Hydrophobins, beer foaming and gushing

Cerevisia Pub Date : 2011-01-01 DOI:10.1016/j.cervis.2010.12.001

Zahra Shokribousjein , Sylvie M. Deckers , Kurt Gebruers , Yannick Lorgouilloux , Geert Baggerman , Hubert Verachtert , Jan A. Delcour , Pierre Etienne , Jean-Marie Rock , Christiaan Michiels , Guy Derdelinckx

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引用次数: 55

Abstract

Hydrophobins belong to the most important proteins produced by filamentous fungi. They are surface active and their foaming potential is due to the presence of particular spatial arrangements of hydrophobic and hydrophilic amino acids. However, their presence eventually leads to overfoaming of beers. In beers and other liquids hydrophobin molecules aggregate around hydrophobic carbon dioxide molecules and form nano-structures, containing entrapped carbon dioxide. By pressure release at opening a bottle of beer, the nano-structures behave as nano-bombs. This explosion causes a sudden release of gaseous carbon dioxide, which is gushing. Several solutions to avoid or to reduce gushing, have been proposed, among which beer pasteurization and the effects of hop components have been studied. This review discusses the nature of hydrophobins, the foaming phenomenon and gushing.

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疏水性，啤酒泡沫和喷涌

疏水蛋白是丝状真菌产生的最重要的蛋白质。它们具有表面活性，它们的发泡潜力是由于疏水和亲水氨基酸的特殊空间排列的存在。然而，它们的存在最终会导致啤酒过度起泡。在啤酒和其他液体中，疏水分子聚集在疏水的二氧化碳分子周围，形成纳米结构，其中包含了被困住的二氧化碳。通过打开一瓶啤酒时释放的压力，纳米结构表现得像纳米炸弹。这次爆炸导致气体二氧化碳的突然释放，并喷涌而出。提出了避免或减少啤酒溢出的几种解决方案，其中研究了啤酒巴氏灭菌和啤酒花成分的影响。综述了疏水化合物的性质、发泡现象和喷淋现象。

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