A bacterial defense system called SPARDA employs kamikaze-like tactics to protect cells and could be useful in future ...

Scientists have discovered a new CRISPR mechanism with precise activity, expanding the potential applications of the existing ...

Our genomes are filled with errors that were once impossible to correct. But in CRISPR, we finally found an extraordinarily ...

The CRISPR “gene scissors” have become an important basis for genome-editing technologies in many fields, ranging from biology and medicine to agriculture and industry. A team from the Helmholtz ...

CRISPR–Cas9-based therapies are widely investigated for their clinical applications. However, there are limitations ...

Genetic disorders occur due to alterations in the primary genetic material—deoxyribonucleic acid (DNA)—of an organism.

Researchers discovered the secret checkpoints that keep CRISPR precise, revealing how the tool shifts from inactive to active without misfiring. The insight could transform gene therapy, making ...

(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 ...

Infection with the pathogenic yeast fungus Candida auris (C. auris) can wreak havoc on the health of hospital patients and ...

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 ...

CRISPR/Cas9 is a gene editing tool that has revolutionized biomedical research and led to the first FDA-approved CRISPR-based gene therapy. However, until now, the precise mechanism of exactly how ...

Researchers uncovered a previously unknown CRISPR immune response in bacteria that targets transfer RNAs. The newly ...