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三重大学トップページへ

三重大学教員紹介

教員情報

職名
教授
氏名
たかまつすすむ
高松  進
生年月
1953.01
所属
部局
生物資源学研究科
学科・専攻
資源循環学専攻
講座
農業生物学
教育研究分野
植物医科学
TEL
059-231-9497
FAX
059-231-9634
E-mail
takamatu@bio. (末尾に mie-u.ac.jp を補ってください)
個人のホームページ
 
学歴
新潟大学農学部 学士課程 (~1975年)
三重大学大学院農学研究科 修士課程・博士前期課程 (~1978年) 卒業・修了
学位
1988.03 農学博士 大阪府立大学
所属学会
日本菌学会 日本植物病理学会 米国菌学会 関西植物病虫害研究会
社会活動
2004.4〜2006.3 関西病害虫研究会会長
2006.9〜2010.8 International Mycological Association (IMA) Vice President
2009.4〜2011.3 日本菌学会会長
職歴
1978.04~1993.09 福井県農業試験場 技師
1993.10~2000.09 三重大学生物資源学部 教官 助教授
2000.10~2006.03 三重大学生物資源学部 教官 教授
2006.04~ 三重大学大学院生物資源学研究科 教官 教授
学術(芸術)賞
Honorary Member, Mycological Society of America (米国菌学会名誉会員 2011)
日本菌学会学会賞 (2012)
専門分野
菌学 植物病理学 分子系統進化学
現在の研究課題
植物寄生菌とくにうどんこ病菌の進化生物学
担当科目
DNAから生物進化を考える 植物感染学 植物感染学演習 植物感染学特論 植物病害制御学 卒業研究
主な業績等
【著  書】
●「菌類の生物学」(日本菌学会企画,柿嶌 眞・徳増征二編),共立出版(共著)2014.
●「菌類の事典」(日本菌学会編),朝倉書店(共著)2013.
●「シリーズ現代の生態学11 微生物の生態学」(日本生態学会編),共立出版(共著)2011.
●「Biodiversity of the powdery mildew fungi (Erysiphales, Ascomycota) of Israel」 A.R.A. Gantner Verlag K.-G., Riggell (共著)2009.
●「Plant Genome: Biodiversity and Evolution, Vol. 2, Part A Lower Groups」 (eds. A.K. Sharma & A. Sharma), Science Publishers, Enfield, NH, USA(共著)2004.
●「土壌微生物生態学」 (堀越孝雄・二井一禎編), 朝倉書店(共著)2003.
●「Low Temperature Plant-Microbe Interactions Under Snow」 (eds. N. Iriki, D. A. Gaudet, A. M. Tronsmo, N. Matsumoto, M. Yoshida & A. Nishimune), Hokkaido National Agricultural Experiment Station, Sapporo, Japan(共著)2001.
●「Applications of PCR in Mycology」 (P. D. Bridge et al., ed.), CAB international, Wallingford, UK(共著)1998.
【原著論文および総説】
●Takamatsu S, Shiroya Y, Seko Y, 2016. Geographical and spatial distributions of two Erysiphe species occurring on lilacs (Syringa spp.). Mycoscience 57; http://dx.doi.org/10.1016/j.myc.2016.06.002.
●Siahaan SAS, Hidayat I, Kramadibrata K, Meeboon J, Takamatsu S, 2016. Bauhinia purpurea, Durio zibethinus, and Nephelium lappaceum: additional hosts of the asexual morph of Erysiphe quercicola. Mycoscience 57; http://dx.doi.org/10.1016/j.myc.2016.06.001.
●Khodaparast SA, Takamatsu S, Shadlou A, Damadi M, Pirnia M, Jahani M, 2016. Notes on the genus Leveillula (Erysiphaceae): a new unrecorded species and notes on Leveillula infecting Ficus, Cucurbita and Tropaeolum in Iran. Phytotaxa 260(3): 267–275.
●Scholler M, Schmidt A, Siahaan SAS, Takamatsu S, Braun U, 2016. A taxonomic and phylogenetic study of the Golovinomyces biocellatus complex (Erysiphales, Ascomycota) using anamorph morphology and rDNA sequence data. Mycological Progress 15; http://dx.doi.org/10.1007/s11557-016-1197-5.
●Takamatsu S, Siahaan SAS, Moreno-Rico O, Cabrera de Álvarez MG, Braun U, 2016. Early evolution of endoparasitic group in powdery mildews: molecular phylogeny suggests missing link between Phyllactinia and Leveillula. Mycologia 108; http://dx.doi.org/10.3852/16-010.
●Siahaan SAS, Takamatsu S, 2016. Erysiphe aucubae sp. nov., a new powdery mildew species on Aucuba japonica from Japan. Mycoscience 57(4): 251–254
●Siahaan SAS, Hidayat I, Kramadibrata K, Meeboon J, Takamatsu S, 2015. Erysiphe baliensis and E. sidae, two new species of anamorphic Erysiphe (powdery mildew) from Indonesia. Mycoscience; http://dx.doi.org/10.1016/j.myc.2015.08.001.
