Examples of axon hillock in the following topics:
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- Summation, either spatial or temporal, is the addition of these impulses at the axon hillock .
- All these inputs are added together at the axon hillock.
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- A typical neuron consists of a cell body and neuronal processes such as dendrites and axon.
- Axons arise from a cone-shaped area of the cell body called axon hillock.
- Nerve impulses are generated in the axon and transmitted away from the cell body towards the synapse.
- Multipolar neurons, the most common type, have one axon and two or more dendrites.
- A signal propagating down an axon to the cell body and dendrites of the next cell
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- Neurons typically send signals over long distances by generating and propagating action potentials over excitable axonal membrane.
- When the membrane potential of the axon hillock of a neuron reaches threshold, a rapid change in membrane potential occurs in the form of an action potential.
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- The two types of neuron processes are called dendrites and axons.
- The axon arises from the cone shaped portion of the cell body called the axon hillock.
- Functionally, the axon is the conducting region of the neuron and is responsible for generating and transmitting impulses typically away from the cell body.
- A single axon routes the nerve impulse from the cell body to another neuron or an effector organ.
- The axon can have many terminal branches, so each time the nerve fires, it can stimulate more than one cell.
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- Once the signal reaches the axon terminal, it stimulates other neurons.
- A stimulus from a sensory cell or another neuron depolarizes the target neuron to its threshold potential (-55 mV), and Na+ channels in the axon hillock open, starting an action potential.
- The speed of conduction of an action potential along an axon is influenced by both the diameter of the axon and the axon's resistance to current leak.
- Nodes of Ranvier are gaps in myelin coverage along axons.
- The action potential is conducted down the axon as the axon membrane depolarizes, then repolarizes.
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- The cell body contains a specialized structure, the axon hillock, that integrates signals from multiple synapses and serves as a junction between the cell body and an axon: a tube-like structure that propagates the integrated signal to specialized endings called axon terminals .
- Neurons usually have one or two axons, but some neurons, like amacrine cells in the retina, do not contain any axons.
- Along these types of axons, there are periodic gaps in the myelin sheath.
- A bipolar neuron has one axon and one dendrite extending from the soma.
- Each multipolar neuron contains one axon and multiple dendrites.
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- The cell body contains a specialized structure, the axon hillock, which serves as a junction between the cell body and the axon.
- One neuron's axon will connect chemically to another neuron's dendrite at the synapse between them.
- to neurons with very long axons that travel up the spine to the brain.
- Some axons are covered with myelin, a fatty material that wraps around the axon to form the myelin sheath.
- At these nodes, the signal is "recharged" as it travels along the axon.
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- A bundle of axons is called a nerve in the peripheral nervous system and a tract in the central nervous system.
- Underlying this layer of flat cells, the perineurium, forms a complete sleeve around a bundle of axons called fascicles.
- Surrounding each axon is the endoneurium.
- Describe bundles of axons in the central and peripheral nervous systems
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- A typical neuron consists of dendrites, the cell body, and an axon.
- The axon is surrounded by a whitish, fatty layer called the myelin sheath.
- The myelin sheath surrounds and insulates the axon.
- Transmission electron micrograph of a myelinated axon.
- The myelin layer (concentric) surrounds the axon of a neuron, showing Schwann cells.
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- The basic pattern of the CNS is a central cavity surrounded by gray matter made up of neuronal cell bodies external to which is the white matter which is made up of myelinated axons.
- A second major component of the central nervous system is white matter and it is composed of bundles of myelinated axons that connect various grey matter regions of the nervous system to each other and carry nerve impulses between neurons .
- White matter only contains the myelinated axon tracts, and not the cell bodies.
- Myelin is a lipid that forms a thin layer, known as the myelin sheath, around the axons.
- It acts as an electrical insulator and increases speed of transmission by allowing the signal to jump down the axon.