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.
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: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.
信号转导通路是非线性排列的,许多信号转导通路可以通过一系列的蛋白质与蛋白质相互作用形成一个网络。
Among them, the most complex one is the signal transduction. These paths are organized non-linearly, and they can form a network through a series of protein interactions.
利用生物信息学及系统发育分析可以为非寄主抗病机制及信号转导调控网络提供有用信息。
The information of bioinformatics and phylogenetic analyse will be significant to investigate the resistance mechanism and the networks consisted of singal transduction pathways.
利用生物信息学及系统发育分析可以为非寄主抗病机制及信号转导调控网络提供有用信息。
The information of bioinformatics and phylogenetic analyse will be significant to investigate the resistance mechanism and the networks consisted of singal transduction pathways.
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