Maximum yield of atp from the complete oxidation of sucrose via aerobic respiration
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Complete oxidation of sucrose via aerobic respiration occurs in the phosphorylation stage of aerobic respiration.
This ensures maximum yield of ATP.
Oxygen is important in oxidative phosphorylation stage of aerobic respiration.
In oxidative phosphorylation hydrogen ions combine with oxygen to form water.
The NADH produced in the Krebs cycle carries hydrogen ions and high energy electrons.
The electrons pass along a respiratory chain using their energy to form ATP molecules.
Oxygen increases the production of ATP.
Oxygen combination with hydrogen ions and acceptance of electrons to from water, allows more hydrogen ions to be released from the electron career system.
This allows for formation of more energy in form of ATP.
This ensures maximum yield of ATP.
Oxygen is important in oxidative phosphorylation stage of aerobic respiration.
In oxidative phosphorylation hydrogen ions combine with oxygen to form water.
The NADH produced in the Krebs cycle carries hydrogen ions and high energy electrons.
The electrons pass along a respiratory chain using their energy to form ATP molecules.
Oxygen increases the production of ATP.
Oxygen combination with hydrogen ions and acceptance of electrons to from water, allows more hydrogen ions to be released from the electron career system.
This allows for formation of more energy in form of ATP.
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In phosphorylation stage, complete oxydation of sucrose via aerobic respiration occours which ensures maximum yield of ATP. Phosphorylation is an important mechanism by which the activity of proteins is altered after they are formed. Kinase enzymes help in addition of the phosphate groups to the protein molecules. This phosphate group which is used here is supplied by the ATP.
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