Dendrites
Receive messages from other neurons and send them to the cell body.
Dendrites are neuronal extensions that receive signals from other neurons and transmit that information to the cell body. They are the receiving ends of neurons and play a critical role in the nervous system’s communication functions. Dendrites contain numerous, branching, and often protruding processes, which are usually covered with tiny spines. These spines can form new connections and enable the brain to adapt and change over time in response to new information.
Dendrites receive signals in the form of neurotransmitters, which are chemicals released by other neurons. When a neurotransmitter binds to a receptor on a dendrite’s surface, it causes the dendrite to become depolarized. If the depolarization is strong enough, it will activate the neuron and send an electrical signal down the axon, which is the neuron’s output pathway. These electrical signals can then trigger the release of neurotransmitters from the neuron’s axon terminals, which can stimulate other neurons in the network.
Overall, dendrites play a crucial role in transmitting information throughout the nervous system and are key players in learning and memory processes.
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