Metagenome-assembled genomes of three Hepatoplasmataceae provide insights into isopod-mollicute symbiosis.

Access microbiology Pub Date : 2024-02-20 eCollection Date: 2024-01-01 DOI:10.1099/acmi.0.000592.v3
Satoshi Kawato, Reiko Nozaki, Hidehiro Kondo, Ikuo Hirono
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Abstract

The digestive organs of terrestrial isopods harbour bacteria of the recently proposed mollicute family Hepatoplasmataceae. The only complete genome available so far for Hepatoplasmataceae is that of 'Candidatus Hepatoplasma crinochetorum'. The scarcity of genome sequences has hampered our understanding of the symbiotic relationship between isopods and mollicutes. Here, we present four complete metagenome-assembled genomes (MAGs) of uncultured Hepatoplasmataceae members identified from shotgun sequencing data of isopods. We propose genomospecies names for three MAGs that show substantial sequence divergence from any previously known Hepatoplamsataceae members: 'Candidatus Tyloplasma litorale' identified from the semiterrestrial isopod Tylos granuliferus, 'Candidatus Hepatoplasma vulgare' identified from the common pill bug Armadillidium vulgare, and 'Candidatus Hepatoplasma scabrum' identified from the common rough woodlouse Porcellio scaber. Phylogenomic analysis of 155 mollicutes confirmed that Hepatoplasmataceae is a sister clade of Metamycoplasmataceae in the order Mycoplasmoidales. The 16S ribosomal RNA gene sequences and phylogenomic analysis showed that 'Candidatus Tyloplasma litorale' and other semiterrestrial isopod-associated mollicutes represent the placeholder genus 'g_Bg2' in the r214 release of the Genome Taxonomy Database, warranting their assignment to a novel genus. Our analysis also revealed that Hepatoplasmataceae lack major metabolic pathways but has a likely intact type IIA CRISPR-Cas9 machinery. Although the localization of the Hepatoplasmatacae members have not been verified microscopically in this study, these genomic characteristics are compatible with the idea that these mollicutes have an ectosymbiotic lifestyle with high nutritional dependence on their host, as has been demonstrated for other members of the family. We could not find evidence that Hepatoplasmataceae encode polysaccharide-degrading enzymes that aid host digestion. If they are to provide nutritional benefits, it may be through extra-copy nucleases, peptidases, and a patatin-like lipase. Exploration of potential host-symbiont interaction-associated genes revealed large, repetitive open reading frames harbouring beta-sandwich domains, possibly involved with host cell adhesion. Overall, genomic analyses suggest that isopod-mollicute symbiosis is not characterized by carbohydrate degradation, and we speculate on their potential role as defensive symbionts through spatial competition with pathogens to prevent infection.

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元基因组组装的三种七鳃鳗科动物的基因组揭示了等足目动物与贻贝共生的奥秘。
陆生等脚类动物的消化器官中藏有最近提出的蜕皮病毒科 Hepatoplasmataceae 的细菌。迄今为止,Hepatoplasmataceae 的唯一完整基因组是 "Candidatus Hepatoplasma crinochetorum"。基因组序列的稀缺阻碍了我们对等足类与毛霉菌共生关系的了解。在这里,我们展示了从等脚类动物的猎枪测序数据中鉴定出的四种未培养的肝浆菌科成员的完整元基因组(MAGs)。我们为三个基因组提出了种名,它们与之前已知的肝浆孢子科成员的序列差异很大:从半陆生等脚类动物 Tylos granuliferus 身上鉴定出的 "Candidatus Tyloplasma litorale"、从常见的药蝽 Armadillidium vulgare 身上鉴定出的 "Candidatus Hepatoplasma vulgare "以及从常见的粗糙木虱 Porcellio scaber 身上鉴定出的 "Candidatus Hepatoplasma scabrum"。对 155 种霉浆菌进行的系统发生组分析证实,肝浆菌科是霉浆菌目中元浆菌科的姊妹支系。16S 核糖体 RNA 基因序列和系统发生组分析表明,"Candidatus Tyloplasma litorale "和其他与半陆生等脚类动物相关的霉菌代表了基因组分类数据库 r214 版本中的占位属 "g_Bg2",因此有理由将它们归入一个新属。我们的分析还发现,肝浆菌科缺乏主要的代谢途径,但可能拥有完整的 IIA 型 CRISPR-Cas9 机制。尽管在本研究中,Hepatoplasmatacae 成员的定位尚未通过显微镜验证,但这些基因组特征与该家族其他成员的观点一致,即这些真菌具有外共生生活方式,对宿主的营养依赖性很高。我们找不到肝浆菌科编码多糖降解酶以帮助宿主消化的证据。如果它们能提供营养益处,则可能是通过复制外的核酸酶、肽酶和类脂酶。对潜在的宿主-共生体相互作用相关基因的探索发现了大型重复开放阅读框,其中含有可能与宿主细胞粘附有关的β-三明治结构域。总之,基因组分析表明,等足类与鞘霉菌共生的特点不是碳水化合物降解,我们推测它们可能通过与病原体进行空间竞争来防止感染,从而扮演防御性共生体的角色。
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