Department of Bacteriology, Graduate School of Dentistry, Osaka Dental University, Japan.
Department of Bacteriology, Osaka Dental University, Japan.
J Oral Biosci. 2024 Jun;66(2):358-364. doi: 10.1016/j.job.2024.04.006. Epub 2024 Apr 18.
Rothia spp. are emerging as significant bacteria associated with oral health, with Rothia dentocariosa being one of the most prevalent species. However, there is a lack of studies examining these properties at the genetic level. This study aimed to establish a genetic modification platform for R. dentocariosa.
Rothia spp. were isolated from saliva samples collected from healthy volunteers. Subsequently, R. dentocariosa strains were identified through colony morphology, species-specific polymerase chain reaction (PCR), and 16S ribosomal RNA gene sequencing. The identified strains were then transformed with plasmid pJRD215, and the most efficient strain was selected. Transposon insertion mutagenesis was performed to investigate the possibility of genetic modifications.
A strain demonstrating high transforming ability, designated as R. dentocariosa LX16, was identified. This strain underwent transposon insertion mutagenesis and was screened for 5-fluoroorotic acid-resistant transposants. The insertion sites were confirmed using arbitrary primed PCR, gene-specific PCR, and Sanger sequencing.
This study marks the first successful genetic modification of R. dentocariosa. Investigating R. dentocariosa at the genetic level can provide insights into its role within the oral microbiome.
罗瑟氏菌属(Rothia)作为与口腔健康密切相关的重要细菌正在逐渐受到关注,其中尤以罗瑟氏菌齿垢亚种(Rothia dentocariosa)最为常见。然而,目前关于这些特性的遗传学研究还较为缺乏。本研究旨在建立罗瑟氏菌齿垢亚种的遗传修饰平台。
从健康志愿者的唾液样本中分离罗瑟氏菌属。通过菌落形态、种特异性聚合酶链反应(PCR)和 16S 核糖体 RNA 基因测序鉴定罗瑟氏菌齿垢亚种菌株。随后,使用质粒 pJRD215 对鉴定出的菌株进行转化,选择转化效率最高的菌株。通过转座子插入诱变来探索遗传修饰的可能性。
鉴定出一株具有高转化能力的菌株,命名为罗瑟氏菌齿垢亚种 LX16。该菌株经历了转座子插入诱变,并对 5-氟乳清酸抗性转座子进行了筛选。使用随机引物 PCR、基因特异性 PCR 和 Sanger 测序确认了插入位点。
本研究首次成功对罗瑟氏菌齿垢亚种进行了遗传修饰。对罗瑟氏菌齿垢亚种进行遗传学研究可以深入了解其在口腔微生物组中的作用。
Zotero 插件