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References

  • Aldwinckle HS, Gustafson HL, Lamb RC. 1976. Early determination of genotypes for apple scab resistance by forced flowering of test progenies. Euphytica 25: 185191.
  • Bagga HS, Boone DM. 1968a. Genes in Venturia inaequalis controlling pathogenicity to crabapples. Phytopathology 58: 11761182.
  • Bagga HS, Boone DM. 1968b. Inheritance of resistance to Venturia inaequalis in crabapples. Phytopathology 58: 11831187.
  • Bai J, Choi S-H, Ponciano G, Leung H, Leach J. 2000. Xanthomonas oryzae pv. oryzae avirulence genes contribute differently and specifically to pathogen aggressiveness. Molecular Plant–Microbe Interactions 13: 13221329.
  • Belfanti E, Silfverberg-Dilworth E, Tartarini S, Patocchi A, Barbieri M, Zhu J, Vinatzer BA, Gianfranceschi L, Gessler C, Sansavini S. 2004. The HcrVf2 gene from a wild apple confers scab resistance to a transgenic cultivated variety. Proceedings of the National Academy of Sciences, USA 101: 886890.
  • Bénaouf G, Parisi L. 2000. Genetics of host–pathogen relationships between Venturia inaequalis races 6 and 7 and Malus sp. Phytopathology 90: 236242.
  • Bonas U, Lahaye T. 2002. Plant disease resistance triggered by pathogen-derived molecules: refined models of specific recognition. Current Opinion in Microbiology 5: 4450.
  • Boone DM. 1971. Genetics of Venturia inaequalis. Annual Review of Phytopathology 9: 297318.
  • Bruzzese E, Hasan S. 1983. A whole leaf clearing and staining technique for host specificity studies of rust fungi. Plant Pathology 32: 335338.
  • Bus V, Ranatunga C, Gardiner S, Bassett H, Rikkerink E. 2000. Marker assisted selection for pest and disease resistance in the New Zealand apple breeding programme. Acta Horticulturae 538: 541547.
  • Bus VGM, Alspach PA, Hofstee ME, Brewer LR. 2002. Genetic variability and preliminary heritability estimates of resistance to scab (Venturia inaequalis) in an apple genetics population. New Zealand Journal of Crop and Horticultural Science 30: 8392.
  • Bus VGM, Rikkerink EHA, Van de Weg EW, Rusholme RL, Gardiner SE, Bassett HCM, Kodde LP, Parisi L, Laurens FND, Meulenbroek E, Plummer KM. 2005. The Vh2 and Vh4 scab resistance genes in two differential hosts derived from Russian apple R12740-7A map to the same linkage group of apple. Molecular Breeding 15: 103116.
  • Calenge F, Faure A, Goerre M, Gebhardt C, Van de Weg WE, Parisi L, Durel C-E. 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: 370379.
  • Chevalier M, Lespinasse Y, Renaudin S. 1991. A microscopic study of the different classes of symptoms coded by the Vf gene in apple for resistance to scab (Venturia inaequalis). Plant Pathology 40: 249256.
  • Cunningham JL. 1972. A miracle mounting fluid for permanent whole-mounts of microfungi. Mycologia 64: 906911.
  • Dangl JL, Jones JDG. 2001. Plant pathogens and integrated defense responses. Nature 411: 826833.
  • 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: 224234.
  • Flor HH. 1956. The complementary genic systems in flax and flax rust. Advances in Genetics 8: 2954.
  • Flor HH. 1971. Current status of the gene-for-gene concept. Annual Review of Phytopathology 9: 275296.
  • Gardiner SE, Bassett HCM, Noiton DAM, Bus VG, Hofstee ME, White AG, Ball RD, Forster RLS, Rikkerink EHA. 1996. A detailed linkage map around an apple scab resistance gene demonstrates that two disease resistance classes both carry the Vf gene. Theoretical and Applied Genetics 93: 485493.
  • Gardiner S, Murdoch J, Meech S, Rusholme R, Bassett H, Cook M, Bus V, Rikkerink E, Gleave A, Crowhurst R, Ross G, Warrington I. 2003. Candidate resistance genes from an EST database prove a rich source of markers for major genes conferring resistance to important apple pests and diseases. Acta Horticulturae 622: 141151.
  • Goodman RN, Novacky AJ. 1994. The Hypersensitive Reaction in Plants to Pathogens. St Paul, MN, USA: APS Press.
  • Gygax M, Gianfranceschi L, Liebhard R, Kellerhals M, Gessler C, Patocchi A. 2004. Molecular markers linked to the apple scab resistance gene Vbj derived from Malus baccata jackii. Theoretical and Applied Genetics 109: 17021709.
  • Harris SA, Robinson JP, Juniper BE. 2002. Genetic clues to the origin of the apple. Trends in Genetics 18: 426430.
