基于从头合成途径中宿主营养缺陷互补的新型抗生素免费质粒选择系统。
Novel antibiotic-free plasmid selection system based on complementation of host auxotrophy in the NAD de novo synthesis pathway.
机构信息
College of Life Sciences, Zhejiang University, Hangzhou 310058, People's Republic of China.
出版信息
Appl Environ Microbiol. 2010 Apr;76(7):2295-303. doi: 10.1128/AEM.02462-09. Epub 2010 Jan 29.
Abstract
The use of antibiotic resistance genes in plasmids causes potential biosafety and clinical hazards, such as the possibility of horizontal spread of resistance genes or the rapid emergence of multidrug-resistant pathogens. This paper introduces a novel auxotrophy complementation system that allowed plasmids and host cells to be effectively selected and maintained without the use of antibiotics. An Escherichia coli strain carrying a defect in NAD de novo biosynthesis was constructed by knocking out the chromosomal quinolinic acid phosphoribosyltransferase (QAPRTase) gene. The resistance gene in the plasmids was replaced by the QAPRTase gene of E. coli or the mouse. As a result, only expression of the QAPRTase gene from plasmids can complement and rescue E. coli host cells in minimal medium. This is the first time that a vertebrate gene has been used to construct a nonantibiotic selection system, and it can be widely applied in DNA vaccine and gene therapy. As the QAPRTase gene is ubiquitous in species ranging from bacteria to mammals, the potential environmental biosafety problems caused by horizontal gene transfer can be eliminated.
摘要
质粒中抗生素耐药基因的使用会带来潜在的生物安全和临床危害,例如耐药基因的水平传播或多药耐药病原体的快速出现的可能性。本文介绍了一种新颖的营养缺陷互补系统,该系统允许在不使用抗生素的情况下有效地选择和维持质粒和宿主细胞。通过敲除染色体喹啉酸磷酸核糖基转移酶(QAPRTase)基因,构建了一株大肠杆菌缺陷型 NAD 从头生物合成的菌株。质粒中的抗性基因被大肠杆菌或小鼠的 QAPRTase 基因取代。结果,只有质粒中 QAPRTase 基因的表达才能在最小培养基中补充和拯救大肠杆菌宿主细胞。这是首次使用脊椎动物基因构建非抗生素选择系统,可广泛应用于 DNA 疫苗和基因治疗。由于 QAPRTase 基因在从细菌到哺乳动物的各种物种中普遍存在,因此可以消除水平基因转移引起的潜在环境生物安全问题。
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