Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

Justin P. Shaffer; Louis Félix Nothias; Luke R. Thompson; Jon G. Sanders; Rodolfo A. Salido; Sneha P. Couvillion; Asker D. Brejnrod; Franck Lejzerowicz; Niina Haiminen; Holly L. Lutz; Qiyun Zhu; Cameron Martino; James T. Morton; Smruthi Karthikeyan; Mélissa Nothias-Esposito; Kai Dührkop; Sebastian Böcker; Hyun Woo Kim; Alexander A. Aksenov; Wout Bittremieux; Jeremiah J. Minich; Clarisse Marotz; MacKenzie K.M. Bryant; Karenina Sanders; Tara Schwartz; Greg Humphrey; Yoshiki Vásquez-Baeza; Anupriya Tripathi; Laxmi Parida; Anna Paola Carrieri; Kristen L. Beck; Promi Das; Antonio González; Daniel McDonald; Joshua Ladau; Søren M. Karst; Mads Albertsen; Gail Ackermann; Jeff DeReus; Torsten Thomas; Daniel Petras; Ashley Shade; James Stegen; Se Jin Song; Thomas O. Metz; Austin D. Swafford; Pieter C. Dorrestein; Janet K. Jansson; Jack A. Gilbert; Rob Knight; the Earth Microbiome Project 500 (EMP500) Consortium

doi:10.1038/s41564-022-01266-x

Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

Justin P. Shaffer, Louis Félix Nothias, Luke R. Thompson, Jon G. Sanders, Rodolfo A. Salido, Sneha P. Couvillion, Asker D. Brejnrod, Franck Lejzerowicz, Niina Haiminen, Holly L. Lutz, Qiyun Zhu, Cameron Martino, James T. Morton, Smruthi Karthikeyan, Mélissa Nothias-Esposito, Kai Dührkop, Sebastian Böcker, Hyun Woo Kim, Alexander A. Aksenov, Wout BittremieuxJeremiah J. Minich, Clarisse Marotz, MacKenzie K.M. Bryant, Karenina Sanders, Tara Schwartz, Greg Humphrey, Yoshiki Vásquez-Baeza, Anupriya Tripathi, Laxmi Parida, Anna Paola Carrieri, Kristen L. Beck, Promi Das, Antonio González, Daniel McDonald, Joshua Ladau, Søren M. Karst, Mads Albertsen, Gail Ackermann, Jeff DeReus, Torsten Thomas, Daniel Petras, Ashley Shade, James Stegen, Se Jin Song, Thomas O. Metz, Austin D. Swafford, Pieter C. Dorrestein, Janet K. Jansson, Jack A. Gilbert, Rob Knight^*, the Earth Microbiome Project 500 (EMP500) Consortium

^*Kontaktforfatter

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

71 Citationer (Scopus)

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Abstract

Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth’s environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.

Originalsprog	Engelsk
Tidsskrift	Nature Microbiology
Vol/bind	7
Udgave nummer	12
Sider (fra-til)	2128-2150
Antal sider	23
ISSN	2058-5276
DOI	https://doi.org/10.1038/s41564-022-01266-x
Status	Udgivet - dec. 2022

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10.1038/s41564-022-01266-xLicens: CC BY 4.0

Open Access articleForlagets udgivne version, 12,8 MBLicens: CC BY 4.0

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Microflora Danica: The Microbiome of Denmark
Albertsen, M. (PI (principal investigator)), Nielsen, P. H. (PI (principal investigator)), Jensen, T. B. N. (Projektdeltager), Sørensen, E. A. (Projektdeltager), Sereika, M. (Projektdeltager), Dottorini, G. (Projektdeltager), Petriglieri, F. (Projektdeltager), Jørgensen, V. R. (Projektdeltager), Kirkegaard, R. H. (Projektdeltager), Yang, Y. (Projektdeltager), Karst, S. M. (Projektdeltager), Giguere, A. T. (Projektdeltager), Knutsson, S. (Projektdeltager), Singleton, C. M. (Projektdeltager), Dueholm, M. K. D. (Projektdeltager), Mølvang Dall, S. (Projektdeltager), Kristensen, J. M. (Projektdeltager) & Delogu, F. (Projektdeltager)
Poul Due Jensens Fond
01/01/2019 → 31/12/2025
Projekter: Projekt › Forskning

