If one (1) molecule of dihydroxyacetone phosphate is oxidized via glycolysis, the PDC, and the CAC in a kidney cell, how many protons are pumped into the inner membrane space at ETC Complex II?
no protons
If one (1) molecule of dihydroxyacetone phosphate is oxidized via glycolysis, the PDC, and the CAC...
If one (1) molecule of glyceraldehyde 3-phosphate is oxidized via glycolysis, the PDC, and the CAC in a skeletal muscle cell, how many protons are pumped into the inner membrane space at ETC Complex IV?
1. If one (1) molecule of phosphonenol pyruvate is oxidized via glycolysis, the PDC, and the CAC in a kidney cell, how many protons are pumped into the inner membrane space at ETC Complex III? 2. If one (1) molecule of glyceraldehyde 3-phosphate is oxidized via glycolysis, the PDC, and the CAC in a skeletal muscle cell, how many protons are pumped into the inner membrane space at ETC Complex IV? 3. If two (2) molecules of pyruvate are oxidized...
If one (1) molecule of fructose 1,6-bisphosphate is oxidized via glycolysis, the PDC, and the CAC in a skeletal muscle cell, how many protons are pumped into the inner membrane space at ETC Complex I?
If one (1) molecules of 3-phosphoglycerateate is oxidized via glycolysis, the PDC, and the CAC in a kidney cell, how many total protons are pumped across the inner mitochondrial membrane by the ETC?
If two (2) molecules of 2-phosphoglycerate is oxidized via glycolysis, the PDC, and the CAC in a kidney cell, how many net molecules of ATP (plus GTP) will be produced by oxidative phosphorylation and substrate level phosphorylation? Assume that this particular ATP synthase has 9 c-subunits and that the phosphate translocate symporter is utilized. (Net ATP = total ATP produced - total ATP used up.)
1. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the citric acid cycle, how many NADH molecules are generated in these reactions? 2. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the citric acid cycle, how many FADH2 molecules (that can be used directly by the ETC) are generated in these reactions? 3. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the...
1. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the citric acid cycle, how many NADH molecules are generated in these reactions? 2. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the citric acid cycle, how many FADH2 molecules (that can be used directly by the ETC) are generated in these reactions? 3. If one glucose molecule enters into glycolysis and proceeds through the PDC and through the...
If two (2) molecules of pyruvate are oxidized via the PDC and the Citric Acid Cycle in a kidney cell, how many molecules of O2 are utilized?
1. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many NET ATP are generated in these reactions? ("Net" refers to total # generated - total number consumed.) 2. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many CO2 molecules are released in these reactions? 3. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many NADH molecules are generated in...
1. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many NET ATP are generated in these reactions? ("Net" refers to total # generated - total number consumed.) 2. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many CO2 molecules are released in these reactions? 3. If one glucose molecule enters into glycolysis and proceeds through the PDC to acetyl-CoA, how many NADH molecules are generated in...