First Total Synthesis and Structural Reassignment of (−)-Aplysiallene

Wang, Jian; Pagenkopf, Brian L.

doi:10.1021/ol701797e

Cited by 57 publications

(23 citation statements)

References 18 publications

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“…Structural motifs misassigned on the basis of NOEs include epoxides (calafianin, 96–98 symbiodinolide 99, 100 ), cyclopropyl rings (clavosolide A, 101, 102 laurentristich-4-ol 103, 104 ), bridges (vannusals A and B 105–107 ), fused ring junctions (itomanallene A, 108, 109 asperdimin, 110, 111 aplysiallene 112, 113 ), polyethers (aplysiol B, 114, 115 azaspiracids 116–119 ), vicinal polyols (amphidinolide H2, 120, 121 hyrtiosterol, 122, 123 pericosine A 124, 125 ), sugars (callipeltoside C; 126, 127 fusapyrone and deoxyfusapyrone, 128, 129 Table 6) and macrolides (palmerolide A, 130–132 neopeltolide 133, 134 ).…”

Section: Sources Of Natural Product Structural Misassignmentsmentioning

confidence: 99%

Survey of marine natural product structure revisions: A synergy of spectroscopy and chemical synthesis

Suyama

Gerwick

McPhail

2011

Bioorganic & Medicinal Chemistry

166

175

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The structural assignment of new natural product molecules supports research in a multitude of disciplines that may lead to new therapeutic agents and or new understanding of disease biology. However, reports of numerous structural revisions, even of recently elucidated natural products, inspired the present survey of techniques used in structural misassignments and subsequent revisions in the context of constitutional or configurational errors. Given the comparatively recent development of marine natural products chemistry, coincident with the modern spectroscopy, it is of interest to consider the relative roles of spectroscopy and chemical synthesis in the structure elucidation and revision of those marine natural products which were initially misassigned. Thus, a tabulated review of all marine natural product structural revisions from 2005 to 2010 is organized according to structural motif revised. Misassignments of constitution are more frequent than perhaps anticipated by reliance on HMBC and other advanced NMR experiments, especially considering the full complement of all natural products. However, these techniques also feature prominently in structural revisions, specifically of marine natural products. Nevertheless, as is the case for revision of relative and absolute configuration, total synthesis is a proven partner for marine, as well as terrestrial, natural products structure elucidation. It also becomes apparent that considerable ‘detective work’ remains in structure elucidation, in spite of the spectacular advances in spectroscopic techniques.

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Section: Sources Of Natural Product Structural Misassignmentsmentioning

confidence: 99%

Survey of marine natural product structure revisions: A synergy of spectroscopy and chemical synthesis

Suyama

Gerwick

McPhail

2011

Bioorganic & Medicinal Chemistry

166

175

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“…Whereas Pagenkopf and co-workers could prepare the undesired anti-diastereomer of propargylic alcohol 34 by the substrate-controlled addition of an alkynyltitanium reagent to the aldehyde,attempts to produce the desired syn-diastereomer was unsuccessful even under reagent-controlled, asymmetric alkynylation conditions. [18] Eventually,t he syn-configuration was generated via the Mitsunobu reaction of 34.T hrough these synthetic studies, the structure of (À)-aplysiallene was revised as 36.A lternatively and more efficiently,adirect installation of sulfonate with inversion of configuration was demonstrated by Kim and Scheme 2. Allylic halogen displacement during attempted syn-dichlorination.…”

Section: Halogenative S N 2' ' Displacementsmentioning

confidence: 99%

Stereoselective Halogenation in Natural Product Synthesis

2016

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At last count, nearly 5000 halogenated natural products have been discovered. In approximately half of these compounds, the carbon atom to which the halogen is bound is sp3‐hybridized; therefore, there are an enormous number of natural products for which stereocontrolled halogenation must be a critical component of any synthesis strategy. In this Review, we critically discuss the methods and strategies used for stereoselective introduction of halogen atoms in the context of natural product synthesis. Using the successes of the past, we also attempt to identify gaps in our synthesis technology that would aid the synthesis of halogenated natural products, as well as existing methods that have not yet seen application in complex molecule synthesis. The chemistry described herein demonstrates yet again how natural products continue to provide the inspiration for critical advances in chemical synthesis.

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“…[125] and the bis-THF acetogenin bullatacin by Pagenkopf and co-workers [126]. The latter group also employed this methodology in the total synthesis of aplysiallene [127], and more recently to bovidic acid [128] and cyclocapitelline [129]. …”

Section: Reviewmentioning

confidence: 99%

The direct oxidative diene cyclization and related reactions in natural product synthesis

Adrian¹,

Gross²,

Stark³

2016

Beilstein J. Org. Chem.

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SummaryThe direct oxidative cyclization of 1,5-dienes is a valuable synthetic method for the (dia)stereoselective preparation of substituted tetrahydrofurans. Closely related reactions start from 5,6-dihydroxy or 5-hydroxyalkenes to generate similar products in a mechanistically analogous manner. After a brief overview on the history of this group of transformations and a survey on mechanistic and stereochemical aspects, this review article provides a summary on applications in natural product synthesis. Moreover, current limitations and future directions in this area of chemistry are discussed.

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First Total Synthesis and Structural Reassignment of (−)-Aplysiallene

Cited by 57 publications

References 18 publications

Survey of marine natural product structure revisions: A synergy of spectroscopy and chemical synthesis

Survey of marine natural product structure revisions: A synergy of spectroscopy and chemical synthesis

Stereoselective Halogenation in Natural Product Synthesis

The direct oxidative diene cyclization and related reactions in natural product synthesis

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