Synthesizing new proteins – the building blocks of biological life – is a scientific field of immense potential, and a newly developed AI model promises to create instructions for new proteins way ...

In medicine and biotechnology, the ability to evolve proteins with new or improved functions is crucial, but current methods are often slow and laborious. Now, Scripps Research scientists have ...

In the rapidly advancing field of computational biology, a newly peer-reviewed review explores the transformative role of deep learning techniques in revolutionizing protein structure prediction. The ...

Researchers at Scripps have created T7-ORACLE, a powerful new tool that speeds up evolution, allowing scientists to design and improve proteins thousands of times faster than nature. Using engineered ...

The process of evolution usually takes thousands, millions or even billions of years. But researchers have found a way to condense it into a matter of minutes using a method called 'directed evolution ...

News organizations may use or redistribute this image, with proper attribution, as part of news coverage of this paper only.

The ability to evolve proteins with new or improved functions provides powerful applications for the development of selective, high-affinity antibodies, enzymes with new catalytic properties, and the ...

Researchers from the Francis Crick Institute and the Gulbenkian Institute for Molecular Medicine (GIMM) have shown that the evolution of a family of exported proteins in the malaria-causing parasite ...

A new platform enables fast, scalable protein evolution - opening the door to new therapies and diagnostics, and to predicting resistance mutations across many disease areas. (Nanowerk News) In ...