How CRISPR and functional genomics are used to establish causality, understand disease mechanisms and guide early drug discovery decisions.

Researchers at Texas A&M are pairing a widely used ingredient with advanced medical technology to develop new treatments for ...

Future AI-guided genomic analysis offers the potential to further optimize gene constructs, expression profiles, and performance traits, accelerating the development of next-generation materials.

Natural Killer (NK) cells are a critical component of the innate immune system and play an essential role in recognizing and eliminating cancer cells. Despite their promise, current NK-based therapies ...

CRISPR gene editing has revolutionized the field of molecular biology, offering precise, efficient, and versatile tools for genome modification. The technology has rapidly evolved beyond the original ...

CRISPR has the power to correct genetic mutations, but current delivery methods are either unsafe or inefficient, keeping the technology from reaching its full medical potential. With the power to ...

1. Amichai Berman (School of Plant Sciences and Food Security at Tel Aviv University), the PhD student leading the research. Researchers: “Genetic editing in crop plants is a complex process. Our ...

CRISPR Therapeutics’ gene-editing treatments are highly customized and shockingly expensive. The market is watching to see if the underlying science can be applied to treat many diseases. The company ...

Nobel laureate Jennifer Doudna, PhD; Matthew Porteus, MD, PhD, and Rodolphe Barrangou, PhD—offer their views on the commercial potential and challenges of genome editing following a rollercoaster 2025 ...

In 2020, Jennifer Doudna, Ph.D., received the Nobel Prize in Chemistry, CRISPR-Cas9, a method for genome editing. Often referred to as “molecular scissors,” CRISPR cuts DNA at specific locations that ...