One of the most enduring goals in regenerative medicine is deceptively simple: replace a person's damaged or dying cells with ...

Phenotypic 3D cell models incorporate tissue architectures and extracellular matrices to recapitulate the complexity of the ...

Proteins are the infinitely varied chemicals that make cells work, and science has a pretty good idea how they are made. But a critical aspect underlying the machinery of protein manufacture has long ...

The development of humans and other animals unfolds gradually over time, with cells taking on specific roles and functions ...

Over the last 15 years, I have witnessed how cell and gene therapy (CGT) has evolved in many ways, spanning from research and development to manufacturing. Breakthroughs such as CAR-T and gene therapy ...

A human cell is a Rube Goldberg machine like no other, full of biological chain reactions that make the difference between life and death. Understanding these delicate relationships and how they go ...

Creating human structures in a lab is always difficult, but when successful, it can open up a lot of possibilities. Recently, researchers have been working on using 3D embryo structures called ...

A team at Kobe University has created a game-changing resource for autism research: 63 mouse embryonic stem cell lines, each carrying a genetic mutation strongly associated with the disorder. By ...

Researchers from the Keck School of Medicine of USC have developed a new type of chimeric antigen receptor (CAR) T cell that elicits a more controlled immune response to cancer in mice—effectively ...