ATP have high energy bonds.These bonds are between phosphate groups.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
Your muscles need a lot of energy to work, since every movement you make is using a lot of your muscles, and since ATP is energy, you need a lot of energy to go to your muscle cells because you use them all the time - even like typing at the computer, or just sitting up straight at your computer chair.
When a phosphate group is removed from ATP (adenosine triphosphate), a nucleotide known as ADP (adenosine diphosphate) is formed.
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.
ATP is made up of Adenosine and 3 phosphate groups stuck together by a lot of energy in their bonds.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
ATP holds energy in its phosphate bond. When ATP's third phosphate is broken, it releases a lot of energy, often enough to drive a reaction forward.
Your muscles need a lot of energy to work, since every movement you make is using a lot of your muscles, and since ATP is energy, you need a lot of energy to go to your muscle cells because you use them all the time - even like typing at the computer, or just sitting up straight at your computer chair.
No. Only 2 net ATP and 2 net NADH are produced through glycolysis. The Krebs cycle is where a lot of NADH is produced and then the electron transport chain is where a lot of ATP is produced. These are the stages that release a lot of energy.
Because the membrane bound ATP Synthase protein uses high energy to bond adenosine diphosphate (ADP) and phosphate (P) into adenosine triphosphate (ATP) and this requires a lot of energy because it is very difficult to bond another P to ADP (Already has two). This is why it's used as a energy molecule, because it can easily release high amounts of energy.
Mitochondria that produce ATP.
When a phosphate group is removed from ATP (adenosine triphosphate), a nucleotide known as ADP (adenosine diphosphate) is formed.
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.
ATP is made up of Adenosine and 3 phosphate groups stuck together by a lot of energy in their bonds.
Mitochondria are located in the tail of the sperm. They provide the sperm with that whip like energy to move. They can give the energy to the sperm because mitochondria are the "powerhouse" of the cell.
Mitochondria. Mitochondria are organelles specialized for synthesizing ATP.
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].