TLS Online TPP Program
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TLS Online TPP Program
#Question id: 32511
#Biochemistry
Oligomycin inhibits which of the following complexes
TLS Online TPP Program
#Question id: 32513
#Biochemistry
What would you conclude about the mechanism of ATP synthesis:
TLS Online TPP Program
#Question id: 32520
#Biochemistry
| Column 1 | Column 2 |
| (a) the electron donor | 1. NADH |
| (b) the electron acceptor | 2. E-FMN |
| (c) the conjugate redox pair | 3. NAD+/NADH |
| (d) the reducing agent | |
| (e) the oxidizing agent |
Match the following
TLS Online TPP Program
#Question id: 32521
#Biochemistry
Match the following
| Column 1 | Column 2 |
| a. Abundant NADH and O2 , but cyanide added | 1. all carriers become reduced |
| b. Abundant NADH, but O2 exhausted | 2. all carriers become oxidized. |
| c. Abundant O2 , but NADH exhausted | 3. cytochrome c oxidized. |
| d. Abundant NADH and O2 |
TLS Online TPP Program
#Question id: 32521
#Biochemistry
Match the following
| Column 1 | Column 2 |
| a. Abundant NADH and O2 , but cyanide added | 1. all carriers become reduced |
| b. Abundant NADH, but O2 exhausted | 2. all carriers become oxidized. |
| c. Abundant O2 , but NADH exhausted | 3. cytochrome c oxidized. |
| d. Abundant NADH and O2 |
TLS Online TPP Program
#Question id: 32524
#Biochemistry
Which of the following sequential reactions correctly represent(s)
a. NADH dehydrogenase → Ubiquinone → Cytochrome bc1 → Cytochrome c → Cytochrome c oxidase
b. NADH dehydrogenase → Succinate dehydrogenase → Ubiquinone → Cytochrome c → Cytochrome bc1 → Cytochrome c oxidase
c. NADH dehydrogenase → Ubiquinone → Alternative oxidase
d. NADH dehydrogenase → Alternative oxidase → Ubiquinone