The Vespiary
The Hive => Serious Chemistry => Topic started by: Megatherium on December 22, 2002, 11:19:00 AM
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I 've kind of a hard nut to crack.
4-aminopyridine is a ambident nucleophile. And furthermore, the pyridine ring sucks the 4-amino free electron pair into the aromatic ring, making the pyridine nitrogen even more nucleophilic. I suspect that with this compound, there is a tautomeric equilibrium, similar to the one between 4-hydroxypyridine <--> 4-pyridone ... which complicates things even more :(
The objective is to arylate the 4-amino group, but my concern a the side reaction in the 1-position ...
Which reaction do you think will occur? Would a benzyne type reaction be just fine, or would it be better to do a coupling with the Pd type catalysts?
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I 've been breaking my head upon this the entire day :( ... and I 've concluded that the 4-aminopyridine coupling with an arylhalide isn't such a good idea after all.
It would probably be better to convert the substrate to 4-bromopyridine using the Sandmeyer reaction & consequently couple this to an arylamine using a Pd catalyst such as Pd2(dba)3.
I 've not much experience with the Sandmeyer ... is there any reason why this reaction shouldn't work on a 4-aminopyridine? I 've never seen an example where the aromatic was a pyridine ring ...
I 'd really like an oppionion on the Sandmeyer.
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..to overcome would be the synth of 4-bromopyridine. Simple bromination of pyridine won't work, since pyridine is deactivated (in regard of electrophilic aromatic substitution, of course) in the 2-, 4-, and 6-position, SAE reaction is possible only in 3- and 5-position. Nucleophilic substitution can be achieved on 2-, 4-, and 6-position, the 2-position is clearly preferred. Cicibabin reaction (the reaction of pyridine with sodium amide) yields almost exclusively 2-aminopyridine.
Back to the 4-bromopyridine, how do you want to synthesize that compound?
I'd say forget it, go straight for the 4-aminopyridine by oxidising pyridine to pyridine-N-oxide (activating the aromat), nitrating it with strong mixed acid (HNO3 + H2SO4) to get 4-nitropyridine-N-oxide and reducing the latter compound to 4-aminopyridine with hydrogen/Raney-Ni in acetic acid/acetic acid anhydride.
Now to the Sandmeyer...should work if a diazonium compound forms. Diazonium compounds can be formed even from aromats with strong deactivating groups (e.g. a nitrated or sulfonated aminobenzene), so the Sandmeyer should work, at least theoretically....(never did it myself on pyridines)... ;)
[Edit: Ooops, misunderstood...you already want to go that route:
pyridine -> pyridine-N-oxide -> 4-nitropyridine-N-oxide -> 4-aminopyridine -> 4-bromopyridine (via Sandmeyer)
Answer is still the same, should work...]
Quidquid agis, prudenter agas et respice finem!
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pyridine -> pyridine-N-oxide -> 4-nitropyridine-N-oxide -> 4-aminopyridine -> 4-bromopyridine (via Sandmeyer)
Yup, that 's what I had in mind. Sorry that my post wasn't very clear. Anyhow, thanks for your advice. I needed confirmation for this route. You 've just made my day :) .
Merry christmas :)