Effect of exercise intensity and hypoxia on skeletal muscle AMPK signaling and substrate metabolism in humans.
about
A Molecular and Whole Body Insight of the Mechanisms Surrounding Glucose Disposal and Insulin Resistance with Hypoxic Treatment in Skeletal MuscleRenal cortical regulation of COX-1 and functionally related products in early renovascular hypertension (rat).Mining frequent patterns for AMP-activated protein kinase regulation on skeletal muscle.Effect of acute exercise on AMPK signaling in skeletal muscle of subjects with type 2 diabetes: a time-course and dose-response studyRegulation of a truncated isoform of AMP-activated protein kinase α (AMPKα) in response to hypoxia in the muscle of Pacific oyster Crassostrea gigas.Isolated quadriceps training increases maximal exercise capacity in chronic heart failure: the role of skeletal muscle convective and diffusive oxygen transportMitochondrial antioxidative capacity regulates muscle glucose uptake in the conscious mouse: effect of exercise and diet.Reduced AMPK-ACC and mTOR signaling in muscle from older men, and effect of resistance exercise.Indolent course of tubulointerstitial disease in a mouse model of subpressor, low-dose nitric oxide synthase inhibition.NAD(P)H oxidase-derived peroxide mediates elevated basal and impaired flow-induced NO production in SHR mesenteric arteries in vivoThe glucagon-like peptide-1 receptor regulates endogenous glucose production and muscle glucose uptake independent of its incretin action.Chemoproteomic analysis of intertissue and interspecies isoform diversity of AMP-activated protein kinase (AMPK).Autophagic cellular responses to physical exercise in skeletal muscle.The STARS signaling pathway: a key regulator of skeletal muscle function.Role of nitric oxide in skeletal muscle glucose uptake during exercise.Energy Flux, Lactate Shuttling, Mitochondrial Dynamics, and Hypoxia.10-Hydroxy-2-decenoic acid, a natural product, improves hyperglycemia and insulin resistance in obese/diabetic KK-Ay mice, but does not prevent obesity.Flexibility in energy metabolism supports hypoxia tolerance in Drosophila flight muscle: metabolomic and computational systems analysis.Muscle activation during exercise in severe acute hypoxia: role of absolute and relative intensity.N-Acetylcysteine infusion does not affect glucose disposal during prolonged moderate-intensity exercise in humans.Failure of hypoxia to exaggerate the metabolic stress in working muscle following short-term training.Differential attenuation of AMPK activation during acute exercise following exercise training or AICAR treatment.AMPK activation attenuates S6K1, 4E-BP1, and eEF2 signaling responses to high-frequency electrically stimulated skeletal muscle contractions.No effect of acute beetroot juice ingestion on oxygen consumption, glucose kinetics, or skeletal muscle metabolism during submaximal exercise in males.A long-term mechanistic computational model of physiological factors driving the onset of type 2 diabetes in an individual.Exercise-induced myokines in health and metabolic diseases.Skeletal muscle glucose uptake during treadmill exercise in neuronal nitric oxide synthase-μ knockout mice.Increased oxidative stress and anaerobic energy release, but blunted Thr172-AMPKα phosphorylation, in response to sprint exercise in severe acute hypoxia in humans.Nutritional Ketosis and Mitohormesis: Potential Implications for Mitochondrial Function and Human Health.The effects of endurance exercise in hypoxia on acid-base balance and potassium kinetics: a randomized crossover design in male endurance athletesCarbohydrate ingestion does not alter skeletal muscle AMPK signaling during exercise in humansHigher skeletal muscle alpha2AMPK activation and lower energy charge and fat oxidation in men than in women during submaximal exercisePhysical fitness, hormonal, and immunological responses during prolonged military field training
P2860
Q26747591-57CC46AA-F95E-456F-A9E5-F49505693031Q33247383-3274A856-9F49-4AB3-8E1B-BCA544834898Q33255717-99EAAED4-60AE-4643-8C69-78D88BF120E8Q33747784-A8E1D208-05FB-41F5-B7B4-3B977464990BQ34564741-5069F33F-0A5E-4133-A403-D387ADDFC754Q35234148-45251B5E-532A-4F97-B3C3-71CFBBBDC8A5Q36320932-9054BE3A-3A39-4400-80A1-72091B5350D3Q36781795-294450E3-16B2-4894-B529-37038A510B8AQ36877791-7C39B8D1-EF81-4893-825C-A69541647C33Q36893418-1BE53FE5-D4B1-41E7-9825-22221C70278AQ37125933-62509A6A-ED92-42E2-9B5E-A0DA3F544441Q37388819-8C725B16-4E71-4F19-A9FC-5E407FF2B409Q38189267-262E7882-75C4-4A92-AE8B-AB7660C7FCD7Q38190031-F8AD95D8-DB0F-4EA8-A9B8-824616DA0133Q38246363-828FB4B0-2127-488E-9715-119A0B646723Q38876631-93DBF8E6-DE2E-48EA-BD9F-24BAA0608934Q42281366-DC05CB07-EC69-473C-8DEF-AA8C0FFD4A58Q42801045-699A25FA-EA2C-403C-8717-1E6590E717A6Q43075142-40D4EC6B-CEAE-48FC-A6D6-AA41620ABA1DQ43121786-438792C7-C541-4405-B2E0-DECADAC9F217Q45993798-16FE163A-3433-4412-BDC4-B03FFB4D5834Q46429008-4C9F0BD7-D9AB-4373-AB99-2BB43138C3A9Q46813693-A3555EAB-8872-457B-BB02-4D4CD890D083Q48094201-317F57B2-2AFA-4E40-9E34-1B5A64CD6B06Q50000469-DFA21965-ECE3-40CC-B240-0628F4F933D7Q50915639-8D99D2E1-B5E9-4050-87FF-0A1502A4BA8BQ54205790-0B650C8E-63C6-4C44-8E99-BEF72F19C052Q54493167-999D9152-5BDA-4CD2-A4AC-CF2E4C4F473BQ54961877-815F3E96-D9AA-47BA-B58F-1F51F5ACC745Q57469600-4C33A7B2-40BA-4641-B59D-C193BA44BC13Q57545114-2D08BC8C-6D3D-4E40-A26C-6D51978D9B57Q58172137-5AD6522D-1A0B-4444-8AD7-98E178F3F219Q58763324-B7365D1D-3A8B-4C3E-8132-C8D397DC1B91
P2860
Effect of exercise intensity and hypoxia on skeletal muscle AMPK signaling and substrate metabolism in humans.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@en
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@nl
type
label
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@en
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@nl
prefLabel
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@en
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@nl
P2093
P2860
P1476
Effect of exercise intensity a ...... ubstrate metabolism in humans.
@en
P2093
C Wasuntarawat
G D Wadley
R S Lee-Young
P2860
P304
P356
10.1152/AJPENDO.00464.2005
P577
2005-11-01T00:00:00Z