bipolar cell sentence in Hindi
Sentences
Mobile
- AII-amacrine cells capture rod bipolar cell input and redistribute it to cone bipolar cells since rod-driven bipolar cells do not synapse on ganglion cells.
- Amacrine cells with extensive dendritic trees are thought to contribute to inhibitory surrounds by feedback at both the bipolar cell and ganglion cell levels.
- Amacrine cells operate at the inner plexiform layer ( IPL ), the second synaptic retinal layer where bipolar cells and retinal ganglion cells form synapses.
- In 1891 Santiago Ram�n y Cajal described slender horizontal bipolar cells he had found in an histological preparation of the developing marginal zone of lagomorphs.
- The basic circuitry of the retina incorporates a three-neuron chain consisting of the photoreceptor ( either a cone ), bipolar cell, and the ganglion cell.
- Bipolar cells have a two processes extending from the cell body and multipolar cells have three or more processes extending towards and away from the cell body.
- In retinal ganglion cells ( see below ), this area of the retina would encompass all the photoreceptors, all the bipolar cells, horizontal cells, and amacrine cells.
- Absorption of a photon will hyperpolarize the photoreceptor and therefore result in the release of " less " glutamate at the presynaptic terminal to the bipolar cell.
- The rod and cone photoreceptors signal their absorption of photons via a decrease in the release of the neurotransmitter glutamate to bipolar cells at its axon terminal.
- On the other hand, binding of glutamate to a metabotropic receptor results in a hyperpolarization, so this bipolar cell will depolarize to light as less glutamate is released.
- It is believed that the connection strengths between cells is caused by the number and types of ion channels embedded in the synapses between the ganglion and bipolar cells.
- The centre surround structures are logical ( i . e ., mathematically abstract ) in the sense that they depend on the connection strengths between ganglion and bipolar cells.
- When there is light present, glutamate secretion ceases thus no longer inhibiting the bipolar cell from releasing neurotransmitters to the ganglion cell and therefore an image can be detected.
- Less neurotransmitter could either stimulate ( depolarize ) or inhibit ( hyperpolarize ) the bi-polar cell it synapses with, dependent on the nature of the receptor on the bipolar cell.
- When light is present, the photoreceptors cease releasing glutamate, which relieves the ON bipolar cells from inhibition, activating them; this simultaneously removes the excitation from the OFF bipolar cells, silencing them.
- This causes the ON bipolar cell to lose its inhibition and become active ( depolarized ), while the OFF bipolar cell loses its excitation ( becomes hyperpolarized ) and becomes silent.
- This causes the ON bipolar cell to lose its inhibition and become active ( depolarized ), while the OFF bipolar cell loses its excitation ( becomes hyperpolarized ) and becomes silent.
- When light is present, the photoreceptors cease releasing glutamate, which relieves the ON bipolar cells from inhibition, activating them; this simultaneously removes the excitation from the OFF bipolar cells, silencing them.
- While it has been discovered that there exists a mixed type of bipolar cells that bind to both rod and cone cells, bipolar cells still predominantly receive their input from cone cells.
- In the dark, a photoreceptor ( rod / cone ) cell will release glutamate, which inhibits ( hyperpolarizes ) the ON bipolar cells and excites ( depolarizes ) the OFF bipolar cells.
bipolar cell sentences in Hindi. What are the example sentences for bipolar cell? bipolar cell English meaning, translation, pronunciation, synonyms and example sentences are provided by Hindlish.com.