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Isopanose O-IPAN
Product code: O-IPAN
€0.00

100 mg

Prices exclude VAT

This product has been discontinued

Content: 100 mg
Shipping Temperature: Ambient
Storage Temperature: Ambient
Physical Form: Powder
Stability: > 10 years under recommended storage conditions
CAS Number: 32581-33-2
Molecular Formula: C18H32O16
Molecular Weight: 504.4
Purity: > 95%
Substrate For (Enzyme): Amyloglucosidase

This product has been discontinued (read more).

High purity isopanose (6-O-α-D-maltosyl-glucosose) for use in research, biochemical enzyme assays and in vitro diagnostic analysis. Isopanose is formed by the action of isopullulanase on pullulan. It can be used as an analytical standard or as a substrate to help characterise the activities of other starch degrading enzymes including α-glucosidase and amyloglucosidase.

Documents
Certificate of Analysis
Safety Data Sheet
Data Sheet
Publications
Publication

In vitro digestibility of commercial and experimental isomalto-oligosaccharides.

Hu, Y., Winter, V. & Gänzle, M. (2020). Food Research International, 134, 109250.

Isomalto-oligosaccharides (IMO) significantly contribute to the global oligosaccharide market. IMO are linear α-(1 → 6) linked oligosaccharides with isomaltotriose as the representative trisaccharide. Commercial IMO preparations ypically also contain panose-series oligosaccharides as a major component. In humans, IMO are partially digestible but the digestibility of specific components of commerical IMO preparations remains unknown. This study aimed to compare the in vitro digestibility of reference compounds, experimental α-gluco-oligosaccharides and commercial IMO. Experimental α-gluco-oligosaccharides were synthesized with the recombinant dextransucrase DsrM. Two in vitro digestion methods were used, a reference method matching the AOAC method for dietary fibre, and a protocol that uses brush border glycosyl hydrolases from the rat intestine. The α-gluco-oligosaccharides patterns after hydrolysis remain were analyzed by high performance anion exchange chromatography coupled to pulsed amperometric detection. Panose-series oligosaccharides were hydrolysed more rapidly by amylase and amyloglucosidase when compared to hydrolysis by rat intestinal enzymes. The rate of hydrolysis by rat intestinal enzymes decreased in the order panose > isomaltose, kojibiose or nigerose. Hydrolysis of panose-series oligosaccharides but not the hydrolysis of isomalto-oligosaccharides was dependent on the degree of polymerization. Qualitative analysis of oligosaccharides remaining after hydrolysis indicated that rat small intestinal enzymes hydrolyse their substrates from the non-reducing end. Taken together, results inform on the modification or optimization of current production processes for IMO to obtain tailored oligosaccharide preparations with reduced digestibility and an increased content of dietary fibre.

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Safety Data Sheet
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