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

The cryogenic electron microscope structure of the A4p-activated (green) CalpL protein filament (violet) from Candidatus Cloacimonas acidaminovorans (PDB ID: 9EYJ). CRISPR-Cas systems help to protect ...

The emergence of advanced genome editing technologies has revolutionized research in life sciences, offering an unprecedented way to uncover unknown biological functions and innovative therapeutic ...

CRISPR-Cas systems help to protect bacteria from viruses. Several different types of CRISPR-Cas defense systems are found in bacteria, which differ in their composition and functions. Among them, the ...

CRISPR functions as a programmable genetic memory system derived from bacterial immune defenses against viral infections. Guide RNA allows for rapid multiplexed targeting compared to older ...

Scientists have revealed how Fanzor2's divergence from bacterial ancestors may make it a useful tool for future genomic engineering endeavors. A revolution in biomedicine is currently underway, driven ...

Non-model crop species represent a vast and diverse component of global agriculture, forestry, and horticulture, yet they are routinely underrepresented in ...

The clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated proteins (Cas) system is a bacterial defense mechanism that uses RNA-guided enzymes to cut specific sequences ...

Researchers have used modified CRISPR to silence the extra chromosome 21 in Down syndrome cells, showing promising ...

Gene editing is growing up. Ten years after Science magazine named CRISPR its 2015 “Breakthrough of the Year,” this revolutionary gene editing technology has become a workhorse of modern biology. In ...