合成代谢：蛋白质与途径层面的工程生物学

Synthetic metabolism: engineering biology at the protein and pathway scales.

作者信息

Martin Collin H, Nielsen David R, Solomon Kevin V, Prather Kristala L Jones

机构信息

Department of Chemical Engineering, Synthetic Biology Engineering Research Center, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

Chem Biol. 2009 Mar 27;16(3):277-86. doi: 10.1016/j.chembiol.2009.01.010.

DOI:10.1016/j.chembiol.2009.01.010

PMID:19318209

Abstract

Biocatalysis has become a powerful tool for the synthesis of high-value compounds, particularly so in the case of highly functionalized and/or stereoactive products. Nature has supplied thousands of enzymes and assembled them into numerous metabolic pathways. Although these native pathways can be use to produce natural bioproducts, there are many valuable and useful compounds that have no known natural biochemical route. Consequently, there is a need for both unnatural metabolic pathways and novel enzymatic activities upon which these pathways can be built. Here, we review the theoretical and experimental strategies for engineering synthetic metabolic pathways at the protein and pathway scales, and highlight the challenges that this subfield of synthetic biology currently faces.

摘要

生物催化已成为合成高价值化合物的有力工具，在合成高官能化和/或具有立体活性的产物方面尤为如此。自然界提供了数千种酶，并将它们组装成众多代谢途径。尽管这些天然途径可用于生产天然生物产品，但仍有许多有价值且有用的化合物尚无已知的天然生化途径。因此，既需要非天然代谢途径，也需要构建这些途径所依赖的新型酶活性。在此，我们综述了在蛋白质和途径层面设计合成代谢途径的理论和实验策略，并强调了合成生物学这一细分领域目前所面临的挑战。

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合成代谢：蛋白质与途径层面的工程生物学

Synthetic metabolism: engineering biology at the protein and pathway scales.

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