Charles Gersbach and his colleagues are pursuing promising CRISPR technologies focused on controlling gene activity rather ...

The CRISPR-Cas gene-editing system has long been the focus of research as a promising tool in genome editing. However, the ...

Key market opportunities include advancements in research, medicine, diagnostics, and biotechnology through CRISPR. There is potential for innovative solutions and ethical exploration in gene editing, ...

Scientists have discovered a new CRISPR mechanism with precise activity, expanding the potential applications of the existing CRISPR toolbox. The CRISPR ‘gene scissors’ have become an important basis ...

A novel CRISPR defense mechanism, unlike known nucleases, specifically destroys transfer ribonucleic acids (tRNA) that are vital for protein production to shut down infected cells. (Nanowerk News) ...

To accelerate discovery, scientists from ATCC and the Broad Institute collaborated to engineer a panel of drug-resistant NSCLC models using CRISPR gene editing and gene overexpression techniques.

In nature, the best-known CRISPR system, CRISPR-Cas9, cuts any RNA or DNA it recognizes as foreign, and thereby protects bacteria from viral attacks. Another CRISPR system, one that is relatively ...

In heart failure, the heart can no longer supply the body with enough blood. The condition often develops over many years, ...

(Nanowerk News) The CRISPR-Cas gene scissors offer a wide range of potential applications, from the treatment of genetic diseases to antiviral therapies and diagnostics. However, to safely harness ...

The CRISPR-Cas gene-editing system has long been the focus of research as a promising tool in genome editing. However, the emphasis has been on its underlying mechanisms and nucleases. In contrast, ...

Bacteria and their viruses, known as phages, are locked in an age-old arms race. To defend against phage attacks, bacteria have evolved sophisticated mechanisms to recognize and counteract invading ...