Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid

Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using β-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. Most galacto-oligosaccharide preparations currently available in the m...

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Published inCarbohydrate research Vol. 343; no. 12; pp. 2140 - 2147
Main Authors Maischberger, Thomas, Nguyen, Thu-Ha, Sukyai, Prakit, Kittl, Roman, Riva, Sergio, Ludwig, Roland, Haltrich, Dietmar
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 11.08.2008
Subjects
Basidiomycota - enzymology
Carbohydrate Dehydrogenases - metabolism
Cellobiose dehydrogenase
Chromatography, Gel
Chromatography, Ion Exchange
Disaccharides - biosynthesis
Disaccharides - isolation & purification
Galacto-oligosaccharides
Galactose - metabolism
Laccase
Lactobionic acid
Lactose - isolation & purification
Lactose - metabolism
Monosaccharides - isolation & purification
Oligosaccharides - biosynthesis
Prebiotics
Probiotics
Transgalactosylation
β-Galactosidase
GalOS
Cellobiose dehydrogenase
CE
CDH
TLC
HPAEC-PAD
Prebiotics
oNP
Transgalactosylation
Galacto-oligosaccharides
Lactobionic acid
DCIP
ABTS
oNPG, o-nitrophenyl-β- d-galactopyranoside
β-Galactosidase
Laccase
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Abstract Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using β-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant β-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%.
AbstractList Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using β-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant β-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%.
Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great interest for food and feed applications because of their prebiotic properties. Most galacto-oligosaccharide preparations currently available in the market contain a significant amount of monosaccharides and lactose. The mixture of galacto-oligosaccharides (GalOS) in this study produced from lactose using recombinant beta-galactosidase from Lactobacillus reuteri contains 48% monosaccharides, 26.5% lactose and 25.5% GalOS. To remove efficiently both monosaccharides and lactose from this GalOS mixture containing significant amounts of prebiotic non-lactose disaccharides, a biocatalytic approach coupled with subsequent chromatographic steps was used. Lactose was first oxidised to lactobionic acid using fungal cellobiose dehydrogenases, and then lactobionic acid and monosaccharides were removed by ion-exchange and size-exclusion chromatography. Two different cellobiose dehydrogenases (CDH), originating from Sclerotium rolfsii and Myriococcum thermophilum, were compared with respect to their applicability for this process. CDH from S. rolfsii showed higher specificity for the substrate lactose, and only few other components of the GalOS mixture were oxidised during prolonged incubation. Since these sugars were only converted once lactose oxidation was almost complete, careful control of the CDH-catalysed reaction will significantly reduce the undesired oxidation, and hence subsequent removal, of any GalOS components. Removal of ions and monosaccharides by the chromatographic steps gave an essentially pure GalOS product, containing less than 0.3% lactose and monosaccharides, in a yield of 60.3%.
Author Haltrich, Dietmar
Maischberger, Thomas
Nguyen, Thu-Ha
Sukyai, Prakit
Ludwig, Roland
Kittl, Roman
Riva, Sergio
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  organization: Division of Food Biotechnology, Department of Food Sciences and Technology, University of Natural Resources and Applied Life Sciences (BOKU), Muthgasse 18, 1190 Wien, Austria
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Issue 12
Keywords GalOS
Cellobiose dehydrogenase
CE
CDH
TLC
HPAEC-PAD
Prebiotics
oNP
Transgalactosylation
Galacto-oligosaccharides
Lactobionic acid
DCIP
ABTS
oNPG, o-nitrophenyl-β- d-galactopyranoside
β-Galactosidase
Laccase
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Snippet Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using β-galactosidase and are of great interest...
Galacto-oligosaccharides, complex mixtures of various sugars, are produced by transgalactosylation from lactose using beta-galactosidase and are of great...
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SubjectTerms Basidiomycota - enzymology
Carbohydrate Dehydrogenases - metabolism
Cellobiose dehydrogenase
Chromatography, Gel
Chromatography, Ion Exchange
Disaccharides - biosynthesis
Disaccharides - isolation & purification
Galacto-oligosaccharides
Galactose - metabolism
Laccase
Lactobionic acid
Lactose - isolation & purification
Lactose - metabolism
Monosaccharides - isolation & purification
Oligosaccharides - biosynthesis
Prebiotics
Probiotics
Transgalactosylation
β-Galactosidase
Title Production of lactose-free galacto-oligosaccharide mixtures: comparison of two cellobiose dehydrogenases for the selective oxidation of lactose to lactobionic acid
URI https://dx.doi.org/10.1016/j.carres.2008.01.040
https://www.ncbi.nlm.nih.gov/pubmed/18353295
https://search.proquest.com/docview/69232143
Volume 343
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