Enzymes: Difference between revisions
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An enzyme is a [[protein]] that facilitates a chemical reaction. Enzymes play an important role in every fermented beverage. | An enzyme is a [[protein]] that facilitates a chemical reaction. Enzymes play an important role in every fermented beverage. | ||
For [[beer production]], grain is "[[malting|malted]]" in order to increase the amount of enzymes. | For [[beer production]], grain is "[[malting|malted]]" in order to increase the amount of enzymes. Enzymes active during the mash include α- and β-amylase, proteases, peptidases, β- | ||
(1,3)(1,4)-glucanases and lipases.<ref>Szwajgier, D. [https://onlinelibrary.wiley.com/doi/pdf/10.1002/j.2050-0416.2011.tb00505.x "Dry and Wet Milling of Malt. A Preliminary Study Comparing Fermentable Sugar, Total Protein, Total Phenolics and the Ferulic Acid Content in Non-Hopped Worts."] ''J. Inst. Brew.'' vol. 117, no. 4, 2011, pp. 569–577.</ref> The most important action of these enzymes is that during the [[mashing|mash]] they | (1,3)(1,4)-glucanases and lipases.<ref>Szwajgier, D. [https://onlinelibrary.wiley.com/doi/pdf/10.1002/j.2050-0416.2011.tb00505.x "Dry and Wet Milling of Malt. A Preliminary Study Comparing Fermentable Sugar, Total Protein, Total Phenolics and the Ferulic Acid Content in Non-Hopped Worts."] ''J. Inst. Brew.'' vol. 117, no. 4, 2011, pp. 569–577.</ref> The most important action of these enzymes is that during the [[mashing|mash]] they break down the [[starch]]es in the grain into [[fermentable sugars]]. Brewers may sometimes add extra enzymes such as [[glucoamylase]] in order to further break down the complex sugars ([[dextrins]]). [[Hops]] also have enzymes that can break down dextrins. | ||
In [[wine production]], [[pectinase]] is commonly added to improve clarity and extraction. | In [[wine production]], a group of enzymes known as [[pectinase]] is commonly added to improve clarity and extraction. | ||
[[Microbes]] use a large variety of enzymes in order to grow, survive, and conduct fermentation. (See [[Fermentation]].) | [[Microbes]] use a large variety of enzymes in order to grow, survive, and conduct fermentation. (See [[Fermentation]].) | ||
Some enzymes can have a negative impact (such as polyphenol oxidase in fruit) and we take steps to inhibit | Some enzymes can have a negative impact (such as polyphenol oxidase in fruit) and we can take steps to inhibit their undesirable effects. | ||
The action of enzymes is influenced by pH, temperature, and other factors. High temperatures will permanently disable enzymes because the protein structure becomes irreversibly distorted, preventing them from functioning. | The action of enzymes is influenced by pH, temperature, and other factors. High temperatures will permanently disable enzymes because the protein structure becomes irreversibly distorted, preventing them from functioning. | ||
Revision as of 17:55, 1 June 2020
(In progress)
An enzyme is a protein that facilitates a chemical reaction. Enzymes play an important role in every fermented beverage.
For beer production, grain is "malted" in order to increase the amount of enzymes. Enzymes active during the mash include α- and β-amylase, proteases, peptidases, β- (1,3)(1,4)-glucanases and lipases.[1] The most important action of these enzymes is that during the mash they break down the starches in the grain into fermentable sugars. Brewers may sometimes add extra enzymes such as glucoamylase in order to further break down the complex sugars (dextrins). Hops also have enzymes that can break down dextrins.
In wine production, a group of enzymes known as pectinase is commonly added to improve clarity and extraction.
Microbes use a large variety of enzymes in order to grow, survive, and conduct fermentation. (See Fermentation.)
Some enzymes can have a negative impact (such as polyphenol oxidase in fruit) and we can take steps to inhibit their undesirable effects.
The action of enzymes is influenced by pH, temperature, and other factors. High temperatures will permanently disable enzymes because the protein structure becomes irreversibly distorted, preventing them from functioning.
- https://www.researchgate.net/profile/David_Evan_Evans/publication/230559002_Assessing_the_impact_of_the_level_of_diastatic_power_enzymes_and_their_thermostability_on_the_hydrolysis_of_starch_during_wort_production_to_predict_malt_fermentability/links/5789973608ae5c86c99ae90f.pdf
- https://www.researchgate.net/profile/David_Evan_Evans/publication/226691242_The_Properties_and_Genetics_of_Barley_Malt_Starch_Degrading_Enzymes/links/578f1cf408ae81b4466ed501/The-Properties-and-Genetics-of-Barley-Malt-Starch-Degrading-Enzymes.pdf
References
- ↑ Szwajgier, D. "Dry and Wet Milling of Malt. A Preliminary Study Comparing Fermentable Sugar, Total Protein, Total Phenolics and the Ferulic Acid Content in Non-Hopped Worts." J. Inst. Brew. vol. 117, no. 4, 2011, pp. 569–577.