在泛基因组分析中,与人类鼻腔相关的棒状杆菌物种之间的代谢能力高度一致。

IF 5 2区 生物学 Q1 MICROBIOLOGY
mSystems Pub Date : 2024-11-07 DOI:10.1128/msystems.01132-24
Tommy H Tran, Isabel F Escapa, Ari Q Roberts, Wei Gao, Abiola C Obawemimo, Julia A Segre, Heidi H Kong, Sean Conlan, Matthew S Kelly, Katherine P Lemon
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引用次数: 0

摘要

在人的一生中,棒状杆菌在鼻腔微生物群中无处不在。此外,鼻腔微生物区系中相对丰度较高的棒状杆菌往往与健康呈正相关。人类鼻腔中最常见的棒状杆菌种类包括 C. propinquum、C. pseudodiphtheriticum、C. accolens 和 C. tuberculostearicum。为了深入了解这四个物种的功能,我们确定了基因组、系统基因组和泛基因组的特性,并估算了 87 个不同人类鼻腔棒状杆菌菌株基因组的代谢能力:其中 31 株来自博茨瓦纳,56 株来自美国。伪双歧杆菌具有与本地菌株循环相一致的不同地理支系,而其他物种的一些菌株则具有跨越非洲和北美的广泛地理分布。所有物种的基因组和泛基因组结构相似。分配给所有 COG 代谢类别的基因簇在每个物种的持久基因组和附属基因组中都有较高的代表性,这表明菌株代谢能力的变异性有限。根据流行率数据,82% 的成年人的鼻腔微生物群中可能至少有两种科里纳菌共存。因此,令人惊讶的是,这四个物种的核心代谢能力高度一致,表明物种水平的代谢变异有限。令人吃惊的是,美国支系的假嗜血杆菌菌株缺乏硫酸盐同化还原基因,而博茨瓦纳支系和其他研究物种的大多数菌株中都有这种基因,这表明硫酸盐同化还原基因的丧失与最近的地理位置有关。总体而言,物种和菌株在代谢能力方面的差异极小,这意味着共存菌株占据不同代谢位点的能力可能有限:重要意义:通过估算功能能力进行庞基因组分析有助于我们了解细菌物种的全部生物多样性。我们进行了系统的基因组学、系统发生组学和庞基因组学分析,对四种常见的人类鼻腔棒状杆菌的代谢能力进行了定性估计,并进行了重点实验验证,从而生成了一种基础资源。每个物种在人类鼻腔微生物群中的流行程度与至少两个物种共存的情况一致。我们在物种内部和物种之间发现了明显的高水平代谢保护,这表明物种占据不同代谢壁龛的选择有限,突出了研究鼻腔棒状杆菌物种之间相互作用的重要性。通过比较来自两大洲的菌株,假双歧杆菌的地理菌株分布受到限制,其特点是美国菌株在进化过程中丧失了同化硫酸盐还原的能力。我们的研究结果有助于了解假丝酵母菌在人类鼻腔微生物群中的功能,并评估其未来用作生物治疗的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metabolic capabilities are highly conserved among human nasal-associated Corynebacterium species in pangenomic analyses.

Corynebacterium species are globally ubiquitous in human nasal microbiota across the lifespan. Moreover, nasal microbiota profiles typified by higher relative abundances of Corynebacterium are often positively associated with health. Among the most common human nasal Corynebacterium species are C. propinquum, C. pseudodiphtheriticum, C. accolens, and C. tuberculostearicum. To gain insight into the functions of these four species, we identified genomic, phylogenomic, and pangenomic properties and estimated the metabolic capabilities of 87 distinct human nasal Corynebacterium strain genomes: 31 from Botswana and 56 from the United States. C. pseudodiphtheriticum had geographically distinct clades consistent with localized strain circulation, whereas some strains from the other species had wide geographic distribution spanning Africa and North America. All species had similar genomic and pangenomic structures. Gene clusters assigned to all COG metabolic categories were overrepresented in the persistent versus accessory genome of each species indicating limited strain-level variability in metabolic capacity. Based on prevalence data, at least two Corynebacterium species likely coexist in the nasal microbiota of 82% of adults. So, it was surprising that core metabolic capabilities were highly conserved among the four species indicating limited species-level metabolic variation. Strikingly, strains in the U.S. clade of C. pseudodiphtheriticum lacked genes for assimilatory sulfate reduction present in most of the strains in the Botswana clade and in the other studied species, indicating a recent, geographically related loss of assimilatory sulfate reduction. Overall, the minimal species and strain variability in metabolic capacity implies coexisting strains might have limited ability to occupy distinct metabolic niches.

Importance: Pangenomic analysis with estimation of functional capabilities facilitates our understanding of the full biologic diversity of bacterial species. We performed systematic genomic, phylogenomic, and pangenomic analyses with qualitative estimation of the metabolic capabilities of four common human nasal Corynebacterium species, along with focused experimental validations, generating a foundational resource. The prevalence of each species in human nasal microbiota is consistent with the common coexistence of at least two species. We identified a notably high level of metabolic conservation within and among species indicating limited options for species to occupy distinct metabolic niches, highlighting the importance of investigating interactions among nasal Corynebacterium species. Comparing strains from two continents, C. pseudodiphtheriticum had restricted geographic strain distribution characterized by an evolutionarily recent loss of assimilatory sulfate reduction in U.S. strains. Our findings contribute to understanding the functions of Corynebacterium within human nasal microbiota and to evaluating their potential for future use as biotherapeutics.

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来源期刊
mSystems
mSystems Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
10.50
自引率
3.10%
发文量
308
审稿时长
13 weeks
期刊介绍: mSystems™ will publish preeminent work that stems from applying technologies for high-throughput analyses to achieve insights into the metabolic and regulatory systems at the scale of both the single cell and microbial communities. The scope of mSystems™ encompasses all important biological and biochemical findings drawn from analyses of large data sets, as well as new computational approaches for deriving these insights. mSystems™ will welcome submissions from researchers who focus on the microbiome, genomics, metagenomics, transcriptomics, metabolomics, proteomics, glycomics, bioinformatics, and computational microbiology. mSystems™ will provide streamlined decisions, while carrying on ASM''s tradition of rigorous peer review.
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