業績

IMG_3142

2024年

[学術論文]

  • Higuchi A, Tojo M, Mochizuki T*. (2024) Sensitivity of Globisporangium ultimum to the fungicide metalaxyl is enhanced by the infection with a toti-like mycovirus. Microbiological Research 285: 127742
  • Shimizu S, Tojo M*. (2024) Suppressive effects of low-pH solutions on root rot in hydroponically grown Welsh onion. Journal of General Plant Pathology 90: 151–162
  • Ogawa T*, Kato K, Asuka H, Sugioka Y, Mochizuki T, Fukuda H, Nishiuchi T, Miyahara T, Kodama H, Ohta D. (2024) Translocation of green fluorescent protein in homo- and hetero-transgrafted plants. Plant Biotechnology (in press)
  • Miyahara T*, Ohkubo H, Umeyama Y, Oguchi T, Ogawa T, Ohta D, Mochizuki T, Kodama H. (2024) Discontinuous translocation of a luciferase protein beyond graft junction in tobacco. Food Safety 12: 1-16
  • Fujieda N*, Tonomura A, Mochizuki T, Itoh S. (2024) Asymmetric Michael addition catalysed by copper-amyloid complexes. RSC Advances 14: 206-210

[総説・解説・その他]

  • 望月知史(2024)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 〜ウイルス病というのかい? 贅沢な名だね。今からお前の名前は††††だ〜.植物ウイルス病研究会レポート 15: 62-67

2023年

[学術論文]

  • Nagashima S, Hirasa T, Fujihara S, Kondo A, Tsukamoto T, Kako T, Furukawa H, Tojo M*. (2023) Removal of exudates from flower bud bases of hydrangea reduces incidence of flower bud rot during forcing culture. Journal of General Plant Pathology 89: 333–338
  • Ushio M*, Saito H, Tojo M, Nagano JA. (2023) An ecological network approach for detecting and validating influential organisms for rice growth. eLife 12: RP87202
  • Ogawa T, Kato K, Asuka H, Sugioka Y, Mochizuki T, Nishiuchi T, Miyahara T, Kodama H, Ohta D*. (2023) Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks. Food Safety 11: 41-53
  • Miyahara T*, Nishiuchi T, Fujikawa N, Oguchi T, Kikuchi A, Taoka K, Ogawa T, Honda K, Yamaguchi Y, Mochizuki T, Ohta D, Kodama H. (2023) Omics profiles of non-GM tubers from transgrafted potate with a GM scion. Food Safety 11: 1–20

[総説・解説・その他]

  • Nagashima S, Tojo M*. (2023) Hydrangea Diseases in Japan, Japan Agricultural Research Quarterly: Japan Agricultural Research Quarterly (JARQ) 57: 183-194
2022年

[学術論文]

  • Kawasumi R, Oda Y, Tojo M*. (2022) First report of Pythium myriotylum damping-off of shiso. Journal of General Plant Pathology 88:275–277
  • Supakitthanakorn S, Mochizuki T, Vichittragoontavorn K, Kunasakdakul K, Thapanapongworakul P, Ruangwong O-U*. (2022) First characterisation of chrysanthemum virus B infecting chrysanthemum in Thailand and development of colourimetric RT-LAMP for rapid and sensitive detection. Folia Horticulturae 34:1-11
  • Hoshino T*, Tkachenko OB, Tojo M, Tronsmo AM, Kasuya T, Matsumoto N. (2022) Taxonomic revision of the Typhula ishikariensis complex. Mycoscience 63:118-130
  • Murai H, Atsumaru K, Mochizuki T*. (2022) Effect of mutations in the 2b protein of tomato aspermy virus on RNA silencing suppressor activity, virulence, and virus-induced gene silencing. Archives of Virology 167:471-481

  • Murai H, Mochizuki T*. (2022) Virus-induced gene silencing in Chrysanthemum seticuspe using the tomato aspermy virus vector. Plants 11:430

[総説・解説・その他]

  • 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*. (2022) Plant viruses and viroids in Japan. Journal of General Plant Pathology 88:105–127
2021年

[学術論文]

  • Fukunishi M, Sasai S, Tojo M, Mochizuki T*. (2021) Novel fusari- and toti-like viruses, with probable different origins, in the plant pathogenic oomycete Globisporangium ultimum. Viruses 13:1931

