Fellström C, Pettersson B, Thomson J, Gunnarsson A, Persson M, Johansson K E
Department of Medicine and Surgery, Faculty of Veterinary Medicine, Swedish University of Agricultural Sciences, Uppsala.
J Clin Microbiol. 1997 Feb;35(2):462-7. doi: 10.1128/jcm.35.2.462-467.1997.
A PCR system for the detection and identification of group IV spirochetes (Serpulina pilosicoli) was designed to complement biochemical tests, e.g., the hippurate hydrolysis and beta-glucosidase tests, and to verify the accuracy of a previously proposed biochemical classification system. The PCR assay was based on amplification of a segment of the 16S rRNA gene. Both primers were constructed to selectively amplify the 16S rRNA gene of Serpulina pilosicoli. All analyzed Serpulina strains exhibiting the capacity to hydrolyze hippurate and lacking beta-glucosidase activity, including the type strain for spirochetal diarrhea, P43, were amplified with the PCR system. All other tested strains, including type and field strains of different phenotypes of Serpulina species, as well as Salmonella species, Campylobacter species, and Escherichia coli strains, were negative in the assay. Among the tested strains were 18 Scottish field isolates originating from the mucosae of pigs with colitis. A simple classification scheme, suitable for routine classification of porcine intestinal spirochetes, is also presented. The scheme is based on hemolysis, indole production, and the hippurate hydrolysis test.
设计了一种用于检测和鉴定IV组螺旋体(柔毛螺旋体)的PCR系统,以补充生化试验,如马尿酸盐水解试验和β-葡萄糖苷酶试验,并验证先前提出的生化分类系统的准确性。该PCR检测基于16S rRNA基因片段的扩增。两条引物均经构建以选择性扩增柔毛螺旋体的16S rRNA基因。所有经分析的表现出马尿酸盐水解能力且缺乏β-葡萄糖苷酶活性的螺旋体菌株,包括螺旋体性腹泻的模式菌株P43,均能用该PCR系统扩增。所有其他受试菌株,包括不同表型的螺旋体属模式菌株和田间菌株,以及沙门氏菌属、弯曲杆菌属和大肠杆菌菌株,在该检测中均为阴性。受试菌株中有18株源自患有结肠炎的猪黏膜的苏格兰田间分离株。还提出了一种适用于猪肠道螺旋体常规分类的简单分类方案。该方案基于溶血、吲哚产生和马尿酸盐水解试验。