RNA sequence design and inverse folding constitute pivotal areas in computational biology, aiming to identify nucleotide sequences that adopt predetermined structural conformations. The inverse ...

WATERTOWN, Mass.--(BUSINESS WIRE)--Dyno Therapeutics today announced a collaboration with NVIDIA to leverage Dyno’s field-leading artificial intelligence (AI) and in vivo experimentation capabilities, ...

Designing de novo proteins holds immense potential for achieving superior combinations of novel functions and mechanical properties, thereby advancing biological and engineering applications. However, ...

Over the past two years, machine learning has revolutionized protein structure prediction. This has been led by experimentally characterized de novo protein designs that have been generated using ...

A new artificial intelligence-driven pipeline developed in a collaborative research combines protein structure prediction, sequence design, and live-cell screening together to enable rapid conversion ...

A new artificial intelligence-driven pipeline developed in a collaborative research combines protein structure prediction, ...