α-Chloro- or α-bromo-γ-hydroxyenamides were synthesized by the reaction of an ynamide, titanium tetrahalide, and an aldehyde or a ketone. A γ-hydroxy trisubstituted enamide was prepared stereoselectively by Suzuki coupling of an obtained α-chloro-γ-hydroxyenamide with phenyl boronic acid. Intramolecular cyclization of α-chloro-γ-hydroxyenamide took place to provide a 2,3-dihydrobenzoisothiazole 1,1-dioxide derivative by palladium-catalyzed C-H activation of the tosyl group. Hydrochlorination of ynamides proceeded to give α-chloroenamides by treatment with titanium tetrachloride followed by addition of water.
Nucleophilic alkynes bearing sulfonamide, trimethylsilyl, or p-methoxyphenyl groups at the sp carbon reacted with 3-ethoxycyclobutanones to give formal [4 + 2] cycloadducts by activation with TiCl. Reactions with 2-monoalkyl and 2-nonsubstituted 3-ethoxycyclobutanones gave phenol derivatives directly by benzannulation, while the use of 2,2-dimethyl-3-ethoxycyclobutanone gave the corresponding dienones, which were converted to pentasubstituted phenols by dienone-phenol rearrangement. Regioselectivity that depended on the activation conditions of dienone-phenol rearrangement is also described.
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