Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese

Mette Winther Børsting; Karsten Bruun Qvist; Morten Rasmussen; Jannik Vindeløv; Finn Kvist Vogensen; Ylva Margareta Ardö

doi:10.1007/s13594-012-0080-7

Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese

Mette Winther Børsting, Karsten Bruun Qvist, Morten Rasmussen, Jannik Vindeløv, Finn Kvist Vogensen, Ylva Margareta Ardö

20 Citationer (Scopus)

Abstract

Despite substantial research, it is still difficult to produce high quality reducedfat Cheddar cheese. The objective of this study was to investigate how two coagulants, bovine chymosin (BC) and camel chymosin (CC) having different proteolytic activities and two starter cultures, an O-culture (O) and a thermophilic strain of Lactobacillus plus O-culture (OLb) having different abilities to release amino acids, contribute to the structure and flavour development in reduced-fat Cheddar cheese. Cheeses manufactured using the four combinations of coagulants and cultures were analysed during a 28-week ripening period for the composition of casein, peptides, free amino acids, rheological properties and for sensory properties at end of ripening. Cheeses with CC, showed less extensive primary proteolysis, lower levels of bitterness and higher stress at fracture, which correlates to a harder structure. Whereas cheeses with BC had a higher amount of peptides released by chymosin, e.g. the bitter peptide β-casein (f193-209) or by starter proteases from the chymosin-produced peptide α_s1-CN (f1-23). BC cheeses were also judged to be softer by the sensory panel. Cheeses containing the OLb-culture had a higher amount of free amino acids and lower strain at fracture, which correlates to a shorter structure, and the peptide profiles of cheeses produced with BC and CC were rather similar after 28 weeks in contradiction to cheeses with O-culture. Replacing the traditional coagulant BC with CC reduced bitterness but increased hardness of the reduced-fat Cheddar cheese. Replacing O-with OLb-culture also reduced bitterness but resulted in a shorter structure. The results highlight tools which could be employed to alter primary proteolysis and amino acid release, respectively, for the optimisation of flavour and structure of reduced-fat cheese.

Originalsprog	Engelsk
Tidsskrift	Dairy Science & Technology
Vol/bind	92
Udgave nummer	5
Sider (fra-til)	593-612
Antal sider	20
ISSN	1958-5586
DOI	https://doi.org/10.1007/s13594-012-0080-7
Status	Udgivet - sep. 2012

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10.1007/s13594-012-0080-7

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Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese. / Børsting, Mette Winther; Qvist, Karsten Bruun; Rasmussen, Morten et al.

I: Dairy Science & Technology, Bind 92, Nr. 5, 09.2012, s. 593-612.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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title = "Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese",

abstract = "Despite substantial research, it is still difficult to produce high quality reducedfat Cheddar cheese. The objective of this study was to investigate how two coagulants, bovine chymosin (BC) and camel chymosin (CC) having different proteolytic activities and two starter cultures, an O-culture (O) and a thermophilic strain of Lactobacillus plus O-culture (OLb) having different abilities to release amino acids, contribute to the structure and flavour development in reduced-fat Cheddar cheese. Cheeses manufactured using the four combinations of coagulants and cultures were analysed during a 28-week ripening period for the composition of casein, peptides, free amino acids, rheological properties and for sensory properties at end of ripening. Cheeses with CC, showed less extensive primary proteolysis, lower levels of bitterness and higher stress at fracture, which correlates to a harder structure. Whereas cheeses with BC had a higher amount of peptides released by chymosin, e.g. the bitter peptide β-casein (f193-209) or by starter proteases from the chymosin-produced peptide αs1-CN (f1-23). BC cheeses were also judged to be softer by the sensory panel. Cheeses containing the OLb-culture had a higher amount of free amino acids and lower strain at fracture, which correlates to a shorter structure, and the peptide profiles of cheeses produced with BC and CC were rather similar after 28 weeks in contradiction to cheeses with O-culture. Replacing the traditional coagulant BC with CC reduced bitterness but increased hardness of the reduced-fat Cheddar cheese. Replacing O-with OLb-culture also reduced bitterness but resulted in a shorter structure. The results highlight tools which could be employed to alter primary proteolysis and amino acid release, respectively, for the optimisation of flavour and structure of reduced-fat cheese.",

author = "B{\o}rsting, {Mette Winther} and Qvist, {Karsten Bruun} and Morten Rasmussen and Jannik Vindel{\o}v and Vogensen, {Finn Kvist} and Ard{\"o}, {Ylva Margareta}",