  • Tojo M*, Fujii N, Yagi H, Yamashita Y, Tokura K, Kida K, Hakoda A, Herrero M-L, Hoshino T, Uchida M. (2021) Identification and Isolation Pattern of Globisporangium spp. from a Sanionia Moss Colony in Ny-Ålesund, Spitsbergen Is., Norway from 2006 to 2018. Microorganisms 9:1912

  • Nagashima S, You XD, Uzuhashi S, Tojo M*. (2021) Stem and root rot in hydrangea caused by Pythium myriotylum and Globisporangium spp. and susceptibility of hydrangea cultivars. Journal of General Plant Pathology 87: 148–153

  • Hirawake T*, Uchida M, Abe H, Alabia ID, Hoshino T, Masumoto S, Mori A, Nishioka J, Bungo Nishizawa B, Ooki A, Takahashi A, Tanabe Y, Tojo M, Tsuji M, Ueno H, Waga H, Watanabe Y, Yamaguchi A, Yamashita Y. (2021) Response of biodiversity and ecosystem to environmental changes: Findings from the ArCS project. Polar Science 27: doi.org/10.1016/j.polar.2020.100533 100533

  • Hoshino T*, Nakagawa T, Yajima Y, Uchida M, Tojo M. (2021) Note on a snow mold and a fungus-like microbe from Kuujjuarapik-Whapmagoostui, Quebec, subarctic Canada. Polar Science 27: doi.org/10.1016/j.polar.2020.100559

  • Shimizu S, Tojo M*. (2021) First Report of Pythium Cluster B2a Species Causing Root Rot in Welsh Onion. Plant Disease doi.org/10.1094/PDIS-06-21-1211-PDN

  • Nagashima S, Tojo M*. (2021) Relationship between plant growth stage and disease severity in stem and root rot of hydrangeas. 関西病虫研報 63: 85-87

  • Nagashima S, Tsukamoto T, Fujihara S, Kako T, Nakahama H, Hirasa T, Tojo M*. (2021) First report of flower bud rot of hydrangeas caused by Botrytis cinerea in Japan. 関西病虫研報 63: 81-84

[総説・解説・その他]

2020年

[学術論文]

  • You XD, Tojo M*. (2021) Temperature dependency of Pythium and Globisporangium spp. in causing soybean damping-off in Japan. 関西病虫研報 62: 5-8

  • Shimizu S, Uzuhashi S, Nishimura S, Mise R, Shinozaki T, Tojo M*. (2020) Morphological and molecular identification of Pythium aphanidermatum isolates from a root-rotted hydroponic spinach culture in Hiroshima Prefecture. 関西病虫研報 62: 137-139

  • Nagashima S, Tsukamoto T, Isota J, Kako T, Tojo M*. (2020) Control effects of metalaxyl-M and azoxystrobin on stem and root rot pathogens of Hydrangea macrophylla. 関西病虫研報 62: 153-156

  • Nishimura S, Kusakari S, Tojo M*. (2020) Effects of fungicides and antifungal agents on Olpidium root rot of spinach in a hydroponic culture. 関西病虫研報 62: 157-159

  • Tani S*, Nishio N, Kai K, Hagiwara D, Ogata Y, Tojo M, Sumitani JI, Judelson HS, Kawaguchi T.  (2020) Chemical genetic approach using β-rubromycin reveals that a RIO kinase-like protein is involved in morphological development in Phytophthora infestans. Scientific Reports 10: 22326

[総説・解説・その他]

  • 望月知史 (2020) 卵菌ウイルスを用いたピシウム菌の生態調査の可能性. 土と微生物 74: 45-49

  • 尤 暁東東條元昭 (2020) モウソウチク由来ミミズ堆肥中の土壌微生物と植物病害発病抑制効果. 土と微生物 74: 50-53

  • 東條元昭 (2020) 温暖化が進行する北極域での土壌糸状菌の種類と動態. 土と微生物 74: 60-65

  • 望月知史 (2020) 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-(ショートレビュー 農薬科学とその周辺-最近の話題-). 日本農薬学会誌 45: 7-8

2019年

[学術論文]

  • You XD*, Kimura N, Okura T, Murakami S, Okano R, Shimogami Y, Matsumura A, Tokumoto H, Ogata Y, Tojo M. (2019) Suppressive effects of vermicomposted-bamboo powder on cucumber damping-off. Japan Agricultural Research Quarterly (JARQ) 53: 13-18

  • You XD*, Wakana D, Ishikawa K, Hosoe T, Tojo M. (2019) Antifungal activity of compounds isolated from bamboo vermicompost against Rhizoctonia solani AG1-IB. Advances in Microbiology 9: 957-970

