Updated on 2024/05/24

写真a

 
MOCHIZUKI Tomofumi
 
Organization
Graduate School of Agriculture Department of Agricultural Biology Associate Professor
School of Agriculture Department of Agricultural Biology
Title
Associate Professor
Affiliation
Institute of Agriculture

Position

  • Graduate School of Agriculture Department of Agricultural Biology 

    Associate Professor  2022.04 - Now

  • School of Agriculture Department of Agricultural Biology 

    Associate Professor  2022.04 - Now

Degree

  • 博士(農学) ( Others )

Research Areas

  • Environmental Science/Agriculture Science / Plant protection science  / Plant Pathology、Plant Virology

Research subject summary

  • ウイルス感染による植物の発病機構

  • 同義置換による植物RNAウイルスの病原性制御

  • 卵菌ウイルスの同定とウイルス感染が宿主菌へ及ぼす影響

  • 非モデル植物農作物で利用できるウイルスベクターの開発

Professional Memberships

  • 植物バイオテクノロジー学会

    2022 - Now   Domestic

  • American Society for Virology

    2020 - Now   Overseas

  • 関西病虫害研究会

    2008 - Now

  • 日本植物病理学会

    2001 - Now

Committee Memberships (off-campus)

  • Associate Editor   Frontiers in Microbiology  

    2022.06 - Now 

  • 病名委員   日本植物病理学会  

    2017.05 - Now 

  • 植物ウイルス分類委員会   日本植物病理学会  

    2017.05 - Now 

Awards

  • Young scientist award

    2014.06   Phytopathological Society of Japan  

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    Country:Japan

Job Career (off-campus)

  • ペンシルバニア州立大学   農学部   客員研究員

    2014.04 - 2015.03

  • (独)農業・食品系産業技術総合研究機構中央農業総合研究センター   昆虫等媒介病害研究チーム   博士研究員

    2005.04 - 2008.03

Papers

  • Large-scale synonymous substitutions in the cucumber mosaic virus RNA 3 facilitate amino acid mutations in the coat protein. Reviewed

    Mochizuki T, Ohara R, Roossinck MJ.

    Journal of Virology 雑誌   2018

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    Kind of work:Joint Work  

  • A novel non-segmented double-stranded RNA virus from an Arctic isolate of Pythium polare. Reviewed

    Sasai S, Tamura K, Tojo M, Herrero M-L, Hoshino T, Ohki ST, Mochizuki T.

    Virology   522   234 - 243   2018

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    Kind of work:Joint Work  

  • Quantitative transcriptional changes associated with chlorosis severity in mosaic leaves of tobacco plants infected with the Cucumber mosaic virus. Reviewed

    Mochizuki T, Ogata Y, Hirata Y, and Ohki ST.

    Molecular Plant Pathology 雑誌   15   242 - 254   2014

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    Kind of work:Joint Work  

  • Sensitivity of Globisporangium ultimum to the fungicide metalaxyl is enhanced by the infection with a toti-like mycovirus Reviewed

    Higuchi A, Tojo M, Mochizuki T.

    Microbiological Research   285   127742   2024.05( ISSN:0944-5013

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    DOI: 10.1016/j.micres.2024.127742

    PubMed

  • Induction of necrosis via mitochondrial targeting of Melon necrotic spot virus replication protein p29 by its second transmembrane domain Reviewed

    Mochizuki T, Hirai K, Kanda A, Ohnishi J, Ohki T, and Tsuda S.

    Virology 雑誌   390   239 - 249   2009.08

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    Kind of work:Joint Work  

  • Asymmetric Michael addition catalysed by copper-amyloid complexes.

