一种新型细菌素 51 的遗传组织和作用模式:VanA 型万古霉素耐药粪肠球菌的决定因素。
Genetic organization and mode of action of a novel bacteriocin, bacteriocin 51: determinant of VanA-type vancomycin-resistant Enterococcus faecium.
机构信息
Department of Bacteriology, Gunma University Graduate School of Medicine, 3-39-22 Showa-Machi, Maebashi, Gunma 371-8511, Japan.
出版信息
Antimicrob Agents Chemother. 2011 Sep;55(9):4352-60. doi: 10.1128/AAC.01274-10. Epub 2011 Jun 27.
Bacteriocin 51 (Bac 51) is encoded on the mobile plasmid pHY (6,037 bp), which was isolated from vancomycin-resistant Enterococcus faecium VRE38. Bacteriocin 51 is active against E. faecium, E. hirae, and E. durans. Sequence analysis of pHY showed that it encodes nine open reading frames (ORFs) from ORF1 to ORF9 (in that order). Genetic analysis suggested that ORF1 and ORF2, which were designated bacA and bacB, respectively, are the bacteriocin and immunity genes. bacA encodes a 144-amino-acid protein. The deduced BacA protein has a typical signal sequence at its amino terminus, and a potential signal peptidase-processing site corresponding to the V-E-A sequence is located between the 37th and 39th amino acids. The predicted mature BacA protein consists of 105 amino acids. A potential promoter sequence was identified upstream of the start codon. bacB encodes a 55-amino-acid protein. No obvious promoter or terminator sequence was identified between bacA and bacB. Northern blot analysis of bacA and bacB with a bacA RNA probe produced a transcript of approximately 700 nucleotides, which corresponded to the combined nucleotide sizes of bacA and bacB, indicating that transcription was initiated from the promoter upstream of bacA, continued through bacB, and was terminated at the terminator downstream of bacB. The transcription start site was determined to be the T nucleotide located 6 nucleotides downstream from the -10 promoter sequence. These results indicate that bacA and bacB constitute an operon and that bacA is the bacteriocin structural gene while bacB is the immunity gene. The purified C-terminally His tagged BacA protein of Bac 51 showed bacteriostatic activity against the indicator strain. The purified C-terminally His tagged BacA protein of Bac 32 (whose mature BacA protein has 54 amino acids) and the culture filtrates of the Bac 31- and Bac 43-producing E. faecalis strain FA2-2 showed bactericidal activity. Bac 31 and Bac 43 are pore-forming bacteriocins, unlike the newly characterized bacteriocin Bac 51.
细菌素 51(Bac 51)编码在可移动质粒 pHY 上(6037 个碱基对),该质粒是从万古霉素耐药粪肠球菌 VRE38 中分离出来的。细菌素 51 对粪肠球菌、屎肠球菌和耐久肠球菌具有活性。pHY 的序列分析表明,它从 ORF1 到 ORF9(按此顺序)编码 9 个开放阅读框(ORF)。遗传分析表明,ORF1 和 ORF2,分别指定为 bacA 和 bacB,是细菌素和免疫基因。bacA 编码一个 144 个氨基酸的蛋白质。推定的 BacA 蛋白在其氨基末端具有典型的信号序列,并且在 37 号和 39 号氨基酸之间存在对应于 V-E-A 序列的潜在信号肽加工位点。预测的成熟 BacA 蛋白由 105 个氨基酸组成。在起始密码子上游鉴定到一个潜在的启动子序列。bacB 编码一个 55 个氨基酸的蛋白质。在 bacA 和 bacB 之间没有发现明显的启动子或终止子序列。用 bacA RNA 探针进行 bacA 和 bacB 的 Northern blot 分析产生了约 700 个核苷酸的转录物,与 bacA 和 bacB 的核苷酸总和相对应,表明转录从 bacA 上游的启动子开始,通过 bacB 继续,并在 bacB 下游的终止子处终止。转录起始位点确定为位于-10 启动子序列下游 6 个核苷酸的 T 核苷酸。这些结果表明 bacA 和 bacB 构成一个操纵子,bacA 是细菌素结构基因,而 bacB 是免疫基因。Bac 51 的 C 末端 His 标记 BacA 蛋白的纯化显示对指示菌株具有抑菌活性。Bac 32(其成熟 BacA 蛋白具有 54 个氨基酸)的 C 末端 His 标记 BacA 蛋白和 Bac 31 和 Bac 43 产生的粪肠球菌 FA2-2 的培养滤液均显示杀菌活性。Bac 31 和 Bac 43 是形成孔的细菌素,与新表征的细菌素 Bac 51 不同。
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