通过委内瑞拉链霉菌中pikD调控基因的过表达增强去氧氨基糖基大环内酯及其羟基化衍生物的异源生产。

Enhanced heterologous production of desosaminyl macrolides and their hydroxylated derivatives by overexpression of the pikD regulatory gene in Streptomyces venezuelae.

作者信息

Jung Won Seok, Jeong Soon Jeong, Park Sung Ryeol, Choi Cha Yong, Park Byoung Chul, Park Je Won, Yoon Yeo Joon

机构信息

Division of Nano Sciences, Ewha Womans University, Seoul 120-750, South Korea.

出版信息

Appl Environ Microbiol. 2008 Apr;74(7):1972-9. doi: 10.1128/AEM.02296-07. Epub 2008 Feb 1.

DOI:10.1128/AEM.02296-07

PMID:18245260

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2292611/

Abstract

To elevate the production level of heterologous polyketide in Streptomyces venezuelae, an additional copy of the positive regulatory gene pikD was introduced into the pikromycin (Pik) polyketide synthase (PKS) deletion mutant of S. venezuelae ATCC 15439 expressing tylosin PKS genes. The resulting mutant strain showed enhanced production of both tylactone (TL) and desosaminyl tylactone (DesTL) of 2.7- and 17.1-fold, respectively. The notable increase in DesTL production strongly suggested that PikD upregulates the expression of the desosamine (des) biosynthetic gene cluster. In addition, two hydroxylated forms of DesTL were newly detected from the extract of this mutant. These hydroxylated forms presumably resulted from a PikD-dependent increase in expression of the pikC gene that encodes P450 hydroxylase. Gene expression analysis by reverse transcriptase PCR and bioconversion experiments of 10-deoxymethynolide, narbonolide, and TL into the corresponding desosaminyl macrolides indicated that PikD is a positive regulator of the des and pikC genes, as well as the Pik PKS genes. These results demonstrate the role of PikD as a pathway-specific positive regulator of the entire Pik biosynthetic pathway and its usefulness in the development of a host-vector system for efficient heterologous production of desosaminyl macrolides and novel hydroxylated compounds.

摘要

为提高委内瑞拉链霉菌中异源聚酮化合物的生产水平，将正向调节基因pikD的一个额外拷贝导入表达泰乐菌素聚酮合酶（PKS）基因的委内瑞拉链霉菌ATCC 15439的多杀菌素（Pik）聚酮合酶缺失突变体中。所得突变菌株的泰乐内酯（TL）和去氧胺基泰乐内酯（DesTL）产量分别提高了2.7倍和17.1倍。DesTL产量的显著增加强烈表明PikD上调了去氧胺（des）生物合成基因簇的表达。此外，从该突变体提取物中新检测到两种DesTL的羟基化形式。这些羟基化形式可能是由于编码P450羟化酶的pikC基因的表达在PikD的作用下增加所致。通过逆转录PCR进行的基因表达分析以及将10-脱氧甲烯诺内酯、纳波内酯和TL生物转化为相应的去氧胺基大环内酯的实验表明，PikD是des和pikC基因以及Pik PKS基因的正向调节因子。这些结果证明了PikD作为整个Pik生物合成途径的途径特异性正向调节因子的作用及其在开发用于高效异源生产去氧胺基大环内酯和新型羟基化化合物的宿主-载体系统中的实用性。

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