Reversible excision of the wzy locus in Salmonella Typhimurium may aid recovery following phage predation

Oliver JD Charity, Gaetan Thilliez, Haider Al-Khanaq, Luke Acton, Rafal Kolenda, Matt Bawn, Liljana Petrovska, Robert A Kingsley
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Abstract

Bacteriophage (phage) are promising novel antimicrobials but a key challenge to their effective implementation is the rapid emergence of phage resistance. An improved understanding of phage-host interactions is therefore needed. The Anderson phage typing scheme differentiates closely related strains of Salmonella enterica serovar Typhimurium (S. Typhimurium) based on sensitivity to a panel of phage preparations. Switches in phage type are indicative of changes in phage sensitivity and inform on the dynamics of phage interaction with their host bacteria. We investigated the molecular basis of switches between the relatively phage sensitive S. Typhimurium DT8 and phage resistant DT30 strains that are present in the same phylogenetic clade. DT30 strains emerged from DT8 strains predominantly by deletion of a genomic region affecting the wzy locus encoding an O-antigen polymerase. The deletion site was flanked by two perfect direct repeats designated attL and attR. During broth culture in the presence of a typing phage that used O-antigen as primary receptor the Deltawzy genotype increased in frequency compared with culture in the absence of phage and removal of attL prevented deletion of the wzy locus. Co-culture of S. Typhimurium DT8 with a strain lacking wzy resulted in reversion of the latter to wild type. We propose a model in which reversible deletion of the wzy locus enables recovery of S. Typhimurium DT8 following predation by phage that use O-antigen as their primary receptor. This was consistent with ancestral state reconstruction of DT8 and DT30 phylogeny that supported a model of reversible transition from DT8 to DT30 in natural populations.
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伤寒沙门氏菌中 wzy 基因座的可逆切除可能有助于噬菌体捕食后的恢复
噬菌体(噬菌体)是一种前景广阔的新型抗菌药物,但其有效应用所面临的一个主要挑战是噬菌体抗药性的迅速出现。因此,需要进一步了解噬菌体与宿主的相互作用。安德森噬菌体分型方案根据对一组噬菌体制剂的敏感性来区分密切相关的鼠伤寒沙门氏菌(S. Typhimurium)菌株。噬菌体类型的转换表明了噬菌体敏感性的变化,并为噬菌体与其宿主细菌相互作用的动态提供了信息。我们研究了同一系统发育支系中相对对噬菌体敏感的伤寒杆菌 DT8 株系和对噬菌体耐药的 DT30 株系之间噬菌体类型切换的分子基础。DT30 菌株主要是通过缺失影响编码 O 抗原聚合酶的 wzy 基因座的基因组区域从 DT8 菌株中分离出来的。缺失位点两侧有两个完美的直接重复位点,分别被命名为 attL 和 attR。在有以 O 抗原为主要受体的分型噬菌体存在的肉汤培养过程中,与没有噬菌体的培养相比,Deltawzy 基因型的出现频率增加了,attL 的去除阻止了 wzy 基因座的缺失。Typhimurium DT8 与缺乏 wzy 的菌株共培养会导致后者逆转为野生型。我们提出了一个模型,在该模型中,wzy基因座的可逆性缺失使伤寒杆菌DT8在被以O抗原为主要受体的噬菌体捕食后得以恢复。这与 DT8 和 DT30 系统发育的祖先状态重建相一致,支持在自然种群中从 DT8 到 DT30 的可逆过渡模式。
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