Phenylboronic acids Subject

Construction of the second part of the molecule starts with palladium-catalyzed coupling of the substituted pyridine (238) with phenylboronic acid to give 239. Hydrogenation reduces both the nitro group and the supporting pyridine ring to afford 240 as the cis isomer. The enantiomers of this are then separated by resolution. The desired isomer is then subjected to reductive amination with aldehyde 237 affording 241. " ... 

Nucleophilic displacement of chlorine, in a stepwise manner, from cyanuric chloride leads to triazines with heteroatom substituents (see Section 6.12.5.2.4) in symmetrical or unsymmetrical substitution patterns. New reactions for introduction of carbon nucleophiles are useful for the preparation of unsymmetrical 2,4,6-trisubstituted 1,3,5-triazines. The reaction of silyl enol ethers with cyanuric chloride replaces only one of the chlorine atoms and the remaining chlorines can be subjected to further nucleophilic substitution, but the ketone produced from the silyl enol ether reaction may need protection or transformation first. Palladium-catalyzed cross-coupling of 2-substituted 4,6-dichloro-l,3,5-triazine with phenylboronic acid gives 2,4-diaryl-6-substituted 1,3,5-triazines <93S33>. Cyanuric fluoride can be used in a similar manner to cyanuric chloride but has the added advantage of the reactions with aromatic amines, which react as carbon nucleophiles. New 2,4,6-trisubstituted 1,3,5-triazines are therefore available with aryl or heteroaryl and fluoro substituents (see Section 6.12.5.2.4). 

In order to prepare the cyclohexenaldehyde 8, 3-hydroxy-2-pyrone 14 and ethyl 4-hydroxy-2-methyl-2-butenoate 15 are subjected to a Diels-Alder reaction in the presence of phenylboronic acid which arranges both reactants to the mixed boro-nate ester 19 as a template to enable a more efficient intramolecular Diels-Alder reaction with optimal control of the regiochemical course of the reaction. Refluxing in benzene affords the tricyclic boronate 20 as primary product. This liberates the intermediate cycloadduct 21 upon transesterification with 2,2-dimethylpropane-l,3-diol which, on its part, relaxes to the lactone 22. Excessive i-butyldimethyl-silyltriflate (TBSTf) in dichloromethane with 2,6-lutidine and 4-7V,A-dimethyl-aminopyridine (DMAP) as acylation catalysts protects both OH goups so that the primary alcohol 23 is obtained by subsequent reduction with lithiumaluminum-hydride in ether. 

Similarly, aniline was subjected to cross coupling with substituted arylboronic acids and o-, p-substituted anilines with phenylboronic acid, and the corresponding Ai-aryl amines were obtained in satisfactory yields (Table 37, entries 1-9). The coupling of alkylamines with phenylboronic acid gave the W-alkyl anilines in moderate yields (Table 37, entries 10-14). However, the reaction of amides and sulfonamides with phenylboronic acid afforded the corresponding products albeit in lower yields (Table 37, entries 15 and 16). 

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