Roger M Enoka
Roger M Enoka
Genetic Pathways Underlying Individual Differences in Regular Physical Activity [0.03%]
遗传通路影响个体规律体育锻炼的差异性分析
Eco J C de Geus
Eco J C de Geus
Twin and family studies show a strong contribution of genetic factors to physical activity (PA) assessed by either self-report or accelerometers. PA heritability is around 43% across the lifespan. Genome-wide association studies have implie...
Steven A Romero,Rauchelle E Richey,Holden W Hemingway
Steven A Romero
In this review, we highlight recent studies from our group and others that have characterized the cardiovascular adjustments that occur after acute heat exposure. Special emphasis will be placed on underlying mechanisms and clinical implica...
Xu Zhang,Davis A Englund,Zaira Aversa et al.
Xu Zhang et al.
We propose the beneficial effects of exercise are in part mediated through the prevention and elimination of senescent cells. Exercise counters multiple forms of age-related molecular damage that initiate the senescence program and activate...
Sebastian Ludyga,Toru Ishihara,Keita Kamijo
Sebastian Ludyga
Specific nervous system functions and the regulating roles of oxytocin have evolved because of the necessity to negotiate increasingly complex social systems. We hypothesize that acute and long-term physical activity and exercise have the p...
Translational Significance of the LINE-1 Jumping Gene in Skeletal Muscle [0.03%]
LINE-1跳转基因在骨骼肌中的转化意义
Matthew A Romero,Petey W Mumford,Paul A Roberson et al.
Matthew A Romero et al.
Retrotransposons are gene segments that proliferate in the genome, and the Long INterspersed Element 1 (LINE-1 or L1) retrotransposon is active in humans. Although older mammals show enhanced skeletal muscle L1 expression, exercise generall...
Forebrain Network Associated With Cardiovascular Control in Exercising Humans [0.03%]
与人体运动时心血管控制相关的前脑神经网络
J Kevin Shoemaker
J Kevin Shoemaker
This article describes the forebrain neurocircuitry associated with rapid heart rate response at the exercise onset with attention to ascending somatosensory information from the Type I and II afferents from the contracting muscle and poten...
Mechanisms of Exercise-Induced Cardiac Remodeling Differ Between Young and Aged Hearts [0.03%]
年轻和老年心脏运动诱导的心肌重塑机制不同
Emily E Schmitt,Benjamin D McNair,Sydney M Polson et al.
Emily E Schmitt et al.
Aging induces physiological and molecular changes in the heart that increase the risk for heart disease. Several of these changes are targetable by exercise. We hypothesize that the mechanisms by which exercise improves cardiac function in ...