What is the Difference Between Cellobiose and Maltose?
🆚 Go to Comparative Table 🆚Cellobiose and maltose are both dimers of D-glucose, formed by condensing the monomers at their C1 and C4 positions and removing H2O. However, there are key differences between the two:
- Glycosidic Bonds: The main difference between cellobiose and maltose is the type of glycosidic bond that connects the glucose units. Cellobiose contains a beta-1,4 glycosidic bond, while maltose contains an alpha-1,4 glycosidic bond.
- Configuration: Maltose is connected through the alpha-position of the C1 carbon, while cellobiose is connected through the beta-position.
- Source: Maltose comes from partially digested starch, and cellobiose comes from partially degraded cellulose.
- Enzyme Interaction: Enzymes designed to make or break alpha-1,4 bonds cannot affect beta-1,4 bonds, and vice versa.
In summary, cellobiose and maltose are both disaccharides composed of two glucose units, but they differ in the type of glycosidic bond, the configuration of the bond, and their source. These differences in structure lead to distinct interactions with enzymes and affect their function within the plant.
Comparative Table: Cellobiose vs Maltose
Cellobiose and maltose are both disaccharide carbohydrates, but they have distinct differences in their structure and formation. Here is a comparison table highlighting their differences:
Feature | Cellobiose | Maltose |
---|---|---|
Chemical Formula | C12H22O11 | C12H22O11 |
Glycosidic Bond | beta 1,4-glycosidic | alpha 1,4-glycosidic |
Configuration | beta (1 → 4) | alpha (1 → 4) |
Glucose Units | 2 beta-glucose molecules | 2 alpha-glucose molecules |
Formation | Formed from the partial digestion of cellulose, either enzymatically or acidically | Produced from the breakdown of starch, e.g., by enzymes found in malt and saliva |
Solubility | Water-soluble | Water-soluble |
Reducing Sugar | Yes | Yes |
Common Features | - Both are dimers of D-glucose - Both undergo condensation at their C1 and C4 positions, removing H2O |
- Both are dimers of D-glucose - Both undergo condensation at their C1 and C4 positions, removing H2O |
The key difference between cellobiose and maltose is the type of glycosidic bond and the configuration at the glycosidic bond, which results in different structures for each disaccharide.
- Cellobiose vs Cellulose
- Trehalose vs Maltose
- Maltose vs Isomaltose
- Amylose vs Cellulose
- Sugar vs Glucose
- Glucose vs Galactose
- Glucose vs Fructose
- Cellulose vs Glycogen vs Glucose
- Sucrose vs Glucose
- Amylase vs Amylose
- Cellulose vs Cellulase
- Arabinose vs Xylose
- Cellulose vs Starch
- Sucrose vs Fructose
- Dextrose vs Glucose
- Sucrose vs Lactose
- Cellulose vs Hemicellulose
- Amylose vs Amylopectin
- Glycogen vs Glucose