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来源于产酶溶杆菌的含四氢酸的大环内酰胺 HSAF 的生物合成。

Biosynthesis of HSAF, a tetramic acid-containing macrolactam from Lysobacter enzymogenes.

机构信息

Department of Chemistry, University of Nebraska-Lincoln, Lincoln, Nebraska 68588, United States.

出版信息

J Am Chem Soc. 2011 Feb 2;133(4):643-5. doi: 10.1021/ja105732c. Epub 2010 Dec 20.

DOI:10.1021/ja105732c
PMID:21171605
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3078565/
Abstract

HSAF was isolated from Lysobacter enzymogenes , a bacterium used in the biological control of fungal diseases of plants. Structurally, it is a tetramic acid-containing macrolactam fused to a tricyclic system. HSAF exhibits a novel mode of action by disrupting sphingolipids important to the polarized growth of filamentous fungi. Here we describe the HSAF biosynthetic gene cluster, which contains only a single-module polyketide synthase/nonribosomal peptide synthetase (PKS/NRPS), although the biosynthesis of HSAF apparently requires two separate polyketide chains that are linked together by one amino acid (ornithine) via two amide bonds. Flanking the PKS/NRPS are six genes that encoding a cascade of four tightly clustered redox enzymes on one side and a sterol desaturase/fatty acid hydroxylase and a ferredoxin reductase on the other side. The genetic data demonstrate that the four redox genes, in addition to the PKS/NRPS gene and the sterol desaturase/fatty acid hydroxylase gene, are required for HSAF production. The biochemical data show that the adenylation domain of the NRPS specifically activates L-ornithine and that the four-domain NRPS is able to catalyze the formation of a tetramic acid-containing product from acyl-S-ACP and ornithinyl-S-NRPS. These results reveal a previously unrecognized biosynthetic mechanism for hybrid PK/NRP in prokaryotic organisms.

摘要

HSAF 是从用于植物真菌病害生物防治的细菌 Lysobacter enzymogenes 中分离出来的。从结构上看,它是一种含有四氢酸的大环内酯与三环系统融合而成的化合物。HSAF 通过破坏丝状真菌极性生长所必需的鞘脂来表现出一种新的作用模式。在这里,我们描述了 HSAF 的生物合成基因簇,其中只包含一个单模块聚酮合酶/非核糖体肽合酶(PKS/NRPS),尽管 HSAF 的生物合成显然需要两个单独的聚酮链,通过两个酰胺键由一个氨基酸(鸟氨酸)连接在一起。PKS/NRPS 的两侧是六个基因,它们在一侧编码四个紧密簇集的氧化还原酶级联,在另一侧编码固醇去饱和酶/脂肪酸羟化酶和铁氧还蛋白还原酶。遗传数据表明,除了 PKS/NRPS 基因和固醇去饱和酶/脂肪酸羟化酶基因外,这四个氧化还原基因也需要 HSAF 的产生。生化数据表明,NRPS 的氨酰化结构域特异性地激活 L-鸟氨酸,并且四结构域 NRPS 能够催化酰基-S-ACP 和鸟氨酸基-S-NRPS 形成含有四氢酸的产物。这些结果揭示了以前在原核生物中未被认识到的杂合 PK/NRP 的生物合成机制。

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