●Meeboon J, Siahaan SAS, Takamatsu S, 2015. Notes on powdery mildews (Erysiphales) in Japan: IV. Phyllactinia, Parauncinula and Sawadaea. Mycoscience 56(6): 590-596.
●Takamatsu S, Ito H, Shiroya Y, Kiss L, Heluta V, 2015. First comprehensive phylogenetic analysis of the genus Erysiphe (Erysiphales, Erysiphaceae), II. The Uncinula-lineage. Mycologia 107(5): 903–914.
●Siahaan SAS, Hidayat I, Kramadibrata K, Meeboon J, Takamatsu S, 2015. Phyllactinia poinsettiae sp. nov.: a new species of powdery mildew on poinsettia from Indonesia. Mycoscience 56(6): 580-583.
●Takamatsu S, Siahaan SAS, Shinoda T, 2015. Erysiphe kissiana sp. nov.: first finding of sect. Californiomyces in Japan. Mycoscience 56(5): 512-515.
●Takamatsu S, Ito H, Shiroya Y, Kiss L, Heluta V, 2015. First comprehensive phylogenetic analysis of the genus Erysiphe (Erysiphales, Erysiphaceae) I. The Microsphaera lineage. Mycologia 107(3): 475-489.
●Meeboon J, Takamatsu S, 2015. Notes on powdery mildews (Erysiphales) in Japan: III. Golovinomyces and Podosphaera. Mycoscience 56(2): 243-251.
●Meeboon J, Takamatsu S, 2015. Notes on powdery mildews (Erysiphales) in Japan: I. Erysiphe sect. Erysiphe. Mycoscience 56(2): 257-266.
●Jiang W, Liu S, An B, Wang L, Li Y, Takamatsu S, Braun U, 2015. Chasmothecia of Erysiphe macleayae on Chelidonium majus confirm species identification. Mycoscience 56: 132-135.
●Meeboon J, Takamatsu S, 2015. Erysiphe viburni-plicati and Podosphaera photiniae, two new species of Erysiphales (Ascomycota) from Japan. Mycoscience 56: 14-23.
●Meeboon J, Takamatsu S, 2015. Notes on powdery mildews (Erysiphales) in Japan: II. Erysiphe sect. Microsphaera. Mycoscience 56: 230-236.
●Meeboon J, Takamatsu S, 2015. Erysiphe takamatsui, a powdery mildew of lotus: rediscovery of teleomorph after 40 years, morphology and phylogeny. Mycoscience 56: 159-167.
●高松 進, 2014. 分子系統解析によって明らかになったウドンコカビ(子のう菌門,ウドンコカビ目)表現形質の進化. 日本植物病理学会報 80特集号: 24-31.
●Cho SE, Takamatsu S, Meeboon J, Shin HD, 2014. Erysiphe magnoliicola, a new powdery mildew on Magnolia. Mycotaxon 129: 153-161.
●Hidayat I, Meeboon J, Takamatsu S, 2014. First report of Pseudoidium aff. neolycopersici in Indonesia. Australasian Plant Disease Notes 9(1): 1-3.
●Nilsson RH, Hyde KD, Pawlowska J, et al. 2014. Improving ITS sequence data for identification of plant pathogenic fungi. Fungal Diversity 67: 11-19.
●Shimono Y, Hiroi M, Takamatsu S, 2014. The phylogeny of Russula section Compactae inferred from the nucleotide sequences of the rDNA large subunit and ITS regions. Bulletin of the Graduate School of Bioresources, Mie University 40: 65-75.
●高松 進・吉村智也, 2014. 皇居吹上御苑のウドンコカビとその宿主植物の調査. 国立科学博物館専報 (49): 127-134.
●Baiswar P, Ngachan SV, Braun U, Takamatsu S, Chandra S, Harada M, 2013. Molecular characterization of Oidium sp. on Solanum betaceum in India. Environment & Ecology 31(3): 1364-1367.
●Baiswar P, Takamatsu S, Ngachan SV, Chandra S, Harada M, 2013. Molecular and morphological characterization of three Oidium spp. on Ocimum basilicum, Brassica pekinensis and Crotalaria sp. from India. Environment & Ecology 31(3A): 1480-1485.
●Monkhung S, Takamatsu S, To-anun C, 2013. Molecular and morphological characterization of Phyllactinia cassiae-fistulae (Erysiphaceae; Ascomycota) from Thailand. African Journal of Biotechnology 12(2): 109-114.
●Takamatsu S, Matsuda S, Grigaliunaite B, 2013. Comprehensive phylogenetic analysis of the genus Golovinomyces (Ascomycota: Erysiphales) reveals close evolutionary relationships with its host plants. Mycologia 105(5): 1135-1152.
●Takamatsu S, 2013. Molecular phylogeny reveals phenotypic evolution of powdery mildews (Erysiphales, Ascomycota). Journal of General Plant Pathology 79: 218-226.
