APPLIS IFIP
Holistic integration of omics data reveals the drivers that shape the ecology of microbial meat spoilage scenarios

Holistic integration of omics data reveals the drivers that shape the ecology of microbial meat spoilage scenarios

Ajouter à ma liste
Auteurs : Poirier S, Coeuret G, Champomier-Vergès MC, Desmonts MH, Werner D, Feurer C, Frémaux B, Guillou S, Ngoc-Du L, Rué O, Loux V, Zagorec M, Chaillou S
Background: The use of omics data for monitoring the microbial flow of fresh meat products along a production line and the development of spoilage prediction tools from these data is a promising but challenging task. In this context, we produced a large multivariate dataset (over 600 samples) obtained on the production lines of two similar types of fresh meat products (poultry and raw pork sausages). We describe a full analysis of this dataset in order to decipher how the spoilage microbial ecology of these two similar products may be shaped differently depending on production parameter characteristics. Methods: Our strategy involved a holistic approach to integrate unsupervised and supervised statistical methods on multivariate data (OTU-based microbial diversity; metabolomic data of volatile organic compounds; sensory measurements; growth parameters), and a specific selection of potential uncontrolled (initial microbiota composition) or controlled (packaging type; lactate concentration) drivers.
Results: Our results demonstrate that the initial microbiota, which is shown to be very different between poultry and pork sausages, has a major impact on the spoilage scenarios and on the effect that a downstream parameter such as packaging type has on the overall evolution of the microbial community. Depending on the process, we also show that specific actions on the pork meat (such as deboning and defatting) elicit specific food spoilers such as Dellaglioa algida, which becomes dominant during storage. Finally, ecological network reconstruction allowed us to map six different metabolic pathways involved in the production of volatile organic compounds involved in spoilage. We were able connect them to the different bacterial actors and to the influence of packaging type in an overall view. For instance, our results demonstrate a new role of Vibrionaceae in isopropanol production, and of Latilactobacillus fuchuensis and Lactococcus piscium in methanethiol/disylphide production. We also highlight a possible commensal behavior between Leuconostoc carnosum and Latilactobacillus curvatus around 2,3 butanediol metabolism.
Conclusion: We conclude that our holistic approach combined with largescale multi-omic data was a powerful strategy to prioritize the role of production parameters, already known in the literature, that shape the evolution and/or the implementation of different meat spoilage scenarios

Open access article available at the editor's website.

Fiche technique

Titre :

Holistic integration of omics data reveals the drivers that shape the ecology of microbial meat spoilage scenarios

Date sortie / parution :

2023

Référence :

Frontiers in Microbiology, volume 14, 18 octobre 2023, 16 pages

Auteurs

Feurer

Chargée de projets en microbiologie et experte pour la surveillance épidémiologique des contaminants dans la filière porcine - Partenaire du RMT ACTIA Florepro

Fremaux

Ingénieur d’étude, PhD - Expert en microbiologie alimentaire et environnementale

Quelques mots clés

Ce site utilise des cookies afin d’améliorer votre expérience utilisateur et de réaliser des statistiques d’audience.
J'accepteJe refuseEn savoir plus