Establishing the ELIXIR Microbiome Community

Robert D. Finn; Bachir Balech; Josephine Burgin; Physilia Chua; Erwan Corre; Cymon J. Cox; Claudio Donati; Vitor Martins dos Santos; Bruno Fosso; John Hancock; Katharina F. Heil; Naveed Ishaque; Varsha Kale; Benoit J. Kunath; Claudine Médigue; Teresa Nogueira; Evangelos Pafilis; Graziano Pesole; Lorna Richardson; Monica Santamaria; Nikolaos Strepis; Tim Van Den Bossche; Juan Antonio Vizcaíno; Haris Zafeiropoulos; Nils P. Willassen; Eric Pelletier; Bérénice Batut

doi:10.12688/f1000research.144515.2

Establishing the ELIXIR Microbiome Community

Robert D. Finn^*, Bachir Balech, Josephine Burgin, Physilia Chua, Erwan Corre, Cymon J. Cox, Claudio Donati, Vitor Martins dos Santos, Bruno Fosso, John Hancock, Katharina F. Heil, Naveed Ishaque, Varsha Kale, Benoit J. Kunath, Claudine Médigue, Teresa Nogueira, Evangelos Pafilis, Graziano Pesole, Lorna Richardson, Monica SantamariaNikolaos Strepis, Tim Van Den Bossche, Juan Antonio Vizcaíno, Haris Zafeiropoulos, Nils P. Willassen, Eric Pelletier^*, Bérénice Batut^*

^*Corresponding author for this work

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

Abstract

Microbiome research has grown substantially over the past decade in terms of the range of biomes sampled, identified taxa, and the volume of data derived from the samples. In particular, experimental approaches such as metagenomics, metabarcoding, metatranscriptomics and metaproteomics have provided profound insights into the vast, hitherto unknown, microbial biodiversity. The ELIXIR Marine Metagenomics Community, initiated amongst researchers focusing on marine microbiomes, has concentrated on promoting standards around microbiome-derived sequence analysis, as well as understanding the gaps in methods and reference databases, and identifying solutions to the computational overheads of performing such analyses. Nevertheless, the methods used and the challenges faced are not confined to marine microbiome studies, but are broadly applicable to other biomes. Thus, expanding this Marine Metagenomics Community to a more inclusive ELIXIR Microbiome Community will enable it to encompass a broader range of biomes and link expertise across ‘omics technologies. Furthermore, engaging with a large number of researchers will improve the efficiency and sustainability of bioinformatics infrastructure and resources for microbiome research (standards, data, tools, workflows, training), which will enable a deeper understanding of the function and taxonomic composition of the different microbial communities.

Original language	English
Article number	ELIXIR-50
Journal	F1000Research
Volume	13
DOIs	https://doi.org/10.12688/f1000research.144515.2
Publication status	Published - 2024
Externally published	Yes

Keywords

ELIXIR Community
Microbiome
White Paper
Microbiota
Computational Biology
Metagenomics/methods

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10.12688/f1000research.144515.2

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Finn, R. D., Balech, B., Burgin, J., Chua, P., Corre, E., Cox, C. J., Donati, C., dos Santos, V. M., Fosso, B., Hancock, J., Heil, K. F., Ishaque, N., Kale, V., Kunath, B. J., Médigue, C., Nogueira, T., Pafilis, E., Pesole, G., Richardson, L., ... Batut, B. (2024). Establishing the ELIXIR Microbiome Community. F1000Research, 13, Article ELIXIR-50. https://doi.org/10.12688/f1000research.144515.2

@article{6163de30d70c4093ac2c65d2e94a4316,

title = "Establishing the ELIXIR Microbiome Community",

abstract = "Microbiome research has grown substantially over the past decade in terms of the range of biomes sampled, identified taxa, and the volume of data derived from the samples. In particular, experimental approaches such as metagenomics, metabarcoding, metatranscriptomics and metaproteomics have provided profound insights into the vast, hitherto unknown, microbial biodiversity. The ELIXIR Marine Metagenomics Community, initiated amongst researchers focusing on marine microbiomes, has concentrated on promoting standards around microbiome-derived sequence analysis, as well as understanding the gaps in methods and reference databases, and identifying solutions to the computational overheads of performing such analyses. Nevertheless, the methods used and the challenges faced are not confined to marine microbiome studies, but are broadly applicable to other biomes. Thus, expanding this Marine Metagenomics Community to a more inclusive ELIXIR Microbiome Community will enable it to encompass a broader range of biomes and link expertise across {\textquoteleft}omics technologies. Furthermore, engaging with a large number of researchers will improve the efficiency and sustainability of bioinformatics infrastructure and resources for microbiome research (standards, data, tools, workflows, training), which will enable a deeper understanding of the function and taxonomic composition of the different microbial communities.",

keywords = "ELIXIR Community, Microbiome, White Paper, Microbiota, Computational Biology, Metagenomics/methods",

