulated surfaces, Martini coarse-grain simulation, Shiga toxin, simulation of continuum model, membrane remodeling, implicit protein model, Biology (General), QH301-705.5

Abstract

We present a multi-scale simulation procedure to describe membrane-related biological processes that span over a wide range of length scales. At macroscopic length-scale, a membrane is described as a flexible thin film modeled by a dynamic triangulated surface with its spatial conformations governed by an elastic energy containing only a few model parameters. An implicit protein model allows us to include complex effects of membrane-protein interactions in the macroscopic description. The gist of this multi-scale approach is a scheme to calibrate the implicit protein model using finer scale simulation techniques e.g., all atom and coarse grain molecular dynamics. We previously used this approach and properly described the formation of membrane tubular invaginations upon binding of B-subunit of Shiga toxin. Here, we provide a perspective of our multi-scale approach, summarizing its main features and sketching possible routes for future development.

Published

2019

2. A Multi-Scale Approach to Membrane Remodeling Processes.

Author

Pezeshkian W, König M, Marrink SJ, and Ipsen JH

Abstract

We present a multi-scale simulation procedure to describe membrane-related biological processes that span over a wide range of length scales. At macroscopic length-scale, a membrane is described as a flexible thin film modeled by a dynamic triangulated surface with its spatial conformations governed by an elastic energy containing only a few model parameters. An implicit protein model allows us to include complex effects of membrane-protein interactions in the macroscopic description. The gist of this multi-scale approach is a scheme to calibrate the implicit protein model using finer scale simulation techniques e.g., all atom and coarse grain molecular dynamics. We previously used this approach and properly described the formation of membrane tubular invaginations upon binding of B-subunit of Shiga toxin. Here, we provide a perspective of our multi-scale approach, summarizing its main features and sketching possible routes for future development.

Published

2019