●Takamatsu S, Cho SE, Meeboon J, Shin HD, 2013. Revisiting Erysiphe magnoliae with morphological and molecular data. Sydowia 65(1): 13-20.
●Meeboon J, Hidayat I, Takamatsu S, 2013. Setoidium castanopsidis, a new species of anamorphic Cystotheca (Ascomycota, Erysiphales) from Indonesia. Mycoscience 54: 274-278.
●Meeboon J, Takamatsu S, 2013. Erysiphe paracarpinicola: a new species of Erysiphe sect. Uncinula on Carpinus cordata (Betulaceae). Mycoscience 54 (3): 210-216.
●Meeboon J, Hidayat I, Takamatsu S, 2013. Pseudoidium javanicum, a new species of powdery mildew on Acalypha spp. from Indonesia. Mycoscience 54 (3): 183-187.
●Takamatsu S, 2013. Origin and evolution of the powdery mildews (Ascomycota, Erysiphales). Mycoscience 54: 75-86.
●Meeboon J, Takamatsu S, 2013. Molecular phylogeny reveals the presence of cryptic speciation within Erysiphe japonica (≡ Typhulochaeta japonica), a powdery mildew on Quercus spp. Mycoscience 54: 69-74.
●Meeboon J, Divarangkoon R, Takamatsu S, 2013. Two new species of Erysiphe sect. Uncinula (Erysiphales): Erysiphe fernandoae and E. michikoae. Mycoscience 54: 2-7.
●Meeboon J, Takamatsu S, 2013. Erysiphe havrylenkoana and E. prunastri var. japonica: a new species and a new variety of Erysiphe sect. Uncinula (Erysiphaceae, Ascomycota). Mycological Progress 12: 277–282.
●Meeboon J, Hidayat I, Kramadibrata K, Nurcahyanto D, Siahaan SAS, Takamatsu S, 2012. Cystotheca tjibodensis (Erysiphaceae, Ascomycota): rediscovery in Java after 90 years and first finding of anamorph. Mycoscience 53(5): 386-390.
●Khodaparast SA, Takamatsu S, Harada M, Abbasi M, Samadi S, 2012. Additional rDNA ITS sequences and its phylogenetic consequences for the genus Leveillula with emphasis on conidium morphology. Mycological Progress 11: 741-752.
●Meeboon J, Hidayat I, Takamatsu S, 2012. Erysiphe javanica sp. nov., a new tropical powdery mildew from Indonesia. Mycotaxon 120: 189-194.
●高松 進 (2012) 2012年に発行される新モノグラフにおけるうどんこ病菌分類体系改訂の概説.三重大学大学院生物資源学研究科紀要 38:1-73.
●藤岡佳代子,高松 進,野村幸彦, 2011. 日本産うどんこ病菌の記録:8種植物上の完全世代およびカンサイタンポポ上の分生子世代.日本菌学会会報 52: 54–61.
●Monkhung S, To-anun C, Takamatsu S, 2011. Molecular approach to clarify taxonomy of powdery mildew on Chilli plants caused by Oidiopsis sicula in Thailand. International Journal of Agricultural Technology 7(6): 1801-1808.
●Divarangkoon R, Meeboon J, Monkhung S, To-anun C, Takamatsu S, 2011. Two new species of Erysiphe (Erysiphales, Ascomycota) from Thailand. Mycosphere 2(3): 231-238.
●Seko Y, Heluta V, Grigaliunaite B, Takamatsu S, 2011. Morphological and molecular characterization of two ITS groups of Erysiphe (Erysiphales) occurring on Syringa and Ligustrum (Oleaceae). Mycoscience 52(3): 174-182.
●Heluta V, Takamatsu S, Harada M, Voytyuk S, 2010. Molecular phylogeny and taxonomy of Eurasian Neoerysiphe species infecting Asteraceae and Geranium. Persoonia 24: 81-92.
●Takamatsu S, Niinomi S, Harada M, Havrylenko M, 2010. Molecular phylogenetic analyses reveal a close evolutionary relationship between Podosphaera (Erysiphales: Erysiphaceae) and its rosaceous hosts. Persoonia 24: 38-48.
●Ito M, Takamatsu S, 2010. Molecular phylogeny and evolution of subsection Magnicellulatae (Erysiphaceae: Podosphaera) with special reference to host plants. Mycoscience 51(1): 34-43.
●Baiswar P, Takamatsu S, Shiroya Y, Chandra S, Kumar R, Ngachan SV, 2009. First report of powdery mildew on Echeveria agavoides in India. Plant Pathology 58(6): 1172.
●Uchida K, Takamatsu S, Matsuda S, So K, Sato Y, 2009. Morphological and molecular characterization of Oidium subgenus Reticuloidium (powdery mildew) newly occurred on cucumber in Japan. Journal of General Plant Pathology 75(2): 92-100.
