The Krebs cycle generates approximately 30 ATP molecules per glucose molecule respired.
The actual number varies, because varying amounts of energy are diverted into other processes than ATP synthesis.
For a discussion of some of the issues, visit:
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DIRECTLY , 2 ATP molecules are produced during krebs cycle
One turn produces 1 ATP. So 2 molecules of ATP are produced for every molecule of glucose (because it happens twice for every glucose molecule)
One Krebs cycle produces 1 ATP molecule. However, because two acetyl CoA molecules are produced from each glucose molecule, two cycles must occur, making the products 2 ATP.
for one pyruvate, it is 3 NADH, 2 CO2, 1 ATP, and 1 FADH
for total output, just multiply each by two as two pyruvates are going through the Krebs cycle.
A net gain of 2 ATP.
36
The net products of the Krebs Cycle per molecule of glucose is as follows: 2 ATP 6 NADH 2 FADH2 Hope this helps!
Each turn of TCA cycle produces 2 molecules of carbon dioxide, three molecules of NADH and two molecules of FADH2, and one molecule of ATP at the substrate level. The net result of one TCA cycle is the production of 12 ATP.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.
Glycolysis results in a net gain of 2ATP.
The energy tally from one molecule of pyruvic acid is 4 NADH, 1 FADH₂ and 1 molecule of ATP.
The net products of the Krebs Cycle per molecule of glucose is as follows: 2 ATP 6 NADH 2 FADH2 Hope this helps!
A total of 38 ATP are produced during the Krebs cycle. Since two ATP are used to start the cycle, there are 36 ATP produced, net.
Both glycolysis and the citric acid cycle (Kreb) produce 2 ATP by substrate level phosphorylation, resulting in a net of 4 ATP.
It produces a net gain of anywhere between 36 to 38 ATP Glycolysis produces a net gain of 2 ATP The Krebs Cycle produces a net gain of 2 ATP And the Electron Transport System (ETS) produces a net gain 34 ATP
Cellular Respiration is the process in the cell that creates energy (ATP). Cellular Respiration is broken up into three stages; Glycolysis, the Krebs Cycle, and the Electron Transport Chain. Glycolysis takes place in the cytoplasm of the cell and is responsible for the net formation of 2 ATP molecules. The process then enters the matrix of the mitochondria where the Krebs Cycle takes place. The Krebs Cycle is responsible for the formation of 4 ATP molecules. Finally, the Electron Transport Chain is responsible for the formation of 30 ATP molecules. Therefore, for each cycle of cellular respiration, 36 molecules of ATP are produced in the cell.
Each turn of TCA cycle produces 2 molecules of carbon dioxide, three molecules of NADH and two molecules of FADH2, and one molecule of ATP at the substrate level. The net result of one TCA cycle is the production of 12 ATP.
Anaerobic respiration produces approximately 2 ATP per molecule of glucose. It actually produced four ATP molecules, but two are needed during the respiration process, giving a net of two ATP molecules.
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.
net gain of carbon atom is 8 in kreb cycle
Glycolysis results in a net gain of 2ATP.
The energy tally from one molecule of pyruvic acid is 4 NADH, 1 FADH₂ and 1 molecule of ATP.
2 ATP