The structure and amphipathy characteristics of modified γ-zeins by SDS or alkali in conjunction with heating treatment

•The amphipathy of γ-zein was improved by alkali combined with heating treatment.•Amphipathy improvement was attributed to structural inversion ability increase.•The increase of structural inversion ability depended on α-helix structure recovery ability. γ-Zein was modified by SDS or alkali combined...

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Veröffentlicht in:	Food chemistry 2017-10, Vol.233, p.361-368
Hauptverfasser:	Dong, Shi-Rong, Xu, Hong-Hua, Tan, Jun-Yan, Xie, Ming-Ming, Yu, Guo-Ping
Format:	Artikel
Sprache:	eng
Schlagworte:	Alkalies Amphipathic properties Dispersibility Ethanol Heating Secondary structure Solvent polarity Structural inversion ability Zea mays Zein
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creator	Dong, Shi-Rong Xu, Hong-Hua Tan, Jun-Yan Xie, Ming-Ming Yu, Guo-Ping
description	•The amphipathy of γ-zein was improved by alkali combined with heating treatment.•Amphipathy improvement was attributed to structural inversion ability increase.•The increase of structural inversion ability depended on α-helix structure recovery ability. γ-Zein was modified by SDS or alkali combined with heating treatments in water and in 70% ethanol to change its amphipathic properties and explore the relationship between amphipathic characteristic and structure. γ-Zein water-dispersibility was dramatically increased via alkali or SDS combined with heating treatments, but their ethanol-dispersibilities were significantly different during ethanol evaporation. High both water-dispersibility and ethanol-dispersibility were found from alkali modified γ-zein while high water-dispersibility but low ethanol-dispersibility were obtained from SDS modified γ-zein, indicating that alkali modified γ-zein had better amphipathic characteristic compared with SDS modified γ-zein. Alkali modified γ-zein with higher amphipathic characteristic possessed higher structural inversion ability since it was easy to recover its native state as solvent changing from water to ethanol, contrary to SDS modified γ-zeins whose amphipathic characteristic was not improved. Moreover, the higher structural inversion ability of alkali modified γ-zein depended on the recovery capability of α-helix structure as solvent altering.
doi_str_mv	10.1016/j.foodchem.2017.04.128
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High both water-dispersibility and ethanol-dispersibility were found from alkali modified γ-zein while high water-dispersibility but low ethanol-dispersibility were obtained from SDS modified γ-zein, indicating that alkali modified γ-zein had better amphipathic characteristic compared with SDS modified γ-zein. Alkali modified γ-zein with higher amphipathic characteristic possessed higher structural inversion ability since it was easy to recover its native state as solvent changing from water to ethanol, contrary to SDS modified γ-zeins whose amphipathic characteristic was not improved. 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High both water-dispersibility and ethanol-dispersibility were found from alkali modified γ-zein while high water-dispersibility but low ethanol-dispersibility were obtained from SDS modified γ-zein, indicating that alkali modified γ-zein had better amphipathic characteristic compared with SDS modified γ-zein. Alkali modified γ-zein with higher amphipathic characteristic possessed higher structural inversion ability since it was easy to recover its native state as solvent changing from water to ethanol, contrary to SDS modified γ-zeins whose amphipathic characteristic was not improved. 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subjects	Alkalies Amphipathic properties Dispersibility Ethanol Heating Secondary structure Solvent polarity Structural inversion ability Zea mays Zein
title	The structure and amphipathy characteristics of modified γ-zeins by SDS or alkali in conjunction with heating treatment
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