Collective Total Synthesis of Casbane Diterpenes: One Strategy, Multiple Targets

Löffler, Lorenz E.; Wirtz, Cornelia; Fürstner, Alois

doi:10.1002/ange.202015243

Angewandte Chemie

2021

DOI: 10.1002/ange.202015243

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Collective Total Synthesis of Casbane Diterpenes: One Strategy, Multiple Targets

Lorenz E. Löffler

Cornelia Wirtz

Alois Fürstner

Abstract: Of the more than 100 casbane diterpenes knownt o date,o nly the eponymous parent hydrocarbon casbene itself has ever been targeted by chemical synthesis.Outlined herein is ac onceptually new approach that brings not as ingle but avariety of casbane derivatives into reach, especially the more highly oxygenated and arguably more relevant members of this family.T he key design elements are ac atalyst-controlled intramolecular cyclopropanation with or without subsequent equilibration, chain extension of the result… Show more

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Cited by 10 publications

References 93 publications

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A Sphingolipid Fatty Acid Constituent Made by Alkyne trans‐Hydrogenation: Total Synthesis of Symbioramide

Radkowski

Fürstner

2022

Adv Synth Catal

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A scalable approach to (2R)‐hydroxyoctadec‐3‐enoic acid ((−)‐2) is reported, which is the fatty acid constituent of numerous sphingolipids of biological significance. Key to success was the chemoselective trans‐hydrogenation of a functionalized propargylic alcohol precursor with [Cp*RuCl]4 as the catalyst, followed by lipase‐catalyzed resolution of the racemic product. (−)‐2 then served the shortest total synthesis of the marine natural product symbioramide known to date.

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A Sphingolipid Fatty Acid Constituent Made by Alkyne trans‐Hydrogenation: Total Synthesis of Symbioramide

Radkowski

Fürstner

2022

Adv Synth Catal

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Total Synthesis of Mycinolide IV and Path‐Scouting for Aldgamycin N

et al. 2021

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Proof‐of‐concept is provided that a large estate of 16‐membered macrolide antibiotics can be reached by a “unified” approach. The key building block was formed on scale by an asymmetric vinylogous Mukaiyama aldol reaction; its alkene terminus was then converted either into the corresponding methyl ketone by Wacker oxidation or into a chain‐extended aldehyde by catalyst‐controlled branch‐selective asymmetric hydroformylation. These transformations ultimately opened access to two structurally distinct series of macrolide targets. Notable late‐stage maneuvers comprise a rare example of a ruthenium‐catalyzed redox isomerization of an 1,3‐enyne‐5‐ol into a 1,3‐diene‐5‐one derivative, as well as the elaboration of a tertiary propargylic alcohol into an acyloin by trans‐hydrostannation/Chan‐Lam‐type coupling. Moreover, this case study illustrates the underutilized possibility of forging complex macrolactone rings by transesterification under essentially neutral conditions.

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Scalable De Novo Synthesis of Aldgarose and Total Synthesis of Aldgamycin N

Späth

Fürstner

2021

Angewandte Chemie

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Since the accompanying study had shown that the introduction of the eponymous aldgarose sugar to the C5-OH group of the macrocyclic aglycone of aldgamycin Ni sm ost difficult, if not even impossible,the synthesis route was revised and the glycosidation performed at an earlier stage.T omitigate the "cost" of this strategic amendment, apractical and scalable de novo synthesis of this branched octose was developed. The glycoside formation required mild conditions;i tc ommenced with the reaction of the aglycone with the trichloroacetimidate donor to give atransient orthoester,which slowly rearranged to the desired aldgaropyranoside.T he presence of the polar peripheral groups in the product did not impede the selective late-stage functionalization of the macrolide ring itself:t he contained propargylic alcohol entity was readily transformed into the characteristic acyloin motif of the target by ar uthenium-catalyzed trans-hydrostannation followed by amodified Chan-Lam-type coupling.

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Collective Total Synthesis of Casbane Diterpenes: One Strategy, Multiple Targets

Cited by 10 publications

References 93 publications

A Sphingolipid Fatty Acid Constituent Made by Alkyne trans‐Hydrogenation: Total Synthesis of Symbioramide

A Sphingolipid Fatty Acid Constituent Made by Alkyne trans‐Hydrogenation: Total Synthesis of Symbioramide

Total Synthesis of Mycinolide IV and Path‐Scouting for Aldgamycin N

Scalable De Novo Synthesis of Aldgarose and Total Synthesis of Aldgamycin N

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