glycogen
Mammals store extra glucose as glycogen in their muscles. Glycogen is a polysaccharide that serves as a readily available energy source that can be quickly broken down into glucose when needed for energy.
glycogen
Extra glucose is stored in the liver and muscles in the form of glycogen. If these stores are full, excess glucose can be converted to fat and stored in adipose tissue.
In sucrose, the extra hydrogen atom is due to the hydroxyl (-OH) group on the anomeric carbon in one of the glucose units. This group can undergo intramolecular hydrogen bonding, giving the appearance of an extra hydrogen molecule when drawing the structure of sucrose.
Glycogen is the molecule stored in the liver for extra energy. When the body needs a quick source of energy, glycogen can be broken down into glucose to be used by the body's cells.
The reaction of glucose with oxygen, which is equivalent to burning, but slower, releases energy which drives every other chemical reaction of the body, including those which cause muscle fibers to contract.
Your muscle is made up of thousands of cells. Muscle cells have extra mitochondria, mitochondria power your muscles by burning glucose.
Glucose is primarily produced for providing energy to cells in the body. It is a major source of fuel for various metabolic processes and is essential for the normal functioning of tissues and organs. Additionally, glucose can be stored as glycogen for later use in the liver and muscles.
Glucose can be stored in plants in several ways. In some plants , the glucose molecules join to one another to form starch molecules. Some plants convert glucose to fructose and the energy is stored in this form. In other plants, fructose combines with glucose to form sucrose. The energy is stored in carbohydrates in this form. Plant cells obtain energy for their activities from these molecules.
The muscles would provide the extra effort because the muscles are like extra foundations moving your body around.
When you are running, your muscles are working extra hard. Therefore, they need more oxygen and glucose than normal, since it is the chemical reaction between these two that produces energy for work. The blood is pumped to the lungs for more oxygen and to the liver for more glucose. (Glucose is stored in the liver.) Blood flow to the working muscles is increased in order to deliver these two, and to carry away carbon dioxide and heat that are produced as wastes.
they usually store it for later use