Sequencing 16S rRNA gene fragments using the PacBio SMRT DNA sequencing system.

Patrick D. Schloss,Sarah L. Westcott,Charles C. Koumpouras,Sarah K. Highlander,Matthew L. Jenior

doi:10.7717/peerj.1869

Patrick D. Schloss, Sarah L. Westcott + Show 3 more

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https://doi.org/10.7717/peerj.1869

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Abstract

Over the past 10 years, microbial ecologists have largely abandoned sequencing 16S rRNA genes by the Sanger sequencing method and have instead adopted highly parallelized sequencing platforms. These new platforms, such as 454 and Illumina’s MiSeq, have allowed researchers to obtain millions of high quality but short sequences. The result of the added sequencing depth has been significant improvements in experimental design. The tradeoff has been the decline in the number of full-length reference sequences that are deposited into databases. To overcome this problem, we tested the ability of the PacBio Single Molecule, Real-Time (SMRT) DNA sequencing platform to generate sequence reads from the 16S rRNA gene. We generated sequencing data from the V4, V3–V5, V1–V3, V1–V5, V1–V6, and V1–V9 variable regions from within the 16S rRNA gene using DNA from a synthetic mock community and natural samples collected from human feces, mouse feces, and soil. The mock community allowed us to assess the actual sequencing error rate and how that error rate changed when different curation methods were applied. We developed a simple method based on sequence characteristics and quality scores to reduce the observed error rate for the V1–V9 region from 0.69 to 0.027%. This error rate is comparable to what has been observed for the shorter reads generated by 454 and Illumina’s MiSeq sequencing platforms. Although the per base sequencing cost is still significantly more than that of MiSeq, the prospect of supplementing reference databases with full-length sequences from organisms below the limit of detection from the Sanger approach is exciting.

Highlights

Advances in sequencing technologies over the past 10 years have introduced considerable advances to the field of microbial ecology
For sequencing the 16S rRNA gene, the 454 platform is able to generate a moderate number of high-quality 500-nt sequence fragments (Schloss, Gevers & Westcott, 2011) and the MiSeq platform is able to generate a large number of high-quality 250-nt sequence fragments (Kozich et al, 2013)
The promise of the Pacific Biosciences (PacBio) sequencing platform was the generation of high-quality near full-length sequence fragments

Summary

Introduction

Advances in sequencing technologies over the past 10 years have introduced considerable advances to the field of microbial ecology. It was once common to sequence fewer than 100 16S rRNA gene sequences from several samples using the Sanger approach (e.g., McCaig et al (1999)). Sanger sequencing regularly generated 800 nt per read and because the DNA was cloned, it was possible to obtain multiple reads per fragment to yield a full-length sequence from a representative single molecule. There is still a clear need to generate high-throughput full-length sequence reads that are of sufficient quality that they can be used as references for analyses based on obtaining short sequence reads

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