KINDAI UNIVERSITY


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TAKIKAWA Yoshihiro

Profile

FacultyInstitute of Advanced Technology / Graduate School of Biology-Oriented Science and Technology
PositionAssociate Professor
Degree
Commentator Guidehttps://www.kindai.ac.jp/meikan/166-takikawa-yoshihiro.html
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Last Updated :2020/09/30

Research Activities

Research Areas

  • Environmental science/Agricultural science, Conservation science (plants)
  • Environmental science/Agricultural science, Conservation science (plants)

Published Papers

  • A simple electrostatic device for eliminating tobacco side stream smoke to prevent passive smoking, Y. Matsuda, K. Kakutani, T. Nonomura, Y. Takikawa, K. Okada, M. Shibao, K. Miyama, S. Yokoo, S. Kusakari, H. Toyoda, Instruments, Instruments, 2(13), 13 - 22, 2018 , Refereed
  • Effects of light quality on conidiophore formation of the melon powdery mildew pathogen Podosphaera xanthii, T. Suzuki, S. Nishimura, K. Yagi, R. Nakamura, Y. Takikawa, Y. Matsuda, K. Kakutani, T. Nonomura, 46, 31 - 43, 2018 , Refereed
  • Digitally fabricated mobile spectrometer for multipoint continuous spectroscopic analysis of light environment in greenhouse tomato canopies., T. Hoshi, K. Ueda, Y. Takikawa, T. Azuma, Environmental control in biology, Environmental control in biology, 56(4), 149 - 155, 2018 , Refereed
  • Selective electrostatic eradication of Sitophilus oryzae nesting in stored rice. Journal of food technology and preservation., Y. Matsuda, Y. Takikawa, T. Nonomura, K. Kakutani, K. Okada, M. Shibao, S, Kusakari, K, Miyama, H. Toyoda, Journal of food technology and preservation, Journal of food technology and preservation, 2(1), 15 - 20, 2018 , Refereed
  • Electrocution of mosquitoes in a piggery by a novel electrostatic window screen to minimize mosquito transmission of Japanese encephalitis virus., K. Kakutani, Y, Matsuda, Y. Takikawa, T. Nonomura, K. Okada, M. Shobao, S. Kusakari, K, Miyama, H. Toyoda, International Journal of Scientific Research, International Journal of Scientific Research, 7(5), 47 - 50, 2018 , Refereed
  • )Trichomes: interaction sites of tomato leaves with biotrophic powdery mildew pathogens, T. Suzuki, T. Murakami, Y. Takizumi, H. Ishimaru, D. Kudo, Y. Takikawa, Y. Matsuda, K. Kakutani, Y. Bai, T. Nonomura, European journal of Plant Pathology, European journal of Plant Pathology, 2018 , Refereed
  • Elimination of whiteflies colonising greenhous tomato plants using an electrostatic flying insect catcher, Y. Takikawa, Y. Matsuda, T. Nonomura, K. Kakutani, K. Okada, M. Shibao.S. Kusakari, H. Toyoda, International Journal of Current Advanced Research, International Journal of Current Advanced Research, 6(8), 5517 - 5521, 2017 , Refereed
  • Successful single-truss cropping cultivation of healthy tomato seedlings raised in an electrostatically guarded nursery cabinet with non-chemical control of whiteflie, K. Kakutani, Y. Matsuda, T. Nonomura, Y. Takikawa, K. Okada, M. Shibao, S. Kusakari, H. Toyoda, Global Journal of Pests, Diseases and Crop Protection, Global Journal of Pests, Diseases and Crop Protection, 5(4), 269 - 275, 2017 , Refereed
  • Electrostatic elimination of fine smoke particles by a newly devised air purification screen, Y. Takikawa, Y. Matsuda, T. Nonomura, K. Kakutani, S. Kusakari, H. Toyoda, International Journal ofScientific Research in Environmental Sciences, International Journal ofScientific Research in Environmental Sciences, 5(1), 17 - 21, 2017 , Refereed
  • An electrostatic-barrier-forming window that captures airborne pollen grains to prevent pollinosis., Y. Takikawa, Y. Matsuda, T. Nonomura, K. Kakutani, S. Kusakari, H. Toyoda, International Journal of Environmental Research and Public Health, International Journal of Environmental Research and Public Health, 14(1), 82, 2017 , Refereed
  • An electrostatic nursery shelter for raising pest and pathogen free tomato seedlings in an open-window greenhouse environment, Y.Takikawa, Y. Matsuda, T. Nonomura, K. Kakutani, K. Okada, S. Morikawa, M. Shibao, S. Kusakari, H. Toyoda, Journal of Agricultural Science, Journal of Agricultural Science, 8, 13 - 25, 2016 , Refereed
  • Development of an electrostatic trap with an insect discharge recorder for multiple real-time monitoring of pests prowling in a warehouse., Y. Takikawa, Y. Matsuda, T. Nonomura, K. Kakutani, H. Toyoda, International Journal of Advance Agricultural Research, International Journal of Advance Agricultural Research, 3, 55 - 63, 2015 , Refereed
  • Successional changes in powdery mildew pathogens prevailing in common and wild tomato plants rotation-cultivated in a greenhouse., T. Nonomura, Y. Matsuda, Y. Takikawa, K. kakutani, H. Toyoda, Annual Report of the Kansai Plant Protection Society, Annual Report of the Kansai Plant Protection Society, 56, 17 - 20, 2014 , Refereed
  • Defence responses of Aphanoregma patens (Hedw.) Lindb. to inoculation with Pythium aphanidermatum, Yoshihiro Takikawa, Satomi Kida, Fuji Asayama, Teruo Nonomura, Yoshinori Matsuda, Koji Kakutani, Hideyoshi Toyoda, JOURNAL OF BRYOLOGY, JOURNAL OF BRYOLOGY, 37(1), 1 - 7, Mar. 2015 , Refereed
    Summary:We examined the defensive responses of leaf surfaces, rhizoids, and protonemata of the moss Aphanoregma patens (Hedw.) Lindb. to inoculation with zoospores and encysted zoospores (cysts) of the oomycete Pythium aphanidermatum OPU849. Aphanoregma patens infected with Pythium exhibited extensive browning of the leaves and stems 4 days after inoculation. The zoospore infection sites were rhizoids and protonemata. Cysts on the rhizoids and protonemata germinated and formed elongated hyphae that invaded the cells of the moss, forming oospores and lobed sporangia. The subsequent production of new zoospores on infected plants indicates that A. patens is a suitable host for manipulating the life cycle of Pythium. However, cysts inoculated onto leaf surfaces did not germinate, and they began to show signs of disruption after only 3 hours. After 2 days, more than 80% of the cysts on leaf surfaces were completely disrupted, possibly due to the secretion of degrading enzymes. Cyst disruption was not observed on rhizoids nor on protonemata.
  • Protein Secretome of Moss Plants (Physcomitrella patens) with Emphasis on Changes Induced by a Fungal Elicitor, Mikko T. Lehtonen, Yoshihiro Takikawa, Gunilla Ronnholm, Motomu Akita, Nisse Kalkkinen, Elina Ahola-Iivarinen, Panu Somervuo, Markku Varjosalo, Jari P. T. Valkonen, JOURNAL OF PROTEOME RESEARCH, JOURNAL OF PROTEOME RESEARCH, 13(2), 447 - 459, Feb. 2014 , Refereed
    Summary:Studies on extracellular proteins (ECPs) contribute to understanding of the multifunctional nature of apoplast. Unlike vascular plants (tracheophytes), little information about ECPs is available from nonvascular plants, such as mosses (bryophytes). In this study, moss plants (Physcomitrella patens) were grown in liquid culture and treated with chitosan, a water-soluble form of chitin that occurs in cell walls of fungi and insects and elicits pathogen defense in plants. ECPs released to the culture medium were compared between chitosan-treated and nontreated control cultures using quantitative mass spectrometry (Orbitrap) and 2-DELC-MS/MS. Over 400 secreted proteins were detected, of which 70% were homologous to ECPs reported in tracheophyte secretomes. Bioinformatics analyses using SignalP and SecretomeP predicted classical signal peptides for secretion (37%) or leaderless secretion (27%) for most ECPs of P. patens, but secretion of the remaining proteins (36%) could not be predicted using bioinformatics. Cultures treated with chitosan contained 72 proteins not found in untreated controls, whereas 27 proteins found in controls were not detected in chitosan-treated cultures. Pathogen defense-related proteins dominated in the secretome of P. patens, as reported in tracheophytes. These results advance knowledge on protein secretomes of plants by providing a comprehensive account of ECPs of a bryophyte.

