Gicquel-Sanzey B, Moniz-Pereira J, Gheorghiu M, Rauzier J
Unité de Génie Microbiologique, Institut Pasteur, Paris.
Acta Leprol. 1989;7 Suppl 1:208-11.
We have developed a gene cloning system for mycobacteria. Based on the nucleotide sequence determined for the M. fortuitum plasmid pAL5000, we have constructed an E. coli/mycobacteria shuttle vector. This vector, pAL8, is composed of pAL5000, pTZ19R (an E. coli plasmid) and a kanamycin resistance gene (from Tn903). We were unable to obtain viable kanamycin resistant pAL8 transformants of M. smegmatis using a PEG-mediated DNA uptake system, in spite of the fact that we could show efficient DNA uptake by transfection using the mycobacterial lytic phage D29. However, kanamycin resistant transformants of M. smegmatis or BCG could be obtained by electroporation. This plasmid cloning system provides a tool for studies of the expression of cloned genes (e.g. virulence) or epitopes in mycobacteria and allows the rational construction of recombinant BCG polyvalent vaccines.
我们已经开发出一种用于分枝杆菌的基因克隆系统。基于对偶然分枝杆菌质粒pAL5000测定的核苷酸序列,我们构建了一种大肠杆菌/分枝杆菌穿梭载体。该载体pAL8由pAL5000、pTZ19R(一种大肠杆菌质粒)和一个卡那霉素抗性基因(来自Tn903)组成。尽管我们通过使用分枝杆菌裂解噬菌体D29转染能够证明有效的DNA摄取,但使用聚乙二醇介导的DNA摄取系统,我们无法获得耻垢分枝杆菌的有活力的卡那霉素抗性pAL8转化体。然而,通过电穿孔可以获得耻垢分枝杆菌或卡介苗的卡那霉素抗性转化体。这种质粒克隆系统为研究分枝杆菌中克隆基因(如毒力)或表位的表达提供了一种工具,并允许合理构建重组卡介苗多价疫苗。