Explore how CRISPR gene-editing technology is revolutionizing medicine, agriculture, and our understanding of life itself.
Explore the groundbreaking research on Tuberous Sclerosis Complex (TSC), its genetic mechanisms, clinical subtypes, and the future of personalized treatments.
Explore the revolutionary technologies enabling scientists to read and edit glycans - the sugar molecules that control cellular communication in living systems.
Discover how sleep quality impacts longevity through brain neurogenetics, cellular repair mechanisms, and the DREAM complex that regulates anti-aging processes.
Learn how undergraduate students are using CRISPR/Cas9 technology to edit yeast DNA in multi-week laboratory exercises, bridging theory and practice in genetic engineering.
Explore the fascinating journey of RNA biology over the past two decades, from simple messenger to complex ribonucleoprotein machines revolutionizing cellular biology and medicine.
Explore how deep learning and deep sampling are revolutionizing gRNA design for CRISPR gene editing, improving precision and reducing off-target effects.
Explore how CRISPR/Cas9 technology is revolutionizing genetic research using Drosophila melanogaster, from basic mechanisms to advanced applications and future directions.
Discover how Wikidata is revolutionizing data integration and dissemination in the life sciences and beyond through structured, interconnected knowledge.
Discover how Oxford Nanopore sequencing technology is revolutionizing the selection of gene-edited trees for sustainable forestry.