Schwan T G, Burgdorfer W, Garon C F
Laboratory of Pathobiology, Rocky Mountain Laboratories, National Institue of Allergy and Infectious Diseases, Hamilton, Montana 59840.
Infect Immun. 1988 Aug;56(8):1831-6. doi: 10.1128/iai.56.8.1831-1836.1988.
In vitro cultivation of Borrelia burgdorferi, the etiologic agent of Lyme spirochetosis, allows for the isolation and growth of this bacterium from infected tissues. However, continuous cultivation in modified Kelly medium causes a reduction in the number of detectable plasmids and the loss of infectivity in the white-footed mouse, Peromyscus leucopus. In an unpassaged culture of B. burgdorferi, nine plasmids were present, including seven linear plasmids ranging in size from 49 to 16 kilobases (kb) and two circular plasmids of 27 and 7.6 kb. The 7.6-kb circular and 22-kb linear plasmids were no longer detectable in spirochetes noninfective in white-footed mice, suggesting that a gene(s) encoding for factors responsible for infection may be present on one or more of these extrachromosomal elements. Furthermore, changes in spirochetal proteins and lipopolysaccharide-like material were observed also during early cultivation and may be related to loss of infectivity.
莱姆螺旋体病的病原体伯氏疏螺旋体的体外培养,使得该细菌能够从受感染组织中分离并生长。然而,在改良的凯利培养基中连续培养会导致可检测到的质粒数量减少,以及在白足鼠(白足鼠属)中丧失感染力。在未传代的伯氏疏螺旋体培养物中,存在9种质粒,包括7种大小在49至16千碱基(kb)之间的线性质粒,以及2种大小分别为27 kb和7.6 kb的环性质粒。在对白足鼠无感染性的螺旋体中,不再能检测到7.6 kb的环性质粒和22 kb的线性质粒,这表明负责感染的因子的一个或多个编码基因可能存在于这些染色体外元件中的一个或多个上。此外,在早期培养过程中也观察到螺旋体蛋白和脂多糖样物质的变化,这可能与感染力的丧失有关。