rpoB 和 16S rRNA 作为细菌多样性焦磷酸测序研究标记的比较。

A comparison of rpoB and 16S rRNA as markers in pyrosequencing studies of bacterial diversity.

机构信息

Department of Microbial Ecology, Netherlands Institute of Ecology (NIOO-KNAW), Wageningen, The Netherlands.

出版信息

PLoS One. 2012;7(2):e30600. doi: 10.1371/journal.pone.0030600. Epub 2012 Feb 15.

DOI:10.1371/journal.pone.0030600

PMID:22355318

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3280256/

Abstract

BACKGROUND

The 16S rRNA gene is the gold standard in molecular surveys of bacterial and archaeal diversity, but it has the disadvantages that it is often multiple-copy, has little resolution below the species level and cannot be readily interpreted in an evolutionary framework. We compared the 16S rRNA marker with the single-copy, protein-coding rpoB marker by amplifying and sequencing both from a single soil sample. Because the higher genetic resolution of the rpoB gene prohibits its use as a universal marker, we employed consensus-degenerate primers targeting the Proteobacteria.

METHODOLOGY/PRINCIPAL FINDINGS: Pyrosequencing can be problematic because of the poor resolution of homopolymer runs. As these erroneous runs disrupt the reading frame of protein-coding sequences, removal of sequences containing nonsense mutations was found to be a valuable filter in addition to flowgram-based denoising. Although both markers gave similar estimates of total diversity, the rpoB marker revealed more species, requiring an order of magnitude fewer reads to obtain 90% of the true diversity. The application of population genetic methods was demonstrated on a particularly abundant sequence cluster.

CONCLUSIONS/SIGNIFICANCE: The rpoB marker can be a complement to the 16S rRNA marker for high throughput microbial diversity studies focusing on specific taxonomic groups. Additional error filtering is possible and tests for recombination or selection can be employed.

摘要

背景

16S rRNA 基因是细菌和古菌多样性分子调查的黄金标准，但它有以下缺点：它通常是多拷贝的，在物种以下水平分辨率较低，并且不能在进化框架中轻易解释。我们通过从单个土壤样本中扩增和测序 16S rRNA 标记和单拷贝蛋白编码 rpoB 标记，比较了这两种标记。由于 rpoB 基因的遗传分辨率较高，不能作为通用标记，因此我们采用了针对变形菌门的保守退化引物。

方法/主要发现：由于同源多聚体序列的分辨率较差，焦磷酸测序可能会出现问题。由于这些错误的序列会破坏蛋白编码序列的阅读框，因此除了基于流图的去噪之外，去除包含无意义突变的序列也是一种有效的筛选方法。尽管两种标记都给出了相似的总多样性估计值，但 rpoB 标记揭示了更多的物种，获得 90%的真实多样性所需的读取次数要少一个数量级。我们在一个特别丰富的序列簇上展示了群体遗传方法的应用。

结论/意义：rpoB 标记可以作为 16S rRNA 标记的补充，用于针对特定分类群的高通量微生物多样性研究。可以进行额外的错误过滤，并且可以进行重组或选择的测试。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/225c/3280256/e27e2630cee4/pone.0030600.g001.jpg

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rpoB 和 16S rRNA 作为细菌多样性焦磷酸测序研究标记的比较。

A comparison of rpoB and 16S rRNA as markers in pyrosequencing studies of bacterial diversity.

机构信息

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