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Smooth Endoplasmic Reticulum
neuronal cell signals travel throughout the body through the nervous system. The signal is electrical, and the fastest type of cellular signal. The electrical impluse is generated by action potentials.
connective tissues stores fats in the body
Nervous tissues
Neurotransmitters can help bring another neuron to the point where it initiates an action potential by binding to postsynaptic receptor sites. If the receptors are the type that allow positively charged ions to flux through the cell membrane, and if this happens on a large enough scale (i.e., multiple sites are hit at once), then the probability of an action potential occurring becomes very high.
zoophilia
Smooth Endoplasmic Reticulum
neuronal cell signals travel throughout the body through the nervous system. The signal is electrical, and the fastest type of cellular signal. The electrical impluse is generated by action potentials.
All cell types produce proteins. Proteins do most of the work in cells and are required for the structure, function, and regulation of the bodyâ??s tissues and organs.
Mitosis is the type of cell division essential for repair of tissues.
connective tissues stores fats in the body
Neurotransmitters can help bring another neuron to the point where it initiates an action potential by binding to postsynaptic receptor sites. If the receptors are the type that allow positively charged ions to flux through the cell membrane, and if this happens on a large enough scale (i.e., multiple sites are hit at once), then the probability of an action potential occurring becomes very high.
Nervous tissues
There basis of Type 1 diabetes has to do with the dysfunction of the beta cells of the pancreas and their inability to produce insulin. If there were a molecular basis it would be the absence of insulin which helps the body tissues utilize glucose.
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Veins are the type of blood vessel that drains blood from tissues and returns it to the heart.
An excitatory postsynaptic potential, a type of graded potential, occurs because of the influx of Na+ through chemically gated channels in the receptive region, or postsynaptic membrane, of a neuron. Graded potentials are generated by chemically gated channels, whereas action potentials are produced by voltage-gated channels.