What is the Difference Between Graded Potential and Action Potential?
🆚 Go to Comparative Table 🆚The main differences between graded potentials and action potentials are:
- Propagation: Graded potentials are not fully propagated along the membrane, and their amplitude decreases as they spread due to leakage of sodium ions through the resistance and capacitance of the membrane. In contrast, action potentials are considered an "all-or-nothing" event, and once the threshold potential is reached, the neuron always completely depolarizes, regardless of the stimulus strength.
- Depolarization or Hyperpolarization: Depending on the stimulus, graded potentials can be either depolarizing or hyperpolarizing. Action potentials, however, always lead to depolarization of the membrane and reversal of the membrane potential.
- Amplitude: The amplitude of graded potentials is proportional to the strength of the stimulus. In contrast, the amplitude of action potentials is all-or-none, and the strength of the stimulus is coded in the frequency of action potentials generated.
- Activation: Graded potentials can be summed over time (temporal summation) and across space (spatial summation). Action potentials, due to their all-or-none nature and the presence of refractory periods, cannot be summed.
- Refractory Period: Graded potentials do not have a refractory period. Action potentials, on the other hand, have both absolute and relative refractory periods.
- Ions Involved: Graded potentials can involve various ions, such as Na+, K+, or Cl−. Action potentials in neurons, specifically, involve Na+ and K+ ions.
- Location: Graded potentials mainly occur in dendrites and cell bodies. Action potentials are a result of graded potentials and are triggered when the membrane potential reaches a specific threshold.
On this pageWhat is the Difference Between Graded Potential and Action Potential? Comparative Table: Graded Potential vs Action Potential
Comparative Table: Graded Potential vs Action Potential
Here is a table comparing the differences between graded potentials and action potentials:
Feature | Graded Potentials | Action Potentials |
---|---|---|
Amplitude | Generally small (a few mV to tens of mV) | Large amplitude of ~100 mV |
Duration | May be a few milliseconds to seconds | Relatively short, around 3-5 ms |
Ions Involved | Usually Na+, K+, or Cl− | Na+ and K+ for neuronal action potentials |
Refractory Period | No refractory period | Absolute and relative refractory periods are important aspects |
Summation | Can be summed over time (temporal summation) and across space (spatial summation) | Summation is not possible due to the all-or-none nature and the presence of refractory periods |
Physiology | Can be depolarizing or hyperpolarizing depending on the stimulus | Always leads to depolarization of membrane and reversal of the membrane potential |
Amplitude | Proportional to the strength of the stimulus | All-or-none; strength of the stimulus is coded in the frequency of all-or-none action potentials generated |
Propagation | Passive spread (electrotonic spread) to neighboring membrane regions | Characterized by regeneration of a propagating action potential |
Amplitude Decrement | Amplitude diminishes as graded potentials travel away from the initial site | Amplitude does not diminish as action potentials propagate along neuronal projections |
Signal Type | Analog signal | Binary all-or-nothing event |
Distance | Short-distance signals | Long-distance signals |
Graded potentials are small changes in the membrane potential that can reinforce or negate each other, while action potentials are large, all-or-none changes in the membrane potential that serve as long-distance signals.
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