Creatine phosphate is a better source of quick energy than glucose because in thermodynamic scale of energy potential Creatine phosphate is a super high energy phosphate compounds which has higher standard free energy of hydrolysis than that of ATP and can give its high energy phosphoryl group to ADP to generate ATP which is used to biosynthesis Glucose. so creatine phosphate stored in muscle is quick enery source to produce ATP than glucoe.
glucose
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 brain and nervous system can only use glucose for energy.
During glucose metabolism, the energy from glucose is stored in the form of ATP (adenosine triphosphate). ATP is a molecule that acts as an energy currency in cells. When energy is needed, ATP is broken down, releasing energy that can be used for various cellular processes such as muscle contraction or active transport.
the homeostatic mechanism governs glucose metabolism and the glucose metabolism demonstrates the homeostatic mechanism in its regulation of the glucose fuel supply to the central nevrous system. (Spelled nevrous wrong)
glucose
glucose
glucose
glucose
glucose
glucose
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 brain and nervous system can only use glucose for energy.
Glucose is the simple sugar that is the primary source of energy used by our bodies during metabolism.
Carbohydrates are the body's primary and immediate source of energy.
Glucose
During glucose metabolism, the energy from glucose is stored in the form of ATP (adenosine triphosphate). ATP is a molecule that acts as an energy currency in cells. When energy is needed, ATP is broken down, releasing energy that can be used for various cellular processes such as muscle contraction or active transport.