Chemistry:Erysodienone
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| IUPAC name
16-Hydroxy-3,15-dimethoxy-1,3,4,6-tetradehydroerythrinan-2-one
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| Systematic IUPAC name
(9bS)-7-Hydroxy-8,11-dimethoxy-1,2,4,5-tetrahydro-12H-indolo[7a,1-a]isoquinolin-12-one | |
| Identifiers | |
3D model (JSmol)
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PubChem CID
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| Properties | |
| C18H19NO4 | |
| Molar mass | 313.353 g·mol−1 |
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). | |
| Infobox references | |
Erysodienone is a key precursor in the biosynthesis of many Erythrina-produced alkaloids.[1] Early work was done by Derek Barton and co-workers to illustrate the biosynthetic pathways towards erythrina alkaloids.[2][3][4] It was demonstrated that erysodienone could be synthesized from simple starting materials by a similar approach as its biosynthetic pathway, which led to the development of the biomimetic synthesis of erysodienone.[5]
Synthesis
The biosynthesis of erysodienone involves a key step of oxidative phenol coupling. Starting with S-norprotosinomenine precursor A, cyclization via oxidative phenol coupling forms intermediate B, which in turn can be rearranged to form intermediate C. Hydrogenation of C forms the diphenoquinone intermediate E. An intramolecular Michael addition reaction converts E to the final product, erysodienone.[6]
A biomimetic synthesis route for erysodienone was developed based on a similar oxidative phenol coupling mechanism. Barton and co-workers[2] found that treating bisphenolethylamine precursor F with oxidants such as K3Fe(CN)6 initiated oxidative phenol coupling to form the 9-membered ring structure in intermediate D that itself undergo a Michael addition to give erysodienone.[7]
References
- ↑ Rahman, Mohammed Zakiur; J Sultana, Shirin; Faruquee, Chowdhury; Ferdous, Faisol; Rahman, Mohammad; S Islam, Mohammad; Rashid, Mohammad A (May 2007). "Phytochemical and Biological investigations of Erythrina variegata". Saudi Pharmaceutical Journal 15. http://faculty.ksu.edu.sa/hisham/Documents/SPJ/150207.pdf.
- ↑ 2.0 2.1 Barton, D. H. R.; Boar, R. B.; Widdowson, D. A. (January 1970). "Part XXI: The biosynthesis of the Erythrina alkaloids". Journal of the Chemical Society C: Organic. Phenol oxidation and biosynthesis 9 (9): 1213–1218. doi:10.1039/J39700001213. ISSN 0022-4952. PMID 5463829. http://pubs.rsc.org/-/content/articlepdf/1970/j3/j39700001213.
- ↑ Barton, Derek H. R.; Potter, Christopher J.; Widdowson, David A. (January 1974). "Part XXIII: On the benzyltetrahydroisoquinoline origins of the Erythrina alkaloids". Journal of the Chemical Society, Perkin Transactions 1. Phenol oxidation and biosynthesis: 346–348. doi:10.1039/P19740000346. ISSN 1364-5463.
- ↑ Barton, D. H. R.; James, R.; Kirby, G. W.; Turner, D. W.; Widdowson, D. A. (January 1968). "Part XVIII: The structure and biosynthesis of Erythrina alkaloids". Journal of the Chemical Society C: Organic. Phenol oxidation and biosynthesis 12: 1529–1537. doi:10.1039/J39680001529. ISSN 0022-4952. PMID 5690074. http://pubs.rsc.org/en/content/articlelanding/1968/j3/j39680001529.
- ↑ Herbert, R. B. (1985). "The Biosynthesis of Isoquinoline Alkaloids". The Chemistry and Biology of Isoquinoline Alkaloids. Proceedings in Life Sciences. pp. 213–228. doi:10.1007/978-3-642-70128-3_14. ISBN 978-3-642-70130-6.
- ↑ Maier UH; Rödl W; Deus-Neumann B; Zenk MH (1999). "Biosynthesis of Erythrina alkaloids in Erythrina crista-galli". Phytochemistry 52 (3): 373–82. doi:10.1016/s0031-9422(99)00230-7. PMID 10501023.
- ↑ M. F. Grundon (1 January 1979). The Alkaloids. Royal Society of Chemistry. pp. 16–. ISBN 978-0-85186-660-4. https://books.google.com/books?id=Z8dqEXAd3hEC&pg=PA16.
Further reading
- Castedo, Luis; Dominguez, Domingo (January 1989). "Chapter 4: Dibenzazonine Alkaloids". in Arnold Brossi. The Alkaloids: Chemistry and Pharmacology. 35. Academic Press. pp. 177–214.
- Chou, Chun Tzer; Swenton, John S. (October 1987). "A convergent strategy for synthesis of Erythrina alkaloids". Journal of the American Chemical Society 109 (22): 6898–6899. doi:10.1021/ja00256a079. ISSN 0002-7863.
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