[HTML][HTML] Biology of HIF-1α
A Weidemann, RS Johnson - Cell Death & Differentiation, 2008 - nature.com
A Weidemann, RS Johnson
Cell Death & Differentiation, 2008•nature.comThe increase in body size of humans and other vertebrates requires a physiological
infrastructure to provide adequate delivery of oxygen to tissues and cells to maintain oxygen
homeostasis. The heart, lungs and the vasculature are all part of a highly regulated system
that ensures the distribution of the precise amount of oxygen needed throughout the
mammalian organism. Given its fundamental impact on physiology and pathology, it is no
surprise that the response of cells to a lack of oxygen, termed hypoxia, has been the focus of …
infrastructure to provide adequate delivery of oxygen to tissues and cells to maintain oxygen
homeostasis. The heart, lungs and the vasculature are all part of a highly regulated system
that ensures the distribution of the precise amount of oxygen needed throughout the
mammalian organism. Given its fundamental impact on physiology and pathology, it is no
surprise that the response of cells to a lack of oxygen, termed hypoxia, has been the focus of …
Abstract
The increase in body size of humans and other vertebrates requires a physiological infrastructure to provide adequate delivery of oxygen to tissues and cells to maintain oxygen homeostasis. The heart, lungs and the vasculature are all part of a highly regulated system that ensures the distribution of the precise amount of oxygen needed throughout the mammalian organism. Given its fundamental impact on physiology and pathology, it is no surprise that the response of cells to a lack of oxygen, termed hypoxia, has been the focus of many research groups worldwide for many decades now. The transcriptional complex hypoxia-inducible factor has emerged as a key regulator of the molecular hypoxic response, mediating a wide range of physiological and cellular mechanisms necessary to adapt to reduced oxygen.
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