Lewis acid-mediated rearrangement of activated cyclic amines: a facile synthetic protocol for the preparation of amino carbonyl compounds

Ring opening of activated cyclic amines to produce amino carbonyl compounds has been studied in the presence of Lewis acids. Whereas five- and six-membered rings cleave and rearrange via a 1,2-hydride shift, reaction in three- and four-membered rings takes place via a C-C bond migration. In the case of a three-membered ring, a wide variety of Lewis acids proved to be effective for the reaction. Base-induced ring opening of activated α,α-disubstituted azetidinemethanol and its mechanistic aspects have been studied

Asymmetric synthesis of all the stereoisomers of tarchonanthuslactone

We describe herein an efficient synthesis of all the four stereoisomers of tarchonanthuslactone from (R)-3-hydroxy butanoate, easily prepared from L-threonine. The approach involves the use of a β,γ-unsaturated δ-lactone as an intermediate, obtained via a Kulinkovich reaction followed by a ring-closing metathesis strategy

Cleavage of activated cyclic amines: unprecedented approach toward 2-substituted cyclobutanones

We report, for the first time, ring opening of activated four- to six-membered cyclic amines followed by an intramolecular expansion of cyclopropanol to cyclobutanone via carbocation intermediate. In the case of a N-tosylaziridine ester, a cyclobutanol was formed in a stereospecific manner during the Kulinkovich reaction step

A ring-closing metathesis approach toward formal total synthesis of (+)-diplodialide A

An asymmetric formal total synthesis of diplodialide A 1a has been achieved starting from methyl acetoacetate 6 and (R)-3-buten-2-ol 7. The macrocyclic ring core of (+)-diplodialide A 1a was constructed, in an excellent yield, by using a ring-closing metathesis strategy