‘Altruistic’ cooperation among the prokaryotic community of Atlantic salterns assessed by metagenomics

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Alicia García-Roldán, Rafael R. de la Haba, Cristina Sánchez-Porro, Antonio Ventosa
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引用次数: 0

Abstract

Hypersaline environments are extreme habitats with a limited prokaryotic diversity, mainly restricted to halophilic or halotolerant archaeal and bacterial taxa adapted to highly saline conditions. This study attempts to analyze the taxonomic and functional diversity of the prokaryotes that inhabit a solar saltern located at the Atlantic Coast, in Isla Cristina (Huelva, Southwest Spain), and the influence of salinity on the diversity and metabolic potential of these prokaryotic communities, as well as the interactions and cooperation among the individuals within that community. Brine samples were obtained from different saltern ponds, with a salinity range between 19.5 % and 39 % (w/v). Total prokaryotic DNA was sequenced using the Illumina shotgun metagenomic strategy and the raw sequence data were analyzed using supercomputing services following the MetaWRAP and SqueezeMeta protocols. The most abundant phyla at moderate salinities (19.5–22 % [w/v]) were Methanobacteriota (formerly “Euryarchaeota”), Pseudomonadota and Bacteroidota, followed by Balneolota and Actinomycetota and Uroviricota in smaller proportions, while at high salinities (36–39 % [w/v]) the most abundant phylum was Methanobacteriota, followed by Bacteroidota. The most abundant genera at intermediate salinities were Halorubrum and the bacterial genus Spiribacter, while the haloarchaeal genera Halorubrum, Halonotius, and Haloquadratum were the main representatives at high salinities. A total of 65 MAGs were reconstructed from the metagenomic datasets and different functions and pathways were identified in them, allowing to find key taxa in the prokaryotic community able to synthesize and supply essential compounds, such as biotin, and precursors of other bioactive molecules, like β-carotene, and bacterioruberin, to other dwellers in this habitat, lacking the required enzymatic machinery to produce them. This work shed light on the ecology of aquatic hypersaline environments, such as the Atlantic Coast salterns, and on the dynamics and factors affecting the microbial populations under such extreme conditions.

通过元基因组学评估大西洋盐场原核生物群落之间的 "利他 "合作
高盐环境是原核生物多样性有限的极端栖息地,主要局限于适应高盐条件的嗜盐或耐盐古细菌类群。本研究试图分析栖息在大西洋沿岸克里斯蒂娜岛(西班牙西南部韦尔瓦)晒盐池中的原核生物的分类和功能多样性,以及盐度对这些原核生物群落的多样性和新陈代谢潜力的影响,以及群落中个体之间的相互作用和合作。盐水样本取自不同的盐池,盐度范围在 19.5 % 至 39 %(w/v)之间。使用 Illumina 猎枪元基因组策略对原核生物总 DNA 进行了测序,并按照 MetaWRAP 和 SqueezeMeta 协议使用超级计算服务对原始序列数据进行了分析。在中等盐度(19.5-22%[w/v])下,最丰富的门类是甲烷杆菌科(原 "极毛虫科")、假单胞菌科和类杆菌科,其次是Balneolota和Actinomycetota,Uroviricota所占比例较小;而在高盐度(36-39%[w/v])下,最丰富的门类是甲烷杆菌科,其次是类杆菌科。在中盐度条件下,最丰富的菌属是 Halorubrum 和细菌属 Spiribacter,而在高盐度条件下,主要代表菌属是 Halorubrum、Halonotius 和 Haloquadratum。从元基因组数据集中共重建了 65 个 MAGs,并确定了它们的不同功能和途径,从而找到了原核生物群落中能够合成生物素等必需化合物以及β-胡萝卜素和细菌素等其他生物活性分子前体的关键类群,并将其提供给这一生境中缺乏生产这些物质所需酶类机制的其他生物。这项研究揭示了大西洋沿岸盐碱地等水生高盐环境的生态学,以及在这种极端条件下影响微生物种群的动态和因素。
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
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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