The dendrites receive chemical signals from other neurons at the level of synapses and convert them into an electrical signal to be processed by the cell body of the neuron. Reception of the chemical signals by the dendrites of another neuron or the muscles helps sustain the sequence of information. Finally, to pass the electrical impulse to another neuron or muscle cell, the axon terminals convert the impulse into chemical signals and release them across a small gap. ![]() Some neurons are wrapped in a fatty coating called myelin sheath, which helps increase the conduction of the electrical signal down the axon. Electrical signals never travel back from the terminals to the soma. Integration and processing in the cell body, the electrical signal travels down the axon toward its final destination. The cell body to be integrated with other signal inputs received by the other dendrites. The impulses travel from the dendrites to At synapses, the chemical signal, called neurotransmitter, generates an electrical signal, which is then conducted by dendrites to the cell body of the neuron. The dendrites receive chemical signals from other neuronsĪt the level of contact formed with other neurons, called synapses. This is because neurons lack centrioles, which are important organelles in cell division.įigure 2: A diagram showing some common features of neurons that help carry out the main function of neurons, which is to transmit nerve impulses. This support by the neuroglia is very important since neurons cannot undergo mitosis like most other body cells. However, glial cells, which are also called neuroglia, accomplish multiple key functions: they provide structural framework, form a barrier with blood vessels, insulate neurons, monitor and clean up the environment, and help maintain the health of neurons by repairing damaged parts and providing nutrients. Unlike neurons, glia do not produce electrical impulses, and because of this, they were thought not to be critically important in nervous system function. Neurons are supported by the other main cell type found in the human nervous system, glial cells (or glia). While neurons are the main signaling unit, they are highly specialized and, therefore, need support cells to function. It would take you over 3 000 years to count them all! By best estimates, the adult human brain contains about 86 billion neurons. You may recall that neurons are specialized cells that transmit nerve impulses and are found throughout the central and peripheral nervous systems. Neurons are the main signaling unit of the human nervous system. In the drawings, it was clear that neurons were separate, individual cells instead of a continuous fiber network. ![]() Figure 1: A reproduction of Santiago Ramon y Cajal’s neuron drawings.
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