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Natural Product Research
Formerly Natural Product Letters
Volume 38, 2024 - Issue 1
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Research Articles

Dimeric phenanthrenoids: possible biogenetic pathway and missing compounds

Giovanni Di Fabioa Department of Chemical Sciences, University of Federico II, Napoli, ItalyORCID Iconhttps://orcid.org/0000-0003-2912-4827
ORCID Icon,
Anna De Marcob Department of Pharmacy, University of Naples Federico II, Naples, Italy;c BAT Center - Interuniversity Center for Studies on Bioinspired Agro-Environmental Technology, University of Naples Federico II, Naples, Italy
,
Afef Ladharid Institut National Agronomique de Tunisie (INAT), Université de Carthage, Tunis
&
Armando Zarrellia Department of Chemical Sciences, University of Federico II, Napoli, ItalyCorrespondence[email protected]
Pages 37-42 | Received 08 Mar 2022, Accepted 09 Jul 2022, Published online: 22 Jul 2022
 
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Abstract

Secondary metabolites extracted from plants have historically been critical for drug discovery, but their isolation involves expensive and complicated procedures in terms of time and labor resources. Thus, the biogenetic pathway offers the possibility of identifying specific compounds that have not yet been isolated and predicting their isolation from specific natural sources. In plants, biphenanthrenes represent a relatively small group of aromatic secondary metabolites that are considered as important taxonomic markers with promising biological activities. To date, 38 mixed phenanthrenoid dimers have been identified, the biosynthesis of which involves the radical coupling of the two subunits, namely, a phenanthrene and a dihydrophenanthrene. For each of the compounds, it is possible to identify the single phenanthrenic and dihydrophenanthrenic units constituting the considered dimer. Based on the biogenetic pathway, it is possible to identify 19 phenanthrenes and 17 dihydrophenanthrenes, and to distinguish those already known from those not yet isolated. By comparing the results of the possible biosynthetic pathway for each compound with the data in the literature, it is possible to identify three known phenanthrenes and seven known dihydrophenanthrenes, as well as eleven new phenanthrenes and five new dihydrophenanthrenes, and to identify from which plant it is possible to isolate them. This could direct the work of researchers seeking to identify known or new molecules useful for their possible biological properties, and ultimately, to confirm the veracity of the proposed and generally accepted biosynthetic pathway.

Graphical Abstract

Authors’ contributions

All authors contributed to the draft of the article and approved the final manuscript.

Disclosure statement

No potential conflict of interest was reported by the authors.

Funding

This study was supported by AIPRAS Onlus Associazione Italiana per la Promozione delle Ricerche sull’Ambiente e la Salute umana.

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