Scientific Reports (May 2024)

Synthesis and evaluation of pyridine-3-carboxamide analogs as effective agents against bacterial wilt in tomatoes

  • Yasser Hussein Issa Mohammed,
  • Israa M. Shamkh,
  • Ahmed Hassen Shntaif,
  • Muhammad Sufyan,
  • Md Tabish Rehman,
  • Mohamed F. AlAjmi,
  • Moayad Shahwan,
  • Saad Alghamdi,
  • Amal Ezzat Abd El-Lateef,
  • Elshiekh B. Khidir,
  • Amr S. Abouzied,
  • Nasrin E. Khalifa,
  • Weam M. A. Khojali,
  • Bader Huwaimel,
  • Dunia A. Al Farraj,
  • Saeedah Musaed Almutairi

DOI
https://doi.org/10.1038/s41598-024-59609-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 18

Abstract

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Abstract This study focused on developing novel pyridine-3-carboxamide analogs to treat bacterial wilt in tomatoes caused by Ralstonia solanacearum. The analogs were synthesized through a multistep process and their structures confirmed using spectroscopy. Molecular docking studies identified the most potent analog from the series. A specific analog, compound 4a, was found to significantly enhance disease resistance in tomato plants infected with R. solanacearum. The structure–activity relationship analysis showed the positions and types of substituents on the aromatic rings of compounds 4a–i strongly influenced their biological activity. Compound 4a, with a chloro group at the para position on ring C and hydroxyl group at the ortho position on ring A, was exceptionally effective against R. solanacearum. When used to treat seeds, the analogs displayed remarkable efficacy, especially compound 4a which had specific activity against bacterial wilt pathogens. Compound 4a also promoted vegetative and reproductive growth of tomato plants, increasing seed germination and seedling vigor. In plants mechanically infected with bacteria, compound 4a substantially reduced the percentage of infection, pathogen quantity in young tissue, and disease progression. The analogs were highly potent due to their amide linkage. Molecular docking identified the best compounds with strong binding affinities. Overall, the strategic design and synthesis of these pyridine-3-carboxamide analogs offers an effective approach to targeting and controlling R. solanacearum and bacterial wilt in tomatoes.

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