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International Journal of Food Properties Volume 20, 2017 - Issue sup1
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Milk-clotting properties of plant rennets and their enzymatic, rheological, and sensory role in cheese making: A review

Amal Ben AmiraGembloux Agro-Bio Tech, Unit of Food Science and Formulation, University of Liège, Gembloux, Belgium;National Engineering School of Sfax, Laboratory of Food Analysis, University of Sfax, Sfax, TunisiaCorrespondence[email protected]
View further author information
,
Souhail BesbesNational Engineering School of Sfax, Laboratory of Food Analysis, University of Sfax, Sfax, TunisiaView further author information
,
Hamadi AttiaNational Engineering School of Sfax, Laboratory of Food Analysis, University of Sfax, Sfax, TunisiaView further author information
&
Christophe BleckerGembloux Agro-Bio Tech, Unit of Food Science and Formulation, University of Liège, Gembloux, BelgiumView further author information
Pages S76-S93 | Received 03 Oct 2016, Accepted 30 Jan 2017, Published online: 25 Apr 2017

References

  • Mahaut, M.; Jeantet, R.; Brule, G. Initiation À La Technologie Fromagère. Technique et documantation Lavoisier Inc.: Paris, France, 2000.
  • Sinaga, H.; Bansal, N.; Bhandari, B. Gelation Properties of Partially Renneted Milk. International Journal of Food Properties 2016.
  • Anusha, R.; Singh, M.K.; Bindhu, O. Characterisation of Potential Milk Coagulants from Calotropis gigantea Plant Parts and Their Hydrolytic Pattern of Bovine Casein. European Food Research and Technology 2014, 238, 997–1006.
  • Shah, M.A.; Mir, S.A.; Paray, M.A. Plant Proteases as Milk-Clotting Enzymes in Cheesemaking: A Review. Dairy Science & Technology 2014, 94, 5–16.
  • Sumantha, A.; Larroche, C.; Pandey, A. Microbiology and Industrial Biotechnology of Food-Grade Proteases: A Perspective. Food Technology and Biotechnology 2006, 44, 211.
  • Yegin, S.; Dekker, P. Progress in the Field of Aspartic Proteinases in Cheese Manufacturing: Structures, Functions, Catalytic Mechanism, Inhibition, and Engineering. Dairy Science & Technology 2013, 93, 565–594.
  • Grozdanovic, M.M.; Burazer, L.; Gavrovic-Jankulovic, M. Kiwifruit (Actinidia deliciosa) Extract Shows Potential as a Low-Cost and Efficient Milk-Clotting Agent. International Dairy Journal 2013, 32, 46–52.
  • Duarte, A.R.; Duarte, D.M.R.; Moreira, K.A.; Cavalcanti, M.T.H.; Lima-Filho, J.L.D.; Porto, A.L.F. Jacaratia Corumbensis O. Kuntze a New Vegetable Source for Milk-Clotting Enzymes. Brazilian Archives of Biology and Technology 2009, 52, 1–9.
  • Roseiro, L.B.; Barbosa, M.; Ames, J.M.; Wilbey, R.A. Cheesemaking with Vegetable Coagulants—The Use of Cynara L. for the Production of Ovine Milk Cheeses. International Journal of Dairy Technology 2003, 56, 76–85.
  • Pontual, E.V.; Carvalho, B.E.; Bezerra, R.S.; Coelho, L.C.; Napoleão, T.H.; Paiva, P.M. Caseinolytic and Milk-Clotting Activities from Moringa oleifera Flowers. Food Chemistry 2012, 135, 1848–1854.
  • Macedo, I.Q.; Faro, C.J.; Pires, E.M. Caseinolytic Specificity of Cardosin, an Aspartic Protease from the Cardoon Cynara cardunculus L.: Action on Bovine Αs-And Β-Casein and Comparison with Chymosin. Journal of Agricultural and Food Chemistry 1996, 44, 42–47.
  • Egito, A.; Girardet, J.-M.; Laguna, L.; Poirson, C.; Molle, D.; Miclo, L.; Humbert, G.; Gaillard, J.-L. Milk-Clotting Activity of Enzyme Extracts from Sunflower and Albizia Seeds and Specific Hydrolysis of Bovine Κ-Casein. International Dairy Journal 2007, 17, 816–825.
