Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-07-03T01:18:28.317Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of heating and calcium and phosphate mineral supplementation on the physical properties of rennet-induced coagulation of camel and cow milk gels

Published online by Cambridge University Press:  19 May 2017

Mohammad Kamal ,
Mohammed Foukani  and
Romdhane Karoui
Mohammad Kamal
Affiliation:
Univ. Artois, EA 7394, Institut Charles VIOLLETTE, Lens, F-62300, France
Mohammed Foukani
Affiliation:
ISA Lille, EA 7394, Institut Charles VIOLLETTE, Lille, F-59000, France
Romdhane Karoui*
Affiliation:
Univ. Artois, EA 7394, Institut Charles VIOLLETTE, Lens, F-62300, France ISA Lille, EA 7394, Institut Charles VIOLLETTE, Lille, F-59000, France Ulco, EA 7394, Institut Charles VIOLLETTE, Boulogne sur Mer, F-62200, France Univ. Lille, EA 7394, Institut Charles VIOLLETTE, Lille, F-59000, France
*
*For correspondence; e-mail: romdhane.karoui@univ-artois.fr
Get access Rights & Permissions [Opens in a new window]

Abstract

The physical properties of rennet-induced coagulation of preheated camel and cow milk gels (50 and 70 °C for 10 min) enriched with calcium chloride (CaCl2) and hydrogen phosphate dihydrate (Na2HPO42H2O) were evaluated using the dynamic low amplitude oscillatory shear analysis. The storage modulus (Gʹ) and loss modulus (Gʺ) of camel milk gels showed significant (P < 0·05) lower values than those of cow milk gels. The preheating of camel milk at 50 °C affected negatively the gelation properties, while the preheating at 70 °C prevented the formation of rennet-induced milk gels. No effect was observed on the gelation properties of cow milk gels. The CaCl2 added at 10 and 20 mM to preheated camel and cow milk reduced significantly (P < 0·05) the gelation time and increased the gel firmness. In contrast, Na2HPO42H2O added at 10 and 20 mM induced the formation of weak gels for preheated camel and cow milk at 50 °C, and even no gelation for preheated camel milk at 70 °C.

