Research Articles
The Double-Agent Molecules: How a Simple Scaffold Fights Alzheimer's and Cancer
Explore how 1,10-phenanthroline and its metal complexes target both Alzheimer's disease and cancer through their unique molecular structure and biological activity.
Unlocking Alzheimer's Secrets: The Phthalimide Breakthrough
Discover how isoindoline-1,3-dione derivatives show promise as acetylcholinesterase inhibitors in Alzheimer's disease treatment through computational and experimental studies.
The Hidden World of Bladder Tumors: A Cellular Detective Story
How scientists are using cellular clues to revolutionize bladder cancer diagnosis and treatment through histochemical studies.
Nature's Blueprint for Better Plastics
Discover how biomimetic chemocatalytic cascades are revolutionizing polymer design, creating smart, degradable plastics inspired by nature's molecular machinery.
Power Up Your Heart: How a Novel Compound Fights Diabetes-Related Heart Damage
Discover how the experimental compound P7C3 could revolutionize treatment for diabetic heart disease by targeting cellular energy production through Nampt activation.
Unlocking Genetic Clues: How Your Ancestry Can Influence Cancer Treatment
Explore how genetic differences between Uzbek and Japanese populations affect cancer drug metabolism and personalized treatment approaches.
When a Life-Saving Drug Turns Against You: The Mystery of the Blue Patient
Exploring the rare but fascinating condition of methemoglobinemia caused by rifampin therapy, its biological mechanisms, and the scientific investigation behind it.
Beyond Trial and Error: How Genetic Testing is Revolutionizing Depression Treatment
Discover how pharmacogenetic testing is transforming depression treatment by using genetic profiles to guide medication selection, improving outcomes and reducing costs.
Unlocking the Code: How Science is Outsmarting SARS-CoV-2
Explore the scientific advances in SARS-CoV-2 therapeutic targets and drug development, from viral structure to cutting-edge treatments.
The Invisible Dice: How Randomness Shapes Infectious Diseases at the Molecular Level
Explore how stochastic simulation reveals the hidden role of randomness in biochemical reaction networks during infectious disease progression