Add to ORKGReactive oxygen species are not only harmful agents that cause oxidative damage in pathologies, they also have important roles as regulatory agents in a range of biological phenomena. The relatively recent development of this more nuanced view presents a challenge to the biomedical research community on how best to assess the significance of reactive oxygen species and oxidative damage in biological systems. Considerable progress is being made in addressing these issues, and here we survey some recent developments for those contemplating research in this area
Evidences indicate that many physiological and pathological conditions such as ageing, inflammation,...
The development of hypothesis of oxidative stress in the 1980s stimulated the interest of biological...
‘Reactive oxygen species’ (ROS) is a generic term that defines a wide variety of oxidant molecules w...
Reactive oxygen species are not only harmful agents that cause oxidative damage in pathologies, they...
SummaryReactive oxygen species are not only harmful agents that cause oxidative damage in pathologie...
Increases in reactive oxygen species (ROS) and tissue evidence of oxidative injury are common in pat...
Findings about involvement of reactive oxygen species (ROS) not only in defense processes, but also ...
Oxygen represents only 20% of the Earth's atmosphere, yet it is vital for the survival of aerobic or...
Reactive oxygen species (ROS) such as O2–, H2O2 and OH are highly toxic to cells. Cellular antioxida...
Oxygen has a central role in the evolution of complex life on Earth mainly because of the biochemica...
Reactive species are highly-reactive enzymatically, or non-enzymatically produced compounds with imp...
Since the discovery of free radicals in biological systems researchers have been highly interested i...
Upon reaction with electrons, oxygen is transformed into reactive oxygen species (ROS). It has long ...
Upon reaction with electrons, oxygen is transformed into reactive oxygen species (ROS). It has long ...
The diatomic molecule of oxygen contains two uncoupled electrons and can therefore undergo reduction...
Evidences indicate that many physiological and pathological conditions such as ageing, inflammation,...
The development of hypothesis of oxidative stress in the 1980s stimulated the interest of biological...
‘Reactive oxygen species’ (ROS) is a generic term that defines a wide variety of oxidant molecules w...
Reactive oxygen species are not only harmful agents that cause oxidative damage in pathologies, they...
SummaryReactive oxygen species are not only harmful agents that cause oxidative damage in pathologie...
Increases in reactive oxygen species (ROS) and tissue evidence of oxidative injury are common in pat...
Findings about involvement of reactive oxygen species (ROS) not only in defense processes, but also ...
Oxygen represents only 20% of the Earth's atmosphere, yet it is vital for the survival of aerobic or...
Reactive oxygen species (ROS) such as O2–, H2O2 and OH are highly toxic to cells. Cellular antioxida...
Oxygen has a central role in the evolution of complex life on Earth mainly because of the biochemica...
Reactive species are highly-reactive enzymatically, or non-enzymatically produced compounds with imp...
Since the discovery of free radicals in biological systems researchers have been highly interested i...
Upon reaction with electrons, oxygen is transformed into reactive oxygen species (ROS). It has long ...
Upon reaction with electrons, oxygen is transformed into reactive oxygen species (ROS). It has long ...
The diatomic molecule of oxygen contains two uncoupled electrons and can therefore undergo reduction...
Evidences indicate that many physiological and pathological conditions such as ageing, inflammation,...
The development of hypothesis of oxidative stress in the 1980s stimulated the interest of biological...
‘Reactive oxygen species’ (ROS) is a generic term that defines a wide variety of oxidant molecules w...