DNA from non-viable bacteria biases diversity estimates in the corals Acropora loripes and Pocillopora acuta

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY Environmental Microbiome Pub Date : 2023-12-08 DOI:10.1186/s40793-023-00541-6
Ashley M. Dungan, Laura Geissler, Amanda S. Williams, Cecilie Ravn Gotze, Emily C. Flynn, Linda L. Blackall, Madeleine J. H. van Oppen
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Abstract

Nucleic acid-based analytical methods have greatly expanded our understanding of global prokaryotic diversity, yet standard metabarcoding methods provide no information on the most fundamental physiological state of bacteria, viability. Scleractinian corals harbour a complex microbiome in which bacterial symbionts play critical roles in maintaining health and functioning of the holobiont. However, the coral holobiont contains both dead and living bacteria. The former can be the result of corals feeding on bacteria, rapid swings from hyper- to hypoxic conditions in the coral tissue, the presence of antimicrobial compounds in coral mucus, and an abundance of lytic bacteriophages. By combining propidium monoazide (PMA) treatment with high-throughput sequencing on six coral species (Acropora loripes, A. millepora, A. kenti, Platygyra daedalea, Pocillopora acuta, and Porites lutea) we were able to obtain information on bacterial communities with little noise from non-viable microbial DNA. Metabarcoding of the 16S rRNA gene showed significantly higher community evenness (85%) and species diversity (31%) in untreated compared with PMA-treated tissue for A. loripes only. While PMA-treated coral did not differ significantly from untreated samples in terms of observed number of ASVs, > 30% of ASVs were identified in untreated samples only, suggesting that they originated from cell-free/non-viable DNA. Further, the bacterial community structure was significantly different between PMA-treated and untreated samples for A. loripes and P. acuta indicating that DNA from non-viable microbes can bias community composition data in coral species with low bacterial diversity. Our study is highly relevant to microbiome studies on coral and other host organisms as it delivers a solution to excluding non-viable DNA in a complex community. These results provide novel insights into the dynamic nature of host-associated microbiomes and underline the importance of applying versatile tools in the analysis of metabarcoding or next-generation sequencing data sets.
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来自无法存活的细菌的 DNA 使珊瑚 Acropora loripes 和 Pocillopora acuta 的多样性估计值出现偏差
基于核酸的分析方法极大地扩展了我们对全球原核生物多样性的了解,然而标准的代谢编码方法却无法提供细菌最基本的生理状态--生存能力的信息。硬骨鱼类珊瑚蕴藏着复杂的微生物群,其中的细菌共生体在维持整体生物的健康和功能方面发挥着至关重要的作用。然而,珊瑚全生物体中既有死细菌,也有活细菌。前者可能是珊瑚以细菌为食、珊瑚组织中从高氧到低氧条件快速波动、珊瑚粘液中存在抗菌化合物以及大量溶菌噬菌体的结果。通过在六个珊瑚物种(Acropora loripes、A. millepora、A. kenti、Platygyra daedalea、Pocillopora acuta 和 Porites lutea)上将单氮化丙啶(PMA)处理与高通量测序相结合,我们能够获得细菌群落的信息,而非存活微生物 DNA 的干扰很小。16S rRNA 基因的元条码显示,与 PMA 处理的组织相比,未处理的 A. loripes 的群落均匀度(85%)和物种多样性(31%)明显更高。虽然就观察到的 ASV 数量而言,PMA 处理过的珊瑚与未处理过的样本没有明显差异,但仅在未处理过的样本中发现了超过 30% 的 ASV,这表明它们来自无细胞/非存活 DNA。此外,对 A. loripes 和 P. acuta 而言,经 PMA 处理的样本与未经处理的样本之间的细菌群落结构存在显著差异,这表明在细菌多样性较低的珊瑚物种中,来自不可存活微生物的 DNA 可能会使群落组成数据出现偏差。我们的研究与珊瑚和其他宿主生物的微生物组研究高度相关,因为它提供了一种在复杂群落中排除非存活 DNA 的解决方案。这些结果为了解宿主相关微生物群的动态性质提供了新的视角,并强调了在分析代谢条码或新一代测序数据集时应用多功能工具的重要性。
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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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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