    Fujieda N, Tonomura A, Mochizuki T, Itoh S

    RSC advances   14 ( 1 )   206 - 210   2024.01

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  • Discontinuous Translocation of a Luciferase Protein beyond Graft Junction in Tobacco

    Miyahara Taira, Ohkubo Hitomi, Umeyama Yukiko, Oguchi Taichi, Ogawa Takumi, Ohta Daisaku, Mochizuki Tomofumi, Kodama Hiroaki

    Food Safety   12 ( 1 )   1 - 16   2024( eISSN:21878404

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    Publishing type:Research paper (scientific journal)  

    <p>Transgrafting, a grafting technique that uses both genetically modified (GM) and non-GM plants, is a novel plant breeding technology that can be used to improve the efficiency of crop cultivation without introducing foreign genes into the edible parts of non-GM plants. This technique can facilitate the acquisition of disease resistance and/or increased yield. However, the translocation of low-molecular-weight compounds, ribonucleic acid (RNA), and proteins through graft junctions raises a potential safety risk for food crops. Here, we used a transgenic tobacco plant expressing a firefly luciferase gene (<i>LUC</i>) to examine the translocation of the LUC protein beyond the graft junction in grafted plants. We observed the bi-directional translocation of LUC proteins in transgrafted tobacco plants, i.e., from the rootstock to scion and vice versa. Transcriptomic analysis revealed that transcripts of the LUC gene were undetectable in non-GM plant bodies, indicating that the LUC protein itself was translocated. Moreover, the movement of the LUC protein is an episodic (i.e., non-continuous) event, since non-GM samples showing high LUC activity were flanked by non-GM samples showing no apparent LUC activity. Translocation from the GM to non-GM part depends on the characteristics of GM plant bodies; here, the enhanced translocation of the LUC protein into the non-GM scion was observed when LUC-expressing rootstocks with hairy roots were used. Moreover, the quantity of translocated LUC protein was far below the level that is generally required to induce an allergenic response. Finally, since the LUC protein levels of plants used for transgrafting are moderate and the LUC protein itself is relatively unstable, further investigation is necessary regarding whether the newly expressed protein in GM plants is highly stable, easily translocated, and/or highly expressed.</p>

    DOI: 10.14252/foodsafetyfscj.d-23-00010

  • Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks Reviewed

    Ogawa Takumi, Kato Kanae, Asuka Harue, Sugioka Yumi, Mochizuki Tomofumi, Nishiuchi Takumi, Miyahara Taira, Kodama Hiroaki, Ohta Daisaku

    Food Safety   11 ( 3 )   41 - 53   2023.04( eISSN:21878404

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    <p>Grafting has been widely applied in agricultural production in order to utilize agriculturally valuable traits. The use of genetically modified (GM) plants for grafting with non-GM crops will soon be implemented to generate chimeric plants (transgrafting)*, and the non-GM edible portions thus obtained could fall outside of the current legal regulations. A number of metabolites and macromolecules are reciprocally exchanged between scion and rootstock, affecting the crop properties as food. Accordingly, the potential risks associated with grafting, particularly those related to transgrafting with GM plants, should be carefully evaluated based on scientific evidence. In this study, we prepared a hetero-transgraft line composed of non-GM tomato scion and GM-tobacco rootstock expressing firefly luciferase. We also prepared a homograft line (both rootstock and scion are from non-GM tomato) and a heterograft line (non-GM tobacco rootstock and non-GM tomato scion). The non-GM tomato fruits were harvested from these grafted lines and subjected to comprehensive characterization by multi-omics analysis. Proteomic analysis detected tobacco-derived proteins from both heterograft and hetero-transgraft lines, suggesting protein transfer from the tobacco rootstock to the tomato fruits. No allergenicity information is available for these two tobacco-derived proteins. The transcript levels of the genes encoding two allergenic tomato intrinsic proteins (Sola l 4.0101 and Sola l 4.0201) decreased in the heterograft and hetero-transgraft lines. Several differences were observed in the metabolic profiles, including α-tomatine and nicotine. The accumulation of tobacco-derived nicotine in the tomato fruits of both heterograft and hetero-transgraft lines indicated that the transfer of unfavorable metabolites from rootstock to scion should be assessed as a food safety concern. Further investigations are needed to clarify whether variable environmental conditions and growth periods may influence the qualities of the non-GM edible parts produced by such transgrafted plants.</p>

