Biotech advances from UT’s new Deep Proteins group are changing the game with help from artificial intelligence. Researchers study the three dimensional structures of molecules on a wall-sized video ...

A protein engineering method using simple, cost-effective experiments and machine learning models can predict which proteins will be effective for a given purpose, according to a new study. A protein ...

Proteins, one of the smallest building blocks of life on Earth, hold promise for answering some of biology's biggest ...

A team of researchers has developed a method that could transform the field of protein engineering. The new approach, called AI-informed Constraints for protein Engineering (AiCE), enables rapid and ...

Enzymes in laundry detergents, insulin for diabetes, and the antibodies and enzymes used in medicine: all of these exist thanks to protein science and engineering. Protein engineering has transformed ...

Structural biology is shifting from predicting protein shapes to uncovering broader organizational rules; AI tools like AlphaFold have made large-scale protein structure data far ...

Proteins Mosaic Q is a global citizen-science initiative that invites volunteers to help confirm a newly identified structural pattern in the three-dimensional architecture of proteins. The project ...

Plant cell-based bioproduction systems are known for producing proteins with proper folding and post-translational modifications that have been used in a handful of approved therapeutics. Widespread ...

Genetic engineering is poised to help biopharma realize the potential benefits of commercial-scale, plant-based protein production, according to a leading researcher. The idea of making therapeutic ...

Antibody engineering enables the generation of novel and diverse antibody constructs. The development of therapeutic antibodies is highly dependent on antibody engineering, whether for the generation ...