Research Articles
Silencing the Code: How Fruit Fly Cells Became the Unlikely Heroes of a Genetic Revolution
Discover how RNA interference (RNAi) research in Drosophila cells revolutionized genetics and led to Nobel Prize-winning discoveries.
The Hidden Conversation: How Your Body's Cells and Matrix Communicate Through Redox Signals
Discover the fascinating partnership between extracellular matrix and redox signaling in cellular communication and tissue maintenance.
Cracking the Cell's Code: When Computers Meet Biochemistry
Explore how computational biochemistry is revolutionizing our understanding of cellular processes through digital simulations and predictive modeling.
The Force of the Foe: How a Cell's Squishiness Could Unlock New Cancer Treatments
Exploring how cancer cell mechanics and stiffness measurements reveal insights into metastasis and potential new treatments.
The Cellular Tightrope: How the Tiny World Inside You Feels Gravity's Pull
Explore how single cells detect and respond to gravity through sophisticated mechanisms and groundbreaking experiments.
The Double Agents: How Eph and Ephrin Proteins Guide Cancer's Invasion
Explore how Eph receptors and ephrin ligands function as cellular double agents in cancer metastasis, with context-dependent roles in tumor progression and suppression.
The Nuclear Envelope: The Beating Heart's Unsung Guardian
Explore the critical role of the nuclear envelope in cardiac health and disease, from its structure to its connection with heart conditions like cardiomyopathy.
Hijacking the Cell's Control Panel: How a Single Cancer Gene Unlocks a Devastating Chain Reaction
Discover how the KRas gene creates a dangerous amplification loop driving pancreatic cancer growth, metastasis and therapy resistance.
The Silent Sieve: How Dancing Feet in Your Kidneys Keep You Alive
Explore the fascinating world of podocytes and their actin cytoskeleton - the dynamic cellular dancers that maintain kidney filtration and prevent disease.
The Cellular Architect: How Mammalian Oocytes Master the Art of Asymmetric Division
Explore the fascinating process of asymmetric division in mammalian oocytes - how cells create unequal daughters for reproductive success