Uncouplers & ETC Inhibitors

Question 1

What happens in cyanide poisioning?

Answer 1

Complex 4 get sinhibited resulting in a backup. NADH holds onto the electrons thus it cannot go through all the complexes. Glycosis or fermentation can’t occur.
Coupled reaction between electrons is falling and pumping fo H+

Question 2

What happens to the proton motive force?

Answer 2

decreases due to H+ pumping halts

Question 3

What happens to NADH utilization?

Answer 3

Decreasing, because NADH is stuck w/ electrons

Question 4

Why wouldn’t increasing NADH would not help with NADH utilization?

Answer 4

they would be stuck as well

Question 5

What would happen to ATP synthesis?

Answer 5

decreases, H+ cannot power and everything would stop

Question 6

if complex I was inhibited would it cause less or more of an impact if complex 4 was inhibited?

Answer 6

Less because FADH2 would still go one and some ATP will be produced

Question 7

What do uncouplers do to H+ pumping?

Answer 7

First it uncouples exergonic electron transport with H+ pumping, creates a channel for H+ to diffuses through
ATP will not be produced

Question 8

In uncoupling reactions what would happen to the proton motive force?

Answer 8

it goes away

Question 9

How would the cell respond to the uncoupling?

Answer 9

cell would try to increase NADH utilization and proton pumping to compensate for the loss of H+ but it wouldn’t work

Question 10

How would the loss of energy through uncoupling help the body?

Answer 10

produces heat- regulates temperature