Lateral inhibition: Difference between revisions
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When, for instance, the skin is touched by an object, several sensory neurons in the skin next to one another are stimulated. To determine more exactly the origin of the stimulus, neurons that are stimulated suppress the stimulation of neighbouring neurons. The amount of inhibition is greater when its own stimulation is more powerful. By doing so, only the neurons that are stimulated will fire. These neurons are more in the center of the stimulus, while the suppressed neurons lie sidewards. hence, lateral inhibition. |
When, for instance, the skin is touched by an object, several sensory neurons in the skin next to one another are stimulated. To determine more exactly the origin of the stimulus, neurons that are stimulated suppress the stimulation of neighbouring neurons. The amount of inhibition is greater when its own stimulation is more powerful. By doing so, only the neurons that are stimulated will fire. These neurons are more in the center of the stimulus, while the suppressed neurons lie sidewards. hence, lateral inhibition. |
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Lateral inhibition can be compared with increasing the [[contrast (vision)|contrast]] in images. This phenomenon occurs in the mammalian [[retina]], for example. In the dark, a small light stimulus will be enhanced by the different [[photoreceptors]] (rods). The rods in the center of the stimulus will [[transduce]] the "light" signal to the brain, whereas different rods on the outside of the stimulus will send a "dark" signal to the brain. This contrast between the light and dark creates a sharper image. |
Lateral inhibition can be compared with increasing the [[contrast (vision)|contrast]] in images. This phenomenon occurs in the mammalian [[retina]], for example. In the dark, a small light stimulus will be enhanced by the different [[photoreceptors]] (rods). The rods in the center of the stimulus will [[signal transduction|transduce]] the "light" signal to the brain, whereas different rods on the outside of the stimulus will send a "dark" signal to the brain. This contrast between the light and dark creates a sharper image. |
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{{Cell-biology-stub}} |
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[[Category:Neurology]] |
[[Category:Neurology]] |
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Revision as of 22:25, 15 December 2006
Lateral inhibition is a mechanism by which neurons are able to determine more precisely the origin of a stimulus.
When, for instance, the skin is touched by an object, several sensory neurons in the skin next to one another are stimulated. To determine more exactly the origin of the stimulus, neurons that are stimulated suppress the stimulation of neighbouring neurons. The amount of inhibition is greater when its own stimulation is more powerful. By doing so, only the neurons that are stimulated will fire. These neurons are more in the center of the stimulus, while the suppressed neurons lie sidewards. hence, lateral inhibition.
Lateral inhibition can be compared with increasing the contrast in images. This phenomenon occurs in the mammalian retina, for example. In the dark, a small light stimulus will be enhanced by the different photoreceptors (rods). The rods in the center of the stimulus will transduce the "light" signal to the brain, whereas different rods on the outside of the stimulus will send a "dark" signal to the brain. This contrast between the light and dark creates a sharper image.
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