Add to ORKGOxidative stress may contribute to the pathology of many diseases, and endogenous thiols, especially glutathione (GSH) and its metabolites, play essential roles in the maintenance of normal redox status. Understanding how these metabolites change in response to oxidative insult can provide key insights into potential methods of prevention and treatment. Most existing methodologies focus only on the GSH/GSH disulfide (GSSG) redox couple, but GSH regulation is highly complex and depends on several pathways with multiple redox-active sulfur-containing species. In order to more fully characterize thiol redox status in response to oxidative insult, a high-performance liquid chromatography with tandem mass spectrometry (HPLC-MS/MS) method was dev...
Reactive oxygen species are free radicals capable of damaging the cellular components in a process c...
The therapeutic immunopharmacological potential of glutathione in the alveolar epithelium is not wel...
Intracellular redox balance is crucial for cell function and is primarily regulated by the relative ...
Oxidative stress may contribute to the pathology of many diseases, and endogenous thiols, especially...
Every cell is characterized by a reduction-oxidation (redox) state or redox homeostasis that is curr...
Oxidative stress is reported to be part of the pathology of many ocular diseases. For the diagnosis ...
Thiol compounds including predominantly glutathione (GSH) are key components of redox homeostasis, w...
Several diseases are associated with perturbations in redox signaling and aberrant hydrogen sulfide ...
The analysis of the global thiol-disulfide redox status in tissues and cells is a challenging task s...
Oxidative stress plays a major role in the pathology of numerous disorders afflicting humans, rangin...
Redox homeostasis is essential for cell function and its disruption is associated with multiple path...
Abstract For many years, oxidative thiol modifications in cytosolic proteins were largely disregarde...
AIM: To study the effect of thioltransferase (TTase) on oxidative stress in human lens epithelial ce...
The ocular lens has a very high content of the antioxidant glutathione (GSH) and the enzymes that ca...
Reactive oxygen species (ROS) are formed during normal respiration in the mitochondria through elect...
Reactive oxygen species are free radicals capable of damaging the cellular components in a process c...
The therapeutic immunopharmacological potential of glutathione in the alveolar epithelium is not wel...
Intracellular redox balance is crucial for cell function and is primarily regulated by the relative ...
Oxidative stress may contribute to the pathology of many diseases, and endogenous thiols, especially...
Every cell is characterized by a reduction-oxidation (redox) state or redox homeostasis that is curr...
Oxidative stress is reported to be part of the pathology of many ocular diseases. For the diagnosis ...
Thiol compounds including predominantly glutathione (GSH) are key components of redox homeostasis, w...
Several diseases are associated with perturbations in redox signaling and aberrant hydrogen sulfide ...
The analysis of the global thiol-disulfide redox status in tissues and cells is a challenging task s...
Oxidative stress plays a major role in the pathology of numerous disorders afflicting humans, rangin...
Redox homeostasis is essential for cell function and its disruption is associated with multiple path...
Abstract For many years, oxidative thiol modifications in cytosolic proteins were largely disregarde...
AIM: To study the effect of thioltransferase (TTase) on oxidative stress in human lens epithelial ce...
The ocular lens has a very high content of the antioxidant glutathione (GSH) and the enzymes that ca...
Reactive oxygen species (ROS) are formed during normal respiration in the mitochondria through elect...
Reactive oxygen species are free radicals capable of damaging the cellular components in a process c...
The therapeutic immunopharmacological potential of glutathione in the alveolar epithelium is not wel...
Intracellular redox balance is crucial for cell function and is primarily regulated by the relative ...