Research Articles
The Silent Stretch: When Your Brain's Wiring Gets Pulled
Explore the biological changes after axonal stretch injury and the mechanisms behind traumatic brain injury at a microscopic level.
How a Malaria Drug Could Revolutionize Treatment for Aggressive Breast Cancer
Discover how atovaquone, an FDA-approved malaria drug, shows promise in treating chemotherapy-resistant triple-negative breast cancer by targeting the MSN/STAT3 pathway.
The Calcium Switch: How Calpain Signaling Offers New Hope for Neurodegenerative Diseases
Exploring calpain signaling pathways and their therapeutic potential in neurodegenerative disorders like Alzheimer's and Parkinson's disease
The Cellular Conductor: How Silencing a Single Gene Reshapes Our Immune Sentinels
Discover how silencing the EPB41 gene transforms dendritic cells, enhancing their immune activation potential for advanced cancer therapies.
Cellular Control Freaks: The Secret Language of Lipids
Explore the fascinating world of phosphoinositides - the master regulators that control cellular traffic, signaling, and identity through molecular postal codes.
The Cell's Secret Scaffold: How a Skeleton Builds Your Hormones
Discover how the cytoskeleton orchestrates steroid hormone production through cellular infrastructure and transport systems.
Unlocking Memory: How Genes and Brain Waves Shape Our Learning
Explore the fascinating mechanisms of memory formation through genetic and electrophysiological research, revealing how our brains encode, consolidate and store memories.
When Genes Tangle Nerves: The Story of TUBB3 and Axonal Polyneuropathy
Explore how TUBB3 gene mutations cause axonal polyneuropathy, disrupting nerve function through microtubule defects and impaired cellular transport.
The Unsung Guardians of Your Glands: Salivary Myoepithelial Cells
Discover the fascinating dual role of salivary myoepithelial cells - from mechanical squeezers to tumor suppressors - in this engaging scientific exploration.
The Silent Sabotage: How Rabies Virus Hijacks Brain Communication
Discover how the rabies virus disrupts brain communication at the molecular level without destroying neurons, leading to fatal neurological disease.