Abstract
Current research on milk bioactive components, including complex oligosaccharides, stimulated development of novel milk-based ingredients; this in turn sparked the development of methods that are simultaneously simple and sensitive. Oligosaccharides and glycoproteins present interesting health benefits, including antibacterial and antiviral effects, stimulation of the immune system, and participation in the establishment of a balanced gut microbiome in infants. This work describes the application of a simple and rapid method—Total Carbohydrate Assay—to the determination of functional carbohydrate content in various dairy-based functional products. The miniaturization and optimization of the carbohydrate quantification on microplates afforded good repeatability and sensitivity. The optimized method consumed only minimal amounts of reagents and samples, and carbohydrates were detected in the range from 0 - 20 μg. This assay was successfully applied to determine the content of complicated oligosaccharide mixtures and N-glycans in dairy-derived products. Several complementary analytical techniques were applied to confirm the results. This method is faster and far less expensive than mass spectrometry and it gives a general picture of complex carbohydrate concentrations for instances in which detailed data are not required as needed for research in discrete differences among various biological samples. The ability to quantify glycans in novel food products will provide a unique understanding of the potential of these novel ingredients for use by the food industry.
Highlights
Functional foods are identified as crucial elements for the development of the food industry and research
Milk contains a variety of components, including proteins, peptides, lipids, carbohydrates and salts, which are essential for nourishing and protecting the infant
Test-Combination from Lactose/D-Glucose kit from R-Biopharm (Darmstadt, Germany) included 600 mg of lyophilizate, consisting of citrate buffer pH 6.6; 1.7 mL suspension β-galactosidase; 5 g of powder mixture consisting of triethanolamine buffer pH 7.6; 70 mg of nicotinamide-adenine dinucleotide phosphate (NADP), 170 mg of adenosine-5’-triphosphate (ATP); magnesium sulfate; 1.4 mL suspension consisting of hexokinase (HK); and glucose-6-phosphate dehydrogenase (G6PDH)
Summary
Functional foods are identified as crucial elements for the development of the food industry and research. Milk contains a variety of components, including proteins, peptides, lipids, carbohydrates and salts, which are essential for nourishing and protecting the infant. Carbohydrates are one of the most important components present in high concentration [1]. The main carbohydrates in milk are lactose, oligosaccharides, monosaccharides and N-glycans. Oligosaccharides are some of the most important bioactive components in milk, but they are still undercharacterized due to their overall complexity. The structural elements fucose and sialic acid appear to be crucial to the ability of oligosaccharides to act as bioactive components. Five monosaccharides (glucose, galactose, N-acetyl-glucosamine, fucose and sialic acid) are linked in various ways through at least 12 alpha- and beta-glycosidic linkages. Oligosaccharides and glycoproteins present interesting health benefits, including antibacterial and antiviral effects, stimulation of the immune system, and participation in the establishment of a balanced gut microbi-
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