Comparative characterization of surface hydrophobicity and other physico-chemical properties of selected protein preparations

• Autorzy: Konieczny P. , Uchman W.
• Języki publikacji: EN

Abstrakty

EN

Modeling physicochemical properties plays an important role in the function of animal and plant preparations which are widely used in the food processing. The study presents some functional characteristics of 21 randomly selected protein preparations subjected to the examination under the same analytical conditions. All examined preparations were highly variable in their composition, solubility, emulsifying and foaming properties. It has been confimed that the evaluation of protein preparation hydrophobicity is possible using different empirical or computational methods. The surface hydrophobicity value may be used to extend complex laboratory characterization of protein preparations.

Słowa kluczowe

EN

physicochemical property; protein preparation; functionality; surface hydrophobicity; food processing

• Wydawca: -
• Czasopismo: Electronic Journal of Polish Agricultural Universities. Series Food Science and Technology
• Rocznik: 2002
• Tom: 05
• Numer: 2
• Opis fizyczny: http://www.ejpau.media.pl/series/volume5/issue2/food/art-10.html

Twórcy

autor

Konieczny P.

• August Cieszkowski Agricultural University of Poznan, Wojska Polskiego 31, 60-624 Poznan, Poland

autor

Uchman W.

Bibliografia

• AACC, 1976. Approved Methods of the American Association of Cereal Chemists. The Association, St. Paul, MN.
• Belitz H.D., Matheis G., 1980. Beeinflussung funktioneller Eigenschaften von Proteinen durch Modifizierung. [Influence of functional characteristics of proteins through modification]. Lebensmittelchemie u. gerichtl. Chemie, 34; 53-62. [in German].
• Bigelow C.C., 1967. On the average hydrophobicity of proteins and the relation between it and protein structure. J. Theor. Biol.,16; 187-211.
• Damodaran S., Paraf A., 1997. Food proteins and their applications, Marcel Dekker, Inc., New York.
• Dłużewska E., Gwiazda St., Leszczyński K., 2000. Influence of membrane processing on functional properties of rapeseed protein preparations. Pol. J. Food Nutr. Sci., Vol.9/50, No 2; 35-39.
• Haskard C.A., Li-Chan E.C.Y., 1998. Hydrophobicity of bovine serum albumin and ovalbumin determined using uncharged (PRODAN) and anionic (ANS-) fluorescent probes,. J. Agric. Chem., 46; 2671-2677.
• Hermansson A.M., 1979. Methods of studying functional characteristics of vegetable proteins. J. Am. Oil Chemists' Soc., 56; 272-278.
• Kato A., Nakai S., 1980. Hydrophobicity determined by a fluorescence probe method and its correlation with surface properties of proteins. Biochem. Biophys. Acta, 624; 13-20.
• Kato A., Matsuda T., Matsudomi N, Kobayashi K., 1984. Determination of protein hydrophobicity using a sodium dodecyl sulfate binding method. J. Am. Food Chem., 32; 284-288.
• Keshavarz E., Nakai S., 1979. The relationship between hydrophobicity and interfacial tension of proteins. Biochemica et Biophysica Acta, 576; 269-279.
• Kinsella J.E.,1976.Functional properties of proteins in foods a survey. Crit. Rev. Food Sci. Nutr. 7; 219.
• Konieczny P., 1987. Technologiczne skutki raduryzacji osocza krwi zwierzęcej. [Technological effects of animal blood plasma radurization, Ph. D. Thesis. Institute of Food Technology of Animal Origin, University of Agriculture, Poznań, [in Polish].
• Konieczny P., 1992. Zastosowanie aparatu typu “flow cell” do oceny właściwości emulgujących preparatów białkowych otrzymywanych z mleka [Application of “flow cell” apparatus for evaluation of emulsifying properties of milk protein preparations]. 23th Sesja Nauk. KTiChŻ PAN, Poznań, 122-124. [in Polish].
• Konieczny P., 2001. Hydrofobowość powierzchniowa jako czynnik determinujący właściwości funkcjonalne preparatów białkowych.[Surface hydrophobicity as determinat factor of selected functional properties of protein preparations]. Rocz. AR Pozn. Rozpr. Nauk. 319, [in Polish].
• Kwaśniewska I, Zawadzka L., Kotecka K., 1980. Charakterystyka porównacza właściwości fizykochemicznych preparatów białkowych stosowanych w technologii żywności. [Comparative characterization of physico-chemical properties of protein preparations used in food technology]. Przem. Spoż., 34; 383-385 [in Polish].
• Li-Chan E., Nakai S., Wood D.F., 1985. Relationship between functional (fat binding, emulsifying) and physicochemical properties of muscle proteins. Effect of heating, freezing, pH and species. J. Food Sci., 50; 1034-1040.