Citationsformater

Shaffer, J. P., Nothias, L. F., Thompson, L. R., Sanders, J. G., Salido, R. A., Couvillion, S. P., Brejnrod, A. D., Lejzerowicz, F., Haiminen, N., Lutz, H. L., Zhu, Q., Martino, C., Morton, J. T., Karthikeyan, S., Nothias-Esposito, M., Dührkop, K., Böcker, S., Kim, H. W., Aksenov, A. A., ... the Earth Microbiome Project 500 (EMP500) Consortium (2022). Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity. Nature Microbiology, 7(12), 2128-2150. https://doi.org/10.1038/s41564-022-01266-x

@article{91ad533e7b264c4ba71804c5de0b72bb,

title = "Standardized multi-omics of Earth{\textquoteright}s microbiomes reveals microbial and metabolite diversity",

abstract = "Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth{\textquoteright}s environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.",

keywords = "Animals, Earth, Planet, Metagenome, Metagenomics, Microbiota/genetics, Soil",

author = "Shaffer, {Justin P.} and Nothias, {Louis F{\'e}lix} and Thompson, {Luke R.} and Sanders, {Jon G.} and Salido, {Rodolfo A.} and Couvillion, {Sneha P.} and Brejnrod, {Asker D.} and Franck Lejzerowicz and Niina Haiminen and Shi Huang and Lutz, {Holly L.} and Qiyun Zhu and Cameron Martino and Morton, {James T.} and Smruthi Karthikeyan and M{\'e}lissa Nothias-Esposito and Kai D{\"u}hrkop and Sebastian B{\"o}cker and Kim, {Hyun Woo} and Aksenov, {Alexander A.} and Wout Bittremieux and Minich, {Jeremiah J.} and Clarisse Marotz and Bryant, {MacKenzie K.M.} and Karenina Sanders and Tara Schwartz and Greg Humphrey and Yoshiki V{\'a}squez-Baeza and Anupriya Tripathi and Laxmi Parida and Carrieri, {Anna Paola} and Beck, {Kristen L.} and Promi Das and Antonio Gonz{\'a}lez and Daniel McDonald and Joshua Ladau and Karst, {S{\o}ren M.} and Mads Albertsen and Gail Ackermann and Jeff DeReus and Torsten Thomas and Daniel Petras and Ashley Shade and James Stegen and Song, {Se Jin} and Metz, {Thomas O.} and Swafford, {Austin D.} and Dorrestein, {Pieter C.} and Jansson, {Janet K.} and Gilbert, {Jack A.} and Rob Knight and {the Earth Microbiome Project 500 (EMP500) Consortium} and Angenant, {Lars T.} and Berry, {Alison M.} and Bittleston, {Leonora S.} and Bowen, {Jennifer L.} and Max Chavarr{\'i}a and Cowan, {Don A.} and Dan Distel and Girguis, {Peter R.} and Jaime Huerta-Cepas and Jensen, {Paul R.} and Lingjing Jiang and King, {Gary M.} and Anton Lavrinienko and Aurora MacRae-Crerar and Makhalanyane, {Thulani P.} and Tapio Mappes and Marzinelli, {Ezequiel M.} and Gregory Mayer and McMahon, {Katherine D.} and Metcalf, {Jessica L.} and Sou Miyake and Mousseau, {Timothy A.} and Catalina Murillo-Cruz and David Myrold and Brian Palenik and Pinto-Tom{\'a}s, {Adri{\'a}n A.} and Porazinska, {Dorota L.} and Ramond, {Jean Baptiste} and Forest Rowher and Taniya RoyChowdhury and Sandin, {Stuart A.} and Schmidt, {Steven K.} and Henning Seedorf and Ashley Shade and Shipway, {J. Reuben} and Smith, {Jennifer E.} and James Stegen and Stewart, {Frank J.} and Karen Tait and Torsten Thomas and Yael Tucker and U{\textquoteright}Ren, {Jana M.} and Watts, {Phillip C.} and Webster, {Nicole S.} and Zaneveld, {Jesse R.} and Shan Zhang",