  • Harboe, M.; Broe, M.L.; Qvist, K.B. Technology of Cheese Making. In Law, B.A.; Tamime, A.Y.; Eds.; Wiley-Blackwell: London, UK, 2010.
  • Mazorra-Manzano, M.A.; Perea-Gutiérrez, T.C.; Lugo-Sánchez, M.E.; Ramirez-Suarez, J.C.; Torres-Llanez, M.J.; González-Córdova, A.F.; Vallejo-Cordoba, B. Comparison of the Milk-Clotting Properties of Three Plant Extracts. Food Chemistry 2013, 141, 1902–1907.
  • Silva, S.V.; Allmere, T.; Malcata, F.X.; Andrén, A. Comparative Studies on the Gelling Properties of Cardosins Extracted from Cynara cardunculus and Chymosin on Cow’s Skim Milk. International Dairy Journal, 2003, 13, 559–564.
  • Sarmento, A.C.; Lopes, H.; Oliveira, C.S.; Vitorino, R.; Samyn, B.; Sergeant, K.; Debyser, G.; Van Beeumen, J.; Domingues, P.; Amado, F. Multiplicity of Aspartic Proteinases from Cynara cardunculus L. Planta 2009, 230, 429–439.
  • Ordiales, E.; Martín, A.; Benito, M.J.; Hernández, A.; Ruiz-Moyano, S.; Córdoba, M.D.G. Technological Characterisation by Free Zone Capillary Electrophoresis (FCZE) of the Vegetable Rennet (Cynara cardunculus) Used in “Torta Del Casar” Cheese-Making. Food Chemistry 2012, 133, 227–235.
  • Sidrach, L.; García-Cánovas, F.; Tudela, J.; Rodríguez-López, J.N. Purification of Cynarases from Artichoke (Cynara scolymus L.): Enzymatic Properties of Cynarase A. Phytochemistry 2005, 66, 41–49.
  • Chazarra, S.; Sidrach, L.; Lopez-Molina, D.; Rodríguez-López, J.N. Characterization of the Milk-Clotting Properties of Extracts from Artichoke (Cynara scolymus, L.) Flowers. International Dairy Journal 2007, 17, 1393–1400.
  • Esteves, C.; Lucey, J.; Wang, T.; Pires, E. Effect of Ph on the Gelation Properties of Skim Milk Gels Made from Plant Coagulants and Chymosin. Journal of Dairy Science 2003, 86, 2558–2567.
  • Vairo-Cavalli, S.; Claver, S.; Priolo, N.; Natalucci, C. Extraction and Partial Characterization of a Coagulant Preparation from Silybum marianum Flowers. Its Action on Bovine Caseinate. Journal of Dairy Research 2005, 72, 271–275.
  • Asakura, T.; Watanabe, H.; Abe, K.; Arai, S. Oryzasin as an Aspartic Proteinase Occurring in Rice Seeds: Purification, Characterization, and Application to Milk Clotting. Journal of Agricultural and Food Chemistry 1997, 45, 1070–1075.
  • Brutti, C.B.; Pardo, M.F.; Caffini, N.O.; Natalucci, C.L. Onopordum acanthium L. (Asteraceae) Flowers as Coagulating Agent for Cheesemaking. LWT-Food Science and Technology 2012, 45, 172–179.
  • Lufrano, D.; Faro, R.; Castanheira, P.; Parisi, G.; Veríssimo, P.; Vairo-Cavalli, S.; Simões, I.; Faro, C. Molecular Cloning and Characterization of Procirsin, an Active Aspartic Protease Precursor from Cirsium vulgare (Asteraceae). Phytochemistry 2012, 81, 7–18.
  • Raposo, S.; Domingos, A. Purification and Characterization Milk-Clotting Aspartic Proteinases from Centaurea calcitrapa Cell Suspension Cultures. Process Biochemistry 2008, 43, 139–144.
