Answer:
The antidote entered into Jared's cell and targeted the cyanide that was disrupting his Electron Transport Ch...
Explanation:
The antidote entered into Jared's cell and targeted the cyanide that was disrupting his Electron Transport Chain. The antidote changes the cyanide into a molecule called thiocyanate. Jared’s body can now remove this molecule through his excretory system. As the cyanide is removed, electrons can now leave the ETC by reacting with O2 to make water. His ETC can now get new electrons from NADH this then means he is able to move more H+ into the inter-membrane space. Jared’s cells can now make ATP again.
The antidote binds cyanide. This binding impedes cyanide to inhibit the cytochrome oxidase action. As the cytochrome reactivates, electron transport reactivates as well, and ATP is synthesized again.
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Ion cyanide inhibits cellular respiration by binding to the ferric ion of cytochrome oxidase and blocking the electron transference.
Because the electron transporter chain is interrupted, there is no ATP production, and muscles do not get enough energy.
The antidote enters Jared's cells and targets cyanide.
When the antidote meets cyanide, it binds to this last one and blocks its effect on cytochrome oxidase.
As cyanide can no longer bind the ferric ion of cytochrome oxidase, the enzyme remains active, and the electron transport is reactivated.
As electrons move along the chain, protons are pomped to the intermembrane space.
ATP production reactivates again as well because the proton gradient is used to produce ATP molecules.
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