MCB 2000 Final Exam Questions with Guaranteed Pass Solutions Updated.

MCB 2000 Final Exam Questions with
Guaranteed Pass Solutions 2025-2026
Updated.
Where does electron transport and oxidative phosphorylation occur in the mitochondria? -
Answer inner mitochondrial membrane



What are the complexes if the ETC? - Answer Complex I - NADH-Q oxidoreductase

Complex II - Succinate-Q reductase

Complex III - Q-cytochrome c oxidoreductase

Complex IV - Cytochrome c oxidase



What are the important redox centers and their roles? - Answer - FMN (similar to FAD,
Flavoproteins) - 2-electron acceptor but only pass one electron at a time

- Cytochromes/Heme (b, c, c1a and a3) - one electron transfers

- Fe-S proteins - one electron transfers

- Protein-bound copper - one electron transfer



Characteristics of Coenzyme Q - Answer -Mobile electron carrier, isoprenoid hydrophobic tail

- quinone function group; undergoes oxidation-reduction, produces one electron at a time



Characteristics of cytochrome c - Answer -small protein on outer side of inner membrane

-carries electron to complex IV



Importance of reduction potential of carriers in determining flow - Answer the reduction
potentials farther down stream are more likely to accept electrons, successive transfers are
exergonic



Standard free energy change of carriers - Answer related to the change in reduction
potential

deltaG' = -nF deltaE'0

, How do cells defend against ROS? - Answer Enzymatic mechanisms - Superoxide dismutase,
Catalase, GSH peroxidase paired with GSH reductase

Non-enzymatic mechanisms - Vitamin E ( lipid soluble, protects against lipid peroxides), Vitamin
C (water soluble, important for regeneratin reduced form of Vitamin E



What is the Chemiosmotic hypothesis and why is it important? - Answer Peter Mitchell's
hypothesis - generation of electrochemical gradient due to differences in proton concentration
and charge differences across inner mitochondrial membrane that drives ATP synthesis



How does ATP synthase function? - Answer Proton diffusion through the pore drives it by
entering half channel from cytoplasm, causing COO protonation, c ring rotates and proton exits
into matrix, COO is restored

Has three different conformations

- L - ADP and P bind to loose conformation

- T - converts ADP and P to ATP, ATP bound tightly

- O - open form binds or releases



How does ADP regulate oxidative phosphorylation? - Answer ADP concentration controls
rate at which O2 is consumed, electrons do not flow unless ATP needs to be
synthesized/consumed. ATP synthesis is dependent on its rate of utilization



What is the coupling between ATP synthase and electron transport? - Answer ATP generation
is critically dependent of electron flow and Electron flow only occurs when ATP can be
synthesized



What is the implications of ATP synthase and electron transport coupling? - Answer
[ATP]/[ADP] ratio plays role in regulating the activity of the ETC and ADP regulates the rate of
oxidative phosphorylation since other molecules are rarely rate-limiting



What is the significance of respiratory control? - Answer - Rapid consumtion of ATP for
cellular work leads to decreased ATP and increased ADP. Oxid. Phos is favored
thermodynamically and kinetically

- As ATP accumulates in the cell, ADP is decreased and electron transport is slowed. Reduced
coenzymes increase and oxidized coenzymes decrease (no longer available as acceptors). This
leads to a throttling of respiratory metabolism.

- Net effect: coupling of oxid. phos. with cellular needs for ATP by ADP-mediated respiratory
control