Biomimetically inspired asymmetric total synthesis of (+)-19-dehydroxyl arisandilactone A

Han, Yiqun; Jiang, Yan-Long; Li, Yong; Yu, Hou; Niu, Zun; Zhou, Shijie; Liu, Song; Lan, Yu; Chen, Jiahua; Yang, Zhen

doi:10.1038/ncomms14233

Cited by 44 publications

(20 citation statements)

References 45 publications

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“…The main challenges associated with the synthesis of avenaol include the construction of a bicyclo[4.1.0]heptanone skeleton containing an all- cis -substituted cyclopropane, controlling the stereochemistry at the C8 position of the C ring, and the introduction of a C3 hydroxyl group on the A ring. The construction of bicyclo[4.1.0]heptanone skeletons has mainly been investigated in the context of constructing caged structures 26 – 28 . For non-caged structure, the direct synthesis of these systems has been limited to the 1,4-addition of a suitable anion of a trans -chloroallylphosphonamide 29 or Ir-catalysed or Rh-catalysed cis -selective cyclopropanation reactions 30 , 31 .…”

Section: Resultsmentioning

confidence: 99%

Total synthesis of avenaol

et al. 2017

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Avenaol, isolated from the allelopathic plant black oat, was the first C20 germination stimulant related to strigolactones. Structurally, it consisted of a bicyclo[4.1.0]heptanone skeleton containing a cyclopropane ring bearing three main chains projecting in the same direction (i.e. all-cis-substituted cyclopropane). Herein, we report the total synthesis of avenaol using a robust strategy involving the formation of an all-cis-substituted cyclopropane via an alkylidenecyclopropane. The key factors in the success of this total synthesis include the Rh-catalysed intramolecular cyclopropanation of an allene, an Ir-catalysed stereoselective double-bond isomerisation, and the differentiation of two hydroxymethyl groups via the regioselective formation and oxidation of a tetrahydropyran based on the reactivity of a cyclopropyl group. This strategy effectively avoids the undesired ring opening of the cyclopropane ring and the formation of a caged structure. Furthermore, this study confirms the proposed structure of avenaol, including its unique all-cis-substituted cyclopropane moiety.

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Section: Resultsmentioning

confidence: 99%

Total synthesis of avenaol

et al. 2017

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“…A remarkable application of a diastereoselective VMAR involving a siloxyfuran nucleophile was exploited by Han, Jiang, and co-workers in 2016 in their report on the asymmetric total synthesis of (+)-19-dehydroxyl arisandilactone A ( Scheme 143 ). 378 It was serendipitously found that the BF 3 ·Et 2 O-catalyzed VMAR between 537a and the strained polycyclic chiral aldehyde 543 afforded the arisandilactone A-precursor 544 , as a result of a one-pot tandem reaction in which a typical diastereoselective VMAR forming the Felkin intermediate 543′ was followed by an intramolecular oxa-Michael reaction that generated a new tetrahydrofuran ring by cleavage of the cyclopropane carbon–carbon bond. The newly generated stereocenters at C20, C22, and C23 within product 544 formed a syn/syn stereotriad that was later epimerized to the corresponding anti/syn platform found in the target, via a DBU-catalyzed isomerization of the butenolide moiety (not shown).…”

Section: Vinylogous Esters and Lactonesmentioning

confidence: 99%

New Developments of the Principle of Vinylogy as Applied to π-Extended Enolate-Type Donor Systems

et al. 2020

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The principle of vinylogy states that the electronic effects of a functional group in a molecule are possibly transmitted to a distal position through interposed conjugated multiple bonds. As an emblematic case, the nucleophilic character of a π-extended enolate-type chain system may be relayed from the legitimate α-site to the vinylogous γ, ε, ..., ω remote carbon sites along the chain, provided that suitable HOMO-raising strategies are adopted to transform the unsaturated pronucleophilic precursors into the reactive polyenolate species. On the other hand, when “unnatural” carbonyl ipso -sites are activated as nucleophiles (umpolung), vinylogation extends the nucleophilic character to “unnatural” β, δ, ... remote sites. Merging the principle of vinylogy with activation modalities and concepts such as iminium ion/enamine organocatalysis, NHC-organocatalysis, cooperative organo/metal catalysis, bifunctional organocatalysis, dicyanoalkylidene activation, and organocascade reactions represents an impressive step forward for all vinylogous transformations. This review article celebrates this evolutionary progress, by collecting, comparing, and critically describing the achievements made over the nine year period 2010–2018, in the generation of vinylogous enolate-type donor substrates and their use in chemical synthesis.

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“…Heterocyclic compounds possess fascinating complex structural architecture and are key structural motifs in an array of biologically active natural products and pharmaceutically active compounds [1], which drives the development of improved and new synthetic methodologies [2,3,4,5,6,7,8,9]. In recent years, cascade reactions [10,11,12,13,14,15,16] and bio-inspired technologies [17,18,19,20,21,22,23] have been employed to access structural complexity in compounds of biological importance.…”

Section: Introductionmentioning

confidence: 99%

Synthesis of 6,12-Disubstituted Methanodibenzo[b,f][1,5]dioxocins: Pyrrolidine Catalyzed Self-Condensation of 2′-Hydroxyacetophenones

et al. 2019

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The preparation of unprecedented 6,12-disubstituted methanodibenzo[b,f][1,5]dioxocins from pyrrolidine catalyzed self-condensation of 2′-hydroxyacetophenones is herein described. This method provides easy access to this highly bridged complex core, resulting in construction of two C–O and two C–C bonds, a methylene bridge and two quaternary centers in a single step. The intricate methanodibenzo[b,f][1,5]dioxocin compounds were obtained in up to moderate yields after optimization of the reaction conditions concerning solvent, reaction times and the use of additives. Several halide substituted methanodibenzo[b,f][1,5]dioxocins could be prepared from correspondent 2′-hydroxyacetophenones.

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Biomimetically inspired asymmetric total synthesis of (+)-19-dehydroxyl arisandilactone A

Cited by 44 publications

References 45 publications

Total synthesis of avenaol

Total synthesis of avenaol

New Developments of the Principle of Vinylogy as Applied to π-Extended Enolate-Type Donor Systems

Synthesis of 6,12-Disubstituted Methanodibenzo[b,f][1,5]dioxocins: Pyrrolidine Catalyzed Self-Condensation of 2′-Hydroxyacetophenones

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