Journal of Mobile Communication
Year:
2009
Volume:
3
Issue:
2
Page No.
34 - 46
References
Achouri, A., W. Zhang and X.U. Shying, 1998. Enzymatic hydrolysis of soy protein isolate and effect of succinylation on functional properties of resulting protein hydrolysates. Food Res. Int., 31: 617-623.
Direct Link | Adebowale, Y.A. and K.O. Adebowale, 2007. The influence of kosmotropic and chaotropic salts on the functional properties of
Mucuna pruriens protein isolate. Int. J. Biol. Macro., 40: 119-125.
Adebowale, Y.A. and K.O. Adebowale, 2008. Emulsifying properties of mucuna flour and protein isolates. J. Food Technol., 6: 66-97.
Adebowale, Y.A., I.A. Adeyemi and A.A. Oshodi, 2005. Functional and physicochemical properties of flours of six
Mucuna species. Afr. J. Biotechnol., 4: 1461-1468.
Direct Link | Adebowale, Y.A., I.A. Adeyemi, A.A. Oshodi and K. Niranjan, 2007. Isolation, fractionation and characterisation of proteins from mucuna bean. Food Chem., 104: 287-299.
CrossRef | Akintayo, E.T., A.A. Oshodi and K.O. Esuoso, 1999. Effects of NaCl, ionic strength and pH on the foaming and gelation of pigeon pea (
Cajanus cajan) protein concentrates. Food Chem., 66: 51-56.
CrossRef | Aluko, R. and R.Y. Yada, 1995. Structure-function relationships of cowpea (
Vigna unguiculata) globulin isolate: Influence of pH and NaCl on physicochemical and functional properties. Food Chem., 53: 259-265.
CrossRef | Direct Link | Barber, K.J. and J.J. Warthesen, 1982. Some functional properties of acylated wheat gluten. J. Agric. Food Chem., 30: 930-934.
Beuchat, L.R., 1977. Functional and electrophoretic characteristics of succinylated peanut flour protein. J. Agric. Food Chem., 25: 258-261.
CrossRef | Buckingham, J.H., 1970. Effects of pH, concentration and temperature on the strength of cytoplasmic protein foams. J. Sci. Food Agric., 21: 441-448.
Canella, M., G. Castriotta and A. Bernadi, 1979. Functional and physicochemical properties of succinylated and acetylated sunflower protein. Lebensm-wiss-u-Technol., 12: 95-101.
Direct Link | Casey, C.P., J.A. Thissen and J.F. Moomaw, 1991. Enzymatic modification of proteins with a geranylgeranyl isoprenoid. Proc. Acad. Sci., 88: 8631-8635.
Chavan, U.D., D.B. Mckenzie and F. Shahidi, 2001. Functional properties of protein isolates from beach pea (
Lathyrus maritimus L.). Food Chem., 74: 177-187.
CrossRef | Direct Link | Chel-Guerrero, L., V. Perez-Flores, D. Bentacur-Ancona and G. Davila-Ortiz, 2002. Functional properties of flours and protein isolates from
Phaseolus lunatus and
Canavalia ensiformis seeds. J. Agric. Food Chem., 50: 584-591.
PubMed | Clemente, A., R. Sanchez-Vioque, J. Vioque, J. Bautista and F. Millan, 1998. Effect of cooking on the protrein quality of chckpea (
Cicer atietinum) seeds. Food Chem., 62: 1-6.
Coffmann, C.W. and V.V. Garcia, 1977. Functional properties and amino acid content of a protein isolate from mung bean flour. Int. J. Food Sci. Technol., 12: 473-484.
CrossRef | Direct Link | Creamer, L.K., 1994. Protein structure/functionality in genetically modified milk proteins. Aust. Biotechnol., 4: 15-18.
Creamer, L.K., J. Roeper and E.H. Lohrey, 1971. Preparation and evaluation of some soluble casein derivatives. N. Z. J. Dairy Sci. Technol., 6: 107-114.
Czuchajowska, Z., T. Otto, B. Paszczynska and B.K. Bark, 1998. Composition, thermal behaviour and gel texture of prime and tailings starches from garharzo beans and peas. Cereal Chem., 25: 466-472.