Books etc

  • Micropipette extraction-based PCR amplification of mature mRNAs in single trichome cells of tomato leaves., T. Nonomura, Y. Matsuda, H. Toyoda, Y. Takikawa, K. Kakutani, Acta Horticulturae,   2016
  • Micropipette extraction-based PCR amplification of mRNAs in single friable tomato callus cells, Y. Takikawa, H. Toyoda, Y. Matsuda, T. Nonomura, K. Kakutani, Acta Horticulturae,   2016
  • Agrobacterium-mediated T-DNA insertion for mutagenesis assessed by the production of hairy roots emitting melon fruit odours, K. Kakutani, Y. Matsuda, T. Nonomura, H. Toyoda, Y. Takikawa, Acta Horticulturae,   2016

Conference Activities & Talks

  • Analysis of chemical diversity in Lilium japonicum population using floral scent composition, Mizuki Fujisawa, Tetsuya Matsukawa, Toshiharu Akino, Shigeru Arai, Yoshihiro Takikawa, Shinichiro Kajiyama, American Chemical Society fall 2019 National Meeting,   2019 08

Misc

  • Antimicrobial activities by the floral scents of the japanese bamboo lily Lilium japonicum, the symbolic flowers offered to the deity at the Saikusa Festival, Takikawa Yoshihiro, Aroma research, 20, 2, 41, 47,   2019