Glycogen is a long branched chain of glucose so when catabolized it will be converted to glucose.
In conditions of fasting or low energy availability, catabolism is the predominant system. This is because the body breaks down stored molecules such as glycogen, fats, and proteins to generate 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.
The large starchy meal allows the runner to store large amounts of glucose in the body in the form of glycogen. All these glycogen would be converted to glucose when he needs them in large amount during the race. The glucose converted can help him when his muscles undergo aerobic or anaerobic respiration.
Animals primarily store glucose in the form of glycogen in their liver and muscles. Glycogen serves as a readily accessible energy reserve that can be broken down into glucose when needed. Excess glucose can also be converted into fat for long-term energy storage.
The repeating unit in glycogen is glucose. Glucose molecules are polymerized and linked together in chains to form glycogen, which is the storage form of glucose in animals.
protein would be converted into glucose.
In conditions of fasting or low energy availability, catabolism is the predominant system. This is because the body breaks down stored molecules such as glycogen, fats, and proteins to generate 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.
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.
glycogen
The large starchy meal allows the runner to store large amounts of glucose in the body in the form of glycogen. All these glycogen would be converted to glucose when he needs them in large amount during the race. The glucose converted can help him when his muscles undergo aerobic or anaerobic respiration.
Breakdown verse buildup.
Increased levels of glucagon stimulate the conversion of glycogen to glucose in the liver, which would in turn reduce the amount of glycogen in the liver.
Animals primarily store glucose in the form of glycogen in their liver and muscles. Glycogen serves as a readily accessible energy reserve that can be broken down into glucose when needed. Excess glucose can also be converted into fat for long-term energy storage.
A(glycogen would be broken down into glucose b(insulin would be secreted by the pancreas c(glycogen would be formed d(cholesterol would be synthesized this are the answer
starch
The repeating unit in glycogen is glucose. Glucose molecules are polymerized and linked together in chains to form glycogen, which is the storage form of glucose in animals.