●Motohashi K, Inaba S, Anzai K, Takamatsu S, Nakashima C, 2009. Phylogenetic analyses of Japanese species of Phyllosticta sensu strict. Mycoscience 50(4): 291-302.
●Shiroya Y, Takamatsu S, 2009. Erysiphe corylopsidis sp. nov., a new powdery mildew fungus found on Corylopsis spicata and C. pauciflora. Mycoscience 50(5): 409-414.
●藤岡佳代子・高松 進・山本秀夫・野村幸彦, 2009.日本で初めて完全世代形成が確認された7種植物上のうどんこ病菌.日本菌学会会報 50(2): 118-123.
●Heluta V, Takamatsu S, Voytyuk S, Shiroya Y, 2009. Erysiphe kenjiana (Erysiphales), a new invasive fungus in Europe. Mycological Progress 8(4): 367-375.
●Takamatsu S, Heluta V, Havrylenko M, Divarangkoon R, 2009. Four powdery mildew species with catenate conidia infect Galium: Molecular and morphological evidence. Mycological Research 113(1): 117-129.
●Niinomi S, Takamatsu S, Havrylenko M, 2008. Molecular data do not support a Southern Hemisphere base of Nothofagus powdery mildews. Mycologia 100(5): 710-720.
●藤岡佳代子・高松 進・山本秀夫・野村幸彦, 2008.日本新産うどんこ病菌3種と完全世代形成確認種1種.日本菌学会会報 49(1): 40-45.
●Pastircakova K, Takamatsu S, Shiroya Y, Pastircak M, 2008. The European hornbeam powdery mildew Erysiphe arcuata in Slovakia. Journal of Phytopathology 156: 597-601.
●Takamatsu S, Havrylenko M, Wolcan SM, Matsuda S, Niinomi S, 2008. Molecular phylogeny and evolution of the genus Neoerysiphe (Erysiphaceae, Ascomycota). Mycological Research 112(6): 639-649.
●Shiroya Y, Nakashima C, Takamatsu S, 2008. Erysiphe monascogera sp. nov., an unusual powdery mildew fungus found on fruits of Styrax japonica. Mycoscience 49(3): 199-206.
●Takamatsu S, Ito T, Yamamoto H, Braun U, 2008. Sawadaea nankinensis comb. nov.: a powdery mildew fungus of Acer buergerianum. Mycoscience 49(3): 161-167.
●Takamatsu S, Masuya H, Divarangkoon R, Nomura Y, 2008. Erysiphe fimbriata sp. nov.: a powdery mildew fungus found on Carpinus laxiflora. Mycoscience 49(3): 185-191.
●Takamatsu S, Inagaki M, Niinomi S, Khodaparast SA, Shin HD, Grigaliunaite B, Havrylenko M, 2008. Comprehensive molecular phylogenetic analysis and evolution of the genus Phyllactinia (Ascomycota: Erysiphales) and its allied genera. Mycological Research 112: 299-315.
●Seko Y, Bolay A, Kiss L, Heluta V, Grigaliunaite, Takamatsu S, 2008. Molecular evidence supports recent migration of a powdery mildew fungus of Syringa spp. (lilacs) into Europe from East Asia. Plant Pathology 57: 243-250.
●Braun U, Heluta V, Takamatsu S, 2007. Validation of two species of the genus Erysiphe (Erysiphales). Schlechtendalia 16: 99-100.
●Braun U, Ainong S, Mmbaga M, Takamatsu S, Divarangkoon R, Chen P, 2007. Erysiphe abbreviata on cherry bark oak – morphology, phylogeny and taxonomy. Mycologia 99: 655–663.
●Takamatsu S, Braun U, Limkaisang S, Kom-un S, Sato Y, Cunnington JH, 2007. Phylogeny and taxonomy of the oak powdery mildew Erysiphe alphitoides sensu lato. Mycological Research 111: 809–826.
●Shimono Y, Hiroi M, Iwase K, Takamatsu S, 2007. Molecular phylogeny of Lactarius volemus and allies inferred from the nucleotide sequences. Mycoscience 48: 152–159.
●Inuma T, Khodaparast SA, Takamatsu S, 2007. Multilocus phylogenetic analyses within Blumeria graminis, a powdery mildew fungus of cereals. Molecular Phylogenetics and Evolution 44: 741–751.
●Khodaparast SA, Niinomi S, Takamatsu S, 2007. Molecular and morphological characterization of Leveillula (Ascomycota: Erysiphales) on monocotyledonous plants. Mycological Research 111: 673–679.
●Limkaisang S, Cunnington JH, Liew KW, Salleh B, Sato Y, Divarangkoon R, Fangfuk W, To-anun C, Takamatsu S, 2006. Molecular phylogenetic analyses reveal a close relationship between powdery mildew fungi on some tropical trees and Erysiphe alphitoides, an oak powdery mildew. Mycoscience 47: 327–335.
●Takamatsu S, Bolay A, Limkaisang S, Kom-un S, To-anun C, 2006. Identity of a powdery mildew fungus occurred on Paeonia and its relationship with Erysiphe hypophylla on oak. Mycoscience 47: 367-373.
