Explore CRISPR technology explained, gene editing science, DNA modification, and genetic engineering ethics—discover how ...

Technology opens the door to more accurate preclinical testing, which could enable the development of safer and more effective therapies.

In recent years, small extracellular vesicles (sEVs) have captured the attention of scientists due to their critical role in cell-to-cell communication and disease progression. These nanosized ...

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.

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 ...

The CRISPR gene editing technology has transformed the research lab, and this powerful tool is now making its way into the clinic. So far, three different human diseases have been successfully treated ...

Cancer cells thrive in an environment deprived of oxygen and nutrients, adapting to survive and grow. Unlike normal cells, they rely on a process called aerobic glycolysis, or the Warburg effect, to ...

A lthough still in its early days, CRISPR has already been called the most powerful scientific tool of the century. Using programmable “scissors” that make precise edits to DNA to encourage desired ...