Intragenomic conflicts with plasmids and chromosomal mobile genetic elements drive the evolution of natural transformation within species.

IF 9.8 1区 生物学 Q1 Agricultural and Biological Sciences PLoS Biology Pub Date : 2024-10-14 eCollection Date: 2024-10-01 DOI:10.1371/journal.pbio.3002814
Fanny Mazzamurro, Jason Baby Chirakadavil, Isabelle Durieux, Ludovic Poiré, Julie Plantade, Christophe Ginevra, Sophie Jarraud, Gottfried Wilharm, Xavier Charpentier, Eduardo P C Rocha
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Abstract

Natural transformation is the only mechanism of genetic exchange controlled by the recipient bacteria. We quantified its rates in 786 clinical strains of the human pathogens Legionella pneumophila (Lp) and 496 clinical and environmental strains of Acinetobacter baumannii (Ab). The analysis of transformation rates in the light of phylogeny revealed they evolve by a mixture of frequent small changes and a few large quick jumps across 6 orders of magnitude. In standard conditions close to half of the strains of Lp and a more than a third in Ab are below the detection limit and thus presumably non-transformable. Ab environmental strains tend to have higher transformation rates than the clinical ones. Transitions to non-transformability were frequent and usually recent, suggesting that they are deleterious and subsequently purged by natural selection. Accordingly, we find that transformation decreases genetic linkage in both species, which might accelerate adaptation. Intragenomic conflicts with chromosomal mobile genetic elements (MGEs) and plasmids could explain these transitions and a GWAS confirmed systematic negative associations between transformation and MGEs: plasmids and other conjugative elements in Lp, prophages in Ab, and transposable elements in both. In accordance with the hypothesis of modulation of transformation rates by genetic conflicts, transformable strains have fewer MGEs in both species and some MGEs inactivate genes implicated in the transformation with heterologous DNA (in Ab). Innate defense systems against MGEs are associated with lower transformation rates, especially restriction-modification systems. In contrast, CRISPR-Cas systems are associated with higher transformation rates suggesting that adaptive defense systems may facilitate cell protection from MGEs while preserving genetic exchanges by natural transformation. Ab and Lp have different lifestyles, gene repertoires, and population structure. Nevertheless, they exhibit similar trends in terms of variation of transformation rates and its determinants, suggesting that genetic conflicts could drive the evolution of natural transformation in many bacteria.

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与质粒和染色体移动遗传因子的基因组内冲突推动了物种内自然转化的进化。
自然转化是由受体细菌控制的唯一基因交换机制。我们对 786 株人类病原体嗜肺军团菌(Lp)临床菌株和 496 株鲍曼不动杆菌(Ab)临床和环境菌株的转化率进行了量化。根据系统发生学对转化率进行的分析表明,转化率的演变既有频繁的微小变化,也有跨越 6 个数量级的几次大的快速跃迁。在标准条件下,近一半的 Lp 菌株和三分之一以上的 Ab 菌株的转化率低于检测限,因此推测为不可转化。Ab 环境菌株的转化率往往高于临床菌株。向不可转化性的转变很频繁,而且通常是最近发生的,这表明它们是有害的,随后被自然选择所清除。因此,我们发现转化会降低两个物种的遗传联系,这可能会加速适应。与染色体移动遗传因子(MGEs)和质粒的基因组内冲突可以解释这些转变,一项全球基因组分析证实了转化与MGEs之间的系统负相关:Lp中的质粒和其他共轭元件、Ab中的噬菌体以及两者中的转座元件。根据基因冲突调节转化率的假设,在这两个物种中,可转化菌株的 MGEs 都较少,而且一些 MGEs 会使与异源 DNA 转化有关的基因失活(在 Ab 中)。针对 MGEs 的先天防御系统与较低的转化率有关,尤其是限制性修饰系统。相比之下,CRISPR-Cas 系统与较高的转化率有关,这表明适应性防御系统可促进细胞免受 MGEs 的伤害,同时通过自然转化保留基因交换。Ab 和 Lp 有着不同的生活方式、基因库和种群结构。尽管如此,它们在转化率及其决定因素的变化方面表现出相似的趋势,这表明遗传冲突可能会推动许多细菌的自然转化进化。
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来源期刊
PLoS Biology
PLoS Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-BIOLOGY
CiteScore
15.40
自引率
2.00%
发文量
359
审稿时长
3-8 weeks
期刊介绍: PLOS Biology is the flagship journal of the Public Library of Science (PLOS) and focuses on publishing groundbreaking and relevant research in all areas of biological science. The journal features works at various scales, ranging from molecules to ecosystems, and also encourages interdisciplinary studies. PLOS Biology publishes articles that demonstrate exceptional significance, originality, and relevance, with a high standard of scientific rigor in methodology, reporting, and conclusions. The journal aims to advance science and serve the research community by transforming research communication to align with the research process. It offers evolving article types and policies that empower authors to share the complete story behind their scientific findings with a diverse global audience of researchers, educators, policymakers, patient advocacy groups, and the general public. PLOS Biology, along with other PLOS journals, is widely indexed by major services such as Crossref, Dimensions, DOAJ, Google Scholar, PubMed, PubMed Central, Scopus, and Web of Science. Additionally, PLOS Biology is indexed by various other services including AGRICOLA, Biological Abstracts, BIOSYS Previews, CABI CAB Abstracts, CABI Global Health, CAPES, CAS, CNKI, Embase, Journal Guide, MEDLINE, and Zoological Record, ensuring that the research content is easily accessible and discoverable by a wide range of audiences.
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