Blind spots of universal primers and specific FISH probes for functional microbe and community characterization in EBPR systems

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-01-23 DOI:10.1093/ismeco/ycae011
Jing Yuan, Xuhan Deng, Xiaojing Xie, Liping Chen, Chaohai Wei, Chunhua Feng, Guanglei Qiu
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Abstract

Fluorescence in situ hybridization (FISH) and 16S rRNA gene amplicon sequencing are commonly used for microbial ecological analyses in biological enhanced phosphorus removal (EBPR) systems, the successful application of which was governed by the oligonucleotides used. We performed a systemic evaluation of commonly used probes/primers for known polyphosphate-accumulating organisms (PAOs) and glycogen-accumulating organisms (GAOs). Most FISH probes showed blind spots and covered nontarget bacterial groups. Ca. Competibacter probes showed promising coverage and specificity. Those for Ca. Accumulibacter are desirable in coverage but targeted out-group bacteria, including Ca. Competibacter, Thauera, Dechlorosoma, and some polyphosphate-accumulating Cyanobacteria. Defluviicoccus probes are good in specificity but poor in coverage. Probes targeting Tetrasphaera or Dechloromonas showed low coverage and specificity. Specifically, DEMEF455, Bet135, and Dech453 for Dechloromonas covered Ca. Accumulibacter. Special attentions are needed when using these probes to resolve the PAO/GAO phenotype of Dechloromonas. Most species-specific probes for Ca. Accumulibacter, Ca. Lutibacillus, Ca. Phosphoribacter, and Tetrasphaera are highly specific. Overall, 1.4% Ca. Accumulibacter, 9.6% Ca. Competibacter, 43.3% Defluviicoccus, and 54.0% Dechloromonas in the MiDAS database were not covered by existing FISH probes. Different 16S rRNA amplicon primer sets showed distinct coverage of known PAOs and GAOs. None of them covered all members. Overall, 520F-802R and 515F-926R showed the most balanced coverage. All primers showed extremely low coverage of Microlunatus (below 36.0%), implying their probably overlooked roles in EBPR systems. A clear understanding of the strength and weaknesses of each probe and primer set is a premise for rational evaluation and interpretation of obtained community results.
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EBPR 系统中用于功能微生物和群落特征描述的通用引物和特异性 FISH 探针的盲点
荧光原位杂交(FISH)和 16S rRNA 基因扩增片段测序常用于生物强化除磷系统(EBPR)中的微生物生态分析,其成功应用取决于所使用的寡核苷酸。我们针对已知的多磷酸盐积累生物(PAOs)和糖原累积生物(GAOs)对常用探针/引物进行了系统评估。大多数 FISH 探针都出现了盲点并覆盖了非目标细菌群。Ca.Competibacter探针显示出良好的覆盖性和特异性。用于 Ca.Accumulibacter 的探针在覆盖范围上比较理想,但针对的是非目标细菌群,包括 Ca.Competibacter、Thauera、Dechlorosoma 和一些聚磷酸酯积累蓝藻。Defluviicoccus 探针的特异性较好,但覆盖率较低。针对 Tetrasphaera 或 Dechloromonas 的探针显示出较低的覆盖率和特异性。具体而言,针对 Dechloromonas 的 DEMEF455、Bet135 和 Dech453 覆盖了 Ca.Accumulibacter。在使用这些探针分辨 Dechloromonas 的 PAO/GAO 表型时需要特别注意。大多数针对 Ca.Accumulibacter, Ca.Lutibacillus、Ca.Phosphoribacter 和 Tetrasphaera 的大多数物种特异性探针都具有高度特异性。总体而言,1.4%的 Ca.1.4%的 Ca. Accumulibacter、9.6%的 Ca.在 MiDAS 数据库中,1.4%的 Ca. Accumulibacter、9.6%的 Ca. Competibacter、43.3%的 Defluviicoccus 和 54.0%的 Dechloromonas 没有被现有的 FISH 探针覆盖。不同的 16S rRNA 扩增片段引物组对已知 PAOs 和 GAOs 的覆盖率不同。它们都没有覆盖所有成员。总体而言,520F-802R 和 515F-926R 的覆盖率最为均衡。所有引物对小绿藻的覆盖率都极低(低于 36.0%),这意味着它们在 EBPR 系统中的作用可能被忽视了。清楚地了解每个探针和引物组的优缺点是合理评估和解释所获得的群落结果的前提。
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