Some sources claim adrenal medulla is responsible. Apparently there are three types of cells in the adrenal medulla: one for epinephrine, norepinephrine, and dopamine respectively.
The hypothalamus also secretes dopamine. More than likely other cells secrete dopamine as well.
the glands that secrete dopamine are the hypothalamus and also the adrenal medulla. the dopamine secreted from the hypothalamus act as the lactrothrope inhibiting hormone and also known as cathecolamine
Yes, a cell that secretes a large quantity of proteins typically has a larger number of lysosomes. Lysosomes help in digesting and processing proteins within the cell before they can be secreted outside. More lysosomes enable the cell to handle the increased protein secretion efficiently.
Dopamine neurons vary in size but generally have a cell body diameter of around 10-20 micrometers and can extend axons that can be several centimeters long.
A cell that makes and secretes glycoproteins would need high quantities of the endoplasmic reticulum (ER) for protein synthesis and glycosylation, Golgi apparatus for protein processing and packaging into vesicles, and vesicles for transporting the glycoproteins to the cell membrane for secretion.
The symptoms in Parkinson's Disease are due to not enough dopamine at a particular part of the brain, specifically the substantia nigra. So the goal in treatment is to try and replace this missing dopamine.
Norepinephrine is made from dopamine in the medulla of the adrenal gland.
The Golgi apparatus packages and secretes the products of the cell. It packages the molecules into vesicles for distribution around or out of the cell.
In my biology class this specific questions was asked. A cell secretes a hormone through facilitated diffusion.
the glands that secrete dopamine are the hypothalamus and also the adrenal medulla. the dopamine secreted from the hypothalamus act as the lactrothrope inhibiting hormone and also known as cathecolamine
Golgi body
mast cells
The stomach cell that secretes hydrochloric acid is called a parietal cell. These cells are responsible for producing the hydrochloric acid that helps in the digestion of food in the stomach.
Dopamine agonists are valuable in treating pituitary adenomas that secrete excessive prolactin. Dopamine inhibits prolactin release from the pituitary gland, so using dopamine agonists can help reduce prolactin levels and manage symptoms associated with the condition.
The Golgi Apparatus.
Parietal cells
plasma cells
Glands