note = "{\textcopyright} 2022. The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41564-022-01266-x",

language = "English",

volume = "7",

pages = "2128--2150",

journal = "Nature Microbiology",

issn = "2058-5276",

publisher = "Nature Research",

number = "12",

}

Shaffer, JP, Nothias, LF, Thompson, LR, Sanders, JG, Salido, RA, Couvillion, SP, Brejnrod, AD, Lejzerowicz, F, Haiminen, N, Lutz, HL, Zhu, Q, Martino, C, Morton, JT, Karthikeyan, S, Nothias-Esposito, M, Dührkop, K, Böcker, S, Kim, HW, Aksenov, AA, Bittremieux, W, Minich, JJ, Marotz, C, Bryant, MKM, Sanders, K, Schwartz, T, Humphrey, G, Vásquez-Baeza, Y, Tripathi, A, Parida, L, Carrieri, AP, Beck, KL, Das, P, González, A, McDonald, D, Ladau, J, Karst, SM, Albertsen, M, Ackermann, G, DeReus, J, Thomas, T, Petras, D, Shade, A, Stegen, J, Song, SJ, Metz, TO, Swafford, AD, Dorrestein, PC, Jansson, JK, Gilbert, JA, Knight, R & the Earth Microbiome Project 500 (EMP500) Consortium 2022, 'Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity', Nature Microbiology, bind 7, nr. 12, s. 2128-2150. https://doi.org/10.1038/s41564-022-01266-x

TY - JOUR

T1 - Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

AU - Shaffer, Justin P.

AU - Nothias, Louis Félix

AU - Thompson, Luke R.

AU - Sanders, Jon G.

AU - Salido, Rodolfo A.

AU - Couvillion, Sneha P.

AU - Brejnrod, Asker D.

AU - Lejzerowicz, Franck

AU - Haiminen, Niina

AU - Huang, Shi

AU - Lutz, Holly L.

AU - Zhu, Qiyun

AU - Martino, Cameron

AU - Morton, James T.

AU - Karthikeyan, Smruthi

AU - Nothias-Esposito, Mélissa

AU - Dührkop, Kai

AU - Böcker, Sebastian

AU - Kim, Hyun Woo

AU - Aksenov, Alexander A.

AU - Bittremieux, Wout

AU - Minich, Jeremiah J.

AU - Marotz, Clarisse

AU - Bryant, MacKenzie K.M.

AU - Sanders, Karenina

AU - Schwartz, Tara

AU - Humphrey, Greg

AU - Vásquez-Baeza, Yoshiki

AU - Tripathi, Anupriya

AU - Parida, Laxmi

AU - Carrieri, Anna Paola

AU - Beck, Kristen L.

AU - Das, Promi

AU - González, Antonio

AU - McDonald, Daniel

AU - Ladau, Joshua

AU - Karst, Søren M.

AU - Albertsen, Mads

AU - Ackermann, Gail

AU - DeReus, Jeff

AU - Thomas, Torsten

AU - Petras, Daniel

AU - Shade, Ashley

AU - Stegen, James

AU - Song, Se Jin

AU - Metz, Thomas O.

AU - Swafford, Austin D.

AU - Dorrestein, Pieter C.

AU - Jansson, Janet K.

AU - Gilbert, Jack A.

AU - Knight, Rob

AU - the Earth Microbiome Project 500 (EMP500) Consortium

AU - Angenant, Lars T.

AU - Berry, Alison M.

AU - Bittleston, Leonora S.

AU - Bowen, Jennifer L.

AU - Chavarría, Max

AU - Cowan, Don A.

