Acid catalyzed rearrangement of β-ionone epoxide

p-ionone end a-pinene oxides 1,3 isomerixe rapidly and selectively to l-(1,2,2trimethylcyclopent-1-yl)-pent-2-en-1.4dione 2 and the industrially important 2.2.3~trimethyl-3-C~aceeeldehyde4.undatbeinfluenccofcatalyticamOuntsOflrminilrmsaltsA3.In~~ find insights into the mechaniim of our pmccdure. pro

Our observation' that CrO3-acetic acid oxidation of erythroxylol A epoxide (1) induced carbon-carbon bond cleavage , prompted us to study the effect of formic aciaas solvent. At least 13 compounds were formed but, surprisingly, the same

## Abstract Thermolysis of 5,6‐epimino‐5,6‐dihydro‐β‐ionone (**1**) and its __N__‐methyl derivative (**2**) leads to their monocyclic isomers **6** and **10**, respectively, presumably due to a direct [1,5]‐H shift; on prolonged heating, these isomers are converted easily into pyrrole derivatives.

Recently, for the first time the natural occurence of bicyclic carotenoids hydroxylated at the 2-position was demonstrated in a green alga containing B,B-caroten-2-01 (la), B,E-caroten-2-01, and B,f+carotene-2,2'-diol

The rearrangement of R,y-unsaturated ketones in acid has considerable potential for the synthesis of unusual bi-and tricyclic ring systems. In most examples described thus far, however, the double bond is present in the relatively strained cyclobutene ring.' We describe here a synthetically useful r