Calculate the net number of moles of ATP generated from the oxidation of 1 mole of decanoic acid if all of the NADH, FADH2, and acetyl-CoA are metabolized by citrate cycle and oxidative phosphorylation.
a) There are 100 net moles of ATP generated
b) There are 64 net moles of ATP generated
c) There are 106 net moles of ATP generated
d) There are 148 net moles of ATP generated
The correct answer is B. The question is if you could explain how you get 64 moles?
You can use this fatty acid balance sheet by any fatty acid, by replacing the value of n.
Please rate.
Calculate the net number of moles of ATP generated from the oxidation of 1 mole of...
2 pts DQuestion 7 For arachadic acid calculate the total number of FADH2 and NADH molecules, respectively, that are formed in the B-oxidation and subsequent utilization of CoA in the TCA cycle. Reference figure 23.16 when calculating these values. 19,39 14, 26 O 2,5 12, 12 C-SCoA 7 CoA, 7 [FAD], 7 NAD B-Oxidation 7 [FADH21, 7 NADH +7H 8 Acetyl-CoA 100 ADP 100 Oxidative Electron transport phosphorylation 100 ATP 24 NADH, 8 [FADH TCA cycle >16 CO2 →8AIP FIGURE...
How many molecules of NADH and FADH2 respectively would be generated by the oxidation of decanoic acid to Acetyl CoA? A. 5 and 5 B. 5 and 4 C. 4 and 4 D. 3 and 1
Part L- The complete oxidation of the fatty acid produces after oxidation cycles, molecules of NADH+ H, andmolecules of FADH2 9,9,9 0 8, 8, 8 0 8,7,9 0 7,9, 8 0 7,8, 8 Submit Request Answer Part M - The number of acetyl-CoA molecules produced from the beta oxidation process enter the Krebs cycle and produce-molecules of NADH +-H+-molecules of FADH2-and-molecules of ATP directly by the process O 3; 3, 1; 1; substrate level phosphorylation O 8; 8, 9, photo...
A fatty acid composed of 20 carbon atoms undergoes β‑oxidation. How many acetyl CoA, FADH2, and NADH does β‑oxidation of this fatty acid generate? (answer is 10 acetyl CoA, 9 FADH2, 9 NADH) Calculate the net ATP generated by the β‑oxidation of the 20‑carbon fatty acid. Assume that each FADH2 generates 1.5 ATP and each NADH generates 2.5 ATP. number of ATP molecules: ??????
Calculate the number of ATP generated from each of the given molecules. For this problem, use the values: 1 NADH provides the energy for the synthesis of 2.5 ATP. 1 FADH2 provides energy for the synthesis of 1.5 ATP. 4 NADH:___ ATP 2 acetyl-CoA:____ ATP 5 FADH2:____ATP 4 glucose: ___ ATP
Fatty acids can fuel the citric acid cycle through a process called _______ to produce _______ A. beta-oxidation; pyruvate B. None of these answers are correct C. beta-oxidation; acetyl-CoA D. fermentation; ethanol E. oxidative phosphorylation; citrate F. oxidative phosphorylation; NADH G. fermentation; lactate
How much ATP can be obtained by the cell from the complete oxidation of one glucose vs anaerobically converting to lactate or ethanol? Fill in the table below: Aerobic Oxidation of Glucose Molecule Produced ATP Made Glycolysis ATP NADH АТР 2 pyruvate acetyl-CoA NADH NADH citric acid cycle (2 rounds) FADH2/QH2 Total Anaerobically ATP made. FT
Which of the following is not a net product of the citric acid cycle for each molecule of pyruvate generated in glycolysis? Select one: a. 1 ATP (GTP) b. 1 acetyl coA c. 3 NADH d. 1 FADH2 Question 2 Which of the following is NOT an end product for an acetyl group that enters the citric acid cycle? Select one: a. ATP b. NADH c. FADH2 d. oxaloacetate Question 3 Once they have been processed through the citric acid...
Q5. Label correctly the names of different processes that generate ATP as shown below (substrate-level or oxidative phosphorylation?). [3pts] Oxidation of Organic Fuel Molecules During Cellular Respiration Electrons carried via NADH Electrons carried via NADH and FADH, Glycolysis Glucose Pyruvate Pyruvate oxidation Acetyl COA Citric acid cycle Oxidative phosphorylation: electron transport and chemiosmosis CYTOSOL MITOCHONDRION
1. Select the TRUE statement about the citric acid cycle. A. Isocitrate dehydrogenase is a multienzyme complex that is very similar to the pyruvate dehydrogenase complex B. The two decarboxylation steps occur right after each other, first via oxidative alpha- decarboxylation, then via oxidative beta- decarboxylation. C. In one turn of the cycle, the two carbons that enter the cycle as acetyl CoA are the same two carbons that are released as CO2. D. A flavin containing dehydrogenase enzymes oxidizes...