What is the Difference Between cAMP and cGMP?
🆚 Go to Comparative Table 🆚Cyclic AMP (cAMP) and cyclic GMP (cGMP) are both second messengers that play crucial roles in cellular functions, including gene regulation, metabolism, memory enhancement, and immune function regulation. They are hydrophilic cyclic nucleotides that function as intracellular mediators in cell communication, receiving and passing signals from receptors to target molecules inside the cell. Despite their similarities, there are some key differences between cAMP and cGMP:
- Synthesis: cAMP is synthesized from ATP with the help of the enzyme adenylate cyclase, while cGMP is synthesized from GTP with the help of guanylyl cyclase.
- Concentration in Cells: cAMP shows a higher concentration in most tissues compared to cGMP.
- Binding Site Preference: cAMP and cGMP can bind to and activate different target proteins. For example, cAMP is known to activate protein kinase A, while cGMP activates protein kinase G.
- Channel Activation: cAMP can access a more strongly bound state, suggesting that this deep-bound state is the key to channel activation. In contrast, cGMP binding is weaker and has a shorter residence time on the channel.
- Mechanism of Action: cAMP and cGMP can open or close ion channels, but they do not act directly on all channels. Instead, they often compete with each other by binding to the same site, switching the channels on and off.
In summary, cAMP and cGMP are both second messengers involved in various biological processes. They share some similarities, such as activating protein kinases and being hydrophilic cyclic nucleotides. However, they also have distinct differences in their synthesis, concentration in cells, binding site preference, channel activation, and mechanisms of action.
Comparative Table: cAMP vs cGMP
The main differences between cAMP and cGMP are:
Feature | cAMP | cGMP |
---|---|---|
Derivative | Derived from ATP | Derived from GTP |
Synthesis | Synthesized by adenylyl cyclase | Synthesized by guanylyl cyclase |
Presence in Cells | Higher concentration in most tissues compared to cGMP | Lower concentration in most tissues |
Function | Regulates ion channels, activates protein kinases, and modulates gene expression | Acts as a second messenger in cell communication, activating intracellular protein kinases |
Both cAMP and cGMP are hydrophilic cyclic nucleotides that serve as second messengers in cellular signaling pathways. They are involved in various biological processes, including gene regulation, metabolism, memory, and immune function. Both molecules activate protein kinases and are degraded to their nucleotide monophosphate (NMP) forms by the hydrolysis of their cyclic structures.
- GMP vs CGMP
- Cyclic AMP vs AMP
- ATP vs GTP
- GMP vs GLP
- Protein Kinase A vs Protein Kinase C
- Troponin vs Calmodulin
- Calmodulin vs Troponin C
- Calbindin Calretinin vs Calmodulin
- Catecholamines vs Acetylcholine
- GFP vs EGFP
- Cyclins vs Cyclin Dependent Kinases
- Guanine vs Guanosine
- ATP vs ADP
- Heteromeric G Protein vs Monomeric G Protein
- EPSP vs IPSP
- G Protein Coupled Receptors vs Receptor Tyrosine Kinases
- Cytokines vs Hormones
- Creatine vs Creatinine
- Glycolysis vs Glycogenolysis