Modularization analysis of metabolic networks can be helpful to understand the structure and function of these networks.
代谢网络的模块化分析有助于理解网络的结构和功能。
Analysis of flux distributions in metabolic networks has become an important approach for understanding the fermentation characteristics of the process.
代谢通量分布分析已经成为研究发酵过程特性的有效方法。
However, almost all current methods consider metabolic networks as general complex networks, and resulted modules are often of biological insignificance.
然而,当前众多的模块化分析方法大多将代谢网络考虑为普通的复杂网络,所得模块的生物学意义较低。
However, the basis of its physiological function that may alter the rate of nitrogen assimilation and carbon metabolism within the context of metabolic networks remains unclear.
但是在代谢网络背景下,其在改变氮同化和碳代谢中的生理功能还不是很清楚。
The results suggest that metabolic networks are self-similarity, whether including current and small metabolite or not, while other biological networks are almost not self-similarity.
结果表明,无论是否考虑流通代谢物和小分子代谢物,新陈代谢网络都是自相似的,但是其他的生物网络大多不是自相似的。
General Formalism for Chemical Reaction Networks. Metabolic Flux Analysis.
化学反应网络的一般形式。代谢流通量分析。
General Formalism for Chemical Reaction Networks. Metabolic Flux Analysis.
化学反应网络的一般形式。代谢流通量分析。
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