Glycogen is made and stored in the cells of the liver and muscles until it is needed for energy. Glycogen phosphorylase is the primary enzyme of glycogen breakdown into glucose. Glucose derived from liver glycogen is the primary source of blood glucose used by the rest of the body for fuel.
Glycogen is usually broken down in the cell. This will happen when the cell needs energy and ATP is broken down to form glucose.
the pancreas secretes the hormone glucagon, pancreas as being the receptor in this case it detects the low blood sugar in the blood and thus secrets the hormone which increases the permeability of liver cells to glycogen, the metabolic reactions become faster, the coversion of stored glycogen to glucose becomes faster the blood enriched with glucose is transported to around the body wherever needed as if exercise going on then glucose to the muscles. If in case body needs stored glycogen for a flight/fight reaction then the hormone adreanaline is re;eased which does the same work but quite in an instant.
ATP provides energy for a cell by storing energy in the bond between the second and third phosphate group. ATP really wants to get rid of the third phosphate group. When a cell needs energy it breaks the weak bond between the two phosphates and work is done.
It needs to code for the enzyme lactase in its DNA, which in turn breaks the bond between the two sugars in lactose
chlorophyl and also carotenoids, xanthophyls..
When you eat more carbohydrates than your body needs for energy your body will break it down into glucose and then rebuild it in the liver as glycogen. The glycogen is stored in the liver and muscles. Then when you need more energy than you have eaten in carbohydrates your body breaks down the stored glycogen into glucose and you burn the glucose for energy.
Insulin needs potassium to get into the cells.Glucagon is needed to bring your sugar up.
Glycogen is a storage of carbohydrate in the muscles, because that is the way the body is made. To access glycogen, the body needs to get into active mode.
Glycogen.
Glycogen meets the long-term needs of energy. This is due to the fact that readily available glucose gets stored in the liver as glycogen. When blood glucose levels fall this glycogen is then converted back into glucose for energy requirements.
The liver works by producing bile and removing toxins from the blood. It converts glycose into glycogen and even keeps your body core temperature at 27 degrees celsius. It works with the stomach, gallbladder, and small intestines. If your liver fails, toxins build up in your blood stream and you almost certainly die (without a transplant of course).
glycogen
so dat we can live forever and ever and have fun and be happy cookies also so we can be smexual and eat and drink =]
The liver stores glycogen. When the body uses it for energy it converts the glycogen to glucose.
it is a form of carbohydrates which is stored in the liver.it releases energy when the body needs it
In humans and animals, most glycogen is stored as granules. when the body needs energy, it breaks down the glycogen granules into energy.
Extra sugar is stored as glycogen in animals. Some glycogen is stored in muscles, if they need fuel they can use the glycogen available locally. When glycogen needs to be converted back to glucose for fuel, a series of enzymes work together to complete the task.