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How many ATP are produced in prokaryotes?
38 ATPs
Most prokaryotes generate 38 ATPs from one glucose molecule.
How many ATP molecules do you get from the breakdown of 1 glucose?
In a eukaryotic cell, the process of cellular respiration can metabolize one molecule of glucose into 30 to 32 ATP. The process of glycolysis only produces two ATP, while all the rest are produced during the electron transport chain.
How many net ATP are created during cellular respiration in prokaryotes?
Most biochemists agree that in prokaryotic microorganisms, a total of 36 molecules of ATP can be produced during cellular respiration. In eukaryotic cells, the number is 34 molecules of ATP.
How many ATP are produced per glucose molecule in aerobic respiration in prokaryotes?
38
In prokaryotes the usual figure is 38. Per glucose, you get 2 net ATPs from glycolysis. A total of 10 NADH’s is made (in glucolysis and the Krebs cycle) per glucose, and 2 FADH2’s.
How many ATP can be produced from one glucose molecule?
Therefore, a total of up to 36 molecules of ATP can be made from just one molecule of glucose in the process of cellular respiration. How many ATP molecules are produced by complete aerobic and anaerobic respiration of the glucose molecule?
How many ATP is produced in the conversion of pyruvate to ACOA?
Conversion of pyruvate to ACOA: We do not produce any ATP in this stage. However, the 2 molecules of NADH+H+ will yied 5 ATP in the ETC. TCA cycle: When calculating the total ATP in the TCA cycle, remember that there are TWO ACoA molecules. So, ATP is made one place in the TCA and with 2 turns of the cycle the ATP yield is 2.
How many ATP does NADH+H+ produce in the TCA cycle?
However, the 2 molecules of NADH+H+ will yied 5 ATP in the ETC. TCA cycle: When calculating the total ATP in the TCA cycle, remember that there are TWO ACoA molecules. So, ATP is made one place in the TCA and with 2 turns of the cycle the ATP yield is 2.
What is the net ATP yield during glycolysis?
Glycolysis: The net ATP yield is 2 ATP. And, since NADH+H shuttles its electrons and protons to FAD, reducing FAD to FADH2, the net yield is 3 ATP in the ETC. Conversion of pyruvate to ACOA: We do not produce any ATP in this stage. However, the 2 molecules of NADH+H+ will yied 5 ATP in the ETC.