A new paper written by a theoretical physicist at Howard University claims that aneural eukaryotic cells could process information up to a billion times faster than typical biochemical processes. This ...

Advancements in AI, multi-omics, and genome editing are transforming life sciences and biotechnology, addressing new ...

AI is transforming healthcare, paving the way for breakthroughs in precision medicine and unlocking extraordinary value. On the Disruption Interruption podcast, Elucidata CEO Abhishek Jha discusses ...

Kenneth Merz, Ph.D., of Cleveland Clinic's Center for Computational Life Sciences and a team are exploring how quantum computers can work with supercomputers to better simulate molecule behavior.

More than 80 years ago, Erwin Schrödinger, a theoretical physicist steeped in the philosophy of Schopenhauer and the Upanishads, delivered a series of public lectures at Trinity College, Dublin, which ...

As genomics research accelerates, scientists face challenges in identifying functional proteins and understanding biological regulation. Traditional ...

Computational thinking is increasingly recognised as a fundamental approach to problem solving that transcends traditional disciplinary boundaries. It involves organising complex challenges into ...

A new paper written by a theoretical physicist at Howard University claims that aneural eukaryotic cells could process information up to a billion times faster than typical biochemical processes. This ...