Add to ORKGSkeletal muscle contraction stimulates multiple signaling cascades that govern a variety of metabolic and transcriptional events. Akt/protein kinase B regulates metabolism and growth/muscle hypertrophy, but contraction effects on this target and its substrates are varied and may depend on the mode of the contractile stimulus. Accordingly, we determined the effects of endurance or resistance exercise on phosphorylation of Akt and downstream substrates in six trained cyclists who performed a single bout of endurance or resistance exercise separated by approximately 7 days. Muscle biopsies were taken from the vastus lateralis at rest and immediately after exercise. Akt Ser(473) phosphorylation was increased (1.8-fold; P=0.011) after endurance ...
We examined acute molecular responses in skeletal muscle to divergent exercise stimuli by combining ...
The influence of adenosine mono phosphate (AMP)-activated protein kinase (AMPK) vs Akt-mammalian tar...
Skeletal muscles adjust to the level of contractile activity by different biochemical alterations. C...
Skeletal muscle contraction stimulates multiple signaling cascades that govern a variety of metaboli...
Purpose The aim of this study was to determine the early time course of exercise-induced signaling a...
Efforts to identify exercise-induced signaling events in skeletal muscle have been influenced by gro...
We analysed the effects of resistance exercise upon the phosphorylation state of proteins associated...
Skeletal muscle from strength- and endurance-trained individuals represents diverse adaptive states....
AS160 is an Akt substrate of 160 kDa implicated in the regulation of both insulin- and contraction-m...
Exercise induces morphological and metabolic adaptations that are highly specific to the mode of exe...
The purpose of this study was to determine if site-specific phosphorylation at the level of Akt subs...
Phospholemman (PLM, FXYD1) is a partner protein and regulator of the Na+-K+-ATPase (Na+-K+ pump). We...
Phospholemman (PLM, FXYD1) is a partner protein and regulator of the Na+-K+-ATPase (Na+-K+ pump). We...
To investigate the in vivo effects of resistance exercise on translational control in human skeletal...
To investigate the in vivo effects of resistance exercise on translational control in human skeletal...
We examined acute molecular responses in skeletal muscle to divergent exercise stimuli by combining ...
The influence of adenosine mono phosphate (AMP)-activated protein kinase (AMPK) vs Akt-mammalian tar...
Skeletal muscles adjust to the level of contractile activity by different biochemical alterations. C...
Skeletal muscle contraction stimulates multiple signaling cascades that govern a variety of metaboli...
Purpose The aim of this study was to determine the early time course of exercise-induced signaling a...
Efforts to identify exercise-induced signaling events in skeletal muscle have been influenced by gro...
We analysed the effects of resistance exercise upon the phosphorylation state of proteins associated...
Skeletal muscle from strength- and endurance-trained individuals represents diverse adaptive states....
AS160 is an Akt substrate of 160 kDa implicated in the regulation of both insulin- and contraction-m...
Exercise induces morphological and metabolic adaptations that are highly specific to the mode of exe...
The purpose of this study was to determine if site-specific phosphorylation at the level of Akt subs...
Phospholemman (PLM, FXYD1) is a partner protein and regulator of the Na+-K+-ATPase (Na+-K+ pump). We...
Phospholemman (PLM, FXYD1) is a partner protein and regulator of the Na+-K+-ATPase (Na+-K+ pump). We...
To investigate the in vivo effects of resistance exercise on translational control in human skeletal...
To investigate the in vivo effects of resistance exercise on translational control in human skeletal...
We examined acute molecular responses in skeletal muscle to divergent exercise stimuli by combining ...
The influence of adenosine mono phosphate (AMP)-activated protein kinase (AMPK) vs Akt-mammalian tar...
Skeletal muscles adjust to the level of contractile activity by different biochemical alterations. C...