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甲氧基丙二酰基酰基载体蛋白生物合成基因座及其附近具有β-酮酰基合酶结构域的基因参与了沟二孢菌素在游动放线菌中的生物合成,但这些基因座与模块化聚酮合酶基因簇是分开的。

The methoxymalonyl-acyl carrier protein biosynthesis locus and the nearby gene with the beta-ketoacyl synthase domain are involved in the biosynthesis of galbonolides in Streptomyces galbus, but these loci are separate from the modular polyketide synthase gene cluster.

机构信息

Department of Biological Science, Division of Bioscience and Bioinformatics, Myongji University, San 38-2 Nam-dong, Yongin-si, Gyunggi-do, Korea.

出版信息

FEMS Microbiol Lett. 2010 Sep 1;310(1):69-75. doi: 10.1111/j.1574-6968.2010.02048.x. Epub 2010 Jun 24.

DOI:10.1111/j.1574-6968.2010.02048.x
PMID:20662933
Abstract

Galbonolides A and B are antifungal compounds, which are produced by Streptomyces galbus. A multimodular polyketide synthase (PKS) was predicted to catalyze their biosynthesis, and a methoxymalonyl-acyl carrier protein (methoxymalonyl-ACP) was expected to be involved in the biosynthesis of galbonolide A. Cloning of a methoxymalonyl-ACP biosynthesis locus (galGHIJK) and the flanking regions has revealed that the locus is colocalized with beta-ketoacyl synthase (KAS)-related genes (orf3, 4, and 5), but separated from any multimodular PKS gene cluster in S. galbus. A galI-disruption mutant (SK-galI-5) is unable to produce galbonolide A, but can synthesize galbonolide B, indicating that galGHIJK is involved in the biosynthesis of galbonolide A. A disruption mutant of orf4 is severely impaired in the production of both galbonolides A and B. These results indicate that galGHIJK and the KAS genes are involved in the biosynthesis of galbonolides, although they are not colocalized with a multimodular PKS gene cluster. We further propose that a single galbonolide PKS generates two discrete structures, galbonolides A and B, by alternatively incorporating methoxymalonate and methylmalonate, respectively.

摘要

Galbonolides A 和 B 是抗真菌化合物,由链霉菌产生。预测多模块聚酮合酶 (PKS) 催化它们的生物合成,并且预期甲氧基丙二酰酰基载体蛋白 (甲氧基丙二酰-ACP) 参与 galbonolide A 的生物合成。克隆甲氧基丙二酰-ACP 生物合成基因座 (galGHIJK) 及其侧翼区表明,该基因座与β-酮酰基合酶 (KAS) 相关基因 (orf3、4 和 5) 共定位,但与链霉菌中的任何多模块 PKS 基因簇分离。galI 缺失突变体 (SK-galI-5) 不能产生 galbonolide A,但可以合成 galbonolide B,表明 galGHIJK 参与 galbonolide A 的生物合成。orf4 的缺失突变体在 galbonolide A 和 B 的产生中都受到严重损害。这些结果表明 galGHIJK 和 KAS 基因参与 galbonolide 的生物合成,尽管它们与多模块 PKS 基因簇没有共定位。我们进一步提出,单个 galbonolide PKS 通过分别交替掺入甲氧基丙二酸和甲基丙二酸来产生两种不同的结构,即 galbonolide A 和 B。

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