Add to ORKGStrenuous physical exercise generates intracellular free radicals which may impair the pro-oxidant to antioxidant balance thus resulting in an oxidative stress which led to cell biomolecules damage. In this paper a survey of the main antioxidant enzyme systems involved in the sport activity is presented. We will focus on the molecular and functional properties of the major antioxidant enzymes and on their involvement in physical sport activity and muscle contraction, In particular, superoxide dismutase, catalase, as well as the enzymes involved in glutathione level homeostasis and the thioredoxin system will be approached
To better clarify the relationship between physical activity and oxidative stress, we determined the...
During physical exercise skeletal muscle cells are continuosly exposed to oxidative stress. Thus, th...
We have determined the differences of the influence of prolonged exercise or higher intensity lactac...
Exercise appears to increase reactive oxygen species (ROS), which can result in damage to cells. Pot...
Physiological levels of reactive oxygen species, as an essential part of the homeostatic milieu, are...
Oxidative stress, which occurs as a result of physical exercise, has been intensively investigated i...
The cells continuously produce free radicals and reactive oxygen species as a part of metabolic proc...
The aim of this article is a presentation of current knowledge regarding the changes of plasma antio...
The role of reactive oxygen species and antioxidant response in training adaptations and sports perf...
Recent research highlights the importance of redox signalling pathway activation by contraction-indu...
The activity levels of superoxide dismutase (SOD, EC 1.15.1.1), Catalase (EC 1.11.1.6) and status of...
This paper provides a brief overview of some the most accepted scientific findings from the field of...
Unaccustomed and/or exhaustive exercise generates excessive free radicals and reactive oxygen and ni...
Strenuous exercise leads to an increase in metabolic rate, increased production of reactive oxygen s...
Exercise is one of the factors that stimulate the aerobic metabolism, leading to an increased genera...
To better clarify the relationship between physical activity and oxidative stress, we determined the...
During physical exercise skeletal muscle cells are continuosly exposed to oxidative stress. Thus, th...
We have determined the differences of the influence of prolonged exercise or higher intensity lactac...
Exercise appears to increase reactive oxygen species (ROS), which can result in damage to cells. Pot...
Physiological levels of reactive oxygen species, as an essential part of the homeostatic milieu, are...
Oxidative stress, which occurs as a result of physical exercise, has been intensively investigated i...
The cells continuously produce free radicals and reactive oxygen species as a part of metabolic proc...
The aim of this article is a presentation of current knowledge regarding the changes of plasma antio...
The role of reactive oxygen species and antioxidant response in training adaptations and sports perf...
Recent research highlights the importance of redox signalling pathway activation by contraction-indu...
The activity levels of superoxide dismutase (SOD, EC 1.15.1.1), Catalase (EC 1.11.1.6) and status of...
This paper provides a brief overview of some the most accepted scientific findings from the field of...
Unaccustomed and/or exhaustive exercise generates excessive free radicals and reactive oxygen and ni...
Strenuous exercise leads to an increase in metabolic rate, increased production of reactive oxygen s...
Exercise is one of the factors that stimulate the aerobic metabolism, leading to an increased genera...
To better clarify the relationship between physical activity and oxidative stress, we determined the...
During physical exercise skeletal muscle cells are continuosly exposed to oxidative stress. Thus, th...
We have determined the differences of the influence of prolonged exercise or higher intensity lactac...