Option A. How the NADH made during glycolysis enter the mitochondria.
Becuase , amount of NADH produce during the Glycolysis. Then NADH moves to the mitochondria. Then NADH helps to pumps the H+ ion from complex I and complex III which generate a electrochemical gradient. These H+ ion enter into the matrix of the mitochondria by the help of ATP synthase and generate the ATP. 3H+ ion recured for each ATP production.
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH...
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria O B. How the FADH2 made during glycolysis enter the mitochondria OC. NADH oxidizing at complex lor complex II OD. FADH2 oxidizing at complex lor complex II Dorot Colontinn
4. Referring to the preceding question, how and why does the net yield of ATP molecules differ in mammalian muscle cells? Be specific. 3. Complete Table 2 to account for the net yield of ATP molecules produced from the oxidation of one glucose molecule in mammalian liver cells. (12 points) TABLE 2 Pathway # ATP #NADH #ATP made in ox-phos by this pathway's NADH #FADH2 # ATP made in ox-phos by this pathway's FADH Glycolysis Transition Reaction Citric Acid Cycle...
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....
GTP or ATP is produced during the conversion of _ A isocitrate into a-ketoglutarate o B succinyl CoA into succinate O C fumarate into malate O D malate into oxaloacetate Fill in the Blanks For each of these products, indicate how many are made as a result of the citric acid cycle for each glucose molecule that is broken down: NADH FADH2 CO2
8,9,10 please 6. Consider the glycolysis of a single glucose molecule. a. How many ATP molecules are used up during the first 3 reactions? b. How many ATP molecules are produced by the last 4 reactions? c. What is the net ATP balance for glycolysis? 7. Is 02 a reactant in any of the reactions of glycolysis? 8. During glycolysis, there is an oxidation reaction that is necessary in order for any ATP to be produced. Name the oxidizing agent...
Please explain why as well. 4. On average, how many ATP molecules are synthesized per NADH? A. 0 B. 1 C. 2 D. 3 E. 4 5. The FADH2 that is produced donates its electrons directly to A. Complex I B. Complex III C. Complex IV D. Coenzyme Q E. Cytochrome C F. O2 6. In the Binding Change Mechanism the 3 conformational states that occur in the F1 subunit of ATP synthase depend on A. interaction with b subunits...
Cellular respiration: The Electron Transport Chain The breakdown of glucose ends during the Krebs cydle; however, it is important to note that the energy previously contained in glucose is mostly stored in NADH and FADHz. In the last step of celular respiration, the high-energy electrons within NADH and FADH2 are passed within a set of proteins found in the inner membrane of the mitochondrion, collectively known as the electron transport chain. The electrons provide the energy to create ATP, which...
14. During starvation, the only tissue that completely oxidizes glucose is a. The red blood cell b. Brain c. Liver d. Skeletal muscle Energy released from biological oxidation processes is... Captured in ATP and other “high-energy” molecules Lost as heat without formation of ATP Lost in the urine as glucose Both a and b Both a and c In the mitochondrial electron transport chain Oxygen is the final electron acceptor NADH is a major electron donor Electron transport is coupled...
please help!! 37. What is the name of the enzyme that creates ATP in oxidative phosphorylation? A) ATP synthase B) ATP dehydrogenase C) ATP transferase D ) ATP ligase 38. This is another name for Coenzyme Q. A) ubiquinone B) quantum carrier C) glutamine D) vitamin B6 39. Choose the two correct paths taken by a pair of electrons as it travels down the electron-transport chain. (1) NADH - complex / -- COQ - Complex - C C . complex...
Please show calculations, thank you! QUESTION 5 Glucose (C&H1206) 2 Lactate (C H,Os) o Compare anaerobic and aerobic catabolism of glucose under standard conditions. The net reactions are shown on the right: He' ~-194 kJ/mol (99%) TAS® ~ +2 kJ/mol ( 1%) ΔGo, ~-196 kJ/mol (a) List possible reason(s) for the aerobic catabolism of glucose yielding so much more ATP than anaerobic catabolism of glucose. Glucose (CH 602 - 6 CO2+ 6 H2O o ΔΗΡ. ~-2800 kJ/mol (98%) T So,...