Plasmin activity in UHT milk: relationship between proteolysis, age gelation, and bitterness

Valentin Rauh; Lene B. Johansen; Richard Ipsen; Marie Paulsson; Lotte Bach Larsen; Marianne Hammershøj

doi:10.1021/jf502088u

Plasmin activity in UHT milk: relationship between proteolysis, age gelation, and bitterness

Valentin Rauh, Lene B. Johansen, Richard Ipsen, Marie Paulsson, Lotte Bach Larsen, Marianne Hammershøj

Dairy, Meat and Plant Product Technology

42 Citations (Scopus)

Abstract

Plasmin, the major indigenous protease in milk, is linked to quality defects in dairy products. The specificity of plasmin on caseins has previously been studied using purified caseins and in the indigenous peptide profile of milk. We investigated the specificity and proteolytic pathway of plasmin in directly heated UHT milk (>150 °C for <0.2 s) during 14 weeks of storage at 20 °C in relation to age gelation and bitter peptides. Sixty-six peptides from α_S- and β-caseins could be attributed to plasmin activity during the storage period, of which 23 were potentially bitter. Plasmin exhibited the highest affinity for the hydrophilic regions in the caseins that most probably were exposed to the serum phase and the least affinity for hydrophobic or phosphorylated regions. The proteolytic pattern observed suggests that plasmin destabilizes the casein micelle by hydrolyzing casein-casein and casein-calcium phosphate interaction sites, which may subsequently cause age gelation in UHT milk.

Original language	English
Journal	Journal of Agricultural and Food Chemistry
Volume	62
Issue number	28
Pages (from-to)	6852-6860
Number of pages	9
ISSN	0021-8561
DOIs	https://doi.org/10.1021/jf502088u
Publication status	Published - 16 Jul 2014

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title = "Plasmin activity in UHT milk: relationship between proteolysis, age gelation, and bitterness",

abstract = "Plasmin, the major indigenous protease in milk, is linked to quality defects in dairy products. The specificity of plasmin on caseins has previously been studied using purified caseins and in the indigenous peptide profile of milk. We investigated the specificity and proteolytic pathway of plasmin in directly heated UHT milk (>150 °C for <0.2 s) during 14 weeks of storage at 20 °C in relation to age gelation and bitter peptides. Sixty-six peptides from αS- and β-caseins could be attributed to plasmin activity during the storage period, of which 23 were potentially bitter. Plasmin exhibited the highest affinity for the hydrophilic regions in the caseins that most probably were exposed to the serum phase and the least affinity for hydrophobic or phosphorylated regions. The proteolytic pattern observed suggests that plasmin destabilizes the casein micelle by hydrolyzing casein-casein and casein-calcium phosphate interaction sites, which may subsequently cause age gelation in UHT milk.",

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T1 - Plasmin activity in UHT milk

T2 - relationship between proteolysis, age gelation, and bitterness

AU - Rauh, Valentin

AU - Johansen, Lene B.

AU - Ipsen, Richard

AU - Paulsson, Marie

AU - Larsen, Lotte Bach

AU - Hammershøj, Marianne

PY - 2014/7/16

Y1 - 2014/7/16

N2 - Plasmin, the major indigenous protease in milk, is linked to quality defects in dairy products. The specificity of plasmin on caseins has previously been studied using purified caseins and in the indigenous peptide profile of milk. We investigated the specificity and proteolytic pathway of plasmin in directly heated UHT milk (>150 °C for <0.2 s) during 14 weeks of storage at 20 °C in relation to age gelation and bitter peptides. Sixty-six peptides from αS- and β-caseins could be attributed to plasmin activity during the storage period, of which 23 were potentially bitter. Plasmin exhibited the highest affinity for the hydrophilic regions in the caseins that most probably were exposed to the serum phase and the least affinity for hydrophobic or phosphorylated regions. The proteolytic pattern observed suggests that plasmin destabilizes the casein micelle by hydrolyzing casein-casein and casein-calcium phosphate interaction sites, which may subsequently cause age gelation in UHT milk.

AB - Plasmin, the major indigenous protease in milk, is linked to quality defects in dairy products. The specificity of plasmin on caseins has previously been studied using purified caseins and in the indigenous peptide profile of milk. We investigated the specificity and proteolytic pathway of plasmin in directly heated UHT milk (>150 °C for <0.2 s) during 14 weeks of storage at 20 °C in relation to age gelation and bitter peptides. Sixty-six peptides from αS- and β-caseins could be attributed to plasmin activity during the storage period, of which 23 were potentially bitter. Plasmin exhibited the highest affinity for the hydrophilic regions in the caseins that most probably were exposed to the serum phase and the least affinity for hydrophobic or phosphorylated regions. The proteolytic pattern observed suggests that plasmin destabilizes the casein micelle by hydrolyzing casein-casein and casein-calcium phosphate interaction sites, which may subsequently cause age gelation in UHT milk.

U2 - 10.1021/jf502088u

DO - 10.1021/jf502088u

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EP - 6860

JO - Journal of Agricultural and Food Chemistry

JF - Journal of Agricultural and Food Chemistry

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ER -

Plasmin activity in UHT milk: relationship between proteolysis, age gelation, and bitterness

Abstract

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