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Articles

The emulsifying properties of Persian gum (Amygdalus scoparia Spach) as compared with gum Arabic

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Pages 416-436 | Received 22 Aug 2017, Accepted 15 Mar 2018, Published online: 20 Apr 2018

References

  • McClements, D. J.;. Food Emulsions: Principles, Practices, and Techniques; CRC Press, USA: Florida, Boca Paton, 2004.
  • Dickinson, E.;. Hydrocolloids as Emulsifiers and Emulsion Stabilizers. Food Hydrocolloids 2009, 23, 1473–1482. DOI: 10.1016/j.foodhyd.2008.08.005.
  • Hosseini-Parvar, S. H.; Osano, J. P.; Matia-Merino, L. Emulsifying Properties of Basil Seed Gum: Effect of pH and Ionic Strength. Food Hydrocolloids 2016, 52, 838–847. DOI: 10.1016/j.foodhyd.2015.09.002.
  • Dickinson, E.;. Hydrocolloids at Interfaces and the Influence on the Properties of Dispersed Systems. Food Hydrocolloids 2003, 17, 25–39. DOI: 10.1016/S0268-005X(01)00120-5.
  • Verbeken, D.; Dierckx, S.; Dewettinck, K. Exudate Gums: Occurrence, Production, and Applications. Applied Microbiology and Biotechnology 2003, 63, 10–21. DOI: 10.1007/s00253-003-1354-z.
  • Garti, N.; Leser, M. E. Emulsification Properties of Hydrocolloids. Polymers for Advanced Technologies 2001, 12, 123–135. DOI: 10.1002/1099-1581(200101/02)12:1/2<>1.0.CO;2-L.
  • Fadavi, G.; Mohammadifar, M.; Zargaran, A.; Azadnia, E. The Study of Composition, Molecular Weight and Rheological Characteristics of Zedo Gum Exudates from Amygdalus Scoparia. Iranian Journal of Nutrition Sciences & Food Technology 2014, 7, 35–40.
  • Golkar, A.; Nasirpour, A.; Keramat, J. β-lactoglobulin-Angum Gum (Amygdalus Scoparia Spach) Complexes: Preparation and Emulsion Stabilization. Journal of Dispersion Science and Technology 2015, 36, 685–694. DOI: 10.1080/01932691.2014.919587.
  • Golkar, A.; Nasirpour, A.; Keramat, J. Emulsifying Properties of Angum Gum (Amygdalus Scoparia Spach) Conjugated to β-lactoglobulin through Maillard-Type Reaction. International Journal of Food Properties 2015, 18, 2042–2055. DOI: 10.1080/10942912.2014.962040.
  • Abbasi, S.; Mohammadi, S. Stabilization of Milk–Orange Juice Mixture Using Persian Gum: Efficiency and Mechanism. Food Bioscience 2013, 2, 53–60. DOI: 10.1016/j.fbio.2013.04.002.
  • Fadavi, G.; Mohammadifar, M. A.; Zargarran, A.; Mortazavian, A. M.; Komeili, R. Composition and Physicochemical Properties of Zedo Gum Exudates from Amygdalus Scoparia. Carbohydrate Polymers 2014, 101, 1074–1080. DOI: 10.1016/j.carbpol.2013.09.095.
  • Gasempour, Z.; Alizadeh, M.; Bari, M. R. Optimisation of Probiotic Yoghurt Production Containing Zedo Gum. The International Journal of Dairy Technology 2012, 65, 118–125. DOI: 10.1111/j.1471-0307.2011.00740.x.
  • Jafari, S. M.; Beheshti, P.; Assadpoor, E. Rheological Behavior and Stability of D-Limonene Emulsions Made by a Novel Hydrocolloid (Angum Gum) Compared with Arabic Gum. Journal of Food Engineering 2012, 109, 1–8. DOI: 10.1016/j.jfoodeng.2011.10.016.
  • Jafari, S. M.; Beheshti, P.; Assadpour, E. Emulsification Properties of a Novel Hydrocolloid (Angum Gum) for D-Limonene Droplets Compared with Arabic Gum. International Journal of Biological Macromolecules 2013, 61, 182–188. DOI: 10.1016/j.ijbiomac.2013.06.028.
  • Golkar, A.; Nasirpour, A.; Keramat, J. Production of Reduced-Fat Mayonnaise Using Electrostatic and Covalent Complexes of β-lactoglobulin and Farsi Gum. Iranian Journal of Nutrition Sciences & Food Technology 2015, 10, 103–114.
  • Hashtjin, A. M.; Abbasi, S. Nano-Emulsification of Orange Peel Essential Oil Using Sonication and Native Gums. Food Hydrocolloids 2015, 44, 40–48. DOI: 10.1016/j.foodhyd.2014.08.017.
