What is the Difference Between Maltose and Isomaltose?
🆚 Go to Comparative Table 🆚Maltose and isomaltose are both disaccharides, which means they have two sugar units joined to each other. However, they differ in the type of bond that connects the two glucose units. The key differences between maltose and isomaltose are:
- Glycosidic Bond: In maltose, the two glucose units are linked by an α-(1→4) bond, while in isomaltose, they are connected by an α-(1→6) bond.
- Chemical Structure: Maltose has a chemical structure of C12H22O11, with a molecular weight of 342.30 g/mol. Isomaltose, being an isomer of maltose, has a similar chemical structure but with the differing glycosidic bond.
- Reducing Sugar: Both maltose and isomaltose are reducing sugars, as they can form open-chain forms with their functional groups acting as reducing agents.
In summary, the primary difference between maltose and isomaltose is the type of glycosidic bond that connects the two glucose units in their structures. While maltose has an α-(1→4) bond, isomaltose has an α-(1→6) bond. Both disaccharides are reducing sugars, making them chemically similar in some aspects but unique in their bonding patterns.
Comparative Table: Maltose vs Isomaltose
Maltose and isomaltose are both disaccharide sugars, but they have different glycosidic linkages between their glucose units. Here is a comparison table highlighting the differences between them:
Property | Maltose | Isomaltose |
---|---|---|
Chemical Formula | C12H22O11 | C12H22O11 |
Molar Mass | 342.30 g/mol | 342.30 g/mol |
Melting Point | - | 98-160 °C |
Solubility | Water-soluble | Water-soluble |
Glycosidic Bond Type | α-1→4 | α-1→6 |
Source | Derived from starch | Derived from maltose |
Reducing Sugar | Yes | Yes |
Optical Activity | - | - |
Taste | Sweet | Sweet |
Uses | Food and beverage sweetening | Food and beverage sweetening |
Both maltose and isomaltose are reducing sugars, meaning they have a free aldehyde or ketone group that can act as a reducing agent. They are also water-soluble and have a sweet taste, making them suitable as sweeteners in food and beverage products.
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