Computational Breakthrough Transforms Atomic Force Microscopy into Molecular Motion Movies
Scientists have developed a computational method that translates high-speed atomic force microscopy images into precise 3D atomistic models of protein motion. The breakthrough allows researchers to create molecular movies showing functional conformational transitions previously impossible to observe at this detail level.
Revolutionary Computational Framework Bridges Imaging and Atomic Detail
Researchers have developed a groundbreaking computational framework that transforms high-speed atomic force microscopy (HS-AFM) images into detailed 3D atomistic models of protein dynamics, according to reports published in ACS Nano. The method represents a significant advancement in bridging the gap between experimental imaging and computational modeling, sources indicate.