Genomic Reconstruction and Dietary Response Assessment of Three Acutalibacteraceae Bacteria Isolated from Fecal Samples of Singapore Subjects.

bioRxiv - Microbiology Pub Date : 2024-09-14 DOI:10.1101/2024.09.13.612987

Mi Ae Park, Sharifah Nora Ahmad Almunawar, Rachel Rui Xia Lim, Sumanto Haldar, Christiani Jeyakumar Henry, Oleg V Moskvin

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Abstract

Clostridium leptum, a key player in gut butyrate production, has a profound impact on various facets of intestinal health. A recent clinical trial highlighted a significant increase in the relative abundance of this species in response to dietary interventions using beneficial oils. We isolated microbial strains corresponding to 'Clostridium leptum' (at the 16S rRNA gene similarity level) and sequenced their genomes. All three genomes were successfully reconstructed, maintaining the chromosome as a single contig. Subsequent genome-wide analysis unveiled the phylogenetic diversity of the isolates, including the discovery of a new species - Gallacutalibacter singaporense. Based on the reconstructed metabolic model, we predicted growth condition patterns of this new species and confirmed the predictions in vitro. Leveraging the assembled genomes, we dissected the components of the strong dietary intervention response signal previously ascribed to 'C.leptum' and revealed distinct individual dynamics of all three bacteria in the clinical trial context. The transitional behavior of the novel species, in particular, revealed intriguing patterns, blazing the path to uncovering previously unrecognized interactions along the diet - gut microbiome - human health axis.

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从新加坡受试者粪便样本中分离出的三种 Acutalibacteraceae 细菌的基因组重构和饮食反应评估。

瘦肉梭菌是肠道丁酸盐生成的关键角色，对肠道健康的各个方面有着深远的影响。最近的一项临床试验表明，在使用有益油脂进行膳食干预后，该物种的相对丰度显著增加。我们分离了与 "瘦肉梭菌 "相对应的微生物菌株（16S rRNA 基因相似度水平），并对其基因组进行了测序。所有三个基因组都已成功重建，染色体保持为单一等位基因。随后的全基因组分析揭示了分离物的系统发育多样性，包括发现了一个新物种--新加坡胆杆菌（Gallacutalibacter singaporense）。根据重建的代谢模型，我们预测了这个新物种的生长条件模式，并在体外证实了预测结果。利用组装好的基因组，我们剖析了之前归因于 "C.leptum "的强烈饮食干预反应信号的组成部分，并揭示了在临床试验背景下所有三种细菌不同的个体动态。尤其是新物种的过渡行为，揭示了耐人寻味的模式，为揭示饮食-肠道微生物组-人类健康轴上之前未认识到的相互作用开辟了道路。

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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bioRxiv - Microbiology

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