A newly proposed model suggests cancer cells may resist treatment not just through genetic mutations, but by dynamically reprogramming their gene activity. Credit: Shutterstock Cancer cells may “learn ...

Target identification is the first and perhaps most critical step in drug discovery and development. Although the human genome contains roughly 20,000 protein-coding genes, only about 4,500 are ...

Afforestation—establishing forests on previously non-forested land, or where forests have not existed for a long time—is one ...

The entire genome of the D-type hepatitis virus, which is transmitted through blood or bodily fluids, has been successfully ...

When a child’s symptoms stump one specialist after another for years on end, families describe the experience as grueling and ...

A team of scientists from NTU Singapore has developed a new biochip that, when paired with artificial intelligence, can ...

Autism spectrum disorder (ASD) is a complex neurodevelopmental condition characterized by differences in social communication ...

Cambridge expertise has been intrinsic to a world first – loading a complete genome onto a quantum computer. The milestone ...

Your early life may quietly set the stage for developing Type 1 diabetes, an increasingly common, lifelong condition that can ...

Researchers used AI and experimental models to identify existing drugs as potential treatments for Leigh Syndrome, ...

Spread the loveThe Dawn of a New Era in Oceanography The intersection of artificial intelligence (AI) and oceanography has led to groundbreaking advancements that are redefining our understanding of ...

A team developing light-sensitive cancer drugs has won a US$2-million Quantum for Bio (Q4Bio) prize for demonstrating a ...