Computer simulations revealed the detailed mechanism of how the protein "dynamin" works to form small vesicles within cells. While dynamin uses GTP hydrolysis energy to change shape, it was unclear ...

Beyond its hardware and molecular markers lies the substantial opportunity: software, data, and analytics. SMX can generate ...

UD researchers develop a first-of-its-kind conductive hydrogel that can switch between liquid and solid states ...

Researchers have used cryo-EM and computational tools to visualize ribozyme assembly, shedding light on life's most versatile ...

A research team led by professor Olivia Merkel, Chair of Drug Delivery at LMU and co-spokesperson of the Cluster for Nucleic ...

Discover how NMR technology is used to analyze and understand the polymers that shape our everyday products and materials.

A research team led by professor Olivia Merkel, Chair of Drug Delivery at LMU and co-spokesperson of the Cluster for Nucleic ...

LMU Researchers Combine Machine Learning and Molecular Dynamics to Discover Novel RNA Delivery Materials. While experimental screening of polymer libraries is time-consuming and costly, purely ...

Water confined inside molecular cavities can supercharge chemical bonds and could perhaps reshape drug design.

A fast and accurate surrogate model screens over 10,000 possible metal-oxide supports for a platinum nanocatalyst to prevent sintering under high temperatures.

Researchers at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) and the Abdus Salam ...

In an effort to reveal the inner workings of a protein that serves as a cell’s damage detection system, scientists at Johns Hopkins and the Ludwig-Maximilians-University Munich (LMU) have published ...