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- The studies on mitochondrial ferritin will enrich people about the recognition of iron metabolisim in subcellular level. 对线粒体铁蛋白的深入研究将极大地丰富人们对铁在亚细胞水平上的代谢机制和功能的认识。
- mitochondrial ferritin 线粒体铁蛋白
- The knowledge about higher plant mitochondrial ribosomes is scanty. 关于高等植物线粒体核蛋白体的知识也少的可怜。
- Conclusion: High ferritin may be a sign for cerebral infarction. 结论:血清铁蛋白增加可能是脑梗塞危险因素之一。
- Objective To obtain and analyze the sequence of ferritin gene. 目的 获得细粒棘球蚴(E.;granulosus)铁蛋白(ferritin)基因序列,进行序列分析。
- How could this help families at risk of mitochondrial disease? 这一研究对患有线粒体疾病的家庭有何帮助?
- Ferritin, one of the storage forms of iron, is brown, iron-containing protein. 铁的贮存形式之一的铁蛋白,是一种棕色含铁蛋白质。
- Consequently, ferritin particle would be the catalyst source in this paper. 因此,本文中将以铁蛋白颗粒作为成长碳管的催化剂来源。
- This serine biosynthesis has been demonstrated in mitochondrial preparation. 在线粒体制备中,证明有丝氨酸生物合成。
- Chapter 1: Recent progress on squamate mitochondrial genome was reviewed. 第一章:对爬行动物线粒体基因组的研究进展进行了综述。
- Mitochondrial dysfunction is one of the most profound features of cancer cells. 肿瘤细胞的线粒体功能障碍是其重要的特征之一。
- ATP is produced by a complex in the mitochondrial membrane called ATP synthase. 三磷酸腺苷是由一个复杂的线粒体膜称为ATP合酶。
- Mitochondrial fission and fusion are highly regulated by a number of proteins. 线粒体的分裂和融合是由多种蛋白质精确调控完成的。
- Only 13 of the mitochondrion's component proteins are encoded by its own DNA. 只有13种线粒体的组成蛋白质是由线粒体自己的DNA编码的。
- Cloning and Expression Characteristics of the Ferritin Gene from Malus domestica Borkh. 苹果铁结合蛋白基因的克隆及表达特性。
- This gives us a wonderful opportunity: rather than fixing mitochondrial mutations, we can obviate them. 这给了我们绝好的机会:我们可以排除它们而无需修复线粒体突变。
- The serum ferritin level was determined at 0 wk in 31 CHC patients and 15 controls. 在0 wk时检测31例病人和15例健康对照者的血清铁蛋白水平。
- After manipulated as above, the productive rate of purified pea ferritin is 20-30mg/kg. 通过上述操作,豌豆铁蛋白的产率为20-30mg/kg。
- In addition, the mechanism of electrochemically regulated iron uptake and release for ferritin was proposed. 一个电位调制的关于铁的释放与获取机理被进一步证实。
- The scientists can control nanotube density by varying how much iron they employ within the ferritin. 科学家可改变铁蛋白中的铁含量,进而控制奈米管的密度。