  • Faccia, M.; Picariello, G.; Trani, A.; Loizzo, P.; Gambacorta, G.; Lamacchia, C.; Di Luccia, A. Proteolysis of Cacioricotta Cheese Made from Goat Milk Coagulated with Caprifig (Ficus carica Sylvestris) or Calf Rennet. European Food Research and Technology 2012, 234, 527–533.
  • Raskovic, B.; Lazic, J.; Polovic, N. Characterisation of General Proteolytic, Milk Clotting and Antifungal Activity of Ficus carica Latex during Fruit Ripening. Journal of the Science of Food and Agriculture 2016, 96, 576–582.
  • Silva, A.C.D.; Nascimento, T.C.E.D.S.; Silva, S.A.D.; Herculano, P.N.; Moreira, K.A. Potential of Quixaba (Sideroxylon obtusifolium) Latex as a Milk-Clotting Agent. Food Science and Technology (Campinas) 2013, 33, 494–499.
  • Katsaros, G.I.; Tavantzis, G.; Taoukis, P.S. Production of Novel Dairy Products Using Actinidin and High Pressure as Enzyme Activity Regulator. Innovative Food Science & Emerging Technologies 2010, 11, 47–51.
  • Puglisi, I.; Petrone, G.; Lo Piero, A.R. A Kiwi Juice Aqueous Solution as Coagulant of Bovine Milk and Its Potential in Mozzarella Cheese Manufacture. Food and Bioproducts Processing 2014, 92, 67–72.
  • Abraham, K.; Joshi, P. Studies on Proteinases from Calotropis gigantea Latex I. Purification and Some Properties of Two Proteinases Containing Carbohydrate. Biochimica Et Biophysica Acta (Bba)-Enzymology 1979, 568, 111–119.
  • Huang, X.; Chen, L.; Luo, Y.; Guo, H.; Ren, F. Purification, Characterization, and Milk Coagulating Properties of Ginger Proteases. Journal of Dairy Science 2011, 94, 2259–2269.
  • Bruno, M.A.; Lazza, C.M.; Errasti, M.E.; López, L.M.; Caffini, N.O.; Pardo, M.F. Milk Clotting and Proteolytic Activity of an Enzyme Preparation from Bromelia hieronymi Fruits. LWT-Food Science and Technology, 2010, 43, 695–701.
  • Ahmed, I.A.M.; Morishima, I.; Babiker, E.E.; Mori, N. Characterisation of Partially Purified Milk-Clotting Enzyme from Solanum dubium Fresen Seeds. Food Chemistry 2009, 116, 395–400.
  • Uchikoba, T.; Kaneda, M. Milk-Clotting Activity of Cucumisin, a Plant Serine Protease from Melon Fruit. Applied Biochemistry and Biotechnology 1996, 56, 325–330.
  • Lo Piero, A.R.; Puglisi, I.; Petrone, G. Characterization of “Lettucine”, a Serine-Like Protease from Lactuca sativa Leaves, as a Novel Enzyme for Milk Clotting. Journal of Agricultural and Food Chemistry 2002, 50, 2439–2443.
  • Kumari, M.; Sharma, A.; Jagannadham, M. Decolorization of Crude Latex by Activated Charcoal, Purification and Physico-Chemical Characterization of Religiosin, a Milk-Clotting Serine Protease from the Latex of Ficus religiosa. Journal of Agricultural and Food Chemistry 2010, 58, 8027–8034.
  • Kumari, M.; Sharma, A.; Jagannadham, M.; Religiosin, B. A Milk-Clotting Serine Protease from Ficus religiosa. Food Chemistry 2012, 131, 1295–1303.
  • Sharma, A.; Kumari, M.; Jagannadham, M.; Religiosin, C. A Cucumisin-Like Serine Protease from Ficus religiosa. Process Biochemistry 2012, 47, 914–921.
  • Tripathi, P.; Tomar, R.; Jagannadham, M.V. Purification and Biochemical Characterisation of a Novel Protease Streblin. Food Chemistry 2011, 125, 1005–1012.
