1 ATP hydrolysis is _ exergonic as NADH oxidation. O Much more (more than 2x more) O Sightly more (1.1-2x more) O Much less (<0.5x as exergonic) O Sightly Less (0.5-0.9x as exergonic) O About the same
Q: oxidized coenzyme
A: 1. FAD
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- The Relative Efficiency of ATP Synthesis in Noncyclic versus Cyclic Photophosphorylation If noncyclic photosynthetic electron transport leads to the translocation of 7 H+/2e- and cyclic photosynthetic electron transport leads to the translocation of 2 H+/e-, what is the relative photosynthetic efficiency of ATP synthesis (expressed as the number of photons absorbed per ATP synthesized) for noncyclic versus cyclic photophosphorylation? (Assume that the CF1CF0-ATP synthase yields 3 ATP/14 H+.)Complete oxidation of a 16-carbon fatty acid can yield 129 molecules of ATP Study Figure 19.2 and determine how many ATP molecules would be generated if a 16-carbon fatly acid were metabolized solely by the TCA cycle, in the form of S acetyl-CoA molecules.In the first step of the citric acid cycle, an acetyl group from acetyl CoA reacts with oxaloacetate to form (a) pyruvate (b) citrate (c) NADH (d) ATP (e) CO2
- GAP + Pi + NAD+ ⟹1,3-BPG + NADH (Reaction 1) 1,3-BPG + ADP ⟹ 3-PG + ATP (Reaction 2) Which of the following statements concerning the information above is true? Select all that apply. A.Reaction 2 is an example of substrate level phosphorylation B.These reactions are written in a direction that would indicate gluconeogenesis is occurring in the liver C.The linking of Reaction 1 and Reaction 2 by the intermediate 1,3-BPG is an example of coupling of reactions D.Reaction 1 shows a redox reaction where the carbon skeleton is oxidized to generate electrons for a soluble electron carrier E.These reactions are irreversible under cellular conditionsFrom the complete oxidation of glucose (glucose → 6CO2), how many total NADH electron carriers are produced and how many total nucleotide triphosphates are yielded (be sure to deduct payback) as part of substrate level phosphorylation?The oxidation of glucose to CO2 and water is a major source of energy in aerobic organisms. It is a reaction favored mainly by a large negative enthalpy change. C6H12O6(s) + 6O2(g) →6CO2(g) + 6H2O(l) ∆H° = -2816 kJ/mol ∆S ° = +181 J/mol . K (a) At 37 °C, what is the value for ∆G°? (b) In the overall reaction of aerobic metabolism of glucose, 32 moles of ATP are produced from ADP for every mole of glucose oxidized. Calculate the standard state free energy change for the overall reaction when glucose oxidation is coupled to the formation of ATP at 37 °C. (c) What is the efficiency of the process in terms of the percentage of the available free energy change captured in ATP?
- All the dehydrogenases of glycolysis and the citric acid cycle use NAD+ (?′°E′° for NAD+/NADH is −0.32 V−0.32 V) as electron acceptor except succinate dehydrogenase, which uses covalently‑bound FAD (?′°E′° for FAD/FADH2 in this enzyme is 0.050 V).0.050 V). The ?′°E′° value for fumarate/succinate is 0.031 V.0.031 V. a)Calculate the Δ?′°ΔG′° value for the oxidation of succinate using NAD+. b)Calculate the Δ?′°ΔG′° value for the oxidation of succinate using covalently‑bound FAD.Phosphofructokinase-1 is the main flux controlling enzyme for glycolysis. It is inhibited by high [ATP]. There exist metabolic circumstances in which the inhibition by ATP is overridden. Draw velocity vs. [S] graphs showing the inhibition of PFK-1 activity by ATP and the circumstance in which the inhibition by ATP is overridden.Assuming all the NADH+H+ and FADH2 are used for oxidative phosphorylation, how many net ATP are made from 1 molecule of glucose? (hint: don’t forget to also include substrate level phosphorylation)
- The theoretical ATP yield from the complete oxidation of 1 mole of glucose via glycolysis, the TCA cycle and the electron transport chain is higher in a heart cell compared to a skeletal muscle cell because: a. O2 availability is different in the different cell types b. Heart cells are more metabolically active c. The TCA cycle generates more NADH in a heart cell d. Skeletal muscle cells are less energy dense e. Different mitochondrial shuttles operating in the two tissuesA new ATP-producing protein is discovered that couples ATP production to the oxidation of NADPH by oxidative phosphorylation. Assume that the value of ΔGo for ATP synthesis is 30 kJ•mol−1. If this protein only produces 1 molecule of ATP per reaction that consumes one NADPH: a. How much free energy is wasted, under standard conditions?b. How many more ATP molecules could be created by a perfectly efficient electron transport chain from one NADPH?