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基于基因组学的发现,研究了麦迪霉素生物合成基因簇及其在 Actinomadura sp. J1-007 中的过表达。

Genomics-driven discovery of the biosynthetic gene cluster of maduramicin and its overproduction in Actinomadura sp. J1-007.

机构信息

Key Laboratory of Combinatorial Biosynthesis and Drug Discovery, Ministry of Education and Wuhan University School of Pharmaceutical Sciences, Wuhan, 430071, China.

J1 Biotech Co., Ltd, Wuhan, 430075, China.

出版信息

J Ind Microbiol Biotechnol. 2020 Feb;47(2):275-285. doi: 10.1007/s10295-019-02256-5. Epub 2019 Dec 18.

Abstract

Maduramicin is the most efficient and possesses the largest market share of all anti-coccidiosis polyether antibiotics (ionophore); however, its biosynthetic gene cluster (BGC) has yet to been identified, and the associated strains have not been genetically engineered. Herein, we performed whole-genome sequencing of a maduramicin-producing industrial strain of Actinomadura sp. J1-007 and identified its BGC. Additionally, we analyzed the identified BGCs in silico to predict the biosynthetic pathway of maduramicin. We then developed a conjugation method for the non-spore-forming Actinomadura sp. J1-007, consisting of a site-specific integration method for gene overexpression. The maduramicin titer increased by 30% to 7.16 g/L in shake-flask fermentation following overexpression of type II thioesterase MadTE that is the highest titer at present. Our findings provide insights into the biosynthetic mechanism of polyethers and provide a platform for the metabolic engineering of maduramicin-producing microorganisms for overproduction and development of maduramicin analogs in the future.

摘要

马杜拉霉素是所有抗球虫聚醚类抗生素(离子载体)中效率最高、市场份额最大的一种;然而,其生物合成基因簇(BGC)尚未被鉴定,相关菌株也尚未经过基因工程改造。在此,我们对一株产马杜拉霉素的 Actinomadura sp. J1-007 工业菌株进行了全基因组测序,并鉴定了其 BGC。此外,我们还对鉴定出的 BGC 进行了计算机分析,以预测马杜拉霉素的生物合成途径。然后,我们为非孢子形成的 Actinomadura sp. J1-007 开发了一种接合方法,其中包括基因过表达的位点特异性整合方法。过表达 II 型硫酯酶 MadTE 后,马杜拉霉素的产量在摇瓶发酵中提高了 30%,达到 7.16 g/L,这是目前的最高产量。我们的研究结果为聚醚的生物合成机制提供了深入了解,并为马杜拉霉素产生微生物的代谢工程提供了一个平台,以实现未来的高产和马杜拉霉素类似物的开发。

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