Isoamylase (Glycogen 6-glucanohydrolase)
(Flavobacterium odoratum)
800 Units
This product has been discontinued
Validation of Methods


These, E-ISAMYFO-800U and E-ISAMYFO-200U (read more), pack sizes have been discontinued.
Pure Isoamylase (Glycogen 6-glucanohydrolase) (Flavobacterium odoratum) for use in biochemical enzyme assays and analytical testing applications. Isoamylase, Fructanase (E-FRMXPD) and Amyloglucosidase (E-AMGDF) are used in the enzyme hydrolysis step of two validated methods for the determination of polydextrose (a low molar mass dietary fiber) in foods: AOAC method 2000.11 and Chinese GB Standard 5009.245-2016.
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Publications
Regulation of naked oat starch structure and thermal properties: the key role of phosphorus.
Feng, W., Huang, Z., Pan, B., Zhang, T., Jin, Z. & Miao, M. (2025). Food Bioscience, 68, 106673.
Regulation of naked oat starch structure and thermal properties: the key role of phosphorus.
Feng, W., Huang, Z., Pan, B., Zhang, T., Jin, Z. & Miao, M. (2025). Food Bioscience, 68, 106673.
Phosphorus, a key trace element, significantly influences starch structure and functionality. However, its specific effects on naked oat starch remain unclear, limiting further development and industrial applications. This study explored the relationship between the chemical composition, molecular structure, and thermodynamic properties of six Chinese naked oat starch varieties extracted via the alkali method, with a particular focus on their phosphorus content. Results showed that all starch samples exhibited A-type crystallinity, irregular polygonal granules, and dense structures, with phosphorus content varying from 416.6 to 904.1 ppm. Crystallinity and thermal analyses revealed substantial differences in starch properties across varieties. Notably, some naked oat starches with higher amylopectin A-chain proportions exhibited elevated relative crystallinity, gelatinization temperatures, and thermal stability due to higher phosphorus content. Pearson correlation analysis revealed positive correlations between phosphorus content and amylopectin B2 (DP 25–36) and B3 (DP > 36) chain proportions, gelatinization enthalpy (r = 0.97, p < 0.05), onset temperature (r = 0.82, p < 0.05) and breakdown viscosity (r = 0.98, p < 0.05), but a negative correlation with peak viscosity (r = −0.62, p < 0.05). The long chains of amylopectin (DP > 24) provide more binding sites and space, facilitating the interaction of phospholipids and the formation of complexes, thereby enhancing crystalline order and thermal stability. Overall, this study elucidates the critical role of phosphorus in modulating naked oat starch structure and thermodynamic behavior, providing valuable insights for the industrial application of starch.
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