    DOI: 10.14252/foodsafetyfscj.d-23-00005

    PubMed

  • Omics Profiles of Non-GM Tubers from Transgrafted Potato with a GM Scion. Reviewed

    Taira Miyahara, Takumi Nishiuchi, Nao Fujikawa, Taichi Oguchi, Akira Kikuchi, Ken-Ichiro Taoka, Takumi Ogawa, Karuna Honda, Yube Yamaguchi, Tomofumi Mochizuki, Daisaku Ohta, Hiroaki Kodama

    Food safety (Tokyo, Japan)   11 ( 1 )   1 - 20   2023.04

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    "Transgrafting" is a grafting procedure whereby a transgenic plant body is grafted to a non-transgenic plant body. It is a novel plant breeding technology that allows non-transgenic plants to obtain benefits usually conferred to transgenic plants. Many plants regulate flowering by perceiving the day-length cycle via expression of FLOWERING LOCUS T (FT) in the leaves. The resulting FT protein is translocated to the shoot apical meristem via the phloem. In potato plants, FT is involved in the promotion of tuber formation. Here we investigated the effects of a genetically modified (GM) scion on the edible parts of the non-GM rootstock by using potato plants transformed with StSP6A, a novel potato homolog of the FT gene. Scions prepared from GM or control (wild-type) potato plants were grafted to non-GM potato rootstocks; these were designated as TN and NN plants, respectively. After tuber harvest, we observed no significant differences in potato yield between TN and NN plants. Transcriptomic analysis revealed that only one gene-with unknown function-was differentially expressed between TN and NN plants. Subsequent proteomic analysis indicated that several members of protease inhibitor families, known as anti-nutritional factors in potato, were slightly more abundant in TN plants. Metabolomic analysis revealed a slight increase in metabolite abundance in NN plants, but we observed no difference in the accumulation of steroid glycoalkaloids, toxic metabolites found in potato. Finally, we found that TN and NN plants did not differ in nutrient composition. Taken together, these results indicate that FT expression in scions had a limited effect on the metabolism of non-transgenic potato tubers.

    DOI: 10.14252/foodsafetyfscj.D-22-00010

    PubMed

  • Effect of mutations in the 2b protein of tomato aspermy virus on RNA silencing suppressor activity, virulence, and virus-induced gene silencing Reviewed

    Murai H, Atsumaru K, Mochizuki T.

    Archives of Virology   2022.01

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    Kind of work:Joint Work  

  • Plant viruses and viroids in Japan Reviewed

    Fuji S, Mochizuki T, Okuda M, Tsuda S, Kagiwada S, Sekine KT, Ugaki M, Natsuaki KT, Isogai M, Maoka T, Takeshita M, Yoshikawa N, Mise K, Sasaya T, Kondo H, Kubota K, Yamaji Y, Iwanami T, Ohshima K, Kobayashi K, Hataya T, Sano T, Suzuki N

    Journal of General Plant Pathology   2022

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    Kind of work:Joint Work  

  • Virus-induced gene silencing in Chrysanthemum seticuspe using the tomato aspermy virus vector. Reviewed

    Murai H, Mochizuki T.

    Plants   11   430   2022

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    Authorship:Corresponding author   Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

  • First characterisation of chrysanthemum virus B infecting chrysanthemum in Thailand and development of colourimetric RT-LAMP for rapid and sensitive detection. Reviewed International coauthorship

    Supakitthanakorn S, Mochizuki T, Vichittragoontavorn K, Kunasakdakul K, Thapanapongworakul P, Ruangwong O-U

    34   1 - 11   2022

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

  • Novel fusari- and toti-like viruses, with probable different origins, in the plant pathogenic oomycete Globisporangium ultimum.