  • Ebata M, Matsushita Y, Morimoto M, Mochizuki T*. (2019) Distribution of chrysanthemum chlorotic mottle viroid in shoot meristem and flower buds of chrysanthemum. European Journal of Plant Pathology 154: 555–563

  • Shiba K1, Hatta C1 (equal contribution), Sasai S, Tojo M, Ohki ST, Mochizuki T*. (2019) A novel toti-like virus from a plant pathogenic oomycete Globisporangium splendens. Virology 537: 165-171

  • You XD, Barraud J, Tojo M*. (2019) Suppressive effects of Pythium oligandrum on soybean damping off caused by P. aphanidermatum and P. myriotylum. 関西病虫研報 61: 9-13

  • You XD, Zhao H, Tojo M*. (2019) First Report of Pythium irregulare causing damping-off on soybean in Japan. Plant Disease (https://doi.org/10.1094/PDIS-12-18-2247-PDN)

  • Mishiba K-I*, Iwata Y, Mochizuki T, Matsumura A, Nishioka N, Hirata R, Koizumi N. (2019) Unfolded protein-independent IRE1 activation contributes to multifaceted developmental processes in Arabidopsis. Life Science Alliance 2: e201900459

  • Tanase K*, Matsushita Y, Mochizuki T. (2019) Silencing of the chalcone synthase gene by a virus vector derived from the Cucumber mosaic virus in petunia. The Horticulture Journal 88: 507-513

  • Uzuhashi S*, Ikeda H, Kamekawa A, Radmer LE, Kobayashi-Yamazaki S, Kuroda K, Funakubo T, Ichikawa K, Tojo M. (2019) Presence of two species-level groups in Globisporangium splendens isolates in Japan. European Journal of Plant Pathology 154: 751–766

  • Aono K, Azuma Y*, Nabetani T, Hatoya S, Furuya M, Miki M, Hirota K, Fujimoto Y, Nishiyama K, Ogata Y, Mochizuki T, Tani H*. (2019) Correlation between toll-like receptor 4 and nucleotide-binding oligomerization domain 2 (NOD2) and pathological severity in dogs with chronic gastrointestinal diseases. Veterinary Immunology and Immunopathology 210: 15-22

  • Ishikawa K, Takahashi K*, Hosoi S, Takeda H, Yoshida H, Wakana D, Tsubuki M, Sato F, Tojo M, Hosoe T*. (2019) Antimicrobial agent isolated from Coptidis rhizome extract incubated with Rhodococcus sp. strain BD7100. The Journal of antibiotics 72: 71–78

[総説・解説・その他]

  • Tojo M. (2019) Oomycetes in Polar Regions. In Fungi in Polar Regions. (edited by Tsuji M, Hoshino T) pp. 83-91

  • Hoshino T, Morita H, Yajima Y, Tsuji M, Tojo M, Tkacehnko OB. (2019) Snow Molds and Their Antagonistic Microbes in Polar Regions. In Fungi in Polar Regions. (edited by Tsuji M, Hoshino T) pp. 33-43

2018年

[学術論文]

  • Mochizuki T*, Ohara R, Roossinck MJ. (2018) Large-scale synonymous substitutions in the cucumber mosaic virus RNA 3 facilitate amino acid mutations in the coat protein. Journal of Virology 92: e01007-18

  • Sasai S, Tamura KTojo M, Herrero M-L, Hoshino T, Ohki ST, Mochizuki T*. (2018) A novel non-segmented double-stranded RNA virus from an Arctic isolate of Pythium polare. Virology 522: 234-243

  • You XD, Tojo M, Ching S, Wang K-H*. (2018) Effects of vermicompost water extract prepared from bamboo and kudzu against Meloidogyne incognita and Rotylenchulus reniformisJournal of Nematology 50: 569-578

  • Shiba K, Hatta C, Sasai S, Tojo M, Ohki ST, Mochizuki T*. (2018) Genome sequence of a novel partitivirus identified from the oomycete Pythium nunn. Archives of Virology 163: 2561–2563

  • Masumoto S*, Tojo M, Imura S, Herrero ML, Uchida M. (2018) Occurrence pattern of the parasitic fungus Rhytisma polare (Ascomycota) on the polar willow (Salix polaris) under limited water conditions in a high-Arctic semi-desert. Polar Biology 41: 1105–1110

  • Masumoto S*, Uchida M, Tojo M, Herrero ML, Mori AS, Imura S. (2018) The effect of tar spot pathogen on host plant carbon balance and its possible consequences on a tundra ecosystem. Oecologia 86: 843–853

