Oenococcus oeni: Difference between revisions
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Lactic acid bacteria, like Oenococcus oeni, perform malolactic fermentation (also known as malolatic conversion). It occurs a after (or sometimes during) primary fermentation. The main function of malolatic fermentation is the process of converting malic acid to lactic acid. This is occurs by the uptake of malate, decarboxylation of malate to L-lactic acid and carbon dioxide, and the export of end products. O. oeni is heterofermentative, meaning it can create multiple end products from fermenting the sugars. In O. oeni’s case, it produces carbon dioxide, ethanol, and acetate, as well as characteristic flavor molecules like diacetyl. | Lactic acid bacteria, like Oenococcus oeni, perform malolactic fermentation (also known as malolatic conversion). It occurs a after (or sometimes during) primary fermentation. The main function of malolatic fermentation is the process of converting malic acid to lactic acid. This is occurs by the uptake of malate, decarboxylation of malate to L-lactic acid and carbon dioxide, and the export of end products. O. oeni is heterofermentative, meaning it can create multiple end products from fermenting the sugars. In O. oeni’s case, it produces carbon dioxide, ethanol, and acetate, as well as characteristic flavor molecules like diacetyl. | ||
==Ecology | ==Ecology== | ||
Oenococcus oeni stabilizes wine communities by consuming available nutrients and lowering potential growth of other microbes, but its malolactic fermentation can be beneficial or detrimental to the production of wine depending on grapes, climate, and style of wine. Industrial winemakers use a standardized strain of O. oeni, but the many external and environmental variables can dictate the success of the wine. O. oeni is not the only lactic acid bacteria that can perform secondary fermentation. There are a variety of lactic acid bacteria that dominate bacterial community in response to temperature, nutrients, sulfur dioxide content, pH, ethanol levels, and inoculation densities. | Oenococcus oeni stabilizes wine communities by consuming available nutrients and lowering potential growth of other microbes, but its malolactic fermentation can be beneficial or detrimental to the production of wine depending on grapes, climate, and style of wine. Industrial winemakers use a standardized strain of O. oeni, but the many external and environmental variables can dictate the success of the wine. O. oeni is not the only lactic acid bacteria that can perform secondary fermentation. There are a variety of lactic acid bacteria that dominate bacterial community in response to temperature, nutrients, sulfur dioxide content, pH, ethanol levels, and inoculation densities. | ||
The molecule diacetyl is produced as a byproduct of lactic acid bacteria in secondary fermentation. In wine, the levels of diacetyl create buttery and caramel flavor notes. It is generated when there is little or no malic acid to be consumed so citric acid is used. This byproduct is sought out by some winemakers while it is avoided by others. Rarely do the diacetyl levels reach a point of spoiling the wine (10). | The molecule diacetyl is produced as a byproduct of lactic acid bacteria in secondary fermentation. In wine, the levels of diacetyl create buttery and caramel flavor notes. It is generated when there is little or no malic acid to be consumed so citric acid is used. This byproduct is sought out by some winemakers while it is avoided by others. Rarely do the diacetyl levels reach a point of spoiling the wine (10). |
Revision as of 17:01, 28 April 2014
Classification
Domain: Bacteria Phylum: Firmicutes Class: Bacilli Order: Lactobacillales Family: Leuconostocaceae Genus: Oenococcus Species: oeni (1)
NCBI link to find]
Species
NCBI: Taxonomy |
Oenococcus oeni
Description and Significance
Oenococcus oeni (previously classified as Leuconostoc oenos) is a gram-positive, nonmotile, chemoorganotrophic lactic acid bacterium that grows in chains of circular to ellipsoidal cells (2). Unlike many bacteria, it thrives in the harsh environment of wine and is considered a beneficial to wine quality and character, rather an agent of damaging value (3). O. oeni is beneficial to wine and the entire field of oenology because of its primary ability to perform malolactic fermentation, the crucial secondary fermentation in the production of wine of converting malic acid to lactic acid. It occurs naturally in musts, wines, and fruit mashes (4).
Genome Structure
In 1995, Dicks et al. sought to reclassify Leuconostoc oenos as Oenococcus oeni because there is little DNA homology between the two genera (2). Oenococcus differs further from Leuconostoc from its abilities to use saccharose, lactose, and maltose as a substrate (5). In 2006, a second Oenococcus species was identified (6). Any strain of O. oeni has a circular genome of 1780517 basepair nucleotides, 1691 protein-coding genes, and 51 RNA genes (7). 43 tRNA sequences that represent 20 amino acids and 14 different insertion sequence transposase genes are present. Comparing different strains of O. oeni genomes, the general number of nucleotides tends to be very similar across the species (7).
Cell Structure, Metabolism and Life Cycle
Oenococcus oeni is a facultative anaerobe. It is able to use oxygen for cellular respiration but can also gain energy through fermentation. It characteristically grows well in the environments of wine, being able to survive in acidic conditions below pH 3.0 and tolerant of ethanol levels above 10% (2). Optimal growth occurs on sugar and protein rich media, like grape or tomato juice. The cocci are ellipsoidal to spherical in shape, usually grow in chains or pairs, and are typically non-sporulating. Lactic acid bacteria, like Oenococcus oeni, perform malolactic fermentation (also known as malolatic conversion). It occurs a after (or sometimes during) primary fermentation. The main function of malolatic fermentation is the process of converting malic acid to lactic acid. This is occurs by the uptake of malate, decarboxylation of malate to L-lactic acid and carbon dioxide, and the export of end products. O. oeni is heterofermentative, meaning it can create multiple end products from fermenting the sugars. In O. oeni’s case, it produces carbon dioxide, ethanol, and acetate, as well as characteristic flavor molecules like diacetyl.
Ecology
Oenococcus oeni stabilizes wine communities by consuming available nutrients and lowering potential growth of other microbes, but its malolactic fermentation can be beneficial or detrimental to the production of wine depending on grapes, climate, and style of wine. Industrial winemakers use a standardized strain of O. oeni, but the many external and environmental variables can dictate the success of the wine. O. oeni is not the only lactic acid bacteria that can perform secondary fermentation. There are a variety of lactic acid bacteria that dominate bacterial community in response to temperature, nutrients, sulfur dioxide content, pH, ethanol levels, and inoculation densities. The molecule diacetyl is produced as a byproduct of lactic acid bacteria in secondary fermentation. In wine, the levels of diacetyl create buttery and caramel flavor notes. It is generated when there is little or no malic acid to be consumed so citric acid is used. This byproduct is sought out by some winemakers while it is avoided by others. Rarely do the diacetyl levels reach a point of spoiling the wine (10).
References
(4) Oenococcus oeni PSU-1. The Regents of the University of California
(9) phys.org “Raise your glass to Oenococcus oeni, a real wine bug”. “Science X Network”. 2014.
Author
Page authored by Drew Wehrle student of Prof. Jay Lennon at Indiana University. .