Deshpande, S.S. and C.G. Campbell, 1992. Genotype variation in BOAA, condensed tannins, phenolics and enzyme inhibitors in grass pea (
Lathyrus sativus). Can. J. Plant Sci., 72: 1037-1047.
Direct Link | Dua, S., A. Mahajan and A. Mahajan, 1996. Improvement in functional properties of rapeseed (
Brassica Campestris var. Toria) preparations by chemical modification. J. Agric. Food Chem., 44: 706-710.
CrossRef | Dzudie, T. and J. Hardy, 1996. Physicochemical and functional properties of flours prepared from common beans and Green Mung beans. J. Agric. Food Chem., 44: 3029-3032.
El-Adawy, T.A., 2000. Functional properties and nutritional quality of acetylated and succinylated Mung bean protein isolate. Food Chem., 70: 83-91.
CrossRef | Elofsson, C., P. Dejmek, M. Paulson and H. Burling, 1997. Characterization of a cold gelling whey concentrate. Int. Dairy J., 7: 601-607.
Eromosele, C.O., L.A. Arogundade, I.C. Eromosele and O. Ademuyiwa, 2008. Extractibility of african yam bean (
Sphenostylis stenocarpa) protein in acid, salt and alkaline aqueous media. Food Hydro., 22: 1622-1628.
CrossRef | Evans, I.D. and D.R. Haismer, 1979. Rheology of gelatinised starch suspensions. J. Texture Stud., 10: 347-370.
Evans, M., 1970. Unilever method for preparing emulsions of edible oils. German Patent, 964: 954-954.
Franzen, K.L. and J.E. Kinsella, 1976. Functional properties of succinylated and acetylated leafprotein. J. Agric. Food Chem., 24: 914-919.
Grant, D.R., 1973. The modification of wheat flour proteins with succinic anhydride. Cereal Chem., 50: 417-428.
Habeeb, A.F.S.A., 1966. Determination of free amino groups in proteins by trinitrobenzenesulfonic acid. Anal. Biochem., 14: 328-336.
CrossRef | Direct Link | Heinzelmann, K., H. Tzu, G. Muschiolik and H.M. Rawel, 1994. Protein modification by high-pressure homogenisation. Nahrung/Food, 38: 464-477.
Idouraine, A., S.B. Yensen and C.W. Weber, 1991. Tepary bean flour, albumin and globulin fractions functional properties compared with soy protein isolate. J. Food Sci., 56: 1316-1318.
Johnson, E.A. and C.J. Brekke, 1983. Functional properties of acylated pea protein isolates. J. Food Sci., 48: 722-725.
Jones, L. and M.A. Tung, 1983. Stranded structure development in thermally produced whey protein concentrate gel. Food Microstructure, 2: 161-164.
Kabirrulah, M. and R.B.H. Wills, 1982. Functional properties of acetylated and succinylated sunflower protein isolate. J. Food Technol., 17: 235-249.
Kinsella, J.E. and N. Melachouris, 1976. Functional properties of proteins in foods: A survey. Crit. Rev. Food Sci. Nutr., 7: 219-280.
CrossRef | Direct Link | Kinsella, J.E., 1979. Functional properties of soy proteins. J. Am. Oil Chem. Soc., 56: 242-258.
CrossRef | Direct Link | Lawal, O.S., 2005. Functionality of native and succinylated lablab bean (
Lablab purpureus) protein concentrate. Food Hydro., 19: 63-72.
Liu, L.H. and T.V. Hung, 1998. Functional properties of acetylated chickpea proteins. J. Food Sci., 63: 331-337.
Lqari, H., J. Vioque, J. Pedroche and F. Millan, 2001.
Lupinus angustifolius protein isolates: Chemical composition, functional properties and protein characterization. Food Chem., 76: 349-356.
Melnychyn, P. and R.P. Stapley, 1973. Acylated soybean protein for coffee whiteners. US Patent, 3: 711-764.
