Researchers have developed a capsule-based method that makes it possible to analyze the same cell through multiple experimental steps. The technology overcomes a long-standing limitation in cell ...

How does a tiny cluster of cells become an embryo with a head, trunk, and tail? And how do thousands of genes coordinate this development? A new imaging method makes it possible to visualize the ...

A catalyst design developed in the lab of Professor Ted Sargent increases efficiency, turning captured CO₂ into high-purity ethylene for plastics and packaging.

Researchers use long-read genome sequencing to discover 33% more structural variants and 38% more tandem repeats linked to autism spectrum disorder.

University of Edinburgh spin-out BIOCAPTIVA secures £1.58m funding and launches its msX liquid biopsy technology in the US to improve cancer diagnostics and research.

A pair of new studies have provided fresh evidence in the long-running scientific debate—and the result could be ...

Proof-of-concept trial in a single patient shows that cells can survive transplantation without immunosuppression ...

Gene editing refers to the precise alteration of an organism's DNA sequence at a specific locus. In cancer treatment, this technology is leveraged to modify the genetic makeup of cancer cells, either ...

Cancer remains one of the world’s most serious health threats, especially when it spreads beyond its original site. That ...

This study presents a valuable finding on the mutational order for common alterations in colorectal cancer. The evidence of in vitro growth assays comparing mutations is solid, although inclusion of ...

Human pluripotent stem-cells (HPSCs)—including human embryonic stem-cells and human induced pluripotent stem-cells—are reshaping the landscape of regenerative medicine.1,2 In Parkinson's disease, ...