Keywords

Rheologycoagulationmilkheat treatmentmineral salts
Type
Research Article
Information
Journal of Dairy Research , Volume 84 , Issue 2 , May 2017 , pp. 220 - 228
Copyright
Copyright © Proprietors of Journal of Dairy Research 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Al haj, OA & Al Kanhal, HA 2010 Compositional, technological and nutritional aspects of dromedary camel milk. International Dairy Journal 20 811821 Google Scholar
Blecker, C, Habib-Jiwan, J-M & Karoui, R 2012 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 135 18091817 Google Scholar
Bornaz, S, Sahli, A, Attalah, A & Attia, H 2009 Physicochemical characteristics and renneting properties of camels’ milk: a comparison with goats’, ewes’ and cow milks. International Journal of Dairy Technology 62 505513 Google Scholar
Donato, L & Guyomarc'h, F 2009 Formation and properties of the whey protein/κ-casein complexes in heated skim milk – A review. Dairy Science and Technology 89 329 Google Scholar
El-Agamy, EI, Nawar, M, Shamsia, SM, Awad, S & Haenlein, GFW 2009 Are camel milk proteins convenient to the nutrition of cow milk allergic children. Small Ruminant Research 82 16 CrossRefGoogle Scholar
El Zubeir, IEM & Jabreel, SO 2008 Fresh cheese from camel milk coagulated with Camifloc. International Journal of Dairy Technology 61 9095 CrossRefGoogle Scholar
Farah, Z & Atkins, B 1992 Heat coagulation of camel milk. Journal of Dairy Research 59 229231 Google Scholar
Farah, Z & Bachmann, MR 1987 Rennet coagulation properties of camel milk. Milchwissenschaft 42 689692 Google Scholar
Felfoul, I, Jardin, J, Gaucheron, F, Attia, H & Ayadi, MA 2017 Proteomic profiling of camel and cow milk proteins under heat treatment. Food Chemistry 216 161169 Google Scholar
Glantz, M, Devold, TG, Vegarud, GE, Lindmark-Månsson, H, Stålhammar, H & Paulsson, M 2010 Importance of casein micelle size and milk composition for milk gelation. Journal of Dairy Science 93 14441451 Google Scholar
Griffin, MCA & Griffin, WC 1985 A simple turbidimetric method for the determination of the refractive index of large colloidal particles applied to casein micelles. Journal of Colloid and Interface Science 104 409415 Google Scholar
Guillaume, C, Gastaldi, E, Cuq, J-L & Marchesseau, S 2004 Rennet-induced gelation of calcium and phosphate supplemented skim milk subjected to CO2 treatment. Journal of Dairy Science 87 32093216 Google Scholar
Gustavsson, F, Glantz, M, Buitenhuis, AJ, Lindmark-Månsso, H, Stålhammar, H, Andren, A & Paulsson, M 2014 Factors influencing chymosin-induced gelation of milk from individual dairy cows: major effects of casein micelle size and calcium. International Dairy Journal 39 201208 Google Scholar
Hattem, HE, Manal, AN, Hanna, SS & Elham, AA 2011 A study on the effect of thermal treatment on composition and some properties of camel milk. Slovak Journal of Animal Science 44 97102 Google Scholar
Kappeler, S 1998 Compositional and structural analysis of camel milk proteins with emphasis on protective proteins. PhD Thesis, pp. 137. Swiss Federal Institute of Technology, Zürich, Switzerland Google Scholar
Kappeler, S, Farah, Z & Puhan, Z 1998 Sequence analysis of Camelus dromedarius milk caseins. Journal of Dairy Research 65 209222 CrossRefGoogle ScholarPubMed
Karoui, K & Dufour, É 2003 Dynamic testing rheology and fluorescence spectroscopy investigations of surface to centre differences in ripened soft cheeses. International Dairy Journal 13 973985 CrossRefGoogle Scholar
Klandar, AH, Lagaude, A & Chevalier-Lucia, D 2007 Assessment of the rennet coagulation of skim milk: a comparison of methods. International Dairy Journal 17 11511160 Google Scholar
Kljajevic, NV, Jovanovic, ST, Miloradovic, ZN, Macej, OD, Vucic, TR & Zdravkovic, IR 2016 Influence of the frozen storage period on the coagulation properties of caprine milk. International Dairy Journal 58 3638 Google Scholar
Lapasin, R & Pricl, S 1995 Rheology of Industrial Polysaccharides: Theory and Applications, 1st edn, chapter. 4, Rheology of polysaccharide systems, pp. 250494 (Eds Lapasin, R & Pricl, S). Glasgow, UK: Blackie Academic and Professional Google Scholar
Lewis, MJ 2011 The measurement and significance of ionic calcium in milk – a review. International Journal of Dairy Technology 64 113 Google Scholar
Lucey, JA, Teo, CT, Munro, PA & Singh, H 1997 Rheological properties at small (dynamic) and large (yield) deformations of acid gels made from heated milk. Journal of Dairy Research 64 591600 Google Scholar
Lucey, JA, Munro, PA & Singh, H 1998 Rheological properties and microstructure of acid milk gels as affected by fat content and heat treatment. Journal of Food Science 63 660664 CrossRefGoogle Scholar
Lucey, JA, Munro, PA & Singh, H 1999 Effects of heat treatment and whey protein addition on the rheological properties and structure of acid skim milk gels. International Dairy Journal 9 275279 Google Scholar
Montilla, A, Balcones, E, Olano, A & Calvo, MM 1995 Influence of heat treatments on whey protein denaturation and rennet clotting properties of cow's and goat's milk. Journal of Agriculture and Food Chemistry 43 19081911 Google Scholar
Niki, R, Kim, GY, Kimura, T, Takahashi, K, Kohyama, K & Nishinari, K 1994 Physical properties and microstructure of rennet gels from casein micelles of different sizes. Milchwissenschaft 49 325329 Google Scholar
Ozcan, T, Lucey, JA & Horne, DS 2008 Effect of tetrasodium pyrophosphate on the physicochemical properties of yogurt gels. Journal of Dairy Science 91 44924500 Google Scholar
Pomprasirt, V, Singh, H & Lucey, JA 1998 Effect of heat treatment on the rennet coagulation properties of recombined high total solids milk made from milk protein concentrate powder. International Journal of Dairy Technology 51 6571 Google Scholar
Ramasubramanian, L, D'Arcy, BR, Deeth, HC & Eustina, OH 2014 The rheological properties of calcium-induced milk gels. Journal of Food Engineering 130 4551 Google Scholar
Ramet, JP 2001 The Technology of Making Cheese from Camel Milk (Camelus Dromedary). Animal Production and Health Paper, No. 113. Rome, Italy: Food and Agriculture Organization Google Scholar
Renault, C, Gastaldi, E, Cuq, JL & Tarodo de la Fuente, B 2000 Effect of temperature of milk acidification on rennet gel properties. Journal of Food Science 65 630634 CrossRefGoogle Scholar
Riou, E, Havea, P, McCarthy, O, Watkinson, P & Singh, H 2011 Behavior of protein in the presence of calcium during heating of whey protein concentrate solutions. Journal of Agricultural and Food Chemistry 59 1315613164 CrossRefGoogle ScholarPubMed
Sandra, S, Ho, M, Alexander, M & Corredig, M 2012 Effect of soluble calcium on the renneting properties of casein micelles as measured by rheology and diffusing wave spectroscopy. Journal of Dairy Science 95 7582 Google Scholar
Shori, AB 2015 Camel milk as a potential therapy for controlling diabetes and its complications: a review of in vivo studies. Journal of Food and Drug Analysis 23 609618 Google Scholar
Tsioulpas, A, Koliandris, A, Grandison, AS & Lewis, MJ 2010 Effects of stabiliser addition and in-container sterilisation on selected properties of milk related to casein micelle stability. Food Chemistry 122 10271034 Google Scholar
Udabage, P, McKinnon, IR & Augustin, MA 2001 Effects of mineral salts and calcium chelating agents on the gelation of renneted skin milk. Journal of Dairy Science 84 15691575 Google Scholar
Vasbinder, AJ, Rollema, HS & de Kruif, CG 2003 Impaired rennetability of heated milk; study of enzymatic hydrolysis and gelation kinetics. Journal of Dairy Science 86 15481555 Google Scholar