Analysis of metagenomic data

Shaopeng Liu; Judith S. Rodriguez; Viorel Munteanu; Cynthia Ronkowski; Nitesh Kumar Sharma; Mohammed Alser; Francesco Andreace; Ran Blekhman; Dagmara Błaszczyk; Rayan Chikhi; Keith A. Crandall; Katja Della Libera; Dallace Francis; Alina Frolova; Abigail Shahar Gancz; Naomi E. Huntley; Pooja Jaiswal; Tomasz Kosciolek; Pawel P. Łabaj; Wojciech Łabaj; Tu Luan; Christopher Mason; Ahmed M. Moustafa; Harihara Subrahmaniam Muralidharan; Onur Mutlu; Nika Mansouri Ghiasi; Ali Rahnavard; Fengzhu Sun; Shuchang Tian; Braden T. Tierney; Emily Van Syoc; Riccardo Vicedomini; Joseph P. Zackular; Alex Zelikovsky; Kinga Zielińska; Erika Ganda; Emily R. Davenport; Mihai Pop; David Koslicki; Serghei Mangul

doi:10.1038/s43586-024-00376-6

Analysis of metagenomic data

Shaopeng Liu, Judith S. Rodriguez, Viorel Munteanu, Cynthia Ronkowski, Nitesh Kumar Sharma, Mohammed Alser, Francesco Andreace, Ran Blekhman, Dagmara Błaszczyk, Rayan Chikhi, Keith A. Crandall, Katja Della Libera, Dallace Francis, Alina Frolova, Abigail Shahar Gancz, Naomi E. Huntley, Pooja Jaiswal, Tomasz Kosciolek, Pawel P. Łabaj, Wojciech ŁabajTu Luan, Christopher Mason, Ahmed M. Moustafa, Harihara Subrahmaniam Muralidharan, Onur Mutlu, Nika Mansouri Ghiasi, Ali Rahnavard, Fengzhu Sun, Shuchang Tian, Braden T. Tierney, Emily Van Syoc, Riccardo Vicedomini, Joseph P. Zackular, Alex Zelikovsky, Kinga Zielińska, Erika Ganda, Emily R. Davenport, Mihai Pop, David Koslicki, Serghei Mangul

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Metagenomics has revolutionized our understanding of microbial communities, offering unprecedented insights into their genetic and functional diversity across Earth’s diverse ecosystems. Beyond their roles as environmental constituents, microbiomes act as symbionts, profoundly influencing the health and function of their host organisms. Given the inherent complexity of these communities and the diverse environments where they reside, the components of a metagenomics study must be carefully tailored to yield accurate results that are representative of the populations of interest. This Primer examines the methodological advancements and current practices that have shaped the field, from initial stages of sample collection and DNA extraction to the advanced bioinformatics tools employed for data analysis, with a particular focus on the profound impact of next-generation sequencing on the scale and accuracy of metagenomics studies. We critically assess the challenges and limitations inherent in metagenomics experimentation, available technologies and computational analysis methods. Beyond technical methodologies, we explore the application of metagenomics across various domains, including human health, agriculture and environmental monitoring. Looking ahead, we advocate for the development of more robust computational frameworks and enhanced interdisciplinary collaborations. This Primer serves as a comprehensive guide for advancing the precision and applicability of metagenomic studies, positioning them to address the complexities of microbial ecology and their broader implications for human health and environmental sustainability.

Original language	English (US)
Article number	5
Journal	Nature Reviews Methods Primers
Volume	5
Issue number	1
DOIs	https://doi.org/10.1038/s43586-024-00376-6
State	Published - Dec 2025

All Science Journal Classification (ASJC) codes

General Biochemistry, Genetics and Molecular Biology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s43586-024-00376-6

Cite this

Liu, S., Rodriguez, J. S., Munteanu, V., Ronkowski, C., Sharma, N. K., Alser, M., Andreace, F., Blekhman, R., Błaszczyk, D., Chikhi, R., Crandall, K. A., Della Libera, K., Francis, D., Frolova, A., Gancz, A. S., Huntley, N. E., Jaiswal, P., Kosciolek, T., Łabaj, P. P., ... Mangul, S. (2025). Analysis of metagenomic data. Nature Reviews Methods Primers, 5(1), Article 5. https://doi.org/10.1038/s43586-024-00376-6

