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References

  • Aldrich J, Cullis CA, 1993. RAPD analysis in flax: optimization of yield and reproducibility using KlenTaq 1 DNA polymerase, Chelex 100, and gel purification of genomic DNA. Plant Molecular Biology Reporter 11, 12841.
  • Brun H, Chevre AM, Fitt BDL et al. , 2010. Quantitative resistance increases the durability of qualitative resistance to Leptosphaeria maculans in Brassica napus. New Phytologist 185, 28599.
  • Burdon JJ, Thrall PH, 2008. Pathogen evolution across the agro-ecological interface: implications for disease management. Evolutionary Applications 1, 5765.
  • Bus VGM, Laurens FND, Van De Weg WE et al. , 2005. The Vh8 locus of a new gene-for-gene interaction between Venturia inaequalis and the wild apple Malus sieversii is closely linked to the Vh2 locus in Malus pumila R12740-7A. New Phytologist 166, 103549.
  • Caffier V, Didelot F, Pumo B, Causeur D, Durel CE, Parisi L, 2010. Aggressiveness of eight Venturia inaequalis isolates virulent and avirulent to the major resistance gene Rvi6 on a non-Rvi6 apple cultivar. Plant Pathology 59, 107280.
  • Calenge F, Faure A, Goerre M et al. , 2004. Quantitative trait loci (QTL) analysis reveals both broad-spectrum and isolate-specific QTL for scab resistance in an apple progeny challenged with eight isolates of Venturia inaequalis. Phytopathology 94, 3709.
  • Castro AJ, Capettini F, Corey AE et al. , 2003. Mapping and pyramiding of qualitative and quantitative resistance to stripe rust in barley. Theoretical and Applied Genetics 107, 92230.
  • Coart E, Van Glabeke S, De Loose M, Larsen AS, Roldan-Ruiz I, 2006. Chloroplast diversity in the genus Malus: new insights into the relationship between the European wild apple (Malus sylvestris (L.) Mill.) and the domesticated apple (Malus domestica Borkh.). Molecular Ecology 15, 217182.
  • Durel CE, Parisi L, Laurens F, Van De Weg WE, Liebhard R, Jourjon MF, 2003. Genetic dissection of partial resistance to race 6 of Venturia inaequalis in apple. Genome 46, 22434.
  • Garry G, Forbes GA, Salas A, Santa Cruz M, Perez WG, Nelson RJ, 2005. Genetic diversity and host differentiation among isolates of Phytophthora infestans from cultivated potato and wild solanaceous hosts in Peru. Plant Pathology 54, 7408.
  • Gessler C, Patocchi A, Sansavini S, Tartarini S, Gianfranceschi L, 2006. Venturia inaequalis resistance in apple. Critical Reviews in Plant Sciences 25, 473503.
  • Gladieux P, Zhang XG, Roldan-Ruiz I et al. , 2010. Evolution of the population structure of Venturia inaequalis, the apple scab fungus, associated with the domestication of its host. Molecular Ecology 19, 65874.
  • Gouesnard B, Bataillon TM, Decoux G, Rozale C, Schoen DJ, David JL, 2001. mstrat: an algorithm for building germplasm core collections by maximizing allelic or phenotypic richness. Journal of Heredity 92, 934.
  • Guerin F, Le Cam B, 2004. Breakdown of the scab resistance gene Vf in apple leads to a founder effect in populations of the fungal pathogen Venturia inaequalis. Phytopathology 94, 3649.
  • Guerin F, Gladieux P, Le Cam B, 2007. Origin and colonization history of newly virulent strains of the phytopathogenic fungus Venturia inaequalis. Fungal Genetics and Biology 44, 28492.
  • Harris SA, Robinson JP, Juniper BE, 2002. Genetic clues to the origin of the apple. Trends in Genetics 18, 42630.
  • Hovmøller MS, Yahyaoui AH, Milus EA, Justesen AF, 2008. Rapid global spread of two aggressive strains of a wheat rust fungus. Molecular Ecology 17, 381826.
  • Johnson R, 1984. A critical analysis of durable resistance. Annual Review of Phytopathology 22, 30930.
  • Kim KW, Chung HK, Cho GT et al. , 2007. PowerCore: a program applying the advanced M strategy with a heuristic search for establishing core sets. Bioinformatics 23, 215562.
