混合废物污染选择了富含多种重金属抗性基因的移动遗传元素种群。

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-05-09 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae064
Jennifer L Goff, Lauren M Lui, Torben N Nielsen, Farris L Poole, Heidi J Smith, Kathleen F Walker, Terry C Hazen, Matthew W Fields, Adam P Arkin, Michael W W Adams
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引用次数: 0

摘要

移动遗传元件(MGEs),如质粒、病毒和转座元件,可以为宿主在环境压力下的生存提供适应性益处。重金属抗性基因(HMRGs)经常出现在移动遗传元件上,这表明移动遗传元件可能是重金属污染环境中适应性进化的重要驱动力。在此,我们报告了橡树岭保留地地下重金属污染区域的元移动基因组。我们将这一元移动基因组与从橡树岭保留地地下未受影响区域采集的样本中得到的元移动基因组进行了比较。我们收集了 1615 个独特的环状 DNA 元素,并认为这些元素就是元移动基因组。与附近未受影响地区的元素相比,来自高污染地下的循环元素富含 HMRG 簇。此外,我们还发现这些 HMRGs 与受污染次表层中的伽马菌和贝特蛋白菌宿主有关,可能会促进这些类群在该地区的持续存在和优势地位。最后,HMRGs 与共轭元素相关联,表明它们未来有可能进行横向转移。我们展示了如何通过完成的 MGE 组合所提供的基因组背景来加强我们对 MGE 生态学、进化和功能的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mixed waste contamination selects for a mobile genetic element population enriched in multiple heavy metal resistance genes.

Mobile genetic elements (MGEs) like plasmids, viruses, and transposable elements can provide fitness benefits to their hosts for survival in the presence of environmental stressors. Heavy metal resistance genes (HMRGs) are frequently observed on MGEs, suggesting that MGEs may be an important driver of adaptive evolution in environments contaminated with heavy metals. Here, we report the meta-mobilome of the heavy metal-contaminated regions of the Oak Ridge Reservation subsurface. This meta-mobilome was compared with one derived from samples collected from unimpacted regions of the Oak Ridge Reservation subsurface. We assembled 1615 unique circularized DNA elements that we propose to be MGEs. The circular elements from the highly contaminated subsurface were enriched in HMRG clusters relative to those from the nearby unimpacted regions. Additionally, we found that these HMRGs were associated with Gamma and Betaproteobacteria hosts in the contaminated subsurface and potentially facilitate the persistence and dominance of these taxa in this region. Finally, the HMRGs were associated with conjugative elements, suggesting their potential for future lateral transfer. We demonstrate how our understanding of MGE ecology, evolution, and function can be enhanced through the genomic context provided by completed MGE assemblies.

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