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首页> 外文期刊>Environmental Pollution >Microbiome analysis and predicted relative metabolomic turnover suggest bacterial heme and selenium metabolism are altered in the gastrointestinal system of zebrafish (Danio rerio) exposed to the organochlorine dieldrin
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Microbiome analysis and predicted relative metabolomic turnover suggest bacterial heme and selenium metabolism are altered in the gastrointestinal system of zebrafish (Danio rerio) exposed to the organochlorine dieldrin

机译:微生物组分析和预测的相对代谢营业额表明细菌血红素和硒代谢在暴露于有机氯丁掺杂的斑马鱼(Danio Rerio)的胃肠道系统中改变

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摘要

Dietary exposure to chemicals alters the diversity of microbiome communities and can lead to pathophysiological changes in the gastrointestinal system. The organochlorine pesticide dieldrin is a persistent environmental contaminant that bioaccumulates in fatty tissue of aquatic organisms. The objectives of this study were to determine whether environmentally-relevant doses of dieldrin altered gastrointestinal morphology and the microbiome of zebrafish. Adult zebrafish at similar to 4 months of age were fed a measured amount of feed containing either a solvent control or one of two doses of dieldrin (measured at 16, and 163.5 ng/g dry weight) for 4 months. Dieldrin body burden levels in zebrafish after four-month exposure were 0 (control), 11.47 +/- 1.13 ng/g (low dose) and 18.32 +/- 1.32 ng/g (high dose) wet weight [mean +/- std]. Extensive histopathology at the whole organism level revealed that dieldrin exposure did not induce notable tissue pathology, including the gastrointestinal tract. A repeated measure mixed model analysis revealed that, while fish gained weight over time, there were no dieldrin-specific effects on body weight. Fecal content was collected from the gastrointestinal tract of males and 16S rRNA gene sequencing conducted. Dieldrin at a measured feed dose of 16 ng/g reduced the abundance of Firmicutes, a phylum involved in energy resorption. At the level of class, there was a decrease in abundance of Clostridia and Betaproteobacteria, and an increase in Verrucomicrobiae species. We used a computational approach called predicted relative metabolomic turnover (PRMT) to predict how a shift in microbial community composition affects exchange of metabolites. Dieldrinwas predicted to affect metabolic turnover of uroporphyrinogen I and coproporphyrinogen I [enzyme]-cysteine, hydrogen selenide, selenite, and methyl-selenic acid in the fish gastrointestinal system. These pathways are related to bacterial heme biosynthesis and selenium metabolism. Our study demonstrates that dietary exposures to dieldrin can alter microbiota composition over 4 months, however the long-term consequences of such impacts are not well understood. (C) 2020 Elsevier Ltd. All rights reserved.
机译:饮食暴露于化学品改变了微生物组群的多样性,可以导致胃肠系统的病理生理学变化。有机氯农药狄氏蛋白是一种持续的环境污染物,即生物生物脂肪组织中的生物累积。本研究的目的是确定是否有环境相关剂量的狄肾改变的胃肠道形态和斑马鱼的微生物组。成年斑马鱼类似于4个月的年龄,喂食含有溶剂对照的测量量或两种剂量的二r蛋白之一(以16,5ng / g干重测量)4个月。四个月暴露后斑马鱼的身体负担水平为0(对照),11.47 +/- 1.13 ng / g(低剂量)和18.32 +/- 1.32 ng / g(高剂量)湿重[平均值+/- std ]。整个生物体水平的广泛组织病理学揭示了Dieldrin暴露没有诱导显着的组织病理学,包括胃肠道。反复测量混合模型分析显示,当鱼类量随时间而获得重量时,对体重没有掺肽特异性的影响。从雄性胃肠道收集粪便含量,并进行16S rRNA基因测序。测量的饲料剂量为16 ng / g的司序列减少了大量的压力,涉及能量吸收的门。在阶级的水平,患有梭菌和Betaprobacteria的丰富度降低,疣状细菌的增加。我们使用称为预测的相对代谢型转换(PRMT)的计算方法来预测微生物群落成分的转变如何影响代谢物交换。 Dieldrinwas预测,在鱼类胃肠系统中影响尿红素原I和共卟啉酮I和共卟啉原,硒化素,硒酸盐和甲基 - 硒酸的代谢转换。这些途径与细菌血红素生物合成和硒代谢有关。我们的研究表明,牛油蛋白的饮食暴露可以在4个月内改变微生物群组成,然而这种影响的长期后果尚不清楚。 (c)2020 elestvier有限公司保留所有权利。

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  • 来源
    《Environmental Pollution》 |2021年第2期|115715.1-115715.11|共11页
  • 作者

    Hua Qing; Adamovsky Ondrej; Vespalcova Hana; Boyda Jonna; Schmidt Jordan T.; Kozuch Marianne; Craft Serena L. M.; Ginn Pamela E.; Smatana Stanislav; Budinska Eva; Persico Maria; Bisesi Joseph H. Jr.; Martyniuk Christopher J.;

  • 作者单位

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA|Inner Mongolia Univ Sch Ecol & Environm Inner Mongolia Key Lab Environm Pollut Control & Hohhot 010021 Peoples R China;

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA|Masaryk Univ Res Ctr Tox Cpds Environm RECETOX Brno Czech Republic;

    Masaryk Univ Res Ctr Tox Cpds Environm RECETOX Brno Czech Republic;

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA;

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA;

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA;

    Univ Florida Coll Vet Med Dept Comparat Diagnost & Populat Med Gainesville FL USA;

    Univ Florida Coll Vet Med Dept Comparat Diagnost & Populat Med Gainesville FL USA;

    Masaryk Univ Res Ctr Tox Cpds Environm RECETOX Brno Czech Republic|Brno Univ Technol Fac Informat Technol IT4Innovat Ctr Excellence Brno Czech Republic;

    Masaryk Univ Res Ctr Tox Cpds Environm RECETOX Brno Czech Republic;

    Masaryk Univ Res Ctr Tox Cpds Environm RECETOX Brno Czech Republic;

    Univ Florida Dept Environm & Global Hlth Gainesville FL 32611 USA|Univ Florida Global Hlth & Ctr Environm & Human Toxicol Gainesville FL 32611 USA;

    Univ Florida Dept Physiol Sci Gainesville FL 32611 USA|Univ Florida Ctr Environm & Human Toxicol Gainesville FL 32611 USA|Univ Florida Coll Vet Med Genet Inst Gainesville FL 32611 USA|Univ Florida Coll Vet Med Interdisciplinary Program Biomed Sci Neurosci Gainesville FL 32611 USA;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Microbiome; Pesticide; Aquatic; Ecotoxicology; Pathology;

    机译:微生物组;杀虫剂;水生植物;生态毒理学;病理学;

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