therapeutic action: Vasodilation

Emerging paradigms for target discovery of traditional medicines: A genome-wide pan-GPCR perspective

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Traditional medicines from plants, animals, and fungi contain chemical compounds that can interact with specific proteins in our cells called G protein-coupled receptors (GPCRs). These receptors control many important body functions and are targeted by about one-third of all FDA-approved medications. This review explains how scientists are discovering new therapeutic compounds from traditional medicines by systematically screening them against the complete library of human GPCRs, using advanced techniques to identify which compounds bind to which receptors. Famous examples include morphine from poppies for pain relief and compounds from ginseng that help regulate blood sugar.

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Comparative Metabolite Profiling Between Cordyceps sinensis and Other Cordyceps by Untargeted UHPLC-MS/MS

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This research compares the chemical compounds found in authentic Cordyceps sinensis with four similar but different Cordyceps species to identify which ones are real. Using advanced laboratory techniques, scientists detected thousands of chemical differences between the species. They found that genuine C. sinensis contains higher levels of specific beneficial compounds like nucleosides and certain fatty acids. These findings help consumers and merchants distinguish authentic Cordyceps from counterfeit products and lower-quality substitutes.

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Dietary Phytochemicals in Cardiovascular Disease Prevention and Management: A Comprehensive Review

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This review examines how plant-based compounds called phytochemicals can help prevent and manage heart disease. These compounds, found in foods like berries, nuts, tea, garlic, and whole grains, work through multiple mechanisms including reducing inflammation, lowering cholesterol, and improving blood vessel function. The review highlights that while pharmaceutical treatments exist, dietary approaches using phytochemical-rich foods offer a cost-effective and sustainable way to support heart health.

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A Systematic Review on Important Risk Factors and Possible Involved Mechanisms of Medicinal Plants on Nonalcoholic Fatty Liver Disease

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This comprehensive review examined 43 medicinal plants that can help prevent and treat fatty liver disease (NAFLD), which is increasingly common in developed countries. Most of these plants work by reducing cholesterol and triglycerides, helping with weight management, improving blood sugar control, and lowering blood pressure. The plants contain natural compounds like flavonoids and polyphenols that reduce inflammation and oxidative stress in the liver. Using these herbal supplements alongside other lifestyle changes may offer a promising natural approach to managing NAFLD and its related conditions.

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Optimisation and Characterisation of Novel Angiotensin-Converting Enzyme Inhibitory Peptides Prepared by Double Enzymatic Hydrolysis from Agaricus bisporus Scraps

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Scientists discovered three new peptides in common button mushroom scraps that can lower blood pressure by blocking an enzyme called ACE. Using special enzymes to break down mushroom proteins and then purifying the result, they created peptides with strong blood pressure-lowering activity that survive stomach digestion well. This finding turns mushroom waste into a valuable source for making natural blood pressure medications that are safer than synthetic alternatives.

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