Novel functional insights into the microbiome inhabiting marine plastic debris: critical considerations to counteract the challenges of thin biofilms using multi-omics and comparative metaproteomics.

Messer, Lauren F; Lee, Charlotte E; Wattiez, Ruddy; Matallana-Surget, Sabine

doi:10.1186/s40168-024-01751-x

Article (Scientific journals)

Novel functional insights into the microbiome inhabiting marine plastic debris: critical considerations to counteract the challenges of thin biofilms using multi-omics and comparative metaproteomics.

Messer, Lauren F; Lee, Charlotte E; Wattiez, Ruddy et al.

2024 • In Microbiome, 12 (1), p. 36

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https://hdl.handle.net/20.500.12907/49266

DOI
10.1186/s40168-024-01751-x

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38389111

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Keywords :

Comparative metaproteomics; Marine plastisphere; Microbial community function; Multi-omics; Plastics; Bacteria/genetics; Multiomics; Biofilms; Biodegradation, Environmental; Microbiota/genetics; Bacteria; Microbiota; Microbiology; Microbiology (medical)

Abstract :

[en] [en] BACKGROUND: Microbial functioning on marine plastic surfaces has been poorly documented, especially within cold climates where temperature likely impacts microbial activity and the presence of hydrocarbonoclastic microorganisms. To date, only two studies have used metaproteomics to unravel microbial genotype-phenotype linkages in the marine 'plastisphere', and these have revealed the dominance of photosynthetic microorganisms within warm climates. Advancing the functional representation of the marine plastisphere is vital for the development of specific databases cataloging the functional diversity of the associated microorganisms and their peptide and protein sequences, to fuel biotechnological discoveries. Here, we provide a comprehensive assessment for plastisphere metaproteomics, using multi-omics and data mining on thin plastic biofilms to provide unique insights into plastisphere metabolism. Our robust experimental design assessed DNA/protein co-extraction and cell lysis strategies, proteomics workflows, and diverse protein search databases, to resolve the active plastisphere taxa and their expressed functions from an understudied cold environment. RESULTS: For the first time, we demonstrate the predominance and activity of hydrocarbonoclastic genera (Psychrobacter, Flavobacterium, Pseudomonas) within a primarily heterotrophic plastisphere. Correspondingly, oxidative phosphorylation, the citrate cycle, and carbohydrate metabolism were the dominant pathways expressed. Quorum sensing and toxin-associated proteins of Streptomyces were indicative of inter-community interactions. Stress response proteins expressed by Psychrobacter, Planococcus, and Pseudoalteromonas and proteins mediating xenobiotics degradation in Psychrobacter and Pseudoalteromonas suggested phenotypic adaptations to the toxic chemical microenvironment of the plastisphere. Interestingly, a targeted search strategy identified plastic biodegradation enzymes, including polyamidase, hydrolase, and depolymerase, expressed by rare taxa. The expression of virulence factors and mechanisms of antimicrobial resistance suggested pathogenic genera were active, despite representing a minor component of the plastisphere community. CONCLUSION: Our study addresses a critical gap in understanding the functioning of the marine plastisphere, contributing new insights into the function and ecology of an emerging and important microbial niche. Our comprehensive multi-omics and comparative metaproteomics experimental design enhances biological interpretations to provide new perspectives on microorganisms of potential biotechnological significance beyond biodegradation and to improve the assessment of the risks associated with microorganisms colonizing marine plastic pollution. Video Abstract.

Disciplines :

Microbiology

Author, co-author :

Messer, Lauren F; Division of Biological and Environmental Sciences, Faculty of Natural Sciences, University of Stirling, Stirling, FK9 4LA, Scotland

Lee, Charlotte E; Division of Biological and Environmental Sciences, Faculty of Natural Sciences, University of Stirling, Stirling, FK9 4LA, Scotland

Wattiez, Ruddy ; Université de Mons - UMONS > Faculté des Sciences > Service de Protéomie et Microbiologie

Matallana-Surget, Sabine; Division of Biological and Environmental Sciences, Faculty of Natural Sciences, University of Stirling, Stirling, FK9 4LA, Scotland. sabine.matallanasurget@stir.ac.uk

Language :

English

Title :

Novel functional insights into the microbiome inhabiting marine plastic debris: critical considerations to counteract the challenges of thin biofilms using multi-omics and comparative metaproteomics.

Publication date :

22 February 2024

Journal title :

Microbiome

eISSN :

2049-2618

Publisher :

BioMed Central Ltd, England

Volume :

Issue :

Pages :

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://link.springer.com/content/pdf/10.1186/s40168-024-01751-x.pdf

Research unit :

Proteomics and Microbiology

Research institute :

R100 - Institut des Biosciences

Funders :

Natural Environment Research Council
NERC Scottish Universities Partnership for Environmental Research (SUPER) Doctoral Training Partnership
Fonds De La Recherche Scientifique - FNRS

Funding text :

This research was funded by the joint UKRI Natural Environment Research Council (NERC) and the National Research Foundation Singapore (NRF), project, “Sources impacts and solutions to plastics in South-East Asia coastal environments”, and the Belgian Fund for Scientific Research (Grand equipment—F.R.S—FNRS). L.F.M and S.M.-S were supported by the UKRI NERC/NRF project (NRF Award No. NRF-SEAP-2020–0001, NERC Award No. NE/V009621/1). C.E.L is the recipient of studentship funded under the NERC Scottish Universities Partnership for Environmental Research (SUPER) Doctoral Training Partnership (DTP) (Grant reference number NE/S007342/1).The authors acknowledge the assistance of Dr. Johannes Werner for the updated version of mPies and Dr. Augustin Géron for his contribution to database creation. We would like to thank Dr. Sven-Ernoe Bikar of StarSEQ® GmbH platform, Germany, for the amplicon sequencing. The authors also acknowledge support by the High Performance and Cloud Computing Group at the Zentrum für Datenverarbeitung of the University of Tübingen and the Federal Ministry of Education and Research (BMBF) through grant no 031 A535A, for the use of de.NBI cloud for data analysis.

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