    Fukunishi M, Sasai S, Tojo M, Mochizuki T

    Viruses 雑誌   13   2021.09

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    Kind of work:Joint Work  

  • Unfolded protein-independent IRE1 activation contributes to multifaceted developmental processes in Arabidopsis. Reviewed

    Mishiba K-I, Iwata Y, Mochizuki T, Matsumura A, Nishioka N, Hirata R, Koizumi N.

    Life Science Alliance 雑誌   2   2019.10

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    Kind of work:Joint Work  

  • A novel toti-like virus from a plant pathogenic oomycete Globisporangium splendens. Reviewed

    Shiba K, Hatta C, Sasai S, Tojo M, Ohki ST, Mochizuki T

    Virology   537   165 - 171   2019

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    Kind of work:Joint Work  

  • Silencing of the chalcone synthase gene by a virus vector derived from the Cucumber mosaic virus in petunia. Reviewed

    Tanase K, Matsushita Y, Mochizuki T.

    The Horticulture Journal 雑誌   2019

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    Kind of work:Joint Work  

  • Correlation between toll-like receptor 4 and nucleotide-binding oligomerization domain 2 (NOD2) and pathological severity in dogs with chronic gastrointestinal diseases. Reviewed

    Aono K, Azuma Y*, Nabetani T, Hatoya S, Furuya M, Miki M, Hirota K, Fujimoto Y, Nishiyama K, Ogata Y, Mochizuki T, Tani H.

    Veterinary Immunology and Immunopathology 雑誌   210   15 - 22   2019

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    Kind of work:Joint Work  

  • Distribution of chrysanthemum chlorotic mottle viroid in shoot meristem and flower buds of chrysanthemum. Reviewed

    Ebata M, Matsushita Y, Morimoto M, Mochizuki T

    European Journal of Plant Pathology   154   2019

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    Kind of work:Joint Work  

  • Genome sequence of a novel partitivirus identified from the oomycete Pythium nunn. Reviewed

    Shiba K, Hatta C, Sasai S, Tojo M, Ohki ST, Mochizuki T.

    Archives of Virology 雑誌   2018

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    Kind of work:Joint Work  

  • Inducible expression of magnesium protoporphyrin chelatase subunit I (CHLI)-amiRNA provides insights into cucumber mosaic virus Y satellite RNA-induced chlorosis symptoms. Reviewed

    Bhor SA, Tateda C, Mochizuki T, Sekine KT, Yaeno T, Yamaoka N, Nishiguchi M, Kobayashi K.

    VirusDisease 雑誌   2017

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    Kind of work:Joint Work  

  • Rapid and low-cost diagnosis of Japanese yam mosaic virus infection in Chinese yam (Dioscorea polystachya) leaves by a print-capture RT-PCR. Reviewed

    Mochizuki T, Iwamoto I, Atarashi A, Ohki ST, Kikukawa H.

    Journal of General Plant Pathology 雑誌   83   2017

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    Kind of work:Joint Work  

  • Inducible transgenic tobacco system to study the mechanisms underlying chlorosis mediated by the silencing of chloroplast heat shock protein 90

    Bhor SA, Tateda C, Mochizuki T, Sekine KT, Yaeno T, Yamaoka N, Nishiguchi M, Kobayashi K.

    VirusDisease 雑誌   2017

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    Kind of work:Joint Work  

  • The entry of cucumber mosaic virus into cucumber xylem is facilitated by co-infection with zucchini yellow mosaic virus. Reviewed

    Mochizuki T, Nobuhara S, Nishimura M, Ryang B-S, Naoe M, Matsumoto T, Kosaka Y, Ohki ST.

    Archives of Virology 雑誌   2016

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    Kind of work:Joint Work  

  • Detection of plant virus in meristem by immunohistochemistry and in situ hybridization

    Mochizuki T and Ohki ST.

    Methods in Molecular Biology 雑誌   1236   275 - 287   2015

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    Kind of work:Joint Work  

  • Low pH soil inhibits transmission of Melon necrotic spot virus by its fungal vector Olpidium bornovanus.

