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Synthesis and herbicidal assessment of 3-acyltetramic acid prodrugs

Simon Backx (UGent) , Owen Van Hecke (UGent) , Jelle Van Vooren (UGent) , Kris Audenaert (UGent) , Willem Desmedt (UGent) and Sven Mangelinckx (UGent)
(2025) ACS OMEGA. 10(27). p.29488-29496
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Abstract
Herbicides are widely used in conventional agriculture to maintain crop yields and facilitate no-till farming. However, herbicide use is increasingly restricted due to concerns around (eco)toxicity and environmental persistence. A second major challenge is the increasing frequency of herbicide resistance, driven in part by overreliance on a narrow range of active ingredients and mechanisms of action. Biologically derived products are gaining more interest as lead compounds in the development of novel herbicidal products. Previous research by our group drew the attention to 3-acyltetramic acids of bacterial origin as a promising class of biologically derived herbicidal compounds. A potential opportunity to improve the activity, stability or other desirable properties of bioactive molecules lies in the application of the prodrug concept. Prodrugs are biologically inactive analogues of the target compound that is activated in the target tissue, releasing the active compound. In this work, potential proherbicidal derivatives of the most active 3-acyltetramic acid in our library were synthesized and screened for their herbicidal activity using Solanum lycopersicum leaf disks and high-resolution monitoring of photosynthetic activity as a sensitive proxy for phytotoxicity. It was found that some of the assessed 3-enaminetetramic acid analogues seemed to show a delayed and systemic herbicidal activity on leaf disks, indicating proherbicidal activity. However, further evaluation of these proherbicides in spray tests with Amaranthus retroflexus showed the original molecule outperformed the proherbicides. Together, these findings reveal interesting insights for further investigation on the activity of these compounds and further highlight that care should be taken when translating results from in vitro assays to further testing.
Keywords
DERIVATIVES, FISCHERELLIN, DISCOVERY, FUNGUS

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Citation

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MLA
Backx, Simon, et al. “Synthesis and Herbicidal Assessment of 3-Acyltetramic Acid Prodrugs.” ACS OMEGA, vol. 10, no. 27, 2025, pp. 29488–96, doi:10.1021/acsomega.5c02851.
APA
Backx, S., Van Hecke, O., Van Vooren, J., Audenaert, K., Desmedt, W., & Mangelinckx, S. (2025). Synthesis and herbicidal assessment of 3-acyltetramic acid prodrugs. ACS OMEGA, 10(27), 29488–29496. https://doi.org/10.1021/acsomega.5c02851
Chicago author-date
Backx, Simon, Owen Van Hecke, Jelle Van Vooren, Kris Audenaert, Willem Desmedt, and Sven Mangelinckx. 2025. “Synthesis and Herbicidal Assessment of 3-Acyltetramic Acid Prodrugs.” ACS OMEGA 10 (27): 29488–96. https://doi.org/10.1021/acsomega.5c02851.
Chicago author-date (all authors)
Backx, Simon, Owen Van Hecke, Jelle Van Vooren, Kris Audenaert, Willem Desmedt, and Sven Mangelinckx. 2025. “Synthesis and Herbicidal Assessment of 3-Acyltetramic Acid Prodrugs.” ACS OMEGA 10 (27): 29488–29496. doi:10.1021/acsomega.5c02851.
Vancouver
1.
Backx S, Van Hecke O, Van Vooren J, Audenaert K, Desmedt W, Mangelinckx S. Synthesis and herbicidal assessment of 3-acyltetramic acid prodrugs. ACS OMEGA. 2025;10(27):29488–96.
IEEE
[1]
S. Backx, O. Van Hecke, J. Van Vooren, K. Audenaert, W. Desmedt, and S. Mangelinckx, “Synthesis and herbicidal assessment of 3-acyltetramic acid prodrugs,” ACS OMEGA, vol. 10, no. 27, pp. 29488–29496, 2025.
@article{01K30H7WDSWF5SMW27RD71K7HR,
  abstract     = {{Herbicides are widely used in conventional agriculture to maintain crop yields and facilitate no-till farming. However, herbicide use is increasingly restricted due to concerns around (eco)toxicity and environmental persistence. A second major challenge is the increasing frequency of herbicide resistance, driven in part by overreliance on a narrow range of active ingredients and mechanisms of action. Biologically derived products are gaining more interest as lead compounds in the development of novel herbicidal products. Previous research by our group drew the attention to 3-acyltetramic acids of bacterial origin as a promising class of biologically derived herbicidal compounds. A potential opportunity to improve the activity, stability or other desirable properties of bioactive molecules lies in the application of the prodrug concept. Prodrugs are biologically inactive analogues of the target compound that is activated in the target tissue, releasing the active compound. In this work, potential proherbicidal derivatives of the most active 3-acyltetramic acid in our library were synthesized and screened for their herbicidal activity using Solanum lycopersicum leaf disks and high-resolution monitoring of photosynthetic activity as a sensitive proxy for phytotoxicity. It was found that some of the assessed 3-enaminetetramic acid analogues seemed to show a delayed and systemic herbicidal activity on leaf disks, indicating proherbicidal activity. However, further evaluation of these proherbicides in spray tests with Amaranthus retroflexus showed the original molecule outperformed the proherbicides. Together, these findings reveal interesting insights for further investigation on the activity of these compounds and further highlight that care should be taken when translating results from in vitro assays to further testing.}},
  author       = {{Backx, Simon and Van Hecke, Owen and Van Vooren, Jelle and Audenaert, Kris and Desmedt, Willem and Mangelinckx, Sven}},
  issn         = {{2470-1343}},
  journal      = {{ACS OMEGA}},
  keywords     = {{DERIVATIVES,FISCHERELLIN,DISCOVERY,FUNGUS}},
  language     = {{eng}},
  number       = {{27}},
  pages        = {{29488--29496}},
  title        = {{Synthesis and herbicidal assessment of 3-acyltetramic acid prodrugs}},
  url          = {{http://doi.org/10.1021/acsomega.5c02851}},
  volume       = {{10}},
  year         = {{2025}},
}
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