Dustin J Van Hofwegen, Carolyn J Hovde, Scott A Minnich
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引用次数: 0
Abstract
Pathogenic bacteria recognize environmental cues to vary gene expression for host adaptation. Moving from ambient to host temperature, Yersinia enterocolitica responds by immediately repressing flagella synthesis and inducing the virulence plasmid (pYV)-encoded type III secretion system. In contrast, shifting from host to ambient temperature requires 2.5 generations to restore motility, suggesting a link to the cell cycle. We hypothesized that differential DNA methylation contributes to temperature-regulated gene expression. We tested this hypothesis by comparing single-molecule real-time (SMRT) sequencing of Y. enterocolitica DNA from cells growing exponentially at 22 °C and 37 °C. The inter-pulse duration ratio rather than the traditional QV scoring was the kinetic metric to compare DNA from cells grown at each temperature. All 565 YenI restriction sites were fully methylated at both temperatures. Among the 27,118 DNA adenine methylase (Dam) sites, 42 had differential methylation patterns, while 17 remained unmethylated regardless of the temperature. A subset of the differentially methylated Dam sites localized to promoter regions of predicted regulatory genes including LysR-type and PadR-like transcriptional regulators and a cyclic-di-GMP phosphodiesterase. The unmethylated Dam sites localized with a bias to the replication terminus, suggesting they were protected from Dam methylase. No cytosine methylation was detected at Dcm sites.
致病细菌识别环境线索,改变基因表达以适应宿主。从环境温度到宿主温度,小肠结肠耶尔森菌(Yersinia enterocolitica)的反应是立即抑制鞭毛合成,并诱导毒力质粒(pYV)编码的 III 型分泌系统。相反,从宿主温度转移到环境温度需要 2.5 代才能恢复运动能力,这表明与细胞周期有关。我们假设,不同的 DNA 甲基化有助于温度调节的基因表达。我们通过比较单分子实时(SMRT)测序对在22 °C和37 °C下指数生长的小肠结肠炎病毒细胞DNA进行了测试。脉冲间持续时间比值而非传统的 QV 评分是比较在不同温度下生长的细胞 DNA 的动力学指标。在两种温度下,所有 565 个 YenI 限制位点都完全甲基化。在27118个DNA腺嘌呤甲基化酶(Dam)位点中,42个位点的甲基化模式不同,而17个位点无论温度如何都保持未甲基化。不同甲基化的Dam位点的一部分定位在预测的调控基因的启动子区域,包括LysR型和PadR型转录调控因子和一种环二-GMP磷酸二酯酶。未甲基化的 Dam 位点偏向于定位在复制末端,这表明它们受到 Dam 甲基化酶的保护。在 Dcm 位点没有检测到胞嘧啶甲基化。
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