Molecular dynamics simulations allow for atomic-level characterization of biomolecular
processes such as the conformational transitions associated with protein function. The …

Proteins are dynamic entities that undergo a plethora of conformational changes that may
take place on a wide range of time scales. These changes can be as small as the rotation of …

We present an implementation of generalized Born implicit solvent all-atom classical
molecular dynamics (MD) within the AMBER program package that runs entirely on CUDA …

Some frequently encountered deficiencies in all-atom molecular simulations, such as
nonspecific protein–protein interactions being too strong, and unfolded or disordered states …

Obtaining the correct balance of secondary structure propensities is a central priority in
protein force-field development. Given that current force fields differ significantly in their α …

The functions of many proteins are regulated through allostery, whereby effector binding at a
distal site changes the functional activity (eg, substrate binding affinity or catalytic efficiency) …

Anton is a recently completed special-purpose supercomputer designed for molecular
dynamics (MD) simulations of biomolecular systems. The machine's specialized hardware …

In our previous study, we have shown that β-sitosterol (SIT) enhances glycemic control by
increasing the activation of insulin receptor (IR) and glucose transporter 4 (GLUT4) proteins …

All-atom molecular dynamics simulations have become increasingly popular as a tool to
investigate protein function and dynamics. However, researchers are concerned about the …

Biomolecules adopt a dynamic ensemble of conformations, each with the potential to
interact with binding partners or perform the chemical reactions required for a multitude of …