energy. :D
energy
Energy is released from the breaking of the phosphate groups in ATP since it is a highly unstable molecule holding a lot of energy. Atp to Adp + pi is just fine - Just let us not forget Adp from Amp [Adenosine mono phosphate].
Before the cross bridges of myosin can attach to actin.
The terminal phosphate group is broken off. The negative charge on the phosphate groups make them willing to separate.
ATP is the energy-storage molecule. When energy is needed by the cell to do work, ATP is broken down into ADP and P. The energy released when the P-P bond is broken is used by the cell to do work.
When a cell uses APT for energy, the APT is converted into ADP. Then the ADP is immediately recharged in mitochondria and comes out again as APT. This process happens over and over.
Energy is released from the breaking of the phosphate groups in ATP since it is a highly unstable molecule holding a lot of energy. Atp to Adp + pi is just fine - Just let us not forget Adp from Amp [Adenosine mono phosphate].
ATP is the stored energy from a cell while adp is the released energy
ATP becomes energy for the cell and releases ADP.
It is organic substance
by adding energy
Before the cross bridges of myosin can attach to actin.
The terminal phosphate group is broken off. The negative charge on the phosphate groups make them willing to separate.
ATP is converted to ADP when it is used for energy. This can happen during many activities of the cell including replication or transcription of DNA or for "pumping" molecules in and out of the cell against the ion gradient through channels in the bilipid layer.
The cell breaks down ATP into ADP and inorganic phospate group. The ADP gives the cells (which make up your body) energy.
Creatine phosphate functions in the muscle cell by storing energy that will be transferred to ADP to resynthesize ATP.
ATP is the energy-storage molecule. When energy is needed by the cell to do work, ATP is broken down into ADP and P. The energy released when the P-P bond is broken is used by the cell to do work.
Phosphorylation of ADP produces ATP by storinh chemical energy in the phosphate bond. This ATP is converted to ADP to power the cell.