A team of researchers designed AI model capable of generating new proteins, trained on a simulation of 500 million years of ...

The ability to alter protein binding can create tailored therapeutics with reduced side effects, sensitive diagnostic tools, ...

Each year, snake bites kill upwards of 100,000 people and permanently disable hundreds of thousands more, according to ...

New proteins not found in nature have now been designed to counteract certain highly poisonous components of snake venom. The ...

Novel proteins have been designed to neutralise some of the deadliest molecules in snake venom. The proteins, which were ...

A novel geometric deep learning framework designs ligand-specific protein binders, enhancing therapeutic potential in cell ...

Researchers at EPFL have opened up a world of possibilities in the computational design of molecular interactions for ...

The AI-designed proteins could form the basis of a new generation of therapies for snakebites — which kill an estimated ...

It has been a few years since AI began successfully tackling the challenge of predicting the three-dimensional structure of ...

Proteins play a crucial role in nearly all biological processes, yet predicting their complex interactions and designing ...

The current way to produce antivenoms is antiquated. Experiments in mice suggest that an artificial intelligence approach could save time and money.

The AI-designed proteins neutralized lethal 3FTx toxins found in snake venom, which are often the reason that traditional ...