Picken R N
Pandex Division, Baxter Diagnostics, Inc., Mundelein, Illinois 60060.
J Clin Microbiol. 1992 Jan;30(1):99-114. doi: 10.1128/jcm.30.1.99-114.1992.
By cloning and sequencing the flagellin gene of Borrelia hermsii and comparing this sequence with that of the corresponding gene from B. burgdorferi, I identified a central region within the two genes which showed a reduced level of sequence similarity. Oligonucleotide sequences selected from this region produced species-specific amplimers when used in polymerase chain reaction experiments. Thus, primers derived from the B. burgdorferi sequence amplified a 276-bp fragment from 22 strains of B. burgdorferi of diverse geographic origin but not from 5 strains of B. hermsii, 5 other Borrelia species, 16 Treponema, Leptospira, and Spirochaeta species, or representatives of 10 other bacterial genera. However, when the amplified fragments were tested for hybridization with an oligonucleotide probe derived from the nonhomologous region, seven strains from either Germany or Switzerland did not hybridize. Cloning and sequencing of the amplified fragments from these strains revealed that the 22 strains of B. burgdorferi tested could be divided into three groups based on the nucleic acid sequence of the central region of the flagellin gene. With this information, oligonucleotide probes that hybridized to the amplified fragments and were able to differentiate the three groups of B. burgdorferi were designed. The corresponding primers, derived from the B. hermsii gene sequence, were tested for their ability to amplify DNA from this collection of strains. Although no amplification was obtained with representatives of the three groups of B. burgdorferi or various Treponema, Leptospira, and Spirochaeta species, amplification was obtained with the five other Borrelia species (B. parkeri, B. turicatae, B. crocidurae, B. anserina, and B. coriaceae) in addition to the five strains of B. hermsii. Sequencing of the amplified fragments from one strain of B. hermsii as well as B. parkeri and B. turicatae allowed the design of oligonucleotide probes that were able to differentiate the three species of North American relapsing fever spirochetes into two separate groups. These studies suggest that there is sufficient diversity within the flagellin gene sequences of closely related Borrelia species to differentiate them into groups and to pursue taxonomic studies both within and between species.
通过克隆和测序赫氏疏螺旋体的鞭毛蛋白基因,并将该序列与伯氏疏螺旋体相应基因的序列进行比较,我确定了这两个基因中的一个中心区域,该区域的序列相似性水平较低。从该区域选择的寡核苷酸序列在聚合酶链反应实验中使用时产生了物种特异性扩增子。因此,源自伯氏疏螺旋体序列的引物从22株来自不同地理区域的伯氏疏螺旋体中扩增出一个276 bp的片段,但未从5株赫氏疏螺旋体、5种其他疏螺旋体、16种密螺旋体、钩端螺旋体和螺旋体属物种或10种其他细菌属的代表菌株中扩增出该片段。然而,当测试扩增片段与源自非同源区域的寡核苷酸探针的杂交时,来自德国或瑞士的7株菌株未发生杂交。对这些菌株的扩增片段进行克隆和测序后发现,根据鞭毛蛋白基因中心区域的核酸序列,所测试的22株伯氏疏螺旋体可分为三组。基于这些信息,设计了与扩增片段杂交并能够区分三组伯氏疏螺旋体的寡核苷酸探针。测试了源自赫氏疏螺旋体基因序列的相应引物从这组菌株中扩增DNA的能力。虽然从三组伯氏疏螺旋体的代表菌株或各种密螺旋体、钩端螺旋体和螺旋体属物种中未获得扩增,但除了5株赫氏疏螺旋体之外,还从其他5种疏螺旋体(帕克疏螺旋体、图里卡塔疏螺旋体、食虫疏螺旋体、鹅疏螺旋体和科里亚克疏螺旋体)中获得了扩增。对一株赫氏疏螺旋体以及帕克疏螺旋体和图里卡塔疏螺旋体的扩增片段进行测序后,设计了能够将三种北美回归热螺旋体分为两个不同组的寡核苷酸探针。这些研究表明,密切相关的疏螺旋体物种的鞭毛蛋白基因序列中存在足够的多样性,可将它们分为不同的组,并在种内和种间进行分类学研究。
