In this paper, the methods of genome-scale metabolic network reconstruction, its application, as well as minimal genome research will be reviewed briefly.
将对全基因组范围代谢网络构建的方法、应用,特别是其在最小基因组研究中的应用作简要的综述。
Biological metabolic network is a system with high nonlinear characteristic. How to optimize it properly is a difficulty in the field of metabolic engineering.
生物代谢网络是一个具有高度非线性的复杂系统,如何对其进行适当的优化,一直是代谢工程领域的研究热点。
Some researchers have applied this theory to study metabolic network' s structure organization, hierarchical structure of its clusters and got some instructing results.
一些学者运用该理论方法研究了大量有关代谢网络的结构组成以及网络中子集团的层次组成关系,并获得了一些有意义的结果。
The general procedure is to partition the metabolic network, in this paper two methods are used to partition the network for the purpose of calculating the extreme pathways.
一般的做法是分解网络,本文使用了两种新的分解代谢网络的方法,并把它们运用到极端途径的计算当中。
Built a metabolic network of S. cerevisiae, and made the metabolic flux analysis with the ability of fermentation of different yeasts and effect on pressed yeast during fermentation.
构建了啤酒酵母的代谢网络,通过代谢网络对不同酵母的发酵性能和压力对酵母发酵的影响进行了代谢通量分析。
Reconstruction and comparison of metabolic pathway and regulatory network is an advanced task in genome function prediction.
代谢途径和调控网络的重建和比较研究是基因组功能预测的高级内容。
The situation of traffic flow in network paths was analyzed by metabolic sensitivity curve in artificial metabolic system and the fault bottleneck was gained.
以交通运输网络为例对网络化系统进行了建模分析,利用人工代谢系统的代谢灵敏度折线图对网络支路流量变化进行了分析,得到了故障产生的瓶颈位置。
The situation of traffic flow in network paths was analyzed by metabolic sensitivity curve in artificial metabolic system and the fault bottleneck was gained.
以交通运输网络为例对网络化系统进行了建模分析,利用人工代谢系统的代谢灵敏度折线图对网络支路流量变化进行了分析,得到了故障产生的瓶颈位置。
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