This would be both glycolysis and the Kreb's cycle (the Kreb's cycle would turn twice). This would also be the number of ATP produced for anaerobic respiration.
4 molecules of ATP are produced per molecule of glucose in glycolysis, but 2 are needed (used, degraded, etc.) to start the reaction, so there is really only a net gain of 2 ATP in the process of glycolysis.
Two, net.
In anaerobic respiration one glucose molecule produces a net gain of two ATP molecules (four ATP molecules are produced during glycolysis but two are required by enzymes used during the process). In aerobic respiration a molecule of glucose is much more profitable in that a net worth of 34 ATP molecules are generated (32 gross with two being required in the process).
The total net gain of 36, Glycolosyis. The net gain of 2 Aerobic cellular respiration for a net gain of 34.
The process of glycolysis converts 2 ATP molecules and 1 Glucose molecule into 2 Pyruvate molecules (or pyruvic acid, a 3 carbon molecule) and 4 ATP molecules. The net gain of ATP is 2, since 2 ATP have already been invested in the process.
4 molecules of ATP are produced per molecule of glucose in glycolysis, but 2 are needed (used, degraded, etc.) to start the reaction, so there is really only a net gain of 2 ATP in the process of glycolysis.
Two, net.
36.
In anaerobic respiration one glucose molecule produces a net gain of two ATP molecules (four ATP molecules are produced during glycolysis but two are required by enzymes used during the process). In aerobic respiration a molecule of glucose is much more profitable in that a net worth of 34 ATP molecules are generated (32 gross with two being required in the process).
After glycolysis (the splitting of one glucose molecule, first step in cellular respiration in the mitochondria of a cell) the Krebs cycle, and going through the electron transport chain and ATP synthase...one glucose molecule can yield 38 ATP molecules.
In the first phase of glycolysis, the cell uses 2 ATP molecules. Then during the process of glycolysis, the cell produces 4 ATP molecules, making the net gain at 2 ATP molecules.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
During glycolysis, the overall gain of ATP per glucose molecule is 2. While glycolysis produces 4 ATPs, it uses 2 ATPs in the process.
2 molecules of ATP from each glucose molecule.
Cellular RespirationSource: Holt Biology by Johnson Raven* Aerobic cellular respiration. Anaerobic cellular respiration yields a net gain of 2 ATP molecules for each glucose molecule broken down. Aerobic respiration yields a variable number, but always more than ten times as many ATP molecules.
In aerobic respiration, one molecule of glucose yields 38 ATP molecules, eight produced during glycolysis, six from the link reaction and 24 from the Krebs cycle. The net gain is 36 ATP, as two of the ATP molecules produced from glycolysis are used up in the re-oxidation of the hydrogen carrier molecule NAD. Therefore; There are 38 ATP molecules produced but net gain is 36 ATP