Molecular dynamics (MD) simulations have become a powerful tool in the ever-growing fields of molecular biology and drug development. While many MD simulation techniques exist, parallel cascade ...

Molecular Dynamics Simulations are grounded in classical mechanics, particularly Newton’s laws of motion, to predict how particles move within a system. The force acting on each atom is calculated ...

Living cells are bustling with molecular machines that constantly process energy, matter, and information. Among these ...

Researchers harness the power of the world’s most advanced supercomputers to simulate the inner workings of cellular ...

Proteins interacting with cell membranes play a vital role in countless biological processes, from how cells communicate to ...

Each day, a human adult loses on average 50 to 70 billion cells, which die from natural causes alone. New cells replace lost ...

The team used ORNL’s neutron scattering capabilities and molecular dynamics simulations to analyze the fermentation process ...

In a groundbreaking collaboration, researchers from Auburn University and Brazil's FIOCRUZ have published a study in ...

Supercritical water, a mysterious state where water behaves like both a liquid and gas, has long puzzled scientists.

Researchers studying over 2,000 Ashkenazi Jewish centenarians uncovered two rare IGF-1 gene variants linked to exceptional ...

Study reveals how butanol affects biofuel-producing microbes' cell membranes, aiding more efficient production.