尿苷刺激线粒体中的化学反应和可能推动细胞交流,控制情绪和其他心理过程。
And uridine fuels chemical reactions in mitochondria and may boost the cellular communications that control mood and other mental processes.
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.
他们确定了从线粒体基因组提取的一个368碱基对片段的化学结构序列,并且把它与古代犬以及现代犬、狼和郊狼的序列进行了比较。
They sequenced a 368 base pair fragment from the mitochrondrial genome and then compared it to sequences from ancient dogs, as well as to sequences from modern dogs, wolves, and coyotes.
它们似乎拥有一种类似氢化酶体的细胞器。氢化酶和线粒体相像,但利用无氧化学工作。
Instead, they seem to have organelles that resemble hydrogenosomes-similar to mitochondria, but that use anaerobic chemistry.
而且,从生物的角度来看,棕色脂肪是非常低效的脂肪,因为细胞需要热量运行;相反,它们利用三磷酸腺苷——线粒体产生的另一种化学品。
From a biological perspective, also, brown fat is highly inefficient, since cells don't need heat to run; rather, they use ATP, another chemical produced by mitochondria.
自闭症儿童的线粒体还释放一些富氧化学物质,例如过氧化氢。
The mitochondria of the autistic children also leaked damaging oxygen-rich chemicals such as hydrogen peroxide.
线粒体可将脂肪与碳水化合物的化学能转化为细胞的其余部分需要时可以利用的能源形式。
Mitochondria convert the chemical energy of carbohydrates and fats into energy forms which the rest of the cell can use when needed.
线粒体是细胞内进行呼吸化学的一部机器。
The mitochondrion is a machine within the cell that does the chemistry of breathing.
线粒体是细胞的“权力之家”,但也被视为产生与衰老有关的有害化学物质。
Mitochondria are the "power houses" of cells, but have also been seen to generate harmful chemicals linked with aging.
这种药物作用于线粒体,它是细胞能量的来源,为我们的身体提供化学能量。
The drugs target mitochondria, the cellular power generators that provide our bodies with chemical energy.
研究了桃叶珊瑚甙对化学体系中产生的自由基的清除作用以及桃叶珊瑚甙对组织匀浆、线粒体、微粒体氧化损伤的保护作用。
To study the ability of aucubin to scavenge free radical and the protective effect of aucubin on tissue homogenate, mitochondria and microsome attacked by gree radical in vitro.
方法应用组织化学及电镜技术,通过计算机图像分析系统对海马神经元及其线粒体结构进行形态计量分析。
Methods By histochemistry and electron microscopy, morphometric quantitative study of neurons and mitochondria of hippocampus was investigated with true color medical image analysis system.
组织化学及超微结构观察表明,模型组sdh活性下降,ACP活性增高,线粒体明显肿胀、变性、脊断裂。
According to the observation of histochemistry and ultrastructure, it showed that SDH activity decreased, ACP activity increased, the mitochondrion swelled and became deformed, crest broke.
组织化学及超微结构观察表明,模型组sdh活性下降,ACP活性增高,线粒体明显肿胀、变性、脊断裂。
According to the observation of histochemistry and ultrastructure, it showed that SDH activity decreased, ACP activity increased, the mitochondrion swelled and became deformed, crest broke.
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