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Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese

This paper examines the effects of the incorporation of denatured whey proteins along with salting in NaCl/KCl brine on the characteristics and ripening of sheep milk reduced-fat (RF), semi-hard cheese. Incorporation of denatured whey proteins was carried out by: i. adding commercial microparticulat...

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Autores principales: Moatsou, Golfo, Zoidou, Evangelia, Choundala, Evangelia, Koutsaris, Konstantinos, Kopsia, Olga, Thergiaki, Katerina, Sakkas, Lambros
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6617074/
https://www.ncbi.nlm.nih.gov/pubmed/31212648
http://dx.doi.org/10.3390/foods8060204
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author Moatsou, Golfo
Zoidou, Evangelia
Choundala, Evangelia
Koutsaris, Konstantinos
Kopsia, Olga
Thergiaki, Katerina
Sakkas, Lambros
author_facet Moatsou, Golfo
Zoidou, Evangelia
Choundala, Evangelia
Koutsaris, Konstantinos
Kopsia, Olga
Thergiaki, Katerina
Sakkas, Lambros
author_sort Moatsou, Golfo
collection PubMed
description This paper examines the effects of the incorporation of denatured whey proteins along with salting in NaCl/KCl brine on the characteristics and ripening of sheep milk reduced-fat (RF), semi-hard cheese. Incorporation of denatured whey proteins was carried out by: i. adding commercial microparticulated whey protein (MWP) in reduced-fat cheese milk (RFM), or ii. by ‘in situ’ heat-induced partial denaturation of whey proteins of reduced-fat cheese milk (RFD). The implemented cheesemaking conditions included curd washing, moderate clotting, scalding temperatures, and ripening of cheeses packed in plastic bags under vacuum at 10 °C. Full-fat cheeses (FF) were manufactured in parallel. Physicochemical composition, textural profile, and proteolysis were assessed throughout 60 days of ripening. The mean moisture, fat on dry matter (FDM), moisture on non-fat substances (MNFS), protein on dry matter (PDM), salt, and salt-in-moisture (S/M) content of the RF cheeses were 47.4%, 32.8%, 57.3%, 54.3%, 1.63%, and 3.36%, respectively; pH ≈ 5.0, a(w) ≈ 0.977, Ca ≈ 1000 mg/100 g cheese. The MNFS of FF and RF cheeses were similar. Proteolysis indices were not affected by any of the treatments, and they were similar to the FF counterparts. The applied cheesemaking technology was adequate for the production of semi-hard reduced-fat and reduced-sodium cheeses. Ripening under packaging hindered moisture loss without impairing the evolution of proteolysis and textural parameters. The same holds true for salting in NaCl/KCl brine. The high pasteurization of cheese milk was more effective for the increase of moisture and MNFS than the addition of MWP, without exhibiting any adverse effects.
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spelling pubmed-66170742019-07-18 Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese Moatsou, Golfo Zoidou, Evangelia Choundala, Evangelia Koutsaris, Konstantinos Kopsia, Olga Thergiaki, Katerina Sakkas, Lambros Foods Article This paper examines the effects of the incorporation of denatured whey proteins along with salting in NaCl/KCl brine on the characteristics and ripening of sheep milk reduced-fat (RF), semi-hard cheese. Incorporation of denatured whey proteins was carried out by: i. adding commercial microparticulated whey protein (MWP) in reduced-fat cheese milk (RFM), or ii. by ‘in situ’ heat-induced partial denaturation of whey proteins of reduced-fat cheese milk (RFD). The implemented cheesemaking conditions included curd washing, moderate clotting, scalding temperatures, and ripening of cheeses packed in plastic bags under vacuum at 10 °C. Full-fat cheeses (FF) were manufactured in parallel. Physicochemical composition, textural profile, and proteolysis were assessed throughout 60 days of ripening. The mean moisture, fat on dry matter (FDM), moisture on non-fat substances (MNFS), protein on dry matter (PDM), salt, and salt-in-moisture (S/M) content of the RF cheeses were 47.4%, 32.8%, 57.3%, 54.3%, 1.63%, and 3.36%, respectively; pH ≈ 5.0, a(w) ≈ 0.977, Ca ≈ 1000 mg/100 g cheese. The MNFS of FF and RF cheeses were similar. Proteolysis indices were not affected by any of the treatments, and they were similar to the FF counterparts. The applied cheesemaking technology was adequate for the production of semi-hard reduced-fat and reduced-sodium cheeses. Ripening under packaging hindered moisture loss without impairing the evolution of proteolysis and textural parameters. The same holds true for salting in NaCl/KCl brine. The high pasteurization of cheese milk was more effective for the increase of moisture and MNFS than the addition of MWP, without exhibiting any adverse effects. MDPI 2019-06-11 /pmc/articles/PMC6617074/ /pubmed/31212648 http://dx.doi.org/10.3390/foods8060204 Text en © 2019 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Moatsou, Golfo
Zoidou, Evangelia
Choundala, Evangelia
Koutsaris, Konstantinos
Kopsia, Olga
Thergiaki, Katerina
Sakkas, Lambros
Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title_full Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title_fullStr Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title_full_unstemmed Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title_short Development of Reduced-Fat, Reduced-Sodium Semi-Hard Sheep Milk Cheese
title_sort development of reduced-fat, reduced-sodium semi-hard sheep milk cheese
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6617074/
https://www.ncbi.nlm.nih.gov/pubmed/31212648
http://dx.doi.org/10.3390/foods8060204
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