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Signals Mediating Skeletal Muscle Remodeling by Activity: Regulation of exercise-induced fiber type transformation mitochondrial biogenesis and angiogenesis in skeletal muscle

机译：通过活动介导骨骼肌重塑的信号：骨骼肌中运动引起的纤维类型转化线粒体生物发生和血管生成的调节

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摘要

Skeletal muscle exhibits superb plasticity in response to changes in functional demands. Chronic increases of skeletal muscle contractile activity, such as endurance exercise, lead to a variety of physiological and biochemical adaptations in skeletal muscle, including mitochondrial biogenesis, angiogenesis, and fiber type transformation. These adaptive changes are the basis for the improvement of physical performance and other health benefits. This review focuses on recent findings in genetically engineered animal models designed to elucidate the mechanisms and functions of various signal transduction pathways and gene expression programs in exercise-induced skeletal muscle adaptations.

机译：骨骼肌根据功能需求的变化表现出极好的可塑性。骨骼肌收缩活动（例如耐力运动）的慢性增加导致骨骼肌发生多种生理和生化适应，包括线粒体的生物发生，血管生成和纤维类型转化。这些适应性变化是改善身体表现和其他健康益处的基础。这篇综述着重于基因工程动物模型中的最新发现，该模型旨在阐明运动诱发的骨骼肌适应中各种信号转导途径和基因表达程序的机制和功能。

著录项

期刊名称 Journal of Applied Physiology
作者
Zhen Yan; Mitsuharu Okutsu; Yasir N. Akhtar; Vitor A. Lira;
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作者单位

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年(卷),期 -1(110),1
年度 -1
页码 264–274
总页数 10
原文格式 PDF
正文语种
中图分类人体生理学;
关键词
endurance exercise skeletal muscle adaptation fiber type transformation angiogenesis mitochondrial biogenesis;

机译：耐力运动;骨骼肌适应;纤维类型转化;血管生成;线粒体生物发生;

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专利

1. Regulation of exercise-induced fiber type transformation, mitochondrial biogenesis, and angiogenesis in skeletal muscle. [J] . Yan Z, Okutsu M, Akhtar YN, Journal of applied physiology . 2011,第1期

机译：调节运动引起的骨骼肌纤维类型转变，线粒体生物发生和血管生成。
2. PGC-1alpha plays a functional role in exercise-induced mitochondrial biogenesis and angiogenesis but not fiber-type transformation in mouse skeletal muscle. [J] . Geng T, Li P, Okutsu American Journal of Physiology . 2010,第3aPta1期

机译：PGC-1alpha在运动诱导的线粒体生物发生和血管生成中起功能性作用，但不在小鼠骨骼肌中进行纤维类型转化。
3. Reduced carbohydrate availability enhances exercise-induced p53 signaling in human skeletal muscle: implications for mitochondrial biogenesis [J] . Jonathan D. Bartlett, Jari Louhelainen, Zafar Iqbal, American Journal of Physiology . 2013,第3aPta2期

机译：降低的碳水化合物可用性增强人体骨骼肌中运动诱导的P53信号传导：对线粒体生物的影响
4. Research on the Regulatory Factors of Skeletal Muscle Mitochondrial Biogenesis in Exercise [C] . LI Rui, WANG Zhen Proceedings of 2012 international symposium - sports innovation and development of universities and colleges . 2012

机译：运动中骨骼肌线粒体生物发生调控因子的研究
5. The regulation of skeletal muscle mass and mitochondrial biogenesis by gp130/STAT3 signaling during cancer cachexia [D] . Puppa, Melissa 2014

机译：gp130 / STAT3信号调节癌症恶病质期间骨骼肌质量和线粒体生物发生的调控
6. PGC-1α plays a functional role in exercise-induced mitochondrial biogenesis and angiogenesis but not fiber-type transformation in mouse skeletal muscle [O] . Tuoyu Geng, Ping Li, Mitsuharu Okutsu, -1

机译：PGC-1α在运动诱导的线粒体生物发生和血管生成中起功能性作用但在小鼠骨骼肌中不发挥纤维型转化作用
7. Regulation of exercise-induced fiber type transformation, mitochondrial biogenesis, and angiogenesis in skeletal muscle [O] . Yan, Zhen, Okutsu, Mitsuharu, Akhtar, Yasir N., 2010

机译：调节运动引起的骨骼肌纤维类型转变，线粒体生物发生和血管生成
8. Regulation of Skeletal Muscle Active Hyperemia: The Differential Role of Adenosine in Muscles of Varied Fiber Types. [R] . Schwartz, L. M. 1986

机译：骨骼肌活动性充血的调节：腺苷在不同纤维类型肌肉中的差异作用。

Signals Mediating Skeletal Muscle Remodeling by Activity: Regulation of exercise-induced fiber type transformation mitochondrial biogenesis and angiogenesis in skeletal muscle

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