Abstract
This paper reports the potential use of fermented curly kale juice in Feta-type cheese production. The rheological study and Turbiscan assay demonstrated that fermented curly kale juice coupled with rennet accelerated curd formation resulted in a stronger curd compared to the sample containing rennet alone. Laboratory-scale cheese was manufactured from cow’s milk with the use of fermented curly kale juice. Several parameters that affect the quality of cheese were investigated, including physicochemical, textural and microstructure characteristics. The content of amino acids and fatty acids was determined, surface properties were assessed and microbial enumeration of the experimental cheese was carried out before and after ripening. The values of pH and the content of lactose and protein significantly decreased as a result of maturation. In turn, an increase in LAB growth as well as saturated and unsaturated fatty acids was observed. The use of the fermented curly kale juice improved the textural characteristics and changed the microstructure of the obtained cheese. Finally, the ripening process enhanced the amino acid profile of the Feta-type cheese. These findings indicate that the fermented curly kale juice can be used for manufacture of cheese with improved characteristics and functional properties.
Highlights
Nowadays, to meet consumer expectations about novel food, products with enhanced probiotic properties, sensory quality and increased nutritional value have been developed
The cheese curd obtained from milk and fermented curly kale juice demonstrated the highest values of G0 and G”
This study aimed to investigate the possibility of using curly kale juice to manufacture Feta-type cheese and monitor its changes caused by ripening
Summary
To meet consumer expectations about novel food, products with enhanced probiotic properties, sensory quality and increased nutritional value have been developed. For this purpose, considerable research attention is recently focused on searching for new isolates of lactic acid bacteria (LAB) exhibiting desired technological and health-promoting properties that have particular significance in production of functional dairy foods. Considerable research attention is recently focused on searching for new isolates of lactic acid bacteria (LAB) exhibiting desired technological and health-promoting properties that have particular significance in production of functional dairy foods Such foods demonstrate great potential in promoting human health and well-being. Sabellica), which represents Brassica vegetables, has experienced a renaissance Curly kale (Brassica oleracea var. sabellica), which represents Brassica vegetables, has experienced a renaissance
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