A poorly characterized protein, historically thought to be a chaperon or enzyme, may actually be a key player in prostate ...

How AI, robotics, and precision medicine are transforming cancer care—bridging hope, technology, and humanity in the ongoing ...

While some practices remain controversial or speculative, biohackers are united by a shared curiosity: how can we engineer ...

Recognized in the Biotechnology category of the 2025 Top Innovations contest, small Cas12l nucleases are versatile, ...

In a world first, a bespoke gene-editing therapy benefited one child. Now researchers plan to launch a clinical trial of the approach ...

First company to enable precision in vivo genome engineering, combining both cell-specific delivery and programmable, locus-specific gene insertion, with the potential to achieve physiological, durabl ...

A new West Coast biotech has emerged into the busy in vivo cell therapy space, this time with the backing of Nobel Prize-winning CRISPR pioneer Jennifer Doudna, Ph.D. Azalea Therapeutics has bloomed ...

Gene editing techniques, including CRISPR, prime editing, and nucleases, allow scientists to tackle genetic diseases, cancer, ...

Understanding how cells turn genes on and off is one of biology's most enduring mysteries. Now, a new technology developed by chemist Brian Liau and his collaborators at Harvard offers an ...

A company’s plan to edit the genomes of human embryos worries some researchers — but it might reflect the changing attitudes towards the controversial approach.

CRISPR, which stands for Clustered Regularly Interspaced Short Palindromic Repeats, is a natural defense system in bacteria that scientists have adapted into a powerful gene-editing tool. This ...

Over the past two decades, synthetic biology has fueled advancements across a broad range of disciplines, including agriculture, bioremediation, biofuel production, and chemical manufacturing. Today, ...