  • Hirayama Y*, Asano S, Ohki ST, Tojo M. (2018) Weeds as the potential inoculum source of Colletotrichum fructicola responsible for strawberry anthracnose in Nara, Japan. Journal of General Plant Pathology 84: 12–19

2017年

[学術論文]

  • Mochizuki T*, Iwamoto I, Atarashi A, Ohki ST, Kikukawa H. (2017) Rapid and low-cost diagnosis of Japanese yam mosaic virus infection in Chinese yam (Dioscorea polystachya) leaves by a print-capture RT-PCR. Journal of General Plant Pathology 83: 189–196

  • Bhor SA, Tateda C, Mochizuki T, Sekine K-T, Yaeno T, Yamaoka N, Nishiguchi M, Kobayashi K*. (2017) Inducible transgenic tobacco system to study the mechanisms underlying chlorosis mediated by the silencing of chloroplast heat shock protein 90. VirusDisease 28: 81-92

  • Bhor SA, Tateda C, Mochizuki T, Sekine K-T, Yaeno T, Yamaoka N, Nishiguchi M, Kobayashi K*. (2017) Inducible expression of magnesium protoporphyrin chelatase subunit I (CHLI)-amiRNA provides insights into cucumber mosaic virus Y satellite RNA-induced chlorosis symptoms. VirusDisease 28: 69-80

  • Uzuhashi S*, Hata K, Matsuura S, Tojo M. (2017) Globisporangium oryzicola sp. nov., causing poor seedling establishment of directly seeded rice. Antonie van Leeuwenhoek 110: 543–552

  • Itagaki K, Sato Y, Tojo M*. (2017) Resistance levels of cucumber to Podosphaera xanthii in a growth chamber are related to haustorial formation and hyphal branching frequency. Journal of General Plant Pathology 83: 310–315

  • Yajima Y, Tojo M, Chen B, Hoshino T*. (2017) Typhula cf. subvariabilis, new snow mould in Antarctica. Mycology 8: 147-152

2016年

[学術論文]

  • Hirayama Y, Asano S, Watanabe K, Sakamoto Y, Ozaki M, Okayama K, Ohki STTojo M*. (2016) Effects of ozonated-water foliar spray on Colletotrichum fructicola on strawberry. International Journal of Agriculture and Crop Sciences  9: 61-65

  • Mochizuki T, Nobuhara S, Nishimura M, Ryang B-SNaoe M, Matsumoto T, Kosaka Y, Ohki ST*. (2016) The entry of cucumber mosaic virus into cucumber xylem is facilitated by co-infection with zucchini yellow mosaic virus. Archives of Virology 161: 2683-2692

  • Kamo M, Tojo M, Yamazaki Y, Itabashi T, Takeda H, Wakana D, Hosoe T*. (2016) Isolation of growth inhibitors of the snow rot pathogen Pythium iwayamai from an arctic strain of Trichoderma polysporum. Journal of Antibiotics doi: 10.1038/ja.2015.130

  • Ueta S, Tojo M*. (2016) Pythium barbulae sp. nov. isolated from the moss, Barbula unguiculata; morphology, molecular phylogeny and pathogenicity. Mycoscience 57: 11-19

  • Bouket AC*, Arzanlou M, Babai-Ahari A, Tojo M (2016) Morphological and molecular characterization of Phytopythium litorale and Pp. oedochilum from Iran. Nova Hedwigia 102: 257-270

  • Itagaki K, Shibuya T*, Tojo M, Endo R, Kitaya Y. (2016) Early development of powdery mildew on cucumber leaves acclimatized to illumination with different red-to-far-red ratios. HortScience 51: 530-536

  • Hirayama Y*, Asano S, Watanabe K, Sakamoto Y, Ozaki M, Okayama K, Ohki ST, Tojo M. (2016) Control of Colletotrichum fructicola on strawberry with a foliar spray of neutral electrolyzed water through an overhead irrigation system. Journal of General Plant Pathology 82: 186-189

[著書]

  • 大木 理 著「微生物学」東京化学同人

[総説・解説・その他]

  • 望月知史(2016)植物がウイルス感染によって発症するしくみ. 植物防疫 70:

2015年

[学術論文]

  • Hirayama Y*, Asano S, Kubota M, Tojo M, Ohki ST. (2015) A practical method for forecasting strawberry anthracnose caused by Glomerella cingulata. 関西病虫研報  57: 25-39

