Cu-Mediated Rearrangements of Allenylcyclopropanols to

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Cu-Mediated Rearrangements of Allenylcyclopropanols to Cyclopentenones: Two Divergent Pathways Naresh Tumma, Eppa Gyanchander, and Jin Kun Cha* Department of Chemistry, Wayne State University, 5101 Cass Ave, Detroit, Michigan 48202, United States S Supporting Information *

ABSTRACT: Two CuCN-mediated rearrangement reactions of allenylcyclopropanols to cyclopentenones have been achieved by means of Et2Zn/CuCN·2LiCl or CuCN·2LiCl to afford 5-alkyl or 4-alkyl cyclopentenone regioisomers: the former conditions afford 5-alkyl substituted cyclopentenones via β-carbon elimination, whereas the latter result in the 4-alkyl substituted regioisomers with concomitant oxidation at the γ-position, via a free radical mechanism.



INTRODUCTION Cyclopentenones serve as versatile intermediates for the synthesis of a broad range of natural products and bioactive compounds. The development of efficient methods for preparing cyclopentenones has been an active area of research.1 In addition to the well-known Pauson−Khand and Nazarov reactions, transition metal-catalyzed cycloisomerization has provided new approaches to cyclopentenones. By following up on Trost’s Ru(II)-catalyzed ring expansion of alkynylcyclopropanols to cyclopentenones,2 we recently reported comparative mechanistic studies of the rearrangement reactions of alkynyl- and allenylcyclopropanols, which afforded the identical cyclopentenone products, yet via different reaction pathways (Scheme 1).3 Their mechanisms share β-carbon elimination (A → B) as a key common feature.4,5 Since inexpensive CuCN was effectively utilized in SN2′ alkylation of cyclopropanols with allylic and propargylic derivatives via β-carbon elimination,6 the action of Cu(I) on allenylcyclopropanols was anticipated to provide cyclopentenones. We report herein a divergent behavior in the CuCN-catalyzed rearrangement of allenylcyclopropanols, depending on the use of Et2Zn as an additive.

Scheme 1. Ring Expansion Reactions



RESULTS AND DISCUSSION Sequential treatment of cyclopropanol 7a in THF with diethylzinc and THF-soluble CuCN·2LiCl7 indeed afforded cyclopentenone 8 (Table 1), which had been obtained previously under Ru(II)-catalyzed conditions (in THF at reflux).3 The reaction was completed at rt in 45 min. The yield was slightly improved to 68% in a 0.05 M concentration solution (entries 1 and 2). Comparable results were also obtained with the cis-dialkyl isomer 7b. A substoichiometric amount of the Cu(I) catalyst gave similar results, albeit the reaction proceeded slowly (16−18 h for entries 4 and 5 vs 2 d).

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DOI: 10.1021/acs.joc.7b00432 J. Org. Chem. 2017, 82, 4379−4385