  • Beka, R.G.; Krier, F.; Botquin, M.; Guiama, V.D.; Donn, P.; Libouga, D.G.; Mbofung, C.M.; Dimitrov, K.; Slomianny, M.-C.; Guillochon, D. Characterisation of a Milk-Clotting Extract from Balanites aegyptiaca Fruit Pulp. International Dairy Journal 2014, 34, 25–31.
  • Mazorra-Manzano, M.A.; Moreno-Hernández, J.M.; Ramírez-Suarez, J.C.; De Jesús Torres-Llanez, M.; González-Córdova, A.F.; Vallejo-Córdoba, B. Sour Orange Citrus aurantium L. Flowers: A New Vegetable Source of Milk-Clotting Proteases. LWT-Food Science and Technology 2013, 54, 325–330.
  • González-Rábade, N.; Badillo-Corona, J.A.; Aranda-Barradas, J.S.; Del Carmen Oliver-Salvador, M. Production of Plant Proteases in Vivo and in Vitro—A Review. Biotechnology Advances 2011, 29, 983–996.
  • Domingos, A.; Cardoso, P.C.; Xue, Z.T.; Clemente, A.; Brodelius, P.E.; Pais, M.S. Purification, Cloning and Autoproteolytic Processing of an Aspartic Proteinase from Centaurea calcitrapa. European Journal of Biochemistry 2000, 267, 6824–6831.
  • Mutlu, A.; Gal, S. Plant Aspartic Proteinases: Enzymes on the Way to a Function. Physiologia Plantarum 1999, 105, 569–576.
  • Borgoño, C.A.; Michael, I.P.; Komatsu, N.; Jayakumar, A.; Kapadia, R.; Clayman, G.L.; Sotiropoulou, G.; Diamandis, E.P. A Potential Role for Multiple Tissue Kallikrein Serine Proteases in Epidermal Desquamation. Journal of Biological Chemistry 2007, 282, 3640–3652.
  • Lo Piero, A.R.; Puglisi, I.; Petrone, G. Characterization of the Purified Actinidin as a Plant Coagulant of Bovine Milk. European Food Research and Technology 2011, 233, 517–524.
  • Cayot, P.; Lorient, D. Structures Et Techno-Fonctions Des Protéines Du Lait, Technique Et Documentation. Lavoisier Inc.: Paris, France, 1998.
  • Shima, H.; Tanimoto, M. Quantifying Thermally Induced Flowability of Rennet Cheese Curds. International Journal of Food Properties 2015, 18, 2277–2283.
  • Fox, P.;. Exogenous Enzymes in Dairy Technology—A Review1. Journal of Food Biochemistry 1993, 17, 173–199.
  • Silva, S.; Barros, R.; Malcata, F. Hydrolysis of Caseins by Extracts of Cynara cardunculus Precipitated by Ammonium Sulfate. Journal of Food Science 2002, 67, 1746–1751.
  • Cavalli, S.V.; Lufrano, D.; Colombo, M.L.; Priolo, N. Properties and Applications of Phytepsins from Thistle Flowers. Phytochemistry 2013, 92, 16–32.
  • Upadhyay, V.; McSweeney, P.; Magboul, A.; Fox, P. Proteolysis in Cheese during Ripening. Cheese: Chemistry, Physics and Microbiology 2004, 1, 391–VIII.
  • Sanjuán, E.; Millán, R.; Saavedra, P.; Carmona, M.; Gómez, R.; Fernández-Salguero, J. Influence of Animal and Vegetable Rennet on the Physicochemical Characteristics of Los Pedroches Cheese during Ripening. Food Chemistry, 2002, 78, 281–289.
  • Jacob, M.; Jaros, D.; Rohm, H. Recent Advances in Milk Clotting Enzymes. International Journal of Dairy Technology 2011, 64, 14–33.
  • Silvestre, M.P.C.; Carreira, R.L.; Silva, M.R.; Corgosinho, F.C.; Monteiro, M.R.P.; Morais, H.A. Effect of Ph and Temperature on the Activity of Enzymatic Extracts from Pineapple Peel. Food and Bioprocess Technology 2012, 5, 1824–1831.
  • Da Costa, D.S.; Pereira, S.; Pissarra, J. The Heterologous Systems in the Study of Cardosin B Trafficking Pathways. Plant Signaling & Behavior 2011, 6, 895–897.