  • Koch T, Kellerhals M, Gessler C, 2000. Virulence pattern of Venturia inaequalis field isolates and corresponding differential resistance in Malus×domestica. Journal of Phytopathology 148, 35764.
  • Krupinsky JM, 1997. Aggressiveness of Stagonospora nodorum isolates from perennial grasses on wheat. Plant Disease 81, 10326.
  • Laurens F, 1999. Review of the current apple breeding programmes in the world: objectives for scion cultivar improvement. Acta Horticulturae 484, 16370.
  • Le S, Josse J, Husson F, 2008. FactoMineR: an R package for multivariate analysis. Journal of Statistical Software 25, 118.
  • Lebeda A, Petrzelova I, Maryska Z, 2008. Structure and variation in the wild-plant pathosystem: Lactuca serriola-Bremia lactucae. European Journal of Plant Pathology 122, 12746.
  • Liebhard R, Koller B, Patocchi A et al. , 2003. Mapping quantitative field resistance against apple scab in a ‘Fiesta’בDiscovery’ progeny. Phytopathology 93, 493501.
  • Maliepaard C, Alston FH, Van Arkel G et al. , 1998. Aligning male and female linkage maps of apple (Malus pumila Mill.) using multi-allelic markers. Theoretical and Applied Genetics 97, 6073.
  • McDonald BA, Linde C, 2002. Pathogen population genetics, evolutionary potential, and durable resistance. Annual Review of Phytopathology 40, 34979.
  • Mehl HL, Cotty PJ, 2010. Variation in competitive ability among isolates of Aspergillus flavus from different vegetative compatibility groups during maize infection. Phytopathology 100, 1509.
  • Miedaner T, Schilling AG, Geiger HH, 2004. Competition effects among isolates of Fusarium culmorum differing in aggressiveness and mycotoxin production on heads of winter rye. European Journal of Plant Pathology 110, 6370.
  • Palloix A, Ayme V, Moury B, 2009. Durability of plant major resistance genes to pathogens depends on the genetic background, experimental evidence and consequences for breeding strategies. New Phytologist 183, 1909.
  • Parisi L, Lespinasse Y, Guillaumes J, Krüger J, 1993. A new race of Venturia inaequalis virulent to apples with resistance due to the Vf gene. Phytopathology 83, 5337.
  • Poland JA, Balint-Kurti PJ, Wisser RJ, Pratt RC, Nelson RJ, 2009. Shades of gray: the world of quantitative disease resistance. Trends in Plant Science 14, 219.
  • R Development Core team, 2009. R: A Language and Environment for Statistical Computing. Vienna, Austria: R Foundation for Statistical Computing. [http://www.R-project.org].
  • Richards CM, Volk GM, Reilley AA et al. , 2009. Genetic diversity and population structure in Malus sieversii, a wild progenitor species of domesticated apple. Tree Genetics & Genomes 5, 33947.
  • Roelfs AP, Groth JV, 1980. A comparison of virulence phenotypes in wheat-stem rust populations reproducing sexually and asexually. Phytopathology 70, 85562.
  • Sierotzki H, Eggenschwiler M, Boillat O, Mcdermott JM, Gessler C, 1994. Detection of variation in virulence toward susceptible apple cultivars in natural populations of Venturia inaequalis. Phytopathology 84, 10059.
  • Sivanesan A, 1977. The Taxonomy and Pathology of Venturia species. Vaduz, Liechtenstein: J.Cramer.
  • Soufflet-Freslon V, Gianfranceschi L, Patocchi A, Durel CE, 2008. Inheritance studies of apple scab resistance and identification of Rvi14, a new major gene that acts together with other broad-spectrum QTL. Genome 51, 65767.
  • Tenzer I, Degli Ivanissevich S, Morgante M, Gessler C, 1999. Identification of microsatellite markers and their application to population genetics of Venturia inaequalis. Phytopathology 89, 74853.
  • Venables WN, Ripley BD, 2002. Modern Applied Statistics with S. New York, USA: Springer.
  • Williams EB, Brown AG, 1968. A new physiologic race of Venturia inaequalis, incitant of apple scab. Plant Disease Reporter 52, 799801.
  • Williams EB, Dayton DF, Shay JR, 1966. Allelic genes in Malus for resistance to Venturia inaequalis. Proceedings of the American Society for Horticultural Science 88, 526.