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PBr3 will be selective towards the alcohol rather than the aromatic carbons.
Having said that there may be competition with the C3 if the reaction with PBr3 is SN1 rather than SN2.
Quote from: Babcock_Hall on June 24, 2013, 04:24:59 PMCan you think of a route that involves reduction? I am not saying that this would better than the route involving oxidation.Reducing what ?like turning 3-Bromo-1-iodo-Propane to the desired aldehyde ?
Can you think of a route that involves reduction? I am not saying that this would better than the route involving oxidation.
We had a nice discussion about this transformation on a thread here a few weeks ago.
QuoteWe had a nice discussion about this transformation on a thread here a few weeks ago.can you give me that forum name or address.Tnx agn
Quote from: Archer on June 24, 2013, 04:58:41 PMHaving said that there may be competition with the C3 if the reaction with PBr3 is SN1 rather than SN2.Would you please explain why do you think Sn1 should be considered to happen ?OH group in indole-3-carbinol isn't a good leaving group. (unless we force it)or maybe i'm not taking some stuff into account
You see the thing with synthesis is that you need to experiment and find which route gives the highest yield or the fewest side reactions.
The transformations being discussed (formation and bromination of that indole C-3 hydroxymethyl) are known and have already been reported.It all works but you'll have to protect the nitrogen, of course.