First synthesis of an ABCE ring substructure of daphnicyclidin A

Tu, Jianzhuo; Clark, Madison M; Harmata, Michael

doi:10.1039/d2ob01246d

Cited by 8 publications

(5 citation statements)

References 35 publications

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“…The even more elaborated 3-hydroxypyridinium cation 154 was also qualified for the intramolecular (4 + 3) cycloaddition (Scheme 15). [30] In the event, the fragile 1,3-diene moiety was masked as 3-sulfolene. Using high temperature conditions, cycloelimination of sulfur dioxide exposed the corresponding 1,3-diene and enabled formation of the ABCE-tricyclic building block 155 for daphnicyclidin A by intramolecular ( 4 In 2023, She et al [31] published the synthesis of the ABCtricyclic platform molecule 164 prepared from Li's established building block 163 [32] (Scheme 16), and its elaboration to the advanced building block 175 for daphnicyclidin A (Scheme 17).…”

Section: Synthetic Effortsmentioning

confidence: 99%

“…The even more elaborated 3‐hydroxypyridinium cation 154 was also qualified for the intramolecular (4+3) cycloaddition (Scheme 15). [30] In the event, the fragile 1,3‐diene moiety was masked as 3‐sulfolene. Using high temperature conditions, cycloelimination of sulfur dioxide exposed the corresponding 1,3‐diene and enabled formation of the ABCE‐tricyclic building block 155 for daphnicyclidin A by intramolecular (4+3) cycloaddition.…”

Section: Synthetic Effortsmentioning

confidence: 99%

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Daphnicyclidin Alkaloids 2001–2023

Gierok,

Hiersemann

2024

Eur J Org Chem

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The Daphniphyllum alkaloids represent a particularly diverse class of complex diterpene alkaloids, which are characterized by their enormous structural diversity. The daphnicyclidins, a subgroup of these alkaloids, stand out due to their unique pentafulvene structural motif. This review article gives an overview of the compounds that have been isolated so far and can be assigned to this subgroup. Furthermore, all synthesis approaches and total syntheses published to date are presented.

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Section: Synthetic Effortsmentioning

confidence: 99%

Section: Synthetic Effortsmentioning

confidence: 99%

Daphnicyclidin Alkaloids 2001–2023

Gierok,

Hiersemann

2024

Eur J Org Chem

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“…Three years later, the same group developed an intramolecular photocatalytic decarboxylation conjugate addition to prepare the requisite cycloheptanone C ring, and a 5–7–5 (ACE) tricyclic intermediate of daphnicyclidin A and 2-deoxymacropodumine A was produced . In 2022, the Harmata group reported a concise synthesis of the 5–6–7 (ABC) tricyclic skeleton of daphnicyclidin A and its unique cycloheptanone C ring was efficiently assembled by an intramolecular (4+3) cycloaddition of the oxidopyridinium ion . More recently, the A. Li group and the C. Li group independently reported the total syntheses of daphnicyclidine-type alkaloids.…”

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confidence: 99%

“…They share a unique 5–6–7–5–7 pentacyclic framework with a central compact polysubstituted cyclohept-2-enone C ring, and this ring is deduced to be derived from the corresponding cyclohexanone ring of calyciphylline A-type DAs based on biogenesis analysis (Figure ). Due to the great challenges encountered in the construction of its functionally dense cyclohept-2-enone C ring, the syntheses of daphnicyclidin-type DAs have rarely been explored, and only a few works on the synthesis of their partial ring system were reported − before 2022. In 2009, the Overman group reported an elegant construction of the 5–6–7–7 (A–D) tetracyclic skeleton of daphnicyclidin-type DAs in which the cycloheptanone C ring was assembled via an aza-Cope–Mannich reaction .…”

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confidence: 99%

“…8b In 2022, the Harmata group reported a concise synthesis of the 5−6−7 (ABC) tricyclic skeleton of daphnicyclidin A and its unique cycloheptanone C ring was efficiently assembled by an intramolecular (4+3) cycloaddition of the oxidopyridinium ion. 9 More recently, the A. Li group 10 and the C. Li group 11 independently reported the total syntheses of daphnicyclidinetype alkaloids. In both works, biomimetic ring expansion strategies were employed at a late stage to transform the 6−5 spirocyclic subunit of calyciphylline A-type DAs (colored blue in Figure 1) into the required 7−5 fused ring system of daphnicyclidin-type DAs (colored red in Figure 1).…”

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Synthesis of the 5–6–7 Tricyclic Core of Daphnicyclidin-Type Alkaloids via a Tiffeneau–Demjanov Ring Enlargement Strategy

Duan,

Xu,

Shen

et al. 2023

J. Org. Chem.

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An expedient construction of the 5−6−7 tricyclic core of daphnicyclidin-type alkaloids is described. The synthetically challenging cycloheptanone C ring was constructed via a Tiffeneau−Demjanov ring enlargement reaction from a 5−6−6 tricyclic precursor commonly found in calyciphylline A-type alkaloids. Other key transformations included Davis oxidation, 1,2-addition, oxidation, and dehydration to elaborate the essential cyclcohept-2-enone motif.

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(4+3) Cycloadditions of Allylic and Related Cations

Harmata,

Tu,

Clark

2024

Organic Reactions

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The reaction of allylic cations with 1,3‐dienes is formally equivalent to the Diels–Alder reaction but leads to seven‐membered rings. An allylic cation contains 2 pi electrons, and is thus precisely analogous to an alkene and, like the latter, can function as a dienophile. The substituent at the central carbon of the allylic cation serves to terminate the reaction. Most often, this substituent is an oxyanion or a silyl ether, but other groups have been used. These (4+3) cycloadditions can proceed via mechanisms that range from stepwise to concerted. Diastereoselectivity, regioselectivity, and enantioselectivity have all been achieved, though there are still opportunities for the development of new reactions in this area. Asymmetric catalysis and enzymatic catalysis of such reactions is in its infancy. More recent advances center on cations that are related to benzylic cations but involve electron rich heterocycles such as furans, indoles, thiophenes and related structures. This chapter covers advances in (4+3) cycloadditions of allylic and related cations from 1997 to 2017, with supplemental references added to bring the work up to date through 2023. It illustrates both the growth in technical progress and theoretical understanding of this reaction during that time.

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First synthesis of an ABCE ring substructure of daphnicyclidin A

Abstract: The ABCE tetracyclic ring system of daphnicyclidin A was prepared using an intramolecular (4+3) cycloaddition of an oxidopyridinium ion as the key step. This route consists of a 10-step synthesis...

Cited by 8 publications

References 35 publications

Daphnicyclidin Alkaloids 2001–2023

Daphnicyclidin Alkaloids 2001–2023

Synthesis of the 5–6–7 Tricyclic Core of Daphnicyclidin-Type Alkaloids via a Tiffeneau–Demjanov Ring Enlargement Strategy

(4+3) Cycloadditions of Allylic and Related Cations

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