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What would happen to the ETC and oxidative phosphorylation pathway in the presence of excess NADH if the mitochondrial matrix were not closed,but opened up to the cytoplasm?


A) The ETC complexes would function as normal, but no ATP would be made.
B) The ETC and synthesis of ATP would continue as normal.
C) The ETC complexes would transfer electrons from NADH to O2, but no protons would be pumped.
D) The NADH would react directly with O2, generating excess heat.

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A

Mitochondria


A) selectively transport molecules from the cytoplasm to the intermembrane space.
B) maintain a pH gradient across the inner mitochondrial membrane.
C) are found one per cell.
D) have a matrix that is continuous with the cytoplasm.

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Which is NOT involved in the transfer of reducing equivalents from succinate to molecular oxygen (O2) ?


A) cytochrome c
B) coenzyme Q
C) complex I
D) complex II

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Which statement comparing chloroplasts and mitochondria is true?


A) Chloroplasts and mitochondria each contain two membranes.
B) Chloroplasts and mitochondria use electrons from NADH to create a proton gradient.
C) Chloroplasts pump protons outside the organelle, while mitochondria pump protons inside the inner part of the organelle.
D) Chloroplasts and mitochondria use energy from a proton gradient to make ATP.

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Use the following picture of a mitochondrion and label the (A)matrix,(B)crista,(c)inner membrane space,(D)cytoplasm,(E)inner membrane,(F)outer membrane,(G)location of the ATP synthesis,(H)location of elevated pH,and (I)the location of the electron transport system complexes. Use the following picture of a mitochondrion and label the (A)matrix,(B)crista,(c)inner membrane space,(D)cytoplasm,(E)inner membrane,(F)outer membrane,(G)location of the ATP synthesis,(H)location of elevated pH,and (I)the location of the electron transport system complexes.

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11ea8d43_ab93_8b5a_b445_730920de3e84_TB6697_00_TB6697_00 In addition,(D)the cytoplasm is outside the outer membrane; (H)the location of elevated pH is in the inner membrane space; and (I)the location of the electron transport system is on the inner membrane.

List the conformation types and the changes to the substrates in a single List the conformation types and the changes to the substrates in a single subunit on the ATP synthase catalytic head piece during one 360<sup>o</sup> rotation of the rotor. subunit on the ATP synthase catalytic head piece during one 360o rotation of the rotor.

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A blured image_TB6697_11 subunit begins in the O or ...

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The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits?


A) a hexameric The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits? A) a hexameric <sub>3</sub><sub> </sub> <sub>3</sub> ring B) a circle of \ge 10 c subunits C) the F<sub>0</sub> subunit D) , , and Subunits 3 The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits? A) a hexameric <sub>3</sub><sub> </sub> <sub>3</sub> ring B) a circle of \ge 10 c subunits C) the F<sub>0</sub> subunit D) , , and Subunits 3 ring
B) a circle of ≥\ge 10 c subunits
C) the F0 subunit
D) The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits? A) a hexameric <sub>3</sub><sub> </sub> <sub>3</sub> ring B) a circle of \ge 10 c subunits C) the F<sub>0</sub> subunit D) , , and Subunits , The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits? A) a hexameric <sub>3</sub><sub> </sub> <sub>3</sub> ring B) a circle of \ge 10 c subunits C) the F<sub>0</sub> subunit D) , , and Subunits , and The catalytic headpiece of the ATP synthase enzyme is primarily composed of which subunits? A) a hexameric <sub>3</sub><sub> </sub> <sub>3</sub> ring B) a circle of \ge 10 c subunits C) the F<sub>0</sub> subunit D) , , and Subunits Subunits

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Which is the only electron carrier in the electron transport system that is not embedded in a membrane?


A) ATP
B) cytochrome c
C) coenzyme Q
D) complex I

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During transfer of ATP,ADP,and Pi,some of the proton gradient is lost in the


A) movement of ATP into the mitochondria by the ATP/ADP translocase.
B) movement of ATP out of the mitochondria.
C) transport of ADP into the mitochondria by the ADP translocase.
D) transport of Pi into the mitochondria by the phosphate translocase.

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What best describes the driving force for ATP synthesis in the mitochondria?


A) Electron transport from electron transport system complexes.
B) The higher pH inside the mitochondria that results from electron transfer.
C) The large drops in What best describes the driving force for ATP synthesis in the mitochondria? A) Electron transport from electron transport system complexes. B) The higher pH inside the mitochondria that results from electron transfer. C) The large drops in G resulting from electron transfer in the ETC. D) The substrate level phosphorylations of the TCA cycle and glycolysis.
G resulting from electron transfer in the ETC.
D) The substrate level phosphorylations of the TCA cycle and glycolysis.

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Protons are pumped by mitochondria during active electron transport


A) into the thylakoid lumen.
B) outside the outer mitochondrial membrane.
C) into the mitochondrial matrix.
D) outside the inner mitochondrial membrane.

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Give the chemical reaction between the mitochondrial electron transport system's original electron donor and final electron acceptor.

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NADH + H+ +...

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Which tissue types are affected the most by inherited mitochondrial disorders?


A) those tissues with the highest levels of mitochondria and high levels of activity
B) heart tissue
C) liver tissue
D) those tissues with the lowest levels of mitochondria

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Which one of the following statements about the glycerol phosphate shuttle is true?


A) It involves the transfer of electrons from cytoplasmic NADH to dihydroxyacetone phosphate (DHAP) to yield glycerol phosphate.
B) It is more efficient than the malate aspartate shuttle.
C) NADH produced in the cytoplasm by glycolysis ultimately leads to NADH in mitochondria.
D) Glycerol phosphate diffuses into the mitochondria.

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Which one of the following correctly designates the number of ATPs generated by the reducing molecules shown below?


A) NADH from the TCA cycle-1.5 ATP
B) NADH from the cytosol (glycerol phosphate shuttle) -2.25 ATP
C) NADH from the cytosol (malate-aspartate shuttle) -1.5 ATP
D) FADH2 from the TCA cycle-1.5 ATP

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A characteristic of complex III is that it


A) transports electrons from cytochrome c to complex IV.
B) is reduced by FADH2.
C) uses the Q cycle mechanism to oxidize ubiquinone.
D) participates in electron transfer when the donor is NADH but not when the donor is succinate (or FADH2) .

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Which one of the following is involved in the flow of electrons from NADH through the electron transport system to molecular oxygen (O2) ?


A) ATP synthase
B) complex II
C) complex III
D) ATP

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ATP synthase is located in or on the


A) cytoplasm.
B) intermembrane space of the mitochondria.
C) inner mitochondrial membrane.
D) outer mitochondrial membrane.

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What is the effect of oligomycin,an ATP synthase inhibitor,on the mitochondrial oxidative phosphorylation pathway?


A) The mitochondria cannot reduce NADH or make ATP.
B) No proton gradient is formed, and no ATP is synthesized.
C) Protons leak back into the cytoplasm.
D) The proton gradient is formed, but no ATP synthesis can occur.

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List the major enzymes and enzyme complexes in the oxidative phosphorylation pathway,which are required to couple FADH2 oxidation with ATP synthesis.

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Complex II (succinate dehydrogenase) Complex III (ubiquinone cytochrome c oxidoreductase) Complex IV (cytochrome c oxidase) ATP synthase

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