The microbiologist's guide to metaproteomics

Tim Van Den Bossche; Jean Armengaud; Dirk Benndorf; Jose Alfredo Blakeley-Ruiz; Madita Brauer; Kai Cheng; Marybeth Creskey; Daniel Figeys; Lucia Grenga; Timothy J. Griffin; Céline Henry; Robert L. Hettich; Tanja Holstein; Pratik D. Jagtap; Nico Jehmlich; Jonghyun Kim; Manuel Kleiner; Benoit J. Kunath; Xuxa Malliet; Lennart Martens; Subina Mehta; Bart Mesuere; Zhibin Ning; Alessandro Tanca; Sergio Uzzau; Pieter Verschaffelt; Jing Wang; Paul Wilmes; Xu Zhang; Xin Zhang; Leyuan Li; The Metaproteomics Initiative

doi:10.1002/imt2.70031

The microbiologist's guide to metaproteomics

Tim Van Den Bossche, Jean Armengaud, Dirk Benndorf, Jose Alfredo Blakeley-Ruiz, Madita Brauer, Kai Cheng, Marybeth Creskey, Daniel Figeys, Lucia Grenga, Timothy J. Griffin, Céline Henry, Robert L. Hettich, Tanja Holstein, Pratik D. Jagtap, Nico Jehmlich, Jonghyun Kim, Manuel Kleiner, Benoit J. Kunath, Xuxa Malliet, Lennart MartensSubina Mehta, Bart Mesuere, Zhibin Ning, Alessandro Tanca, Sergio Uzzau, Pieter Verschaffelt, Jing Wang, Paul Wilmes, Xu Zhang, Xin Zhang, Leyuan Li, The Metaproteomics Initiative

Norwich Medical School

Research output: Contribution to journal › Review article › peer-review

13 Citations (Scopus)

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Abstract

Metaproteomics is an emerging approach for studying microbiomes, offering the ability to characterize proteins that underpin microbial functionality within diverse ecosystems. As the primary catalytic and structural components of microbiomes, proteins provide unique insights into the active processes and ecological roles of microbial communities. By integrating metaproteomics with other omics disciplines, researchers can gain a comprehensive understanding of microbial ecology, interactions, and functional dynamics. This review, developed by the Metaproteomics Initiative (www.metaproteomics.org), serves as a practical guide for both microbiome and proteomics researchers, presenting key principles, state-of-the-art methodologies, and analytical workflows essential to metaproteomics. Topics covered include experimental design, sample preparation, mass spectrometry techniques, data analysis strategies, and statistical approaches.

Original language	English
Article number	e70031
Journal	iMeta
Volume	4
Issue number	3
Early online date	6 May 2025
DOIs	https://doi.org/10.1002/imt2.70031
Publication status	Published - 2 Jun 2025

Keywords

bioinformatics
functional dynamics
mass spectrometry
metaproteomics
microbiome

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10.1002/imt2.70031Licence: CC BY

The microbiologist s guide to metaproteomicsFinal published version, 5.42 MBLicence: CC BY

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Van Den Bossche, T., Armengaud, J., Benndorf, D., Blakeley-Ruiz, J. A., Brauer, M., Cheng, K., Creskey, M., Figeys, D., Grenga, L., Griffin, T. J., Henry, C., Hettich, R. L., Holstein, T., Jagtap, P. D., Jehmlich, N., Kim, J., Kleiner, M., Kunath, B. J., Malliet, X., ... The Metaproteomics Initiative (2025). The microbiologist's guide to metaproteomics. iMeta, 4(3), Article e70031. https://doi.org/10.1002/imt2.70031

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abstract = "Metaproteomics is an emerging approach for studying microbiomes, offering the ability to characterize proteins that underpin microbial functionality within diverse ecosystems. As the primary catalytic and structural components of microbiomes, proteins provide unique insights into the active processes and ecological roles of microbial communities. By integrating metaproteomics with other omics disciplines, researchers can gain a comprehensive understanding of microbial ecology, interactions, and functional dynamics. This review, developed by the Metaproteomics Initiative (www.metaproteomics.org), serves as a practical guide for both microbiome and proteomics researchers, presenting key principles, state-of-the-art methodologies, and analytical workflows essential to metaproteomics. Topics covered include experimental design, sample preparation, mass spectrometry techniques, data analysis strategies, and statistical approaches.",

