利用长读数元基因组学分解旧金山河口微生物组,揭示了从微小核生物到病毒的物种和菌株级优势。

IF 5 2区 生物学 Q1 MICROBIOLOGY
mSystems Pub Date : 2024-09-17 Epub Date: 2024-08-19 DOI:10.1128/msystems.00242-24
Lauren M Lui, Torben N Nielsen
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引用次数: 0

摘要

尽管长线程测序技术已经能够从元基因组中获得高质量的完整基因组,但要将元基因组完全分解为其组成的原核生物和病毒基因组,仍然存在许多挑战。本研究的重点是分解河口元基因组,以便更准确地估计微生物的多样性。为此,我们开发了一种新的基于珠子的 DNA 提取方法和一种新的 bin 细化方法,并获得了 150 Gbp 的 Nanopore 测序结果。我们估计样本中有约 500 个细菌和古细菌物种,并获得了 68 个高质量 bins(>90% 完整、100 kbp、所有核糖体和 tRNA 基因)。我们还获得了许多皮核生物的等位基因、哺乳动物等大型真核生物的环境 DNA 以及完整的线粒体和叶绿体基因组,并检测到约 4 万个病毒种群。我们的分析表明,只有少数菌株构成了大部分物种的丰度:海洋和河口微生物群在全球元素循环和生态系统功能中发挥着关键作用。尽管这些微生物群落非常重要,但许多物种仍未在实验室中培养出来。环境测序是研究这些群落的功能和种群动态的主要方法。长线程测序为克服短线程技术的局限性以获得完整的微生物基因组提供了一条途径,但也带来了自身的技术挑战,如所需的测序深度和获得高质量的 DNA。我们在此介绍新的取样和生物信息学方法,尝试将河口微生物组分解为其组成基因组。我们的研究结果表明,从病毒到皮核生物,只有少数几个菌株组成了大部分物种的丰度,而要完全分解如此多样性的元基因组,需要 1 Tbp 的长线程测序。我们预计,随着长线程测序技术的不断改进,所需的测序量将会减少。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Decomposing a San Francisco estuary microbiome using long-read metagenomics reveals species- and strain-level dominance from picoeukaryotes to viruses.

Although long-read sequencing has enabled obtaining high-quality and complete genomes from metagenomes, many challenges still remain to completely decompose a metagenome into its constituent prokaryotic and viral genomes. This study focuses on decomposing an estuarine metagenome to obtain a more accurate estimate of microbial diversity. To achieve this, we developed a new bead-based DNA extraction method, a novel bin refinement method, and obtained 150 Gbp of Nanopore sequencing. We estimate that there are ~500 bacterial and archaeal species in our sample and obtained 68 high-quality bins (>90% complete, <5% contamination, ≤5 contigs, contig length of >100 kbp, and all ribosomal and tRNA genes). We also obtained many contigs of picoeukaryotes, environmental DNA of larger eukaryotes such as mammals, and complete mitochondrial and chloroplast genomes and detected ~40,000 viral populations. Our analysis indicates that there are only a few strains that comprise most of the species abundances.

Importance: Ocean and estuarine microbiomes play critical roles in global element cycling and ecosystem function. Despite the importance of these microbial communities, many species still have not been cultured in the lab. Environmental sequencing is the primary way the function and population dynamics of these communities can be studied. Long-read sequencing provides an avenue to overcome limitations of short-read technologies to obtain complete microbial genomes but comes with its own technical challenges, such as needed sequencing depth and obtaining high-quality DNA. We present here new sampling and bioinformatics methods to attempt decomposing an estuarine microbiome into its constituent genomes. Our results suggest there are only a few strains that comprise most of the species abundances from viruses to picoeukaryotes, and to fully decompose a metagenome of this diversity requires 1 Tbp of long-read sequencing. We anticipate that as long-read sequencing technologies continue to improve, less sequencing will be needed.

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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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