扩展烷烃加氧酶工具箱：新酶及其应用

Expanding the alkane oxygenase toolbox: new enzymes and applications.

作者信息

van Beilen Jan B, Funhoff Enrico G

机构信息

Swiss Federal Institute of Technology Zürich, Institute of Biotechnology, Wolfgang-Pauli Strasse 16, CH-8093, Zürich, Switzerland.

出版信息

Curr Opin Biotechnol. 2005 Jun;16(3):308-14. doi: 10.1016/j.copbio.2005.04.005.

DOI:10.1016/j.copbio.2005.04.005

PMID:15961032

Abstract

As highly reduced hydrocarbons are abundant in the environment, enzymes that catalyze the terminal or subterminal oxygenation of alkanes are relatively easy to find. A number of these enzymes have been biochemically characterized in detail, because the potential of alkane hydroxylases to catalyze high added-value reactions is widely recognized. Nevertheless, the industrial application of these enzymes is restricted owing to the complex biochemistry, challenging process requirements, and the limited number of cloned and expressed enzymes. Rational and evolutionary engineering approaches have started to yield more robust and versatile enzyme systems, broadening the alkane oxygenase portfolio. In addition, metagenomic approaches provide access to many novel alkane oxygenase sequences.

摘要

由于环境中存在大量高度还原的碳氢化合物，催化烷烃末端或亚末端氧化的酶相对容易找到。其中一些酶已得到详细的生化表征，因为烷烃羟化酶催化高附加值反应的潜力已得到广泛认可。然而，由于其复杂的生物化学性质、具有挑战性的工艺要求以及克隆和表达的酶数量有限，这些酶的工业应用受到限制。理性工程和进化工程方法已开始产生更强大、更通用的酶系统，拓宽了烷烃加氧酶的种类。此外，宏基因组学方法为获取许多新型烷烃加氧酶序列提供了途径。

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扩展烷烃加氧酶工具箱：新酶及其应用

Expanding the alkane oxygenase toolbox: new enzymes and applications.

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