Full description
Attached file provides supplementary data for linked article. Although several computational modelling studies have investigated the conformational behaviour of inherently disordered protein (IDP) amylin, discrepancies in identifying its preferred solution conformations still exist between various forcefields and sampling methods used. Human islet amyloid polypeptide has long been a subject of research, both experimentally and theoretically, as the aggregation of this protein is believed to be the lead cause of type-II diabetes. In this work, we present a systematic forcefield assessment using one of the most advanced non-biased sampling techniques, Replica Exchange with Solute Tempering (REST2), by comparing the secondary structure preferences of monomeric amylin in solution. This study also aims to determine the ability of common forcefields to sample a transition of the protein from a helical membrane bound conformation into the disordered solution state of amylin. Our results demonstrated that the CHARMM22* forcefield showed the best ability to sample multiple conformational states inherent for amylin. It is revealed that REST2 yielded results qualitatively consistent with experiments and in quantitative agreement with other sampling methods, however far more computationally efficiently and without any bias. Therefore, combining an unbiased sampling technique such as REST2 with a vigorous forcefield testing could be suggested as an important step in developing an efficient and robust strategy for simulating IDPs. Subjects
Aggregration |
Bias exchange metadynamics |
Chemical Sciences |
Free energy landscape |
Macromolecular and Materials Chemistry |
Molecular dynamics simulations |
Peptide |
Replica exchange |
Theory and Design of Materials |
Unfolded state |
Validation |
Water model |
User Contributed Tags
Login to tag this record with meaningful keywords to make it easier to discover
Identifiers
- Local : 2c16ab00ffd46b12043f4f96ecc1f493