●Wang Z, Johnston PR, Takamatsu S, Spatafora JW, Hibbett DS, 2006. Toward a phylogenetic classification of the Leotiomycetes based on rDNA data. Mycologia 98(6): 1065-1075.
●Kiss L, Khosla K, Jankovics T, Niinomi S, Braun U, Takamatsu S, 2006. A morphologically ill-founded powdery mildew species, Pleochaeta indica, is recognized as a phylogenetic species based on the analysis of the nuclearribosomal DNA sequences. Mycological Research 110: 1301–1308.
●Braun U, Takamatsu S, Heluta V, Limkaisang S, Divarangkoon R, Cook RTA, Boyle H, 2006. Phylogeny and taxonomy of the species of Erysiphe sect. Uncinula on Carpinus. Mycological Progress 5: 139-153.
●Takamatsu S, Matsuda S, Niinomi S, Havrylenko M, 2006. Molecular phylogeny supports a northern hemisphere origin of Golovinomyces (Ascomycota: Erysiphales). Mycological Research 110: 1093-1101.
●Havrylenko M, Takamatsu S, Divarangkoon R, Braun U, 2006. Phyllactinia chubutiana: a new species of Erysiphales from Patagonia (Argentina). Mycoscience 47: 237-241.
●Liberato JR, Barreto RW, Niinomi S, Takamatsu S, 2006. Queirozia turbinata (Phyllactinieae, Erysiphaceae): a powdery mildew with a demariaceous anamorph. Mycological Research 110: 567-574.
●Liu SY, Takamatsu S, Yang LL, Wang XM, Liu D, Luo L, 2006. First report of Neoerysiphe galeopsidis on Althaea rosea. Plant Pathology 55: 297.
●Fujita Y, Shibayama H, Suzuki Y, Karita S, Takamatsu S, 2005. Rapid and accurate identification of microorganisms contaminating cosmetic products based on DNA sequence homology. International Journal of Cosmetic Science 27: 309-316.
●Khodaparast SA, Takamatsu S, Hedjaroude GA, 2005. Phylogenetic analysis of Iranian powdery mildew fungi using nucleotide sequences of 28S ribosomal DNA. Journal of Agricultural Science and Technology 7: 49-58.
●Limkaisang S, Kom-un S, Furtado EL, Liew KW, Salleh B, Sato Y, Takamatsu S, 2005. Molecular phylogenetic and morphological analyses of Oidium heveae, a powdery mildew of rubber tree. Mycoscience 46(4): 220-226.
●Matsuda Y, Sameshima T, Inoue K, Nonomura T, Kakutani K, Takamatsu S, Toyoda H, 2005. Identification of individual powdery mildew fungi infecting leaves and direct detection of gene expression by single conidium PCR. Phytopathology 95 (10): 1137-1143.
●Hirose S, Tanda S, Kiss L, Grigaliunaite B, Havrylenko M, Takamatsu S, 2005. Molecular phylogeny and evolution of the maple powdery mildew (Sawadaea Miyabe; Erysiphaceae) inferred from nuclear rDNA sequences. Mycological Research 109: 912-922.
●Kiss L, Takamatsu S, Cunnington JH, 2005. Molecular identification of Oidium neolycopersici as the causal agent of the recent tomato powdery mildew epidemics in North America. Plant Disease 89: 491-496.
●To-anun C, Kom-un S, Limkaisang S, Fangfuk W, Sato Y, Takamatsu S, 2005. A new subgenus, Microidium, of Oidium (Erysiphaceae) on Phyllanthus spp. Mycoscience 46(1): 1-8.
●Havrylenko M, Takamatsu S, 2005. Notes on Erysiphales (Ascomycetes) from Patagonia (Argentina). Mycoscience 46(1): 32-38.
●Takamatsu S, Braun U, Limkaisang S, 2005. Phylogenetic relationships and generic affinity of Uncinula septata inferred from nuclear rDNA sequences. Mycoscience 46(1): 9-16.
●Shimono Y, Kato M, Takamatsu S, 2004. Molecular Phylogeny of Russulaceae (Basidiomycete; Russulales) inferred from the nucleotide sequences of rDNA large subunit. Mycoscience 45(5): 303-316.
●Takamatsu S, Matsuda S, 2004. Estimation of molecular clocks for ITS and 28S rDNA in Erysiphales. Mycoscience 45(5): 340-344.
●Takamatsu S, 2004. Phylogeny and evolution of the powdery mildew fungi (Erysiphales, Ascomycota) inferred from nuclear ribosomal DNA sequences. Mycoscience 45(2): 147-157.
●Khodaparast SA, Hedjaroude GA, Takamatsu S, 2003. Phylogenetic relationships between Iranian isolates of Microsphaera and Erysiphe s. lat. based on rDNA internal transcribed spacer sequences. Rostaniha 4: 79-90.
