BIOL 112 Study Guide - Final Guide: Oxidative Phosphorylation, Atp Synthase, Intermembrane Space

1. Compared to the generation of ATP by oxidative phosphorylation, what is a major difference in mechanism of ATP generation by substrate-level phosphorylation in glycolysis?

A. A proton gradient is not involved

B. The ATP produced has less energy content because oxygen was not involved.

C. Substrate level phosphorylation occurs in the inter-mitochondrial space

D. One can't generalize without knowing the substrate.

2. Which of the following statements is true?

A. Because the electrons in NADH are at a higher energy than the electrons in reduced ubiquinone, the NADH dehydrogenase complex can pump more protons than can the cytochrome b-c1 complex.

B.The pH in the mitochondrial matrix is higher than the pH in the intermembrane space.

C. The proton concentration gradient and the membrane potential across the inner mitochondrial membrane tend to work against each other in driving protons from the intermembrane space into the matrix.

D. The difference in proton concentration across the inner mitochondrial membrane has a much larger effect than the membrane potential on the total proton-motive force.

1. Explain HOW ATP functions as asource of cellular energy for biochemical reactions and activetransport. Detailed answer required.

2. What is the function of NAD+ andFAD in glycolysis, CAC, and ETC for ATP synthesis? Of the C, H, andO atoms of the glucose molecule, which is/are most important forATP synthesis. Explain

3. Define substrate levelphosphorylation (SLP). Why are HETCs important for ATP synthesis?What is the amount of kinetic energy required to produce onemolecule of ATP by SLP?

4. In glycolysis, why must multipleenzymatic steps occur to convert glucose to two pyruvic acidmolecules? What are high energy transfer compounds? Explain indetail why two molecules of ATP must be consumed in stage 1 ofglycolysis. What is the purpose of the atomic rearrangements inglycolysis? In stage 1 of glycolysis, what is the significance ofthe rearrangement of glucose-6-phosphate tofructose-6-phosphate?

5. What is the importance of the citric acidcycle? Why must CoA be used in this pathway?

6. Define cellular respiration(CR). What are the significant features of cellularrespiration?

Is oxygen the only terminal electron acceptor (TEA) for CR inprokaryotic cells? Explain

7. Explain the functions of theETC. What role does H+ translocation and the TEA play in

the function of the ETC? Why is the proton motive forceessential for oxidative

phosphorylation?

8. Define the proton motive force(PMF). Explain HOW the PMF provides energy for

rotary catalysis of the ATP synthase used for oxidativephosphorylation.

1.

Why does an electron have lower potential energy in an H-O bondthan in an O=O bond?

H has a higher electronegativity than O.

O=O is not stable.

O=O contains a double bond.

The electrons are closer to the oxygen atom in the H-O bond.

None of the answers are correct.

2.

How is the energy from the electron transport chain used mostdirectly?

to form the bonds of a water molecule

to pump hydrogen ions across the mitochondrial inner membraneinto the mitochondrial intermembrane space

to join ADP with a phosphate

to decompose glucose into pyruvate

to rotate ATP synthase

3.

Which process provides the energy needed to pump protons acrossthe mitochondrial membrane during oxidative phosphorylation?

the transfer of electrons in redox reactions

the breakdown of ATP to ADP

the rotation of the ATP synthase rotor

oxidation of isocitrate

None of the answers are correct.

4.

What causes the ATP synthase rotor to spin?

the passing of electrons through ATP synthase

the movement of protons across the mitochondrial membrane

the movement of electrons across the mitochondrial membrane

the synthesis of ATP from ADP and a phosphate group

None of the answers are correct.

5.

What of the following generates the proton-motive force duringoxidative phosphorylation?

buildup of NADH molecules at protein complex I

movement of H⁺ ions across the mitochondrial membraneduring electron transport

rotation of the ATP synthase rotor

joining of H⁺ ions with oxygen to form water

None of the answers are correct.

6.

Suppose a microorganism invades a cell, causing damage to ATPsynthase. How would cellular respiration be affected?

Electrons could not be passed down the electron transportchain.

ADP could not be joined with a phosphate to form ATP.

Hydrogen ions could not be pumped into the mitochondrialintermembrane space.

The cell could not release any energy from the glucosemolecule.

Glucose could not be broken down into pyruvate.

7.

Which molecules transport electrons from the citric acid cycleto the electron transport chain?

NADH and FADH₂

ATP and ADP

GTP and GDP

oxaloacetate and citric acid

None of the answers are correct.

8.

Which type of reactions control the energy release from glucoseduring the citric acid cycle?

acid-base reactions

redox reactions

random reactions

All answers are correct.

None of the answers are correct.

9.

What is the role of NAD⁺ in cellular respiration?

to receive electrons from the citric acid cycle and deliver themto the electron transport chain

to catalyze the synthesis of ATP from ADP

to accumulate in the mitochondrial intermembrane space tofacilitate ATP synthesis

to serve as a substrate to bind to acetyl-CoA at the beginningof the citric acid cycle

None of the answers are correct.

10.

Which molecule enters the citric acid cycle?

glucose

pyruvate

ATP

acetyl-CoA

None of the answers are correct.