  • Azarikia, F.; Abbasi, S. Mechanism of Soluble Complex Formation of Milk Proteins with Native Gums (Tragacanth and Persian Gum). Food Hydrocolloids 2015, 59, 35–44. DOI: 10.1016/j.foodhyd.2015.10.018.
  • Hadian, M.; Hosseini, S. M. H.; Farahnaky, A.; Mesbahi, G. R.; Yousefi, G. H.; Saboury, A. A. Isothermal Titration Calorimetric and Spectroscopic Studies of β-lactoglobulin–Water-soluble Fraction of Persian Gum Interaction in Aqueous Solution. Food Hydrocolloids 2015, 55, 108–118. DOI: 10.1016/j.foodhyd.2015.11.006.
  • Khalesi, H.; Emadzadeh, B.; Kadkhodaee, R.; Fang, Y. Effects of Biopolymer Ratio and Heat Treatment on the Complex Formation between Whey Protein Isolate and Soluble Fraction of Persian Gum. Journal of Dispersion Science and Technology 2016, 38, 1234–1241. DOI: 10.1080/01932691.2016.1230064.
  • Khalesi, H.; Emadzadeh, B.; Kadkhodaee, R.; Fang, Y. Whey Protein isolate-Persian Gum Interaction at Neutral pH. Food Hydrocolloids 2015, 59, 45–49. DOI: 10.1016/j.foodhyd.2015.10.017.
  • Raoufi, N.; Fang, Y.; Kadkhodaee, R.; Phillips, G. O.; Najafi, M. N. Changes in Turbidity, Zeta Potential and Precipitation Yield Induced by Persian Gum‐Whey Protein Isolate Interactions during Acidification. Journal of Food Processing and Preservation 2016, 41, 1–8.
  • AOAC. Official Methods of Analysis, 17; Washington, DC: Association of Official Analytical Chemists, USA, 2003.
  • Mishra, S.; Mann, B.; Joshi, V. Functional Improvement of Whey Protein Concentrate on Interaction with Pectin. Food Hydrocolloids 2001, 15, 9–15. DOI: 10.1016/S0268-005X(00)00043-6.
  • Lee, P.-E.; Choo, W.-S. Characterization of Flaxseed Oil Emulsions. The Journal of Food Science and Technology 2014, 52, 1–9.
  • Yebeyen, D.; Lemenih, M.; Feleke, S. Characteristics and Quality of Gum Arabic from Naturally Grown Acacia Senegal (Linne) Willd. Trees in the Central Rift Valley of Ethiopia. Food Hydrocolloids 2009, 23, 175–180. DOI: 10.1016/j.foodhyd.2007.12.008.
  • Fathi, M.; Mohebbi, M.; Koocheki, A. Introducing Prunus Cerasus Gum Exudates: Chemical Structure, Molecular Weight, and Rheological Properties. Food Hydrocolloids 2016, 61, 946–955. DOI: 10.1016/j.foodhyd.2016.07.004.
  • Fathi, M.; Mohebbi, M.; Koocheki, A. Some Physico-Chemical Properties of Prunus Armeniaca L. Gum Exudates. International Journal of Biological Macromolecules 2016, 82, 744–750. DOI: 10.1016/j.ijbiomac.2015.09.068.
  • Malsawmtluangi, C.; Thanzami, K.; Lalhlenmawia, H.; Selven, V.; Palanisamy, S.; Kandasamy, R.; Pachuau, L. Physicochemical Characteristics and Antioxidant Activity of Prunus Cerasoides D. Don Gum Exudates. International Journal of Biological Macromolecules 2014, 69, 192–199. DOI: 10.1016/j.ijbiomac.2014.05.050.
  • Bouaziz, F.; Koubaa, M.; Helbert, C. B.; Kallel, F.; Driss, D.; Kacem, I.; Ghorbel, R.; Chaabouni, S. E. Purification, Structural Data and Biological Properties of Polysaccharide from Prunus Amygdalus Gum. International Journal of Food Science and Technology 2015, 50, 578–584. DOI: 10.1111/ijfs.2015.50.issue-3.
  • Mahfoudhi, N.; Chouaibi, M.; Donsı`, F.; Ferrari, G.; Hamdi, S. Chemical Composition and Functional Properties of Gum Exudates from the Trunk of the Almond Tree (Prunus Dulcis). Food Science and Technology International 2012, 18, 241–250. DOI: 10.1177/1082013211415173.
  • Milani, J.; Ghanbarzadeh, B.; Maleki, G. Rheological Properties of Anghouzeh Gum. International Journal of Food Engineering 2012, 8, DOI: 10.1515/1556-3758.2071.
