Abstract
Appointing physiological function to specific genetic determinants requires a systems physiologist to consider ways of assessing precise phenotypic mechanisms. The integration of ventilation, metabolism and thermoregulation, for example, is very complex and may differ among small and large mammalian species. This challenge is particularly applicable to the study of short- and long-term adaptation of these systems to hypoxic exposure associated with high altitude. Our laboratory has initiated a research effort to dissect the complexity of hypoxic adaptation using traditional quantitative genetic analysis and contemporary DNA genotyping techniques. Although the current evidence in murine models demonstrates that specific genes influence control of hypoxic ventilatory responses (HVR), the relevance of these determinants to human adaptation to altitude remains open to exploration. Our review discusses the progress and uncertainties associated with assigning a genetic basis to variation in acute and chronic HVR.
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