●To-anun C, Limkaisang S, Fangfuk W, Sato Y, Braun U, Takamatsu S, 2003. A new species of Brasiliomyces (Erysiphaceae) on Dalbergia cultrata var. cultrata from Thailand. Mycoscience 44(6): 447-451.
●Cunnington JH, Takamatsu S, Lawrie AC, Pascoe IG, 2003. Molecular identification of anamorphic powdery mildews (Erysiphales). Australian Plant Pathology 32: 421-428.
●Kashimoto K, Matsuda Y, Matsutani K, Sameshima T, Kakutani K, Nonomura T, Okada K, Kusakari S, Nakata K, Takamatsu S, Toyoda H, 2003. Morphological and molecular characterization for a Japanese isolate of tomato powdery mildew Oidium neolycopersici and its host range. Journal of General Plant Pathology 69(3): 176–185.
●Havrylenko M, Takamatsu S, 2003. Erysiphe patagoniaca: a new species of Erysiphe sect. Uncinula from Patagonia, Argentina. Mycoscience 44(2): 149-151.
●Takamatsu S, Sato Y, Mimuro G, Kom-un S, 2003. Erysiphe wadae: a new species of Erysiphe sect. Uncinula on Japanese beech. Mycoscience 44(3): 165-171.
●Nomura Y, Takamatsu S, Fujioka K, 2003. Teleomorph of Erysiphe necator var. necator on Vitis vinifera and Ampelopsis brevipedunculata var. heterophylla (Vitaceae) newly found in Japan. Mycoscience 44(2): 157-158.
●Matsuda S, Takamatsu S, 2003. Evolution of host-parasite relationships of Golovinomyces (Ascomycete: Erysiphaceae) inferred from nuclear rDNA sequences. Molecular Phylogenetics and Evolution 27(2): 314-327.
●Khodaparast SA, Hedjaroude GA, Takamatsu S, Braun U, 2002. Three new species of the genus Leveillula from Iran. Mycoscience 43: 459-461.
●Grigaliunaite B, Takamatsu S, 2002. Erysiphe (Uncinula) prunastri on Prunus domestica in Lithuania. Botanica Lithuanica 8(2): 165-169.
●Okamoto J, Limkaisang S, Nojima H, Takamatsu S, 2002. Powdery mildew of prairie gentian: characteristics, molecular phylogeny and pathogenicity. Journal of General Plant Pathology 68: 200-207.
●Takamatsu S, Shin HD, Paksiri U, Limkaisang S, Taguchi Y, Thi Binh N, Sato Y, 2002. Two Erysiphe species associated with recent outbreak of soybean powdery mildew: consequence from molecular phylogenetic analysis based on nuclear rDNA sequences. Mycoscience 43(4): 333–341.
●Braun U, Shishkoff N, Takamatsu S, 2001. Phylogeny of Podosphaera sect. Sphaerotheca subsect. Magnicellulatae (Sphaerotheca fuliginea auct. s. lat.) inferred from rDNA ITS sequences - a taxonomic interpretation. Schlechtendalia 7: 45-52.
●Kiss L, Cook RTA, Saenz GS, Cunnington JH Takamatsu S, Pascoe I, Bardin M, Nicot PC, Sato Y, Rossman AY, 2001. Identification of two powdery mildew fungi, Oidium neolycopersici sp. nov. and an Oidium subgenus Reticuloidium, infecting tomato in different parts of the world. Mycological Research 105(6): 684–697.
●Hirata T, Takamatsu S, 2001. Phylogeny and cross-infectivity of the powdery mildew fungi (Podosphaera fuliginea s. lat.) on cosmos and cucumber. Journal of General Plant Pathology 67: 1–6.
●Takamatsu S, Kano Y, 2001. PCR primers useful for nucleotide sequencing of rDNA of the powdery mildew fungi. Mycoscience 42: 135–139.
●Khodaparast SA, Takamatsu S, Hedjaroude GA, 2001. Phylogenetic structure of the genus Leveillula (Erysiphales: Erysiphaceae) inferred from the nucleotide sequences of the rDNA ITS region with special references to the Leveillula taurica species complex. Mycological Research 105: 909–918.
●Mori Y, Sato Y, Takamatsu S, 2000. Evolutionary analysis of the powdery mildew fungi (Erysiphales) using nucleotide sequences of the nuclear ribosomal DNA. Mycologia 92: 74–93.
●Braun U, Takamatsu S, 2000. Phylogeny of Erysiphe, Microsphaera, Uncinula (Erysipheae) and Cystotheca, Podosphaera, Sphaerotheca (Cystotheceae) inferred from rDNA ITS sequences – some taxonomic consequences. Schlechtendalia 4: 1–33.
●Takamatsu S, Hirata T, Sato Y, 2000. A parasitic transition from trees to herbs occurred at least twice in tribe Cystotheceae (Erysiphaceae): Evidence from nuclear ribosomal DNA. Mycological Research 104: 1304–1311.
