References
- Adjonu R, Doran G, Torley P, Agboola S. Screening of whey protein isolate hydrolysates for their dual functionality: Influence of heat pre-treatment and enzyme specificity. Food Chem, 2013;136:1435–43
- Bagheri L, Madadlou A, Yarmand MS, Musavi ME. Nanoencapsulation of date palm pit extract in whey protein particles generated via desolvation method. Food Res Int, 2013;51:866–71
- Bengoechea C, Peinado I, McClements DJ. Formation of protein nanoparticles by controlled heat treatment of lactoferrin: Factors affecting particle characteristics. Food Hydrocolloid, 2011;25:1354–60
- Bell LN. 2001. Stability testing of nutraceuticals and functional foods. In: Wildman REC, ed. Handbook of nutraceuticals and functional foods. New York: CRC Press, pp. 501–16
- Byler DM, Purcell JM. 1989. FTIR examination of thermal denaturation and gel formation in whey proteins. Proceedings of the SPIE 1145, 7th International Conference on Fourier Transform Spectroscopy, Vol. 1145, Fairfax, VA, pp. 415–17
- Chen L, Remondetto GE, Subirade M. Food protein-based materials as nutraceutical delivery systems. Trends Food Sci Tech, 2006;17:272–83
- Damodaran S, Agyare KK. Effect of microbial transglutaminase treatment on thermal stability and pH-solubility of heat-shocked whey protein isolate. Food Hydrocolloid, 2013;30:12–18
- Eissa AS, Puhl C, Kadla JF, Khan SA. Enzymatic cross-linking of β-lactoglobulin: Conformational properties using FTIR spectroscopy. Biomacromolecules, 2006;7(6):1707–13
- Gauche C, Barreto PLM, Bordignon-Luiz MT. Effect of thermal treatment on whey protein polymerization by transglutaminase: Implications for functionality in processed dairy foods. LWT-Food Sci Tech 2010;43:214–19
- Giroux HG, Houde J, Britten M. Preparation of nanoparticles from denatured whey protein by pH-cycling treatment. Food Hydrocolloid, 2010;24:341–6
- Gülseren I, Fang Y, Corredig M. Whey protein nanoparticles prepared with desolvation with ethanol: Characterization, thermal stability and interfacial behavior. Food Hydrocolloid, 2012;29:258–64
- Gunasekaran S, Ko S, Xiao L. Use of whey protein for encapsulation and controlled delivery applications. J Food Eng, 2007;83:31–40
- Inoue M, Sasaki M, Taguchi M. Unusual degradation behavior of citric acid-crosslinked gelatin in vitro and in vivo. Polym Degrad Stabil, 2010;95:2088–92
- Jiang Q, Reddy N, Yang Y. Cytocompatible cross-linking of electrospun zein fibers for the development of water-stable tissue engineering scaffolds. Acta Biomater, 2010;6:4042–51
- Ko S, Gunasekaran S. Preparation of sub-100-nm β-lactoglobulin (BLG) nanoparticles. J Microencapsulation, 2006;23(8):887–98
- Kretschmer CB. Infrared spectroscopy and optical rotatory dispersion of zein, wheat gluten and gliadin. J Phys Chem, 1957;61(12):1627–31
- Li Z, Percival SS, Bonard S, Gu L. Fabrication of nanoparticles using partially purified pomegranate ellagitannins and gelatin and their apoptotic effects. Mol Nutr Food Res, 2011;55(7):1096–103
- Mullally MM, O'Callaghan DM, FitzGerald RJ, Donnelly WJ, Dalton JP. Proteolytic and lipolytic activities in commercial pancreatic protease preparations 480 and their relationship to some whey protein hydrolyzate characteristics. J Agric Food Chem, 1994;42:2973–81
- Nahar M, Mishra D, Dubey V, Jain NK. Development, characterization, and toxicity evaluation of amphotericin B-loaded gelatin nanoparticles. Nanomedicine, 2008;4:252–61
- Parris N, Cooke PH, Hicks KB. Encapsulation of essential oils in zein nanospherical particles. J Agric Food Chem, 2005;53:4788–92
- Reddy N, Jiang Q, Yang Y. Preparation and properties of peanut protein films crosslinked with citric acid. Ind Crops Prod, 2012;39:26–30
- Reddy IM, Kella NKD, Kinsella JE. Structural and conformational basis of the resistance of β-lactoglobulin to peptic and chymotryptic digestion. J Agric Food Chem, 1988;36:737–41
- Reddy N, Li Y, Yang Y. Alkali-catalyzed low temperature wet crosslinking of plant proteins using carboxylic acids. Biotechnol Prog, 2009;25(1):139–46
- Reddy N, Yang Y. Citric acid cross-linking of starch films. Food Chem, 2009;118:702–11
- Rowland SP, Brannan MAF. Mobile ester crosslinks for thermal creasing of wrinkle-resistant cotton fabrics. Text Res J, 1968;38(6):634–43
- Seo JA, Hédoux A, Guinet Y, Paccou L, Affouard F, Lerbret A, Descamps M. Thermal denaturation of beta-lactoglobulin and stabilization mechanism by trehalose analyzed from Raman spectroscopy investigations. J Phys Chem B, 2010;114(19):6675–84
- Shahidi F, Han XQ. Encapsulation of food ingredients. Crit Rev Food Sci Nutr, 1993;33(6):501–47
- Sessa DJ, Mohamed A, Byars JA. Chemistry and physical properties of melt-processed and solution-cross-linked corn zein. J Agric Food Chem, 2008;56:7067–75
- Soares LHB, Albuquerque PM, Francine A, Marco AZA. Physicochemical properties of three food proteins treated with tranglutaminase. Cienc Rural, 2004;34:1219–23
- Tran RT, Zhang Y, Gyawali D, Yang J. Recent development on citric acid derived biodegradable elastomers. Recent Pat Biomed Eng, 2009;2:216–27
- Welch CM. Formaldehyde-free durable-press finishes. Text Res J, 1992;22(1):32–41
- Yang CQ. Characterizing ester crosslinkages in cotton cellulose with FT-IR photoacoustic spectroscopy 1. Text Res J, 1991;61(5):298–305
- Yang CQ, Wang X. Formation of cyclic anhydride intermediates and esterification of cotton cellulose by multifunctional carboxylic acids: An infrared spectroscopy study. Text Res J, 1996;66:595–603
- Zhong Q, Wang W, Hu Z, Ikeda S. Sequential preheating and transglutaminase pretreatments improve stability of whey protein isolate at pH 7.0 during thermal sterilization. Food Hydrocolloid, 2013;31:306–16
- Zou T, Li SL, Zhang XZ, Wu XJ, Cheng SX, Zhuo RX. Synthesis and characterization of a biodegradable amphiphilic copolymer based on branched poly(ε-caprolactone) and poly(ethylene glycol). J Polym Sci Part A: Polym Chem, 2007;45(22):5256–65