源自ϕBT1的整合质粒pDZL802在地中海拟无枝酸菌U32中的接合作用。

Conjugation of ϕBT1-derived integrative plasmid pDZL802 in Amycolatopsis mediterranei U32.

作者信息

Li Chen, Zhou Li, Wang Ying, Zhao Guoping, Ding Xiaoming

机构信息

a State Key Laboratory of Genetic Engineering, Department of Microbiology and Microbial Engineering , School of Life Sciences, Fudan University , Shanghai , China.

b Shanghai-MOST Key Laboratory of Health and Disease Genomics, Chinese National Human Genome Centre at Shanghai , Shanghai , China.

出版信息

Bioengineered. 2017 Sep 3;8(5):549-554. doi: 10.1080/21655979.2016.1270808. Epub 2017 Jan 3.

DOI:10.1080/21655979.2016.1270808

PMID:28045587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5639847/

Abstract

The genus Amycolatopsis is well known for its ability to produce antibiotics, and an increasing number of valuable biotechnological applications, such as bioremediation, biodegradation, bioconversion, and potentially biofuel, that use this genus have been developed. Amycolatopsis mediterranei is an industrial-scale producer of the important antibiotic rifamycin, which plays a vital role in antimycobacterial therapy. Genetic studies of Amycolatopsis species have progressed slowly due to the lack of efficient transformation methods and stable plasmid vectors. In A. mediterranei U32, electroporation and replicable plasmid vectors have been developed. Here, we establish a simple and efficient conjugal system by transferring integrative plasmid pDZL802 from ET12567 (pUZ8002) to A. mediterranei U32, with an efficiency of 4 × 10 CFU per recipient cell. This integrative vector, based on the ϕBT1 int-attP locus, is a stable and versatile tool for A. mediterranei U32, and it may also be applicable to various other Amycolatopsis species for strain improvement, heterologous protein expression, and synthetic biology experiments.

摘要

拟无枝酸菌属以其产生抗生素的能力而闻名，并且已经开发出越来越多利用该属的有价值的生物技术应用，如生物修复、生物降解、生物转化以及潜在的生物燃料。地中海拟无枝酸菌是重要抗生素利福霉素的工业规模生产者，利福霉素在抗分枝杆菌治疗中起着至关重要的作用。由于缺乏有效的转化方法和稳定的质粒载体，拟无枝酸菌属物种的遗传研究进展缓慢。在地中海拟无枝酸菌U32中，已经开发出了电穿孔法和可复制的质粒载体。在此，我们通过将整合质粒pDZL802从ET12567(pUZ8002)转移到地中海拟无枝酸菌U32中，建立了一个简单高效的接合系统，每个受体细胞的转化效率为4×10 CFU。这种基于ϕBT1 int-attP位点的整合载体，对于地中海拟无枝酸菌U32来说是一种稳定且通用的工具，它也可能适用于各种其他拟无枝酸菌属物种，用于菌株改良、异源蛋白表达和合成生物学实验。

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