  • Aquilanti, L.; Babini, V.; Santarelli, S.; Osimani, A.; Petruzzelli, A.; Clementi, F. Bacterial Dynamics in a Raw Cow’s Milk Caciotta Cheese Manufactured with Aqueous Extract of Cynara cardunculus Dried Flowers. Letters in Applied Microbiology 2011, 52, 651–659.
  • Barros, R.M.; Ferreira, C.A.; Silva, S.V.; Malcata, F.X. Quantitative Studies on the Enzymatic Hydrolysis of Milk Proteins Brought about by Cardosins Precipitated by Ammonium Sulfate. Enzyme and Microbial Technology 2001, 29, 541–547.
  • Pina, D.G.; Oliveira, C.S.; Sarmento, A.C.; Barros, M.; Pires, E.; Zhadan, G.G.; Villar, E.; Gavilanes, F.; Shnyrov, V.L. Thermostability of Cardosin A from Cynara cardunculus L. Thermochimica Acta 2003, 402, 123–134.
  • Ageitos, J.; Vallejo, J.; Poza, M.; Villa, T. Fluorescein Thiocarbamoyl-Kappa-Casein Assay for the Specific Testing of Milk-Clotting Proteases. Journal of Dairy Science 2006, 89, 3770–3777.
  • Veríssimo, P.; Esteves, C.; Faro, C.; Pires, E. The Vegetable Rennet of Cynara cardunculus L. Contains Two Proteinases with Chymosin and Pepsin-Like Specificities. Biotechnology Letters 1995, 17, 621–626.
  • Macedo, I.Q.; Faro, C.J.; Pires, E.M. Specificity and Kinetics of the Milk-Clotting Enzyme from Cardoon (Cynara cardunculus L.) toward Bovine. Kappa.-Casein. Journal of Agricultural and Food Chemistry 1993, 41, 1537–1540.
  • Ben Amira, A.; Makhlouf, I.; Flaviu Petrut, R.; Francis, F.; Bauwens, J.; Attia, H.; Besbes, S.; Blecker, C. Effect of Extraction Ph on Techno-Functional Properties of Crude Extracts from Wild Cardoon (Cynara cardunculus L.) Flowers. Food Chemistry 2017, 225, 258–266.
  • Kazemipour, N.; Salehi Inchebron, M.; Valizadeh, J.; Sepehrimanesh, M. Clotting Characteristics of Milk by Withania coagulans: Proteomic and Biochemical Study. International Journal of Food Properties 2016, 1–12.
  • Ben Amira, A.; Bauwens, J.; De Pauw, E.; Besbes, S.; Attia, H.; Francis, F.; Blecker, C. Identification of Proteins from Wild Cardoon Flowers (Cynara cardunculus L.) by a Proteomic Approach. Journal of Chemical Biology 2016, 10, 1–9.
  • Freitas, C.D.; Leite, H.B.; Oliveira, J.P.; Amaral, J.L.; Egito, A.S.; Vairo-Cavalli, S.; Lobo, M.D.; Monteiro-Moreira, A.C.; Ramos, M.V. Insights into Milk-Clotting Activity of Latex Peptidases from Calotropis procera and Cryptostegia grandiflora. Food Research International 2016, 87, 50–59.
  • Esteves, C.; Lucey, J.A.; Pires, E.M. Rheological Properties of Milk Gels Made with Coagulants of Plant Origin and Chymosin. International Dairy Journal 2002, 12, 427–434.
  • Bohlin, L.; Hegg, P.-O.; Ljusberg-Wahren, H. Viscoelastic Properties of Coagulating Milk. Journal of Dairy Science, 1984, 67, 729–734.
  • Esteves, C.L.; Lucey, J.A.; Pires, E. Mathematical Modelling of the Formation of Rennet-Induced Gels by Plant Coagulants and Chymosin. Journal of Dairy Research 2001, 68, 499–510.
  • Zoon, P.; Van Vliet, T.; Walstra, P. Rheological Properties of Rennet-Induced Skim Milk Gels. 4. the Effect of Ph and Nacl. Netherlands Milk and Dairy Journal 1989, 43, 17–34.
