Describe And Describe The Terms Listed Below Within Your Own Words And Discuss Their Relationship Essay

1. Neurons is a basic building block of the nervous system. The sensory nerves carry the message from body tissues to the brain and spinal chord to be processed. The motor neurons are then used to send instructions to the body tissue from the brain and spinal cord. Dendrites, which are connected to the body cell (soma) receive information and pass it through the axon. Myelin sheath covers the axon and helps speed the process. When triggered by a signals from our senses or other neurons, the neuron fires an impulse called the action potential. The resting potential is the neuron’s visual charge of positive

A synapse is a link where neurons communicate with other cells across narrow gaps using neurotransmitters or pulses (I learned this in my biology course last semester).

* The axon ends in a cluster of terminal buttons, which are small knobs that secrete chemicals called neurotransmitters.

Neurons (also known as neurons, nerve cells and nerve fibers) are electrically excitable and the most important cells in the nervous system that functions to process and transmit information. Neurons have a large number of extensions called dendrites. They often look likes branches or spikes extending out from the cell body. It is primarily the surfaces of the dendrites that receive chemical messages from other neurons.

Neurons, nerve cells, have three basic parts: the cell body, dendrites, and axon. Neurons transmit signals to other nerve cells and throughout the body. They are simple components in the nervous system. The cell body includes the nucleus, which is the control center of the neuron. The dendrite branches off the cell body and receives information. The axon is attached to the cell body and sends information away from the cell body to other cells. When the axon goes through myelination, the axon part of the neuron becomes covered and insulated with fat cells, myelin sheath. This increases the speed and efficiency of information processing in the nervous system. Synapse are gaps between neurons, this is where connections between the axons and dendrites.

Neurons are nerve cells that transmit nerve signals to and from the brain at up to 200 mph. The neuron consists of a cell body (or soma) with branching dendrites(signal receivers) and a projection called

As the message arrives at the end of the nerves, the message is transmitted to the muscles. Before the message is transmitted to the muscles it has to pass the space between the end of the nerve and the muscle, and that space is called neuromuscular junction. The message is transmitted from the brain to the end of the nerve and from the nerve to the neuromuscular junction, and when the message arrives the chemical called neurotransmitters are released.

Neurotransmitters are chemicals made by neurons and used by them to transmit signals to the other neurons or non-neuronal cells (e.g., skeletal muscle; myocardium, pineal glandular cells) that they innervate. The neurotransmitters produce their effects by being released into synapses when their neuron of origin fires (i.e., becomes depolarized) and then attaching to receptors in the membrane of the post-synaptic cells. This causes changes in the fluxes of particular ions across that membrane, making cells more likely to become depolarized, if the neurotransmitter happens to be excitatory, or less likely if it is inhibitory.

The main components of the synapses are as follows: The Axon terminal, found at the end of the Axon, passes neurotransmitters to other neurons via synaptic transmission. Synaptic Vesicles contain neurotransmitters within the Axon. Neurotransmitters themselves are chemical messengers that travel through the neurons and activate receptors on the receiving cell. The neurotransmitters are diffused through the synaptic cleft—a region between the two neurons and gap the neurotransmitter needs to cross to make it to the receiving cell. Said receiving cell is what receives the neurotransmitters and starts the process over again. The receptors on the cell are structures that receive the neurotransmitters and

As soon as the electrical signal reaches the end of the axon, mechanism of chemical alteration initiates. First, calcium ion spurt into the axon terminal, leading to the release of neurotransmitters “molecules released neurons which carries information to the adjacent cell”. Next, inside the axon terminal, neurotransmitter molecules are stored inside a membrane sac called vesicle. Finally, the neurotransmitter molecule is then discharged in synapse space to be delivered to post synaptic neuron.

Most people usually think of the brain or heart being the most important part of our body. While they are indeed important, they would be entirely useless if certain substances called neurotransmitters didn’t exist. Neurotransmitters are substances in our body that carry signals from one nerve cell to another. Without these neurotransmitters in our body, we wouldn’t receive crucial signals such as telling our heart to beat. Six of the most common neurotransmitters in our body are dopamine, serotonin, endorphins, norepinephrine, acetylcholine, and gamma-aminobutyric acid (GABA).

Most neurons do not make direct connections with surrounding neurons, signals (molecules) must make the transition from the presynaptic (upstream) neuron to the postsynaptic (downstream) neuron. This transition space is called the synaptic cleft. The exchange of information from the pre- to postsynaptic neuron is called a synapse.

A neuron looks like it has hair-like things at one end then the other end is like a stem holding it all together. Nerve cells are very important to our body because it transmits everything to our brain. Without it, we would not be able to smell,feel,hear,see,or move. Nerve cells differ from other cells though. For example, the muscle cell.

 A Neuron is a specialized nerve cell that receives, processes, and transmits information to other cells in the body.

The axon begins by extending away from the soma, with the base region being known as the axon hillock. The axon may then extend to various lengths (depending on the specific tissue/function that cell pertains to) ranging from less than a millimeter to over a meter; as well as splitting into numerous axon collaterals (axons that branch away from the original axon). As for the thickness of the axon, it ranges from less than a millimeter to 25 mm in diameter (in humans) - with the speed of electrical impulses (nerve impulse) directly proportional to the thickness of the axon. At the end of the axon, is the axon terminal or terminal bouton: which can be described as a swollen disk or button, where the axon comes into contact with another neuron, or another cell (e.g. muscle cell) by which information may be passed onto. This interface point is known as a synapse - with the end of the axon known as the presynaptic terminal; in this structure there are multiple synaptic vesicles (that average 50 nm in diameter) with various chemical signals (neurotransmitters) used for synaptic transmission (the process of information transfer). The membrane surrounding the synapse is heavily dense with proteins and ion channels, in order to receive and traffic the