Catalytic Formal Homo-Nazarov Cyclization

Simone, Filippo De; Andrès, Julien; Torosantucci, Riccardo; Waser, Jérôme

doi:10.1021/ol802970g

Cited by 69 publications

(46 citation statements)

References 35 publications

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“…Nevertheless, our preliminary investigations showed that the cyclization of vinyl cyclopropyl ketones was most probably a stepwise process via carbocationic intermediates, and therefore best described as a formal homo-Nazarov process. 17 For the reaction to proceed under mild conditions it was necessary to use a DA cyclopropane, whereas an electron-rich aryl substituent was especially successful (Scheme 9, B). At this point, we wondered if a DA aminocyclopropane could be used in the formal homo-Nazarov process.…”

Section: Cyclizations With Non-activated Aminocyclopropanesmentioning

confidence: 99%

Cyclization and annulation reactions of nitrogen-substituted cyclopropanes and cyclobutanes

et al. 2014

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Cyclization and annulation reactions initiated by ring-opening of small rings, especially cyclopropanes and cyclobutanes are now well-established in synthetic chemistry. Nevertheless, the potential of aminocyclopropanes and cyclobutanes, an important subclass for the synthesis of nitrogen-rich building blocks, has remained unexploited for a long time, despite important pioneering results. In the last decade, the situation has changed dramatically and new catalytic methods have emerged both for cyclization and annulation reactions. The purpose of this feature article is to present recent progress in this area, including our own work using donoracceptor substituted cyclopropanes and cyclobutanes.

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Section: Cyclizations With Non-activated Aminocyclopropanesmentioning

confidence: 99%

Cyclization and annulation reactions of nitrogen-substituted cyclopropanes and cyclobutanes

et al. 2014

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“…[14] We de veloped the first catalytic homoNazarov reaction of crosspolarized substrates bearing an electronrich aromatic ring on the cyclopropane and a heteroatom on the double bond (Scheme 6). [15] In view of applications in the synthesis of natural products, we wondered if a ni trogen heteroatom could also play the role of activating group on the cyclopropane. Such intermediates could in principle give a general entry to the aspidosperma class of natural products, such as aspidospermi dine (14) (Scheme 7).…”

Section: Cyclization Reactions Of Activated Cyclopropanesmentioning

confidence: 99%

Cyclopropanes and Hypervalent Iodine Reagents: High Energy Compounds for Applications in Synthesis and Catalysis

D¹,

F²,

Jp³

et al. 2011

Chimia

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One of the major challenges faced by organic chemistry is the efficient synthesis of increasingly complex molecules. Since October 2007, the Laboratory of Catalysis and Organic Synthesis (LCSO) at EPFL has been working on the development of catalytic reactions based on the Umpolung of the innate reactivity of functional groups. Electrophilic acetylene synthons have been developed using the exceptional properties of ethynyl benziodoxolone (EBX) hypervalent iodine reagents for the alkynylation of heterocycles and olefins. The obtained acetylenes are important building blocks for organic chemistry, material sciences and chemical biology. The ring-strain energy of donor-acceptor cyclopropanes was then used in the first catalytic formal homo-Nazarov cyclization. In the case of aminocyclopropanes, the method could be applied in the synthesis of the alkaloids aspidospermidine and goniomitine. The developed methods are expected to have a broad potential for the synthesis and functionalization of complex organic molecules, including carbocycles and heterocycles.

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“…Furthermore, the Cbz group is easily removed under mild conditions. To our delight, the cyclization worked well under our previously developed conditions (20 mol % toluenesulfonic acid in acetonitrile) 10 and 74% yield of cyclized product was obtained. Careful NMR analysis of the crude mixture revealed a 1.6:1 mixture of C3 (10) and N1 (11) cyclization products.…”

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confidence: 93%

Cyclization of Aminocyclopropanes in Indole Alkaloids Synthesis

Simone¹,

Waser²

2011

Synlett

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Abstract:The regioselective and diastereoselective cyclization of acyliminium intermediates generated from aminocyclopropanes on unprotected indole is presented. The recent results obtained in our group are compared with previous intermolecular reactions with aminocyclopropanes as well as with other cyclization methods involving iminium ions and unprotected indoles. A first speculative analysis of possible reaction mechanisms allows rationalizing the observed selectivity. The high potential of the method for the synthesis of natural alkaloids is demonstrated in the formal synthesis of aspidospermidine and the total synthesis of goniomitine.Key words: Alkaloids, Cyclization, Indoles, Iminium, Aminocyclopropanes Cyclization and cycloaddition reactions are important tools in organic chemistry to access the complex polyclic core of natural products. 1 Both concerted pericyclic processes or reactions involving reactive intermediates can be envisaged. The former has the advantage of a low activation barrier, which allows mild conditions. It is limited usually to substrates containing correctly aligned orbital systems (DielsAlder, electrocyclic cyclization, sigmatropic rearrangements). The use of reactive intermediates such as carbocations or radicals opens further pathways for cyclization. To make them accessible under mild conditions, the introduction of destabilizing elements in the starting material is an important strategy. Cyclopropanes are well-suited for this task, due to their high strain energy (26-29 Kcal/mol). Especially donor-acceptor substituted cyclopropanes are easily opened under mild conditions to form reactive zwitterionic intermediates. 2 They can be considered as homologous equivalents of olefins in diverse annulation and cyclization reactions. After the pioneering work of Stork, Danishefsky and Corey in the 1970's, 3 progress in reactions involving activated cyclopropanes was slow. An important exception is represented by the work of Wenkert and Reissig. 4 In the last 10 years, the potential of cyclopropanes in catalysis has been increasingly recognized, either in Lewis or Brønsted acid mediated [3+2] cycloadditions, or in ring-opening reactions with nucleophiles or electrophiles (Scheme 1). 5 The introduction of cyclopropanes into classical substrates used in pericyclic reactions can lead to unprecedented reactivity. For example, it is well known that the Cope rearrangement of divinylcyclopropanes proceeds much faster than in the absence of the strained ring. 6 The Nazarov cyclization is another important pericyclic reaction. 7 Catalytic and asymmetric versions of the reaction were developed in the course of the last 20 years. 8 Substitution of a double bond by a cyclopropane in divinyl ketones leads to the formal homo-Nazarov cyclization. Despite its promising potential for the synthesis of cyclohexenones, the homo-Nazarov cyclization has been only scarcely studied and the strong conditions needed have limited its applicability. 9Scheme 1 Reactivity of activated cyclopropanes.In 2009, we demo...

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Catalytic Formal Homo-Nazarov Cyclization

Cited by 69 publications

References 35 publications

Cyclization and annulation reactions of nitrogen-substituted cyclopropanes and cyclobutanes

Cyclization and annulation reactions of nitrogen-substituted cyclopropanes and cyclobutanes

Cyclopropanes and Hypervalent Iodine Reagents: High Energy Compounds for Applications in Synthesis and Catalysis

Cyclization of Aminocyclopropanes in Indole Alkaloids Synthesis

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