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缬氨霉素生物合成:nonS的产物催化缬氨霉素酸呋喃环的形成。

Nonactin biosynthesis: the product of nonS catalyzes the formation of the furan ring of nonactic acid.

作者信息

Woo A J, Strohl W R, Priestley N D

机构信息

Department of Microbiology, The Ohio State University, Columbus, Ohio 43210, USA.

出版信息

Antimicrob Agents Chemother. 1999 Jul;43(7):1662-8. doi: 10.1128/AAC.43.7.1662.

DOI:10.1128/AAC.43.7.1662
PMID:10390219
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC89340/
Abstract

Nonactin is the parent compound of a group of ionophore antibiotics, known as the macrotetrolides, produced by Streptomyces griseus subsp. griseus ETH A7796. Nonactin is a significant compound because of its inhibitory effects on the P170 glycoprotein-mediated efflux of chemotherapeutic agents in multiple-drug-resistant cancer cells. Nonactin is also significant in that it is a highly atypical polyketide. Very little is presently known about the genes of the nonactin biosynthesis cluster. In this paper we describe our efforts to establish a connection between the product of a gene from the nonactin biosynthesis cluster and a known biochemical transformation in nonactin biosynthesis. Nonactate synthase is the enzyme which catalyzes the formation of nonactic acid from an acyclic precursor in nonactin biosynthesis. We have synthesized the substrate for this enzyme and have detected the in vitro cyclization activity of the substrate in cell-free preparations of S. griseus subsp. griseus ETH A7796. Previous studies by R. Plater and J. A. Robinson (Gene 112:117-122, 1992) had suggested, based on sequence homology, that the product of a partial open reading frame found close to the tetranactin resistance gene of S. griseus could be the nonactate synthase. We have therefore cloned, sequenced, and heterologously expressed this full gene (nonS), and we have shown that the gene product, NonS, does indeed catalyze the formation of the furan ring of nonactic acid as hypothesized.

摘要

无活菌素是一组离子载体抗生素的母体化合物,这类抗生素被称为大环四醇类,由灰色链霉菌亚种灰色链霉菌ETH A7796产生。无活菌素是一种重要的化合物,因为它对多药耐药癌细胞中P170糖蛋白介导的化疗药物外排具有抑制作用。无活菌素还因其是一种高度非典型的聚酮化合物而显得重要。目前对无活菌素生物合成簇的基因了解甚少。在本文中,我们描述了我们为建立无活菌素生物合成簇中一个基因的产物与无活菌素生物合成中一个已知生化转化之间的联系所做的努力。无活酸合酶是在无活菌素生物合成中催化由无环前体形成无活酸的酶。我们已经合成了这种酶的底物,并在灰色链霉菌亚种灰色链霉菌ETH A7796的无细胞制剂中检测到了该底物的体外环化活性。R. Plater和J. A. Robinson(《基因》112:117 - 122,1992)之前的研究基于序列同源性表明,在灰色链霉菌的四活菌素抗性基因附近发现的一个部分开放阅读框的产物可能是无活酸合酶。因此,我们克隆、测序并异源表达了这个完整基因(nonS),并且我们已经表明,该基因产物NonS确实如所假设的那样催化了无活酸呋喃环的形成。

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