125th anniversary review : the role of proteins in beer redox stability

Ming J. Wu; Peter J. Rogers; Frank M. Clarke

doi:10.1002/jib.17

125th anniversary review : the role of proteins in beer redox stability

Ming J. Wu, Peter J. Rogers, Frank M. Clarke

School of Science

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

Flavour stability is usually approached through inhibition of reactive oxygen species (ROS). It may be possible to suppress ROS, but never to entirely eliminate them in packaged beer. The role of proteins in ROS suppression seems to have been lost in the compliant acquiescence to supply haze-free bright beer. Proteomics allows beer polypeptides to be finely resolved, identified and correlated with beer quality and stability. This has already produced a broader view of what stabilizes beer foam. No doubt it could do the same for beer stability and the broader roles that proteins, such as LTP1, can have in redox reactions and free radical suppression. Cysteine oxidation and reversibility is central to cellular signalling in biological systems. Thiol chemistry is also integral to beer redox stability. We can, and should, extrapolate the recent biological findings to the simple pleasure of creating a high-quality beer.

Original language	English
Pages (from-to)	1-11
Number of pages	11
Journal	Journal of Institute of Brewing
Volume	118
Issue number	1
DOIs	https://doi.org/10.1002/jib.17
Publication status	Published - 2012

Keywords

beer proteome
flavour stability
oxidation
redox
thiol proteins
thioredoxin

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10.1002/jib.17

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abstract = "Flavour stability is usually approached through inhibition of reactive oxygen species (ROS). It may be possible to suppress ROS, but never to entirely eliminate them in packaged beer. The role of proteins in ROS suppression seems to have been lost in the compliant acquiescence to supply haze-free bright beer. Proteomics allows beer polypeptides to be finely resolved, identified and correlated with beer quality and stability. This has already produced a broader view of what stabilizes beer foam. No doubt it could do the same for beer stability and the broader roles that proteins, such as LTP1, can have in redox reactions and free radical suppression. Cysteine oxidation and reversibility is central to cellular signalling in biological systems. Thiol chemistry is also integral to beer redox stability. We can, and should, extrapolate the recent biological findings to the simple pleasure of creating a high-quality beer.",

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T1 - 125th anniversary review : the role of proteins in beer redox stability

AU - Wu, Ming J.

AU - Rogers, Peter J.

AU - Clarke, Frank M.

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AB - Flavour stability is usually approached through inhibition of reactive oxygen species (ROS). It may be possible to suppress ROS, but never to entirely eliminate them in packaged beer. The role of proteins in ROS suppression seems to have been lost in the compliant acquiescence to supply haze-free bright beer. Proteomics allows beer polypeptides to be finely resolved, identified and correlated with beer quality and stability. This has already produced a broader view of what stabilizes beer foam. No doubt it could do the same for beer stability and the broader roles that proteins, such as LTP1, can have in redox reactions and free radical suppression. Cysteine oxidation and reversibility is central to cellular signalling in biological systems. Thiol chemistry is also integral to beer redox stability. We can, and should, extrapolate the recent biological findings to the simple pleasure of creating a high-quality beer.

KW - beer proteome

KW - flavour stability

KW - oxidation

KW - redox

KW - thiol proteins

KW - thioredoxin

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SP - 1

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IS - 1

ER -

125th anniversary review : the role of proteins in beer redox stability

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