A strong focus of ecological research for several decades has been to understand the factors underlying the variation in animal life-histories. In recent times, ecological studies have begun to show that oxidative str...A strong focus of ecological research for several decades has been to understand the factors underlying the variation in animal life-histories. In recent times, ecological studies have begun to show that oxidative stress may represent another important modulator of competitive trade-offs among fitness traits or of positively integrated patterns of traits. Therefore, incorporating mechanisms underlying oxidative physiology into evolutionary ecology has the potential to help understand variation in life-history strategies. In this review, I provide a general overview of oxidative stress physiology, and subsequently focus on topics that have been neglected in previous ecological reviews on oxidative stress. Specifically, I introduce and discuss the adaptations that animals have evolved to cope with oxidative stress; the environmental stressors that can generate changes in oxidative balance; the role of reactive species in transduction of environmental stimuli and cell signaling; and the range of hormetic responses to oxidative stress [Current Zoology 56 (6): 687-702, 2010].展开更多
The uterus is an indispensable organ for the development of a new life in eutherian mammals.The female mammalian reproductive capacity diminishes with age.In this respect,the senescence of uterine endometrium is convi...The uterus is an indispensable organ for the development of a new life in eutherian mammals.The female mammalian reproductive capacity diminishes with age.In this respect,the senescence of uterine endometrium is convinced to contribute to this failure.This review focuses on the physiological function of the uterus and the related influence of aging mainly in rodent models.A better understanding of the underlying mechanisms governing the process of uterine aging is hoped to generate new strategies to prolong the reproductive lifespan in humans.展开更多
基金supported by a postdoctoral NERC research fellowship (NE/G013888/1)
文摘A strong focus of ecological research for several decades has been to understand the factors underlying the variation in animal life-histories. In recent times, ecological studies have begun to show that oxidative stress may represent another important modulator of competitive trade-offs among fitness traits or of positively integrated patterns of traits. Therefore, incorporating mechanisms underlying oxidative physiology into evolutionary ecology has the potential to help understand variation in life-history strategies. In this review, I provide a general overview of oxidative stress physiology, and subsequently focus on topics that have been neglected in previous ecological reviews on oxidative stress. Specifically, I introduce and discuss the adaptations that animals have evolved to cope with oxidative stress; the environmental stressors that can generate changes in oxidative balance; the role of reactive species in transduction of environmental stimuli and cell signaling; and the range of hormetic responses to oxidative stress [Current Zoology 56 (6): 687-702, 2010].
基金supported by the National Basic Research Program of China (Grant Nos. 2011CB944401 and 2010CB945002)the National Natural Science Foundation of China(Grant Nos. 30825015 and 81130009)
文摘The uterus is an indispensable organ for the development of a new life in eutherian mammals.The female mammalian reproductive capacity diminishes with age.In this respect,the senescence of uterine endometrium is convinced to contribute to this failure.This review focuses on the physiological function of the uterus and the related influence of aging mainly in rodent models.A better understanding of the underlying mechanisms governing the process of uterine aging is hoped to generate new strategies to prolong the reproductive lifespan in humans.