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doi = "10.1007/s13594-012-0080-7",

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T1 - Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese

AU - Børsting, Mette Winther

AU - Qvist, Karsten Bruun

AU - Rasmussen, Morten

AU - Vindeløv, Jannik

AU - Vogensen, Finn Kvist

AU - Ardö, Ylva Margareta

PY - 2012/9

Y1 - 2012/9

N2 - Despite substantial research, it is still difficult to produce high quality reducedfat Cheddar cheese. The objective of this study was to investigate how two coagulants, bovine chymosin (BC) and camel chymosin (CC) having different proteolytic activities and two starter cultures, an O-culture (O) and a thermophilic strain of Lactobacillus plus O-culture (OLb) having different abilities to release amino acids, contribute to the structure and flavour development in reduced-fat Cheddar cheese. Cheeses manufactured using the four combinations of coagulants and cultures were analysed during a 28-week ripening period for the composition of casein, peptides, free amino acids, rheological properties and for sensory properties at end of ripening. Cheeses with CC, showed less extensive primary proteolysis, lower levels of bitterness and higher stress at fracture, which correlates to a harder structure. Whereas cheeses with BC had a higher amount of peptides released by chymosin, e.g. the bitter peptide β-casein (f193-209) or by starter proteases from the chymosin-produced peptide αs1-CN (f1-23). BC cheeses were also judged to be softer by the sensory panel. Cheeses containing the OLb-culture had a higher amount of free amino acids and lower strain at fracture, which correlates to a shorter structure, and the peptide profiles of cheeses produced with BC and CC were rather similar after 28 weeks in contradiction to cheeses with O-culture. Replacing the traditional coagulant BC with CC reduced bitterness but increased hardness of the reduced-fat Cheddar cheese. Replacing O-with OLb-culture also reduced bitterness but resulted in a shorter structure. The results highlight tools which could be employed to alter primary proteolysis and amino acid release, respectively, for the optimisation of flavour and structure of reduced-fat cheese.

AB - Despite substantial research, it is still difficult to produce high quality reducedfat Cheddar cheese. The objective of this study was to investigate how two coagulants, bovine chymosin (BC) and camel chymosin (CC) having different proteolytic activities and two starter cultures, an O-culture (O) and a thermophilic strain of Lactobacillus plus O-culture (OLb) having different abilities to release amino acids, contribute to the structure and flavour development in reduced-fat Cheddar cheese. Cheeses manufactured using the four combinations of coagulants and cultures were analysed during a 28-week ripening period for the composition of casein, peptides, free amino acids, rheological properties and for sensory properties at end of ripening. Cheeses with CC, showed less extensive primary proteolysis, lower levels of bitterness and higher stress at fracture, which correlates to a harder structure. Whereas cheeses with BC had a higher amount of peptides released by chymosin, e.g. the bitter peptide β-casein (f193-209) or by starter proteases from the chymosin-produced peptide αs1-CN (f1-23). BC cheeses were also judged to be softer by the sensory panel. Cheeses containing the OLb-culture had a higher amount of free amino acids and lower strain at fracture, which correlates to a shorter structure, and the peptide profiles of cheeses produced with BC and CC were rather similar after 28 weeks in contradiction to cheeses with O-culture. Replacing the traditional coagulant BC with CC reduced bitterness but increased hardness of the reduced-fat Cheddar cheese. Replacing O-with OLb-culture also reduced bitterness but resulted in a shorter structure. The results highlight tools which could be employed to alter primary proteolysis and amino acid release, respectively, for the optimisation of flavour and structure of reduced-fat cheese.

U2 - 10.1007/s13594-012-0080-7

DO - 10.1007/s13594-012-0080-7

M3 - Journal article

SN - 1958-5586

VL - 92

SP - 593

EP - 612

JO - Lait

JF - Lait

IS - 5

ER -

Impact of selected coagulants and starters on primary proteolysis and amino acid release related to bitterness and structure of reduced-fat Cheddar cheese

Abstract

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