Abstract

For the analysis of microbial community structure based on 16S rDNA sequence diversity, sensitive and robust PCR amplification of 16S rDNA is a critical step. To obtain accurate microbial composition data, PCR amplification must be free of bias; however, amplifying all 16S rDNA species with equal efficiency from a sample containing a large variety of microorganisms remains challenging. Here, we designed a universal primer based on the V3-V4 hypervariable region of prokaryotic 16S rDNA for the simultaneous detection of Bacteria and Archaea in fecal samples from crossbred pigs (Landrace×Large white×Duroc) using an Illumina MiSeq next-generation sequencer. In-silico analysis showed that the newly designed universal prokaryotic primers matched approximately 98.0% of Bacteria and 94.6% of Archaea rRNA gene sequences in the Ribosomal Database Project database. For each sequencing reaction performed with the prokaryotic universal primer, an average of 69,330 (±20,482) reads were obtained, of which archaeal rRNA genes comprised approximately 1.2% to 3.2% of all prokaryotic reads. In addition, the detection frequency of Bacteria belonging to the phylum Verrucomicrobia, including members of the classes Verrucomicrobiae and Opitutae, was higher in the NGS analysis using the prokaryotic universal primer than that performed with the bacterial universal primer. Importantly, this new prokaryotic universal primer set had markedly lower bias than that of most previously designed universal primers. Our findings demonstrate that the prokaryotic universal primer set designed in the present study will permit the simultaneous detection of Bacteria and Archaea, and will therefore allow for a more comprehensive understanding of microbial community structures in environmental samples.

Highlights

  • The analysis of 16S rRNA (16S rDNA) provides valuable phylogenetic information for the comparison of microbial diversity in environmental samples

  • next-generation sequencing (NGS) analysis using the prokaryotic universal primer To determine whether Bacteria and Archaea could be simultaneously detected using the newly designed prokaryotic universal primer, NGS analysis was performed for pig fecal samples

  • We found that the newly developed primer set matches 98.0% of Bacteria and 94.6% of Archaea rRNA gene sequences in the Ribosomal Database Project (RDP) database and allows for the simultaneous analysis of Bacteria and Archaea in pig fecal samples

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Summary

Introduction

The analysis of 16S rRNA (16S rDNA) provides valuable phylogenetic information for the comparison of microbial diversity in environmental samples. A number of molecular biological techniques based on 16S rDNA gene sequence diversity have been developed for investigating microbial community structure. The construction of 16S rDNA clone libraries is extensively used to study microbial community structure [2,4,8] As these culture-independent approaches are estimated to detect only 0.1%,1% of the total microbial population, they are not optimal for the analysis of subdominant microbial species or groups [9,10]. Several studies have successfully applied prokaryotic universal primer sets and NGS platforms for microbial community structure analysis of environmental and clinical samples, including Artic sea ice, soil, and urinary catheters [20,21,22]. The phylogenetic specificity and degree of bias of these prokaryotic universal primers remain unclear

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