REFERENCES
- Manamperi, W.A.R.; Wiesenborn, D.P.; Chang, S.K.C.; Pryor, S.W. Effects of protein separation conditions on the functional and thermal properties of canola protein isolates. Journal of Food Science 2011, 76 (3), E266–E273.
- Berchmans, H.J.; Hirata, S. Biodiesel production from crude Jatropha curcas L. seed oil with a high content of free fatty acids. Bioresource Technology 2008, 99 (6), 1716–1721.
- Mohibbe Azam, M.; Waris, A.; Nahar, N. Prospects and potential of fatty acid methyl esters of some non-traditional seed oils for use as biodiesel in India. Biomass and Bioenergy 2005, 29 (4), 293–302.
- Liberalino, A.; Bambirra, E.; Moraes Santos, T.; Vieira, E. Jatropha curcas L. seeds: Chemical analysis and toxicity. Arquivos de Biologia E Tecnologia 1988, 31 (4), 539.
- Makkar, H.P.S.; Becker, K. Jatropha curcas, a promising crop for the generation of biodiesel and value-added coproducts. European Journal of Lipid Science and Technology 2009, 111 (8), 773–787.
- Ye, M.; Li, C.; Francis, G.; Makkar, H.P.S. Current situation and prospects of Jatropha curcas as a multipurpose tree in China. Agroforestry Systems 2009, 76 (2), 487–497.
- Joshi, C.; Mathur, P.; Khare, S.K. Degradation of phorbol esters by Pseudomonas aeruginosa PseA during solid-state fermentation of deoiled Jatropha curcas seed cake. Bioresource Technology 2011, 102 (7), 4815–4819.
- Martinez-Herrera, J.; Siddhuraju, P.; Francis, G.; Davila-Ortiz, G.; Becker, K. Chemical composition, toxic/antimetabolic constituents, and effects of different treatments on their levels, in four provenances of Jatropha curcas L. from Mexico. Food Chemistry 2006, 96 (1), 80–89.
- Aregheore, E.; Becker, K.; Makkar, H. Detoxification of a toxic variety of Jatropha curcas using heat and chemical treatments, and preliminary nutritional evaluation with rats. The South Pacific Journal of Natural Science 2003, 21 (1), 51–56.
- Xiao, J.; Zhang, H.; Niu, L.; Wang, X.; Lu, X. Evaluation of detoxification methods on toxic and antinutritional composition and nutritional quality of proteins in Jatropha curcas meal. Journal of Agricultural and Food Chemistry 2011, 59 (8), 4040–4044.
- Saetae, D.; Kleekayai, T.; Jayasena, V.; Suntornsuk, W. Functional properties of protein isolate obtained from physic nut (Jatropha curcas L.) seed cake. Food Science and Biotechnology 2011, 20 (1), 29–37.
- Hojilla-Evangelista, M.P.; Evangelista, R.L. Functional properties of protein from Lesquerella fendleri seed and press cake from oil processing. Industrial Crop and Products 2009, 29 (2–3), 466–472.
- Kato, A.; Nakai, S. Hydrophobicity determined by a fluorescence probe method and its correlation with surface properties of proteins. Biochimica et Biophysica Acta (BBA)—Protein Structure and Molecular Enzymology 1980, 624 (1), 13–20.
- Malhotra, A.; Coupland, J.N. The effect of surfactants on the solubility, zeta potential, and viscosity of soy protein isolates. Food Hydrocolloids 2004, 18 (1), 101–108.
- Beveridge, T.; Beveridge, T.; Toma, S.J.; and Nakai, S. Determination of SH- and SS-groups in some food proteins using Ellman’s reagent. Journal of Food Science 1974, 39, 49–51.
- Bradford, M.M. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical Biochemistry 1976, 72 (1–2), 248–254.
- Thannhauser, T.W.; Konishi, Y.; Scheraga, H.A. Sensitive quantitative analysis of disulfide bonds in polypeptides and proteins. Analytical Biochemistry 1984, 138 (1), 181–188.
- Severcan, M.; Severcan, F.; Haris, P.I. Estimation of protein secondary structure from FTIR spectra using neural networks. Journal of Molecular Structure 2001, 565, 383–387.