@article{f699c1b7c8fc404c934a577600de2f06,

title = "Analysis of metagenomic data",

abstract = "Metagenomics has revolutionized our understanding of microbial communities, offering unprecedented insights into their genetic and functional diversity across Earth{\textquoteright}s diverse ecosystems. Beyond their roles as environmental constituents, microbiomes act as symbionts, profoundly influencing the health and function of their host organisms. Given the inherent complexity of these communities and the diverse environments where they reside, the components of a metagenomics study must be carefully tailored to yield accurate results that are representative of the populations of interest. This Primer examines the methodological advancements and current practices that have shaped the field, from initial stages of sample collection and DNA extraction to the advanced bioinformatics tools employed for data analysis, with a particular focus on the profound impact of next-generation sequencing on the scale and accuracy of metagenomics studies. We critically assess the challenges and limitations inherent in metagenomics experimentation, available technologies and computational analysis methods. Beyond technical methodologies, we explore the application of metagenomics across various domains, including human health, agriculture and environmental monitoring. Looking ahead, we advocate for the development of more robust computational frameworks and enhanced interdisciplinary collaborations. This Primer serves as a comprehensive guide for advancing the precision and applicability of metagenomic studies, positioning them to address the complexities of microbial ecology and their broader implications for human health and environmental sustainability.",

author = "Shaopeng Liu and Rodriguez, {Judith S.} and Viorel Munteanu and Cynthia Ronkowski and Sharma, {Nitesh Kumar} and Mohammed Alser and Francesco Andreace and Ran Blekhman and Dagmara B{\l}aszczyk and Rayan Chikhi and Crandall, {Keith A.} and {Della Libera}, Katja and Dallace Francis and Alina Frolova and Gancz, {Abigail Shahar} and Huntley, {Naomi E.} and Pooja Jaiswal and Tomasz Kosciolek and {\L}abaj, {Pawel P.} and Wojciech {\L}abaj and Tu Luan and Christopher Mason and Moustafa, {Ahmed M.} and Muralidharan, {Harihara Subrahmaniam} and Onur Mutlu and Ghiasi, {Nika Mansouri} and Ali Rahnavard and Fengzhu Sun and Shuchang Tian and Tierney, {Braden T.} and {Van Syoc}, Emily and Riccardo Vicedomini and Zackular, {Joseph P.} and Alex Zelikovsky and Kinga Zieli{\'n}ska and Erika Ganda and Davenport, {Emily R.} and Mihai Pop and David Koslicki and Serghei Mangul",

note = "Publisher Copyright: {\textcopyright} Springer Nature Limited 2025.",

year = "2025",

month = dec,

doi = "10.1038/s43586-024-00376-6",

language = "English (US)",

volume = "5",

journal = "Nature Reviews Methods Primers",

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Liu, S, Rodriguez, JS, Munteanu, V, Ronkowski, C, Sharma, NK, Alser, M, Andreace, F, Blekhman, R, Błaszczyk, D, Chikhi, R, Crandall, KA, Della Libera, K, Francis, D, Frolova, A, Gancz, AS, Huntley, NE, Jaiswal, P, Kosciolek, T, Łabaj, PP, Łabaj, W, Luan, T, Mason, C, Moustafa, AM, Muralidharan, HS, Mutlu, O, Ghiasi, NM, Rahnavard, A, Sun, F, Tian, S, Tierney, BT, Van Syoc, E, Vicedomini, R, Zackular, JP, Zelikovsky, A, Zielińska, K, Ganda, E , Davenport, ER, Pop, M, Koslicki, D & Mangul, S 2025, 'Analysis of metagenomic data', Nature Reviews Methods Primers, vol. 5, no. 1, 5. https://doi.org/10.1038/s43586-024-00376-6

TY - JOUR

T1 - Analysis of metagenomic data

AU - Liu, Shaopeng

AU - Rodriguez, Judith S.

