线粒体生物合成

  • 网络mitochondrial biogenesis
线粒体生物合成线粒体生物合成
  1. 脂肪细胞合成、释放的一氧化氮(NitricOXide,NO)通过影响线粒体生物合成、脂肪细胞分化以及脂肪分解等,参与能量代谢的调节。

    Nitric oxide synthesized by adipocytes participates in the regulation of energy metabolism via influencing mitochondrial biogenesis , adipocyte differentiation and lipolysis .

  2. 运动可以诱导骨骼肌线粒体生物合成,从而使线粒体功能产生适应性变化。

    Exercise can cause adaptive alteration of mitochondrial biogenesis in skeletal muscle .

  3. PGC-1α对高糖状态下血管内皮细胞线粒体生物合成的调节作用

    Regulation of PGC-1 α on mitochondrial biogenesis of vascular endothelial cells in hyperglycemia

  4. 耐力训练诱导增龄大鼠骨骼肌线粒体生物合成:ROS介导的p38MAPK信号通路

    Muscular Mitochondria Biogenesis Induced by Endurance Training in Aged Rat : p38 MAPK Signaling Pathway Regulated by Reactive Oxygen Species

  5. 有氧耐力训练不仅能促进线粒体的生物合成,同时能提高线粒体的融合分裂的动态平衡。

    Endurance training is not only responsible for providing signals that effect mitochondrial biogenesis , but also for promoting the dynamics balance of mitochondrial fusion and fission .

  6. 骨骼肌运动适应的重要表现之一是线粒体的含量增加和构成改变,即“线粒体生物合成”。

    Mitochondrial content increasing was one of a important display for skeletal muscle to adaptation exercise as well as its constitute alteration , this was titled " mitochondrial biogenesis " .