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References
AOAC (1980). Official methods of analysis of the Association of Official Analytical Chemists. (13th Ed.). Washington DC, USA. | ||||
Agbenorhevi JK, Kontogiorgos V (2010). Polysaccharide determination in protein/polysaccharide mixtures for phase-diagram construction. Carbohydr. Polym. 81(4): 849-854. Crossref |
||||
Andrade RJ, Azevedo AG, Musampa RM, Maia JM (2010). Thermo-rheological behavior of model protein-polysaccharide mixtures. Rheol. Acta 49(4):401-410. Crossref |
||||
Bazinet L, Trigui M, Ippersiel D (2004). Rheological behavior of WPI dispersion as a function of pH and protein concentration. J. Agric. Food. Chem. 52:5366-5371. Crossref |
||||
Cakir E, Foegeding EA (2011). Combining protein micro-phase separation and protein-polysaccharide segregative phase separation to produce gel structures. Food Hydrocolloid. 25: 1538-1546. Crossref |
||||
Chen XP, Cui JA, Wang YH, Wang LM, Hu YH (2005). Observation of health care effect of Oviducts ranae capsule on fatigue resistance. J. Jilin Agr. Univ. 25:225-228. | ||||
Chhabra RP, Richardson JF (2011). Non-Newtonian fluid behavior. In: Non-Newtonian flow and applied rheology: engineering applications (edited by Chhabra RP, Richardson JF), pp. 13-14, Elsevier, London, UK. | ||||
Chiou BS, Avena-Bustillos RJ, Shey J, Yee E, Bechtel PJ, Imam SH, Glenn GM, Orts WJ (2006). Rheological and mechanical properties of cross-linked fish gelatins. Polym. 47(18):6379-6386. Crossref |
||||
Dokic L, Dapcevic T, Krstonosic V, Dokic P, Hadnadev M (2010). Rheological characterization of corn starch isolated by alkali method. Food Hydrocolloid. 24:172-177. Crossref |
||||
Dubois M, Gilles KA, Hamilton JK, Rebers PA, Smith F (1956). Colorimetric method for determination of sugars and related substances. Anal. Chem. 28(3):350-356. Crossref |
||||
Girard M, Turgeon SL, Paquin P (2002). Emulsifying properties of whey protein-carboxymethylcellulose complexes. J. Food Sci. 67: 113-119. Crossref |
||||
Hu X, Liu CB, Chen XP, Wang LM (2003). Main mourishment components of Oviductus ranae. J. Jilin Agr. Univ. 25: 218-220. | ||||
Karazhiyan H, Razavi SMA, Phillips GO, Fang Y, Al-Assaf S, Nishinari K, Farhoosh R (2009). Rheological properties of Lepidium sativum seed extract as a function of concentration, temperature and time. Food Hydrocolloid. 23:2062-2068. Crossref |
||||
Kerry JF, Morrissey PA, Buckley DJ (1999). The rheological properties of exudates from cured porcine muscle: effects of added polysaccharides and whey protein/polysaccharide blends. J. Sci. Food Agric. 79:1260-1266. Crossref |
||||
Lai G, Li Y, Li G (2008). Effect of concentration and temperature on the rheological behavior of collagen solution. Int. J. Biol. Macromol. 42: 285-291. Crossref |
||||
Li YY, Zheng WX, Su XR, Wang RX, Shi G (2008). Study on antioxidant activities of Oviductus Ranae of Rana temporaria chensinensis David and its hydrolysate. Food Sci. 29:619-621. | ||||
Liang Q, Zhang SQ, Zhang, JS (2012). Rheological behavior and microstructure of Oviductus Ranae hydrogels. Food Sci. Biotechnol. 21(2): 467-474. Crossref |
||||
Liu Y, Liu LX (2007). Ingredient and pharmacology research progress of Oviductus Ranae. Strait Pharm. J. 19: 1-3. | ||||
