@article {2017|2029, title = {Multi-scale simulations of biological systems using the OPEP coarse-grained model.}, journal = {Biochem Biophys Res Commun}, year = {2017}, month = {2017 Sep 14}, abstract = {

Biomolecules are complex machines that are optimized by evolution to properly fulfill or contribute to a variety of biochemical tasks in the cellular environment. Computer simulations based on quantum mechanics and atomistic force fields have been proven to be a powerful microscope for obtaining valuable insights into many biological, physical, and chemical processes. Many interesting phenomena involve, however, a time scale and a number of degrees of freedom, notably if crowding is considered, that cannot be explored at an atomistic resolution. To bridge the gap between reality and simulation, many different advanced computational techniques and coarse-grained (CG) models have been developed. Here, we report some applications of the CG OPEP protein model to amyloid fibril formation, the response of catch-bond proteins to two types of fluid flow, and interactive simulations to fold peptides with well-defined 3D structures or with intrinsic disorder.

}, issn = {1090-2104}, doi = {10.1016/j.bbrc.2017.08.165}, author = {Sterpone, Fabio and Doutreligne, S{\'e}bastien and Tran, Thanh Thuy and Melchionna, Simone and Marc Baaden and Phuong Hoang Nguyen and Philippe Derreumaux} }