The cryogenic electron microscope structure of the A4p-activated (green) CalpL protein filament (violet) from Candidatus Cloacimonas acidaminovorans (PDB ID: 9EYJ). Credit: Dalia Smalakyte and Giedre ...

A graphic representation of a round, lumpy, blue protein and a single, comblike, purple strand of RNA interacting with a twisted, double, blue strand of DNA that separates where it meets the RNA. A ...

CRISPR-Cas systems are adaptive immune systems found in prokaryotes that defend against invading nucleic acids through CRISPR RNA-guided cleavage. Type V CRISPR-Cas (Cas12) systems, in particular, ...

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

CRISPR powers everything from gene editing to rapid diagnostics, but how did one of its most versatile branches arise? A new Cell study, “Functional RNA splitting drove the evolutionary emergence of ...

A detailed look at the predicted structure of a new CRISPR-Cas tool that promises to expand the genomic editing and manipulating abilities of the original. Disclaimer: AAAS and EurekAlert! are not ...

With the power to rewrite the genetic code underlying countless diseases, CRISPR holds immense promise to revolutionize medicine. But until scientists can deliver its gene-editing machinery safely and ...

Scientists from Vilnius University's (VU) Life Sciences Center (LSC) have discovered a unique way for cells to silence specific genes without cutting DNA. This research, led by Prof. Patrick Pausch ...

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 ...