Articles
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Cellular & Tissue Engineering
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Physical Forces Modulate Oxidative Status and Stress Defense Meditated Metabolic Adaptation of Yeast Colonies: Spaceflight and Microgravity Simulations
Physical Forces Modulate Oxidative Status and Stress Defense Meditated Metabolic Adaptation of Yeast Colonies: Spaceflight and Microgravity Simulations
Cellular & Tissue Engineering
Abstractive Summary
Study examining physical forces modulate oxidative status and stress defense. Space travel induces significant metabolic changes, including insulin resistance, altered lipid profiles, and reduced metabolic rate. Vitamin D deficiency and gut microbiome shifts are common. These metabolic adaptations have implications for nutrition planning and long-term health maintenance during extended missions.
Extractive Summary
Study examining physical forces modulate oxidative status and stress defense. Metabolic function was substantially altered in space environments. Glucose metabolism showed insulin resistance patterns. Lipid profiles shifted with elevated triglycerides. Energy expenditure patterns changed despite controlled diet. Metabolic rate decreased by 5-10% during long missions. Vitamin D deficiency was common despite supplementation. Gut microbiome composition shifted significantly.
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Keywords
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Abstractive Keywords
metabolic, study, examining, physical, forces, modulate, oxidative, status, stress, defense
Extractive Keywords
metabolic, patterns, shifted, despite, study, examining, physical, forces, modulate, oxidative
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