• Böhnert HU, Fudal I, Dioh W, Tharreau D, Notteghem J-L & Lebrun M-H (2004) A putative polyketide synthase/peptide synthetase from Magnaporthe grisea signals pathogen attack to resistant rice. Plant Cell 16: 24992513.
  • Chuma I, Isobe I, Hotta Y et al. (2011) Multiple translocation of the AVR-Pita effector gene among chromosomes of the rice blast fungus Magnaporthe oryzae and related species. PLoS Pathog 7: e1002147.
  • Dean RA, Talbot NJ, Ebbole DJ et al. (2005) The genome sequence of the rice blast fungus Magnaporthe grisea. Nature 434: 980986.
  • Elegado E, Iwasaki A, Sales M, Ishii C, Tomita F & Sone T (2006) Oxidative stress induces high transcription of Rhm52 and Rhm54, novel genes identified as being involved in recombinational repair in Magnaporthe grisea. J Gen Plant Pathol 72: 1619.
  • Flor HH (1971) Current status of the gene-for-gene concept. Annu Rev Phytopathol 9: 275296.
  • Fudal I, Böhnert HU, Tharreau D & Lebrun M-H (2005) Transposition of MINE, a composite retrotransposon, in the avirulence gene ACE1 of the rice blast fungus Magnaporthe grisea. Fungal Genet Biol 42: 761772.
  • Hayashi N (2005) Rice Blast Fungus, MAFF Microorganism Genetic Resource Manual No. 18. National Institute of Agrobiological Sciences, Ministry of Agriculture, Forestry and Fisheries, Tsukuba (in Japanese).
  • Kang S, Lebrun MH, Farrall L & Valent B (2001) Gain of virulence caused by insertion of a Pot3 transposon in a Magnaporthe grisea avirulence gene. Mol Plant Microbe Interact 14: 671674.
  • Khang CH, Park S-Y, Lee Y-H, Valent B & Kang S (2008) Genome organization and evolution of the AVR-Pita avirulence gene family in the Magnaporthe grisea species complex. Mol Plant Microbe Interact 21: 658670.
  • Kito H, Takahashi Y, Sato J, Fukiya S, Sone T & Tomita F (2003) Occan, a novel transposon in the Fot1 family, is ubiquitously found in several Magnaporthe grisea isolates. Curr Genet 42: 322331.
  • Kiyosawa S (1982) Genetics and epidemiological modeling of breakdown of plant disease resistance. Annu Rev Phytopathol 20: 93117.
  • Li W, Wang B, Wu J et al. (2009) The Magnaporthe oryzae avirulence gene AvrPiz-t encodes a predicted secreted protein that triggers the immunity in rice mediated by the blast resistance gene Piz-t. Mol Plant Microbe Interact 22: 411420.
  • Miki S, Matsui K, Kito H et al. (2009) Molecular cloning and characterization of the AVR-Pia locus from a Japanese field isolate of Magnaporthe oryzae. Mol Plant Pathol 10: 361374.
  • Ndindeng SA, Miki S, Abe A, Asano K & Sone T (2010) EGFP-Rhm51 foci enable the visualization and enumeration of DNA double-strand breaks in Magnaporthe oryzae. J Gen Plant Pathol 76: 377381.
  • Orbach MJ, Farrall L, Sweigard JA, Chumley FG & Valent B (2000) A telomeric avirulence gene determines efficacy for the rice blast resistance gene Pi-ta. Plant Cell 12: 20192032.
  • Sanchez E, Asano K & Sone T (2011) Characterization of Inago1 and Inago2 retrotransposons in Magnaporthe oryzae. J Gen Plant Pathol 77: 239242.
  • Sone T, Abe T, Yoshida N, Suto M & Tomita F (1997) DNA fingerprinting and electrophoretic karyotyping of Japanese isolates of rice blast fungus. Ann Phytopathol Soc Jpn 63: 155163.
  • Takahashi M, Ashizawa T, Hirayae K et al. (2010) One of two major paralogs of AVR-Pita1 is functional in Japanese rice blast isolates. Phytopathology 100: 612618.
  • Yamada M, Kiyosawa S, Yamaguchi T, Hirano T, Kobayashi T, Kushibuchi K & Watanabe S (1976) Proposal for a new method for differentiating races of Pyricularia oryzae Cavara in Japan. Ann Phytopathol Soc Jpn 42: 216219.
  • Yoshida K, Saitoh H, Fujisawa S et al. (2009) Association genetics reveals three novel avirulence genes from the rice blast fungal pathogen Magnaporthe oryzae. Plant Cell 21: 15731591.