Morrison D, Woodford N, Barrett S P, Sisson P, Cookson B D
Laboratory of Hospital Infection, Central Public Health Laboratory, London, United Kingdom.
J Clin Microbiol. 1999 Apr;37(4):1084-91. doi: 10.1128/JCM.37.4.1084-1091.1999.
The degree of DNA banding pattern polymorphism exhibited by vancomycin-resistant Enterococcus faecium (VREM) strains isolated on a renal unit over an 11-month period was investigated. Thirty VREM strains from different patients were analyzed by pulsed-field gel electrophoresis (PFGE; with extended run and optimal pulse times), ribotyping, plasmid profile analysis, biotyping, pyrolysis mass spectrometry, and antibiogram analysis. PFGE resolved 17 banding patterns which formed four distinct clusters at the 82% similarity level. Intercluster band differences ranged from 14 to 31 bands. The strains in one cluster, which contained seven patterns that differed from each other by one to seven bands and from the common pattern by five bands, were confirmed to be a single strain by four of the five other typing methods. The strains in a second cluster with eight patterns, which differed from each other by 1 to 12 bands, contained two subclusters. This subdivision was supported by ribotyping and biotyping. However, it was unclear whether these subclusters represented distinct strains. In one strain, marked polymorphism (patterns that differed from each other by up to four bands) was observed in the ribotype pattern. This study demonstrates the high degree of DNA banding pattern polymorphism found for some strains of VREM and illustrates the complexity involved in defining such strains.
对在11个月期间从一个肾脏科室分离出的耐万古霉素屎肠球菌(VREM)菌株所表现出的DNA条带模式多态性程度进行了研究。通过脉冲场凝胶电泳(PFGE;采用延长电泳时间和最佳脉冲时间)、核糖体分型、质粒图谱分析、生物分型、热解质谱分析和抗菌谱分析,对来自不同患者的30株VREM菌株进行了分析。PFGE解析出17种条带模式,在82%的相似性水平上形成了四个不同的簇。簇间条带差异范围为14至31条带。在一个簇中的菌株,包含七种彼此相差1至7条带且与共同模式相差5条带的模式,通过其他五种分型方法中的四种被确认为单一菌株。在第二个簇中有八种模式的菌株,彼此相差1至12条带,包含两个亚簇。这种细分得到了核糖体分型和生物分型的支持。然而,尚不清楚这些亚簇是否代表不同的菌株。在一个菌株中,在核糖体分型模式中观察到明显的多态性(模式彼此相差多达4条带)。本研究证明了在一些VREM菌株中发现的高度DNA条带模式多态性,并说明了定义此类菌株所涉及的复杂性。