Plant breeding plays a vital role in ensuring global food security by increasing crop yields, improving nutritional quality and creating crops that are adaptable to climate change. However, current ...

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

MIT scientists have found a way to make gene editing far safer and more accurate — a breakthrough that could reshape how we treat hundreds of genetic diseases. By fine-tuning the tiny molecular “tools ...

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

Integrates ToolGen's best-in-class CRISPR-Cas9 platform with GenEditBio's industry-leading lipid nanoparticle (LNP) delivery technology Pursues a "once-and-done" treatment paradigm for diseases with ...

Understanding human gene function in living organisms has long been hampered by fundamental differences between species.

Growing focus on gene-based therapies, advances in editing tools, and increasing research investments are accelerating the adoption of genome editing technologies across life sciences and agriculture.