1) FoF1ATPase
线粒体.心脏
2) liver mitochondria
肝脏线粒体
1.
Microcaloritry study of the influence of different extract fraction from Radix ginseng on the liver mitochondria of rat;
人参不同提取部位对大鼠肝脏线粒体影响的微量热研究
2.
Aims Using the swimming model, the research focused on the effect of aerobic training on reactive oxygen species (ROS) generation rate of liver mitochondria and the effect of ROS on mitochondrial membrane permeability transition (MPT) in aging rats.
目的 :以游泳训练为有氧运动模型 ,观察运动对衰老大鼠肝脏线粒体活性氧 (ROS)产生的影响及ROS对线粒体膜通透性转换 (MPT)的作用 ,以探讨运动延缓衰老的线粒体膜分子机理。
3) pulmonary mitochondria
肺脏线粒体
1.
Methods Using different isolation mediums,rat pulmonary mitochondrial pellet was collected by differential centrifugation.
目的探讨摸索一种简便可行,用来提取肺脏线粒体的方法。
4) kidney mitochondrion
肾脏线粒体
1.
It used the method of experiment to measure the variations of kidney mitochondrion MDA,ATP synthesis ability and free calcium of SD rats in different phases.
采用实验法,测定SD大鼠不同时相肾脏线粒体MDA、ATP合成能力和游离钙的变化。
5) myocardial mitochondrion
心肌线粒体
1.
objective: The purpose of this study is to explore the effect and mechanism of Rhizoma Polygonati Red extract on myocardial mitochondrion antioxidant ability and activity of ATPase in hyper-endurance trained rats,which could be useful on its development and clinical application as a sport supplement.
目的:探讨黄精提取物对大强度耐力训练大鼠心肌线粒体抗氧化能力以及ATP酶活性的影响,为黄精作为运动补剂的开发提供试验依据。
2.
Myocardial mitochondrion were isolated by the method of differential centrif.
目的:建立离体的大鼠心肌线粒体缺氧模型,从线粒体膜的渗透性转换(MPT)和线粒体跨膜电位(Δψm)的测定来观察异丙酚(propofol)对过氧化氢(H_2O_2)所致的心肌线粒体损伤的影响。
6) Myocardial mitochondria
心肌线粒体
1.
This article studies the effect of spirulina (SA) and its complex prescription (SACP) protecting myocardial mitochondria in trained mice from the damage made by peroxidation.
实验研究螺旋藻及其复方对运动小鼠心肌线粒体过氧化损伤的保护作用。
2.
Myocardial mitochondria were prepared with differential centrifugation method.
目的:探讨心肌线粒体腺苷酸配体门控钙离子释放通道。
3.
Several studies on animal myocardial mitochondrial metabolism have shown mitochondria play critical role in the generation of oxidative products and modulation of cell death.
对于心肌线粒体代谢,目前国内外均进行了一些动物实验研究,认为线粒体在生物能量合成、生成氧化产物及细胞死亡调节方面具有关键作用,因此,线粒体一直是几种衰老学说的中心内容。
补充资料:肾细胞线粒体
[图]
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条