    Mochizuki T, Ohki ST.

    Annual Report of The Kansai Plant Protection Society 雑誌   57   77 - 79   2015

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    Kind of work:Joint Work  

  • Coat protein mutations in an attenuated Cucumber mosaic virus encoding mutant 2b protein that lacks RNA silencing suppressor activity induces chlorosis with photosynthesis gene repression and chloroplast abnormalities in infected tobacco plants Reviewed

    Mochizuki T, Yamazak R, Wada T, and Ohki ST.

    Virology 雑誌   456   292 - 299   2014

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    Kind of work:Joint Work  

  • The detection of Chrysanthemum stem necrosis virus (CSNV) by modified print-capture RT-PCR using commercially available RNA extraction reagent. Reviewed

    Masanobu FUKAMI, Eriko KUNITOMO, Tomofumi MOCHIZUKI

    Annual Report of the Kanto-Tosan Plant Protection Society   61   78 - 81   2014

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    Kind of work:Joint Work  

  • Artificial induction of a plant virus protein in transgenic tobacco provides a synchronous system for analyzing the process of leaf chlorosis. Reviewed

    Waliullah S, Mochizuki T, Sekine K-T, Atsumi G, Ali E, Yaeno T, Yamaoka N, Nishiguchi M, and Kobayashi, K.

    Physiological and Molecular plant Pathology 雑誌   in press   2014

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    Kind of work:Joint Work  

  • Pollen Transmission of Asparagus virus 2 (AV-2) May Facilitate Mixed Infection by Two AV-2 Isolates in Asparagus Plants Reviewed

    Kawamura R, Shimura H, Mochizuki T, Ohki ST, and Masuta C.

    Phytopathology 雑誌   104   1001 - 1006   2014

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    Kind of work:Joint Work  

  • Large-scale codon de-optimisation of p29 replicase gene by synonymous substitutions causes loss of infectivity of melon necrotic spot virus. Reviewed

    Usami A, Mochizuki T, Tsuda S, and Ohki ST.

    Archives of Virology 雑誌   158   1979 - 1985   2013

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    Kind of work:Joint Work  

  • Cucumber mosaic virus: viral genes as virulence determinants. Reviewed

    Mochizuki T and Ohki ST.

    Molecular Plant Pathology 雑誌   13   217 - 225   2012

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    Kind of work:Joint Work  

  • Comparisons of ribosomal DNA-internal transcribed spacer sequences and biological features among Olpidium bornovanus isolates from Cucurbitaceae-cultivating soil in Japan Reviewed

    Mochizuki T, Hojo-Kanda A, Ohki T, Kawabe M, and Tsuda S.

    Journal of General Plant Pathology 雑誌   78   49 - 53   2012

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    Kind of work:Joint Work  

  • Detection of carrot red leaf virus-RNA in carrot seeds by multiplex RT-nested PCR. Reviewed

    Oka K, Mochizuki T, and Ohki ST.

    Journal of General Plant Pathology 雑誌   78   2 - 7   2012

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    Kind of work:Joint Work  

  • Relationship between viral distribution in the leaf primordia/young developing leaves and symptom severity in the fully expanded leaves of tobacco plants infected with Cucumber mosaic virus Reviewed

    Sunpapao A, Mochizuki T, and Ohki ST.

    Australasian Plant Pathology 雑誌   40   215 - 221   2011

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    Kind of work:Joint Work  

  • Single amino acid substitutions at residue 129 in the coat protein of Cucumber mosaic virus affect symptom expression and thylakoid structure. Reviewed

    Mochizuki T and Ohki ST.

    Archives of virology 雑誌   156   881 - 886   2011

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    Kind of work:Joint Work  

  • Tobacco ringspot virus persists in the shoot apical meristem but not in the root apical meristem of infected tobacco. Reviewed

    Dong F, Mochizuki T, and Ohki ST.

