Design, Synthesis, and Bioactivity of α‑Ketoamide Derivatives Bearing a Vanillin Skeleton for Crop Diseases

A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inact...

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Published in	Journal of agricultural and food chemistry Vol. 68; no. 27; pp. 7226 - 7234
Main Authors	Luo, Dexia, Guo, Shengxin, He, Feng, Chen, Shunhong, Dai, Ali, Zhang, Renfeng, Wu, Jian
Format	Journal Article
Language	English
Published	WASHINGTON American Chemical Society 08.07.2020 Amer Chemical Soc
Subjects	Agriculture Agriculture, Multidisciplinary Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacology antibacterial properties Antiviral Agents - chemical synthesis Antiviral Agents - chemistry Antiviral Agents - pharmacology Bacteria - drug effects Bacteria - growth & development Benzaldehydes - chemistry Benzaldehydes - pharmacology Chemistry Chemistry, Applied coat proteins copper Drug Design food chemistry Food Science & Technology Functional Structure/Activity Relationships Life Sciences & Biomedicine Microbial Sensitivity Tests Molecular Docking Simulation pesticides Physical Sciences Plant Diseases - microbiology Plant Diseases - virology Science & Technology Tobacco Mosaic Virus - drug effects Tobacco Mosaic Virus - growth & development transmission electron microscopy vanillin viruses synthesis molecular docking bioactivity mechanism α-ketoamide vanillin alpha-ketoamide TOBACCO-MOSAIC-VIRUS MOIETY PROTEIN ANTIBACTERIAL ACTIVITY ANTIVIRAL ACTIVITY FLUORINE CARCINOMA
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Abstract	A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 μg mL–1, which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases.
AbstractList	A series of novel alpha-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 mu g mL(-1), which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that alpha-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases. A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 μg mL–1, which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases. A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 μg mL–¹, which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases. A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound exhibited a curative activity of 54.8% at 500 μg mL , which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds , , and showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases. A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 μg mL-1, which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases.A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed. The results indicated that some compounds exhibited excellent antitobacco mosaic virus (TMV) activities, such as compound 34 exhibited an inactivation activity of 90.1% and curative activity of 51.8% and compound 28 exhibited a curative activity of 54.8% at 500 μg mL-1, which is equivalent to that of the commercial ningnanmycin (inactivation of 91.9% and curative of 51.9%). Moreover, the in vitro antibacterial activity test illustrated that compounds 2, 22, and 33 showed much higher activities than commercial thiodiazole copper, which could be used as lead compounds or potential candidates. The findings of transmission electron microscopy and molecular docking indicated that the synthesized compounds exhibited strong and significant binding affinity to the TMV coat protein and could obstruct the self-assembly and increment of TMV particles. This study revealed that α-ketoamide derivatives bearing a vanillin skeleton could be used as a novel potential pesticide for controlling the plant diseases.
Author	Zhang, Renfeng Luo, Dexia Wu, Jian Guo, Shengxin He, Feng Dai, Ali Chen, Shunhong
AuthorAffiliation	State Key Laboratory Breeding Base of Green Pesticide and Agricultural Bioengineering, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education
AuthorAffiliation_xml	– name: State Key Laboratory Breeding Base of Green Pesticide and Agricultural Bioengineering, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education
Author_xml	– sequence: 1 givenname: Dexia surname: Luo fullname: Luo, Dexia – sequence: 2 givenname: Shengxin surname: Guo fullname: Guo, Shengxin – sequence: 3 givenname: Feng surname: He fullname: He, Feng – sequence: 4 givenname: Shunhong surname: Chen fullname: Chen, Shunhong – sequence: 5 givenname: Ali surname: Dai fullname: Dai, Ali – sequence: 6 givenname: Renfeng surname: Zhang fullname: Zhang, Renfeng – sequence: 7 givenname: Jian orcidid: 0000-0002-9173-6608 surname: Wu fullname: Wu, Jian email: jwu6@gzu.edu.cn
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Keywords	synthesis molecular docking bioactivity mechanism α-ketoamide vanillin alpha-ketoamide TOBACCO-MOSAIC-VIRUS MOIETY PROTEIN ANTIBACTERIAL ACTIVITY ANTIVIRAL ACTIVITY FLUORINE CARCINOMA
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Snippet	A series of novel α-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were performed.... A series of novel alpha-ketoamide derivatives bearing a vanillin skeleton were designed and synthesized. Bioactivity tests on virus and bacteria were...
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SubjectTerms	Agriculture Agriculture, Multidisciplinary Anti-Bacterial Agents - chemical synthesis Anti-Bacterial Agents - chemistry Anti-Bacterial Agents - pharmacology antibacterial properties Antiviral Agents - chemical synthesis Antiviral Agents - chemistry Antiviral Agents - pharmacology Bacteria - drug effects Bacteria - growth & development Benzaldehydes - chemistry Benzaldehydes - pharmacology Chemistry Chemistry, Applied coat proteins copper Drug Design food chemistry Food Science & Technology Functional Structure/Activity Relationships Life Sciences & Biomedicine Microbial Sensitivity Tests Molecular Docking Simulation pesticides Physical Sciences Plant Diseases - microbiology Plant Diseases - virology Science & Technology Tobacco Mosaic Virus - drug effects Tobacco Mosaic Virus - growth & development transmission electron microscopy vanillin viruses
Title	Design, Synthesis, and Bioactivity of α‑Ketoamide Derivatives Bearing a Vanillin Skeleton for Crop Diseases
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