Add to ORKGβ-alanine and its nutritional ergogenic action in the exercise: current evidenceThe oldest findings already show that supplementation of β-alanine causes the increase of muscle carnosine dipeptide stocks (β-alanyl-L-histidine) by 50%, which is an intramuscular pH buffering that has proven quite effective in exercise. But the latest studies have shown that chronic supplementation of β-alanine is deposited in fast fibers (type 2) between 30-100% of the slow fibers (type 1) which favors the performance of anaerobic exercises that are characterized by a high intensity and short duration. The most favored exercises with β-alanine prove to be the predominate lactic anaerobic pathway that demand a greater release of lactic acid, where the buffer s...
ARTIOLI, G. G., B. GUALANO, A. SMITH, J. STOUT, and A. H. LANCHA, JR. Role of beta-Alanine Supplemen...
β-Alanine is a nonproteogenic amino acid that combines with histidine to form a dipeptide molecule k...
Carnosine (?-alanyl-L-histidine) is an abundant compound in skeletal muscle, suggesting it plays an ...
The oldest findings already show that supplementation of βalanine causes the increase of muscle car...
Does carnosine reduce the effects of muscle acidosis during exercise?Carnosine is a dipeptide of bet...
The oldest findings already show that supplementation of β-alanine causes the increase of muscle car...
β-alanine is an amino acid that, when combined with histidine, forms the dipeptide carnosine within ...
Updates on nutritional supplementations with beta-alanine in sportsThe aim of this article was to di...
Muscle fatigue has always been of vital importance in most sports. A few possible factors have been ...
β-alanine is a commonly used supplement within the realm of athletics. Although it is produced in th...
Intense exercise induced acidosis occurs after accumulation of hydrogen ions as by-products of anaer...
Beta-alanine is a non-proteogenic amino acid limiting precursor of carnosine synthesis. The increase...
Carnosine metabolism, β-alanine supplementation and performance: an update - Part IThe physiological...
Introduction Intense exercise induced acidosis occurs from the accumulation of hydrogen ions as by-p...
Β-alanine supplementation effect in athletes, physically active and sedentaryThe aim of this article...
ARTIOLI, G. G., B. GUALANO, A. SMITH, J. STOUT, and A. H. LANCHA, JR. Role of beta-Alanine Supplemen...
β-Alanine is a nonproteogenic amino acid that combines with histidine to form a dipeptide molecule k...
Carnosine (?-alanyl-L-histidine) is an abundant compound in skeletal muscle, suggesting it plays an ...
The oldest findings already show that supplementation of βalanine causes the increase of muscle car...
Does carnosine reduce the effects of muscle acidosis during exercise?Carnosine is a dipeptide of bet...
The oldest findings already show that supplementation of β-alanine causes the increase of muscle car...
β-alanine is an amino acid that, when combined with histidine, forms the dipeptide carnosine within ...
Updates on nutritional supplementations with beta-alanine in sportsThe aim of this article was to di...
Muscle fatigue has always been of vital importance in most sports. A few possible factors have been ...
β-alanine is a commonly used supplement within the realm of athletics. Although it is produced in th...
Intense exercise induced acidosis occurs after accumulation of hydrogen ions as by-products of anaer...
Beta-alanine is a non-proteogenic amino acid limiting precursor of carnosine synthesis. The increase...
Carnosine metabolism, β-alanine supplementation and performance: an update - Part IThe physiological...
Introduction Intense exercise induced acidosis occurs from the accumulation of hydrogen ions as by-p...
Β-alanine supplementation effect in athletes, physically active and sedentaryThe aim of this article...
ARTIOLI, G. G., B. GUALANO, A. SMITH, J. STOUT, and A. H. LANCHA, JR. Role of beta-Alanine Supplemen...
β-Alanine is a nonproteogenic amino acid that combines with histidine to form a dipeptide molecule k...
Carnosine (?-alanyl-L-histidine) is an abundant compound in skeletal muscle, suggesting it plays an ...