A concise and scalable total synthesis of dictyodendrin B by sequential C–H functionalisation
| Autor: | Pitts, Andrew Keith |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2023 |
| Předmět: | |
| DOI: | 10.17863/cam.93006 |
| Popis: | The file processed with OCR is smaller and allows copying and pasting (though this may contain errors). The file without OCR is much larger and does not allow copying and pasting but the visual quality is generally superior. This thesis describes the total synthesis of the marine alkaloid dictyodendrin B (2). Our investigations were primarily directed towards achieving this goal via a sequential C–H functionalisation strategy (Scheme 1). The functionalisation of C–H bonds has attracted considerable interest due to its potential impact on the synthesis of complex molecules. Our aim was to demonstrate the advantages and feasibility of performing an extended sequence of C–H functionalisations to simplify and streamline the synthesis of a sufficiently challenging target. The dictyodendrins, a family of telomerase-inhibiting marine alkaloids that have been investigated for their anti-cancer properties, became the focus of our attention due to their dense functionalisation. Each dictyodendrin can be viewed as having a central indole core that is peripherally decorated with a large number of substituents. We envisaged that performing sequential C–H functionalisations on a simple unfunctionalised indole would provide an excellent platform to demonstrate our strategy. We were subsequently able to perform a sequence of reactions, including 5 C–H functionalisations, to afford dictyodendrin B (2) from the minimally functionalised and readily available 4-bromoindole (1). The complete functionalisation of the indole was performed on gram-scale and enabled rapid construction of this complex natural product in a highly concise manner. |
| Databáze: | OpenAIRE |
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