1 but glycolysis must be completed 6 times before one glucose is produced
the answer is 36
Both glycolysis and the citric acid cycle (Kreb) produce 2 ATP by substrate level phosphorylation, resulting in a net of 4 ATP.
well the electron transport chain creates 34 ATP and the krebs cycle produces 2 ATP. but in the beginning of glycolysis 2 ATP is produced to 2 ADP then 2 ADP is produced to 4 ATP but then the shuffle step uses the 2 ATP.
Two molecules of NADH + H+ are produced in glycolysis, and during fermentation, they become oxidized to NAD+ (one of the requirements for glycolysis to occur). Thus, both lactid acid and alcoholic fermentation allow for NAD+ to be continually regenerated for use in glycolysis, where a total of 4 ATP molecules are produced (a net gain of 2 ATP).
No, that process only produces 2 ATP. The most efficent ATP making process is the ETS which produces 32 ATP. The remaining 2 ATP are produced in the Kebs cycle, giving a grand total of 36 ATP.
During cellular respiration a molecule called Adenine triphosphate or ATP is produced which is used for many different aspects of a cell's functions. Another molecule that is produced that contains potential energy is called NADH. A net total of 2 ATP and 2 NADH is produced during the stages of cellular respiration known as glycolysis and linkage reactions.
4-2=2 net gain ATPs. 4 are produced and 2 are consumed during the process.
Both glycolysis and the citric acid cycle (Kreb) produce 2 ATP by substrate level phosphorylation, resulting in a net of 4 ATP.
Yes, 34-36 ATP are produced during the citric acid cycle with another two produced during glycolysis for a total of 36-38 ATP during cellular respiration.
well the electron transport chain creates 34 ATP and the krebs cycle produces 2 ATP. but in the beginning of glycolysis 2 ATP is produced to 2 ADP then 2 ADP is produced to 4 ATP but then the shuffle step uses the 2 ATP.
Two molecules of NADH + H+ are produced in glycolysis, and during fermentation, they become oxidized to NAD+ (one of the requirements for glycolysis to occur). Thus, both lactid acid and alcoholic fermentation allow for NAD+ to be continually regenerated for use in glycolysis, where a total of 4 ATP molecules are produced (a net gain of 2 ATP).
There are 2 net ATP produced during glycolysis. 4 are produced but 2 are used so the net production is 2. There are 2 NADH produced which are then transferred to to the electron transport chain.
38 ATP molecules are produced in total (after 2 complete cycles)
No, that process only produces 2 ATP. The most efficent ATP making process is the ETS which produces 32 ATP. The remaining 2 ATP are produced in the Kebs cycle, giving a grand total of 36 ATP.
total 38 atp but 2 atp used in glycolysis net profit is 36 atp
During cellular respiration a molecule called Adenine triphosphate or ATP is produced which is used for many different aspects of a cell's functions. Another molecule that is produced that contains potential energy is called NADH. A net total of 2 ATP and 2 NADH is produced during the stages of cellular respiration known as glycolysis and linkage reactions.
The total amount of ATP produced during fermentation is 2 for every glucose molecule.
10 NADH molecules are produced in total. 2 during glycolysis, 2 during link reaction (1 per pyruvate, 2 per glucose molecule), and 6 during the Krebs cycle. None during the electron transport chain.