Discover how AI tools like AlphaFold and RF Diffusion are revolutionizing protein folding design, medicine, and ...

Instead of transistors, like traditional computers, quantum computers use qubits. Qubits potentially allow for more options ...

These chaperones ensure that proteins don’t get stuck in the wrong shape during the folding process. Without these helpers, many proteins would fail to reach their functional form, leading to ...

A folding protein will form a series of hydrogen bonds internally and with the water molecules that surround it. In the process, the protein wiggles into countless potential intermediate ...

Crystallization of integral membrane proteins has been difficult, and the evolution to a high-throughput approach will require considerable process development. The development of these processes ...

Artificial intelligence is dramatically transforming how companies approach research and development, with some organizations already seeing 10X productivity gains.

They are important niches to the scientists who can now solve previously unsolvable problems, but they may not constitute ...

Prions are best described as misfolded proteins with an ability to transmit their misfolded shape onto normal variants of the ...

Inside your gut, countless bacteria cooperate to help digest food and keep you healthy. But they also fiercely compete for ...

Protein folding is complicated and often hard to predict ... ProteinMPNN accelerates that computational process. Then, they used a third predictive AI tool called AlphaFold2 to independently ...

Protein folding is the process by which proteins achieve their mature functional (native) tertiary structure, and often begins co-translationally. Protein folding requires chaperones and often ...

University of California, Merced Professor Jeff Yoshimi says crowdsourcing millions of video gamers in the battle against cancer can accelerate research against a disease that claims 600,000 U.S.