4.7 Article

Discovery of novel phenothiazine derivatives as new agrochemical alternatives for treating plant viral diseases

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PEST MANAGEMENT SCIENCE
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JOHN WILEY & SONS LTD
DOI: 10.1002/ps.7623

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phenothiazine; pesticide discovery; anti-TMV activities; viral self-assembly; induce host resistance

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In this study, new phenothiazine derivatives were synthesized and evaluated for their inhibitory activity against tobacco mosaic virus (TMV). Compound A(8) exhibited the highest protective activity against TMV, with an EC50 of 115.67 μg/mL, which was significantly superior to the positive controls ningnanmycin and ribavirin. Biochemical assays demonstrated that compound A(8) could inhibit TMV replication by disrupting its self-assembly and also enhance the defense responses of tobacco plants. This research provides valuable insights for the discovery of new agrochemicals to control plant viral diseases.
BackgroundPlant viral diseases, namely 'plant cancer', are extremely difficult to control. Even worse, few antiviral agents can effectively control and totally block viral infection. There is an urgent need to explore and discover novel agrochemicals with high activity and a unique mode of action to manage these refractory diseases. ResultsForty-one new phenothiazine derivatives were prepared and their inhibitory activity against tobacco mosaic virus (TMV) was assessed. Compound A(8) had the highest protective activity against TMV, with a half-maximal effective concentration (EC50) of 115.67 & mu;g/mL, which was significantly better than that of the positive controls ningnanmycin (271.28 & mu;g/mL) and ribavirin (557.47 & mu;g/mL). Biochemical assays demonstrated that compound A(8) could inhibit TMV replication by disrupting TMV self-assembly, but also enabled the tobacco plant to enhance its defense potency by increasing the activities of various defense enzymes. ConclusionIn this study, novel phenothiazine derivatives were elaborately fabricated and showed remarkable anti-TMV behavior that possessed the dual-action mechanisms of inhibiting TMV assembly and invoking the defense responses of tobacco plants. Moreover, new agrochemical alternatives based on phenothiazine were assessed for their antiviral activities and showed extended agricultural application. & COPY; 2023 Society of Chemical Industry.

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