Like the strings on a violin or the pipes of an organ, the proteins in the human body vibrate in different patterns, scientists have long suspected.
Now, a new study provides what researchers say is the first conclusive evidence that this is true.
Using a technique they developed based on terahertz near-field microscopy, scientists from the University at Buffalo and Hauptman-Woodward Medical Research Institute (HWI) have for the first time observed in detail the vibrations of lysozyme, an antibacterial protein found in many animals.
The team found that the vibrations, which were previously thought to dissipate quickly, actually persist in molecules like the “ringing of a bell,” said UB physics professor Andrea Markelz, PhD, wh0 led the study.
These tiny motions enable proteins to change shape quickly so they can readily bind to other proteins, a process that is necessary for the body to perform critical biological functions like absorbing oxygen, repairing cells and replicating DNA, Markelz said.
The research opens the door to a whole new way of studying the basic cellular processes that enable life.
Tags: Proteomics