Creatine Phosphate Atp Yield

Phosphocreatine is the chief store of high energy phosphates in muscle.

Creatine phosphate atp yield. Crp adp atp cr nb. Chemical reaction for creatine phosphate to atp. The reversible reaction is catalyzed by creatine kinase. When atp s outermost phosphate bond is broken off adenosine diphosphate or adp is formed along with a great deal of energy.

Because of this all muscle cells contain and utilize creatine phosphate which is broken down to make more atp quickly. Sprints or 3 rep squats creatine phosphate can be resynthesised however we require oxygen. The atp cp system involves an interaction between two molecules atp and creatine phosphate or cp within the cell. The phosphorylated creatine transfers its phosphate to adp to form atp leaving unphosphorylated creatine.

Other studies have up to ten seconds. The breaking of the pc bond releases 43 3 kj 10 3 kcal per mole which is considerably more than that seen in the breakdown of the high energy bonds in atp indicating that there is more than enough. The total muscular stores of both atp and cp are small. This process is an important component of all vertebrates bioenergetic systems.

When it is broken down a large amount of energy is released. One of the ways that this atp supply is regenerated is through the molecule creatine phosphate or phosphocreatine. Thus the amount of energy obtainable through this system is limited. It is catalysed by the enzyme creatine kinase.

Donate 2 atp phase 2. Creatine phosphate cp like atp is stored in muscle cells. Produce 4 atp net yield is 2 atp. One method of providing more atp is to break down another stored chemical containing a high energy phosphate bond so that the energy released by its breakdown can be used to reconstitute atp from adp and pi.

This process yields 36 atp. Thus this reaction which permits the rephosphorylation of adp to atp is the immediate source of energy in muscle contraction. The energy released is coupled to the energy requirement necessary for the resynthesis of atp. The muscles limited atp supply is used very quickly in muscle activity so the need to regenerate atp is essential.

Since the body has only about three ounces of atp at any one time however it runs out of its supply rapidly. Creatine phosphate can supply the energy needs of a working muscle at a very high rate but only for about 5 to 6 seconds. When we rest between high intensity efforts e g. Pc creatine 010 po 3 decomposes to creatine plus a phosphate ion plus energy.

When the muscle cells have the energy of atp they can act in the time it takes for alternate energy sources to be activated. Atp yield by glycolysis phase 1. Once inside the cells it is transformed into phosphocreatine by the enzyme complex creatine kinase which makes it able to donate its phosphate group to convert adenosine diphosphate adp into adenosine triphosphate atp. The cp molecule also releases a large amount of energy when the bond between its creatine and.

In the process of regeneration of atp creatine phosphate transfers a high energy phosphate to adp. Creatine phosphate comes to the rescue.