Textural properties of low-fat set-type yoghurt depending on mTG addition

Textural properties of low-fat set-type yoghurt depending on mTG addition

Our aim was to determine how 0.5-2 U/g non-inactivated mTG affects the pH development and apparent viscosity during fermentation. Furthermore we wished to examine how the enzyme addition could change protein structure, gel strength and sensory characteristics by healthy low-fat set-type yoghurt prod...

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Main Authors: Lívia Darnay, Ágota Koncz, Éva Gelencsér, Klára Pásztor-Huszár, László Friedrich
Format: Article
Language:English
Published: Croatian Dairy Union 2016-07-01
Series:Mljekarstvo
Subjects:
fermentation; low-fat yoghurt; transglutaminase; gel strength; apparent viscosity; sensory evaluation
Online Access:http://hrcak.srce.hr/index.php?show=clanak&id_clanak_jezik=237735
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spelling doaj-4a07556ebffc48b382e41e3ddd7e78c72020-11-24T21:22:32ZengCroatian Dairy UnionMljekarstvo0026-704X1846-40252016-07-0166322523010.15567/mljekarstvo.2016.0307Textural properties of low-fat set-type yoghurt depending on mTG additionLívia Darnay 0Ágota Koncz1Éva Gelencsér2Klára Pásztor-Huszár 3László Friedrich4Corvinus University of Budapest, Faculty of Food Science, Department of Refrigeration and Livestock Products Technology, Budapest, HungaryCorvinus University of Budapest, Faculty of Food Science, Department of Refrigeration and Livestock Products Technology, Budapest, HungaryUnit of Biology, National Agricultural Research and Innovation Centre Food Science Research Institute, 1022 Budapest, Herman Ottó út 15, HungaryCorvinus University of Budapest, Faculty of Food Science, Department of Refrigeration and Livestock Products Technology, Budapest, HungaryCorvinus University of Budapest, Faculty of Food Science, Department of Refrigeration and Livestock Products Technology, Budapest, Hungary Our aim was to determine how 0.5-2 U/g non-inactivated mTG affects the pH development and apparent viscosity during fermentation. Furthermore we wished to examine how the enzyme addition could change protein structure, gel strength and sensory characteristics by healthy low-fat set-type yoghurt product. Therefore commercial mTG enzyme preparation was added in different concentrations (0.5-2.0 U/g, in 0.5 U/g steps) to 1.5 % bovine milk simultaneously with DVS starter culture. Our study revealed that enzyme dosage (0.5-2 U/g protein) had no impact on pH development and apparent viscosity during fermentation when manufacturing low-fat (1.5 %) set-type yoghurt. The addition of mTG contributed to 38 % more whey retention with incorporation of β-casein, and caused 44 % higher gel strength up to a level of 1 U/g protein.http://hrcak.srce.hr/index.php?show=clanak&id_clanak_jezik=237735fermentation; low-fat yoghurt; transglutaminase; gel strength; apparent viscosity; sensory evaluation
collection DOAJ
language English
format Article
sources DOAJ
author Lívia Darnay
Ágota Koncz
Éva Gelencsér
Klára Pásztor-Huszár
László Friedrich
spellingShingle Lívia Darnay
Ágota Koncz
Éva Gelencsér
Klára Pásztor-Huszár
László Friedrich
Textural properties of low-fat set-type yoghurt depending on mTG addition
Mljekarstvo
fermentation; low-fat yoghurt; transglutaminase; gel strength; apparent viscosity; sensory evaluation
author_facet Lívia Darnay
Ágota Koncz
Éva Gelencsér
Klára Pásztor-Huszár
László Friedrich
author_sort Lívia Darnay
title Textural properties of low-fat set-type yoghurt depending on mTG addition
title_short Textural properties of low-fat set-type yoghurt depending on mTG addition
title_full Textural properties of low-fat set-type yoghurt depending on mTG addition
title_fullStr Textural properties of low-fat set-type yoghurt depending on mTG addition
title_full_unstemmed Textural properties of low-fat set-type yoghurt depending on mTG addition
title_sort textural properties of low-fat set-type yoghurt depending on mtg addition
publisher Croatian Dairy Union
series Mljekarstvo
issn 0026-704X
1846-4025
publishDate 2016-07-01
description Our aim was to determine how 0.5-2 U/g non-inactivated mTG affects the pH development and apparent viscosity during fermentation. Furthermore we wished to examine how the enzyme addition could change protein structure, gel strength and sensory characteristics by healthy low-fat set-type yoghurt product. Therefore commercial mTG enzyme preparation was added in different concentrations (0.5-2.0 U/g, in 0.5 U/g steps) to 1.5 % bovine milk simultaneously with DVS starter culture. Our study revealed that enzyme dosage (0.5-2 U/g protein) had no impact on pH development and apparent viscosity during fermentation when manufacturing low-fat (1.5 %) set-type yoghurt. The addition of mTG contributed to 38 % more whey retention with incorporation of β-casein, and caused 44 % higher gel strength up to a level of 1 U/g protein.
topic fermentation; low-fat yoghurt; transglutaminase; gel strength; apparent viscosity; sensory evaluation
url http://hrcak.srce.hr/index.php?show=clanak&id_clanak_jezik=237735
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AT evagelencser texturalpropertiesoflowfatsettypeyoghurtdependingonmtgaddition
AT klarapasztorhuszar texturalpropertiesoflowfatsettypeyoghurtdependingonmtgaddition
AT laszlofriedrich texturalpropertiesoflowfatsettypeyoghurtdependingonmtgaddition
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