Mwasaru, A.M., K. Muhammad, J. Bakar and Y.B. Cheman, 2000. Influence of altered solvent environment on the functionality of pigeon pea (
Cajanus cajan) and cowpea (
Vigna unguiculata) protein isolates. Food Chem., 71: 157-165.
Naczk, M., L.J. Rubin and F. Shaidi, 1986. Functional properties and phytate content of pea protein preparations. J. Food Sci., 51: 1245-1247.
CrossRef | Narayana, K. and M.S. Narasinga, 1984. Effect of acetylation and succinylation on the functional properties of winged bean (
Psophorcarpus tetragonolobus) flour. J. Food Sci., 49: 547-550.
Paulson, A.T. and M.A. Tung, 1987. Solubility, hydrophobicity and net charge of succinylated canola protein isolate. J. Food Sci., 52: 1557-1561.
CrossRef | Pearce, K.N. and J.E. Kinsella, 1978. Emulsifying properties of proteins: Evaluation of turbidimetric techniques. J. Agric. Food Chem., 26: 716-723.
CrossRef | Rahma, E.H. and M.S. Narasinga, 1983. Effect of acylation and succinylation of cottonseed flour on its functional properties. J. Agric. Food Chem., 31: 352-355.
CrossRef | Sathe, S.K. and D.K. Salunkhe, 1981. Functional properties of the great Northern bean proteins: Emulsion, foaming, viscosity and gelation properties. J. Food Sci., 46: 71-81.
Sathe, S.K., J.G. Ponte, P.D. Rangnekar and D.K. Salunkhe, 1981. Effects of addition of great northern bean flour and protein concentrates on rheological properties of dough and baking quality of bread. Cereal Chem., 8: 97-100.
Sathe, S.K., S.S. Deshpande and D.K. Salunkhe, 1982. Functional properties of winged bean (
Psophocarpus tetragonolobus L.) proteins. J. Food Sci., 47: 503-503.
Shyama S.R. and D.R. Rao, 1978. Functional properties of native and acylated peanut proteins prepared by different methods. Lebensm. Wiss Technol., 11: 188-191.
Soetrisnot, U.S. and Z. Holmes, 1992. Protein yields and characteristics from acid and salt coagulations of yellow pea (
Pisum sativum) flour extractions. J. Agric. Food Chem., 40: 970-974.
Subiago, A., 2006. Characterization of hyacinth bean (
Lablab purpureus (L.) sweet) seeds from Indonesia and their protein isolate. Food Chem., 95: 65-70.
CrossRef | Direct Link | Sumner, A.K., M.A. Nielsen and C.G. Youngs, 1981. Production and evaluation of pea protein isolate. J. Food Sci., 46: 364-372.
CrossRef | Thomas, L. and F. Leoffler, 1994. Improved protein functionality by enzymatic treatment. Food Marketing Technol., 8: 4-6.
Tomoskozi, S., R. Lasztity, E. Sule, J. Gaugecz and J. Varga, 1998. Functional properties of native and modified wheat germ protein isolates and fraction. Nahrung/Food, 42: 245-247.
Townsend, A. and S. Nakai, 1983. Relationships between hydrophobicity and foaming characteristics of food proteins. J. Food Sci., 48: 588-594.
Van Camp, J., W. Messens, J. Clement and H. Huyghebaert, 1997. Influence of pH and sodium chloride on the high pressure-induced gel formation of a whey protein concentrate. J. Agric. Food Chem., 45: 1600-1607.
Vani, B. and J.F. Zayas, 1995. Foaming properties of selected plant and animal proteins. J. Food Sci., 60: 1025-1028.
CrossRef | Direct Link | Wagner, J.R. and J.J. Gueguen, 1995. Effect of dissociation, deamination and reducing treatment on structural and surface active properties of soy glycinin. J. Agric. Food Chem., 43: 1993-2000.
Wagner, J.R. and J.J. Gueguen, 1999. Surface functional properties of native, acid treated and reduced soy glycillin. I. Foaming properties. J. Agric. Food Chem., 47: 2173-2180.
Wanasundara, P. and F. Shahadi, 1997. Functional properties of acylated flax protein isolates. J. Agric. Food Chem., 45: 431-441.