• Lieske B., Konrad G.,1994. A new approach to estimate surface hydrophobicity of proteins. Milchwissenschaft, 49; 663-666.
• Lieske B., Konrad G., 1995. Determination of surface hydrophobicity of milk proteins comparison between a new detergent binding method and hydrophobic interaction – FPLC. Milchwissenschaft, 50; (1), 10-13
• Lin M.J.Y., Humbert E.S., Sosulski F.W., 1974. Certain functional properties of sunflower meal products. J. Food Sci., 39; 368.
• Liwo A., Lee J., Ripoll D.R., Pillardy J., Scheraga H.A., 1999. Protein structure predication by global optimization of a potential energy function. Proc. Natl. Acad. Sci., 10; 5482-5485.
• Liwo A., Lee J., Ripoll D.R., Pillardy J., Scheraga H.A., 1999. Protein structure predication by global optimization of a potential energy function. Proc. Natl. Acad. Sci., 10; 5482-5485.
• Mangino M.E.,1998. Lecture notes: Protein hydrophobicity (unpublished data) (Internet).
• Mejbaum-Katzenellenbogen W., Mochnacka I., 1969. Kurs praktyczny z biochemii. [Practical course of biochemistry]. PWN Warsaw, [in Polish].
• Mohammadzadeh-K., Feeney R.B., Smith L.M., 1969. Hydrophobic binding of hydrocarbons by proteins I. Relationship of hydrocarbon structure. Biochem. Biophys. Acta, 194-246.
• Nakai S., 1983. Structure-function relationships of food proteins with an emphasis on the importance of protein hydrophobicity. J. Agric. Food Chem., 31; 676-683.
• Nakai S., Li-Chan E., S. Hayakawa S., 1986. Contribution of protein hydrophobicity to its functionality. Nahrung, 30; 327-336.
• Nakai S., Li-Chan E., Arteaga G.E., 1996. Measurement of surface hydrophobicity. In: Methods of testing protein functionality. G. M. Hall, London.
• Ney K.H., 1971. Voraussage der Bitterkeit von Peptiden aus deren Aminosäurezusammensetzung. [Prediction of the bitterness of peptides from its amino acid composition] Z. Lebensm.-Untersuch. Forsch., 147; 64-71. [in German].
• Ney K.H., 1972. [Amino acid composition of proteins and bitterness of their peptides] Aminosäure-Zusammensetzung von Proteinen und die Bitterkeit ihrer Peptide, Z. Lebensm.-Untersuch.Forsch., 149; 321-323. [in German].
• Noetzold H., Kretschmar R., Ludwig E., 1991a. [Contribution to the determination of protein hydrophobicity 1.The determination of the hydrophobicity of selected grains and milk proteins with their binding capacity of natriumdodecylsulfate]. Beitrag zur Bestimmung der Hydrophobie von Proteinen 1. Mitt. Die Bestimmung der Hydrophobie ausgewählter Getreide- und Milchproteine über ihre Natriumdodecylsulfat- Bindungskapazität. Nahrung, 35; 969-975. [in German].
• Noetzold H., Kretschmar R., Ludwig E., 1991b. Contribution to the determination of protein hydrophobicity. 2. Determination of natrium dodecylsulfate bounded to protein by means of ultracentrifuge.] Beitrag zur Bestimmung der Hydrophobie von Proteinen 2. Mitt. Die Bestimmung von proteingebundenem Natriumdodecylsulfat mit Hilfe der Ultrazentrifuge. Nahrung, 35; 969-980. [in German].
• Porteous J.D., 1979. Some physico-chemical constants of various meats for optimum sausage formulation. Can. Inst. Food Sci. Techn. J., 12; 145.
• Sikorski Z.E., 1994. Chemical and functional properties of food ingredients. WNT, Warsaw, [in Polish].
• Sklar, L. A., Hudson, B. S., Simoni, R. D., 1977. Conjugated polyene fatty acids on fluorescent probes spectroscopic characterization. Biochemistry 16; 813-818.
• Swift C.E., Rockett C., Fryar A.J., 1961. Comminuted meat emulsions capacity of meats for emulsifying fat. Food Technol., 15; 468.
• Tsutsui E., Li-Chan E., Nakai S., 1986. A simple fluorymetric method for fat- binding capacity as an index of hydrophobicity of proteins. J. Food Sci., 51; 1268-1272.
• Uchman W., Konieczny P.,1989. Effect of drying method on selected properties of blood plasma preparations. Acta Alim. Pol., 4; 349-356.
• Voutsinas L.P., 1983b. Relationships of hydrophobicity to emulsifying properties of heat denaturated proteins. J. Food Sci., 48; 26-32.
• Webb N.B., Ireyt J., Craig H.B., Jones V.A., Monroe R.J., 1970. The measurement of emulsifying capacity by electrical resistance. J. Food Sci., 35; 501.
• Wirth D. J., 1983. Comparative physical and chemical aspects of vegetable protein functionality. Plant Foods Hum Nutr. 32; 389-400.
• Zayas J.E., 1996. Functionality of proteins in food, Springer, New York.