Effect of free cysteine on the denaturation and aggregation of holo α-lactalbumin

Line R. Nielsen; Marianne N. Lund; Michael J. Davies; Jacob H. Nielsen; Søren B. Nielsen

doi:10.1016/j.idairyj.2017.11.014

Effect of free cysteine on the denaturation and aggregation of holo α-lactalbumin

Line R. Nielsen, Marianne N. Lund, Michael J. Davies, Jacob H. Nielsen, Søren B. Nielsen^*

^*Corresponding author for this work

Inflammation, Metabolism and Oxidation

14 Citations (Scopus)

Abstract

α-Lactalbumin (α-LA) is a key commercial whey protein for nutritional purposes. The holo protein (calcium saturated) is considered the most heat stable whey protein, capable of refolding from unfolded states under many conditions. This is due to the absence of free thiols (cysteine residues) that are typically involved in thermal aggregation and thiol–disulphide exchange reactions of other whey proteins. Heating (0–120 min at 90 °C, pH 7.0) holo α-LA generates free thiols through thermal cleavage of disulphide bonds, resulting in aggregates comprising unfolded α-LA species. The addition of free cysteine promotes the formation of soluble aggregates, effectively decreasing the holding time required to reach a particular aggregate size in a dose-dependent manner (0.35–1.4 mM cysteine). Excess cysteine (≥14 mM) causes a destabilisation of α-LA, shown by decreased denaturation temperature and gel formation. These data indicate that low doses of cysteine can be used to control α-LA aggregation.

Original language	English
Journal	International Dairy Journal
Volume	79
Pages (from-to)	52-61
Number of pages	10
ISSN	0958-6946
DOIs	https://doi.org/10.1016/j.idairyj.2017.11.014
Publication status	Published - 2018

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10.1016/j.idairyj.2017.11.014

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title = "Effect of free cysteine on the denaturation and aggregation of holo α-lactalbumin",

abstract = "α-Lactalbumin (α-LA) is a key commercial whey protein for nutritional purposes. The holo protein (calcium saturated) is considered the most heat stable whey protein, capable of refolding from unfolded states under many conditions. This is due to the absence of free thiols (cysteine residues) that are typically involved in thermal aggregation and thiol–disulphide exchange reactions of other whey proteins. Heating (0–120 min at 90 °C, pH 7.0) holo α-LA generates free thiols through thermal cleavage of disulphide bonds, resulting in aggregates comprising unfolded α-LA species. The addition of free cysteine promotes the formation of soluble aggregates, effectively decreasing the holding time required to reach a particular aggregate size in a dose-dependent manner (0.35–1.4 mM cysteine). Excess cysteine (≥14 mM) causes a destabilisation of α-LA, shown by decreased denaturation temperature and gel formation. These data indicate that low doses of cysteine can be used to control α-LA aggregation.",

author = "Nielsen, {Line R.} and Lund, {Marianne N.} and Davies, {Michael J.} and Nielsen, {Jacob H.} and Nielsen, {S{\o}ren B.}",

year = "2018",

doi = "10.1016/j.idairyj.2017.11.014",

language = "English",

volume = "79",

pages = "52--61",

journal = "International Dairy Journal",

issn = "0958-6946",

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T1 - Effect of free cysteine on the denaturation and aggregation of holo α-lactalbumin

AU - Nielsen, Line R.

AU - Lund, Marianne N.

AU - Davies, Michael J.

AU - Nielsen, Jacob H.

AU - Nielsen, Søren B.

PY - 2018

Y1 - 2018

N2 - α-Lactalbumin (α-LA) is a key commercial whey protein for nutritional purposes. The holo protein (calcium saturated) is considered the most heat stable whey protein, capable of refolding from unfolded states under many conditions. This is due to the absence of free thiols (cysteine residues) that are typically involved in thermal aggregation and thiol–disulphide exchange reactions of other whey proteins. Heating (0–120 min at 90 °C, pH 7.0) holo α-LA generates free thiols through thermal cleavage of disulphide bonds, resulting in aggregates comprising unfolded α-LA species. The addition of free cysteine promotes the formation of soluble aggregates, effectively decreasing the holding time required to reach a particular aggregate size in a dose-dependent manner (0.35–1.4 mM cysteine). Excess cysteine (≥14 mM) causes a destabilisation of α-LA, shown by decreased denaturation temperature and gel formation. These data indicate that low doses of cysteine can be used to control α-LA aggregation.

AB - α-Lactalbumin (α-LA) is a key commercial whey protein for nutritional purposes. The holo protein (calcium saturated) is considered the most heat stable whey protein, capable of refolding from unfolded states under many conditions. This is due to the absence of free thiols (cysteine residues) that are typically involved in thermal aggregation and thiol–disulphide exchange reactions of other whey proteins. Heating (0–120 min at 90 °C, pH 7.0) holo α-LA generates free thiols through thermal cleavage of disulphide bonds, resulting in aggregates comprising unfolded α-LA species. The addition of free cysteine promotes the formation of soluble aggregates, effectively decreasing the holding time required to reach a particular aggregate size in a dose-dependent manner (0.35–1.4 mM cysteine). Excess cysteine (≥14 mM) causes a destabilisation of α-LA, shown by decreased denaturation temperature and gel formation. These data indicate that low doses of cysteine can be used to control α-LA aggregation.

U2 - 10.1016/j.idairyj.2017.11.014

DO - 10.1016/j.idairyj.2017.11.014

M3 - Journal article

AN - SCOPUS:85040310049

SN - 0958-6946

VL - 79

SP - 52

EP - 61

JO - International Dairy Journal

JF - International Dairy Journal

ER -

Effect of free cysteine on the denaturation and aggregation of holo α-lactalbumin

Abstract

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