线粒体药物:线粒体代谢,疾病预防,诊断,治疗。
Mitochondrial Medicine: Mitochondrial Metabolism, Diseases, Diagnosis and Therapy.
线粒体是动物细胞的能量来源,把氧和一种葡萄糖代谢产物转换成三磷酸腺苷(ATP),ATP是用来存储化学能量的一种细胞内化合物。
Mitochondria are the powerhouses of animal cells, converting oxygen and a metabolic product of glucose into ATP, a molecule that cells use to store chemical energy.
纤维类型取决于它们所含的肌球蛋白重链和它们的代谢能力,其所含产能线粒体的数量大大决定了其特征。
The fiber types are defined by which "myosin heavy chains" (MHCs) they contain and by their metabolic capacity, a feature largely determined by the number of energy-producing mitochondria they house.
这些结果说明线粒体能量代谢障碍是缺血再灌注损伤的始动环节,而氧自由基是造成损伤的主要因素。
These results showed that the energy metabolism dysfunction was the initial stage, and the damage of oxygen free radicals was the major factor in ischemia-reperfusion injury.
用来对付移植的线粒体的生化反应可能调和了动物的新陈代谢,增加了它们的健康。
The biochemical cost of coping with mismatched mitochondria might, therefore, be tempering the animals' metabolisms in ways that improve their overall health.
目前,有关钙离子代谢与运动性肌肉疲劳的研究十分活跃,但都是从线粒体、肌浆网单方面因素考虑的。
Nowadays researches are very active on calcium ion metabolism and exercise fatigue, but most of them are concentrated only on mitochondria or sarcoplasmic reticulum.
线粒体在能量代谢、自由基产生、衰老、细胞凋亡中起重要作用。
Mitochondria play an important role in energy metabolism, free radical production, aging and cell apoptosis.
结论三七皂甙可以有效地改善氧化损伤型类ad大鼠脑能量代谢及线粒体功能,提示其可用于AD的治疗。
Conclusion PNS can improve brain energy metabolism and mitochondrial function of oxidative damaged rats, suggesting that PNS could be used for the treatment of AD.
《国际糖尿病》:血糖控制在线粒体水平改善代谢记忆方面有何作用?有没有针对这方面的治疗方法?
International Diabetes: What is the role of glycemic control in improving metabolic memory in the mitochondrial level and are there any therapeutic options targeting this area?
肝脏是参与脂代谢的重要器官,又是线粒体最丰富的组织。
Liver is an important organ participating in lipid metabolism, and is richest in mitochondria as well.
目的:探讨缺氧大鼠脑线粒体能量代谢的特点。
AIM: to explore the characteristics of energy metabolism in brain mitochondria of rats exposed to acute and chronic hypoxia.
目的:观察异丙酚对缺血再灌注损伤大鼠海马线粒体能量代谢、ATP酶活性、脂质过氧化及超微结构的影响。
AIM: to investigate the effects of propofol on the ATP content, ATPase activity, lipid peroxidation and ultrastructure in hippocampus mitochondrial in rats following global ischemia-reperfusion.
线粒体是负责能量代谢的细胞结构。
Mitochondria are the cellular structures responsible for energy metabolism.
目的探讨16二磷酸果糖(FDP)干预治疗新生鼠缺氧缺血性脑损伤(HIBD)后脑神经细胞线粒体形态学变化及对能量代谢的影响。
Objective to study the morphologic changes of mitochondria and metabolic protective effect of fructose 1 6 diphosphate (FDP) intervention in newborn rats with hypoxic ischemic brain damage (HIBD).
你如何确定加入到分离线粒体悬浮液中的葡萄糖代谢成为CO2和H2O ?
How can you determine whether glucose added to a suspension of isolated mitochondria is metabolized to CO2 and H2O?
线粒体在细胞能量代谢,氧自由基生成和细胞凋亡中发挥重要作用。
Mitochondria play important roles in cellular energy metabolism, free radical generation and apoptosis.
在另一方面,线粒体功能障碍可导致许多神经退行性条件,以及代谢性疾病,如糖尿病。
On the other hand, mitochondrial dysfunction can lead to many neurodegenerative conditions as well as metabolic diseases such as diabetes.
一个有效的抗氧化剂网络系统对于维持细胞的功能是很必要的,尤其是在叶绿体和线粒体的新陈代谢中。
An efficient antioxidant network is essential for the maintenance of cell functions, particularly in the context of mitochondrial and chloroplast metabolism.
线粒体是真核生物能量和代谢的中心,也是在细胞凋亡、信号转导中起关键调节作用的细胞器。
Cytomicrosome is the center of energy and metabolism of eukaryon. It is also a cellular organ with the critical adjusting function in processes of apoptosis signal.
利用L KB 2 2 77生物活性检测系统,测定了家鸡两个品种的心脏和肝脏线粒体的活性及其代谢热。
The metabolic thermograms and activity of mitochondria from the heart and liver of two varieties of the chicken have been determined by using a LKB2277 bioactivity monitor.
目的:探讨缺氧大鼠心肌线粒体呼吸功能和心肌能量代谢的变化。
Objective: To determine the changes of myocardial energy metabolism in hypoxic rats.
结论:银杏叶提取物能够通过保护肺组织细胞线粒体膜结构完整性来降低线粒体损伤程度,维持细胞正常的能量代谢。
CONCLUSION: EGb can decrease the injured degree of mitochondria and maintain lung cells energy metabolism by protecting the integrality of mitochondria membrane.
它延续到每个细胞,他们在那里产生AT P的代谢,是身体的首要能源燃料线粒体脂肪酸。
It carries fatty acids into the mitochondria of each cell, where they are metabolized to produce ATP, the body's prime energy fuel.
寄生虫为适应不同的生存条件进化了一套自己的方式,包括线粒体基因组成、基因表达和能量代谢方式。
Parasites have evolved their own metabolic pathways for survival, including a great diversity of gene structure, organization and expression of machineries.
正常细胞线粒体在分子、生化、代谢和遗传水平上明显区别于癌细胞。
Several distinct differences between the mitochondria of normal cells and cancer cells have been observed at the molecular, biochemical, metabolic and genetic levels.
正常细胞线粒体在分子、生化、代谢和遗传水平上明显区别于癌细胞。
Several distinct differences between the mitochondria of normal cells and cancer cells have been observed at the molecular, biochemical, metabolic and genetic levels.
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