Acetal Choline (ACh)
Choline is a water-soluble nutrient usually part of the B complex vitamin. It is part of the neurotransmitter acetylcholine which is important in memory. Vegetarians or vegans or alcoholics tend to have low choline amounts in the body. Choline is derived from the Greek to mean "gall" or bile.
Firstly, AChE is not a neurotransmitter; it is a protease that cleaves ACh into acetic acid and choline. ACh is a neurotransmitter, AChE is not. AChE is a type of cholinesterase, so they are close, but not quite the same thing.
acetyl choline- its a neurotransmitter.
Acetyl Choline
Choline & Inositol are members of the B-Vitamin family. Choline is often located in animal tissues and is necessary for regular synaptic activity and brain wellbeing. Additionally, Choline metabolises with fatty acids in the liver, an important function of the human body. Inositol is also vital for brain and nervous system health. Importantly, Choline is the precursor molecule for the neurotransmitter acetylcholine whic hsupports functions such as memory, muscle control and other cognition and cerebral roles.
Also known as AChE, Acetylcholinesterase is an enzyme that breaks down the neurotransmitter acetylcholine, resulting in choline and an acetate group. This occurs at the synaptic cleft. Too much acetylcholine can lead to paralysis
At the effector end (nerve to effector organ junction) the transmitter is Nor Adrenaline. However, at the nerve-nerve junctions (ganglions) the transmitter is Acetyl Choline.
Choline hasn't sodium chloride.
choline is a nutrient in vegtable oil
Choline is easily dissociated in water.
Acetylcholine is primarily inactivated at the parasympathetic terminal receptor site by the enzyme acetylcholinesterase. Acetylcholinesterase breaks down acetylcholine into choline and acetate, which are then taken back up by the presynaptic terminal for further use in neurotransmitter synthesis. This inactivation process allows for the rapid termination of acetylcholine signaling and helps maintain proper neurotransmitter balance in the synapse.