The process involving the ATP synthase is ---- Electron transport Chain.
ATP synthase is the main enzyme involved in cellular respiration and is able to undergo direct Phosphorylation i.e. the production of ATP from ADP. ATP synthase uses the proton potential created by the action of Electron transport Chain in Mitochondria. At the end of ETC ATP, H2O are produced. ETC yields the maximum ATP in the different Processes of cellular respiration.
Substrate level phosphorylation = in it the Phosphorylation or formation of ATP occurs from the high energy substrate to low energy substrate like in Glycolysis ---> glucose is converted to pyruvic acid and also the production of ATP. In it different enzymes action but ATP synthase is not involved.
So, answer to the question is Option C, electron transport.
What is the driving force for the generation of the ATP molecules from ADP and P:(phosphate) molecules in presence of ATP synthase enzyme (a) the concentrations of NADH and FADH, (b) The variations of the oxidation potentials(or reduction potentials) of the Electron Transport systems (c) the concentration gradient of H' ions (d) none of these O a.(a) b.(b) O c. (c) O d. (d)
Oxaloacetic Acetyl Coa » Coa Citric acid acid NADH NAD Malic acid Isocitric acid Fumaric acid NAD CO2 NADH FADH, FAD+ Q-ketoglutaric acid Succinic acid CO2 NAD+ Succinyl-CoA NADH ADP+P; ATP Figure 9.1 2 26) Refer to Figure 9.1. If citric acid has six carbon atoms, how many carbon atoms does succinic acid have? A) 4 B) 12 C)5 D)1 E) 6 27) Refer to Figure 9.1. Starting with one acetyl CoA molecule, what is the maximum number of ATP...
8. What is the main function of the coenzymes NAD+ and FAD? a. To form water b. To act as enzymes by removing hydrogen atoms from substrate c. To transport hydrogen atoms to the electron transport chain. 9. During the oxidation of glucose, what happens to the carbons as they are removed from glucose? a. They produce water b. They bond to NAD+ c. They form CO2 d. They form Coenzyme A 10. What happens during the Kreb Cycle? a....
1. Which one of the following shows the correct sequence of energy transitions during chemiosmosis? A. NADH → electron acceptors → proton gradient → ATP synthase → ATP B. NADH → NAD+ → FADH2 → electron acceptors → ATP C. carbohydrates → acetyl CoA → CO2 → proton gradient → ATP D. NAD+ → NADH → protons → ADP → ATP E. glucose → pyruvate → acetyl CoA → NADH → ATP 2. Facultative anaerobes: A. prefer carbon dioxide. B....
Matching A. glycolysis B. Krebs cycle C. electron transport system also known as cytochrome system D. glycolysis and Krebs cycle E. glycolysis and electron transport chain F. Krebs cycle and electron transport chain G. glycolysis and Krebs cycle and electron transport chain H. none of the above 1. PGAL 2. Pyruvate 3. Alpha ketoglutaric acid 4. Cytochromes 5.Succine Acid 6. Citric acid 7. Malic acid 8. Fumaric acid 9. NADH -> NAD 10. FADH->FAD 11. FAD->FADH 12. Oxaloacelic acid 13....
labelNeed help labeling the numbers. doo FAD FADH, HO Ha NAD NADH, H COA COA COA COA H3 H 1 2 3 H2 н. 4 18 ΝΗ P-ribose COO COA HN-H COA нс Hac FOA 10 11 +H2O 5 Ç00 CH o COO- HC "OOC ç -OH сн. coo 14 CH2 coo OOC NADH + HS 6 9 NAD 15 HES COO- 17 CEO нсон Çooº H2C P-ribose OOH HO CH C-0 CH CH2 coo coo 8 7 coo COA-S....
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...
MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. Metabolism and Cellular Respiration Refer to Figure below as a guide to answer the folloaing questions Acetyt CoA Oxaloacetic acid CoA NADH Citric acid NAD Isocitric acid Malic acid Fumaric acid NAD co NADH -FADH FAD+ a-Ketoglutaric acid Succinic acid CO2NAD ATP Succinyl CoA ADP P NADH Figure above. Starting with citric acid and ending with oxaloacetic acid, how many ATP 6) Refer to molecules...
Ignore words in blue. Question A2: Make predictions: In the table below, describe what would happen if the protein complex listed were inhibited. If this piece of the If this piece of the pathway is inhibited, pathway is inhibited, what molecules will what molecules will be abnormally accumulate abnormally depleted in (build up) in the the organelle? organelle? H2O 02 Consider this piece of the pathway Any complex in the chloroplast's electron transport chain A complex in the mitochondrial electron...
the following questions Fructose-1.6- Fructose-6 ADP phosphate phosphate ATP ADP diphosphate Glucose-6 F ATP Glucose-→ Glucose-p)→ Fructose-P P-Fructose-(P FIGURE 5.7 glyceraldyde 3-phosphate P) ADP H-C-OH H20-P 1,3 diphospho- glycerate CH20-P 3 phospho glycerate phosphoenol pyruvate 15) Which step in Figure 5.7 shows a split of one molecule into two smaller molecules? 15) 4) 2 B) 4 )6 Dy H E) 5 16) Which step in Figure 5.7 shows a reaction involving a dehydrogenase? D) 8 A) 2 C) 6 E)5...