Author:
Ling Wodan,Zhao Ni,Lulla Anju,Plantinga Anna M.,Fu Weijia,Zhang Angela,Liu Hongjiao,Li Zhigang,Chen Jun,Randolph Timothy,Koay Wei Li A.,White James R.,Launer Lenore J.,Fodor Anthony A.,Meyer Katie A.,Wu Michael C.
Abstract
AbstractBatch effects in microbiome data arise from differential processing of specimens and can lead to spurious findings and obscure true signals. Most existing strategies for mitigating batch effects rely on approaches designed for genomic analysis, failing to address the zero-inflated and over-dispersed microbiome data. Strategies tailored for microbiome data are restricted to association testing, failing to allow other analytic goals such as visualization. We develop the Conditional Quantile Regression (ConQuR) approach to remove microbiome batch effects using a two-part quantile regression model. It is a fundamental advancement in the field because it is the first comprehensive method that accommodates the complex distributions of microbial read counts, and it generates batch-removed zero-inflated read counts that can be used in and benefit all usual subsequent analyses. We apply ConQuR to real microbiome data sets and demonstrate its state-of-the-art performance in removing batch effects while preserving or even amplifying the signals of interest.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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