Ethylene glycol (HO−CH2−CH2−OH) is a major component of antifreeze. In the body, it is first converted to HOOC−CHO (oxoethanoic acid) and then to HOOC−COOH (oxalic acid), which is toxic. What class of enzyme catalyzes both of the reactions of ethylene glycol? The treatment for the ingestion of ethylene glycol is an intravenous solution of ethanol. How might this help prevent toxic levels of oxalic acid in the body?
Ethylene glycol (HO−CH2−CH2−OH) is a major component of antifreeze. In the body, it is first converted to HOOC−CHO (oxoethanoic acid) and then to HOOC−COOH (oxalic acid), which is toxic. What class of enzyme catalyzes both of the reactions of ethylene glycol? The treatment for the ingestion of ethylene glycol is an intravenous solution of ethanol. How might this help prevent toxic levels of oxalic acid in the body?
Chapter10: Reconstitution Of Powdered Drugs
Section: Chapter Questions
Problem 30SST
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Ethylene glycol (HO−CH2−CH2−OH) is a major component of antifreeze. In the body, it is first converted to HOOC−CHO (oxoethanoic acid) and then to HOOC−COOH (oxalic acid), which is toxic.
What class of enzyme catalyzes both of the reactions of ethylene glycol?
The treatment for the ingestion of ethylene glycol is an intravenous solution of ethanol. How might this help prevent toxic levels of oxalic acid in the body?
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