Which of the following statements concerning oxidative phosphorylation is false? Group of answer choices: The electron transport chain generates an electrochemical gradient that drives the production of ATP. ATP synthase with fewer subunits in its c ring will produce more ATP per proton. A “loose” β subunit of ATP synthase becomes a “tight” site as it produces ATP. When the supply of NADH and QH2 (ubiquinol) decreases, ATP synthase produces more ATP.
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I can select only one false option you are mentioning 2 false questions please pick one
by Bartleby Expert- Using the answer code on the right, indicate which form of energy production is being described: 1. takes place in the mitochondrial matrix 2. produces H2O as a by-product 3. results in a rich yield of ATP 4. takes place in the cytosol 5. processes acetyl-CoA 6. takes place in the mitochondrial innermembrane cristae 7. converts glucose into two pyruvate molecules 8. uses molecular oxygen 9. accomplished by the electron transport system and ATP synthase (a) glycolysis (b) citric acid cycle (c) oxidative phosphorylationWhich of the following statements is false concerning the ‘tight binding site’ of ATP Synthase within the natural environment of the mitochondria? Group of answer choices ATP is released from the tight binding site This is a binding site found within an αβ subunits of the F1 portion of ATP Synthase The tight binding forces the reaction of ADP + Pi → ATP The tight binding site has the lowest KM for ATPA poison that prevents the transfer of electrons from the last [Fe-S] cluster of Complex I to coenzyme Q is added to a suspension of actively respiring mitochondria. Which of the following will be observed? ATP production would be impaired due to the uncoupling of oxidative phosphorylation from electron transport. ATP production would be reduced due to inhibition of the CoQ subunit of ATP synthase. ATP production would be reduced due to a decrease in the number of protons pumped out of the mitochondrial matrix. ATP production would be halted completely due to the block in electron transport through the electron transport chain.
- Which of the following regarding the ATP Synthase is INCORRECT? Protons flow through the a and c subunits The translocation of four protons through the ATP synthase fuels the synthesis of one ATP molecule The F1 domain can function as an ATPase The y subunit rotates while the xß dimers are stationaryWhich of the following statements is FALSE regarding oxidative phosphorylation? The pH is higher in the matrix relative to that in the inter-membrane space. A large positive difference in reduction potential is associated with a small negative free energy change. Electrons from FADH2 enter at complex II because the reduction potential of FADH2 is greater than that of redox centers in complex I. Oxidation and phosphorylation are coupled via a proton gradient.Which of the following statements is FALSE regarding oxidative phosphorylation? Which of the following statements is FALSE regarding oxidative phosphorylation? Oxidation and phosphorylation are coupled via a proton gradient. A large positive difference in reduction potential is associated with a small negative free energy change. Electrons from FADH2 enter at complex II because the reduction potential of FADH2 is greater than that of redox centers in complex I. The pH is higher in the matrix relative to that in the inter-membrane space.
- In the presence of excess oxygen, a complete oxidation of seven molecules of glucose into carbon dioxide and water, by a yeast cell, would produce approximately ATP molecules via oxidative phosphorylation only. (Consider NADH = 3 ATP and FADH2 = 2 ATP)The complete aerobic respiration of glucose yields far more energy stored in ATP than glycolysis alone for all of the following reasons EXCEPT: Krebs cycle generates reduced electron carrier molecules (NADH and FADH₂) Krebs cycle generates some additional ATP through substrate-level phosphorylation Electron transport chain (terminal respiratory pathway) produces many ATPs through oxidative phosphorylation using electron carrier molecules (NADH and FADH₂) None of the other four answers (all are reasons that aerobic respiration yields more energy than glycolysis alone) Glycolysis only partially oxidizes the glucose molecule to pyruvic acidIf a particular species has a c ring with 12 c subunits, how many protons have to be transported per ATP produced? (give answer WITHOUT corrections for transport reactions that decrease the proton motive force) Group of answer choices 3 4 12 2.7 What powers the rotation of the c ring of ATP synthase? Group of answer choices high phosphoryl-transfer potential movement of electrons through ATP synthase hydrolysis of ATP proton motive force Which of the following are true about Complex III of the electron transport chain? (select all that apply) Group of answer choices It is only found in brown fat It pumps 4 H+ into the matrix It acts as an ATP/ADP translocase It results in electron transfer cytochrome c It has 2 binding sites for Coenzyme Q Which of the following are true about ATP/NADH/FADH2 production from metabolism of 1 glucose? (answer with net max values) Group of answer choices For 2 acetyl CoA entering the citric acid cycle, 2 FADH2 are…
- 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 image below shows part of a key catabolic pathway. If an individual had a deficiency for the enzyme required at point "X", would they still be able to produce a high rate of ATP during very strenuous exercise? ATP in Glucose Prep. phase Payoff phase ļ - MacRoc Pyruvate →→→ Anaerobic fate of pyruvate ATP out ▬OD OF 1- HP 01 -- Select one: O a. No, because NAD* will not be regenerated by lactate dehydrogenase. The reduction of NAD+ to NADH is a required step during the payoff phase of glycolysis. O b. No, because lactate dehydrogenase is required for the continued recycling of NAD+ to NADH, thus allowing glycolysis to continue. Oc. Yes, because pyruvate dehydrogenase is necessary to produce acetyl-CoA, which under these conditions will feed into the citric acid cycle. Od. Yes, because this enzyme is responsible for the substrate-level phosphorylation necessary to maintain the ATP input for the preparatory phase of glycolysis. DE Report question issue Notes + 14:12 ( CEOxidative phosphorylation generates ATP using the reducing power of [NADH, FADH2 or malate] to move electrons down a series of carriers to ultimately produce a [phosphate gradient or protons gradient] across the inner mitochondrial membrane, which is used by ATP synthase to make ATP. ATP synthase harnesses the energy stored in both [charge and concentration gradients or electostatic and van der waals interations] to achieve high energy phosphate bond synthesis. If the ion gradient across the inner membrane is dissipated by the expression of UCP1, ATP is not synthesized and [heat is generated or electron transport is blocked]. The final electron acceptor in the electron transport chain is [oxygen or carbon dioxide] with water as a product.