Pages that link to "Q85370035"
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The following pages link to Sprint interval and traditional endurance training increase net intramuscular triglyceride breakdown and expression of perilipin 2 and 5 (Q85370035):
Displaying 50 items.
- Autophagy-associated atrophy and metabolic remodeling of the mouse diaphragm after short-term intermittent hypoxia (Q27303729) (← links)
- The Flexibility of Ectopic Lipids (Q28076063) (← links)
- Skeletal muscle PLIN3 and PLIN5 are serine phosphorylated at rest and following lipolysis during adrenergic or contractile stimulation (Q29347121) (← links)
- An evaluation of low volume high-intensity intermittent training (HIIT) for health risk reduction in overweight and obese men (Q33576846) (← links)
- Fibre-specific responses to endurance and low volume high intensity interval training: striking similarities in acute and chronic adaptation (Q33716962) (← links)
- Effects of low-volume high-intensity interval training (HIT) on fitness in adults: a meta-analysis of controlled and non-controlled trials (Q33813269) (← links)
- Cellular localization and associations of the major lipolytic proteins in human skeletal muscle at rest and during exercise. (Q33940301) (← links)
- Quantitative immunofluorescence microscopy of subcellular GLUT4 distribution in human skeletal muscle: effects of endurance and sprint interval training. (Q34297387) (← links)
- Effectiveness of High-Intensity Interval Training (HIT) and Continuous Endurance Training for VO2max Improvements: A Systematic Review and Meta-Analysis of Controlled Trials. (Q34488279) (← links)
- Research into the Health Benefits of Sprint Interval Training Should Focus on Protocols with Fewer and Shorter Sprints. (Q34554982) (← links)
- Higher PLIN5 but not PLIN3 content in isolated skeletal muscle mitochondria following acute in vivo contraction in rat hindlimb (Q34622866) (← links)
- Subsarcolemmal lipid droplet responses to a combined endurance and strength exercise intervention (Q34631881) (← links)
- Increased Plin2 expression in human skeletal muscle is associated with sarcopenia and muscle weakness (Q34974245) (← links)
- Low-Volume High-Intensity Interval Training in a Gym Setting Improves Cardio-Metabolic and Psychological Health (Q35786707) (← links)
- Perilipin 5-Driven Lipid Droplet Accumulation in Skeletal Muscle Stimulates the Expression of Fibroblast Growth Factor 21 (Q35881713) (← links)
- Twelve Weeks of Sprint Interval Training Improves Indices of Cardiometabolic Health Similar to Traditional Endurance Training despite a Five-Fold Lower Exercise Volume and Time Commitment (Q35999245) (← links)
- Perilipin 4 in human skeletal muscle: localization and effect of physical activity (Q36036424) (← links)
- Adipose tissue depot specific differences of PLIN protein content in endurance trained rats (Q37028520) (← links)
- Total daily energy expenditure is increased following a single bout of sprint interval training (Q37344193) (← links)
- Sex differences in the effects of 12 weeks sprint interval training on body fat mass and the rates of fatty acid oxidation and VO2max during exercise (Q37425531) (← links)
- Perilipin 5 fine-tunes lipid oxidation to metabolic demand and protects against lipotoxicity in skeletal muscle. (Q37476109) (← links)
- The effect of different training modes on skeletal muscle microvascular density and endothelial enzymes controlling NO availability. (Q38391118) (← links)
- High-Intensity Interval Exercise and Postprandial Triacylglycerol (Q38410458) (← links)
- Immunofluorescence microscopy of SNAP23 in human skeletal muscle reveals colocalization with plasma membrane, lipid droplets, and mitochondria. (Q38565133) (← links)
- The Effect of Exercise Training on the Energetic Cost of Cycling (Q38587474) (← links)
- Physiological adaptations to interval training and the role of exercise intensity (Q38982599) (← links)
- Physiological and molecular responses to an acute bout of reduced-exertion high-intensity interval training (REHIT). (Q40756469) (← links)
- A maternal high fat diet has long-lasting effects on skeletal muscle lipid and PLIN protein content in rat offspring at young adulthood (Q41634933) (← links)
- Unchanged content of oxidative enzymes in fast-twitch muscle fibers and V˙O2 kinetics after intensified training in trained cyclists. (Q42933251) (← links)
- HSL and ATGL: the movers and shakers of muscle lipolysis. (Q43899155) (← links)
- The impact of high-intensity intermittent exercise on resting metabolic rate in healthy males. (Q46014281) (← links)
- Changes in fat oxidation in response to various regimes of high intensity interval training (HIIT). (Q46934776) (← links)
- Dissociation of intramyocellular lipid storage and insulin resistance in trained athletes and type 2 diabetes patients; involvement of perilipin 5? (Q47375014) (← links)
- Effect of acute physiological free fatty acid elevation in the context of hyperinsulinemia on fiber type-specific IMCL accumulation (Q47384660) (← links)
- Using PLIN proteins to explain the athlete's paradox. (Q47755662) (← links)
- Lipid droplet remodelling and reduced muscle ceramides following sprint interval and moderate-intensity continuous exercise training in obese males. (Q47824006) (← links)
- Under the microscope: insights into limb-specific lipid droplet metabolism. (Q48268928) (← links)
- Training alters the distribution of perilipin proteins in muscle following acute free fatty acid exposure (Q48352942) (← links)
- Can We Draw General Conclusions from Interval Training Studies? (Q52314613) (← links)
- Hormone-sensitive lipase preferentially redistributes to lipid droplets associated with perilipin-5 in human skeletal muscle during moderate-intensity exercise. (Q52661454) (← links)
- Inflammatory and Metabolic Responses to Different Resistance Training on Chronic Obstructive Pulmonary Disease: A Randomized Control Trial. (Q53697380) (← links)
- Skeletal muscle fiber-type-specific changes in markers of capillary and mitochondrial content after low-volume interval training in overweight women. (Q55118169) (← links)
- Simvastatin-Induced Insulin Resistance May Be Linked to Decreased Lipid Uptake and Lipid Synthesis in Human Skeletal Muscle: the LIFESTAT Study (Q57112607) (← links)
- High-intensity interval training changes mitochondrial respiratory capacity differently in adipose tissue and skeletal muscle (Q58735222) (← links)
- Distinct lipid droplet characteristics and distribution unmask the apparent contradiction of the athlete's paradox (Q58766419) (← links)
- Effects of immobilization and aerobic training on proteins related to intramuscular substrate storage and metabolism in young and older men (Q62083186) (← links)
- Sprint interval and endurance training are equally effective in increasing muscle microvascular density and eNOS content in sedentary males (Q84930284) (← links)
- Reducing the volume of sprint interval training does not diminish maximal and submaximal performance gains in healthy men (Q87501472) (← links)
- Roles of Perilipins in Diseases and Cancers (Q88654483) (← links)
- Decreased Aerobic Exercise Capacity After Long-Term Remission From Cushing Syndrome: Exploration of Mechanisms (Q92135740) (← links)