Genomic characterization of prophage elements in Clostridium clostridioforme: an understudied component of the intestinal microbiome.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-01 DOI:10.1099/mic.0.001486
Suzanne Humphrey, Angeliki Marouli, Katja Thümmler, Margaret Mullin, Leighton Pritchard, Daniel M Wall
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Abstract

Genome sequencing of Clostridium clostridioforme strain LM41 revealed the presence of an atypically high proportion of mobile genetic elements for this species, with a particularly high abundance of prophages. Bioinformatic analysis of prophage sequences sought to characterize these elements and identify prophage-linked genes contributing to enhanced fitness of the host bacteria in the dysbiotic gut. Using PHASTER, PhageScope and manual curation, this work has identified 15 prophages: 4 predicted to be intact, 2 predicted to be defective and 9 which are unclassified. Quantitative PCR (qPCR) analysis revealed spontaneous release of four of the LM41 prophages (φ1, φ2, φ4 and φ10) into the culture supernatant, with virion-like particles visualized using transmission electron microscopy. The majority (12/14) of these particles had morphology akin to podoviruses, which is consistent with morphology predictions for φ1 and φ4. We observed diversity in the lysogeny mechanisms utilized by the prophages, with examples of the classical λ-like CI/Cro system, the ICEBs1 ImmR/ImmA-like system and the Mu-like C/Ner system. Classical morons, such as toxins or immune evasion factors, were not observed. We did, however, identify a variety of genes with roles in mediating restriction modification and genetic diversity, as well as some candidate genes with potential roles in host adaptation. Despite being the most abundant entities in the intestine, there is a dearth of information about phages associated with members of the microbiome. This work begins to shed light on the contribution of these elements to the lifestyle of C. clostridioforme LM41.

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梭状芽孢杆菌(Clostridium clostridioforme)中噬菌体元素的基因组特征:肠道微生物组中未被充分研究的组成部分。
梭状芽孢梭菌菌株 LM41 的基因组测序显示,该菌种存在异常高比例的移动遗传因子,其中噬菌体的含量尤其高。对噬菌体序列进行生物信息学分析的目的是确定这些元素的特征,并找出在肠道菌群失调的情况下,噬菌体与宿主细菌的适应性增强有关的基因。这项工作利用 PHASTER、PhageScope 和手工整理,确定了 15 个噬菌体:其中 4 个预测为完整噬菌体,2 个预测为缺陷噬菌体,9 个未分类。定量 PCR(qPCR)分析表明,LM41 的 4 个噬菌体(φ1、φ2、φ4 和 φ10)自发释放到培养上清液中,并通过透射电子显微镜观察到病毒颗粒。这些颗粒中的大多数(12/14)具有类似荚膜病毒的形态,这与φ1和φ4的形态预测一致。我们观察到噬菌体利用的溶菌机制多种多样,例如经典的λ类CI/Cro系统、ICEBs1类ImmR/ImmA系统和Mu类C/Ner系统。我们没有观察到经典的变形体,如毒素或免疫逃避因子。不过,我们确实发现了多种在介导限制性修饰和遗传多样性方面发挥作用的基因,以及一些在宿主适应方面具有潜在作用的候选基因。尽管噬菌体是肠道中最丰富的实体,但与微生物群成员相关的噬菌体信息却十分匮乏。这项研究开始揭示这些元素对梭状芽孢杆菌 LM41 生活方式的贡献。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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