微生物烷烃的生物合成。

Microbial biosynthesis of alkanes.

机构信息

LS9, Inc., 600 Gateway Boulevard, South San Francisco, CA 94080, USA.

出版信息

Science. 2010 Jul 30;329(5991):559-62. doi: 10.1126/science.1187936.

PMID:20671186

Abstract

Alkanes, the major constituents of gasoline, diesel, and jet fuel, are naturally produced by diverse species; however, the genetics and biochemistry behind this biology have remained elusive. Here we describe the discovery of an alkane biosynthesis pathway from cyanobacteria. The pathway consists of an acyl-acyl carrier protein reductase and an aldehyde decarbonylase, which together convert intermediates of fatty acid metabolism to alkanes and alkenes. The aldehyde decarbonylase is related to the broadly functional nonheme diiron enzymes. Heterologous expression of the alkane operon in Escherichia coli leads to the production and secretion of C13 to C17 mixtures of alkanes and alkenes. These genes and enzymes can now be leveraged for the simple and direct conversion of renewable raw materials to fungible hydrocarbon fuels.

摘要

烷烃是汽油、柴油和喷气燃料的主要成分，由多种生物自然产生；然而，这一生物学背后的遗传学和生物化学仍然难以捉摸。在这里，我们描述了一种从蓝细菌中发现的烷烃生物合成途径。该途径由酰基辅酶 A 还原酶和醛脱羧酶组成，它们共同将脂肪酸代谢的中间产物转化为烷烃和烯烃。醛脱羧酶与广泛功能的非血红素双铁酶有关。烷烃操纵子在大肠杆菌中的异源表达导致 C13 到 C17 的烷烃和烯烃混合物的产生和分泌。这些基因和酶现在可以用于简单直接地将可再生原料转化为可替代的碳氢燃料。

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微生物烷烃的生物合成。

Microbial biosynthesis of alkanes.

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