What is the connection between calcium and action potential?

In order to understand calcium and action potential, it is best to look at this process as a whole. Burning chemical pulses through nerve pathways can be considered an action potential. This process is essential for neurons to release chemicals called neurotransmitters. Neurotransmitters facilitate intercellular communication in the nervous system and are necessary for its processes. Calcium plays an important role in allowing it to run.

The nervous system is a medium through which the body captures and responds to the outside world. Without a properly functioning system, one will not be able to experience or respond correctly to them. There are sensory aspects, as well as motor or effects, aspects of the nervous system, most of which rely on the brain and spinal cord as their central processing stations. For example, the touch of the burner is picked up by a sensory nerve and sent to the spinal cord for processing and the motor nerve said to the body to download in a way that removes the supply from a potentially dangerous situation.

Calcium and action potential is closely related to the fact that this example occurs in stimulus and action. The action potential cannot occur without a triggering stimulus - it can be natural, such as a burner or synthesized touch, as in the case of electric shock devices. This initial stimulus determines an event chain that allows neurons to communicate with each other. These electrophysiological events culminated in the release of the neurotransmitter into the microscopic gap between neurons known as synapse. The sitting here connects calcium and action potential because calcium cations help the neurotransmitter mobility.

Not every cell that is exciting is governed by the same method for achieving action potential; For example, in cardiac cells, calcium can also be used to trigger cellular gates that lead to most chemical activities responsible for action potentials. Sodium and potassium are two of the mostmore picked ions involved in the initiation action potential; However, calcium and action potential stimulation can also be connected. The complexity of this esoteric and theoretical explanation of nervous communication makes it difficult to understand calcium and action potential occasionally, but in general, the relationship between calcium and action potential helps to initiate the process and convert neurotransmitters from the axon terminal or by binding branches into the synapse.

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