Whey protein concentration by ultrafiltration and study of functional properties

Whey protein concentration by ultrafiltration and study of functional properties

ABSTRACT: This paper aim to evaluate the ultrafiltration (UF) process for constituents recovery from whey. Sequences of factorial designs were performed by varying temperature (5 to 40°C) and pressure (1 to 3 bar), to maximize the proteins concentration using membrane of 100kDa in dead end system. B...

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Main Authors: Sidiane Iltchenco, Daiane Preci, Carla Bonifacino, Eugenia Franco Fraguas, Clarice Steffens, Luis Alberto Panizzolo, Rosicler Colet, Ilizandra Aparecida Fernandes, Cecilia Abirached, Eunice Valduga, Juliana Steffens
Format: Article
Language:English
Published: Universidade Federal de Santa Maria 2018-06-01
Series:Ciência Rural
Subjects:
Ultrafiltração
soro de leite
dead end
solubilidade
estabilidade de emulsão
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-84782018000500602&lng=en&tlng=en
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spelling doaj-099ea4ee472b467da4d6c9bf1453d1372020-11-24T21:39:02ZengUniversidade Federal de Santa MariaCiência Rural1678-45962018-06-0148510.1590/0103-8478cr20170807S0103-84782018000500602Whey protein concentration by ultrafiltration and study of functional propertiesSidiane IltchencoDaiane PreciCarla BonifacinoEugenia Franco FraguasClarice SteffensLuis Alberto PanizzoloRosicler ColetIlizandra Aparecida FernandesCecilia AbirachedEunice ValdugaJuliana SteffensABSTRACT: This paper aim to evaluate the ultrafiltration (UF) process for constituents recovery from whey. Sequences of factorial designs were performed by varying temperature (5 to 40°C) and pressure (1 to 3 bar), to maximize the proteins concentration using membrane of 100kDa in dead end system. Based on the best result new experiments were performed with membrane of 50kDa and 10kDa. With the membrane of 50 the protein retention was about 3 times higher than the membrane of 100kDa. The concentrated obtained by UF membrane of 10kDa, 10°C and 2 bar in laboratory scale showed a mean protein retention of 80 %, greater protein solubility, emulsion stability and the identification of β-lactoglobulins (18.3 kDa) and α-lactalbumin fractions (14.2kDa). Therefore, the use of membrane of 100 and 50kDa are became a industrially recommendable alternatives to concentration of whey proteins, and/or as a previous step to the fractionation of whey constituents using membrane ≤10kDa, aiming at future applications in different areas (food, pharmaceutical, chemical, etc.).http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-84782018000500602&lng=en&tlng=enUltrafiltraçãosoro de leitedead endsolubilidadeestabilidade de emulsão
collection DOAJ
language English
format Article
sources DOAJ
author Sidiane Iltchenco
Daiane Preci
Carla Bonifacino
Eugenia Franco Fraguas
Clarice Steffens
Luis Alberto Panizzolo
Rosicler Colet
Ilizandra Aparecida Fernandes
Cecilia Abirached
Eunice Valduga
Juliana Steffens
spellingShingle Sidiane Iltchenco
Daiane Preci
Carla Bonifacino
Eugenia Franco Fraguas
Clarice Steffens
Luis Alberto Panizzolo
Rosicler Colet
Ilizandra Aparecida Fernandes
Cecilia Abirached
Eunice Valduga
Juliana Steffens
Whey protein concentration by ultrafiltration and study of functional properties
Ciência Rural
Ultrafiltração
soro de leite
dead end
solubilidade
estabilidade de emulsão
author_facet Sidiane Iltchenco
Daiane Preci
Carla Bonifacino
Eugenia Franco Fraguas
Clarice Steffens
Luis Alberto Panizzolo
Rosicler Colet
Ilizandra Aparecida Fernandes
Cecilia Abirached
Eunice Valduga
Juliana Steffens
author_sort Sidiane Iltchenco
title Whey protein concentration by ultrafiltration and study of functional properties
title_short Whey protein concentration by ultrafiltration and study of functional properties
title_full Whey protein concentration by ultrafiltration and study of functional properties
title_fullStr Whey protein concentration by ultrafiltration and study of functional properties
title_full_unstemmed Whey protein concentration by ultrafiltration and study of functional properties
title_sort whey protein concentration by ultrafiltration and study of functional properties
publisher Universidade Federal de Santa Maria
series Ciência Rural
issn 1678-4596
publishDate 2018-06-01
description ABSTRACT: This paper aim to evaluate the ultrafiltration (UF) process for constituents recovery from whey. Sequences of factorial designs were performed by varying temperature (5 to 40°C) and pressure (1 to 3 bar), to maximize the proteins concentration using membrane of 100kDa in dead end system. Based on the best result new experiments were performed with membrane of 50kDa and 10kDa. With the membrane of 50 the protein retention was about 3 times higher than the membrane of 100kDa. The concentrated obtained by UF membrane of 10kDa, 10°C and 2 bar in laboratory scale showed a mean protein retention of 80 %, greater protein solubility, emulsion stability and the identification of β-lactoglobulins (18.3 kDa) and α-lactalbumin fractions (14.2kDa). Therefore, the use of membrane of 100 and 50kDa are became a industrially recommendable alternatives to concentration of whey proteins, and/or as a previous step to the fractionation of whey constituents using membrane ≤10kDa, aiming at future applications in different areas (food, pharmaceutical, chemical, etc.).
topic Ultrafiltração
soro de leite
dead end
solubilidade
estabilidade de emulsão
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0103-84782018000500602&lng=en&tlng=en
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