AU - Distel, Dan

AU - Girguis, Peter R.

AU - Huerta-Cepas, Jaime

AU - Jensen, Paul R.

AU - Jiang, Lingjing

AU - King, Gary M.

AU - Lavrinienko, Anton

AU - MacRae-Crerar, Aurora

AU - Makhalanyane, Thulani P.

AU - Mappes, Tapio

AU - Marzinelli, Ezequiel M.

AU - Mayer, Gregory

AU - McMahon, Katherine D.

AU - Metcalf, Jessica L.

AU - Miyake, Sou

AU - Mousseau, Timothy A.

AU - Murillo-Cruz, Catalina

AU - Myrold, David

AU - Palenik, Brian

AU - Pinto-Tomás, Adrián A.

AU - Porazinska, Dorota L.

AU - Ramond, Jean Baptiste

AU - Rowher, Forest

AU - RoyChowdhury, Taniya

AU - Sandin, Stuart A.

AU - Schmidt, Steven K.

AU - Seedorf, Henning

AU - Shade, Ashley

AU - Shipway, J. Reuben

AU - Smith, Jennifer E.

AU - Stegen, James

AU - Stewart, Frank J.

AU - Tait, Karen

AU - Thomas, Torsten

AU - Tucker, Yael

AU - U’Ren, Jana M.

AU - Watts, Phillip C.

AU - Webster, Nicole S.

AU - Zaneveld, Jesse R.

AU - Zhang, Shan

PY - 2022/12

Y1 - 2022/12

N2 - Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth’s environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.

AB - Despite advances in sequencing, lack of standardization makes comparisons across studies challenging and hampers insights into the structure and function of microbial communities across multiple habitats on a planetary scale. Here we present a multi-omics analysis of a diverse set of 880 microbial community samples collected for the Earth Microbiome Project. We include amplicon (16S, 18S, ITS) and shotgun metagenomic sequence data, and untargeted metabolomics data (liquid chromatography-tandem mass spectrometry and gas chromatography mass spectrometry). We used standardized protocols and analytical methods to characterize microbial communities, focusing on relationships and co-occurrences of microbially related metabolites and microbial taxa across environments, thus allowing us to explore diversity at extraordinary scale. In addition to a reference database for metagenomic and metabolomic data, we provide a framework for incorporating additional studies, enabling the expansion of existing knowledge in the form of an evolving community resource. We demonstrate the utility of this database by testing the hypothesis that every microbe and metabolite is everywhere but the environment selects. Our results show that metabolite diversity exhibits turnover and nestedness related to both microbial communities and the environment, whereas the relative abundances of microbially related metabolites vary and co-occur with specific microbial consortia in a habitat-specific manner. We additionally show the power of certain chemistry, in particular terpenoids, in distinguishing Earth’s environments (for example, terrestrial plant surfaces and soils, freshwater and marine animal stool), as well as that of certain microbes including Conexibacter woesei (terrestrial soils), Haloquadratum walsbyi (marine deposits) and Pantoea dispersa (terrestrial plant detritus). This Resource provides insight into the taxa and metabolites within microbial communities from diverse habitats across Earth, informing both microbial and chemical ecology, and provides a foundation and methods for multi-omics microbiome studies of hosts and the environment.

KW - Animals

KW - Earth, Planet

KW - Metagenome

KW - Metagenomics

KW - Microbiota/genetics

KW - Soil

UR - http://www.scopus.com/inward/record.url?scp=85142932091&partnerID=8YFLogxK

U2 - 10.1038/s41564-022-01266-x

DO - 10.1038/s41564-022-01266-x

M3 - Journal article

C2 - 36443458

AN - SCOPUS:85142932091

SN - 2058-5276

VL - 7

SP - 2128

EP - 2150

JO - Nature Microbiology

JF - Nature Microbiology

IS - 12

ER -

Standardized multi-omics of Earth’s microbiomes reveals microbial and metabolite diversity

Abstract

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Microflora Danica: The Microbiome of Denmark

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