A Route to Highly Functionalized β-Enaminoesters via a Domino Ring-Opening Cyclization/Decarboxylative Tautomerization Sequence of Donor–Acceptor Cyclopropanes with Substituted Malononitriles

Abstract: An unprecedented and domino synthetic strategy for the synthesis of highly functionalized carbocyclic β-enaminoesters bearing an all-carbon quaternary center via Yb(OTf)3-catalyzed ring-opening cyclization/decarboxylative tautomerization of donor-acceptor cyclopropanes with 2-alkyl malononitriles in excellent yields is described. The products are obtained as a single diastereomer in most cases where the nitrile and aryl groups are aligning in a cis orientation across the ring.

“…In an interesting follow up to this work, Ghorai showed a tandem ring-opening cyclization decarboxylation approach when substituted malononitriles 213 were employed (Scheme 53A). 68 The proposed mechanism suggests ring-opening of the cyclopropane by 216 followed by ring-closure to give intermediate 218. 69 Mechanistically, the reaction was presumed to go through two sequential insertion operations, initially to form an activated 2-iminocyclobutane (although no indications of this product were isolated during the reaction) followed by a second addition to give the desired cyclopentene product.…”

“…In an interesting follow up to this work, Ghorai showed a tandem ring-opening cyclization decarboxylation approach when substituted malononitriles 213 were employed (Scheme 53A). 68 The proposed mechanism suggests ringopening of the cyclopropane by 216 followed by ring-closure to give intermediate 218. This intermediate could undergo a facile demethoxycarbonylation to give 219, ultimately leading to the product 215 (Scheme 53B).…”

Carbocycles from donor–acceptor cyclopropanes

“…In an interesting follow up to this work, Ghorai showed a tandem ring-opening cyclization decarboxylation approach when substituted malononitriles 213 were employed (Scheme 53A). 68 The proposed mechanism suggests ring-opening of the cyclopropane by 216 followed by ring-closure to give intermediate 218. 69 Mechanistically, the reaction was presumed to go through two sequential insertion operations, initially to form an activated 2-iminocyclobutane (although no indications of this product were isolated during the reaction) followed by a second addition to give the desired cyclopentene product.…”

“…In an interesting follow up to this work, Ghorai showed a tandem ring-opening cyclization decarboxylation approach when substituted malononitriles 213 were employed (Scheme 53A). 68 The proposed mechanism suggests ringopening of the cyclopropane by 216 followed by ring-closure to give intermediate 218. This intermediate could undergo a facile demethoxycarbonylation to give 219, ultimately leading to the product 215 (Scheme 53B).…”

Carbocycles from donor–acceptor cyclopropanes

“…All chemicals were purchased from Sigma-Aldrich and used without further purification. The D–A cyclopropanes 20 and sulfoximines 21 were prepared using known literature procedures.…”

Lewis acid triggered N-alkylation of sulfoximines through nucleophilic ring-opening of donor–acceptor cyclopropanes: synthesis of γ-sulfoximino malonic diesters

“…Quite contrary to our expectation, the reaction of DA cyclopropanes 3 with 2‐substituted malononitriles 4 , afforded carbocyclic β‐enaminoesters 7 as the sole product, instead of either 5 or 6 . Clearly, a domino‐ring opening‐cyclization‐decarboxylative‐tautomerization sequence occurred to provide these enaminoesters having an all‐carbon quaternary stereocenter, instead of the cyclopentanones 6 …”

“…We synthesized carbocyclic β‐enaminonitriles from the reaction of DA cyclopropanes with malononitriles via a DROC‐tautomerization sequence . Interestingly, when 2‐alkyl malononitriles were employed as the nucleophiles, carbocyclic β‐enaminoesters were produced via DROC, followed by a decarboxylative tautomerization step, due to unavailability of the acidic proton α to the nitrile functionality in the intermediate species …”

Domino‐Ring Opening‐Cyclization (DROC) of Donor‐Acceptor (DA) Cyclopropanes