Modelling membrane curvature generation using mechanics and machine learning

Abstract: The deformation of cellular membranes regulates trafficking processes, such as exocytosis and endocytosis. Classically, the Helfrich continuum model is used to characterize the forces and mechanical parameters that cells tune to accomplish membrane shape changes. While this classical model effectively captures curvature generation, one of the core challenges in using it to approximate a biological process is selecting a set of mechanical parameters (including bending modulus and membrane tension) from a large … Show more

“…Curvature generation in cell membranes is an important biophysical phenomenon that can be explained well by mechanical arguments ( 30, 31, 63, 64 ). In this study, we focused on the formation of MPs as a example to study how outward buds can be generated from the plasma membrane.…”

Interplay between cortical adhesion and membrane bending regulates microparticle formation

“…Curvature generation in cell membranes is an important biophysical phenomenon that can be explained well by mechanical arguments ( 30, 31, 63, 64 ). In this study, we focused on the formation of MPs as a example to study how outward buds can be generated from the plasma membrane.…”

Interplay between cortical adhesion and membrane bending regulates microparticle formation