What is the Difference Between Prosthetic Group and Coenzyme?
🆚 Go to Comparative Table 🆚The main difference between a prosthetic group and a coenzyme lies in their composition and how they bind to enzymes. Here are the key differences:
- Prosthetic Group:
- Nonproteinaceous compound that helps enzymes.
- Binds tightly or covalently with enzymes.
- Composed of metal ions, vitamins, lipids, or sugars.
- Mainly provides structural properties to the enzyme.
- Cannot be easily removed from the enzyme.
- Examples include flavin nucleotides and heme.
- Coenzyme:
- Organic molecule that helps enzymes catalyze reactions.
- Binds loosely with the active site of the enzyme.
- Composed of vitamins, vitamin derivatives, or nucleotides.
- Mainly provides functional properties to the enzyme.
- Can be easily removed from the enzyme.
- Examples include AMP, ATP, coenzyme A, FAD, and NAD+, S-adenosyl methionine.
In summary, prosthetic groups are tightly bound, nonproteinaceous compounds that provide structural properties to enzymes, while coenzymes are organic molecules that bind loosely to enzymes and provide functional properties.
On this pageWhat is the Difference Between Prosthetic Group and Coenzyme? Comparative Table: Prosthetic Group vs Coenzyme
Comparative Table: Prosthetic Group vs Coenzyme
Here is a table comparing the differences between prosthetic groups and coenzymes:
Feature | Prosthetic Group | Coenzyme |
---|---|---|
Definition | A prosthetic group is a nonproteinaceous compound that is tightly or covalently bound to an enzyme, providing structural properties. | A coenzyme is a specific kind of cofactor molecule, an organic molecule that helps enzymes with their catalytic function. |
Bond with Enzymes | Prosthetic groups bind tightly or covalently with enzymes. | Coenzymes bind loosely with the active site of the enzyme. |
Composition | Prosthetic groups are composed of metal ions, vitamins, lipids, or sugars. | Coenzymes are made up of vitamins, vitamin derivatives, or nucleotides. |
Main Function | The primary function of prosthetic groups is to provide structural properties to the enzyme. | The main function of coenzymes is to provide functional properties to the enzyme. |
Removal from the Enzyme | Prosthetic groups cannot be easily removed from the enzymes. | Coenzymes can be easily removed from the enzymes. |
Examples | Examples include flavin nucleotides and heme. | Examples include AMP, ATP, coenzyme A, FAD, and NAD+. |
Both prosthetic groups and coenzymes play essential roles in the function of enzymes, but they differ in their composition, bonding, and primary functions.
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