Research Articles
The Bone Balancing Act: How a Tiny Protein Could Stop Osteoporosis
Discover how the FHL2 protein inhibits osteoclast activity through TRAF6, offering potential new treatments for osteoporosis and bone diseases.
Seeing the Invisible: How Scientists are Capturing Cellular Social Networks at the Single-Molecule Level
Discover how scientists are using nanoscopic lenses to reveal GPCR oligomerization at the single-molecule level, transforming our understanding of cellular communication.
How Salmonella Silences Our Genes: The MicroRNA Story You Haven't Heard
Discover how Salmonella infection triggers miR-29a to silence Caveolin-2, making intestinal cells vulnerable to bacterial invasion.
Unlocking Hope: The Revolutionary Treatments Changing Lives for Metabolic Disorders
Explore the groundbreaking treatments and diagnostic advances revolutionizing care for inborn errors of metabolism, with 275 disorders now treatable.
The Invisible Scaffold: How the Plant Cytoskeleton Builds a Life
Explore the intricate world of the plant cytoskeleton - a dynamic network that shapes plant cells, directs growth, and enables defense mechanisms through molecular crosslinking factors.
The Body's Electric: Healing Wounds with Energy Waves
Explore how physical energy like electricity, magnetic fields, and sound waves are revolutionizing tissue healing and regenerative medicine.
The Hidden Player: How a Neurological Disease Protein Shapes Our Immune Defenses
Exploring the critical role of the SMN protein in macrophage function and its implications for Spinal Muscular Atrophy treatment
CKAP2: The Cellular Saboteur Becoming Science's Newest Ally Against Gastric Cancer
Discover how CKAP2 protein emerges as a potential game-changer in gastric cancer prevention through multi-omics research approaches.
Romancing Mitosis: The Secret Dance of Cell Division
Explore the fascinating world of mitosis and the mitotic apparatus - the elegant cellular process that makes life possible through precise cell division.
Proteogenomics: The Revolutionary Map Changing How We Understand Bladder Cancer
Discover how proteogenomics is transforming bladder cancer treatment through integrated multi-omics analysis, revealing new subtypes and personalized therapy approaches.