  • Van Vliet, T.; Van Dijk, H.; Zoon, P.; Walstra, P. Relation between Syneresis and Rheological Properties of Particle Gels. Colloid and Polymer Science 1991, 269, 620–627.
  • McMahon, D.J.; Brown, R.J. Effects of Enzyme Type on Milk Coagulation. Journal of Dairy Science 1985, 68, 628–632.
  • Esteves, C.L.; Lucey, J.A.; Hyslop, D.B.; Pires, E.M. Effect of Gelation Temperature on the Properties of Skim Milk Gels Made from Plant Coagulants and Chymosin. International Dairy Journal 2003, 13, 877–885.
  • Kumosinski, T.F.; Brown, E.M.; Farrell, H.M., Jr. Three-Dimensional Molecular Modeling of Bovine Caseins: An Energy-Minimized Beta-Casein Structure. Journal of Dairy Science 1993, 76, 931–945.
  • Karlsson, A.O.; Ipsen, R.; Ardö, Y. Rheological Properties and Microstructure during Rennet Induced Coagulation of UF Concentrated Skim Milk. International Dairy Journal 2007, 17, 674–682.
  • Culioli, J.; Sherman, P. Rheological Aspects of the Renneting of Milk Concentrated by Ultrafiltration. Journal of Texture Studies 1978, 9, 257–281.
  • Blecker, C.; Habib-Jiwan, J.-M.; Karoui, R. Effect of Heat Treatment of Rennet Skim Milk Induced Coagulation on the Rheological Properties and Molecular Structure Determined by Synchronous Fluorescence Spectroscopy and Turbiscan. Food Chemistry 2012, 135, 1809–1817.
  • Sousa, M.; Malcata, F. Comparison of Plant and Animal Rennets in Terms of Microbiological, Chemical, and Proteolysis Characteristics of Ovine Cheese. Journal of Agricultural and Food Chemistry 1997, 45, 74–81.
  • Al-Otaibi, M.M.; Wilbey, R.A. Effect of Chymosin Reduction and Salt Substitution on the Properties of White Salted Cheese. International Dairy Journal 2006, 16, 903–909.
  • Hashim, M.M.; Dong, M.; Iqbal, M.F.; Li, W.; Chen, X. Ginger Protease Used as Coagulant Enhances the Proteolysis and Sensory Quality of Peshawari Cheese Compared to Calf Rennet. Dairy Science & Technology 2011, 91, 431–440.
  • Tejada, L.; Abellán, A.; Cayuela, J.; Martínez‐Cacha, A. Sensorial Characteristics during Ripening of the Murcia Al Vino Goat’s Milk Cheese: The Effect of the Type of Coagulant Used and the Size of the Cheese. Journal of Sensory Studies 2006, 21, 333–347.
  • Tejada, L.; Gomez, R.; Fernández‐Salguero, J. Sensory Characteristics of Ewe Milk Cheese Made with Three Types of Coagulant: Calf Rennet, Powdered Vegetable Coagulant and Crude Aqueous Extract from Cynara cardunculus. Journal of Food Quality 2007, 30, 91–103.
  • Puglisi, I.; Petrone, G.; Lo Piero, A.R. Role of Actinidin in the Hydrolysis of the Cream Milk Proteins. Food and Bioproducts Processing 2012, 90, 449–452.
  • Kheir, S.E.O.; El Owni, O.A.O.; Abdalla, M.O.M. Comparison of Quality of Sudanese White Cheese (Gibna bayda) Manufactured with Solanum dubium Fruit Extract and Rennet. Pakistan Journal of Nutrition 2011, 10, 106–111.
  • Yousif, B.H.; McMahon, D.J.; Shammet, K.M. Milk-Clotting Enzyme from Solanum dobium Plant. International Dairy Journal 1996, 6, 637–644.
  • Llorente, B.E.; Obregón, W.D.; Avilés, F.X.; Caffini, N.O.; Vairo-Cavalli, S. Use of Artichoke (Cynara scolymus) Flower Extract as a Substitute for Bovine Rennet in the Manufacture of Gouda-Type Cheese: Characterization of Aspartic Proteases. Food Chemistry 2014, 159, 55–63.
