填补缺口的基因组尺度代谢模型和模型驱动实验的进展带来了新的代谢发现。

Advances in gap-filling genome-scale metabolic models and model-driven experiments lead to novel metabolic discoveries.

机构信息

Department of Chemical and Biological Engineering, University of Wisconsin-Madison, 1415 Engineering Dr, Madison, WI 53706, United States; Great Lakes Bioenergy Research Center, Madison, WI 53706, United States.

出版信息

Curr Opin Biotechnol. 2018 Jun;51:103-108. doi: 10.1016/j.copbio.2017.12.012. Epub 2017 Dec 23.

DOI:10.1016/j.copbio.2017.12.012

PMID:29278837

Abstract

With rapid improvements in next-generation sequencing technologies, our knowledge about metabolism of many organisms is rapidly increasing. However, gaps in metabolic networks exist due to incomplete knowledge (e.g., missing reactions, unknown pathways, unannotated and misannotated genes, promiscuous enzymes, and underground metabolic pathways). In this review, we discuss recent advances in gap-filling algorithms based on genome-scale metabolic models and the importance of both high-throughput experiments and detailed biochemical characterization, which work in concert with in silico methods, to allow a more accurate and comprehensive understanding of metabolism.

摘要

随着下一代测序技术的快速发展，我们对许多生物体代谢的认识正在迅速增加。然而，由于知识不完整（例如，缺少反应、未知途径、未注释和错误注释的基因、多功能酶和地下代谢途径），代谢网络仍然存在空白。在这篇综述中，我们讨论了基于基因组尺度代谢模型的填补空白算法的最新进展，以及高通量实验和详细生化特征的重要性，这些与计算方法一起协同工作，以更准确和全面地理解代谢。

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填补缺口的基因组尺度代谢模型和模型驱动实验的进展带来了新的代谢发现。

Advances in gap-filling genome-scale metabolic models and model-driven experiments lead to novel metabolic discoveries.

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