Abstract
This paper investigates the binding behavior of iso-α-acids from hops on free wort amino acids and proteins concerning the wort production process in breweries. The studies were carried out with different amino acids, bovine serum albumin and wort. To identify the nature of reaction between iso-α-acids and these substances, analyses of free amino nitrogen, HPLC and isothermal titration calorimetry were performed. According to the results, the iso-α-acids do not form covalent bonds with free amino acids of wort. However, iso-α-acids, especially isohumulone and isoadhumulone, form ionic bonds with wort proteins. A distinction must be made between proteins that are present in the hot trub, and those that are still dissolved in the hot wort. Proteins that are already coagulated and precipitated no longer react with iso-α-acids. Future experiments will investigate whether the established ionic bonds between iso-α-acids and proteins from the wort preparation process are maintained during fermentation until the finished beer or beer foam. If this is the case, which is induced by the experiments, there is a measurable loss of iso-α-acids in the hot wort, but at the same time, a gain for the later beer foam retention, as the iso-α-acids will stabilize it.
Highlights
Four raw materials are needed for beer production: water, malt, hops and yeast
Based on the study carried out on beer foam by Asano and Hashimoto, lysine was initially selected as the reaction partner in this laboratory experiment, as the acidic iso-α-acids interact with basic substances [9]
The experiments revealed that free amino acids are not involved in the reactions that lead to losses of iso-α-acids in the brewhouse
Summary
Four raw materials are needed for beer production: water, malt, hops and yeast. Hops give beer its typical bitter taste and hop aroma. The hop acids, hop oils and hop polyphenols originate from the lupulin glands of the female hop plant. During wort boiling in the brewhouse, the hop α-acids undergo a transformation by contraction of the acyloin ring. Six possible types are formed: isohumulone, isoadhumulone and isocohumulone as well as their cis- and trans-epimers. The converted iso-α-acids contribute significantly to the bitter
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