The body converts glycogen to fat for long-term energy storage through a process called lipogenesis. When there is excess glycogen in the body, it is converted into fatty acids and stored in fat cells for later use as energy.
If cells do not have immediate energy needs, they can convert glucose to glycogen for storage in the liver and muscles until it is needed. This stored glycogen can be broken down into glucose when the cells require energy.
The liver converts excess energy-containing nutrients, such as carbohydrates, into glycogen for short-term energy storage. When glycogen stores are full, the liver then converts excess nutrients into triglycerides for long-term energy storage as fat.
Glycogen is the body's storage of energy. It is a starch.
To get energy from stored glycogen (in the liver), the body must first convert the glycogen into ATP. -JoshuaP
To get energy from stored glycogen (in the liver), the body must first convert the glycogen into ATP. -JoshuaP
glycogen
Glycogen is a storage of energy within the body, and glucose is the primary form of energy
The carbohydrate energy storage molecule of animals is glycogen. Glycogen is a substance deposited in bodily tissues as a store of carbohydrates.
Glycogen is the storage form of glucose in the muscle cell. Glycogen can be used for energy.
Glycogen Storage disease is an inhearited disease that is caused by the large amount of build up of a carbohydrate called glycogen in the cells of the body. Unfourtantly when the build up occures then it causes other organs of the body to malfunction such at the liver.
Glycogen is a multibranched polysaccharide that serves as a form of energy storage in animals and fungi. In humans, glycogen is made and stored primarily in the cells of the liver and the muscles, and functions as the secondary long-term energy storage (with the primary energy stores being fats held in adipose tissue).
Glycogen is a polysaccharide of glucose that is energy storage in animals and fungi. Glucose is an example of glycogen.