AU - Munteanu, Viorel

AU - Ronkowski, Cynthia

AU - Sharma, Nitesh Kumar

AU - Alser, Mohammed

AU - Andreace, Francesco

AU - Blekhman, Ran

AU - Błaszczyk, Dagmara

AU - Chikhi, Rayan

AU - Crandall, Keith A.

AU - Della Libera, Katja

AU - Francis, Dallace

AU - Frolova, Alina

AU - Gancz, Abigail Shahar

AU - Huntley, Naomi E.

AU - Jaiswal, Pooja

AU - Kosciolek, Tomasz

AU - Łabaj, Pawel P.

AU - Łabaj, Wojciech

AU - Luan, Tu

AU - Mason, Christopher

AU - Moustafa, Ahmed M.

AU - Muralidharan, Harihara Subrahmaniam

AU - Mutlu, Onur

AU - Ghiasi, Nika Mansouri

AU - Rahnavard, Ali

AU - Sun, Fengzhu

AU - Tian, Shuchang

AU - Tierney, Braden T.

AU - Van Syoc, Emily

AU - Vicedomini, Riccardo

AU - Zackular, Joseph P.

AU - Zelikovsky, Alex

AU - Zielińska, Kinga

AU - Ganda, Erika

AU - Davenport, Emily R.

AU - Pop, Mihai

AU - Koslicki, David

AU - Mangul, Serghei

PY - 2025/12

Y1 - 2025/12

N2 - Metagenomics has revolutionized our understanding of microbial communities, offering unprecedented insights into their genetic and functional diversity across Earth’s diverse ecosystems. Beyond their roles as environmental constituents, microbiomes act as symbionts, profoundly influencing the health and function of their host organisms. Given the inherent complexity of these communities and the diverse environments where they reside, the components of a metagenomics study must be carefully tailored to yield accurate results that are representative of the populations of interest. This Primer examines the methodological advancements and current practices that have shaped the field, from initial stages of sample collection and DNA extraction to the advanced bioinformatics tools employed for data analysis, with a particular focus on the profound impact of next-generation sequencing on the scale and accuracy of metagenomics studies. We critically assess the challenges and limitations inherent in metagenomics experimentation, available technologies and computational analysis methods. Beyond technical methodologies, we explore the application of metagenomics across various domains, including human health, agriculture and environmental monitoring. Looking ahead, we advocate for the development of more robust computational frameworks and enhanced interdisciplinary collaborations. This Primer serves as a comprehensive guide for advancing the precision and applicability of metagenomic studies, positioning them to address the complexities of microbial ecology and their broader implications for human health and environmental sustainability.

AB - Metagenomics has revolutionized our understanding of microbial communities, offering unprecedented insights into their genetic and functional diversity across Earth’s diverse ecosystems. Beyond their roles as environmental constituents, microbiomes act as symbionts, profoundly influencing the health and function of their host organisms. Given the inherent complexity of these communities and the diverse environments where they reside, the components of a metagenomics study must be carefully tailored to yield accurate results that are representative of the populations of interest. This Primer examines the methodological advancements and current practices that have shaped the field, from initial stages of sample collection and DNA extraction to the advanced bioinformatics tools employed for data analysis, with a particular focus on the profound impact of next-generation sequencing on the scale and accuracy of metagenomics studies. We critically assess the challenges and limitations inherent in metagenomics experimentation, available technologies and computational analysis methods. Beyond technical methodologies, we explore the application of metagenomics across various domains, including human health, agriculture and environmental monitoring. Looking ahead, we advocate for the development of more robust computational frameworks and enhanced interdisciplinary collaborations. This Primer serves as a comprehensive guide for advancing the precision and applicability of metagenomic studies, positioning them to address the complexities of microbial ecology and their broader implications for human health and environmental sustainability.

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UR - http://www.scopus.com/inward/citedby.url?scp=85218838883&partnerID=8YFLogxK

U2 - 10.1038/s43586-024-00376-6

DO - 10.1038/s43586-024-00376-6

M3 - Article

AN - SCOPUS:85218838883

SN - 2662-8449

VL - 5

JO - Nature Reviews Methods Primers

JF - Nature Reviews Methods Primers

IS - 1

M1 - 5

ER -

Analysis of metagenomic data

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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