心肌缺血预适应与细胞信号转导密切相关。
Myocardial ischemic preconditioning is related to cellular signal transduction.
构通讯的理解是研究细胞信号转导的一个基本目标。
A fundamental goal in signal transduction study is to understand allosteric communication.
方法:对细胞信号转导系统的反应序列特征进行分析。
Methods: The characteristics of the reactions in this system were analyzed.
对变构通讯的理解是研究细胞信号转导的一个基本目标。
A fundamental goal in signal transduction study is to understand allosteric communication.
探讨中药固真方对细胞信号转导体系中蛋白激酶活性的影响。
Objective:To study the effect of Chinese herb Vitality Reinforcing Formula on protein kinase activity of cellular signaling transduction system.
其研究领域包括细胞信号转导、细胞间通讯以及相关软件开发等。
Areas of its research include cell signal transduction, intercellular communication and related software development.
Scita和DiFiore讨论了内吞系统在细胞信号转导网络中的重要作用。
Scita and di Fiore discuss the integral role of the endocytic system in the cell's signalling network.
它们以未知的方式影响蛋白质的转运、细胞信号转导以及心肌新陈代谢。
These ubiquitin ligases affect protein turnover, cell signaling responses, and cardiac metabolism in unsuspected ways.
本文综述了死亡结构域及其在细胞信号转导过程中所起作用的最新进展。
Herein we discuss the recent findings about death domain and its role in signal transduction.
在哺乳动物细胞中,蛋白质的生物合成途径与细胞信号转导途径紧密相连。
These two tRNA synthetases link protein synthesis to a major cell signaling pathway in the given mammalian cells.
信号蛋白的亚细胞定位和激活后移位已成为细胞信号转导研究中的重要内容。
The subcellular localization and translocation of signaling proteins have risen large interest in the study of cellular signal transduction.
为了揭示ALP1相关的细胞信号转导途径,需要就ALP1的互作机理进行探讨。
In order to further reveal the ALP1 cell signal transduction pathways, it is first to explore the interaction mechanism of ALP1.
本文综述蛋白酶体在细胞信号转导中的生物学功能和在神经退行性疾病中的可能作用。
This paper reviews the biological functions of proteasome in signal transduction and its potential roles in neurodegenerative diseases.
本研究室的主要研究方向为心肌肥大时的细胞信号转导通路及脂联素对心脏功能的影响。
The main interest of the laboratory is focused on the signal transduction pathway during cardiac hypertrophy and the effect of adiponectin on cardiac function.
实验研究发现其具有抗转移、诱导肿瘤细胞凋亡、影响细胞信号转导以及预防肝癌发生的作用。
Experimental studies have showed its effects in inhibiting metastases, apoptotic induction, cell signal transduction and prevention of liver carcinogenesis.
在数学建模的基础上研究了无尺度细胞信号转导网络的拓扑结构属性及节点干预对信号网络的影响。
Based on mathematic model constructing, the topological structure properties of scale-free cellular signaling network and the effect of node interference on signaling network were investigated.
目的:探讨细胞信号转导网络的拓扑结构属性,从而为复杂性细胞信号网络系统的研究提供有益帮助。
Objective: To investigate the topological structure properties of cell signaling transduction networks, in order to offer assistance for the research on the complexity of cell signaling system.
结论:针刺能刺激大鼠胃黏膜细胞信号转导通路中蛋白激酶c的活化,并且存在经脉-脏腑的特异性联系。
CONCLUSION: the acupuncture can stimulate the activation of PKC in gastric mucous cell signal conductive pathway of rats, and there is a special correlation between meridian and internal organs.
结论:通过构建网络模型来分析细胞信号转导网络的拓扑结构属性对复杂性细胞信号系统进行研究是很有必要的。
Conclusion: it is imperative to study the complexity of cell signaling system by constructing networks model for analysis of its topological structure properties.
在调控基因中,大多是众多的生长因子基因和影响细胞粘附、细胞信号转导及细胞周期调控或者其它功能的基因。
Among the regulated genes are numerous growth-factor genes and genes affecting cell adhesion, cell signaling, cell-cycle regulation, and other functions.
结论:大鼠尾加压素II是大鼠肺主动脉有效的血管收缩剂,细胞信号转导通路MAPK的激活参与其收缩效应。
CONCLUSION: rat U-II was a potent vasoconstrictor of rat main pulmonary arteries and this response was mediated through MAPK.
受体酪氨酸蛋白激酶是细胞信号转导进行的关键信号酶,在生长因子调控细胞生长、发育与功能的过程中起着重要的生理作用。
Receptor tyrosine protein kinase is one of key kinases in cell signal transduction and plays an important role in the process of cell growth, development and functions regulated by growth factors.
随着对肿瘤发生机制研究的深入,作用于细胞信号转导通路的药物开始引起研究者的关注,成为抗肿瘤药物研发的重要靶点之一。
With the thorough research of tumor mechanism, drugs acting on cell signal transduction pathway began to attract attention of researchers as an important target for anticancer drug development.
线粒体不再被认为是“唯一”作为蜂窝热力学转换器:越来越多的证据牵连他们在细胞信号转导,细胞增殖,衰老,疾病和死亡的重要细胞器。
Mitochondria are no longer considered "only" as the cellular thermodynamic converter: mounting evidence implicates them as key organelles in cell signaling, proliferation, aging, disease and death.
线粒体不再被认为是“唯一”作为蜂窝热力学转换器:越来越多的证据牵连他们在细胞信号转导,细胞增殖,衰老,疾病和死亡的重要细胞器。
Mitochondria are no longer considered "only" as the cellular thermodynamic converter: mounting evidence implicates them as key organelles in cell signaling, proliferation, aging, disease and death.
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