Stanford researchers and their collaborators have revealed a new device that could change the way scientists conduct ...

Scientists developed a new nanostructure that triples CRISPR’s ability to enter cells, unlocking even more power to treat ...

Science and medicine are incredibly amazing. Thanks to modern science and medicine, we now have lifespans far beyond our Dark ...

When scientists discovered how bacteria protect themselves against viral invaders, called phages, in the early 2000s, little did they know they'd stumbled upon a revolutionary tool researchers could ...

Northwestern scientists have developed a new nanostructure that supercharges CRISPR’s ability to safely and efficiently enter cells, potentially unlocking its full power to treat genetic diseases. By ...

As CRISPR continues to drive breakthroughs in medicine, agriculture, and synthetic biology, understanding its origins does more than tell an ancient story. It provides a blueprint for engineering the ...

Researchers at Duke University used CRISPR technologies to discover previously unannotated stretches of DNA in the "dark ...

How can we grow enough food without destroying our planet in the process? Physical chemist Brad Ringeisen believes CRISPR may hold the key—by helping to develop climate-resilient crops. Brad Ringeisen ...

Natural systems such as CRISPR-associated transposons (CASTs) offer a targetable, one-step way to edit genomes. However, ...

In this Teach Me in 10, Dr. Cody Palumbo, a Senior Application Scientist in Technical Design at TriLink BioTechnologies, discusses why gRNA purity matters and how advanced purification solutions can ...

CRISPR is already known for its power as a gene-editing tool that could one day transform how we fight cancer and other life-threatening diseases. But CRISPR's potential is broader than that — and a ...

That’s why a team from UC San Diego in La Jolla set out with Yale University researchers to develop a new system for gene ...