DUGi

It’s all relative: analyzing microbiome data as compositions

http://dugi.udg.edu/item/http:@@@@hdl.handle.net@@2072@@266675

Purpose: The ability to properly analyze and interpret large microbiome datasets has lagged behind our ability to acquire such datasets from environmental or clinical samples. Sequencing instruments impose a structure on these data: the natural sample space of a 16S rRNA gene sequencing dataset is a simplex, which is a part of real space that is restricted to non-negative values with a constant sum. Such data are compositional, and should be analyzed using compositionally appropriate tools and approaches. However, the majority of the tools for 16S rRNA gene sequencing analysis assume these data are unrestricted. Methods: We show that existing tools for compositional data (CoDa) analysis can be readily adapted to analyze high throughput sequencing datasets. Results: The Human Microbiome Project tongue vs. buccal mucosa dataset shows how the CoDa approach can address the major elements of microbiome analysis. Reanalysis of a publicly available autism microbiome dataset shows that the CoDa approach in concert with multiple hypothesis test corrections prevent false positive identifications. Conclusions: The CoDa approach is readily scalable to microbiome-sized analyses. We provide example code, and make recommendations to improve the analysis and reporting of microbiome datasets

Work in G.B. Gloor’s lab has been supported by a Discovery Grant from the National Science andEngineering Research Council of Canada. J.R. Wu was supported by a CIHR grant to Dr. J. Allardand GBG. Drs J.J. Egozcue and V. Pawlowsky-Glahn have been supported by the Spanish Ministry ofEconomy and Competitiveness under the project METRICS (Ref. MTM2012-33236); and by theAgència de Gestió d’Ajuts Universitaris i de Recerca of the Generalitat de Catalunya under theproject COSDA (Ref: 2014SGR551).

Elsevier