●Mori Y, Sato Y, Takamatsu S, 2000. Molecular phylogeny and radiation time of Erysiphales inferred from the nuclear ribosomal DNA sequences. Mycoscience 41: 437–447.
●Hirata T, Cunnington JH, Paksiri U, Limkaisang S, Shishkoff N, Grigaliunaite B, Sato Y, Takamatsu S, 2000. Evolutionary analysis of subsection Magnicellulatae of Podosphaera section Sphaerotheca (Erysiphales) based on the rDNA ITS sequences with special reference to host plants. Canadian Journal of Botany 78: 1521–1530.
●Takamatsu S, Nakano M, Kunasakdakul K, Yokota H, Kunoh H, 1999. Cloning and sequence analysis of the plasmid DNA found in Rhizoctonia solani AG-2-2 LP isolate and its potential use for fungal detection. Mycoscience 40: 29-34.
●Takamatsu S, Hirata T, Sato Y, Nomura Y, 1999. Phylogenetic relationships of Microsphaera and Erysiphe section Erysiphe (powdery mildews) inferred from the rDNA ITS sequences. Mycoscience 40: 259-268.
●Takamatsu S, Nakano M, Yokota H, Kunoh H, 1998. Detection of Rhizoctonia solani AG-2-2 IV, the causal agent of large patch of Zoysiagrass, using plasmid DNA as a probe. Annals of Phytopathological Society of Japan 64: 451-457.
●Takamatsu S, Hirata T, Sato Y, 1998. Phylogenetic analysis and predicted secondary structures of the rDNA internal transcribed spacers of the powdery mildew fungi (Erysiphaceae). Mycoscience 39: 441-453.
●Hirata T, Takamatsu S, 1996. Nucleotide sequence diversity of rDNA internal transcribed spacers extracted from conidia and cleistothecia of several powdery mildew fungi. Mycoscience 37: 283-288.
●Takamatsu S, Lin BN, Furuta H, Makara K, 1994. RT-PCR mediated cloning and sequence analysis of lily symptomless virus coat protein gene. Annals of Phytopathological Society of Japan 60: 487-490.
●Hiraoka N, Takamatsu S, Ichitani T, 1994. Long-term changes in frequencies of Pythium iwayamai and P. paddicum in upland- and paddy-field soils. Mycoscience 35: 301-302.
●高松 進・真柄紘一, 1994. 逆転写ーPolymerase chain reaction (RT-PCR) によるキュウリモザイクウイルスの外被タンパク質、3aタンパク質およびレプリカーゼ遺伝子のクローニング.福井県農業試験場研究報告 31: 1-11.
●Takamatsu S, Tsuchiya T, Makara K, 1994. Detection of cucumber mosaic virus using the reverse transcription-polymerase chain reaction (RT-PCR). Bulletin of Faculty of Bioresources, Mie University 13: 1-6.
●Uchimiya H, Iwata M, Nojiri C, Samarajeewa PK, Takamatsu S, Ooba S, Anzai H, Christensen AH, Quail PH, Toki S, 1993. Bialaphos treatment of transgenic rice plants expressing a bar gene prevents infection by the sheath blight pathogen (Rhizoctonia solani). Nature Biotechnology 11: 835-836.
●高松 進, 1993. 水田・畑及び水田転換畑の土壌中における麦類褐色雪腐病菌の垂直分布.福井県農業試験場報告30: 27-36.
●高松 進・本多範行・川久保幸雄, 1993. 福井県におけるベノミル剤耐性スイカ炭そ病菌の出現.北陸病虫害研究会報 41: 67-70.
●Uchimiya H, Kidou S, Shimazaki T, Aotsuka S, Takamatsu S, Nishi R, Hashimoto H, Matsubayashi Y, Kidou N, Umeda M, Katou A, 1992. Random sequencing of cDNA libraries reveals a variety of expressed genes in cultured cells of rice (Oryza sativa L.). Plant Journal 2: 1005-1009.
●Toki S, Takamatsu S, Nojiri C, Ooba S, Anzai H, Iwata M, Christensen AH, Quail PH, Uchimiya H, 1992. Expression of a maize ubiquitin gene promotor-bar chimeric gene in transgenic rice plants. Plant Physiology 100: 1503-1507.
●Takamatsu S, 1989. Distribution of Pythium snow rot fungi in paddy fields and upland fields. JARQ 23: 100-108.
●Takamatsu S, 1989. A new snow mold of wheat and barley caused by foot rot fungus, Ceratobasidium gramineum. Annals of Phytopathological Society of Japan 55: 233-237.
●高松 進, 1989. ムギ類雪腐病ーとくに褐色雪腐病の発生生態に関する研究.福井県農業試験場特別報告 9: 1-135
●川久保幸雄・高松 進・高岡誠一・今村和夫・町村徳行, 1988. 改良型ホースによる粉剤の散布と薬剤の稲体下部付着量. 北陸病虫害研究会報36: 21-25
●高松 進・一谷多喜郎, 1987. 水田転換畑および畑地で栽培されたムギ類からの主要な褐色雪腐病菌の検出.日本植物病理学会報 53: 56-59.
