蛋白质间相互作用是当前的研究热点之一。
Study of protein-protein interactions is one of current research focus.
细菌双杂交系统是新近建立的一种研究蛋白质间相互作用的方法。
Bacterial two-hybrid system is a newly developed method for studying protein-protein interaction.
蛋白质与蛋白质间相互作用的准确预测是计算分子生物学领域的重要研究内容。
The prediction of protein interaction is one of the most important issues in post-genomic era.
生物学中的许多现象如细胞凋亡、细胞周期调控、信号转导和癌变等均受蛋白质间相互作用的调控。
Many phenomena in biology, such as apoptosis, cell cycle control, signal transduction and canceration and etc, are all regulated by the interaction of proteins.
此外,GSH在代谢、细胞信号传导和蛋白质间相互作用中也具有辅助性功能,还可调节机体防御反应。
Furthermore, GSH has ancillary functions, such as metabolism, cell signaling, and protein interactions, that can also mediate defense against oxidants.
我们探索人类线粒体膜间空间的蛋白质相互作用。
We explore the protein-protein interactions of human mitochondrial intermembrane space.
实验结果表明:动态光散射技术可以有效地用来研究蛋白质分子间的相互作用。
Experimetns work indicate the technique of dynamic light scattering can be used effectively to study protein molecular interactions.
使用噬菌体呈现系统配合筛选技术,改变了传统研究分子间(特别是蛋白质)相互作用之方法。
Studying intermolecular interaction (especially for proteins) has been heavily relied on the combination of the phage display system and screening technology.
大多数有效的药物靶点能够通过蛋白质相互作用网络分析,在大量非同源蛋白质间识别。
Most potent drug target can be identifying among large number of non-homologous protein through protein interaction network analysis.
正是氨基酸残基间的天然相互作用而不是非天然的相互作用控制蛋白质的折叠过程。
It is the native interactions rather than the non native interactions that direct the folding process.
蓝光信号转导涉及隐花色素与其他蛋白质间直接或间接的相互作用。
The signal transformation of blue light involves the direct or indirect interactions between cryptochromes and other proteins.
因此,揭示蛋白质组中蛋白质间的相互作用关系也是蛋白质组学的重要内容之一。
Protein protein interactions are characteristic of cellular activities and of course an important part of proteomics.
因此,揭示蛋白质组中蛋白质间的相互作用关系也是蛋白质组学的重要内容之一。
Protein protein interactions are characteristic of cellular activities and of course an important part of proteomics.
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