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Van Den Bossche, T, Armengaud, J, Benndorf, D, Blakeley-Ruiz, JA, Brauer, M, Cheng, K, Creskey, M, Figeys, D, Grenga, L, Griffin, TJ, Henry, C, Hettich, RL, Holstein, T, Jagtap, PD, Jehmlich, N, Kim, J, Kleiner, M, Kunath, BJ, Malliet, X, Martens, L, Mehta, S, Mesuere, B, Ning, Z, Tanca, A, Uzzau, S, Verschaffelt, P, Wang, J, Wilmes, P, Zhang, X, Zhang, X, Li, L & The Metaproteomics Initiative 2025, 'The microbiologist's guide to metaproteomics', iMeta, vol. 4, no. 3, e70031. https://doi.org/10.1002/imt2.70031

TY - JOUR

T1 - The microbiologist's guide to metaproteomics

AU - Van Den Bossche, Tim

AU - Armengaud, Jean

AU - Benndorf, Dirk

AU - Blakeley-Ruiz, Jose Alfredo

AU - Brauer, Madita

AU - Cheng, Kai

AU - Creskey, Marybeth

AU - Figeys, Daniel

AU - Grenga, Lucia

AU - Griffin, Timothy J.

AU - Henry, Céline

AU - Hettich, Robert L.

AU - Holstein, Tanja

AU - Jagtap, Pratik D.

AU - Jehmlich, Nico

AU - Kim, Jonghyun

AU - Kleiner, Manuel

AU - Kunath, Benoit J.

AU - Malliet, Xuxa

AU - Martens, Lennart

AU - Mehta, Subina

AU - Mesuere, Bart

AU - Ning, Zhibin

AU - Tanca, Alessandro

AU - Uzzau, Sergio

AU - Verschaffelt, Pieter

AU - Wang, Jing

AU - Wilmes, Paul

AU - Zhang, Xu

AU - Zhang, Xin

AU - Li, Leyuan

AU - The Metaproteomics Initiative

PY - 2025/6/2

Y1 - 2025/6/2

N2 - Metaproteomics is an emerging approach for studying microbiomes, offering the ability to characterize proteins that underpin microbial functionality within diverse ecosystems. As the primary catalytic and structural components of microbiomes, proteins provide unique insights into the active processes and ecological roles of microbial communities. By integrating metaproteomics with other omics disciplines, researchers can gain a comprehensive understanding of microbial ecology, interactions, and functional dynamics. This review, developed by the Metaproteomics Initiative (www.metaproteomics.org), serves as a practical guide for both microbiome and proteomics researchers, presenting key principles, state-of-the-art methodologies, and analytical workflows essential to metaproteomics. Topics covered include experimental design, sample preparation, mass spectrometry techniques, data analysis strategies, and statistical approaches.

AB - Metaproteomics is an emerging approach for studying microbiomes, offering the ability to characterize proteins that underpin microbial functionality within diverse ecosystems. As the primary catalytic and structural components of microbiomes, proteins provide unique insights into the active processes and ecological roles of microbial communities. By integrating metaproteomics with other omics disciplines, researchers can gain a comprehensive understanding of microbial ecology, interactions, and functional dynamics. This review, developed by the Metaproteomics Initiative (www.metaproteomics.org), serves as a practical guide for both microbiome and proteomics researchers, presenting key principles, state-of-the-art methodologies, and analytical workflows essential to metaproteomics. Topics covered include experimental design, sample preparation, mass spectrometry techniques, data analysis strategies, and statistical approaches.

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KW - functional dynamics

KW - mass spectrometry

KW - metaproteomics

KW - microbiome

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DO - 10.1002/imt2.70031

M3 - Review article

AN - SCOPUS:105004579392

SN - 2770-5986

VL - 4

JO - iMeta

JF - iMeta

IS - 3

M1 - e70031

ER -

The microbiologist's guide to metaproteomics

Abstract

Keywords

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