  • Galán, E.; Cabezas, L.; Fernández-Salguero, J. Proteolysis, Microbiology and Sensory Properties of Ewes’ Milk Cheese Produced with Plant Coagulant from Cardoon Cynara cardunculus, Calf Rennet or a Mixture Thereof. International Dairy Journal 2012, 25, 92–96.
  • Tejada, L.; Abellan, A.; Prados, F.; Cayuela, J. Compositional Characteristics of Murcia Al Vino Goat’s Cheese Made with Calf Rennet and Plant Coagulant. International Journal of Dairy Technology 2008, 61, 119–125.
  • Barbosa, M.; Corradini, C.; Battistotti, B. Cheese-Making Experiments Carried Out on Some Italian Cheeses with Vegetable Rennet from Cardo (Cynara cardunculus L.). Scienza E Tecnica Lattiero Casearia 1981.
  • Pelissier, J.; Manchon, P. Comparative Study of the Bitter Taste of Enzymic Hydrolysates from Cow, Ewe and Goat Caseins. Journal of Food Science 1976, 41, 231–233.
  • Tejada, L.; Prados, F.; Vioque, M.; Fernández Salguero, J.; Gómez, R. Evolución De Los Ácidos Grasos Libres Y Esterificados En Quesos De Los Pedroches. Ile: Revista Mensual De Las Industrias Lácteas Españolas 2003, 290, 36–41.
  • Ney, K. Voraussage Der Bitterkeit Von Peptiden Aus Deren Aminosäurezu-Sammensetzung. Zeitschrift Für Lebensmittel-Untersuchung Und Forschung 1971, 147, 64–68.
  • Gomez, M.J.; Garde, S.; Gaya, P.; Medina, M.; Nuñez, M. Relationship between Level of Hydrophobic Peptides and Bitterness in Cheese Made from Pasteurized and Raw Milk. Journal of Dairy Research 1997, 64, 289–297.
  • Visser, S. Bitter Flavour in Cheese. 2. Model Studies on the Formation and Degradation of Bitter Peptides by Proteolytic Enzymes from Calf Rennet, Starter Cells and Starter Cell Fractions. Neth. Milk Dairy J, 1983, 37, 169–180.
  • Gaya, P.; Medina, M.; Rodriguez-Marin, M.; Nunez, M. Accelerated Ripening of Ewes’ Milk Manchego Cheese: The Effect of Elevated Ripening Temperatures. Journal of Dairy Science 1990, 73, 26–32.
  • Lau, K.Y.; Barbano, D.M.; Rasmussen, R.R. Influence of Pasteurization of Milk on Protein Breakdown in Cheddar Cheese during Aging. Journal of Dairy Science 1991, 74, 727–740.
  • Agboola, S.;. Cheesmaking from Ultrafiltered Milk Using Plant Rennet. Australian Journal of Dairy Technology, 2002, 57, 143.
  • Chikpah, S.; Teye, G.; Teye, M.; Mawuli, F. Effects of Different Cconcentrations of Fresh and Dried Calotropis procera (Sodom Apple) Extract on Cow Milk Coagulating Time, Cheese Yield and Organoleptic Properties of West African Soft Cheese (Wagashie). European Scientific Journal 2014, 10.
  • Agboola, S.O.; Chan, H.H.; Zhao, J.; Rehman, A. Can the Use of Australian Cardoon (Cynara cardunculus L.) Coagulant Overcome the Quality Problems Associated with Cheese Made from Ultrafiltered Milk?. LWT-Food Science and Technology 2009, 42, 1352–1359.
  • Khan, R.S.; Masud, T. Comparison of Buffalo Cottage Cheese Made from Aqueous Extract of Withania coagulans with Commercial Calf Rennet. International Journal of Dairy Technology 2013, 66, 396–401.
  • Roseiro, M.L.B. Traditional Ewe’s milk cheesemaking and the production of Requeijão. MSc Thesis, Department of Food Science and Technology, The University of Reading, Portugal, 1990.

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