Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening

Xiaofeng Xia; Georg Arju; Anastassia Taivosalo; Taivo Lints; Tiina Kriščiunaite; Raivo Vilu; Bernard M. Corrigan; Nan Gai; Mark A. Fenelon; John T. Tobin; Kieran Kilcawley; Alan L. Kelly; Paul L.H. McSweeney; Jeremiah J. Sheehan

doi:10.1016/j.idairyj.2022.105540

Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening

Xiaofeng Xia
, Georg Arju
, Anastassia Taivosalo
, Taivo Lints
, Tiina Kriščiunaite
, Raivo Vilu
, Bernard M. Corrigan
, Nan Gai
, Mark A. Fenelon
, John T. Tobin
, Kieran Kilcawley
, Alan L. Kelly
, Paul L.H. McSweeney
, Jeremiah J. Sheehan

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

Abstract

The effect of β-casein reduction (LB) and high heat treatment (HHT, 120 °C × 15 s) of whey protein-reduced milk on the ripening properties of Emmental cheese was investigated. Cheeses were manufactured from low-heat skim milk powder (LH), micellar casein concentrate powder (MCC) and β-casein reduced MCC powder (LB- or HHT LB) respectively, then ripened for 120 days. There was no significant difference between the ripening properties of LB and MCC cheeses. Compared with the other treatments, HHT LB cheese had significantly lower plasmin activity (day 120 of ripening) and flowability (days 70 and 120 of ripening), higher level of a-value (redness), and similar numbers of peptides and levels of casein hydrolysis (days 1 and 120 of ripening). Overall, reduction of β-casein by 4.25% in MCC did not influence the maturation properties of Emmental cheese; however, high heat treatment of whey protein-reduced milk impaired cheese functionality and appearance.

Original language	English
Article number	105540
Journal	International Dairy Journal
Volume	138
DOIs	https://doi.org/10.1016/j.idairyj.2022.105540
Publication status	Published - Mar 2023

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10.1016/j.idairyj.2022.105540

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Xia, X., Arju, G., Taivosalo, A., Lints, T., Kriščiunaite, T., Vilu, R., Corrigan, B. M., Gai, N., Fenelon, M. A., Tobin, J. T., Kilcawley, K., Kelly, A. L., McSweeney, P. L. H., & Sheehan, J. J. (2023). Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening. International Dairy Journal, 138, Article 105540. https://doi.org/10.1016/j.idairyj.2022.105540

@article{fd3ecf62e80e488c8eb8bd01953ae059,

title = "Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening",

abstract = "The effect of β-casein reduction (LB) and high heat treatment (HHT, 120 °C × 15 s) of whey protein-reduced milk on the ripening properties of Emmental cheese was investigated. Cheeses were manufactured from low-heat skim milk powder (LH), micellar casein concentrate powder (MCC) and β-casein reduced MCC powder (LB- or HHT LB) respectively, then ripened for 120 days. There was no significant difference between the ripening properties of LB and MCC cheeses. Compared with the other treatments, HHT LB cheese had significantly lower plasmin activity (day 120 of ripening) and flowability (days 70 and 120 of ripening), higher level of a-value (redness), and similar numbers of peptides and levels of casein hydrolysis (days 1 and 120 of ripening). Overall, reduction of β-casein by 4.25\% in MCC did not influence the maturation properties of Emmental cheese; however, high heat treatment of whey protein-reduced milk impaired cheese functionality and appearance.",

author = "Xiaofeng Xia and Georg Arju and Anastassia Taivosalo and Taivo Lints and Tiina Kri{\v s}{\v c}iunaite and Raivo Vilu and Corrigan, \{Bernard M.\} and Nan Gai and Fenelon, \{Mark A.\} and Tobin, \{John T.\} and Kieran Kilcawley and Kelly, \{Alan L.\} and McSweeney, \{Paul L.H.\} and Sheehan, \{Jeremiah J.\}",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

year = "2023",

month = mar,

doi = "10.1016/j.idairyj.2022.105540",

language = "English",

volume = "138",

journal = "International Dairy Journal",

issn = "0958-6946",

publisher = "Elsevier B.V.",

}

Xia, X, Arju, G, Taivosalo, A, Lints, T, Kriščiunaite, T, Vilu, R, Corrigan, BM, Gai, N, Fenelon, MA, Tobin, JT, Kilcawley, K, Kelly, AL , McSweeney, PLH & Sheehan, JJ 2023, 'Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening', International Dairy Journal, vol. 138, 105540. https://doi.org/10.1016/j.idairyj.2022.105540

TY - JOUR

T1 - Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening

AU - Xia, Xiaofeng

AU - Arju, Georg

AU - Taivosalo, Anastassia

AU - Lints, Taivo

AU - Kriščiunaite, Tiina

AU - Vilu, Raivo

AU - Corrigan, Bernard M.

AU - Gai, Nan

AU - Fenelon, Mark A.

AU - Tobin, John T.

AU - Kilcawley, Kieran

AU - Kelly, Alan L.

AU - McSweeney, Paul L.H.

AU - Sheehan, Jeremiah J.

PY - 2023/3

Y1 - 2023/3

N2 - The effect of β-casein reduction (LB) and high heat treatment (HHT, 120 °C × 15 s) of whey protein-reduced milk on the ripening properties of Emmental cheese was investigated. Cheeses were manufactured from low-heat skim milk powder (LH), micellar casein concentrate powder (MCC) and β-casein reduced MCC powder (LB- or HHT LB) respectively, then ripened for 120 days. There was no significant difference between the ripening properties of LB and MCC cheeses. Compared with the other treatments, HHT LB cheese had significantly lower plasmin activity (day 120 of ripening) and flowability (days 70 and 120 of ripening), higher level of a-value (redness), and similar numbers of peptides and levels of casein hydrolysis (days 1 and 120 of ripening). Overall, reduction of β-casein by 4.25% in MCC did not influence the maturation properties of Emmental cheese; however, high heat treatment of whey protein-reduced milk impaired cheese functionality and appearance.

AB - The effect of β-casein reduction (LB) and high heat treatment (HHT, 120 °C × 15 s) of whey protein-reduced milk on the ripening properties of Emmental cheese was investigated. Cheeses were manufactured from low-heat skim milk powder (LH), micellar casein concentrate powder (MCC) and β-casein reduced MCC powder (LB- or HHT LB) respectively, then ripened for 120 days. There was no significant difference between the ripening properties of LB and MCC cheeses. Compared with the other treatments, HHT LB cheese had significantly lower plasmin activity (day 120 of ripening) and flowability (days 70 and 120 of ripening), higher level of a-value (redness), and similar numbers of peptides and levels of casein hydrolysis (days 1 and 120 of ripening). Overall, reduction of β-casein by 4.25% in MCC did not influence the maturation properties of Emmental cheese; however, high heat treatment of whey protein-reduced milk impaired cheese functionality and appearance.

UR - https://www.scopus.com/pages/publications/85142705331

U2 - 10.1016/j.idairyj.2022.105540

DO - 10.1016/j.idairyj.2022.105540

M3 - Article

AN - SCOPUS:85142705331

SN - 0958-6946

VL - 138

JO - International Dairy Journal

JF - International Dairy Journal

M1 - 105540

ER -

Effect of β-casein reduction and high heat treatment of micellar casein concentrate on proteolysis, texture and the volatile profile of resultant Emmental cheese during ripening

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