author = "Finn, \{Robert D.\} and Bachir Balech and Josephine Burgin and Physilia Chua and Erwan Corre and Cox, \{Cymon J.\} and Claudio Donati and \{dos Santos\}, \{Vitor Martins\} and Bruno Fosso and John Hancock and Heil, \{Katharina F.\} and Naveed Ishaque and Varsha Kale and Kunath, \{Benoit J.\} and Claudine M{\'e}digue and Teresa Nogueira and Evangelos Pafilis and Graziano Pesole and Lorna Richardson and Monica Santamaria and Nikolaos Strepis and \{Van Den Bossche\}, Tim and Vizca{\'i}no, \{Juan Antonio\} and Haris Zafeiropoulos and Willassen, \{Nils P.\} and Eric Pelletier and B{\'e}r{\'e}nice Batut",

note = "Copyright: {\textcopyright} 2025 Finn RD et al.",

year = "2024",

doi = "10.12688/f1000research.144515.2",

language = "English",

volume = "13",

journal = "F1000Research",

issn = "2046-1402",

publisher = "F1000 Research Ltd.",

}

Finn, RD, Balech, B, Burgin, J, Chua, P, Corre, E, Cox, CJ, Donati, C, dos Santos, VM, Fosso, B, Hancock, J, Heil, KF, Ishaque, N, Kale, V, Kunath, BJ, Médigue, C, Nogueira, T, Pafilis, E, Pesole, G, Richardson, L, Santamaria, M, Strepis, N, Van Den Bossche, T, Vizcaíno, JA, Zafeiropoulos, H, Willassen, NP, Pelletier, E & Batut, B 2024, 'Establishing the ELIXIR Microbiome Community', F1000Research, vol. 13, ELIXIR-50. https://doi.org/10.12688/f1000research.144515.2

TY - JOUR

T1 - Establishing the ELIXIR Microbiome Community

AU - Finn, Robert D.

AU - Balech, Bachir

AU - Burgin, Josephine

AU - Chua, Physilia

AU - Corre, Erwan

AU - Cox, Cymon J.

AU - Donati, Claudio

AU - dos Santos, Vitor Martins

AU - Fosso, Bruno

AU - Hancock, John

AU - Heil, Katharina F.

AU - Ishaque, Naveed

AU - Kale, Varsha

AU - Kunath, Benoit J.

AU - Médigue, Claudine

AU - Nogueira, Teresa

AU - Pafilis, Evangelos

AU - Pesole, Graziano

AU - Richardson, Lorna

AU - Santamaria, Monica

AU - Strepis, Nikolaos

AU - Van Den Bossche, Tim

AU - Vizcaíno, Juan Antonio

AU - Zafeiropoulos, Haris

AU - Willassen, Nils P.

AU - Pelletier, Eric

AU - Batut, Bérénice

PY - 2024

Y1 - 2024

N2 - Microbiome research has grown substantially over the past decade in terms of the range of biomes sampled, identified taxa, and the volume of data derived from the samples. In particular, experimental approaches such as metagenomics, metabarcoding, metatranscriptomics and metaproteomics have provided profound insights into the vast, hitherto unknown, microbial biodiversity. The ELIXIR Marine Metagenomics Community, initiated amongst researchers focusing on marine microbiomes, has concentrated on promoting standards around microbiome-derived sequence analysis, as well as understanding the gaps in methods and reference databases, and identifying solutions to the computational overheads of performing such analyses. Nevertheless, the methods used and the challenges faced are not confined to marine microbiome studies, but are broadly applicable to other biomes. Thus, expanding this Marine Metagenomics Community to a more inclusive ELIXIR Microbiome Community will enable it to encompass a broader range of biomes and link expertise across ‘omics technologies. Furthermore, engaging with a large number of researchers will improve the efficiency and sustainability of bioinformatics infrastructure and resources for microbiome research (standards, data, tools, workflows, training), which will enable a deeper understanding of the function and taxonomic composition of the different microbial communities.

AB - Microbiome research has grown substantially over the past decade in terms of the range of biomes sampled, identified taxa, and the volume of data derived from the samples. In particular, experimental approaches such as metagenomics, metabarcoding, metatranscriptomics and metaproteomics have provided profound insights into the vast, hitherto unknown, microbial biodiversity. The ELIXIR Marine Metagenomics Community, initiated amongst researchers focusing on marine microbiomes, has concentrated on promoting standards around microbiome-derived sequence analysis, as well as understanding the gaps in methods and reference databases, and identifying solutions to the computational overheads of performing such analyses. Nevertheless, the methods used and the challenges faced are not confined to marine microbiome studies, but are broadly applicable to other biomes. Thus, expanding this Marine Metagenomics Community to a more inclusive ELIXIR Microbiome Community will enable it to encompass a broader range of biomes and link expertise across ‘omics technologies. Furthermore, engaging with a large number of researchers will improve the efficiency and sustainability of bioinformatics infrastructure and resources for microbiome research (standards, data, tools, workflows, training), which will enable a deeper understanding of the function and taxonomic composition of the different microbial communities.

KW - ELIXIR Community

KW - Microbiome

KW - White Paper

KW - Microbiota

KW - Computational Biology

KW - Metagenomics/methods

UR - https://www.scopus.com/pages/publications/105016579848

U2 - 10.12688/f1000research.144515.2

DO - 10.12688/f1000research.144515.2

M3 - Article

C2 - 40970218

AN - SCOPUS:105016579848

SN - 2046-1402

VL - 13

JO - F1000Research

JF - F1000Research

M1 - ELIXIR-50

ER -

Establishing the ELIXIR Microbiome Community

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