    European Journal of Plant Pathology 雑誌   126   117 - 122   2010.01

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    Kind of work:Joint Work  

  • The protruding domain of the coat protein of Melon necrotic spot virus is involved in compatibility with and transmission by the fungal vector Olpidium bornovanus. Reviewed

    Ohki T, Akita F, Mochizuki T, Kanda A, Sasaya T, and Tsuda S.

    Virology 雑誌   402   129 - 134   2010

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    Kind of work:Joint Work  

  • The 2b protein of Cucumber mosaic virus is essential for viral infection into shoot apical meristem and for efficient invasion of leaf primordia in infected tobacco plants Reviewed

    Sunpapao A, Nakai T, Dong F, Mochizuki T, and Ohki ST.

    Journal of General Virology 雑誌   90   2009.12

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    Kind of work:Joint Work  

  • A new strain of Melon necrotic spot virus that is unable to systemically infect Cucumis melo Reviewed

    Ohki T, Sako S, Kanda A, Mochizuki T, Honda Y, and Tsuda S.

    Phytopathology 雑誌   98   1165 - 1170   2008.11

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    Kind of work:Joint Work  

  • Functional degeneration of the resistance gene nsv against Melon necrotic spot virus at low temperature. Reviewed

    Kido K, Mochizuki T, Matsuo K, Tanaka C, Kubota K, Ohki T, and Tsuda S.

    European Journal of Plant Pathology 雑誌   121   189 - 194   2008.06

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    Kind of work:Joint Work  

  • Antiviral RNA silencing is restricted to the marginal region of the dark green tissue in the mosaic leaves of Tomato mosaic virus-infected tobacco. Reviewed

    Hirai K, Kubota K, Mochizuki T, Tsuda S, and Meshi T.

    Journal of Virology 雑誌   82   3250 - 3260   2008.04

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    Kind of work:Joint Work  

  • Amino acid substitution in the coat protein of Melon necrotic spot virus causes loss of binding to the surface of Olpidium bornovanus zoospores. Reviewed

    Mochizuki T, Ohnishi J, Ohki T, Kanda A and Tsuda S.

    Journal of General Plant Pathology 雑誌   74   176 - 181   2008.04

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    Kind of work:Joint Work  

  • High temperatures activate local viral multiplication and cell-to-cell movement of Melon necrotic spot virus, but restrict expression of systemic symptoms. Reviewed

    Kido K, Tanaka C, Mochizuki T, Kubota K., Ohki T, Ohnishi J, Knight LM, and Tsuda S.

    Phytopathology 雑誌   98   181 - 186   2008.02

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    Kind of work:Joint Work  

  • Olpidium菌のチューリップ条斑ウイルス (TuSV) およびチューリップ微斑モザイクウイルス (TMMMV) 媒介能と植物寄生性. Reviewed

    守川俊幸・堀井香織・望月知史・大木健広・津田新哉・向井環

    北陸病虫研報 雑誌   56   37 - 40   2007.04

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    Kind of work:Joint Work  

  • The amino acid 129 in the coat protein of Cucumber mosaic virus primary determines invasion of the shoot apical meristem of tobacco plants. Reviewed

    Mochizuki T, and Ohki ST.

    Journal of General Plant Pathology 雑誌   71   326 - 332   2005.04

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    Kind of work:Joint Work  

  • Shoot meristem tissue of tobacco inoculated with Cucumber mosaic virus is infected with the virus and subsequently recovers from infection by RNA silencing. Reviewed

    Mochizuki T, and Ohki ST.