Miquelim JN, Lannes SCS, Mezzenga R (2010). pH Influence on the stability of foams with protein-polysaccharide complexes at their interfaces. Food Hydrocolloid. 24:398-405. Crossref |
||||
Mohamed A, Xu JY (2003). Effect of ionic strength and pH on the thermal and rheological properties of soy protein-amylopectin blend. Food Chem. 83:227-236. Crossref |
||||
Moraes ICF, Carvalho RA, Bittante AMQB, Solorza-Feria J, Sobral PJA (2009). Film forming solutions based on gelatin and poly(vinyl alcohol) blends: Thermal and rheological characterizations. J. Food Eng. 95: 588-596.Rao MA (2007). Flow and functional models for rheological properties of fluid foods. In: Rheological of fluids and semisolids, principles and applications (edited by Rao MA), pp. 27–58, Springer, New York, USA. | ||||
Ribotta PD, Colombo A, Leon AE, Anon MC (2007). Effects of soy protein on physical and rheological properties of wheat starch. Starch-Starke 59:614-623. Crossref |
||||
Romero A, Cordobes F, Puppo MC, Villanueva A, Pedroche J, Guerrero A (2009). Linear viscoelasticity and microstructure of heat-induced crayfish protein isolate gels. Food Hydrocolloid. 23:964-972. Crossref |
||||
Schmitt C, Sanchez C, Desobry-Banon S, Hardy J (1998). Structure and technofunctional properties of protein-polysaccharide complexes: a review. Crit. Rev. Food Sci. Nutri. 38:689-753. Crossref |
||||
Tadpitchayangkoon P, Park JW, Yongsawatdigul J (2010). Conformational changes and dynamic rheological properties of fish sarcoplasmic proteins treated at various pHs. Food Chem. 121: 1046-1052. Crossref |
||||
Tang YF, Du YM, Hu XW, Shi XW, Kennedy JF (2007). Rheological characterisation of a novel thermosensitive chitosan/poly(vinyl alcohol) blend hydrogel. Carbohydr. Polym. 67:491-499. Crossref |
||||
Tischer PCSF, Noseda MD, Alves de Freitas R, Sierakowski MR, Duarte MER (2006). Effects of iota-carrageenan on the rheological properties of starches. Carbohydr. Polym. 65:49-57. Crossref |
||||
Totosaus A, Montejano JG, Salazar JA, Guerrero I (2002). A review of physical and chemical protein-gel induction. Int. J. Food Sci. Technol. 37:589-601. Crossref |
||||
Turgeon SL, Beaulieu M, Schmitt C, Sanchez C (2003). Protein-polysaccharide interactions: phase-ordering kinetics, thermodynamic and structural aspects. Curr. Opin. Colloid Interface Sci. 8:401-414. Crossref |
||||
van den Berg L, van Vliet T, van der Linden E, van Boekel MAJS, van de Velde F (2008). Physical properties giving the sensory perception of whey proteins/ polysaccharide gels. Food Biophys. 3: 198-206. Crossref |
||||
Venugopal V, Kakatkar A, Bongirwar DR, Karthikeyan M, Mathew S, Shamasundar BA (2002). Gelation of shark meat under mild acidic conditions: Physicochemical and rheological characterization of the gel. J. Food Sci. 67:2681-2686. Crossref |
||||
Wang X, Chen L, Li X, Xie F, Liu H, Yu L (2011). Thermal and rheological properties of breadfruit starch. J Food Sci. 76: E55-E61. Crossref |
||||
Yang SH, Zhao Y, Zhang M, Wang H, Zhang X (2011). Pharmacological research on water-soluble protein of Oviductus Ranae. Food Sci. Technol. 08:54-56. | ||||
Zheng WX, Su XR, Wu ZY, Lin Y, Sun B, Chen CL (2008). Extraction of Ovidustus ranae polysaccharide by the SPSS orthogonal desigh. Chinese J. Biochem. Pharm. 01:43-45. |
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