What are ON-bipolar cells?

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Study for the Neurophysiology Test with flashcards and multiple choice questions, each with hints and explanations. Enhance your understanding of cell types, signals, and sensory pathways. Ace your exam!

Multiple Choice

What are ON-bipolar cells?

Explanation:
ON-bipolar cells form part of the retina’s ON pathway. They depolarize when light reduces the glutamate released by photoreceptors. In darkness, glutamate binds to mGluR6 receptors on ON-bipolar cells and keeps them inhibited. When light hits, glutamate release falls, lifting that inhibition and causing the ON-bipolar cells to depolarize and drive ON-center ganglion cells toward firing. They signal with graded potentials rather than generating their own action potentials, and they rely on input from photoreceptors for light detection. The described behavior—being activated by a decrease in neurotransmitter release, which leads to ganglion cell firing—best matches how ON-bipolar cells operate.

ON-bipolar cells form part of the retina’s ON pathway. They depolarize when light reduces the glutamate released by photoreceptors. In darkness, glutamate binds to mGluR6 receptors on ON-bipolar cells and keeps them inhibited. When light hits, glutamate release falls, lifting that inhibition and causing the ON-bipolar cells to depolarize and drive ON-center ganglion cells toward firing. They signal with graded potentials rather than generating their own action potentials, and they rely on input from photoreceptors for light detection. The described behavior—being activated by a decrease in neurotransmitter release, which leads to ganglion cell firing—best matches how ON-bipolar cells operate.

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