Food Grade Transglucosidase (α-Glucosidase) Enzyme for Isomaltooligosaccharide (IMO) & Isomaltose Production-100g
Transglucosidase, ,亦称 α-glucosidase, is a food-grade enzyme preparation widely used in 食物, chemical, 和 biotechnology / medical-related applications that require carbohydrate conversion. This enzyme supports both hydrolysis 和 transglycosylation reactions, promoting the formation of α-1,6 glycosidic bonds and enabling the production of functional sugars such as isomaltooligosaccharides (IMO) 和 isomaltose.
In industrial sugar and starch processing, transglucosidase is valued for its ability to reshape carbohydrate profiles beyond simple glucose release. Unlike enzymes that only break down starch into fermentable sugars, transglucosidase can transfer glucose residues to other sugar molecules, forming branched oligosaccharides that contribute to improved stability, a smoother sweetness profile, and enhanced functional sugar content. It is often used to support the manufacture of functional sweeteners, low-sugar syrup systems, and carbohydrate-modified ingredients.
主要优势
- Supports IMO production by promoting α-1,6 glycosidic bond formation
- Helps generate non-fermentable / low-fermentable oligosaccharides depending on process design
- Improves carbohydrate profiles for functional sweeteners and syrup applications
- Works effectively under mild acidic to neutral conditions
- Fully water-soluble liquid enzyme, easy to dose in batch or continuous processes
建议用量
Recommended addition level: 120–180 U/g (based on substrate dry matter). Dosage may be adjusted depending on solids content, reaction time, and desired oligosaccharide distribution.
Recommended Process Conditions
- Temperature working range: 35–70°C
- pH working range: 3.5–6.5
- Suggested reaction reference conditions: 58–60°C, pH 5.0–5.5, 30 hours (optimize based on your process goals)
产品信息
原料: Transglucosidase; carrier/stabilizer: glycerol
外貌: 淡黄色液体
作用机制
Transglucosidase (α-glucosidase) participates in carbohydrate conversion by exhibiting both hydrolytic activity 和 transglycosylation activity. It can hydrolyze α-glucosidic bonds to release glucose and, importantly, it can transfer glucose residues from substrates (such as oligosaccharides) to acceptor molecules, forming new glycosidic linkages. Through this process, glucose residues can be relocated from α-1,4 bonds and reassembled as α-1,6 bonds, resulting in the formation of non-fermentable, low-reducing oligosaccharides such as IMO.
应用
- Isomaltooligosaccharide (IMO) syrup manufacturing
- Isomaltose and functional carbohydrate conversion
- Sugar and starch deep processing
- Fermentation substrates and carbohydrate modification
- Food, chemical, and biotechnology-related industrial uses
Quality & Typical Specifications
- 密度: 1.05–1.25 g/mL
- pH(25°C): 3.0–5.5
- 铅(Pb): ≤ 5.0 毫克/千克
- Total arsenic (as As): ≤ 3.0 毫克/千克
- Total plate count: ≤ 50,000 CFU/mL
- 大肠菌群: < 30 CFU/mL
- 大肠杆菌: < 10 CFU/mL or < 3.0 MPN/mL
- Salmonella (25 mL): 未检测到
存储和处理
密封存放于 凉爽干燥的环境. Refrigerated storage is recommended to maximize activity retention. Avoid prolonged exposure to high temperatures and direct sunlight. Keep container closed when not in use to reduce contamination risks.
包装
0.1 kg bottle (supplied in an industrial-grade plain bottle). Please note that the product image is for illustration purposes. Actual packaging may differ.
注释
Process performance depends on substrate composition, reaction setup, and production targets. For best results, we recommend conducting a pilot trial to determine optimal dosage and reaction time for your specific application.
