Molecular responses to strength and endurance training: are they incompatible?
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Aquatic exercise for the treatment of knee and hip osteoarthritisAnaerobic capacity of amateur mountain bikers during the first half of the competition seasonCirculating MicroRNAs as Potential Biomarkers of Exercise ResponseThe effect of strength training on performance in endurance athletesEffects of low level laser therapy (808 nm) on physical strength training in humans.Effects of low-level laser therapy (808 nm) on isokinetic muscle performance of young women submitted to endurance training: a randomized controlled clinical trial.The order of exercise during concurrent training for rehabilitation does not alter acute genetic expression, mitochondrial enzyme activity or improvements in muscle functionLow-level laser (light) therapy (LLLT) on muscle tissue: performance, fatigue and repair benefited by the power of light.Optimizing strength training for running and cycling endurance performance: A review.Variability in training-induced skeletal muscle adaptation.Strength training in soccer with a specific focus on highly trained players.Exercise in type 2 diabetes: to resist or to endure?High muscular fitness has a powerful protective cardiometabolic effect in adults: influence of weight status.Physical Fitness Among Swedish Military Conscripts and Long-Term Risk for Type 2 Diabetes Mellitus: A Cohort Study.Aerobic exercise augments muscle transcriptome profile of resistance exerciseA prospective study of weight training and risk of type 2 diabetes mellitus in men.Biomechanical adaptations of mice cortical bone submitted to three different exercise modalitiesGenomics and genetics in the biology of adaptation to exercise.Resistance training to improve type 2 diabetes: working toward a prescription for the future.Humanin skeletal muscle protein levels increase after resistance training in men with impaired glucose metabolism.Strategies to optimize concurrent training of strength and aerobic fitness for rowing and canoeing.Molecular genetic studies of gene identification for sarcopenia.Effect of calcium intake on fat oxidation in adults: a meta-analysis of randomized, controlled trials.Molecular mechanisms of muscle plasticity with exercise.Mitohormesis in muscle cells: a morphological, molecular, and proteomic approach.Beyond muscle hypertrophy: why dietary protein is important for endurance athletes.The effect of inter-set rest intervals on resistance exercise-induced muscle hypertrophy.The Impact of Resistance Training on Swimming Performance: A Systematic Review.Progressive resistance-loaded voluntary wheel running increases hypertrophy and differentially affects muscle protein synthesis, ribosome biogenesis, and proteolytic markers in rat muscle.The effect of concurrent training organisation in youth elite soccer players.Taurine: A Potential Ergogenic Aid for Preventing Muscle Damage and Protein Catabolism and Decreasing Oxidative Stress Produced by Endurance Exercise.Attenuated increase in maximal force of rat medial gastrocnemius muscle after concurrent peak power and endurance training.Low-intensity aerobic exercise training: inhibition of skeletal muscle atrophy in high-fat-diet-induced ovariectomized rats.Long-term effect of nutritional counselling on desired gain in body mass and lean body mass in elite athletes.Cytokine mRNA expression responses to resistance, aerobic, and concurrent exercise in sedentary middle-aged men.Betaine supplementation enhances anabolic endocrine and Akt signaling in response to acute bouts of exercise.Chronic effects of superimposed electromyostimulation during cycling on aerobic and anaerobic capacity.Nonlinear exercise training in advanced chronic obstructive pulmonary disease is superior to traditional exercise training. A randomized trial.Interpreting Adaptation to Concurrent Compared with Single-Mode Exercise Training: Some Methodological Considerations.The Combined Effects of Exercise, Diet, and a Multi-Ingredient Dietary Supplement on Body Composition and Adipokine Changes in Overweight Adults.
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P2860
Molecular responses to strength and endurance training: are they incompatible?
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Molecular responses to strength and endurance training: are they incompatible?
@en
Molecular responses to strength and endurance training: are they incompatible?
@nl
type
label
Molecular responses to strength and endurance training: are they incompatible?
@en
Molecular responses to strength and endurance training: are they incompatible?
@nl
prefLabel
Molecular responses to strength and endurance training: are they incompatible?
@en
Molecular responses to strength and endurance training: are they incompatible?
@nl
P2860
P356
P1476
Molecular responses to strength and endurance training: are they incompatible?
@en
P2860
P304
P356
10.1139/H09-023
P577
2009-06-01T00:00:00Z