Author
Listed:
- Maksim Sipos
- Patricio Jeraldo
- Nicholas Chia
- Ani Qu
- A Singh Dhillon
- Michael E Konkel
- Karen E Nelson
- Bryan A White
- Nigel Goldenfeld
Abstract
Next-generation DNA sequencing is increasingly being utilized to probe microbial communities, such as gastrointestinal microbiomes, where it is important to be able to quantify measures of abundance and diversity. The fragmented nature of the 16S rRNA datasets obtained, coupled with their unprecedented size, has led to the recognition that the results of such analyses are potentially contaminated by a variety of artifacts, both experimental and computational. Here we quantify how multiple alignment and clustering errors contribute to overestimates of abundance and diversity, reflected by incorrect OTU assignment, corrupted phylogenies, inaccurate species diversity estimators, and rank abundance distribution functions. We show that straightforward procedural optimizations, combining preexisting tools, are effective in handling large () 16S rRNA datasets, and we describe metrics to measure the effectiveness and quality of the estimators obtained. We introduce two metrics to ascertain the quality of clustering of pyrosequenced rRNA data, and show that complete linkage clustering greatly outperforms other widely used methods.
Suggested Citation
Maksim Sipos & Patricio Jeraldo & Nicholas Chia & Ani Qu & A Singh Dhillon & Michael E Konkel & Karen E Nelson & Bryan A White & Nigel Goldenfeld, 2010.
"Robust Computational Analysis of rRNA Hypervariable Tag Datasets,"
PLOS ONE, Public Library of Science, vol. 5(12), pages 1-8, December.
Handle:
RePEc:plo:pone00:0015220
DOI: 10.1371/journal.pone.0015220
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