One of the most revolutionary tools in cutting-edge medicine is a molecular scalpel so precise that it can modify defective ...

The report provides a comprehensive analysis of the genome editing market, focusing on technologies like CRISPR-Cas, TALEN, ...

Gene editing in plants remains challenging, with the traditional non-homologous end-joining (cNHEJ) repair pathway often hindering precision.

The clinical success of CRISPR-based treatments is fundamentally dependent on sophisticated gRNA targeting systems that ...

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 ...

The discovery of CRISPR-Cas gene editing technology has revolutionized biological research, providing new insights and opportunities for the advancement of several industries. However, the ...

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, ...

CRISPR has revolutionized science. AI is now taking the gene editor to the next level. Despite its real-world impact, CRISPR isn’t perfect. The tool snips both strands of DNA, which can cause ...

In a Perspective, Stephen Tang and Samuel Sternberg discuss retroelement-based gene editing as a safer alternative to CRISPR-Cas approaches. Precision genome editing technologies have transformed ...

Researchers corrected lamin A gene mutations, preventing skeletal and cardiac abnormalities and extending mice lifespans.