Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method

The effect of xanthan on foam formation and on physical mechanisms of destabilization involved in the breakdown of foams made from native and denatured soy protein at neutral pH was studied by a bubbling and a whipping-rheological method. Parameters describing foam formation and destabilization by l...

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Detalles Bibliográficos
Autor principal: Carp, Dina Judith
Publicado: 2001
Materias:
Denaturation
Foams
Interactions
Soy proteins
Xanthan
Bubble formation
Drainage
pH effects
Proteins
Rheology
Viscosity
Biointerfaces
soybean protein
water
xanthan
air
aqueous solution
conference paper
flow kinetics
foam
intermethod comparison
molecular stability
pH
priority journal
protein aggregation
protein analysis
protein denaturation
protein interaction
technique
viscosity
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09277765_v21_n1-3_p163_Carp
http://hdl.handle.net/20.500.12110/paper_09277765_v21_n1-3_p163_Carp
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_09277765_v21_n1-3_p163_Carp
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spelling paper:paper_09277765_v21_n1-3_p163_Carp2023-06-08T15:52:06Z Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method Carp, Dina Judith Denaturation Foams Interactions Soy proteins Xanthan Bubble formation Drainage pH effects Proteins Rheology Viscosity Biointerfaces Foams soybean protein water xanthan air aqueous solution conference paper flow kinetics foam intermethod comparison molecular stability pH priority journal protein aggregation protein analysis protein denaturation protein interaction technique viscosity The effect of xanthan on foam formation and on physical mechanisms of destabilization involved in the breakdown of foams made from native and denatured soy protein at neutral pH was studied by a bubbling and a whipping-rheological method. Parameters describing foam formation and destabilization by liquid drainage and disproportionation obtained by the two methods showed that the addition of xanthan was accompanied by delayed rates of drainage and disproportionation and reduced foam height decay (collapse). Drainage showed the largest reduction, mainly because of the increased bulk viscosity. In the absence of xanthan, protein denaturation enhanced foam formation and stability against drainage and disproportionation, but increased the collapse of foams. In the presence of xanthan, differences in foam formation and drainage/disproportionation stability between native and denatured soy protein were greatly reduced. However, differences in foam collapse were greatly enhanced. The increased stability of foams in the presence of xanthan could not be explained purely in terms of increased aqueous phase viscosity. More specific interactions of xanthan and soy proteins at the air-water interface influencing the surface rheology, and the protein composition and aggregation, are involved. © 2001 Elsevier Science B.V. Fil:Carp, D.J. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. 2001 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09277765_v21_n1-3_p163_Carp http://hdl.handle.net/20.500.12110/paper_09277765_v21_n1-3_p163_Carp
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Denaturation
Foams
Interactions
Soy proteins
Xanthan
Bubble formation
Drainage
pH effects
Proteins
Rheology
Viscosity
Biointerfaces
Foams
soybean protein
water
xanthan
air
aqueous solution
conference paper
flow kinetics
foam
intermethod comparison
molecular stability
pH
priority journal
protein aggregation
protein analysis
protein denaturation
protein interaction
technique
viscosity
spellingShingle Denaturation
Foams
Interactions
Soy proteins
Xanthan
Bubble formation
Drainage
pH effects
Proteins
Rheology
Viscosity
Biointerfaces
Foams
soybean protein
water
xanthan
air
aqueous solution
conference paper
flow kinetics
foam
intermethod comparison
molecular stability
pH
priority journal
protein aggregation
protein analysis
protein denaturation
protein interaction
technique
viscosity
Carp, Dina Judith
Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
topic_facet Denaturation
Foams
Interactions
Soy proteins
Xanthan
Bubble formation
Drainage
pH effects
Proteins
Rheology
Viscosity
Biointerfaces
Foams
soybean protein
water
xanthan
air
aqueous solution
conference paper
flow kinetics
foam
intermethod comparison
molecular stability
pH
priority journal
protein aggregation
protein analysis
protein denaturation
protein interaction
technique
viscosity
description The effect of xanthan on foam formation and on physical mechanisms of destabilization involved in the breakdown of foams made from native and denatured soy protein at neutral pH was studied by a bubbling and a whipping-rheological method. Parameters describing foam formation and destabilization by liquid drainage and disproportionation obtained by the two methods showed that the addition of xanthan was accompanied by delayed rates of drainage and disproportionation and reduced foam height decay (collapse). Drainage showed the largest reduction, mainly because of the increased bulk viscosity. In the absence of xanthan, protein denaturation enhanced foam formation and stability against drainage and disproportionation, but increased the collapse of foams. In the presence of xanthan, differences in foam formation and drainage/disproportionation stability between native and denatured soy protein were greatly reduced. However, differences in foam collapse were greatly enhanced. The increased stability of foams in the presence of xanthan could not be explained purely in terms of increased aqueous phase viscosity. More specific interactions of xanthan and soy proteins at the air-water interface influencing the surface rheology, and the protein composition and aggregation, are involved. © 2001 Elsevier Science B.V.
author Carp, Dina Judith
author_facet Carp, Dina Judith
author_sort Carp, Dina Judith
title Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
title_short Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
title_full Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
title_fullStr Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
title_full_unstemmed Effects of denaturation on soy protein-xanthan interactions: Comparison of a whipping-rheological and a bubbling method
title_sort effects of denaturation on soy protein-xanthan interactions: comparison of a whipping-rheological and a bubbling method
publishDate 2001
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09277765_v21_n1-3_p163_Carp
http://hdl.handle.net/20.500.12110/paper_09277765_v21_n1-3_p163_Carp
work_keys_str_mv AT carpdinajudith effectsofdenaturationonsoyproteinxanthaninteractionscomparisonofawhippingrheologicalandabubblingmethod
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