深海微生物种群对注入石油和/或合成化学分散剂的元转录组学响应。

IF 3.9 2区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Applied and Environmental Microbiology Pub Date : 2024-08-21 Epub Date: 2024-07-23 DOI:10.1128/aem.01083-24
Tito D Peña-Montenegro, Sara Kleindienst, Andrew E Allen, A Murat Eren, John P McCrow, Jonathan Arnold, Samantha B Joye
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引用次数: 0

摘要

石油泄漏是对海洋环境的一种频繁干扰,会对当地微生物组产生迅速而显著的影响。以前的研究表明,仅接触合成消散剂并不会提高异养微生物的活性或特定碳氢化合物成分的氧化率,但会增加某些类群(例如高良姜属)的丰度。与此相反,接触油类而非分散剂会增加其他类群(如海洋杆菌)的丰度并刺激碳氢化合物的氧化率。在这里,我们通过解释来自该实验的元转录组数据来探讨微生物群落的特定成分如何以及为何会对不同的有机碳暴露机制做出反应,从而推进这些发现。仅使用分散剂就能选择出独特的群落和优势生物,这反映了处理和时间依赖性反应。分散剂修正也导致了不同处理之间功能特征的差异。同样,仅使用油类的处理所选择的群落也不同于使用消散剂的处理。油类和添加了营养物质的消散剂的存在导致了微生物反应的巨大差异,这很可能表明额外无机营养物质的存在提高了微生物的适应能力。只添加油类会导致噬菌体、原生噬菌体、转座元件和质粒(PPTEPs)的表达量明显增加,这表明微生物群落对油类的反应的某些方面是由 "移动组 "驱动的,可能是通过病毒对纤毛虫和鞭毛虫代谢途径的相关调控,否则它们会通过吃草来扼杀微生物群落。重要意义微观世界实验模拟了 2010 年 4 月的 "深水地平线 "石油泄漏事件,向深海水样施用石油和合成分散剂(Corexit EC9500A 和 EC9527A)。暴露机制揭示了处理过程中异养微生物活性和碳氢化合物氧化率的严重负面变化。我们在微观世界实验中探索了化学修正期间微生物群落的元转录组特征,从而扩展了这些发现。在此,我们报告了优势生物是如何在暴露制度中与处理和时间相关的轨迹独特地联系在一起的;营养物质的可用性是驱动元转录组反应变化的一个重要因素。与 PPTEPs 相关的显著信号显示了动员组和病毒相关生存反应的潜在作用。这些见解强调了在石油和人为压力下脆弱海洋环境受到的时间依赖性环境扰动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metatranscriptomic response of deep ocean microbial populations to infusions of oil and/or synthetic chemical dispersant.

Oil spills are a frequent perturbation to the marine environment that has rapid and significant impacts on the local microbiome. Previous studies have shown that exposure to synthetic dispersant alone did not enhance heterotrophic microbial activity or oxidation rates of specific hydrocarbon components but increased the abundance of some taxa (e.g., Colwellia). In contrast, exposure to oil, but not dispersants, increased the abundance of other taxa (e.g., Marinobacter) and stimulated hydrocarbon oxidation rates. Here, we advance these findings by interpreting metatranscriptomic data from this experiment to explore how and why specific components of the microbial community responded to distinct organic carbon exposure regimes. Dispersant alone was selected for a unique community and for dominant organisms that reflected treatment- and time-dependent responses. Dispersant amendment also led to diverging functional profiles among the different treatments. Similarly, oil alone was selected for a community that was distinct from treatments amended with dispersants. The presence of oil and dispersants with added nutrients led to substantial differences in microbial responses, likely suggesting increased fitness driven by the presence of additional inorganic nutrients. The oil-only additions led to a marked increase in the expression of phages, prophages, transposable elements, and plasmids (PPTEPs), suggesting that aspects of microbial community response to oil are driven by the "mobilome," potentially through viral-associated regulation of metabolic pathways in ciliates and flagellates that would otherwise throttle the microbial community through grazing.IMPORTANCEMicrocosm experiments simulated the April 2010 Deepwater Horizon oil spill by applying oil and synthetic dispersants (Corexit EC9500A and EC9527A) to deep ocean water samples. The exposure regime revealed severe negative alterations in the treatments' heterotrophic microbial activity and hydrocarbon oxidation rates. We expanded these findings by exploring metatranscriptomic signatures of the microbial communities during the chemical amendments in the microcosm experiments. Here we report how dominant organisms were uniquely associated with treatment- and time-dependent trajectories during the exposure regimes; nutrient availability was a significant factor in driving changes in metatranscriptomic responses. Remarkable signals associated with PPTEPs showed the potential role of mobilome and viral-associated survival responses. These insights underscore the time-dependent environmental perturbations of fragile marine environments under oil and anthropogenic stress.

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来源期刊
Applied and Environmental Microbiology
Applied and Environmental Microbiology 生物-生物工程与应用微生物
CiteScore
7.70
自引率
2.30%
发文量
730
审稿时长
1.9 months
期刊介绍: Applied and Environmental Microbiology (AEM) publishes papers that make significant contributions to (a) applied microbiology, including biotechnology, protein engineering, bioremediation, and food microbiology, (b) microbial ecology, including environmental, organismic, and genomic microbiology, and (c) interdisciplinary microbiology, including invertebrate microbiology, plant microbiology, aquatic microbiology, and geomicrobiology.
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