A new imaging technique reveals lipids in cellular membranes and shows how they are organized at the nanoscale.

Researchers developed a computer simulation that rapidly and accurately predicts how proteins shift their shapes, potentially advancing drug design and protein engineering.

A new imaging approach is shedding light on one of cell biology’s most elusive questions: how lipids are organized and sorted within membranes.

For many people, "protein" is the key element of a food order. However, beyond the preferred choice of meats or plant-based ...

International research team presents new imaging technique to make lipids in cellular membranes visible and show how they are organized at the nanoscale. Dr. André Nadler nadler@mpi-cbg.de ...

The protein revolution is hard to avoid. Grocery aisles are now stocked with specially-branded food items packed with more protein than ever before to meet the growing demand of the latest food fad.

Dr. Travis Craddock, professor and Canada Research Chair, says the team's findings change our basic knowledge of biology (University of Waterloo). A novel method to manipulate the inner structure of ...

Artificial intelligence (AI) is transforming how scientists understand proteins—these are working molecules that drive nearly every process in the human body, from cell growth and immune defense to ...

Artificial intelligence isn’t just changing how we search the web or generate images. It is reshaping how scientists approach one of biology’s oldest problems: the folding of proteins. Google DeepMind ...

In recent years, two nutrients have been in the spotlight – and for good reason. Both protein and fibre are incredibly important for our health, helping to support everyday healthy living, fuel ...

MONTREAL--(BUSINESS WIRE)--Nomic Bio (“Nomic”) today announced publication of its core nELISA® technology in Nature Methods, detailing a high‑throughput, high‑plex immunoassay platform that side-steps ...