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Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
by Claesson, Marcus J. , Shanahan, Fergus , Iwai, Shoko , Narayan, Nicole R. , Dabbagh, Karim , DeSantis, Todd Z. , Weinmaier, Thomas , Laserna-Mendieta, Emilio J.
in Accuracy / Analysis / Animal Genetics and Genomics / Anopheles / Biomedical and Life Sciences / Clustering / Databases, Nucleic Acid / Datasets / DNA sequencing / Error correction / Error correction & detection / Gene sequencing / Genes / Genomes / Genomic databases / Genomics / Life Sciences / Metagenomics / Metagenomics - methods / Microarrays / Microbial activity / Microbial Genetics and Genomics / Microorganisms / Parameters / Phylogenetic analysis / Phylogenetics / Phylogeny / Plant Genetics and Genomics / Predictions / Prokaryote microbial genomics / Proteomics / Research Article / Researchers / Ribosomal RNA / RNA / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence alignment / Sequence analysis / Sequence Analysis, DNA - methods / Shotgun sequencing / Software / Taxonomy / Test procedures
2020
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Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
by Claesson, Marcus J. , Shanahan, Fergus , Iwai, Shoko , Narayan, Nicole R. , Dabbagh, Karim , DeSantis, Todd Z. , Weinmaier, Thomas , Laserna-Mendieta, Emilio J.
in Accuracy / Analysis / Animal Genetics and Genomics / Anopheles / Biomedical and Life Sciences / Clustering / Databases, Nucleic Acid / Datasets / DNA sequencing / Error correction / Error correction & detection / Gene sequencing / Genes / Genomes / Genomic databases / Genomics / Life Sciences / Metagenomics / Metagenomics - methods / Microarrays / Microbial activity / Microbial Genetics and Genomics / Microorganisms / Parameters / Phylogenetic analysis / Phylogenetics / Phylogeny / Plant Genetics and Genomics / Predictions / Prokaryote microbial genomics / Proteomics / Research Article / Researchers / Ribosomal RNA / RNA / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence alignment / Sequence analysis / Sequence Analysis, DNA - methods / Shotgun sequencing / Software / Taxonomy / Test procedures
2020
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Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
by Claesson, Marcus J. , Shanahan, Fergus , Iwai, Shoko , Narayan, Nicole R. , Dabbagh, Karim , DeSantis, Todd Z. , Weinmaier, Thomas , Laserna-Mendieta, Emilio J.
in Accuracy / Analysis / Animal Genetics and Genomics / Anopheles / Biomedical and Life Sciences / Clustering / Databases, Nucleic Acid / Datasets / DNA sequencing / Error correction / Error correction & detection / Gene sequencing / Genes / Genomes / Genomic databases / Genomics / Life Sciences / Metagenomics / Metagenomics - methods / Microarrays / Microbial activity / Microbial Genetics and Genomics / Microorganisms / Parameters / Phylogenetic analysis / Phylogenetics / Phylogeny / Plant Genetics and Genomics / Predictions / Prokaryote microbial genomics / Proteomics / Research Article / Researchers / Ribosomal RNA / RNA / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sequence alignment / Sequence analysis / Sequence Analysis, DNA - methods / Shotgun sequencing / Software / Taxonomy / Test procedures
2020

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Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences
Journal Article

Piphillin predicts metagenomic composition and dynamics from DADA2-corrected 16S rDNA sequences

Claesson, Marcus J.,
Shanahan, Fergus,
Iwai, Shoko,
Narayan, Nicole R.,
Dabbagh, Karim,
DeSantis, Todd Z.,
Weinmaier, Thomas,
Laserna-Mendieta, Emilio J.
2020
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Overview
Background Shotgun metagenomic sequencing reveals the potential in microbial communities. However, lower-cost 16S ribosomal RNA (rRNA) gene sequencing provides taxonomic, not functional, observations. To remedy this, we previously introduced Piphillin, a software package that predicts functional metagenomic content based on the frequency of detected 16S rRNA gene sequences corresponding to genomes in regularly updated, functionally annotated genome databases. Piphillin (and similar tools) have previously been evaluated on 16S rRNA data processed by the clustering of sequences into operational taxonomic units (OTUs). New techniques such as amplicon sequence variant error correction are in increased use, but it is unknown if these techniques perform better in metagenomic content prediction pipelines, or if they should be treated the same as OTU data in respect to optimal pipeline parameters. Results To evaluate the effect of 16S rRNA sequence analysis method (clustering sequences into OTUs vs amplicon sequence variant error correction into amplicon sequence variants (ASVs)) on the ability of Piphillin to predict functional metagenomic content, we evaluated Piphillin-predicted functional content from 16S rRNA sequence data processed through OTU clustering and error correction into ASVs compared to corresponding shotgun metagenomic data. We show a strong correlation between metagenomic data and Piphillin-predicted functional content resulting from both 16S rRNA sequence analysis methods. Differential abundance testing with Piphillin-predicted functional content exhibited a low false positive rate (< 0.05) while capturing a large fraction of the differentially abundant features resulting from corresponding metagenomic data. However, Piphillin prediction performance was optimal at different cutoff parameters depending on 16S rRNA sequence analysis method. Using data analyzed with amplicon sequence variant error correction, Piphillin outperformed comparable tools, for instance exhibiting 19% greater balanced accuracy and 54% greater precision compared to PICRUSt2. Conclusions Our results demonstrate that raw Illumina sequences should be processed for subsequent Piphillin analysis using amplicon sequence variant error correction (with DADA2 or similar methods) and run using a 99% ID cutoff for Piphillin, while sequences generated on platforms other than Illumina should be processed via OTU clustering (e.g., UPARSE) and run using a 96% ID cutoff for Piphillin. Piphillin is publicly available for academic users (Piphillin server. http://piphillin.secondgenome.com/ .)
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Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
Subject

Accuracy

/ Analysis

/ Animal Genetics and Genomics

/ Anopheles

/ Biomedical and Life Sciences

/ Clustering

/ Databases, Nucleic Acid

/ Datasets

/ DNA sequencing

/ Error correction

/ Error correction & detection

/ Gene sequencing

/ Genes

/ Genomes

/ Genomic databases

/ Genomics

/ Life Sciences

/ Metagenomics

/ Metagenomics - methods

/ Microarrays

/ Microbial activity

/ Microbial Genetics and Genomics

/ Microorganisms

/ Parameters

/ Phylogenetic analysis

/ Phylogenetics

/ Phylogeny

/ Plant Genetics and Genomics

/ Predictions

/ Prokaryote microbial genomics

/ Proteomics

/ Research Article

/ Researchers

/ Ribosomal RNA

/ RNA

/ RNA, Ribosomal, 16S - genetics

/ rRNA 16S

/ Sequence alignment

/ Sequence analysis

/ Sequence Analysis, DNA - methods

/ Shotgun sequencing

/ Software

/ Taxonomy

/ Test procedures

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