Deciphering the Functioning of Microbial Communities: Shedding Light on the Critical Steps in Metaproteomics

Géron, Augustin; Werner, Johannes; Wattiez, Ruddy; Matallana-Surget, Sabine

doi:10.3389/fmicb.2019.02395

Cited by 18 publications

(39 citation statements)

References 62 publications

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“…In situ physicochemical measurement confirmed the oligotrophic environmental conditions in which the studied picoplanktonic communities were sampled (Supplementary Information 1), therefore large volumes of water (60L/sample) were sequentially filtered onto both 0.8 and 0.2µm pore-size filters. A combined protein search database allowed us to maximize the number of protein identification [25]. Protein inference issue, commonly encountered in metaproteomics, was overcome in this study by using taxonomic and functional consensus protein annotation [26].…”

Section: Discussionmentioning

confidence: 99%

Diel Rhythms of Marine Picoplanktonic Communities Assessed by Comparative Metaproteomics

Géron

Werner

Wattiez

et al. 2020

Preprint

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Background Diel cycle is of enormous biological importance in that it imposes temporal structure on ecosystem productivity. In the world oceans, microorganisms form complex communities that carry out about half of photosynthesis and the bulk of life-sustaining nutrient cycling. Within these natural microbial assemblages, photoautotrophs, such as Cyanobacteria , display diel rhythmicity in gene expression. To what extent autotrophs and heterotrophs are impacted by light and dark oscillations and how this collectively influences community structure and functionality remains poorly documented. In this study, we compared eight day/night metaproteome profiles of Cyanobacteria and both free-living and attached bacterial fractions from picoplanktonic communities sampled over two consecutive days from the surface north-west Mediterranean Sea. Results Our results showed similar taxonomic structure in both free-living and particle-attached bacteria, dominated by Alphaproteobacteria and Gammaproteobacteria . Temporal rhythmicity in protein expression was observed in both Synechococcales and Rhodobacterales in light-dependent processes such as photosynthesis or UV-stress response. Other biological processes, such as phosphorus or amino acid metabolisms, were also found to cycle in phototrophs. In contrast, proteins from the ubiquitous Pelagibacterales remained stable independently of the day/night oscillations. Conclusion This work integrated for the first time diel comparative metaproteomics on both free-living and particle attached bacterial fractions in coastal oligotrophic environment. Our findings demonstrated a taxa-specific response to diel cycle with a more controlled protein regulation for phototrophs. This study provided additional evidences that timekeeping mechanisms might be widespread among bacteria, broadening our knowledge on diel microbial assemblage dynamics.

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Section: Discussionmentioning

confidence: 99%

Diel Rhythms of Marine Picoplanktonic Communities Assessed by Comparative Metaproteomics

Géron

Werner

Wattiez

et al. 2020

Preprint

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“…The typical metaproteomics workflow is shown in Figure 3, including (a) extraction and purification of proteins from TFFB; (b) protein digestion; (c) mass spectrometry (MS) analysis of peptide fragments; (d) protein qualitative and quantitative analysis (Schneider & Riedel, 2010; Tilocca et al., 2020). The qualitative properties of proteins can be retrieved through a non‐assembled metagenome–derived database, an assembled metagenome–derived database, or a taxonomy–built database (Geron, Werner, Wattiez, Lebaron, & Matallana‐Surget, 2019). Metaproteomics can be subdivided into two different types of analysis: descriptive analysis and comparative analysis.…”

Section: Metaproteomics Analysis Methodsmentioning

confidence: 99%

“…For example, using a combination of strong cation exchange and reversed‐phase chromatography to achieve 2D separation of the yeast proteome has led to the identification of 1,504 yeast proteins (Peng, Elias, Thoreen, Licklider, & Gygi, 2003). Although it is not as intuitive as 2D electrophoresis, this method allows for a high degree of automation, and can yield more accurate protein information (Geron et al., 2019), thus facilitating the study of metaproteomics and allowing for favorable development prospects.…”

Section: Metaproteomics Analysis Methodsmentioning

confidence: 99%

“…Databases are critical in the analysis of sample metaproteome data (Tanca et al., 2016), and the biological conclusions obtained by using different databases for search and analysis differ substantially (Geron et al., 2019). Sample protein databases can be based on protein databases generated from shotgun metagenomics data of a sample, or can be pseudo‐metagenomics databases constructed from proteins obtained from a public database according to the community microbial structure obtained from 16S rRNA (Muth, Renard, & Martens, 2016).…”

Section: Metaproteomics Analysis Methodsmentioning

confidence: 99%

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Metaproteomics insights into traditional fermented foods and beverages

Yang

Fan

2020

Comp Rev Food Sci Food Safe

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Traditional fermented foods and beverages (TFFB) are important dietary components. Multi‐omics techniques have been applied to all aspects of TFFB research to clarify the composition and nutritional value of TFFB, and to reveal the microbial community, microbial interactions, fermentative kinetics, and metabolic profiles during the fermentation process of TFFB. Because of the advantages of metaproteomics in providing functional information, this technology has increasingly been used in research to assess the functional diversity of microbial communities. Metaproteomics is gradually gaining attention in the field of TFFB research because it can reveal the nature of microorganism function at the protein level. This paper reviews the common methods of metaproteomics applied in TFFB research; systematically summarizes the results of metaproteomics research on TFFB, such as sauces, wines, fermented tea, cheese, and fermented fish; and compares the differences in conclusions reached through metaproteomics versus other omics methods. Metaproteomics has great advantages in revealing the microbial functions in TFFB and the interaction between the materials and microbial community. In the future, metaproteomics should be further applied to the study of functional protein markers and protein interaction in TFFB; multi‐omics technology requires further integration to reveal the molecular nature of TFFB fermentation.

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“…Metagenomics and metaproteomics are among the most powerful and emerging high-throughput tools in marine/ocean environments to disclose the genome and proteome, of the associated microbial communities [ 172 , 175 , 176 , 177 ]. These methodologies are still scarce on aquaculture research, although it might be extremely useful in the study of microbial populations inherent to the farmed fish surrounding environment.…”

Section: Tools For the Study Of Host-pathogen Interactionsmentioning

confidence: 99%

Fish Pathology Research and Diagnosis in Aquaculture of Farmed Fish; a Proteomics Perspective

Moreira

Schrama

Farinha

et al. 2021

Animals

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One of the main constraints in aquaculture production is farmed fish vulnerability to diseases due to husbandry practices or external factors like pollution, climate changes, or even the alterations in the dynamic of product transactions in this industry. It is though important to better understand and characterize the intervenients in the process of a disease outbreak as these lead to huge economical losses in aquaculture industries. High-throughput technologies like proteomics can be an important characterization tool especially in pathogen identification and the virulence mechanisms related to host-pathogen interactions on disease research and diagnostics that will help to control, prevent, and treat diseases in farmed fish. Proteomics important role is also maximized by its holistic approach to understanding pathogenesis processes and fish responses to external factors like stress or temperature making it one of the most promising tools for fish pathology research.

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Deciphering the Functioning of Microbial Communities: Shedding Light on the Critical Steps in Metaproteomics

Cited by 18 publications

References 62 publications

Diel Rhythms of Marine Picoplanktonic Communities Assessed by Comparative Metaproteomics

Diel Rhythms of Marine Picoplanktonic Communities Assessed by Comparative Metaproteomics

Metaproteomics insights into traditional fermented foods and beverages

Fish Pathology Research and Diagnosis in Aquaculture of Farmed Fish; a Proteomics Perspective

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