Question about which oxygen acts as a nucleophile

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The discussion centers around a question related to the mechanism of nucleophilic attack involving a carbonyl group and its resonance structures. Participants note that the timing of the original post may have affected the lack of responses. The conversation delves into the details of proton transfer and the equivalence of oxygens in carboxylate anions versus protonated forms, highlighting that resonance structures do not involve proton movement. A clarification is made regarding the correct mechanism involving the protonated carbonyl, with one participant acknowledging their fatigue impacting their contributions.
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I posted in picture format to post on another website, but haven't found a reply yet:

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How long ago did you post the other question - seems to me that this was posted whilst a vast majority of PFers were asleep, perhaps this is the issue with your other question.

However, by analogy with other reactions of the carbonyl group I'd think this is likely to involve effectively internal attack on the C=O by the COH, and work from there. Proton transfer, however is fairly rapid so the two mechanisms are pretty identical. Whether a kinetic isotope effect may be present in pure deuterated acid, I don't know.
 
You're question is a little unclear because the mechanism shows nucleophilic attack by a -COOH group. The oxygens in these groups are actually equivalent and are best represented by resonance structures where the hydroxyl and carbonyl oxygens exchange.
 
I was able to find an answer - the protonated carbonyl is the correct mechanism for both (the second is a mistake). You can see why by considering resonance.
 
Yanick said:
You're question is a little unclear because the mechanism shows nucleophilic attack by a -COOH group. The oxygens in these groups are actually equivalent and are best represented by resonance structures where the hydroxyl and carbonyl oxygens exchange.

No, they are equivalent in the carboxylate anion, but not in the protonated version. Resonance structures do not involve the movement of protons.
 
sjb-2812 said:
No, they are equivalent in the carboxylate anion, but not in the protonated version. Resonance structures do not involve the movement of protons.

You are correct sir. I shouldn't be answering questions when I'm dead tired.
 

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