Milk-clotting properties of plant rennets and their enzymatic, rheological, and sensory role in cheese making: A review

Amira, Amal Ben; Besbes, Souhail; Attia, Hamadi; Blecker, Christophe

doi:10.1080/10942912.2017.1289959

Cited by 104 publications

(75 citation statements)

References 91 publications

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“…The type of protease (e.g., cysteine, serine and aspartic) and its specificity is of great relevance and defines its use in food processing. For cheesemaking, in general, a protease with a higher ratio between specific activity for milk coagulation (milk clotting activity, MCA) and enzymatic non-specific proteolytic activity (PA) (MCA/PA ratio) is more capable to form curd, obtaining higher yield and less bitterness development during cheese processing, while a low ratio may result in lower curd recovery, weak curd firmness and the release of bitter peptides that affect the sensory properties of the final product (Amira, Besbes, Hamadi, & Blecker, 2017;Mazorra-Manzano et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…Nowadays, sheep cheese produced with this type of coagulant has become highly valued because of its special taste and organoleptic properties (Fern andez et al, 2006;Roseiro et al, 2003). These vegetable coagulants have other interesting uses concerning specific targets, for example, cheese production with these natural enzymes can be aimed at lactovegetarian consumers and ecological markets (Gal an, Cabezas, & Fern andez-Salguero, 2012; Khaldi, Sonnante, & El Gazzah, 2012) or to overcome religious restrictions (Amira et al, 2017;Roseiro et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Cynara cardunculus L. flower from Alentejo as a coagulant agent for cheesemaking

Gomes

Belo

Alvarenga

et al. 2019

International Dairy Journal

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The cardoon (Cynara cardunculus L.) is a mandatory vegetable coagulant for certain Protected Designation of Origin Portuguese cheeses. It grows wild in Portugal and is used without any type of control regarding flower picking or extract preparation, representing some uncertainty in cheese manufacture. The variability in technological properties, in the context of traditional cheese manufacture, of cardoon flower ecotypes from the Alentejo region was evaluated, including milk clotting and proteolytic activities, coagulation properties and potential cheesemaking yield of flower extracts. Multivariate statistics highlighted the variability of flower properties for cheesemaking, but allowed the aggregation of the ecotypes into five groups under the major influence of milk clotting activity and effect on gel firmness and micellar aggregation rate, followed by proteolytic activity. These differences may have an impact on cheese properties and therefore can allow the selection of cardoon flower for the manufacture of different types of cheese.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Characterization of Cynara cardunculus L. flower from Alentejo as a coagulant agent for cheesemaking

Gomes

Belo

Alvarenga

et al. 2019

International Dairy Journal

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“…Panelists chose formula II as the best color, since it has a yellowish-white color. According to Ben-Amira et al (2017), cheese made from cow's milk without coloring will produce cheese that is yellowishwhite. Yellow comes from fat-soluble carotene pigments.…”

Section: Formula Optimization and Verification Of The Optimum Formulamentioning

confidence: 99%

“…The effect of the lime extract is not only sour taste, but it also causes a slightly bitter taste. According to Ben-Amira et al (2017), the bitter taste in oranges is influenced by the presence of two compounds, namely flavonoids and limonoids. The main component of flavonoids is naringin, which gives the impression of an astringent to bitter taste.…”

Section: Fullmentioning

confidence: 99%

Formulation of low-fat cheese analogue from sweet corn extract using papain and lime extract as coagulant

Aini¹,

Sustriawan²,

Prihananto³

et al. 2020

Food Res.

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Cheese is not only created using cow's milk and can also be made from a mixture of vegetable extracts, including corn extract. Cheese from corn extract has the advantages of low-fat and high-carotene. Notably, papain can be used as a coagulant in the production of cheese analogue, while maltodextrin functions to increase volume and total solids for greater yield. The objectives of the present study was 1) to optimize the formula composition between lime extract, papain, and maltodextrin to create a cheese analogue from sweet corn extract with high yield and protein as well as good sensory properties, 2) to study the physicochemical and sensory characteristics of the cheese analogue using the optimal formula, and 3) to compare analog cheese from corn milk to cow's milk cheese. The experimental design involved response surface methodology with three factors (lime extract, papain, and maltodextrin). The results of the study produced the optimal cheese analogue formula from corn extract with the addition of lime extract (2.283%), papain (0.022%), and maltodextrin (15%). The characteristics of this cheese analogue include a yield of 20.3%; pH of 5.4; 14oBrix soluble solids; water content of 65.3%; protein content of 13.5%; total-carotene of 544.4 ppm and of fat content 4.6%. The cheese analogue has sensory characteristics of soft texture, the ability to spread evenly, the typical color of cheese (i.e. yellowish-white), and was preferred by panelists. Cheese analogue has protein content of 7.1%, fat content of 4.55%, total carotene of 544.4 mg/g, cholesterol 0.02 mg/g; while commercial cheese from cow’s milk has protein content 6.3%, fat content 24.53%, total carotene 5.32 mg/g and cholesterol 0.19 mg/g. Thus, sweet corn can potentially be used as a raw material for producing low-fat cheese analogues.

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“…The use of cardoon flowers as coagulant allows for the production of high‐quality cheeses with specific characteristics and it has been demonstrated that additional cleavage of milk caseins contributes to the final texture and flavor properties of these cheeses . For cheese making, in general, the effects on the yield, texture and bitterness are due to the ratio between specific milk clotting activity and enzymatic non‐specific proteolytic activity . Guiné et al .…”

Section: Bioactive Compoundsmentioning

confidence: 99%

Cardoon as a Sustainable Crop for Biomass and Bioactive Compounds Production

Barracosa

Pires

2019

Chemistry & Biodiversity

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Cardoon is a multi-purpose and versatile Mediterranean crop, adapted to climate change, with a wide spectrum of potential applications due its added value as a rich source of fibers, oils and bioactive compounds. The Cynara species are a component of the Mediterranean diet and have been used as food and medicine since ancient times. The important role of cardoon in human nutrition, as a functional food, is due to its high content of nutraceutical and bioactive compounds such as oligofructose inulin, caffeoylquinic acids, flavonoids, anthocyanins, sesquiterpenes lactones, triterpenes, fatty acids and aspartic proteases. The present review highlights the characteristics and functions of cardoon biomass which permits the development of innovative products in food and nutrition, pharmaceutics and cosmetics, plant protection and biocides, oils and energy, lignocellulose materials, and healthcare industries following the actual trends of a circular economy.

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Milk-clotting properties of plant rennets and their enzymatic, rheological, and sensory role in cheese making: A review

Cited by 104 publications

References 91 publications

Characterization of Cynara cardunculus L. flower from Alentejo as a coagulant agent for cheesemaking

Characterization of Cynara cardunculus L. flower from Alentejo as a coagulant agent for cheesemaking

Formulation of low-fat cheese analogue from sweet corn extract using papain and lime extract as coagulant

Cardoon as a Sustainable Crop for Biomass and Bioactive Compounds Production

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