Studies on the evolution and systematics of powdery mildew fungi (original) (raw)

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References

• Amano K (ed) (1986) Host range and geographical distribution of the powdery mildew fungi. Japan Scientific Societies, Tokyo
  Google Scholar
• Berbee ML, Taylor JW (2001) Fungal molecular evolution: gene trees and geologic time. In: McLaughlin DJ, McLaughlin EG, Lemke PA (eds) The mycota VII systematics and evolution, part B. Springer, Berlin, pp 229–245
  Google Scholar
• Blumer S (1933) Die Erysiphaceen Mitteleuropas, mit besonderer Berücksichtigung der Schweiz. Beitr Krypt-Fl Schweiz 7:1–483
  Google Scholar
• Braun U (1981) Taxonomic studies in the genus Erysiphe I. Generic delimitation and position in the system of the Erysiphaceae. Nova Hedwig 34:679–719
  Google Scholar
• Braun U (1987) A monograph of the Erysiphales (powdery mildews). Beih Nova Hedwig 89:1–700
  Google Scholar
• Braun U, Cook RTA (eds) (2012) Taxonomic manual of the Erysiphales (powdery mildews), CBS Biodiversity series no. 11. CBS-KNAW Fungal Biodiversity Centre, Utrecht
  Google Scholar
• 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
  Google Scholar
• Braun U, Takamatsu S, Heluta V, Limkaisang S, Divarangkoon R, Cook RTA, Boyle H (2006) Phylogeny and taxonomy of powdery mildew fungi of Erysiphe sect. Uncinula on Carpinus species. Mycol Prog 5:139–153
  Article Google Scholar
• Cullum FJ, Webster J (1977) Cleistocarp dehiscence in Phyllactinia. Trans Br Mycol Soc 68:316–320
  Article Google Scholar
• Gadoury DM, Pearson RC (1988) Initiation, development, dispersal, and survival of cleistothecia of Uncinula necator in New York vineyards. Phytopathology 78:1413–1421
  Article Google Scholar
• Heluta VP (1992) Gipoteza pro pokhodzhennya ta migrazii gribiv poryadku Erysiphales (in Ukranian). Ukr Bot J 49:5–14
  Google Scholar
• Itoi S, Nakayama N, Kubomura K (1962) Studies on the powdery mildew disease of mulberry tree caused by Phyllactinia moricola (P. Henn.) Homma (in Japanese). Bull Sericult Exp Stn 17:321–445
  Google Scholar
• Léveillé JH (1851) Organisation et disposition méthodique des espèces qui composent le genre Erysiphé. Ann Sci Nat Bot Ser 3 15:109–179
  Google Scholar
• Liberato JR, Barreto RW, Niinomi S, Takamatsu S (2006) Queirozia turbinata (Phyllactinieae, Erysiphaceae): a powdery mildew with a demariaceous anamorph. Mycol Res 110:567–574
  Article CAS Google Scholar
• Marmolejo J, Siahaan SAS, Takamatsu S, Braun U (2018) Three new records of powdery mildews found in Mexico with one genus and one new species proposed. Mycoscience 59:1–7
  Article Google Scholar
• Meeboon J, Takamatsu S (2013) Erysiphe paracarpinicola: a new species of Erysiphe sect. Uncinula on Carpinus cordata (Betulaceae). Mycoscience 54:210–216
  Article Google Scholar
• Meeboon J, Takamatsu S (2017) Microidium phyllanthi-reticulati sp. nov. on Phyllanthus reticulatus. Mycotaxon 132:289–297
  Article Google Scholar
• Meeboon J, Siahaan SAS, Fujioka K, Takamatsu S (2017) Molecular phylogeny and taxonomy of Parauncinula (Erysiphales) and two new species P. polyspora and P. uncinata. Mycoscience 58:361–368
  Article Google Scholar
• Mori Y, Sato Y, Takamatsu S (2000a) Evolutionary analysis of the powdery mildew fungi using nucleotide sequences of the nuclear ribosomal DNA. Mycologia 92:74–93
  Article CAS Google Scholar
• Mori Y, Sato Y, Takamatsu S (2000b) Molecular phylogeny and radiation time of Erysiphales inferred from the nuclear ribosomal DNA sequences. Mycoscience 41:437–447
  Article CAS Google Scholar
• Niinomi S, Takamatsu S, Havrylenko M (2008) Molecular data do not support a Southern Hemisphere base of Nothofagus powdery mildews. Mycologia 100:716–726
  Article Google Scholar
• Pryce-Jones E, Carver T, Gurr SJ (1999) The roles of cellulase enzymes and mechanical force in host penetration by Erysiphe graminis f. sp. hordei. Physiol Mol Plant Pathol 55:175–182
  Article CAS Google Scholar
• Siahaan SAS, Sakamoto H, Shinoda T, Takamatsu S (2018) Morphophylogenetic study revealed that Erysiphe gracilis (powdery mildew of evergreen oaks, Erysiphales) is a species complex consisting of six different species. Mycoscience 59:124–136
  Article Google Scholar
• Takahashi M (2005) Vegetational consequences of Cretaceous and Paleogene flora: early radiation of angiosperms in Cretaceous age and biogeographical distribution of Early Tertiary Flora (in Japanese). J Jpn Assoc Petrol Technol 70:37–46
  Article Google Scholar
• Takahashi M (2006) Origin and early evolution of the angiosperms (in Japanese). Hokkaido University Press, Sapporo
  Google Scholar
• Takamatsu S (2004) Phylogeny and evolution of the powdery mildew fungi (Erysiphales, Ascomycota) inferred from nuclear ribosomal DNA sequences. Mycoscience 45:147–157
  Article CAS Google Scholar
• Takamatsu S (2013) Origin and evolution of the powdery mildews (Ascomycota, Erysiphales). Mycoscience 54:75–86
  Article Google Scholar
• Takamatsu S, Matsuda S (2004) Estimation of molecular clocks for ITS and 28S rDNA in Erysiphales. Mycoscience 45:340–344
  Article CAS Google Scholar
• 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
  Article CAS Google Scholar
• 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. Mycol Res 104:1304–1311
  Article CAS Google Scholar
• Takamatsu S, Braun U, Limkaisang S (2005a) Phylogenetic relationships and generic affinity of Uncinula septata inferred from nuclear rDNA sequences. Mycoscience 46:9–16
  Article CAS Google Scholar
• Takamatsu S, Niinomi S, Cabrera de Álvarez MG, Álvarez RE, Havrylenko M, Braun U (2005b) Caespitotheca gen. nov., an ancestral genus in the Erysiphales. Mycol Res 109:903–911
  Article Google Scholar
• Takamatsu S, Matsuda S, Niinomi S, Havrylenko M (2006) Molecular phylogeny supports a northern hemisphere origin of Golovinomyces (Ascomycota: Erysiphales). Mycol Res 110:1093–1101
  Article Google Scholar
• 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. Mycol Res 111:809–826
  Article CAS Google Scholar
• Tiffney BH (1985) The Eocene North Atlantic Land Bridge: its importance in Tertiary and modern phytogeography of the Northern Hemisphere. J Arnold Arbor 66:243–273
  Article Google Scholar
• To-anun C, Kom-un S, Sunawan A, Fangfuk W, Sato Y, Takamatsu S (2005) A new subgenus, Microidium, of Oidium (Erysiphaceae) on Phyllanthus spp. Mycoscience 46:1–8
  Article CAS Google Scholar