  • Mochizuki T*, Ohki ST. (2015) Low pH soil inhibits transmission of Melon necrotic spot virus by its fungal vector Olpidium bornovanus. 関西病虫研報  57: 77-79

  • Murakami R, Yajima Y, Kida K, Tokura K, Tojo M, Hoshino T*. (2015) Surviving freezing in plant tissues by oomycetous snow molds. Cryobiology 70: 208–210

  • Masumoto S*, Tojo M, Uchida M, Imura S. (2015) Morphological and molecular characterization of Rhytisma filamentosum sp. nov. from Nagano Prefecture. Japan. Mycological Progress 14: 44

  • Itagaki K, Shibuya T*, Tojo M, Endo R, Kitaya Y. (2015) Development of powdery mildew fungus on cucumber leaves acclimatized to different CO2 concentrations. Hort Science 50: 1662-1665

  • Bouket AC*, Arzanlou M, Tojo M, Babai-Ahari A. (2015) Pythium kandovanense sp. nov., a fungus-like eukaryotic micro-organism (Stramenopila, Pythiales) isolated from snow-covered ryegrass leaves. Int J Syst Evol Microbiol. 65: 2500-2506

  • Bouket AC*, Arzanlou M, Tojo M, Babai-Ahari A. (2015) A web-based identification programme for Pythium species. Archives of Phytopathology and Plant Protection 48: 475-484

  • You XD, Park JE, Takase M, Wada T, Tojo M*. (2015) First report of Pythium aphanidermatum causing root rot on common ice plant (Mesembryanthemum crystallinum). New Disease Reports 32: 36

[著書]

  • 大木 理,日比忠明 監修「植物ウイルス大事典」朝倉書店

[総説・解説・その他]

  • Mochizuki T*, Ohki ST. (2015) Detection of plant virus in meristem by immunohistochemistry and in situ hybridization. Methods in Molecular Biology 1236: 275-287

[研究会レポート]

  • 望月知史(2015)高校生の「山の芋」フリー化検定への協力.生態と防除研究会(植物病害カンファレンス) ニュースレター 8: 4-5 (リンク

2014年

[学術論文]

  • Waliullah S, Mochizuki T, Sekine K-T, Atsumi G, Ali E, Yaeno T, Yamaoka N, Nishiguchi M, Kobayashi K*. (2014) Artificial induction of a plant virus protein in transgenic tobacco provides a synchronous system for analyzing the process of leaf chlorosis. Physiological and Molecular Plant Pathology 88: 43-51.

  • Kawamura R, Shimura H, Mochizuki T, Ohki ST, Masuta C*. (2014) Pollen transmission of Asparagus virus 2 (AV-2) may facilitate mixed infection by two AV-2 isolates in asparagus plants. Phytopathology 104: 1001-1006.

  • Mochizuki T*, Yamazaki R, Wada T, Ohki ST. (2014) 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. Virology 456: 292-299.

  • Mochizuki T*, Ogata Y, Hirata Y, Ohki ST. (2014) Quantitative transcriptional changes associated with chlorosis severity in mosaic leaves of tobacco plants infected with the Cucumber mosaic virus. Molecular Plant Pathology 15: 242-254.

  • Masumoto S*, Tojo M, Uchida M, Imura S. (2014) Rhytisma polaris: morphological and molecular characterization of a new species from Spitsbergen Island, Norway. Mycological Progress 13: 181-188.

  • Itagaki K, Shibuya T*, Tojo M, Endo R, Kitaya Y. (2014) Atmospheric moisture influences on conidia development in Podosphaera xanthii through host-plant morphological responses. European Journal of Plant Pathology 138: 113-121.

  • 深見正信*,國友映理子,望月知史(2014)プリントキャプチャーRT-PCRによるキク茎えそウイルス(CSNV)の検出.関東東山病害虫研究会報 61: 78-81.

[総説・解説・その他]

  • Mochizuki T*. (2014) Molecular biological and histochemical studies on the mechanism of symptom expression upon plant viral infection. Journal of General Plant Pathology 80: 525–526.

