Influence of cheese making technologies on plasmin and coagulant associated proteolysis

Influence of cheese making technologies on plasmin and coagulant associated proteolysis

The aim of this work was to study the influence of different cheese-making technologies applied for three varieties of Argentinean cheeses on the action of coagulant enzyme, plasmin-plasminogen system and proteolysis. For this, Cremoso (soft cheese), Pategrás (semi-hard cheese) and Reggianito (hard...

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Bibliographic Details
Published in:Food science & technology Vol. 64; no. 1; pp. 282 - 288
Main Authors: Vélez, María Ayelén, Bergamini, Carina Viviana, Ramonda, María Belén, Candioti, Mario César, Hynes, Erica Rut, Perotti, María Cristina
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-11-2015
Subjects:
Cheese making technologies
Coagulant
Plasmin
Plasminogen
Proteolysis
Coagulant
Plasminogen
Cheese making technologies
Proteolysis
Plasmin
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Summary:The aim of this work was to study the influence of different cheese-making technologies applied for three varieties of Argentinean cheeses on the action of coagulant enzyme, plasmin-plasminogen system and proteolysis. For this, Cremoso (soft cheese), Pategrás (semi-hard cheese) and Reggianito (hard cooked cheese) cheeses were analyzed for composition, nitrogen fractions, enzymes activities and elecrophoresis throughout ripening. As for coagulant, no reactivation of the enzyme was registered during ripening. Changes were mainly related to cooking temperature, as decreasing cooking temperature increased coagulant activity, being superior in Cremoso, followed by Pategrás and then by Reggianito cheeses. In regards of plamin/plasminogen system, it was observed greater activity of inactive plasminogen in Reggianito and Cremoso cheeses; while in Pategrás cheese the level was very low probably because plasminogen activation was enhanced during cheese making by the elimination of plasminogen activators inhibitors by curd washing. Indeed, the highest plasmin activity was found in Pategrás cheese, which indicates that curd washing combined with soft thermal treatment of the curd favored plasminogen activation. However, the environment defined by Reggianito cheese matrix was more suitable for maintaining the stability of plasmin activity along ripening. Results were consistent with proteolysis registered in electrophoresis and nitrogen fractions. •Cheese-making technologies were correlated to plasmin and coagulant activities.•No reactivation of coagulant enzyme was registered during ripening.•Plasmin activity increased with soft cooking temperature and curd washing.•Plasminogen activation was enhanced during cheese making by curd washing.
ISSN:0023-6438
1096-1127
DOI:10.1016/j.lwt.2015.05.053