Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function may often play a key role in mediating an adaptive response to high altitude hypoxia. The respiratory functions of Hb are a product of the protein’s intrinsic O2-binding affinity and its interactions with allosteric effectors such as protons, chloride ions, CO2, and organic phosphates. Here we review several case studies involving high altitude vertebrates where it has been possible to identify specific mechanisms of Hb adaptation to hypoxia. In addition to comparative studies of Hbs from diverse animal species, functional studies of human Hb mutants also suggest that there is ample scope for evolutionary adjustments in Hb–O2 affinity through a...
Genetically based modifications of hemoglobin (Hb) function that increase blood–O2 affinity are hall...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Understanding the biochemical mechanisms that enable high-altitude animals to survive and function u...
Understanding the biochemical mechanisms that enable high-altitude animals to survive and function u...
In air-breathing vertebrates at high altitude, fine-tuned adjustments in hemoglobin (Hb)–O2 affinity...
To cope with the reduced availability of O2 at high altitude, air-breathing vertebrates have evolved...
An important means of physiological adaptation to environmental hypoxia is an increased oxygen (O2) ...
High-altitude environments provide ideal testing grounds for investigations of mechanism and process...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
An important means of physiological adaptation to environmental hypoxia is an increased oxygen (O2) ...
In high-altitude vertebrates, adaptive changes in blood–O2 affinity may be mediated by modifications...
Genetically based modifications of hemoglobin (Hb) function that increase blood–O2 affinity are hall...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Evidence from a number of vertebrate taxa suggests that modifications of hemoglobin (Hb) function ma...
Understanding the biochemical mechanisms that enable high-altitude animals to survive and function u...
Understanding the biochemical mechanisms that enable high-altitude animals to survive and function u...
In air-breathing vertebrates at high altitude, fine-tuned adjustments in hemoglobin (Hb)–O2 affinity...
To cope with the reduced availability of O2 at high altitude, air-breathing vertebrates have evolved...
An important means of physiological adaptation to environmental hypoxia is an increased oxygen (O2) ...
High-altitude environments provide ideal testing grounds for investigations of mechanism and process...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
An important means of physiological adaptation to environmental hypoxia is an increased oxygen (O2) ...
In high-altitude vertebrates, adaptive changes in blood–O2 affinity may be mediated by modifications...
Genetically based modifications of hemoglobin (Hb) function that increase blood–O2 affinity are hall...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
In vertebrates living at high altitude, arterial hypoxemia may be ameliorated by reversible changes ...
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