Varhimo Emilia, Savijoki Kirsi, Jalava Jari, Kuipers Oscar P, Varmanen Pekka
University of Helsinki, Department of Basic Veterinary Sciences, P.O. Box 66, FIN-00014, Finland.
J Bacteriol. 2007 Jul;189(14):5210-22. doi: 10.1128/JB.00473-07. Epub 2007 May 18.
Streptococci have been considered to lack the classical SOS response, defined by increased mutation after UV exposure and regulation by LexA. Here we report the identification of a potential self-regulated SOS mutagenesis gene cassette in the Streptococcaceae family. Exposure to UV light was found to increase mutations to antibiotic resistance in Streptococcus uberis cultures. The mutational spectra revealed mainly G:C-->A:T transitions, and Northern analyses demonstrated increased expression of a Y-family DNA polymerase resembling UmuC under DNA-damaging conditions. In the absence of the Y-family polymerase, S. uberis cells were sensitive to UV light and to mitomycin C. Furthermore, the UV-induced mutagenesis was almost completely abolished in cells deficient in the Y-family polymerase. The gene encoding the Y-family polymerase was localized in a four-gene operon including two hypothetical genes and a gene encoding a HdiR homolog. Electrophoretic mobility shift assays demonstrated that S. uberis HdiR binds specifically to an inverted repeat sequence in the promoter region of the four-gene operon. Database searches revealed conservation of the gene cassette in several Streptococcus species, including at least one genome each of Streptococcus pyogenes, Streptococcus agalactiae, Streptococcus mitis, Streptococcus sanguinis, and Streptococcus thermophilus strains. In addition, the umuC operon was localized in several mobile DNA elements of Streptococcus and Lactococcus species. We conclude that the hdiR-umuC-ORF3-ORF4 operon represents a novel gene cassette capable of mediating SOS mutagenesis among members of the Streptococcaceae.
链球菌一直被认为缺乏经典的SOS反应,该反应由紫外线照射后突变增加以及LexA调控来定义。在此,我们报告在链球菌科中鉴定出一个潜在的自我调控的SOS诱变基因盒。研究发现,在乳房链球菌培养物中,紫外线照射会增加对抗生素耐药性的突变。突变谱主要显示为G:C→A:T转换,Northern分析表明,在DNA损伤条件下,一种类似于UmuC的Y家族DNA聚合酶的表达增加。在缺乏Y家族聚合酶的情况下,乳房链球菌细胞对紫外线和丝裂霉素C敏感。此外,在缺乏Y家族聚合酶的细胞中,紫外线诱导的诱变几乎完全被消除。编码Y家族聚合酶的基因位于一个四基因操纵子中,该操纵子包括两个假定基因和一个编码HdiR同源物的基因。电泳迁移率变动分析表明,乳房链球菌HdiR特异性结合到四基因操纵子启动子区域的一个反向重复序列上。数据库搜索显示,该基因盒在几种链球菌物种中保守,包括化脓性链球菌、无乳链球菌、缓症链球菌、血链球菌和嗜热链球菌菌株中至少各有一个基因组。此外,umuC操纵子位于链球菌和乳球菌物种的几个移动DNA元件中。我们得出结论,hdiR-umuC-ORF3-ORF4操纵子代表一个新的基因盒,能够在链球菌科成员中介导SOS诱变。