●Takamatsu S,Ichitani T, 1987. Detection of Pythium snow rot fungi in the soils having no cultivation history of wheat and barley. Annals of Phytopathological Society of Japan 53: 650-654.
●高松 進・川久保幸雄・杉本達美, 1987. 数種ムギ褐色雪腐病菌の病原力比較.福井県農業試験場報告24: 15-24.
●Fukui R, Kitano S, Takamatsu S, Ichitani T, 1987. Taxonomic consideration on two closely species, Pythium paddicum and P. polypapillatum. Bulletin of University of Osaka Prefecture, Ser. B 39: 21-31
●高岡誠一・高松 進・川久保 幸雄, 1987. 福井県におけるベノミル剤耐性イネばか苗病菌の発生実態および耐性菌感染籾の種子消毒効果. 福井県農業試験場報告24: 25-32.
●Takamatsu S, Ichitani T, 1986. Occurrence of Pythium snow rot caused by Pythium okanoganense Lipps in wheat and barley in Japan. Annals of Phytopathological Society of Japan 52: 82-85.
●Ichitani T, Takamatsu S, Stamps DJ, 1986. Identification and pathogenicity of three species of Pythium newly isolated from diseased wheat and barley just after thawing in Japan. Annals of Phytopathological Society of Japan 52: 209-216.
●高松 進・川久保幸雄・今村和夫, 1986. 福井県嶺北地方におけるムギ雪腐病の発生状況.福井県農業試験場報告23: 27-40.
●高松 進, 1985. クリ立枯症被害根から分離されたDidymosporium radicicolaとMacrophoma castaneicolaの菌そう生育に及ぼすタンニンおよび各種フェノール類の影響.福井県農業試験場報告22: 21-36.
●高松 進・宮越 盈・間脇正博・山田 充, 1985. ムギ褐色雪腐病および雪腐褐色小粒菌核病の発生と播種期との関係.北陸病虫害研究会報33: 111-114.
●高松 進・川久保幸雄, 1984. クリ立枯症の発生原因と防除に関する二、三の実験.福井県農業試験場報告21: 35-57.
●高松 進, 1983. 昭和54年に福井県で新発生したオオムギ黒節病について.北陸病虫害研究会報31: 77-78.
●高松 進, 1983. 室内人工接種法を利用したムギ褐色雪腐病の病原菌別薬効比較.北陸病虫害研究会報31: 79-81.
●Takamatsu S, Ishizaki H, Kunoh H, 1982. Scanning electron microscopy on perithecia of powdery mildew fungi III. Perithecial development in mulbery powdery mildew, Phyllactinia moricola. Transactions of Mycological Society of Japan 23: 279-286.
●高松 進, 1982. 福井県下に分布するうどんこ病菌とその寄主植物.北陸病虫害研究会報 30: 98-103.
●高松 進, 1981. 福井県におけるIBPおよびカスガマイシン耐性イネいもち病菌の発生状況. 北陸病虫害研究会報29: 64-67.
●川久保幸雄・杉本義則・高松 進・古河 衛・奈須田和彦, 1980. 病原菌からみた茶米の発生生態に関する研究.第1報 1978年の福井県における茶米・暗色米の発生状況ならびに糸状菌の分離結果について.福井県農業試験場報告17: 13-30.
●Takamatsu S, Ishizaki H, Kunoh H, 1979. Cytological studies of early stages of powdery mildew in barley and wheat. VI. Antagonistic effects of calcium and lithium on the infection of coleoptiles of barley by Erysiphe graminis hordei. Canadian Journal of Botany 57: 408-412.
●高松 進・石崎 寛・久能 均, 1979. 各種うどんこ病菌子のう殻の走査電顕観察(第2報)Uncinula, Microsphaera属菌.三重大学農学部学術報告 59: 33-42.
●Kunoh H, Takamatsu S, Ishizaki H, 1978. Cytological studies of early stages of powdery mildew in barley and wheat. III. Distributions of residual calcium and silicon in germinated conidia of Erysiphe graminis hordei. Physiological Plant Pathology 13: 319-329.
●Takamatsu S, Ishizaki H, Kunoh H, 1978. Cytological studies of early stages of powdery mildew in barley and wheat. V. Effects of calcium on the infection of coleoptile of barley by Erysiphe graminis hordei. Canadian Journal of Botany 56: 2544-2549.
●高松 進・石崎 寛・伊藤 修, 1978. 三重県のうどんこ病菌とその寄主植物.日本菌学会会報 19: 65-77.
●高松 進, 1977. ハスとケナシヤブデマリのうどんこ病菌.日本菌学会会報18: 197-201.
●高松 進・久能 均・石崎 寛, 1976. 各種うどんこ病菌子のう殻の走査電顕観察(第1報)Erysiphe, Sphaerotheca属菌.日本菌学会会報17: 409-417.


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