Disease: cardiovascular diseases

Plant-Based Meat Analogues: Exploring Proteins, Fibers and Polyphenolic Compounds as Functional Ingredients for Future Food Solutions

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This review explores how plant-based ingredients can be used to create meat-like products that are healthier and more sustainable. By combining plant proteins, fibers, and natural compounds from fruits and vegetables, scientists are developing meat alternatives that taste and feel like real meat while offering nutritional and environmental benefits. The paper discusses which plants work best, how to extract and use these ingredients, and what challenges still need to be overcome to make these products widely available and affordable.

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Impact of a Formulation Containing Chaga Extract, Coenzyme Q10, and Alpha-Lipoic Acid on Mitochondrial Dysfunction and Oxidative Stress: NMR Metabolomic Insights into Cellular Energy

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A new supplement formula combining Chaga mushroom extract, Coenzyme Q10, and alpha-lipoic acid was tested on nerve cells in the laboratory. The formula increased the cells’ energy production and protected them from harmful oxidative stress. This could potentially help people with conditions like fibromyalgia and neurodegenerative diseases that involve mitochondrial dysfunction.

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Enhancing Nutritional Quality and Functionality of Legumes: Application of Solid-State Fermentation With Pleurotus ostreatus

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Researchers used a mushroom fungus (Pleurotus ostreatus) to ferment lentils, chickpeas, and soybeans, making them more nutritious and easier for the body to digest. The fermentation process reduced harmful compounds called antinutrients while boosting protein content and antioxidant power. This simple bioprocessing method could help create healthier plant-based foods that rival animal protein sources in nutritional quality.

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Continuous motion of particles attached to cavitation bubbles

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Researchers discovered that cavitation bubbles (tiny bubbles created by ultrasound) can push particles through liquid in a controlled manner. The bubbles expand and collapse in a way that creates a net forward push, similar to a pulse engine. This discovery could revolutionize drug delivery by allowing medications to be attached to particles and guided through the body using ultrasound, potentially improving treatments for heart disease and cancer.

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High-quality genome assembly and annotation of Porodaedalea mongolica and Porodaedalea schrenkiana provide insights into potential industrial and medical application

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Scientists sequenced the genomes of two medicinal wood-decay fungi species (Porodaedalea mongolica and P. schrenkiana) for the first time using advanced sequencing technology. These fungi produce beneficial compounds with anti-inflammatory and anticancer properties, and can degrade environmental pollutants. The detailed genetic information revealed how these fungi break down wood and create bioactive compounds, opening new possibilities for medical treatments and industrial applications like environmental cleanup.

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Composition and Biodiversity of Culturable Endophytic Fungi in the Roots of Alpine Medicinal Plants in Xinjiang, China

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Scientists studied special fungi that live inside the roots of two rare alpine medicinal plants found in China’s high mountains. They discovered that these plants host over 400 different types of fungi, including a special type called dark septate fungi that make up about half of all the fungi found. Different plant species and different mountain locations had different combinations of fungi, suggesting these fungi help the plants survive in the harsh, cold mountain environment.

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Epigenome-wide association study of BMI and waist-to-hip ratio and their associations with dietary patterns in Korean adults

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This research examined how different types of obesity (overall body weight versus belly fat) are associated with changes in DNA methylation patterns in Korean adults. The study found that certain DNA regions become less methylated in obese individuals, and that these epigenetic changes are linked to different dietary patterns. The findings suggest that specific foods may influence these epigenetic modifications differently depending on whether someone has overall obesity or more belly fat, opening new possibilities for using diet to prevent or manage obesity.

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