Mass spec method captures proteins in native membranes
Cell function depends on how proteins and lipids are organized in native membranes, but studying those interactions has been difficult. Most approaches require extracting membrane proteins, or MPs, and stabilizing them in detergents that disrupt native interactions.
In a recent Molecular & Cellular Proteomics , Wonhyeuk Jung and colleagues at Yale University and the University of Nebraska–Lincoln developed a protocol using supercharger-assisted prequadrupole activation and mass spectrometry. The approach combines collision-induced and electron-capture dissociation to fragment ions and detect proteins directly in intact membranes.
Applying this method to E. coli membranes, the team detected diverse protein complexes preserved in their natural state and demonstrated that the platform can track drug binding to antibiotic targets. They plan to refine the method by adding biochemical interventions to study any membrane protein directly in its native environment.
Enjoy reading ASBMB Today?
Become a member to receive the print edition four times a year and the digital edition monthly.
Learn moreGet the latest from ASBMB Today
Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.
Latest in Science
Science highlights or most popular articles
Building the blueprint to block HIV
Wesley Sundquist will present his work on the HIV capsid and revolutionary drug, Lenacapavir, at the ASBMB Annual Meeting, March 7–10, in Maryland.
Gut microbes hijack cancer pathway in high-fat diets
Researchers at the Feinstein Institutes for Medical Research found that a high-fat diet increases ammonia-producing bacteria in the gut microbiome of mice, which in turn disrupts TGF-β signaling and promotes colorectal cancer.
Mapping fentanyl’s cellular footprint
Using a new imaging method, researchers at State University of New York at Buffalo traced fentanyl’s effects inside brain immune cells, revealing how the drug alters lipid droplets, pointing to new paths for addiction diagnostics.
Designing life’s building blocks with AI
Tanja Kortemme, a professor at the University of California, San Francisco, will discuss her research using computational biology to engineer proteins at the 2026 ASBMB Annual Meeting.
Cholesterol as a novel biomarker for Fragile X syndrome
Researchers in Quebec identified lower levels of a brain cholesterol metabolite, 24-hydroxycholesterol, in patients with fragile X syndrome, a finding that could provide a simple blood-based biomarker for understanding and managing the condition.
How lipid metabolism shapes sperm development
Researchers at Hokkaido University identify the enzyme behind a key lipid in sperm development. The findings reveal how seminolipids shape sperm formation and may inform future diagnostics and treatments for male infertility.