Add to ORKGIt is well documented that regular endurance exercise induces skeletal muscle mitochondrial biogenesis. However, the optimal training stimulus and nutritional intervention for which to maximize mitochondrial adaptations to endurance exercise is not well known. Developments in molecular techniques now permit the examination of the cell signalling responses to acute exercise therefore increasing our understanding of how manipulation of the training protocol and nutrient availability may enhance the training stimulus to a given bout of exercise. The primary aim of this thesis is to therefore characterise the skeletal muscle cell signalling responses thought to regulate mitochondrial biogenesis following an acute bout of high-intensity interval...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a highly malleable tissue capable of altering its phenotype in response to extern...
It is well documented that regular endurance exercise induces skeletal muscle mitochondrial biogenes...
It is well documented that regular endurance exercise induces skeletal muscle mitochondrial biogenes...
We provide an overview of groundbreaking studies that laid the foundation for our current understand...
Mitochondrial biogenesis in skeletal muscle results from the cumulative effect of transient increase...
In recent years, advances in molecular biology have allowed scientists to elucidate how endurance ex...
Physical exercise is used, both in acute and in chronic form, as a method to investigate the mechan...
Physical exercise is used, both in acute and in chronic\ud form, as a method to investigate the mech...
Low-volume, high-intensity interval training (HIT) increases skeletal muscle mitochondrial capacity,...
KEY POINTS: Low-volume high-intensity exercise training promotes muscle mitochondrial adaptations t...
Endurance exercise, when performed regularly as part of a training program, leads to increases in wh...
Endurance exercise, when performed regularly as part of a training program, leads to increases in wh...
Vol. 40, No. 3, pp. 159Y164, 2012. Mitochondria are dynamic organelles in skeletal muscle critical i...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a highly malleable tissue capable of altering its phenotype in response to extern...
It is well documented that regular endurance exercise induces skeletal muscle mitochondrial biogenes...
It is well documented that regular endurance exercise induces skeletal muscle mitochondrial biogenes...
We provide an overview of groundbreaking studies that laid the foundation for our current understand...
Mitochondrial biogenesis in skeletal muscle results from the cumulative effect of transient increase...
In recent years, advances in molecular biology have allowed scientists to elucidate how endurance ex...
Physical exercise is used, both in acute and in chronic form, as a method to investigate the mechan...
Physical exercise is used, both in acute and in chronic\ud form, as a method to investigate the mech...
Low-volume, high-intensity interval training (HIT) increases skeletal muscle mitochondrial capacity,...
KEY POINTS: Low-volume high-intensity exercise training promotes muscle mitochondrial adaptations t...
Endurance exercise, when performed regularly as part of a training program, leads to increases in wh...
Endurance exercise, when performed regularly as part of a training program, leads to increases in wh...
Vol. 40, No. 3, pp. 159Y164, 2012. Mitochondria are dynamic organelles in skeletal muscle critical i...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a malleable tissue capable of altering the type and amount of protein in response...
Skeletal muscle is a highly malleable tissue capable of altering its phenotype in response to extern...