    Journal of General Plant Pathology 雑誌   70   363 - 366   2004.04

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    Kind of work:Joint Work  

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MISC

  • 卵菌ウイルスを用いたピシウム菌の生態調査の可能性 Reviewed

    望月知史

    土と微生物   74   45 - 49   2020

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  • 植物ウイルス感染による退緑症状の発病機構 -ウイルスによる葉緑体代謝の制御- Reviewed

    望月知史

    日本農薬学会誌   45   7 - 8   2020

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Presentations

  • 日本植物病名目録に記載されるウイルス病名とウイルス和名の付け方について Domestic conference

    望月知史

    第15回植物ウイルス病研究会  2024.03 

  • CMVによるモザイク病徴の発現メカニズム Domestic conference

    望月知史

    第11会植物ウイルス病研究会  2013.03 

  • メロンえそ斑点ウイルスの複製酵素p29が誘起する「えそ」の発病機構 Domestic conference

    望月知史,平井克之,神田絢美,大西純,大木健広,津田新哉

    第10回植物ウイルス病研究会  2010.04 

  • メロンえそ斑点ウイルスによる「えそ」の誘起機構 Domestic conference

    望月知史,平井克之,神田絢美,大西純,大木健広,津田新哉

    第44回植物感染生理談話会  2008.08 

Grant-in-Aid for Scientific Research

  • 耐病性植物作出に向けたウイルスとフェレドキシンIとの相互作用の生物学的意義の解明

    Grant-in-Aid for Scientific Research(C)  2025

  • 耐病性植物作出に向けたウイルスとフェレドキシンIとの相互作用の生物学的意義の解明

    Grant-in-Aid for Scientific Research(C)  2024

Charge of on-campus class subject

  • 応用生物科学基礎実験C

    2024   Weekly class   Undergraduate

  • 応用生物科学概論

    2024   Weekly class   Undergraduate

  • フィールド実習A

    2024   Weekly class   Undergraduate

  • 基礎微生物学

    2024   Weekly class   Undergraduate

  • 応用生物科学特論

    2024   Weekly class   Graduate school

  • 応用生物科学研究実験2A

    2024   Intensive lecture   Graduate school

  • 応用生物科学研究実験1A

    2024   Intensive lecture   Graduate school

  • 応用生物科学ゼミナール2A

    2024   Intensive lecture   Graduate school

  • 応用生物科学ゼミナール1A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験3A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験2A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験1A

    2024   Intensive lecture   Graduate school

  • 生化学基礎実験

    2024   Weekly class   Undergraduate

  • バイオテクノロジー基礎実験

    2024   Weekly class   Undergraduate

  • フィールド実習A

    2022   Practical Training   Undergraduate

  • 基礎微生物学

    2022   Weekly class   Undergraduate

  • 初年次ゼミナール

    2022   Weekly class   Undergraduate

  • 応用生物科学特論

    2022   Weekly class   Graduate school

  • 植物病理学特論

    2022   Weekly class   Graduate school

  • 植物病理学

    2022   Weekly class   Undergraduate

  • 育種・病理学基礎実験

    2022   Weekly class   Undergraduate

  • 植物保護学

    2022   Weekly class   Undergraduate

  • 植物科学基礎実験

    2022   Practical Training   Undergraduate

  • フィールド実習B

    2022   Practical Training   Undergraduate

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Social Activities ⇒ Link to the list of Social Activities

  • 「植物ウイルス病診断の基礎 -生物検定と遺伝子診断-」

    Role(s): Lecturer

    Type: Research consultation

    日本植物病理学会  植物病害診断教育プログラム  2023.09

Visiting Lectures ⇒ Link to the list of Visiting Lectures

  • 植物の病気

    Category:Agricultural science (applied biology, biofunctional chemistry, green space environmental science)

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    SDGs:

    Audience:Junior high school students, High school students

    Keyword:植物、食料生産、病気 

    植物の病気にはどのようなものがあるか、病原体にはどのようなものがあるか、どのような防除が行われているのかを概説する。

  • 植物の免疫機構

    Category:Agricultural science (applied biology, biofunctional chemistry, green space environmental science)

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    SDGs:

    Audience:High school students

    Keyword:植物、食料生産、病気 

    病原微生物に対して植物はどのような防御機構を有しているのか、植物と病原体とのせめぎ合いを概説する。