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Acknowledgements

I express my deepest gratitude to the late Prof. Koji Amano for his scientific guidance and continuous encouragements. I also thank the late Dr. Kumiko Wada, the late Prof. Hiroshi Ishizaki, Prof. Hitoshi Kunoh, Prof. Takio Ichitani, Prof. Hirofumi Uchimiya, Prof. John Taylor, and Dr. Hiromitsu Hagiwara for their guidance and continuous support and Dr. Yukihiko Nomura, Prof. Seinosuke Tanda, Prof. Yukio Sato, Dr. Adlien Bolay, Prof. Uwe Braun, Dr. Maria Graciela Cabrera, Dr. Roger Cook, Dr. James Cunnington, Dr. Marie-Laure Desprez-Loustau, Dr. Banga Grigaliunaite, Prof. Maria Havrylenko, Prof. Vasyl Heluta, Prof. Akbar Khodaparast, Prof. Levente Kiss, Dr. Jose Liberato, Dr. Jamjan Meeboon, Dr. Gregory Saenz, Prof. Hyeon-Dong Shin, Prof. Liu Shu-yan, Prof. Chaiwat To-anun, and Dr. Silvia Wolcan for their kind help and enjoyable collaborations. I also thank all of my colleagues for their efforts.

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1. Graduate School of Bioresources, Mie University, 1577 Kurima-Machiya, Tsu, 514-8507, Japan
   Susumu Takamatsu

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Takamatsu, S. Studies on the evolution and systematics of powdery mildew fungi.J Gen Plant Pathol 84, 422–426 (2018). https://doi.org/10.1007/s10327-018-0805-4

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• Received: 17 May 2018
• Accepted: 25 May 2018
• Published: 21 August 2018
• Issue Date: November 2018
• DOI: https://doi.org/10.1007/s10327-018-0805-4

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