Abstract
Beer is one of the oldest and most widely consumed alcoholic beverages. Haze formation in beer is a serious quality problem, as it largely shortens the shelf life and flavor of beer. This paper reviews the factors affecting haze formation and strategies for reducing haze. Haze formation is mainly associated with specific chemical components in malt barley grains, such as proteins. The main factor causing haze formation is a cross-linking of haze active (HA) proteins and HA polyphenols. Many HA proteins and their editing genes or loci have been identified by proteomics and quantitative trait locus (QTL) analysis, respectively. Although some technical approaches have been available for reducing haze formation in beer, including silica and polyvinylpolypyrrolidone (PVPP) adsorbent treatments, the cost of beer production will increase and some flavor will be lost due to reduced relevant polyphenols and proteins. Therefore, breeding the malt barley cultivar with lower HA protein and/or HA polyphenols is the most efficient approach for controlling haze formation. Owing to the completion of barley whole genome sequencing and the rapid development of modern molecular breeding technology, several candidate genes controlling haze formation have been identified, providing a new solution for reducing beer haze.
Highlights
Beer is one of the oldest and most widely consumed alcoholic beverages
We studied the effect of the amino acid profile in malt on haze formation in beer [26]
We found barley trypsin inhibitor of the chloroform/methanol type (BTI-CMe) had 6 haplotypes by examining 37 barley accessions, and it was located on the short arm of chromosome 3H [37]
Summary
Beer is one of the oldest and most widely consumed alcoholic beverages. It is a kind of colloid solution with complex composition and weak stability. While the aging process of beer can be predicted by adding different concentrations of tannins This method is characterized by the determination of. While the aging process of beer can be predicted by3aodf d11ing different concentrations of tannins This method is characterized by the determination of tannin-related HA proteins. The initial reaction is more like hydrogen and/or hydrophobic bonding than covalent bonding, because most haze is caused by chilling partially or totally dissolves when a hazy beer is warmed. When these protein-polyphenol polymers are no longer broken, the reversible haze will become permanent [4]
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