  • Mcclements, D. J.;. Critical Review of Techniques and Methodologies for Characterization of Emulsion Stability. Critical Reviews in Food Science and Nutrition 2007, 47, 611–649. DOI: 10.1080/10408390701289292.
  • Huang, X.; Kakuda, Y.; Cui, W. Hydrocolloids in Emulsions: Particle Size Distribution and Interfacial Activity. Food Hydrocolloids 2001, 15, 533–542. DOI: 10.1016/S0268-005X(01)00091-1.
  • Wu, Y.; Cui, W.; Eskin, N.; Goff, H. An Investigation of Four Commercial Galactomannans on Their Emulsion and Rheological Properties. Food Research International 2009, 42, 1141–1146. DOI: 10.1016/j.foodres.2009.05.015.
  • Abdolmaleki, K.; Mohammadifar, M. A.; Mohammadi, R.; Fadavi, G.; Meybodi, N. M. The Effect of pH and Salt on the Stability and Physicochemical Properties of Oil-In-Water Emulsions Prepared with Gum Tragacanth. Carbohydrate Polymers 2016, 140, 342–348. DOI: 10.1016/j.carbpol.2015.12.081.
  • Castel, V.; Rubiolo, A. C.; Carrara, C. R. Droplet Size Distribution, Rheological Behavior and Stability of Corn Oil Emulsions Stabilized by a Novel Hydrocolloid (Brea Gum) Compared with Gum Arabic. Food Hydrocolloids 2017, 63, 170–177. DOI: 10.1016/j.foodhyd.2016.08.039.
  • McNamee, B. F.; O’Riorda, E. D.; O’Sullivan, M. Emulsification and Microencapsulation Properties of Gum Arabic. The Journal of Agricultural and Food Chemistry 1998, 46, 4551–4555. DOI: 10.1021/jf9803740.
  • Qian, C.; Decker, E. A.; Xiao, H.; McClements, D. J. Comparison of Biopolymer Emulsifier Performance in Formation and Stabilization of Orange Oil-In-Water Emulsions. Journal of the American Oil Chemists’ Society 2011, 88, 47–55. DOI: 10.1007/s11746-010-1658-y.
  • Shao, P.; Shao, J.; Jiang, Y.; Sun, P. Influences of Ulva Fasciata Polysaccharide on the Rheology and Stabilization of Cinnamaldehyde Emulsions. Carbohydrate Polymers 2016, 135, 27–34. DOI: 10.1016/j.carbpol.2015.08.075.
  • Al-Assaf, S.; Sakata, M.; McKenna, C.; Aoki, H.; Phillips, G. O. Molecular Associations in Acacia Gums. Structural Chemistry 2009, 20, 325–336. DOI: 10.1007/s11224-009-9430-3.
  • Osano, J. P.; Hosseini-Parvar, S. H.; Matia-Merino, L.; Golding, M. Emulsifying Properties of a Novel Polysaccharide Extracted from Basil Seed (Ocimum Bacilicum L.): Effect of Polysaccharide and Protein Content. Food Hydrocolloids 2014, 37, 40–48. DOI: 10.1016/j.foodhyd.2013.09.008.
  • Vasile, F. E.; Martinez, M. J.; Ruiz-Henestrosa, V. M. P.; Judis, M. A.; Mazzobre, M. F. Physicochemical, Interfacial and Emulsifying Properties of a Non-Conventional Exudate Gum (Prosopis Alba) in Comparison with Gum Arabic. Food Hydrocolloids 2016, 56, 245–253. DOI: 10.1016/j.foodhyd.2015.12.016.
  • Guzey, D.; McClements, D. J. Impact of Electrostatic Interactions on Formation and Stability of Emulsions Containing Oil Droplets Coated by β-lactoglobulin− Pectin Complexes. The Journal of Agricultural and Food Chemistry 2007, 55, 475–485. DOI: 10.1021/jf062342f.
  • Chanamai, R.; McClements, D. Comparison of Gum Arabic, Modified Starch, and Whey Protein Isolate as Emulsifiers: Influence of pH, CaCl2 and Temperature. The Journal of Food Science 2006, 67, 120–125. DOI: 10.1111/j.1365-2621.2002.tb11370.x.
  • Nakauma, M.; Funami, T.; Noda, S.; Ishihara, S.; Al-Assaf, S.; Nishinari, K.; Phillips, G. O. Comparison of Sugar Beet Pectin, Soybean Soluble Polysaccharide, and Gum Arabic as Food Emulsifiers. 1. Effect of Concentration, pH, and Salts on the Emulsifying Properties. Food Hydrocolloids 2008, 22, 1254–1267. DOI: 10.1016/j.foodhyd.2007.09.004.