Different types of synapses, like axodendritic, axosomatic, and axoaxonic, play specific roles in how neurons communicate in the nervous system. Axodendritic synapses occur between the axon terminal of one neuron and the dendrites of another, allowing for the transmission of signals. Axosomatic synapses connect the axon terminal to the cell body, influencing the neuron's activity. Axoaxonic synapses regulate the release of neurotransmitters at the axon terminal, modulating communication between neurons. Overall, these different types of synapses help facilitate the flow of information in the nervous system.
The dendrite of a neuron usually receives a chemical signal from another neuron, although a cell body (soma), or sometimes even an axon, of another neuron can receive the signal.Synapses which occur between an axon and a dendrite are called axodendritic synapses, while synapses between an axon and a cell body are called axosomatic synapses, and synapses between an axon and an axon are called axoaxonic synapses.
Nerve cells, or neurons, are responsible for transmitting electrical signals throughout the body. They help to relay information between the brain, spinal cord, and the rest of the body, allowing for sensory perception, movement, and communication between different parts of the nervous system.
an action will happen cause of axo-axonal syanapse,which can facilitate the nerve impulse transmitting from presynaptic membrane to post synaptic membrane. In the axo-axonal synapse one axon is secreting serotonin which can influence to close some of K+ channels in the other neuron to maintain a prolonged action potential by slowing down the repolarization. as long as action potential is there it can stimulate the presynaptic membrane to release neurotransmitters towards postsyanptic membrane so prolonged action potential will help to stimulate more the Post synaptic membrane and give a strong impulse this is called presynaptic facilitation