Best practices for analysing microbiomes

Rob Knight; Alison Vrbanac; Bryn C. Taylor; Alexander Aksenov; Chris Callewaert; Justine Debelius; Antonio Gonzalez; Tomasz Kosciolek; Laura Isobel McCall; Daniel McDonald; Alexey V. Melnik; James T. Morton; Jose Navas; Robert A. Quinn; Jon G. Sanders; Austin D. Swafford; Luke R. Thompson; Anupriya Tripathi; Zhenjiang Z. Xu; Jesse R. Zaneveld; Qiyun Zhu; J. Gregory Caporaso; Pieter C. Dorrestein

doi:10.1038/s41579-018-0029-9

Best practices for analysing microbiomes

Rob Knight, Alison Vrbanac, Bryn C. Taylor, Alexander Aksenov, Chris Callewaert, Justine Debelius, Antonio Gonzalez, Tomasz Kosciolek, Laura Isobel McCall, Daniel McDonald, Alexey V. Melnik, James T. Morton, Jose Navas, Robert A. Quinn, Jon G. Sanders, Austin D. Swafford, Luke R. Thompson, Anupriya Tripathi, Zhenjiang Z. Xu, Jesse R. ZaneveldQiyun Zhu, J. Gregory Caporaso, Pieter C. Dorrestein

Research output: Contribution to journal › Review article › peer-review

969 Scopus citations

Abstract

Complex microbial communities shape the dynamics of various environments, ranging from the mammalian gastrointestinal tract to the soil. Advances in DNA sequencing technologies and data analysis have provided drastic improvements in microbiome analyses, for example, in taxonomic resolution, false discovery rate control and other properties, over earlier methods. In this Review, we discuss the best practices for performing a microbiome study, including experimental design, choice of molecular analysis technology, methods for data analysis and the integration of multiple omics data sets. We focus on recent findings that suggest that operational taxonomic unit-based analyses should be replaced with new methods that are based on exact sequence variants, methods for integrating metagenomic and metabolomic data, and issues surrounding compositional data analysis, where advances have been particularly rapid. We note that although some of these approaches are new, it is important to keep sight of the classic issues that arise during experimental design and relate to research reproducibility. We describe how keeping these issues in mind allows researchers to obtain more insight from their microbiome data sets.

Original language	English (US)
Pages (from-to)	410-422
Number of pages	13
Journal	Nature Reviews Microbiology
Volume	16
Issue number	7
DOIs	https://doi.org/10.1038/s41579-018-0029-9
State	Published - Jul 1 2018
Externally published	Yes

ASJC Scopus subject areas

Microbiology
General Immunology and Microbiology
Infectious Diseases

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10.1038/s41579-018-0029-9

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Knight, R., Vrbanac, A., Taylor, B. C., Aksenov, A., Callewaert, C., Debelius, J., Gonzalez, A., Kosciolek, T., McCall, L. I., McDonald, D., Melnik, A. V., Morton, J. T., Navas, J., Quinn, R. A., Sanders, J. G., Swafford, A. D., Thompson, L. R., Tripathi, A., Xu, Z. Z., ... Dorrestein, P. C. (2018). Best practices for analysing microbiomes. Nature Reviews Microbiology, 16(7), 410-422. https://doi.org/10.1038/s41579-018-0029-9

Knight, R, Vrbanac, A, Taylor, BC, Aksenov, A, Callewaert, C, Debelius, J, Gonzalez, A, Kosciolek, T, McCall, LI, McDonald, D, Melnik, AV, Morton, JT, Navas, J, Quinn, RA, Sanders, JG, Swafford, AD, Thompson, LR, Tripathi, A, Xu, ZZ, Zaneveld, JR, Zhu, Q, Caporaso, JG & Dorrestein, PC 2018, 'Best practices for analysing microbiomes', Nature Reviews Microbiology, vol. 16, no. 7, pp. 410-422. https://doi.org/10.1038/s41579-018-0029-9

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abstract = "Complex microbial communities shape the dynamics of various environments, ranging from the mammalian gastrointestinal tract to the soil. Advances in DNA sequencing technologies and data analysis have provided drastic improvements in microbiome analyses, for example, in taxonomic resolution, false discovery rate control and other properties, over earlier methods. In this Review, we discuss the best practices for performing a microbiome study, including experimental design, choice of molecular analysis technology, methods for data analysis and the integration of multiple omics data sets. We focus on recent findings that suggest that operational taxonomic unit-based analyses should be replaced with new methods that are based on exact sequence variants, methods for integrating metagenomic and metabolomic data, and issues surrounding compositional data analysis, where advances have been particularly rapid. We note that although some of these approaches are new, it is important to keep sight of the classic issues that arise during experimental design and relate to research reproducibility. We describe how keeping these issues in mind allows researchers to obtain more insight from their microbiome data sets.",

author = "Rob Knight and Alison Vrbanac and Taylor, {Bryn C.} and Alexander Aksenov and Chris Callewaert and Justine Debelius and Antonio Gonzalez and Tomasz Kosciolek and McCall, {Laura Isobel} and Daniel McDonald and Melnik, {Alexey V.} and Morton, {James T.} and Jose Navas and Quinn, {Robert A.} and Sanders, {Jon G.} and Swafford, {Austin D.} and Thompson, {Luke R.} and Anupriya Tripathi and Xu, {Zhenjiang Z.} and Zaneveld, {Jesse R.} and Qiyun Zhu and Caporaso, {J. Gregory} and Dorrestein, {Pieter C.}",

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AU - Gonzalez, Antonio

AU - Kosciolek, Tomasz

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AU - Morton, James T.

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AU - Quinn, Robert A.

AU - Sanders, Jon G.

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AU - Thompson, Luke R.

AU - Tripathi, Anupriya

AU - Xu, Zhenjiang Z.

AU - Zaneveld, Jesse R.

AU - Zhu, Qiyun

AU - Caporaso, J. Gregory

AU - Dorrestein, Pieter C.

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Best practices for analysing microbiomes

Abstract

ASJC Scopus subject areas

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