The scale of chemistry simulations with quantum computing has increased dramatically in just the last few months. In the ...

Two IBM quantum processors working in concert with two supercomputers simulate a protein-ligand system with 12,000 atoms ...

Many drug and antibody discovery pathways focus on intricately folded cell membrane proteins. When molecules of a drug candidate bind to these proteins, like a key going into a lock, they trigger ...

In late May 2026, a research team from IBM, Japan’s RIKEN institute, and the Cleveland Clinic reported that they had ...

Scientists at Cleveland Clinic, RIKEN, and IBM (NYSE: IBM) have used IBM quantum computers and two of the world's most ...

The 2024 Nobel Prize in chemistry recognized Demis Hassabis, John Jumper and David Baker for using machine learning to tackle one of biology's biggest challenges: predicting the 3D shape of proteins ...

In a paper recently published in Nature Communications, the HUN-REN-ELTE Protein Modeling Research Group (Institute of Chemistry) has laid the foundations for a mathematical method, allowing the ...

Most of the activities that go on inside cells—the activities that keep us living, breathing, thinking animals—are handled by proteins. They allow cells to communicate with each other, run a cell’s ...

Scientists from the University of California, San Francisco (UCSF), have used deep learning techniques to design an approach for generating artificial proteins that can move and change shape much like ...

Proteins are essential molecules in living systems. They move, interact and organize themselves to carry out a wide range of functions, from helping cells communicate to forming structures inside the ...