No glucose molecules
Carbon monoxide and cyanide can cause aerobic respiration from happening.
If this is what your looking for in cellular respiration: Aerobic respiration produces energy through the process of cellular respiration, but this energy is not always required, so the cell has measures in place to stop the production of energy when not required (becoming mostly fat) This is done by the cell through feedback inhibition which relies on a product created in the process to stop (inhibit) more production or the continuation of the production of the product. For example, in cellular respiration, if the cell does not require more ATP (energy) then ATP will inhibit a specific enzyme used in the process of glycolysis. (no glycolysis, no more wasted ATP) So ATP, being the product, can stop or inhibit the process that creates it. The ATP is able to bond to an allosteric site on a specific enzyme and inhibit it from catalyzing a reaction producing more of what a cell does not presently require. Simply said; It is a way to regulate the production of substances in the cell whereby enzymes are inhibited by their downstream products. Hope this helps...
When photosynthesis stops, the supply of glucose decreases, causing a decrease in the amount of available energy for cellular respiration. As a result, cellular respiration slows down since there is less glucose to break down in the mitochondria to produce ATP. This can lead to a decrease in energy production and possibly impact the overall functionality of the cell.
It will stop so the body cells would die. that's why we can not live with out oxygen.
Yes it will.
large amount of glucose.
By there being no Oxygen during cellular respiration, then another process called Fermentation would occur which carries on with cellular respiration without oxygen molecules being present during the cycle, but the results of cellular respiration would still be the same.
Carbon monoxide and cyanide can cause aerobic respiration from happening.
If this is what your looking for in cellular respiration: Aerobic respiration produces energy through the process of cellular respiration, but this energy is not always required, so the cell has measures in place to stop the production of energy when not required (becoming mostly fat) This is done by the cell through feedback inhibition which relies on a product created in the process to stop (inhibit) more production or the continuation of the production of the product. For example, in cellular respiration, if the cell does not require more ATP (energy) then ATP will inhibit a specific enzyme used in the process of glycolysis. (no glycolysis, no more wasted ATP) So ATP, being the product, can stop or inhibit the process that creates it. The ATP is able to bond to an allosteric site on a specific enzyme and inhibit it from catalyzing a reaction producing more of what a cell does not presently require. Simply said; It is a way to regulate the production of substances in the cell whereby enzymes are inhibited by their downstream products. Hope this helps...
No, if a cell's mitochondria stop working, it will not be able to perform cellular respiration efficiently. Mitochondria are the powerhouse of the cell and are responsible for generating ATP through aerobic respiration. Without functional mitochondria, the cell's ability to produce energy will be severely compromised.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
The process of converting glucose (C6H1206) to energy in the form of ATP is known as anaerobic respiration in humans. The pathway involves glucose as a reactant yielding 2 lactic acids and 2 ATPs.
The Mitochondria are used to make ATP, or energy. Well, if the Mitochondria were to be destroyed, i would say that the cell will soon stop storing energy and probably die.Cellular respiration
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
When photosynthesis stops, the supply of glucose decreases, causing a decrease in the amount of available energy for cellular respiration. As a result, cellular respiration slows down since there is less glucose to break down in the mitochondria to produce ATP. This can lead to a decrease in energy production and possibly impact the overall functionality of the cell.
It will stop so the body cells would die. that's why we can not live with out oxygen.