Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function

Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function

Abstract Background Due to their much lower costs in experiment and computation than metagenomic whole-genome sequencing (WGS), 16S rRNA gene amplicons have been widely used for predicting the functional profiles of microbiome, via software tools such as PICRUSt 2. However, due to the potential PCR...

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Main Authors: Gongchao Jing, Yufeng Zhang, Wenzhi Cui, Lu Liu, Jian Xu, Xiaoquan Su
Format: Article
Language:English
Published: BMC 2021-01-01
Series:BMC Genomics
Subjects:
Microbiome
Metagenome
Amplicon
Function
Calibration
Online Access:https://doi.org/10.1186/s12864-020-07307-1
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spelling doaj-0fd11076f97a4555a69dc4ce7655c2dc2021-01-10T12:33:46ZengBMCBMC Genomics1471-21642021-01-0122111110.1186/s12864-020-07307-1Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome functionGongchao Jing0Yufeng Zhang1Wenzhi Cui2Lu Liu3Jian Xu4Xiaoquan Su5Single-Cell Center, CAS Key Lab of Biofuels, Shandong Key Lab of Energy Genetics and Shandong Institute of Energy Research, Qingdao Institute of BioEnergy and Bioprocess Technology, Chinese Academy of SciencesSingle-Cell Center, CAS Key Lab of Biofuels, Shandong Key Lab of Energy Genetics and Shandong Institute of Energy Research, Qingdao Institute of BioEnergy and Bioprocess Technology, Chinese Academy of SciencesCollege of Control Science and Engineering, China University of PetroleumSingle-Cell Center, CAS Key Lab of Biofuels, Shandong Key Lab of Energy Genetics and Shandong Institute of Energy Research, Qingdao Institute of BioEnergy and Bioprocess Technology, Chinese Academy of SciencesSingle-Cell Center, CAS Key Lab of Biofuels, Shandong Key Lab of Energy Genetics and Shandong Institute of Energy Research, Qingdao Institute of BioEnergy and Bioprocess Technology, Chinese Academy of SciencesCollege of Computer Science and Technology, Qingdao UniversityAbstract Background Due to their much lower costs in experiment and computation than metagenomic whole-genome sequencing (WGS), 16S rRNA gene amplicons have been widely used for predicting the functional profiles of microbiome, via software tools such as PICRUSt 2. However, due to the potential PCR bias and gene profile variation among phylogenetically related genomes, functional profiles predicted from 16S amplicons may deviate from WGS-derived ones, resulting in misleading results. Results Here we present Meta-Apo, which greatly reduces or even eliminates such deviation, thus deduces much more consistent diversity patterns between the two approaches. Tests of Meta-Apo on > 5000 16S-rRNA amplicon human microbiome samples from 4 body sites showed the deviation between the two strategies is significantly reduced by using only 15 WGS-amplicon training sample pairs. Moreover, Meta-Apo enables cross-platform functional comparison between WGS and amplicon samples, thus greatly improve 16S-based microbiome diagnosis, e.g. accuracy of gingivitis diagnosis via 16S-derived functional profiles was elevated from 65 to 95% by WGS-based classification. Therefore, with the low cost of 16S-amplicon sequencing, Meta-Apo can produce a reliable, high-resolution view of microbiome function equivalent to that offered by shotgun WGS. Conclusions This suggests that large-scale, function-oriented microbiome sequencing projects can probably benefit from the lower cost of 16S-amplicon strategy, without sacrificing the precision in functional reconstruction that otherwise requires WGS. An optimized C++ implementation of Meta-Apo is available on GitHub ( https://github.com/qibebt-bioinfo/meta-apo ) under a GNU GPL license. It takes the functional profiles of a few paired WGS:16S-amplicon samples as training, and outputs the calibrated functional profiles for the much larger number of 16S-amplicon samples.https://doi.org/10.1186/s12864-020-07307-1MicrobiomeMetagenomeAmpliconFunctionCalibration
collection DOAJ
language English
format Article
sources DOAJ
author Gongchao Jing
Yufeng Zhang
Wenzhi Cui
Lu Liu
Jian Xu
Xiaoquan Su
spellingShingle Gongchao Jing
Yufeng Zhang
Wenzhi Cui
Lu Liu
Jian Xu
Xiaoquan Su
Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
BMC Genomics
Microbiome
Metagenome
Amplicon
Function
Calibration
author_facet Gongchao Jing
Yufeng Zhang
Wenzhi Cui
Lu Liu
Jian Xu
Xiaoquan Su
author_sort Gongchao Jing
title Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
title_short Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
title_full Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
title_fullStr Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
title_full_unstemmed Meta-Apo improves accuracy of 16S-amplicon-based prediction of microbiome function
title_sort meta-apo improves accuracy of 16s-amplicon-based prediction of microbiome function
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2021-01-01
description Abstract Background Due to their much lower costs in experiment and computation than metagenomic whole-genome sequencing (WGS), 16S rRNA gene amplicons have been widely used for predicting the functional profiles of microbiome, via software tools such as PICRUSt 2. However, due to the potential PCR bias and gene profile variation among phylogenetically related genomes, functional profiles predicted from 16S amplicons may deviate from WGS-derived ones, resulting in misleading results. Results Here we present Meta-Apo, which greatly reduces or even eliminates such deviation, thus deduces much more consistent diversity patterns between the two approaches. Tests of Meta-Apo on > 5000 16S-rRNA amplicon human microbiome samples from 4 body sites showed the deviation between the two strategies is significantly reduced by using only 15 WGS-amplicon training sample pairs. Moreover, Meta-Apo enables cross-platform functional comparison between WGS and amplicon samples, thus greatly improve 16S-based microbiome diagnosis, e.g. accuracy of gingivitis diagnosis via 16S-derived functional profiles was elevated from 65 to 95% by WGS-based classification. Therefore, with the low cost of 16S-amplicon sequencing, Meta-Apo can produce a reliable, high-resolution view of microbiome function equivalent to that offered by shotgun WGS. Conclusions This suggests that large-scale, function-oriented microbiome sequencing projects can probably benefit from the lower cost of 16S-amplicon strategy, without sacrificing the precision in functional reconstruction that otherwise requires WGS. An optimized C++ implementation of Meta-Apo is available on GitHub ( https://github.com/qibebt-bioinfo/meta-apo ) under a GNU GPL license. It takes the functional profiles of a few paired WGS:16S-amplicon samples as training, and outputs the calibrated functional profiles for the much larger number of 16S-amplicon samples.
topic Microbiome
Metagenome
Amplicon
Function
Calibration
url https://doi.org/10.1186/s12864-020-07307-1
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