Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents

Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents

The influence of the protein, fat and sugar in almond milk on the formation of the acidic gel was investigated by determining their physicochemical and microstructural properties. The protein, fat and sugar in the almond milk were varied from 2% to 6%, 0.8%–7% and 0.6%–7%, respectively and fermented...

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Main Authors: Jia Zhao, Bhesh Bhandari, Claire Gaiani, Sangeeta Prakash
Format: Article
Language:English
Published: Elsevier 2021-01-01
Series:Current Research in Food Science
Subjects:
Almond yoghurt
Protein
Fat
Sugar
Gel properties
Online Access:http://www.sciencedirect.com/science/article/pii/S2665927121000605
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spelling doaj-f4fb273cfb024aaf8f6cd386de079f452021-08-28T04:48:44ZengElsevierCurrent Research in Food Science2665-92712021-01-014577587Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contentsJia Zhao0Bhesh Bhandari1Claire Gaiani2Sangeeta Prakash3School of Agriculture and Food Sciences, The University of Queensland, St Lucia QLD, 4072, AustraliaSchool of Agriculture and Food Sciences, The University of Queensland, St Lucia QLD, 4072, AustraliaLaboratoire d'Ingénierie des Biomolécules (LIBio), Université de Lorraine, Nancy, FranceSchool of Agriculture and Food Sciences, The University of Queensland, St Lucia QLD, 4072, Australia; Corresponding author.The influence of the protein, fat and sugar in almond milk on the formation of the acidic gel was investigated by determining their physicochemical and microstructural properties. The protein, fat and sugar in the almond milk were varied from 2% to 6%, 0.8%–7% and 0.6%–7%, respectively and fermented using Lactobacillus delbrueckii subsp. bulgaricus and Streptococcus thermophiles cultures to form a gel structure. Both protein and fat increased the gel strength, viscosity (stirred gel) and lightness of almond yoghurts as the concentration increased. The addition of protein content increased the cohesiveness (from 0.70 to 1.17), water holding capacity (from 28.75% to 52.22%) and D4,3 value of particle size (from 32.76 μm to 44.41 μm) of almond yoghurt. Fat reduction decreased the firmness (from 6.56 g to 4.69 g), D4,3 value (from 88.53 μm to 18.37 μm), and water holding capacity (from 48.96% to 27.66%) of almond yoghurt. With sugar addition, almond yoghurt showed increased adhesiveness, decreased lightness and a low pH, with no significant difference in firmness, particle size, and flow behaviour. The confocal images provided evidence that the fortified protein contents homogeneously entrapped fat globules resulting in a more stable gel network and increased fat content led to large fat globule formation resulting in a harder gel network, while the added sugar did not significantly affect the gel network. The results suggested that the protein fortification enhances the texture of almond yoghurt. The fat content of 7% with 3.5% protein showed poor consistency and gel strength of yoghurt. Sugar mainly contributed to bacterial metabolism during fermentation.http://www.sciencedirect.com/science/article/pii/S2665927121000605Almond yoghurtProteinFatSugarGel properties
collection DOAJ
language English
format Article
sources DOAJ
author Jia Zhao
Bhesh Bhandari
Claire Gaiani
Sangeeta Prakash
spellingShingle Jia Zhao
Bhesh Bhandari
Claire Gaiani
Sangeeta Prakash
Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
Current Research in Food Science
Almond yoghurt
Protein
Fat
Sugar
Gel properties
author_facet Jia Zhao
Bhesh Bhandari
Claire Gaiani
Sangeeta Prakash
author_sort Jia Zhao
title Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
title_short Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
title_full Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
title_fullStr Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
title_full_unstemmed Physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
title_sort physicochemical and microstructural properties of fermentation-induced almond emulsion-filled gels with varying concentrations of protein, fat and sugar contents
publisher Elsevier
series Current Research in Food Science
issn 2665-9271
publishDate 2021-01-01
description The influence of the protein, fat and sugar in almond milk on the formation of the acidic gel was investigated by determining their physicochemical and microstructural properties. The protein, fat and sugar in the almond milk were varied from 2% to 6%, 0.8%–7% and 0.6%–7%, respectively and fermented using Lactobacillus delbrueckii subsp. bulgaricus and Streptococcus thermophiles cultures to form a gel structure. Both protein and fat increased the gel strength, viscosity (stirred gel) and lightness of almond yoghurts as the concentration increased. The addition of protein content increased the cohesiveness (from 0.70 to 1.17), water holding capacity (from 28.75% to 52.22%) and D4,3 value of particle size (from 32.76 μm to 44.41 μm) of almond yoghurt. Fat reduction decreased the firmness (from 6.56 g to 4.69 g), D4,3 value (from 88.53 μm to 18.37 μm), and water holding capacity (from 48.96% to 27.66%) of almond yoghurt. With sugar addition, almond yoghurt showed increased adhesiveness, decreased lightness and a low pH, with no significant difference in firmness, particle size, and flow behaviour. The confocal images provided evidence that the fortified protein contents homogeneously entrapped fat globules resulting in a more stable gel network and increased fat content led to large fat globule formation resulting in a harder gel network, while the added sugar did not significantly affect the gel network. The results suggested that the protein fortification enhances the texture of almond yoghurt. The fat content of 7% with 3.5% protein showed poor consistency and gel strength of yoghurt. Sugar mainly contributed to bacterial metabolism during fermentation.
topic Almond yoghurt
Protein
Fat
Sugar
Gel properties
url http://www.sciencedirect.com/science/article/pii/S2665927121000605
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