把细胞内所有生化反应表示为一个网络指为代谢网络,是所有参与代谢过程的化合物之间以及所有催化酶之间的相互作用的反映,是抽象表达对细胞的代谢。在不同的物种中都含有大量的代谢翻译,却代谢网络是高度保守的。要了解包括代谢系统在内的许多自然、社会系统都起着重要的作用,所以要对于复杂网络进行研究并掌握它们的规律意义很大。利用代谢网络对微生物的耐热性进行分类研究对认识和利用细胞代谢过程有很大的帮助,从而促进发酵工程、制药工业等产业的发展。 Representing all biochemical reactions in a cell as a network refers to the metabolic network, a reflection of the interaction between all compounds involved in metabolic processes and all catalytic enzymes, and the abstraction of cellular metabolism. Metabolic translation is abundant in different species, but the metabolic network is highly conserved. To understand that many natural and social systems, including metabolic systems, play an important role, it is of great significance to study and master the laws of complex networks. The use of metabolic networks to classify the thermotolerance of microorganisms is of great help in understanding and utilizing cellular metabolic processes, thereby promoting the development of fermentation engineering, pharmaceutical industry and other industries.