2013年

[学術論文]

  • Usami A, Mochizuki T*, Tsuda S, Ohki ST. (2013) Large-scale codon de-optimisation of p29 replicase gene by synonymous substitutions causes loss of infectivity of melon necrotic spot virus. Archives of Virology 158:1979-1985

  • Tojo M*, Matsuura S, Takase M, Radmer LE. (2013) Morphological and molecular identification of Pythium aphanidermatum causing root rot of tomato in a hydroponic substrate culture in the south western region of Japan. 関西病虫研報  55: 57-58

  • Kato M*, Minamida K, Tojo M, Kokuryu T, Hamaguchi H, Shimada S. (2013) Association ofPythium and Phytophthora with pre-emergence seedling damping-off of soybean grown in a field converted from a paddy field in Japan. Plant Production Science 16: 95-104

[総説・解説・その他]

  • Tojo M*, Masumoto S, Hoshino T. (2013) "Phytopathogenic Fungi and Fungal-Like Microbes in Svalbard" in Plant and Microbe Adaptations to Cold in a Changing World (Editors: Imai R, Yoshida M, Matsumoto N.) pp 263-284

[研究会レポート]

  • 望月知史(2013)CMVによるモザイク病徴の発現メカニズム.植物ウイルス病研究会レポート 11: 22-28

  • 大木 理(2013)ICTV第9次報告書での植物ウイルスの分類.植物ウイルス病研究会レポート 11: 41-46

2012年

[学術論文]

  • Oka K, Mochizuki T*, Ohki ST. (2012) Detection of carrot red leaf virus-RNA in carrot seeds by multiplex RT-nested PCR. Journal of General Plant Pathology 78: 2-7

  • Mochizuki T, Hojo-Kanda A (equal contribution), Ohki T, Kawabe M, Tsuda S*. (2012) Comparisons of ribosomal DNA-internal transcribed spacer sequences and biological features among Olpidium bornovanus isolates from Cucurbitaceae-cultivating soil in Japan. Journal of General Plant Pathology 78: 49-53

  • Tojo M*, Van West P, Hoshino T, Kida K, Fujii H, Hakoda A, Kawaguchi Y, Mühlhauser HA, Van Den Berg AH, Küpper FC, Herrero ML, Klemsdal SS, Tronsmo AM, Kanda H. (2012) Pythium polare, a new heterothallic oomycete causing brown discolouration of Sanionia uncinata in the Arctic and Antarctic. Fungal Biology 116: 756-768

  • 松浦 昌平*, 竹本 一恵, 東條 元昭, 山内 稔 (2012) 水稲の鉄コーティング湛水直播におけるPythium arrhenomanesによる苗立ち不良.日本植物病理学会報 78: 301-304.

[総説・解説・その他]

  • Mochizuki T*, Ohki ST. (2012) Cucumber mosaic virus: viral genes as virulence determinants. Molecular Plant Pathology 13: 217-225

  • Tojo M*, Newsham KK. (2012) Snow moulds in polar environments. Fungal Ecology 5: 395-402

  • 望月知史*,岡 久美子,岡村有佳子大木 理(2012)RT-nested PCR法によるニンジン種子からのニンジン黄化ウイルス核酸の検出 . 植物防疫 66: 432-436

2011年

[学術論文]

  • Mochizuki T*, Ohki ST. (2011) Single amino acid substitutions at residue 129 in the coat protein of Cucumber mosaic virus affect symptom expression and thylakoid structure. Archives of Virology 165: 881-886

  • Sunpapao A, Mochizuki T*, Ohki ST. (2011) 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. Australasian Plant Pathology 40: 215-221

  • Ueda M*, Yamashita T, Nakazawa M, Miyatake K, Ohki ST, Sakaguchi M, Inouye K. (2011) Purification and characterization of a new serine protease (EF-SP2) with anti-plant viral activity from Eisenia foetida: Analysis of anti-plant viral activity of EF-SP2. Process Biochemistry 46: 1711-1716

  • Shibuya T*, Itagaki K, Tojo M, Endo R, Kitaya Y. (2011) Fluorescent illumination with high red-to-far-red ratio improves resistance of cucumber seedlings to powdery mildew. HortScience 46: 1-3.

  • Yamazaki Y, Tojo M*, Hoshino T, Kida K, Sakamoto T, Ihara H, Yumoto I, Tronsmo AM, Kanda H. (2011) Characterization of Trichoderma polysporum from Spitsbergen, Svalbard archipelago, Norway, on species identity, infectivity to moss, and polygalacturonase activity. Fungal Ecology 4: 15-21.

[総説・解説・その他]

  • 東條元昭 (2011)ピシウム菌の病原菌としての特徴(総論). 植物防疫 65: 71-76

  • 東條元昭 (2011)ピシウム菌の分離のコツ. 植物防疫 65: 107-108

2010年

[学術論文]

  • Xiao N, Inaba S, Tojo M, Degawa Y, Fujiu S, Hanada Y, Kudoh S, Hoshino T*. (2010) Antifreeze activities of various fungi and Stramenopila isolated from Antarctica. North American Fungi 5: 215-220.

