Relationship between the method of obtention and the structural and functional properties of soy protein isolates. 1. Structural and hydration properties

Soy protein isolates exhibit heterogeneous protein subunit compositions; their structural and functional properties are determined by the processing conditions. Drastic thermal conditions at pH 7 and 9 result in protein denaturation and polymerization, as evidenced by increased water retention capac...

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Veröffentlicht in:	Journal of agricultural and food chemistry 1994-10, Vol.42 (10)
Hauptverfasser:	Petruccelli, S. (CIDCA, La Plata, Argentina.), Anon, M.C
Format:	Artikel
Sprache:	eng
Schlagworte:	AISLADO DE PROTEINAS DENATURATION DESNATURALIZACION HIDROFOBICIDAD HYDROPHOBICITE ISOLAT PROTEIQUE PROTEINAS VEGETALES PROTEINE VEGETALE SOJA TEMPERATURA TEMPERATURE TRAITEMENT THERMIQUE TRATAMIENTO TERMICO
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container_title	Journal of agricultural and food chemistry
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creator	Petruccelli, S. (CIDCA, La Plata, Argentina.) Anon, M.C
description	Soy protein isolates exhibit heterogeneous protein subunit compositions; their structural and functional properties are determined by the processing conditions. Drastic thermal conditions at pH 7 and 9 result in protein denaturation and polymerization, as evidenced by increased water retention capacity and lower solubility, surface hydrophobicity, and a higher level of AB-11S aggregates. Treatments of glycinin with urea and Na2SO3 at pH 7 incorporated 20% of sulfonate groups, resulted in no solubility losses of 11S protein A and B polypeptides, but increased their surface hydrophobicity. The increase of 7S fraction leads to an increase of aliphatic hydrophobicity. Thermal treatments at pH 7 and lower protein content lead to high solubility and high surface hydrophobicity isolates. 7S globulin was completely denatured, while 11S denaturation depended on the treatment conditions; different proportions of AB-11S, beta-7S, and B-11S aggregates were formed. Thermal treatments at pH 9 favored dissociation and denaturation of AB-11S protein
doi_str_mv	10.1021/jf00046a017
format	Article
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Thermal treatments at pH 7 and lower protein content lead to high solubility and high surface hydrophobicity isolates. 7S globulin was completely denatured, while 11S denaturation depended on the treatment conditions; different proportions of AB-11S, beta-7S, and B-11S aggregates were formed. 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Drastic thermal conditions at pH 7 and 9 result in protein denaturation and polymerization, as evidenced by increased water retention capacity and lower solubility, surface hydrophobicity, and a higher level of AB-11S aggregates. Treatments of glycinin with urea and Na2SO3 at pH 7 incorporated 20% of sulfonate groups, resulted in no solubility losses of 11S protein A and B polypeptides, but increased their surface hydrophobicity. The increase of 7S fraction leads to an increase of aliphatic hydrophobicity. Thermal treatments at pH 7 and lower protein content lead to high solubility and high surface hydrophobicity isolates. 7S globulin was completely denatured, while 11S denaturation depended on the treatment conditions; different proportions of AB-11S, beta-7S, and B-11S aggregates were formed. Thermal treatments at pH 9 favored dissociation and denaturation of AB-11S protein</abstract><doi>10.1021/jf00046a017</doi></addata></record>
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subjects	AISLADO DE PROTEINAS DENATURATION DESNATURALIZACION HIDROFOBICIDAD HYDROPHOBICITE ISOLAT PROTEIQUE PROTEINAS VEGETALES PROTEINE VEGETALE SOJA TEMPERATURA TEMPERATURE TRAITEMENT THERMIQUE TRATAMIENTO TERMICO
title	Relationship between the method of obtention and the structural and functional properties of soy protein isolates. 1. Structural and hydration properties
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