Glutathione supplementation suppresses muscle fatigue induced by prolonged exercise via improved aerobic metabolism - Muscle fatigue - Document - PDFSEARCH.IO - Document Search Engine

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	Glutathione supplementation suppresses muscle fatigue induced by prolonged exercise via improved aerobic metabolism Add to Reading List Open Document File Size: 911,59 KB Share Result on Facebook City Carlsbad / Buckinghamshire / Kano / Osaka / Beverly / Tokyo / Kyoto / St. Louise / Temecula / / Company Applied Biosciences / 2KOHJIN Life Sciences Company Ltd. / Turcotte LP / Wilson / KOHJIN Life Sciences Company Ltd. / COX / Shimizu Laboratory Supplies / Creative Commons / GE Healthcare / Arkray Inc. / Google / / Country Japan / United States / United Kingdom / / / Facility Kyoto University / Laboratory of Health Science / Kyoto Prefectural University of Medicine / Kyoto Prefectural University / Laboratory of Food Science / Pflugers Arch / / IndustryTerm reported protocol / Cancer Treat / carbohydrate-based energy source results / reaction products / glutathione solution / food / energy / energy source / energy state / antioxidant network / energy substrate / energy metabolism / reagents/materials/analysis tools / aerobic energy metabolism / online submission / / MedicalCondition muscle fatigue / prior chronic disease / muscle acidosis / muscle weakness / fatigue / muscle contraction / obesity / human diseases / metabolic disorders / less muscle fatigue / MS / muscular acidosis / reduced exercise-induced muscle fatigue / insulin resistance / subjective fatigue / Cancer / disease / metabolic diseases / metabolic acidosis / diabetes / sarcopenia and metabolic disease / less fatigue / mitochondrial myopathies / exercise-induced fatigue / muscular fatigue / neurodegenerative diseases / deficiency / / Organization Committee for Animal Research / Kyoto Prefectural University / Japanese Council on Animal Care / Kyoto Integrated Science & Technology Bio-Analysis Center / Oral administration / Graduate School / International Society of Sports Nutrition / U.S. food and drug administration / Laboratory of Food Science / Laboratory of Health Science / Kyoto University / Kyoto / / Person Arch Physiol Biochem / Acta Physiol / Eun Young / / Position author / forward / / Product glycine / / PublishedMedium PLoS One / / Technology alpha / antibodies / Cell Signaling Technology / previously reported protocol / gel electrophoresis / / URL http / SocialTag Muscular system Antioxidants Thiols Physiology Dietary supplements Glutathione Skeletal striated muscle PPARGC1A Reactive oxygen species Biology