German Chemists Identified Over 7,700 Different Chemical Formulas in Beers

upstart writes:

German chemists identified over 7,700 different chemical formulas in beers:

People have been brewing beer for millennia, and the basic chemistry of fermentation is well understood. But thanks to advanced analytical techniques, scientists continue to learn more about the many different chemical compounds that contribute to the flavor and aroma of different kinds of beer. The latest such analysis comes courtesy of a team of German scientists who analyzed over 400 commercial beers from 40 countries. The scientists identified at least 7,700 different chemical formulas and tens of thousands of unique molecules, according to a recent paper published in the journal Frontiers in Chemistry. And they did it with a new approach that can analyze a sample in just 10 minutes.

[...] As I've written previously, all beer contains hops, a key flavoring agent that also imparts useful antimicrobial properties. To make beer, brewers mash and steep grain in hot water, which converts all that starch into sugars. This is traditionally the stage when hops are added to the liquid extract (wort) and boiled. That turns some of the resins (alpha acids) in the hops into iso-alpha acids, producing beer's hint of bitterness. Yeast is then added to trigger fermentation, turning the sugars into alcohol. Some craft brewers prefer dry-hopping-hops are added during or after the fermentation stage, after the wort has cooled. They do this as a way to enhance the hoppy flavors without getting excessive bitterness, since there is no isomerization of the alpha acids.

[...] For their analysis, [Philippe] Schmitt-Kopplin et al. subjected 400 samples of beer-purchased from local grocery stores-brewed from all over the world (the US, Latin America, Europe, Africa, and East Asia) to two complementary mass spectrometry techniques. They used the first method to determine the beers' chemical diversity and to predict chemical formulas for the metabolite ions in those beers. They used the second technique to figure out the exact molecular structure in a subsample of 100 beers. They were also able to reconstruct a full metabolic network of the complex reactions taking place during the brewing process.

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