Metabolic framework of spontaneous and synthetic sourdough metacommunities to reveal microbial players responsible for resilience and performance

Francesco Maria Calabrese; Hana Ameur; Olga Nikoloudaki; Giuseppe Celano; Mirco Vacca; Wilson JFLemos Junior; Caterina Manzari; Fabienne Vertè; Raffaella Di Cagno; Graziano Pesole; Maria De Angelis; Marco Gobbetti

doi:10.1186/s40168-022-01301-3

Microbiome (Sep 2022)

Metabolic framework of spontaneous and synthetic sourdough metacommunities to reveal microbial players responsible for resilience and performance

Francesco Maria Calabrese,
Hana Ameur,
Olga Nikoloudaki,
Giuseppe Celano,
Mirco Vacca,
Wilson JFLemos Junior,
Caterina Manzari,
Fabienne Vertè,
Raffaella Di Cagno,
Graziano Pesole,
Maria De Angelis,
Marco Gobbetti

Affiliations

Francesco Maria Calabrese: Department of Soil, Plant and Food Science, University of Bari Aldo Moro
Hana Ameur: Faculty of Science and Technology, Libera Università Di Bolzano
Olga Nikoloudaki: Faculty of Science and Technology, Libera Università Di Bolzano
Giuseppe Celano: Department of Soil, Plant and Food Science, University of Bari Aldo Moro
Mirco Vacca: Department of Soil, Plant and Food Science, University of Bari Aldo Moro
Wilson JFLemos Junior: Faculty of Science and Technology, Libera Università Di Bolzano
Caterina Manzari: Department of Biosciences, Biotechnology and Biopharmaceutics, University of Bari Aldo Moro
Fabienne Vertè: Puratos NV
Raffaella Di Cagno: Faculty of Science and Technology, Libera Università Di Bolzano
Graziano Pesole: Department of Biosciences, Biotechnology and Biopharmaceutics, University of Bari Aldo Moro
Maria De Angelis: Department of Soil, Plant and Food Science, University of Bari Aldo Moro
Marco Gobbetti: Faculty of Science and Technology, Libera Università Di Bolzano

DOI: https://doi.org/10.1186/s40168-022-01301-3
Journal volume & issue: Vol. 10, no. 1
pp. 1 – 37

Abstract

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Abstract Background In nature, microbial communities undergo changes in composition that threaten their resiliency. Here, we interrogated sourdough, a natural cereal-fermenting metacommunity, as a dynamic ecosystem in which players are subjected to continuous environmental and spatiotemporal stimuli. Results The inspection of spontaneous sourdough metagenomes and transcriptomes revealed dominant, subdominant and satellite players that are engaged in different functional pathways. The highest microbial richness was associated with the highest number of gene copies per pathway. Based on meta-omics data collected from 8 spontaneous sourdoughs and their identified microbiota, we de novo reconstructed a synthetic microbial community SDG. We also reconstructed SMC-SD43 from scratch using the microbial composition of its spontaneous sourdough equivalent for comparison. The KEGG number of dominant players in the SDG was not affected by depletion of a single player, whereas the subdominant and satellite species fluctuated, revealing unique contributions. Compared to SMC-SD43, SDG exhibited broader transcriptome redundancy. The invariant volatilome profile of SDG after in situ long-term back slopping revealed its stability. In contrast, SMC-SD43 lost many taxon members. Dominant, subdominant and satellite players together ensured gene and transcript redundancy. Conclusions Our study demonstrates how, by starting from spontaneous sourdoughs and reconstructing these communities synthetically, it was possible to unravel the metabolic contributions of individual players. For resilience and good performance, the sourdough metacommunity must include dominant, subdominant and satellite players, which together ensure gene and transcript redundancy. Overall, our study changes the paradigm and introduces theoretical foundations for directing food fermentations. Video Abstract

Published in Microbiome

ISSN: 2049-2618 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Microbiology: Microbial ecology
Website: https://microbiomejournal.biomedcentral.com

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