20 articles
Transcriptomic analysis of Pseudomonas nitroreducens TX1 identifies 241 differentially expressed genes during surfactant degradation.
Scientists identify MOXD1 as a driver of MASH and show blocking it with a small molecule reverses liver fat accumulation in mice.
Simple sugar supplement dramatically improved diabetes symptoms in mice by stopping inflammatory cells from releasing disease-causing particles.
Two bacterial proteins that sense sulfur compounds unexpectedly regulate nitrate removal, revealing new targets for optimizing wastewater treatment.
Knocking out BNIP3 in macrophages reduced adipose inflammation and improved insulin sensitivity in obese mice, revealing a new therapeutic target.
Natural polyketide from marine bacteria enhances cholesterol removal and improves fat metabolism in liver cells and mice.
Scientists identify an NADH-dependent molecular switch linking glycolysis to mitochondrial ATP synthesis, revealing a new metabolic control point.
Scientists discover breath analysis can instantly detect gut bacteria composition, opening new paths for microbiome diagnostics.
New research shows dietary methionine enhances kidney function to clear harmful inflammatory molecules from the bloodstream.
Large study reveals how gut microbe proteins shift with aging and contribute to diabetes and metabolic disorders.
New research validates high-throughput methods for studying mitochondrial dysfunction in malignant hyperthermia susceptibility.
New research reveals how glucose metabolism directly controls fat tissue expansion through a novel epigenetic pathway involving JMJD1A.
Master the advanced molecular architecture of AMPK โ from isoform-specific signaling and spatial compartmentalization to emerging pharmacological strategies targeting the energy sensor at the heart of longevity biology.
New research reveals how gut bacteria, toxic fats, and immune responses create parallel inflammatory attacks on the liver.
New research reveals how gut cells communicate with your brain to shut down appetite during infection through a two-phase signaling process.
A new ESRRA-ATG5 axis links mitochondrial recycling to arginine metabolism, and a plant polyphenol activates it to protect diabetic kidneys.
New research reveals how psoriasis increases inflammatory bowel disease risk by disrupting intestinal fat metabolism through immune cells.
New research reveals specific brain cells critical for maintaining body temperature when food is restricted, with major implications for fasting safety.
New research reveals how gut cells communicate with your brain to shut down appetite during infection through a two-phase signaling process.
Researchers found a dual-target approach that selectively destroys the most treatment-resistant form of acute myeloid leukemia.
