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从黄褐粘球菌中发现自主复制质粒pMF1并开发了一种在黄色粘球菌中的基因克隆系统。

Discovery of the autonomously replicating plasmid pMF1 from Myxococcus fulvus and development of a gene cloning system in Myxococcus xanthus.

作者信息

Zhao Jing-Yi, Zhong Li, Shen Mei-Juan, Xia Zhi-Jie, Cheng Qiu-Xiang, Sun Xia, Zhao Guo-Ping, Li Yue-Zhong, Qin Zhong-Jun

机构信息

State Key Laboratory of Microbial Technology, College of Life Science, Shandong University, Jinan 250100, People's Republic of China.

出版信息

Appl Environ Microbiol. 2008 Apr;74(7):1980-7. doi: 10.1128/AEM.02143-07. Epub 2008 Feb 1.

DOI:10.1128/AEM.02143-07
PMID:18245244
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2292591/
Abstract

Myxobacteria are very important due to their unique characteristics, such as multicellular social behavior and the production of diverse and novel bioactive secondary metabolites. However, the lack of autonomously replicating plasmids has hindered genetic manipulation of myxobacteria for decades. To determine whether indigenous plasmids are present, we screened about 150 myxobacterial strains, and a circular plasmid designated pMF1 was isolated from Myxococcus fulvus 124B02. Sequence analysis showed that this plasmid was 18,634 bp long and had a G+C content of 68.7%. Twenty-three open reading frames were found in the plasmid, and 14 of them were not homologous to any known sequence. Plasmids containing the gene designated pMF1.14, which encodes a large unknown protein, were shown to transform Myxococcus xanthus DZ1 and DK1622 at high frequencies ( approximately 10(5) CFU/microg DNA), suggesting that the locus is responsible for the autonomous replication of pMF1. Shuttle vectors were constructed for both M. xanthus and Escherichia coli. The pilA gene, which is essential for pilus formation and social motility in M. xanthus, was cloned into the shuttle vectors and introduced into the pilA-deficient mutant DK10410. The transformants subsequently exhibited the ability to form pili and social motility. Autonomously replicating plasmid pMF1 provides a new tool for genetic manipulation in Myxococcus.

摘要

粘细菌因其独特的特性而非常重要,例如多细胞社会行为以及产生多样且新颖的生物活性次生代谢产物。然而,缺乏自主复制质粒数十年来一直阻碍着粘细菌的基因操作。为了确定是否存在内源质粒,我们筛选了约150株粘细菌菌株,并从黄色粘球菌124B02中分离出一个环状质粒,命名为pMF1。序列分析表明,该质粒长18,634 bp,G+C含量为68.7%。在该质粒中发现了23个开放阅读框,其中14个与任何已知序列均无同源性。含有编码一种大型未知蛋白的pMF1.14基因的质粒,能够以高频率(约10(5) CFU/μg DNA)转化黄色粘球菌DZ1和DK1622,这表明该位点负责pMF1的自主复制。构建了用于黄色粘球菌和大肠杆菌的穿梭载体。将黄色粘球菌中菌毛形成和社会运动所必需的pilA基因克隆到穿梭载体中,并导入pilA缺陷型突变体DK10410。转化体随后表现出形成菌毛和社会运动的能力。自主复制质粒pMF1为黄色粘球菌的基因操作提供了一种新工具。

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