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The glucose then is converted to it's ready use form glycogen. Then when needed it is converted back into glucose for cellular respiration.
The liver stores glucose in the form of glycogen which is converted back to glucose again when needed for 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.
Your body seeks to convert glucose to glycogen and glycogen to glucose based on hormonal signals that are secreted in response to an event. i.e. if you ate tons of sugary food, your body will secrete a hormone called insulin from the beta cells of the pancreas, so that glucose in the blood will be able to be stored as glycogen in the muscle cells.
Most animals store glucose as glycogen in liver and muscles .
The glucose then is converted to it's ready use form glycogen. Then when needed it is converted back into glucose for cellular respiration.
The liver stores glucose in the form of glycogen which is converted back to glucose again when needed for energy.
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 stores glucose in the form of glycogen which is converted back to glucose again when needed for energy.
Glucose can be used immediately as fuel, or can be sent to the liver and muscles and stored as glycogen. During exercise, muscle glycogen is converted back into glucose, which only the muscle fibers can use as fuel.
If your body does not have any use for the glucose, it is converted into glycogen and stored it in the liver and muscles as an energy reserve. Your body can store about a half a day's supply of glycogen. If your body has more glucose than it can use as energy, or convert to glycogen for storage, the excess is converted to fat.
In diabetes there is insufficient insulin, a hormone, to convert glucose into glycogen for storage in the body.Muscles need glucose to function effectively, so by exercising, the glucose travelling around in the blood will be directed straight to the muscles instead of being stored and therefore the blood sugar level will be lowered. Decreasing the intake of carbohydrates will directly lower the levels of glucose readily available and stored glucose, in the form of glycogen, will be converted back to be used as energy causing weight loss.
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.
Your body seeks to convert glucose to glycogen and glycogen to glucose based on hormonal signals that are secreted in response to an event. i.e. if you ate tons of sugary food, your body will secrete a hormone called insulin from the beta cells of the pancreas, so that glucose in the blood will be able to be stored as glycogen in the muscle cells.
The hormones epinephrine and glucagon control glycogen phosphorylase which is an enzyme that breaks down glycogen into glucose.The Insulin helps in this process ...InsulinGlucagonThis hormone is called 'Glucagon'.
Most animals store glucose as glycogen in liver and muscles .
Unused glucose will be stored as glycogen, which may then be converted to fat.Glycogen may be converted back to glucose through glycogenolysis.