Research Articles
Unlocking the Cellular Dice Roll: How Computers Decode Cells' Hidden Responses to Tiny Radiation Doses
Exploring how advanced computational approaches help understand stochastic cellular responses to low dose, low dose rate radiation exposures.
The Hidden Power of Plant Hormones: How Phytoestrogens Combat Obesity and Metabolic Crisis
Exploring how phytoestrogens from plants combat obesity and metabolic syndrome through fat cell reprogramming, inflammation reduction, and mitochondrial revival.
The Alchemy of Healing: How Drug Discovery Evolved From Nature's Pharmacy to Digital Laboratories
Explore the fascinating journey of drug discovery from ancient herbal remedies to cutting-edge AI-powered pharmaceutical research.
The Hidden Mutations That Could Save Your Tomatoes: How a Simple Chemical Unlocks Genetic Goldmines
Discover how EMS mutagenesis is revolutionizing tomato breeding by unlocking hidden genetic diversity for improved traits like disease resistance and flavor.
The Invisible Footprint: How Gene Therapy's Building Blocks Threaten Our Waterways—and What Scientists Are Doing About It
Exploring the environmental impact of plasmid DNA production for gene therapies and innovative solutions to reduce ecological harm.
Unlocking Biology's New Alphabet: Engineering Supercharged Bacteria to Build Proteins Beyond Nature's Limits
Discover how genomically recoded E. coli strains are revolutionizing protein production with non-canonical amino acids, enabling novel therapeutics and biomaterials.
The Silent Saboteur Within: Decoding M1G—The Stealthy DNA Adduct and What It Reveals About Cancer
Exploring M1G, the dangerous DNA lesion born from cellular stress, and its role in revolutionizing cancer detection and understanding metabolic damage.
The Unkillable Weed: How One Missouri Plant Defeats Six Herbicides at Once
Scientific analysis of six-way herbicide resistance in Missouri waterhemp (Amaranthus tuberculatus var. rudis) and its implications for agriculture.
Nature's Pharmacy Meets AI: Predicting Cancer's Weakness to Natural Compounds
How machine learning algorithms predict cancer cell sensitivity to natural products by decoding genomic and chemical blueprints
Tiny Cleaners, Big Impact: The Genome Secrets of a Steroid-Eating Superbug
Discover how Burkholderia CQ001's genome enables it to degrade dexamethasone and other pharmaceutical pollutants, offering solutions for water purification.