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Brettanomyces

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While both ''Saccharomyces'' (only by "phenolic off flavor positive/POF+" strains) and ''Brettanomyces'' strains have varying capabilities based on strain of converting hydroxycinnamic acids to their vinyl derivatives <ref name="Lentz">[http://www.mdpi.com/2304-8158/4/4/581/htm Analysis of Growth Inhibition and Metabolism of Hydroxycinnamic Acids by Brewing and Spoilage Strains of Brettanomyces Yeast. Michael Lentz and Chad Harris. 2015.]</ref>, ''Brettanomyces'' is also able to reduce these vinyl phenol derivatives to ethyl phenol derivatives. Phenolic acid decarboxylase (PAD) is the enzyme that converts the HCAs into vinyl phenols. Vinyl reductase (VA) is the enzyme that reduces vinyl phenols to ethyl phenols <ref>[https://www.facebook.com/groups/MilkTheFunk/permalink/1632316743463200/ Analysis of phenolic acid decarboxylase enzyme from the wine spoilage yeast Brettanomyces bruxellensis (poster). Mike Lentz, Jamie Lynch, Pricilla Walters, Rachel Licea, Henok Daniel, Kimberly Pereira. 2017.]</ref>. Phenol production has been observed to occur shortly after inoculation of ''Brettanomyces'' and has been hypothesized to play a large role in replenishing NAD<sup>+</sup> to alleviate the initial lag growth phase in ''Brettanomyces'' <ref name="Tyrawa_Masters">[https://atrium.lib.uoguelph.ca/xmlui/handle/10214/14757 Demystifying Brettanomyces bruxellensis: Fermentation kinetics, flavour compound production, and nutrient requirements during wort fermentation. University of Guelph, Masters Thesis. Department of Molecular and Cellular Biology. 2020.]</ref>. While almost all strains of ''Brettanomyces'' produce ethyl phenols, one strain of ''Brettanomyces anomalus'' has been found that has lost the genetic capability to produce phenols <ref name="colomer_2020_genome" />.
These vinyl derivatives have similar tastes to the ethyl derivatives but have lower flavor thresholds. Levels of all compounds produced vary depending on species and strain of ''Brettanomyces''. Although the production of ethyl phenols has been identified to occur higher in substrates with more available sugars, and this has also correlated with higher growth <ref name="Barata_2008">[http://onlinelibrary.wiley.com/doi/10.1111/j.1567-1364.2008.00415.x/full The effect of sugar concentration and temperature on growth and volatile phenol production by Dekkera bruxellensis in wine. André Barata, Daniela Pagliara, Tiziana Piccininno, Francesco Tarantino, Wilma Ciardulli, Manuel Malfeito-Ferreira, Virgílio Loureiro. 2008. DOI: 10.1111/j.1567-1364.2008.00415.x]</ref>, some data supports that pitching rate does not have an effect on how much phenol content is produced by ''Brettanomyces''<ref name="MTF_Brett_Secondary">[http://www.milkthefunk.com/wiki/Brettanomyces_secondary_fermentation_experiment Brettanomyces secondary fermentation experiment. Milk The Funk Wiki. Lance Shaner and Richard Preiss. Retrieved 04/21/2016.]</ref>. Additionally, Curtin et al. (2013) showed that while both cell growth and attenuation was inhibited in anaerobic conditions in wine, phenol production was not (in fact, the phenol production was inhibited by aerobic conditions). They also showed that each of the three strains of ''B. bruxellensis'' tested all produced the same amount of phenols, while other flavor compounds such as esters were produced at different levels by each of the strains <ref>[https://www.ncbi.nlm.nih.gov/pubmed/24010603 Impact of Australian Dekkera bruxellensis strains grown under oxygen-limited conditions on model wine composition and aroma. Curtin CD, Langhans G, Henschke PA, Grbin PR. 2013]</ref>. [https://ir.library.oregonstate.edu/downloads/gh93h631p Riley Humbert's Bachelors thesis] also reported no correlation between fermentation rate and phenol production in several strains of ''B. bruxellensis'' <ref name=Humbert_2021">[https://ir.library.oregonstate.edu/downloads/gh93h631 gh93h631p Riley Humbert for the degree of Honors Baccalaureate of Science in Chemical Engineering presented on May 21, 2021. Title: Performance of Brettanomyces Yeast Strains in Primary and Secondary Beer Fermentations.]</ref>. Perhaps growth itself is not as much of a factor in producing phenols, but having sugars available for metabolism is. This contradicts the somewhat popular belief that under-pitching ''Brettanomyces'' produces more "funky" flavors. Additionally, perhaps some strains are perceived as "funkier" than others due to less ester production and more fatty acid production (isobutyric acid, for example), rather than more phenol production.
Another study by Tyrawa et al. found that fermentation temperature also did not have a significant effect on phenol production in 9 strains of ''B. bruxellensis''. Given the same wort composition, strains of ''B. bruxellensis'' produced similar levels of phenols at both 15°C and 22.5°C. The ester production was affected by this temperature difference in some strains but not others (see [[Brettanomyces#Ester_Production|Esters]] above). Assuming that phenols contribute the "funky" flavor characteristics, this suggests that perhaps a lower balance of esters to phenols produces a more "funky" tasting beer more so than a beer with more phenol content. If so, a lower fermentation temperature may be one way to emphasize phenols over fruity esters <ref name="Tyrawa_2017" />. Both Tyrawa and Humbert reported that there was no correlation between flavor profiles from phenol production of different strains of ''Brettanomyces bruxellensis'' and their origin <ref name=Humbert_2021" />.

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