McKnight, Donald T; Huerlimann, Roger; Bower, Deborah S; Schwarzkopf, Lin; Alford, Ross A; Zenger, Kyall R

Author(s)

McKnight, Donald T

Huerlimann, Roger

Bower, Deborah S

Schwarzkopf, Lin

Alford, Ross A

Zenger, Kyall R

Publication Date

2019

Abstract

All data and simulation scripts are included in this article and its Appendices. The microDecon package and user manual are available from github (https://github.com/donaldtmcknight/microDecon).

Abstract

Contamination is a ubiquitous problem in microbiome research and can skew results, especially when small amounts of target DNA are available. Nevertheless, no clear solution has emerged for removing microbial contamination. To address this problem, we developed the R package microDecon (https ://github.com/donal dtmck night/microDecon), which uses the proportions of contaminant operational taxonomic units (OTUs) or amplicon sequence variants (ASVs) in blank samples to systematically identify and remove contaminant reads from metabarcoding data sets. We rigorously tested microDecon using a series of computer simulations and a sequencing experiment. We also compared it to the common practice of simply removing all contaminant OTUs/ASVs and other methods for removing contamination. Both the computer simulations and our sequencing data confirmed the utility of micro‐ Decon. In our largest simulation (100,000 samples), using microDecon improved the results in 98.1% of samples. Additionally, in the sequencing data and in simulations involving groups, it enabled accurate clustering of groups as well as the detection of previously obscured patterns. It also produced more accurate results than the existing methods for identifying and removing contamination. These results demonstrate that microDecon effectively removes contamination across a broad range of situations. It should, therefore, be widely applicable to microbiome studies, as well as to metabarcoding studies in general.

Citation

Environmental DNA, 1(1), p. 14-25

ISSN

2637-4943

Link

https://hdl.handle.net/1959.11/28918

Publisher

John Wiley & Sons, Inc

Rights

Attribution-NonCommercial 4.0 International

Title

microDecon: A highly accurate read-subtraction tool for the post-sequencing removal of contamination in metabarcoding studies

Type of document

Journal Article

Entity Type

Publication

Author(s)	McKnight, Donald T Huerlimann, Roger Bower, Deborah S Schwarzkopf, Lin Alford, Ross A Zenger, Kyall R
Publication Date	2019
Abstract	All data and simulation scripts are included in this article and its Appendices. The microDecon package and user manual are available from github (https://github.com/donaldtmcknight/microDecon).
Abstract	Contamination is a ubiquitous problem in microbiome research and can skew results, especially when small amounts of target DNA are available. Nevertheless, no clear solution has emerged for removing microbial contamination. To address this problem, we developed the R package microDecon (https ://github.com/donal dtmck night/microDecon), which uses the proportions of contaminant operational taxonomic units (OTUs) or amplicon sequence variants (ASVs) in blank samples to systematically identify and remove contaminant reads from metabarcoding data sets. We rigorously tested microDecon using a series of computer simulations and a sequencing experiment. We also compared it to the common practice of simply removing all contaminant OTUs/ASVs and other methods for removing contamination. Both the computer simulations and our sequencing data confirmed the utility of micro‐ Decon. In our largest simulation (100,000 samples), using microDecon improved the results in 98.1% of samples. Additionally, in the sequencing data and in simulations involving groups, it enabled accurate clustering of groups as well as the detection of previously obscured patterns. It also produced more accurate results than the existing methods for identifying and removing contamination. These results demonstrate that microDecon effectively removes contamination across a broad range of situations. It should, therefore, be widely applicable to microbiome studies, as well as to metabarcoding studies in general.
Citation	Environmental DNA, 1(1), p. 14-25
ISSN	2637-4943
Link	https://hdl.handle.net/1959.11/28918
Publisher	John Wiley & Sons, Inc
Rights	Attribution-NonCommercial 4.0 International
Title	microDecon: A highly accurate read-subtraction tool for the post-sequencing removal of contamination in metabarcoding studies
Type of document	Journal Article
Entity Type	Publication

microDecon: A highly accurate read-subtraction tool for the post-sequencing removal of contamination in metabarcoding studies

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