  • Matsuura K, Kanto T, Tojo M*, Uzuhashi S, Kakishima M (2010) Pythium wilt of lettuce caused by Pythium uncinulatum in Japan. Journal of General Plant Pathology 76: 320-323

  • Kobayashi S, Uzuhashi S, Tojo M*, Kakishima M (2010) Characterization of Pythium nunnnewly recorded in Japan on antagonistic activity against P. ultimum var. ultimum. Journal of General Plant Pathology 76: 278-283

  • Uzuhashi S*, Tojo M, Kakishima M. (2010) Phylogeny of the genus Pythium and description of new genera. Mycoscience 51: 337-365

  • Kurokawa K, Tojo M*. (2010) First record of Pythium grandisporangium in Japan. Mycoscience 51: 321-324

  • Miura M, Hatai K, Tojo M, Wada S, Kobayashi S, Okazaki T. (2010) Visceral mycosis in ayu Plecoglossus altivelis larvae caused by Pythium flevoense. Fish Pathology 45: 24-30

  • Hoshino T*, Terami F, Tkachenko OB, Tojo M, Matsumoto N. (2010) Mycelial growth of the snow mold fungus, Sclerotinia borealis, improved at low water potentials: an adaption to frozen environment. Mycoscience 51:98-103

  • Dong F, Mochizuki T*, and Ohki ST. (2010) Tobacco ringspot virus persists in the shoot apical meristem but not in the root apical meristem of infected tobacco. European Journal of Plant Pathology 126: 117-122

  • Ohki T*, Akita F, Mochizuki T, Kanda A, Sasaya T, Tsuda S. (2010) 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. Virology 402:129-134

[総説・解説]

  • 東條元昭(2010)水耕病害の予防と対策.ハイドロポニックス 24:

  • 東條元昭・中山(山田)佳代子・三村(小堀)浩子(2010)緑肥導入と土壌病原菌の動態.農業及び園芸 85: 183-189

  • 望月知史(2010)メロンえそ斑点ウイルスのえそ病徴決定因子の特定と発病機構-基礎研究からみえたウイルス弱毒化の障壁- . 植物防疫 64:24−27

[研究会レポート]

  • 望月知史・平井克之・神田絢美・大西 純・大木健広・津田新哉(2010)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.植物ウイルス病研究会レポート 10

2009年

[学術論文]

  • Sunpapao A, Nakai T, Dong F, Mochizuki T*, Ohki ST. (2009) The 2b protein of Cucumber mosaic virus is essential for viral infection of the shoot apical meristem and for efficient invasion of leaf primordia in infected tobacco plants. Journal of General Virology 90: 3015-3021

  • Mochizuki T, Hirai K, Kanda A, Ohnishi J, Ohki T, Tsuda S*. (2009) Induction of necrosis via mitochondrial targeting of Melon necrotic spot virus replication protein p29 by its second transmembrane domain. Virology 390: 239-249

  • Masumoto S, Shigyo T, Tojo M*. (2009) Pythium snow blight of Kentucky bluegrass turf in a golf course in Hokkaido, Japan. Journal of Japanese Society of Turfgrass Science 38: 33-36

  • Uzuhashi S*, Tojo M, Kobayashi S, Kakishima M. (2009) Pythium apinafurcum sp. nov. : its morphology, molecular phylogeny, and infectivity for plants. Mycoscience 50: 281–290

[著書]

  • 大木 理 著「植物ウイルスの同定の基礎」日本植物防疫協会

  • 大木 理 第3章-4執筆「植物病理学」難波成任ら編 文永堂

[総説・解説・その他]

  • 東條元昭(2009)ノリの病気 アカグサレ菌の分類.海洋と生物 31: 611-613

  • 東條元昭(2009)ノリアカグサレ菌の分類学的研究.日本水産学会誌 75: 910-911

2008年

[学術論文]

  • Ueda M*, Noda K, Nakazawa M, Miyatake K, Ohki ST, Sakaguchi M, Inouye K. (2008) A novel anti-plant viral protein from coelomic fluid of the earthworm Eisenia foetida: Purification, characterization and its identification as a serine protease. Comparative Biochemistry and Physiology - Part B: Biochemistry and Molecular Biology 151: 381-385

  • Kirino M, Inoue K, Tanina K, Yamazaki Y, Ohki ST* (2008) Turnip yellow mosaic virus isolated from Chinese cabbage in Japan. Journal of General Plant Pathology 74: 331-334