- Zhu, K.X.; Sun, X.H.; Chen, Z.C.; Peng, W.; Qian, H.F.; Zhou, H.M. Comparison of functional properties and secondary structures of defatted wheat germ proteins separated by reverse micelles and alkaline extraction and isoelectric precipitation. Food Chemistry 2010, 123 (4), 1163–1169.
- Hamarneh, A.I.; Heeres, H.J.; Broekhuis, A.A.; Picchioni, F. Extraction of Jatropha curcas proteins and application in polyketone-based wood adhesives. International Journal of Adhesion and Adhesives 2010, 30 (7), 615–625.
- Mine, Y. Effect of dry heat and mild alkaline treatment on functional properties of egg white proteins. Journal of Agricultural and Food Chemistry 1997, 45 (8), 2924–2928.
- Voutsinas, L.P.; Cheung, E.; Nakai, S. Relationships of hydrophobicity to emulsifying properties of heat denatured proteins. Journal of Food Science 1983, 48 (1), 26–32.
- Thompson, L.; Liu, R.; Jones, J. Functional properties and food applications of rapeseed protein concentrate. Journal of Food Science 1982, 47 (4), 1175–1180.
- Chan, W.M.; Ma, C.Y. Acid modification of proteins from soymilk residue (okara). Food Research International 1999, 32 (2), 119–127.
- Harwalkar, V.; Ma, C.Y. Study of thermal properties of oat globulin by differential scanning calorimetry. Journal of Food Science 1987, 52 (2), 394–398.
- Byler, D.; Brouillette, J.; Susi, H. Quantitative studies of protein structure by FT-IR spectra deconvolution and curve-fitting. Spectroscopy 1986, 1 (3), 29–32.
- Kim, S.Y.; Park, P.S.W.; Rhee, K.C. Functional properties of proteolytic enzyme modified soy protein isolate. Journal of Agricultural and Food Chemistry 1990, 38 (3), 651–656.
- Cao, X.; Li, C.; Wen, H.; Gu, Z. Extraction technique and characteristics of soluble protein in germinated brown rice. International Journal of Food Properties 2010, 13 (4), 810–820.
- Lestari, D.; Mulder, W.J.; Sanders, J.P.M. Jatropha seed protein functional properties for technical applications. Biochemical Engineering Journal 2010, 55 (3), 297–304.
- Saetae, D.; Suntornsuk, W. Toxic compound, anti-nutritional factors and functional properties of protein isolated from detoxified Jatropha curcas seed cake. International Journal of Molecular Sciences 2010, 12 (1), 66–77.
- Zhao, G.; Liu, Y.; Zhao, M.; Ren, J.; Yang, B. Enzymatic hydrolysis and their effects on conformational and functional properties of peanut protein isolate. Food Chemistry 2011, 127 (4), 1438–1443.
- Ishino, K.; Kudo, S. Conformational transition of alkali-denatured soybean 7S and 11S globulins by ethanol. Agricultural and Biological Chemistry 1980, 44 (3), 537–543.
- Waniska, R.; Kinsella, J. Foaming properties of proteins: Evaluation of a column aeration apparatus using ovalbumin. Journal of Food Science 1979, 44 (5), 1398–1402.
- Wang, M.; Hettiarachchy, N.; Qi, M.; Burks, W.; Siebenmorgen, T. Preparation and functional properties of rice bran protein isolate. Journal of Agricultural and Food Chemistry 1999, 47 (2), 411–416.
- Adebowale, Y.A.; Schwarzenbolz, U.; Henle, T. Protein isolates from bambara groundnut (Voandzeia subterranean L.): Chemical characterization and functional properties. International Journal of Food Properties 2011, 14 (4), 758–775.
- Pearce, K.N.; Kinsella, J.E. Emulsifying properties of proteins: Evaluation of a turbidimetric technique. Journal of Agricultural and Food Chemistry 1978, 26 (3), 716–723.
- Qi, M.; Hettiarachchy, N.; Kalapathy, U. Solubility and emulsifying properties of soy protein isolates modified by pancreatin. Journal of Food Science 1997, 62 (6), 1110–1115.
- Chobert, J.M.; Bertrand-Harb, C.; Nicolas, M.G. Solubility and emulsifying properties of caseins and whey proteins modified enzymically by trypsin. Journal of Agricultural and Food Chemistry 1988, 36 (5), 883–892.