Research Articles
The Hidden Powerhouse: How Plastid Transformation is Revolutionizing Plant Science
Explore how plastid transformation is revolutionizing plant science through high-yield protein production, natural gene containment, and precision engineering.
CRISPR Crops: Engineering a Greener Future to Tackle Global Food Crises
Explore how CRISPR-Cas9 gene-editing technology is revolutionizing agriculture, creating climate-resilient crops, and addressing global food security challenges.
From Mice to Macaques: The Animal Allies Powering the Genome Editing Revolution
Explore how animal models from mice to macaques are advancing the NIH Somatic Cell Genome Editing Program and revolutionizing gene therapies.
Embryos as Patients? Navigating Medical Ethics in the Age of CRISPR Gene Editing
Exploring the ethical implications of CRISPR gene editing on human embryos and the evolving responsibilities of medical providers
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 in Agriculture: Balancing Promise and Precaution in Our Food Future
Exploring the socio-economic considerations and potential implications of gene-edited crops in modern agriculture
Digital Simulators vs. Textbooks: A New Era for Surgical Training
Groundbreaking study reveals how digital technology is revolutionizing surgical training with clear evidence showing digital simulators outperform traditional textbooks.
Gene Editing at a Crossroads: Healing the Present, Shaping the Future
Exploring the revolutionary technology of gene editing, its medical breakthroughs, ethical considerations, and our obligations to ensure equitable access for all mankind.
The Hidden Regulators: How Scientists Are Decoding miRNA Target Networks
Explore how scientists are mapping miRNA target networks through computational predictions, experimental validation, and functional annotation.