After stage one, there are both ATP and ADP molecules produced and after stage three there are two ADP molecules produced, a singular hydrogen atom, and a citrate. After the fifth stage, there are two hydrogen atoms produced but they are lost in the sixth due to oxidisation. Between the stages 7-10, two ATP molecules are formed. During glycolysis, the enzymes catalyse numerous reactions and they are controlled by the concentrations of the ATP, ADP, hydrogen+, and citrate. When it comes to changing concentrations, ATP inhibits glycolysis which means that it changes it and reduces the activity of the enzyme but citrate does this also ADP and hydrogen atoms stimulate glycolysis which means that they increase the activity of the enzymes.
ATP is a small water-soluble molecule which is …show more content…
ATP actually uses the energy which is produced during the breakdown of glucose and it is synthesized ADP. ATP transports to the cell which requires energy which is the mitochondria and cells that use a lot of energy such as the muscle have lots of mitochondria. The ATP is important when it comes to energy requirements within the cell because it actually transfers the energy from reaction to reaction and supplies the energy to the parts of the cell which actually need it. ADP is just as important when it comes to energy requirements because ATP is synthesized ADP because when the cell stores energy, it forms the ATP from the ADP. So, ADP is important because it produces the ATP which is needed for the energy to be transported from reaction to reaction within the cell and to contain the energy which the cell will need later in order to function. So, ADP and ATP are just as
ATP is a small water-soluble molecule which is …show more content…
ATP actually uses the energy which is produced during the breakdown of glucose and it is synthesized ADP. ATP transports to the cell which requires energy which is the mitochondria and cells that use a lot of energy such as the muscle have lots of mitochondria. The ATP is important when it comes to energy requirements within the cell because it actually transfers the energy from reaction to reaction and supplies the energy to the parts of the cell which actually need it. ADP is just as important when it comes to energy requirements because ATP is synthesized ADP because when the cell stores energy, it forms the ATP from the ADP. So, ADP is important because it produces the ATP which is needed for the energy to be transported from reaction to reaction within the cell and to contain the energy which the cell will need later in order to function. So, ADP and ATP are just as