Teruo Nonomura
Kindai University
112 Papers
682 Citations
Teruo Nonomura is an academic researcher from Kindai University. The author has contributed to research in topics: Powdery mildew & Conidium. The author has an hindex of 22, co-authored 102 publications. Previous affiliations of Teruo Nonomura include Kagome & National Archives and Records Administration.
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Papers
Avoidance of an electric field by insects: Fundamental biological phenomenon for an electrostatic pest-exclusion strategy
Yoshinori Matsuda,Teruo Nonomura,Koji Kakutani,Junji Kimbara,Kazumi Osamura,Kusakari Shinichi,Hideyoshi Toyoda +6 more
- 26 Oct 2015
TL;DR: In this article, an electric field screen is used to exclude pest insects from greenhouses and warehouses to protect crop production and storage, and the ability of the screen to repel insects reaching the screen net is investigated.
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Formation of Conidial Pseudochains by Tomato Powdery Mildew Oidium neolycopersici
TL;DR: It is demonstrated that the pathogen required wind to disperse progeny conidia from the conidiophores and produced conidial pseudochains when the wind was below a critical level, independent of high relative humidity as reported previously.
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Algicidal effect of 3-(3-indolyl)butanoic acid, a control agent of the bacterial wilt pathogen, Ralstonia solanacearum
Teruo Nonomura,Yoshinori Matsuda,Miki Bingo,Maiko Onishi,Kazuhiko Matsuda,Satoshi Harada,Hideyoshi Toyoda +6 more
TL;DR: The chemical control agent 3-(3-indolyl)butanoic acid, previously reported as a control agent for the bacterial wilt pathogen Ralstonia solanacearum, was shown to suppress the growth of green algae during hydroponic culture of tomato, showing potential as a non-phytotoxic algicide for hydroponically cultured crop plants.
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Family 19 chitinase from Aeromonas sp. No.10S-24: role of chitin-binding domain in the enzymatic activity.
Miki Kojima,Tomoye Yoshikawa,Mitsuhiro Ueda,Teruo Nonomura,Yoshinori Matsuda,Hideyoshi Toyoda,Kazutaka Miyatake,Motoo Arai,Tamo Fukamizo +8 more
TL;DR: The truncation of ChBDs was found to strongly affect the affinity at the (-1) site, which seems to result in the lower enzymatic activity of the ChBD-truncated enzyme toward the chitinous substrates.
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