Answer:
Question lack some information i have added the full question in ask for detail section. As this question is about listing the process i have created steps for better understanding.
Explanation:
INITIAL STEP 1
Valinomycin added
STEP 2
Valinomycin binds K" ion
STEP 3
The electrical potential across the mitochondrial membrane decreases
STEP 4
The rate of ATP hydrolysis increases
STEP 5
The rate of ATP synthesis decreases
STEP 6
The pH gradient across the mitochondrial membrane increases
STEP 7
The electrical potential across the mitochondrial membrane decreases
STEP 8
The valinomycin-K' complex moves into the mitochondrial matrix
STEP 9
The valinomycin-K complex moves K ion out of the mitochondrial matrix
STEP 10
The rate of electron transfer and oxygen consumption increases
FINAL STEP
Heat released
Answer:
Valinomycin is an example of UNCOUPLERS.
Uncouplers generally usually inhibit the coupling between the electron transport chain and oxidative phosphorylation of ADP... As result,ATP synthesis is stopped. Vancomycin-k complex inhibit ATPs synthesis by preventing the proton motive force for supplying energy needed for phosphorylation of ADP to ATP
◼Valinomycin added
◼Valinomycin binds K" ion.
◼ The valinomycin-K' complex moves into the mitochondrial matrix.
◼The electrical potential across the mitochondrial membrane decreases
◼The rate of ATP synthesis decreases
◼The rate of electron transfer and oxygen consumption increase.
◼The valinomycin-K complex moves K ion out of the mitochondrial matrix.
◼This result in a drop in pH, with increase in heat released.
