The Transcriptional Program of Staphylococcus aureus Phage K Is Affected by a Host rpoC Mutation That Confers Phage K Resistance.

IF 3.8 3区 医学 Q2 VIROLOGY Viruses-Basel Pub Date : 2024-11-13 DOI:10.3390/v16111773
Rohit Kongari, Melissa D Ray, Susan M Lehman, Roger D Plaut, Deborah M Hinton, Scott Stibitz
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Abstract

To better understand host-phage interactions and the genetic bases of phage resistance in a model system relevant to potential phage therapy, we isolated several spontaneous mutants of the USA300 S. aureus clinical isolate NRS384 that were resistant to phage K. Six of these had a single missense mutation in the host rpoC gene, which encodes the RNA polymerase β' subunit. To examine the hypothesis that mutations in the host RNA polymerase affect the transcription of phage genes, we performed RNA-seq analysis on total RNA samples collected from NRS384 wild-type (WT) and rpoCG17D mutant cultures infected with phage K, at different timepoints after infection. Infection of the WT host led to a steady increase of phage transcription relative to the host. Our analysis allowed us to define 53 transcriptional units and to categorize genes based on their temporal expression patterns. Predicted promoter sequences defined by conserved -35, -10, and, in some cases, extended -10 elements, were found upstream of early and middle genes. However, in many cases, sequences upstream of late genes did not contain clear, complete, canonical promoter sequences, suggesting that factors in addition to host RNA polymerase are required for their expression. Infection of the rpoCG17D mutant host led to a transcriptional pattern that was similar to that of the WT at early timepoints. However, beginning at 20 min after infection, transcription of late genes (such as phage structural genes and host lysis genes) was severely reduced. Our data indicate that the rpoCG17D mutation prevents the expression of phage late genes, resulting in a failed infection cycle for phage K. In addition to illuminating the global transcriptional landscape of phage K throughout the infection cycle, this study will inform our investigations into the basis of phage K's control of its transcriptional program as well as mechanisms of phage resistance.

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金黄色葡萄球菌噬菌体 K 的转录程序受宿主 rpoC 突变的影响,从而产生噬菌体 K 抗性。
为了更好地了解宿主与噬菌体之间的相互作用以及与潜在噬菌体疗法相关的模型系统中噬菌体抗性的遗传基础,我们从美国300金黄色葡萄球菌临床分离株NRS384中分离出了几种对噬菌体K具有抗性的自发突变体。为了验证宿主 RNA 聚合酶突变会影响噬菌体基因转录的假设,我们在感染噬菌体 K 后的不同时间点,对从 NRS384 野生型(WT)和 rpoCG17D 突变体培养物中收集的总 RNA 样本进行了 RNA-seq 分析。相对于宿主而言,感染 WT 宿主会导致噬菌体转录的稳定增长。通过分析,我们确定了 53 个转录单元,并根据其时间表达模式对基因进行了分类。在早期和中期基因的上游发现了由保守的-35、-10以及某些情况下的扩展-10元件定义的预测启动子序列。然而,在许多情况下,晚期基因上游的序列并不包含清晰、完整、规范的启动子序列,这表明除了宿主 RNA 聚合酶外,它们的表达还需要其他因素。感染 rpoCG17D 突变体宿主后,在早期时间点的转录模式与 WT 相似。然而,从感染后 20 分钟开始,晚期基因(如噬菌体结构基因和宿主裂解基因)的转录严重减少。我们的数据表明,rpoCG17D 突变阻止了噬菌体晚期基因的表达,导致噬菌体 K 的感染周期失败。除了阐明噬菌体 K 在整个感染周期中的全局转录情况外,这项研究还将为我们研究噬菌体 K 对其转录程序的控制基础以及噬菌体抗性机制提供信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Viruses-Basel
Viruses-Basel VIROLOGY-
CiteScore
7.30
自引率
12.80%
发文量
2445
审稿时长
1 months
期刊介绍: Viruses (ISSN 1999-4915) is an open access journal which provides an advanced forum for studies of viruses. It publishes reviews, regular research papers, communications, conference reports and short notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. We also encourage the publication of timely reviews and commentaries on topics of interest to the virology community and feature highlights from the virology literature in the ''News and Views'' section. Electronic files or software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.
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