Add to ORKGThis study addresses the mechanisms of oxygen-induced regulation of ion transport pathways in mouse erythrocyte, specifically focusing on the role of cellular redox state and ATP levels. Mouse erythrocytes possess Na+/K+ pump, K+-Cl− and Na+-K+-2Cl− cotransporters that have been shown to be potential targets of oxygen. The activity of neither cotransporter changed in response to hypoxia-reoxygenation. In contrast, the Na+/K+ pump responded to hypoxic treatment with reversible inhibition. Hypoxia-induced inhibition was abolished in Na+-loaded cells, revealing no effect of O2 on the maximal operation rate of the pump. Notably, the inhibitory effect of hypoxia was not followed by changes in cellular ATP levels. Hypoxic exposure did, however, l...
A drop in oxygen partial pressure results in elevation of blood vessel diameter. It has been demonst...
Carotid body glomus cells release transmitters in response to hypoxia due to the increase of excitab...
Fast changes in environmental oxygen availability translate into shifts in mitochondrial free radica...
This study addresses the mechanisms of oxygen-induced regulation of ion transport pathways in mouse ...
This study addresses the mechanisms of oxygen-induced regulation of ion transport pathways in mouse ...
The present contribution reviews current knowledge of apparently oxygen-dependent ion transport in e...
Band 3, the major protein of the human erythrocyte membrane, associates with multiple metabolic, ion...
Background/Aims: ATP release from erythrocyte plays a key role in hypoxia-induced elevation of blood...
Control over the Na,K-ATPase function plays a central role in adaptation of the organisms to hypoxic...
Redox signaling has emerged as a unifying theme in many seemingly disparate disciplines. Such signal...
Producción CientíficaLowoxygen sensing in chemoreceptor cells involves the inhibition of specific pl...
The model of "chemical hypoxia" with KCN plus iodoacetic acid mimics the ATP depletion and reductive...
Erythrocytes are responsible for ensuring a sufficient supply of oxygen to meet activity demands. Th...
The model of "chemical hypoxia" with KCN plus iodoacetic acid mimics the ATP depletion and reductive...
Red blood cells are involved not only in transportation of oxygen and carbon dioxide but also in aut...
A drop in oxygen partial pressure results in elevation of blood vessel diameter. It has been demonst...
Carotid body glomus cells release transmitters in response to hypoxia due to the increase of excitab...
Fast changes in environmental oxygen availability translate into shifts in mitochondrial free radica...
This study addresses the mechanisms of oxygen-induced regulation of ion transport pathways in mouse ...
This study addresses the mechanisms of oxygen-induced regulation of ion transport pathways in mouse ...
The present contribution reviews current knowledge of apparently oxygen-dependent ion transport in e...
Band 3, the major protein of the human erythrocyte membrane, associates with multiple metabolic, ion...
Background/Aims: ATP release from erythrocyte plays a key role in hypoxia-induced elevation of blood...
Control over the Na,K-ATPase function plays a central role in adaptation of the organisms to hypoxic...
Redox signaling has emerged as a unifying theme in many seemingly disparate disciplines. Such signal...
Producción CientíficaLowoxygen sensing in chemoreceptor cells involves the inhibition of specific pl...
The model of "chemical hypoxia" with KCN plus iodoacetic acid mimics the ATP depletion and reductive...
Erythrocytes are responsible for ensuring a sufficient supply of oxygen to meet activity demands. Th...
The model of "chemical hypoxia" with KCN plus iodoacetic acid mimics the ATP depletion and reductive...
Red blood cells are involved not only in transportation of oxygen and carbon dioxide but also in aut...
A drop in oxygen partial pressure results in elevation of blood vessel diameter. It has been demonst...
Carotid body glomus cells release transmitters in response to hypoxia due to the increase of excitab...
Fast changes in environmental oxygen availability translate into shifts in mitochondrial free radica...