What is the Difference Between Ribose and Ribulose?
🆚 Go to Comparative Table 🆚Ribose and ribulose are both monosaccharides, pentose sugars containing 5 carbons, and have the same chemical formula, C5H10O5. However, they have distinct structural differences that lead to their different functions in living organisms. The main differences between ribose and ribulose are:
- Functional Group: Ribose is an aldose sugar, containing an aldehyde group (-CHO), while ribulose is a ketose sugar, containing a ketone group (-C=O).
- Carbon Numbering: In ribose, the double bond is on the first carbon, while in ribulose, the double bond is on the second carbon.
- Function: Ribose forms the backbone of ribonucleic acid (RNA), playing a crucial role in the storage and transmission of genetic information. Ribulose, on the other hand, is involved in the initial CO2 acceptor in the dark reaction or Calvin cycle of photosynthesis.
In summary, ribose and ribulose are structural isomers with the same chemical formula but different functional groups and carbon numbering. These differences result in distinct functions in living organisms, with ribose being essential for RNA and ribulose playing a role in photosynthesis.
Comparative Table: Ribose vs Ribulose
Here is a table comparing the differences between ribose and ribulose:
Feature | Ribose | Ribulose |
---|---|---|
Type | Aldose sugar (-CHO) | Ketose sugar (-C=O) |
Carbon Numbering | 1st carbon double bond | 2nd carbon double bond |
Function | Forms the backbone of ribonucleic acid (RNA) | Initial CO2 acceptor in the dark reaction or Calvin cycle of photosynthesis |
Chemical Formula | C5H10O5 | C5H10O5 |
Structural Isomer | Yes | Yes |
Monosaccharide | Yes | Yes |
Pentose Sugar | Yes | Yes |
Both ribose and ribulose are monosaccharides, pentose sugars containing 5 carbons, and structural isomers. Ribose is an aldose sugar, containing an aldehyde group (-CHO), and forms the backbone of ribonucleic acid (RNA). In contrast, ribulose is a ketose sugar, containing a ketone group (-C=O), and serves as the initial CO2 acceptor in the dark reaction or Calvin cycle of photosynthesis. The main difference between ribose and ribulose is the type of functional group they contain and the position of the double bond in their structures.
- Deoxyribose vs Ribose
- a Ribonucleotide vs a Deoxyribonucleotide
- Erythrose vs Erythrulose
- Deoxyribonucleic acid vs Ribonucleic Acid
- rRNA vs Ribosomes
- Ribitol vs Glycerol Teichoic Acid
- Cellobiose vs Cellulose
- Arabinose vs Xylose
- Hexose vs Pentose
- Ribozymes vs Protein Enzymes
- Thymine vs Uracil
- Nicotinamide vs Nicotinamide Riboside
- Fucose vs Rhamnose
- Cellobiose vs Maltose
- Lysosomes vs Ribosomes
- Furanose vs Pyranose
- Nicotinamide Riboside vs Nicotinamide Mononucleotide
- Nicotinamide Adenine Dinucleotide vs Nicotinamide Riboside
- Thymine vs Thymidine