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Rheological properties of whey protein/gum arabic coacervates
1.Arneodo, C. , J.-P. Benoit, and C. Thies, “Characterization of complex coacervates used to form microencapsulation,” Polym. Mater. Sci. Eng. 57, 255–259 (1987).
2.Baeza, R. I. , D. J. Carp, O. E. Pérez, and A. M. R. Pilosof, “κ-carrageenan-protein interactions: Effect of proteins on polysaccharide gelling and textural properties,” Lebensm.-Wiss. Technol. 35, 741–747 (2002).
3.Bakker, M. A. E., M. M. G. Konig, and J. Visser, “Fatty Ingredient,” World Patent Application WO94/14334 (1994).
4.Burgess, D. J., Complex Coacervation: Microcapsule Formation, Macromolecular Complexes in Chemistry and Biology, edited by Dubin et al. (Springer, Berlin, 1994), pp. 285–300.
5.Daniels, R. , and E. M. Mittermaier, “Influence of adjustment on microcapsules obtained from complex coacervation of gelatin and acacia,” J. Microencapsulo 12, 591–599 (1995).
6.de Rooij, R., “Rheology of weakly aggregating polystyrene latex dispersions,” Ph.D. thesis, Twente University, The Netherlands, 1994.
7.Dziezak, J. D. , “Fat, oils, and fat substitutes,” J. Food Technol. 7, 66–74 (1989).
8.Gurov, A. N. , and P. V. Nuss, “Protein-polysaccharide complexes as surfactants,” Die Nahrung 30, 349–353 (1986).
9.Kester, J. J. , and O. R. Fennema, “Edible films and coatings: a review,” J. Food Technol. 40, 47–59 (1986).
10.Leisner, L. , and T. Imae, “Interpolyelectrolyte complex and coacervate formation of poly(glutamic acid) with a dendrimer studied by light scattering and SAXS,” J. Phys. Chem. B 107, 8078–8087 (2003).
11.Luzzi, L. A. , “Microencapsulation,” J. Pharm. Sci. 59, 1367–1376 (1970).
12.Macosko, C. W., Rheology: Principles, Measurements and Applications (Wiley, New York, 1993), Vol. 1.
13.Mann, B. , and R. C. Malik, “Studies on some functional characteristics of whey proteins-polysaccharide complex,” Food Sci. Technol. (London) 33, 202–206 (1996).
14.Morris, K. F. , and C. S. Johnson, Jr., “Resolution of discrete and continuous molecular size distributions by means of diffusion-ordered 2D NMR spectroscopy,” J. Am. Ceram. Soc. 115, 4291–4299 (1993).
15.Ould Eleya, M. M. , and S. L. Turgeon, “The effects of on the rheology of β-lacglobulin/κ-carrageenan mixed gels,” Food Hydrocolloids 14, 245–251 (2000).
16.Overbeek, J. T. G. , and M. J. Voorn, “Phase separation in polyelectrolyte solutions. Theory of complex coacervation,” J. Cell. Comp. Physiol. 49, 7–26 (1957).
17.Russel, W. B. , “The Huggins coefficient as a means for characterizing suspended particles,” J. Chem. Soc., Faraday Trans. 2 80, 31–41 (1984).
18.Sánchez, V. B. , G. B. Bartholomai, and A. M. R. Pilosof, “Rheological properties of food gums as related to water binding capacity and soy protein interaction,” Lebensm.-Wiss. Technol. 28, 380–385 (1995).
19.Sanchez, C. , G. Mekhloufi, C. Schmitt, D. Renard, P. Robert, C.-M. Lehr, A. Lamprecht, and J. Hardy, “Self-assembly of β-lactoglobulin and acacia gum in aqueous solvent: structure and phase-ordering kinetics,” Langmuir 18, 10323–10333 (2002a).
20.Sanchez, C. , D. Renard, P. Robert, C. Schmitt, and J. Lefebvre, “Structure and rheological properties of acacia gum dispersions,” Food Hydrocolloids 16, 257–267 (2002b).
21.Schmitt, C. , C. Sanchez, S. Desobry-Banon, and J. Hardy, “Structure and technofunctional properties of protein-polysaccharide complexes: a review,” Crit. Rev. Food Sci. Nutr. 38, 689–753 (1998).
22.Schmitt, C. , C. Sanchez, A. Lamprecht, D. Renard, C.-M. Lehr, C. G. de Kruif, and J. Hardy, “Study of β-lactoglobulin/acacia gum complex coacervation by diffusing wave spectroscopy and confocal scanning laser microscopy,” Colloids Surf., B 20, 267–280 (2001).
23.Serov, A. V. , Yu. A. Antonov, and V. B. Tolstoguzov, “Isolation of lactic whey proteins in the form of complexes with apple pectin,” Nahrung 1, 19–30 (1985).
24.Tainaka, K. , “Study of complex coacervation in low concentration by virial expansion method. I. Salt free systems,” J. Phys. Soc. Jpn. 46, 1899–1906 (1979).
25.Tarr, B. D., and S. H. Bixby, “Fat substitute,” US Patent No. 5,393,550 (1995).
26.Thomassin, C. , H. P. Merkle, and B. A. Gander, “Physico-chemical parameters governing protein microencapsulation into biodegradable polyesters by coacervation,” Int. J. Pharm. 147, 173–186 (1997).
27.Tolstoguzov, V. B., D. B. Izjumov, V. Y. Grinberg, A. N. Marusova, and V. T. Chekhovskaya, “Method of making protein-containing foodstuffs resembling minced-meat,” US Patent No. 3,829,587 (1974).
28.Turgeon, S. L. , M. Beaulieu, C. Schmitt, and C. Sanchez, “Protein-polysaccharide interactions: phase-ordering kinetics, thermodynamic and structural aspects,” Curr. Opin. Colloid Interface Sci. 8, 401–414 (2003).
29.Veis, A. , and C. Aranyi, “Phase separation in polyelectrolyte systems. I. Complex coacervates of gelatine,” J. Phys. Chem. 64, 1203–1210 (1960).
30.Wang, Y.-F. , J. Y. Gao, and P. L. Dubin, “Protein separation via polyelectrolyte coacervation: selectivity and efficiency,” Biotechnol. Prog. 12, 356–362 (1996).
31.Weinbreck, F. , R. de Vries, P. Schrooyen, and C. G. de Kruif, “Complex coacervation of whey proteins and gum arabic,” Biomacromolecules 4, 293–303 (2003a).
32.Weinbreck, F. , H. Nieuwenhuijse, G. W. Robijn, and C. G. de Kruif, “Complex formation of whey protein/exocellular polysaccharide EPS B40,” Langmuir 19, 9404–9410 (2003b).
33.Weinbreck, F., and C. G. de Kruif, Complex Coacervation of Globular Proteins and Gum Arabic, Food Colloids Biopolymers and Materials, edited by E. Dickinson and T. van Vliet (Royal Society of Chemistry, Cambridge, 2003), pp. 337–344.
34.Weinbreck, F. , H. S. Rollema, R. H. Tromp, and C. G. de Kruif, “Diffusivity of whey protein and gum arabic in their coacervates,” Langmuir 20, 6389–6395 (2004a).
35.Weinbreck, F. , R. H. Tromp, and C. G. de Kruif, “Composition and structure of whey protein/gum arabic coacervates,” Biomacromolecules 5, 1437–1445 (2004b).
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