从公共数据库重建代谢网络时要面临的挑战。

Challenges to be faced in the reconstruction of metabolic networks from public databases.

作者信息

Poolman M G, Bonde B K, Gevorgyan A, Patel H H, Fell D A

机构信息

School of Biology and Molecular Science, Oxford Brookes University, Oxford OX3 0BP, UK.

出版信息

Syst Biol (Stevenage). 2006 Sep;153(5):379-84. doi: 10.1049/ip-syb:20060012.

DOI:10.1049/ip-syb:20060012

PMID:16986322

Abstract

In the post-genomic era, the biochemical information for individual compounds, enzymes, reactions to be found within named organisms has become readily available. The well-known KEGG and BioCyc databases provide a comprehensive catalogue for this information and have thereby substantially aided the scientific community. Using these databases, the complement of enzymes present in a given organism can be determined and, in principle, used to reconstruct the metabolic network. However, such reconstructed networks contain numerous properties contradicting biological expectation. The metabolic networks for a number of organisms are reconstructed from KEGG and BioCyc databases, and features of these networks are related to properties of their originating database.

摘要

在后基因组时代，关于特定生物体中单个化合物、酶及反应的生化信息已唾手可得。著名的KEGG和BioCyc数据库为此类信息提供了全面的目录，从而极大地帮助了科学界。利用这些数据库，可以确定给定生物体中存在的酶的互补情况，并原则上用于重建代谢网络。然而，这样重建的网络包含许多与生物学预期相矛盾的特性。从KEGG和BioCyc数据库重建了许多生物体的代谢网络，并且这些网络的特征与其原始数据库的特性相关。

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从公共数据库重建代谢网络时要面临的挑战。

Challenges to be faced in the reconstruction of metabolic networks from public databases.

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