# Generating Molecular Diversity via Addition of Nucleophiles to Electron-Deficient [3]Dendralenes: An Exploratory Study

**Authors:** Stefanie Magela Perdomo, Ondřej Kratochvíl, Rastislav Antal, Michal Kadaník, Petr Matouš, Jiří Kuneš, Aleš Růžička, Adam Kurčina, Lubomír Rulíšek, Erik Andris, Pavel Kočovský, Milan Pour

PMC · DOI: 10.1021/acs.joc.5c02397 · The Journal of Organic Chemistry · 2026-01-14

## TL;DR

This study explores how electron-deficient dendralenes react with nucleophiles to form diverse molecular structures, including cyclic and fused systems.

## Contribution

The paper reveals new reaction pathways and product diversity from nucleophilic additions to dendralenes with different enone structures.

## Key findings

- Hydride and thiolate attacks on enone fragments lead to multisubstituted pyranones, furans, and isocoumarin derivatives.
- A five-membered cyclic enone prefers simple additions and aromatization, unlike six-membered enones.
- DFT calculations show thiolate additions are driven by thermodynamic stability and equilibrium processes.

## Abstract

Electron-deficient dendralenes, bearing enone substructures
and
possessing an unfavorable disposition of like charges at the neighboring
carbons, undergo nucleophilic 1,4-addition (Michael) or 1,6-addition
(anti-Michael). Diverse products are obtained, including those of
simple addition as well as cyclic and ortho-fused
systems arising via multistep sequences, depending on the structure
of the substrate and the nature of the nucleophile. Attack of a hydride
at an enone fragment triggers the formation of multisubstituted pyranones
and furans; furan formation was also initiated by thiolates. A notable
exception is the derivative with a five-membered cyclic enone, which
prefers simple additions followed by the reshuffling of the double
bonds for both H– and RS– nucleophiles.
By contrast, the latter enone is the only one that can react with
stabilized C-nucleophiles, yielding bicyclic compounds. Domino cyclizations
can also be induced by the enolization of the enone with DBU, giving
mostly polysubstituted furans. However, the dendralene with a five-membered
cyclic enone and its analogue with a six-membered ring behave differently:
The former gives a mixture, while the latter prefers the formation
of an isocoumarin derivative, which is driven by aromatization. DFT
calculations have shown that the additions of thiolates are mostly
governed by the thermodynamic stability of possible products arising
from complex equilibrium processes.

## Linked entities

- **Chemicals:** DBU (PubChem CID 81184)

## Full-text entities

- **Chemicals:** 2-mercaptoethanol (MESH:D008623), Methanethiolate (MESH:C005231), benzene (MESH:D001554), I2 (MESH:D007455), dimethyl malonate (MESH:C005230), acrylate (MESH:C036658), borohydride (MESH:D001894), water (MESH:D014867), ethanethiol (MESH:C007638), H (MESH:D006859), polyenes (MESH:D011090), gnididione (MESH:C014015), olefins (MESH:D000475), -carbon (MESH:D002244), ester (MESH:D004952), Ar (MESH:D001128), bicyclo[4.3.0]nonane (MESH:C000616753), CeCl3 (MESH:C026690), nitromethane (MESH:C008640), oxygen (MESH:D010100), DBU (MESH:C031033), thiol (MESH:D013438), isocoumarin (MESH:D049934), furan (MESH:C039281), furans (MESH:D005663), 17b (-), CH2(CN)2 (MESH:C000945), zedoarol (MESH:C000601582), methyl vinyl ketone (MESH:C057920), lactone (MESH:D007783), Dendralenes (MESH:C527474), Cyclopentenone (MESH:C013905), sodium borohydride (MESH:C025364), NaOH (MESH:D012972), sulfone (MESH:D013450), diol (MESH:D011276), nitrous acid (MESH:D009608), malonate (MESH:C030290), methanol (MESH:D000432)

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12865776/full.md

## References

30 references — full list in the complete paper: https://tomesphere.com/paper/PMC12865776/full.md

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Source: https://tomesphere.com/paper/PMC12865776