Stefan Coghe scite author profile

The release of ferulic acid and the subsequent thermal or enzymatic decarboxylation to 4-vinylguaiacol are inherent to the beer production process. Phenolic, medicinal, or clove-like flavors originating from 4-vinylguaiacol frequently occur in beer made with wheat or wheat malt. To evaluate the release of ferulic acid and the transformation to 4-vinylguaiacol, beer was brewed with different proportions of barley malt, wheat, and wheat malt. Ferulic acid as well as 4-vinylguaiacol levels were determined by HPLC at several stages of the beer production process. During brewing, ferulic acid was released at the initial mashing phase, whereas moderate levels of 4-vinylguaiacol were formed by wort boiling. Higher levels of the phenolic flavor compound were produced during fermentations with brewery yeast strains of the Pof(+) phenotype. In beer made with barley malt, ferulic acid was mainly released during the brewing process. Conversely, 60-90% of ferulic acid in wheat or wheat malt beer was hydrolyzed during fermentation, causing higher 4-vinylguaiacol levels in these beers. As cereal enzymes are most likely inactivated during wort boiling, the additional release of ferulic acid during fermentation suggests the activity of feruloyl esterases produced by brewer's yeast.

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Evolution of Chemical and Sensory Properties during Aging of Top-Fermented Beer

Vanderhaegen

Neven

Coghe

et al. 2003

J. Agric. Food Chem.

184

151

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The aging and consequent changes in flavor molecules of a top-fermented beer were studied. Different aging conditions were imposed on freshly bottled beer. After 6 months of aging, the concentration changes were recorded for acetate esters, ethyl esters, carbonyls, Maillard compounds, dioxolanes, and furanic ethers. For some flavor compounds, the changes with time of storage were monitored at different temperatures, either with CO(2) or with air in the headspace of the bottles. For some molecules a relationship was determined between concentration changes and sensory evaluation results. A decrease in volatile esters was responsible for a reduced fruity flavor during aging. On the contrary, various carbonyl compounds, some ethyl esters, Maillard compounds, dioxolanes, and furanic ethers showed a marked increase, due to oxidative and nonoxidative reactions. A very high increase was found for furfural, 2-furanmethanol, and especially the furanic ether, 2-furfuryl ethyl ether (FEE). For FEE a flavor threshold in beer of 6 mug/L was determined. In the aged top-fermented beer, FEE concentrations multiple times the flavor threshold were observed. This was associated with the appearance of a typical solvent-like flavor. As the FEE concentration increased with time at an almost constant rate, with or without air in the headspace, FEE (and probably other furanic ethers) is proposed as a good candidate to evaluate the thermal stress imposed on beer.

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Bioflavoring and beer refermentation

Vanderhaegen

Neven

Coghe

et al. 2003

Applied Microbiology and Biotechnology

111

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Various techniques are used to adjust the flavors of foods and beverages to new market demands. Although synthetic flavoring chemicals are still widely used, flavors produced by biological methods (bioflavors) are now more and more requested by consumers, increasingly concerned with health and environmental problems caused by synthetic chemicals. Bioflavors can be extracted from plants or produced with plant cell cultures, microorganisms or isolated enzymes. This Mini-Review paper gives an overview of different systems for the microbial production of natural flavors, either de novo, or starting with selected flavor precursor molecules. Emphasis is put on the bioflavoring of beer and the possibilities offered by beer refermentation processes. The use of flavor precursors in combination with non-conventional or genetically modified yeasts for the production of new products is discussed.

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Development of Maillard Reaction Related Characteristics During Malt Roasting

Coghe

Gheeraert

Michiels

et al. 2006

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Roasting trials with a modified coffee roaster revealed that the attained end-temperature is the key parameter for control of nonenzymatic browning during malt production. The development of the main Maillard reaction related malt characteristics (colour, antioxidative activity and flavour) was therefore assessed under mild, intermediate and intensive roasting conditions with end-temperatures of 120, 150 and 180°C, respectively. Since maximal browning occurred between 125 and 160°C, the rate of colour formation during mild roasting significantly differed from the other two conditions (3.5 versus 15 European Brewery Convention (EBC) units /min). High molecular weight (HMW) melanoidins (> 70 kDa) were mainly generated by intensive roasting (between 157 and 166°C). The sudden formation of HMW melanoidins coincided with the abrupt decrease of the level of vicinal diketones and radical scavenging antioxidants, indicating a possible role for these compounds in the polymerisation reactions that lead to the formation of HMW melanoidins.

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Wheat Variety and Barley Malt Properties: Influence on Haze Intensity and Foam Stability of Wheat Beer

Depraetere

Coghe

Delvaux

2004

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Laboratory wheat beers were brewed with different wheat varieties of different protein content (8.7-14.4%) and with five different barley malts, varying in degree of modification (soluble protein: 3.9-6.9%). In a first series of experiments, it was investigated whether wheat positively influences the foam stability, a major characteristic of wheat beers. NIBEM and Rudin (CO 2 ) foam analyses revealed that the effect of wheat on foam stability depended on the barley malt used for brewing. When using malt with high foaming potential, wheat exerts a negative influence. However, wheat added to over-modified malt with less foam promoting factors, ameliorates beer foaming characteristics proving that wheat contains foam active compounds. In addition, Rudin (N 2 ) values suggested that wheat positively influences foam stability by decreasing liquid drainage, probably caused by a higher beer viscosity and /or a finer foam bubble size distribution.Furthermore, the haze in wheat beers, which is another important quality characteristic of these beers, was investigated. Permanent haze readings of the 40% wheat beers were lower than 1.5 EBC haze units. For 20% wheat beers, an inverse relation between the permanent haze (9.4-19.3 EBC haze units) and the protein content of the wheat was established. The barley malt used for brewing also influenced permanent haze readings. A positive correlation between the modification degree of the malt and the permanent haze intensity was found. It was concluded that the choice of raw materials for wheat beer brewing considerably influences the visual properties of the beer.

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Stefan Coghe

Ferulic Acid Release and 4-Vinylguaiacol Formation during Brewing and Fermentation: Indications for Feruloyl Esterase Activity inSaccharomyces cerevisiae

Evolution of Chemical and Sensory Properties during Aging of Top-Fermented Beer

Bioflavoring and beer refermentation

Development of Maillard Reaction Related Characteristics During Malt Roasting

Wheat Variety and Barley Malt Properties: Influence on Haze Intensity and Foam Stability of Wheat Beer

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