Research Articles
When Our Blood Vessels Leak: The Silent Fire of Oxidative Stress
Exploring how oxidative stress causes vascular leak and potential therapeutic approaches to treat this condition.
Beyond the Mitotic Halt: How Next-Gen Microtubule Drugs Are Rewriting Cancer's Playbook
Exploring the revolutionary next-generation microtubule-targeting agents that are transforming cancer treatment paradigms.
Seeing the Light: How Root Illumination Skews Plant Science and Why Darkness Matters
Exploring how light exposure affects root physiology and why maintaining darkness is crucial for accurate plant research.
Molecular Scalpels: How Tiny Bioprobes Cut Through Cellular Mysteries
Exploring actin- and microtubule-targeting bioprobes and their role in understanding cellular structures and treating diseases.
The Cellular Handshake: How Cell Avidity Reveals the Hidden Language of Immunotherapy
Discover how cell avidity is revolutionizing immunotherapy development by revealing the hidden language of cellular interactions.
The Light Weaver: Crafting Tomorrow's Internet with Etchless Photonics
Dr. Zhe-Long Jin's groundbreaking work on etchless integrated photonics using Bound States in the Continuum (BICs) could transform quantum computing, AR displays, and ultra-fast communications.
The Podocyte Protector: How a New Drug is Revolutionizing Diabetic Kidney Disease Treatment
Discover how finerenone protects kidney podocytes by regulating KLF5 to prevent diabetic nephropathy progression through EMT inhibition.
The Dystrophin Breakthrough: Solving Duchenne's Deadly Mystery
How the discovery of dystrophin transformed our understanding of Duchenne Muscular Dystrophy and paved the way for modern therapies.
The Sulfur Surprise: How a Newly Discovered Cell Death Mechanism is Revolutionizing Cancer Research
Discover how disulfidptosis, a sulfur-dependent cell death mechanism, is transforming cancer research across 33 cancer types through pan-cancer analysis.
The Invisible Dance: Unraveling Single-Walled Carbon Nanotube Dynamics
Exploring the atomic-scale dynamics of single-walled carbon nanotubes and their revolutionary potential in nanotechnology