Research Articles
Viruses as Both Enemy and Ally: The Double-Edged Sword Transforming Crop Engineering
Explore how plant viruses serve dual roles in CRISPR-Cas genome editing - as delivery vehicles and diagnostic targets - revolutionizing crop engineering.
Rewriting Life's Code: How Synthetic Biology Is Engineering Gene Control Circuits and Reshaping Genomes
Explore how synthetic biology is revolutionizing gene control circuits, genome synthesis, and editing with engineering principles and cutting-edge research.
Treasure Trove of New CRISPR Systems Unlocks Future of Genome Editing
Discover how newly found CRISPR systems and AI tools are revolutionizing genome editing with enhanced precision and safety.
Gene Editing Revolution: How CRISPR is Transforming Treatment for Muscular Dystrophy
Discover how CRISPR-Cas9 genome editing technology is revolutionizing treatment for Duchenne muscular dystrophy by restoring muscle function in mouse models.
Precision Scissors for Plant DNA: How ZFNs Are Revolutionizing Crop Breeding
Explore how Zinc-Finger Nucleases (ZFNs) are transforming crop breeding with precision genetic editing, enabling drought tolerance, disease resistance, and improved nutrition without foreign DNA.
CRISPR–Cas9: Europe's Delicate Dance with Genome Editing
Exploring CRISPR-Cas9 technology, European regulatory approaches, medical breakthroughs, and the future of genome editing in Europe.
CRISPR and Beyond: How French Scientists Are Revolutionizing Gene Therapy
Explore how French researchers are advancing genome editing technologies for gene therapy applications, tackling genetic disorders with innovative CRISPR-based approaches.
Unlocking Secrets of Water Fleas: How CRISPR Reveals Genetic Mysteries of Daphnia magna
Explore how CRISPR/Cas9 genome editing is revolutionizing research on Daphnia magna, revealing genetic mechanisms behind environmental adaptation and stress responses.
Unlocking Rice's Genetic Goldmine: How CRISPR's NAG Breakthrough is Revolutionizing Crops
Discover how CRISPR's NAG PAM breakthrough is expanding genome editing capabilities in rice, enabling precise modifications for disease resistance, drought tolerance, and improved nutrition.
Precision Scalpels: How Engineered Cas9 Nucleases Are Revolutionizing Genetic Surgery
Explore how rationally engineered Cas9 nucleases like eSpCas9 are revolutionizing genetic surgery with improved specificity and reduced off-target effects.