terclim by ICS banner
IVES 9 IVES Conference Series 9 Macrowine 9 Macrowine 2025 9 Chemical and biochemical reactions, including grape and wine microorganism’s impact 9 Isolation, biofilm formation and control of the wine spoilage yeast Brettanomyces bruxellensis

Isolation, biofilm formation and control of the wine spoilage yeast Brettanomyces bruxellensis

Abstract

Brettanomyces bruxellensis, commonly referred to as “Brett,” is one of the most notorious microorganisms implicated in wine spoilage. This yeast species has developed a noteworthy resistance to sulfur dioxide, a widely used preservative in winemaking, prompting the wine industry to seek new antimicrobial agents. The development of B. bruxellensis in wine can change the sensory properties of wine due to the production of undesirable aromas. The present work focuses on i) the biofilm-forming ability of B. bruxellensis, derived from Greek wines, on stainless steel surfaces ii) the ability of the adhered cell to cause wine spoilage iii) new treatment to handle the contamination. Three wines from different regions of Greece were collected and subjected in molecular analyses and identification at species level. RAPD (Random Amplified Polymorphic DNA) genomic fingerprinting with the oligo-nucleotide primer M13 was used, combined with Matrix Assisted Laser Desorption Ionization–Time of Flight Mass Spectrometry (MALDI-TOF MS) technique. Strain differentiation of B. bruxellensis different strains was achieved by rep-PCR fingerprinting method with the oligo-nucleotide primer GTG5. For the biofilm formation assay, stainless steel coupons were placed in test tubes containing sterilized Ringer solution and pure cultures of the different B. bruxellensis strains was inoculated at an initial population of approximately 107 CFU/mL. The tubes were incubated at 28 °C for 3 hours to allow attachment of the yeast cells onto the coupons surface. Biofilm growth was evaluated with the bead vortexing method. Finally, different treatments were applied in order to prevent the adherence of B. bruxellensis strains to the coupons. Overall, we showed that the attachment and biofilm formation capacity of the spoilage yeast is influenced by the strain effect and tree different types of adherences were noticed. Additionally, all tested treatments achieved to decrease the attached yeast cells proposing a new way of handling B. bruxellensis contamination.

References

[1] Dimopulou, M., Renault, M., Dols-Lafargue, M., Albertin-Leguay, W., Herry, J.-M., Bellon-Fontaine, M.-N., Masneuf-Pomarede, I. (2019). Microbiological, biochemical, physicochemical surface properties and biofilm forming ability of Brettanomyces bruxellensis (preprint). Microbiology.

[2] Agnolucci, M., & al, e. (2017). Brettanomyces bruxellensis yeasts: an impact on wine and winemaking. World Journal of Microbiology and Biotechnology, 33.

[3] Di Toro, M., & al, e. (2015). Intraspecific biodiversity and ‘spoilage potential’ of Brettanomyces bruxellensis in Apulian wines. Elsevier, 102-108.

[4] Cibrario, A., Miot-Sertier, C., Paulin, M., Bullier, B., Riquier, L., Perello, M.-C., de Revel, G., Albertin, W., Masneuf-Pomarède, I., Ballestra, P., Dols-Lafargue, M. (2020). Brettanomyces bruxellensis phenotypic diversity, tolerance to wine stress and wine spoilage ability. Food Microbiology, 87, 103379.

Publication date: June 4, 2025

Type: Poster

Authors

Aikaterini Tzamourani1, Nikolaos Mourdoukoutas1, Maria Dimopoulou1,*

1 Department of Wine, Vine and Beverage Sciences, School of Food Science, University of West Attica, 28 Ag. Spyridonos St., 12243 Egaleo, Greece

Contact the author*

Keywords

wine spoilage, biofilm formation, Brettanomyces, spoilage treatement

Tags

IVES Conference Series | Macrowine | Macrowine 2025

Related articles…

Effect of elicitors and ripening moment on the phenolic composition of Monastrell

Grapevine (Vitis vinifera L.) is a globally cultivated crop and economically significant, particularly in the wine industry (Varela et al., 2024). Climate change is already affecting vineyards and is expected to worsen (Averbeck et al., 2019; Dupuis and Knoepfel, 2011).

Impact of grape ripening and post-harvest withering on must composition and fermentation kinetics

Postharvest dehydration is a widely employed technique in winemaking to enhance sugar concentration and secondary metabolites from grapes. Different grape varieties exhibit varying responses in terms of dehydration rate and the resulting chemical composition.

Enhancing Monastrell wine quality in a climate change scenario: the role of cation exchange resins in addressing acidity challenges

Climate change significantly impacts vine and grape physiology, leading to changes in wine composition, including reduced titratable acidity, elevated ethanol content, and higher pH levels [1].

Understanding novel germplasm solutions: sensory, chemical and preliminary hedonic insights of wines made from Australian first-generation mildew resistant cultivars

One of the major issues for wine production in Australia is the management and eradication of powdery and downy mildews and the associated yield losses they present, costing Australian grape growers upwards of AUD$160M per annum [1].

Towards 2D mapping of gaseous ethanol in the headspace of wine glasses by infrared laser spectrometry

Under standard wine tasting conditions, volatile organic compounds (VOCs) responsible for the wine’s bouquet progressively invade the chemical space perceived by the consumer in the glass headspace.