A team of chemical biologists at the University of Washington, working with colleagues at Oxford Nanopore Technologies, has ...

Bacteria have been found that can alter encoded proteins by using the trick of sequence inversion inside genes. Random ...

Biotech advances from UT’s new Deep Proteins group are changing the game with help from artificial intelligence.

In a discovery that sheds light on the complex mechanisms of gene regulation, scientists at EPFL have uncovered a critical ...

A new artificial intelligence model developed by researchers at The University of Texas at Austin paves the way for more ...

Rapid sequencing technique can not only deal with proteins hundreds of amino acids long but can detect modifications ...

Like dietary carbohydrates and fats, proteins differ in their quality, and individuals vary in their needs. Determining ...

How the sequences of intrinsically disordered proteins (IDPs) code for functions is still an enigma. Dynamics, in particular residue-specific dynamics, holds crucial clues. Enormous efforts have been ...

Discover how Oxford BioMedica's new patent enhances viral vector production efficiency with a novel nucleic acid sequence that regulates therapeutic protein translation.

Biomedicines’ generative artificial intelligence (AI) platform to discover and develop protein therapeutics for multiple ...

In the constantly evolving field of molecular biology, one of the most challenging tasks has been designing proteins that can ...