  • Uzuhashi S, Tojo M, Kobayashi S, Tokura K, Kakishima M. (2008) First records of Pythium aquatile and P. macrosporum isolated from soils in Japan. Mycoscience 49: 276–279

  • Takenaka S*, Sekiguchi H, Nakaho K, Tojo M, Masunaka A, Takahashi H. (2008) Colonization of Pythium oligandrum in the tomato rhizosphere for biocontrol of bacterial wilt disease analyzed by real-time PCR and confocal laser scanning microscopy. Phytopathology 98: 187-195

  • Mochizuki T, Ohnishi J, Ohki T, Kanda A, Tsuda S*. (2008) Amino acid substitution in the coat protein of Melon necrotic spot virus causes loss of binding to the surface of Olpidium bornovanus zoospores. Journal of General Plant Pathology 74: 176-181

  • Hirai K, Kubota K, Mochizuki T, Tsuda S, Meshi T*. (2008) Antiviral RNA silencing is restricted to the marginal region of the dark green tissue in the mosaic leaves of tomato mosaic virus-infected tobacco plants. Journal of Virology 82: 3250-3260

  • Ohki T*, Sako I, Kanda A, Mochizuki T, Honda Y, Tsuda S. (2008). A new strain of Melon necrotic spot virus that is unable to systemically infect Cucumis melo. Phytopathology 98: 1165-1170

  • Kido K, Tanaka C, Mochizuki T, Kubota K., Ohki T, Ohnishi J, Knight LM, Tsuda S*. (2008). High temperatures activate local viral multiplication and cell-to-cell movement of Melon necrotic spot virus, but restrict expression of systemic symptoms. Phytopathology 98: 181-186

  • Kido K, Mochizuki T  (equal contribution), Matsuo K, Tanaka C, Kubota K, Ohki T, Tsuda S*. (2008). Functional degeneration of the resistance gene nsv against Melon necrotic spot virus at low temperature. European Journal of Plant Pathology 121: 189-194

[総説・解説・その他]

  • 東條元昭(2008)英国観測基地での日々―南極にカビを求めて―.極地 44: 68-75

  • 東條元昭(2008)フルアジナムとミコナゾールを用いたピシウム菌選択培地の作製と病害診断への応用. 植物防疫 62: 161-163.

[研究会レポート]

  • 望月知史・平井克之・神田絢美・大西 純・大木健広・津田新哉(2010)メロンえそ斑点ウイルスによる「えそ」の誘起機構.植物感染生理談話会論文集 44: 103-110

2007年

[学術論文]

  • Yaegashi H, Takahashi T, Isogai M, Kobori T, Ohki ST, Yoshikawa N*. (2007) Apple chlorotic leaf spot virus 50 kDa movement protein acts as a suppressor of systemic silencing without interfering with local silencing in Nicotiana benthamiana. Journal of General Virology 88: 316-324

  • Yaegashi H, Yamatsuta T, Takahashi T, Li C, Isogai M, Kobori T, Ohki ST, Yoshikawa N*. (2007) Characterization of virus-induced gene silencing in tobacco plants infected withApple latent spherical virus. Archives of Virology 152: 1839-1849

  • Kida, K, Tojo M*, Yano K, Kotani S. (2007) First report of Pythium ultimum var. ultimum causing damping off on okra in Japan. Plant Pathology 56: 1042

  • Aoki K, Tojo M, Watanabe K, Uzuhashi S, Kakishima M*. (2007) Cottony leak of scarlet runner bean caused by Pythium aphanidermatum. Journal of General Plant Pathology 73: 408-410

  • Tojo M*, Watanabe K, Kida K, Li Y, Numata S. (2007) Mottle necrosis of sweet potato caused by Pythium scleroteichum in Japan and varietal difference in susceptibility to the disease. Journal of General Plant Pathology 73: 121-124

  • Hoshino T*, Tojo M, Yumoto I. (2007) Blight of moss caused by Pythium sp. in Greenland. Meddelelser on Groenland, Serie: Biocience 56: 95-98

  • 守川俊幸*・堀井香織・望月知史・大木健広・津田新哉・向井環 (2007) 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.北陸病虫研報 56: 37-40

[著書]

  • 大木 理 著「植物病理学」東京化学同人

[研究会レポート]

  • 望月知史・津田新哉(2007)メロンえそ斑点ウイルスの媒介菌Olpidium bornovanus遊走子体表面における局在性とウイルス外被タンパク質の役割.植物防疫 61: 38-42.