  • Hemmat M, Brown SK, Weeden NF. 2002. Tagging and mapping scab resistance genes from R12740-7A apple. Journal of the American Society of Horticultural Science 127: 365370.
  • Hemmat M, Brown SK, Aldwinckle HS, Mehlenbacher SA, Weeden NF. 2003. Identification and mapping of markers for resistance to apple scab from ‘Antonovka’ and ‘Hansen's baccata #2’. Acta Horticulturae 622: 153161.
  • Hernandez Castillo D. 1990. La tavelure du pommier. Venturia inaequalis (Cke.) Wint. etude du pouvoir pathogene des races 1 et 5 et essai de lutte raisonnée. PhD thesis, University of Nantes, France.
  • Hokanson SC, McFerson JR, Forsline PL, Lamboy WF, Luby JJ, Djangaliev AD, Aldwinckle HS. 1997. Collecting and managing wild Malus germplasm in its center of diversity. Hortscience 32: 173176.
  • Hulbert S, Pryor T, Hu G, Richter T, Drake J. 1997. Genetic fine structure of resistance loci. In: CruteIR, HolubEB, BurdonJJ, eds. The Gene-for-Gene Relationship in Plant–Parasite Interactions. Wallingford, UK: CAB International, 2743.
  • 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: 357364.
  • Korban SS, Chen H. 1992. Apple. In: HammerschlagFA, LitzRE, eds. Biotechnology of Perennial Fruit Crops. Wallingford, UK: CAB International, 203227.
  • Kosambi DD. 1944. The estimation of map distances from recombination values. Annals of Eugenetics 12: 172175.
  • Leach JE, Vera Cruz CM, Bai J, Leung H. 2001. Pathogen fitness penalty as a predictor of durability of disease resistance genes. Annual Review of Phytopathology 39: 187224.
  • Leppik EE. 1970. Gene centers of plants as sources of disease resistance. Annual Review Phytopathology 8: 323344.
  • Lespinasse Y. 1994. Apple scab resistance and durability. New races and strategies for the future. In: SchmidtH, KellerhalsM, eds. Progress in Temperate Fruit Breeding. Dordrecht, the Netherlands: Kluwer Academic, 105106.
  • Liebhard R, Gianfranceschi L, Koller B, Ryder CD, Tarchini R, Van de Weg E, Gessler C. 2002. Development and characterisation of 140 new microsatellites in apple (Malus×domestica Borkh.). Molecular Breeding 10: 217241.
  • Liebhard R, Koller B, Gianfranceschi L, Gessler C. 2003. Creating a saturated reference map for the apple (Malus×domestica Borkh.) genome. Theoretical Applied and Genetics 106: 14971508.
  • Luby J, Forsline P, Aldwinckle H, Bus V, Geibel M. 2001. Silk road apples – collection, evaluation, and utilization of Malus sieversii from Central Asia. Hortscience 36: 225231.
  • Luby JJ, Alspach PA, Bus VGM, Oraguzie NC. 2002. Field resistance to fire blight in a diverse apple (Malus sp.) germplasm collection. Journal of the American Society of Horticultural Science 127: 245253.
  • Luderer R, Joosten MHAJ. 2001. Avirulence proteins of plant pathogens: determinants of victory and defeat. Molecular Plant Pathology 2: 355364.
  • MacHardy W, Gadoury DM, Gessler C. 2001. Parasitic and biological fitness of Venturia inaequalis: relationship to disease management strategies. Plant Disease 85: 10361051.
  • MacKay M. 1993. A Second Survey of the Range of Selected Exotic Woody Genera in Plant Collections in New Zealand. Palmerston North, New Zealand: Massey University.
  • Maliepaard C, Alston FH, Van Arkel G, Brown LM, Chevreau E, Dunemann F, Evans KM, Gardiner S, Guilford P, Van Heusden AW, Janse J, Laurens F, Lynn JR, Manganaris AG, Den Nijs APM, Periam N, Rikkerink E, Roche P, Ryder C, Sansavini S, Schmidt H, Tartarini S, Verhaegh JJ, Vrielink-Van Ginkel M, King GJ. 1998. Aligning male and female linkage maps of apple (Malus pumila Mill.) using multi-allelic markers. Theoretical and Applied Genetics 97: 6073.
  • Michelmore RW, Meyers BC. 1998. Clusters of resistance genes in plants evolve by divergent selection and a birth-and-death process. Genome Research 8: 11131130.
  • Noiton D, Alspach P. 1996. Founding clones, inbreeding, coancestry, and status number of modern apple cultivars. Journal of the American Society of Horticultural Science 121: 773782.
  • Noiton D, Shelbourne CJA. 1992. Quantitative genetics in an apple breeding strategy. Euphytica 60: 213219.
  • Van Ooijen JW, Voorrips RE. 2001. joinmap version 3.0, Software for the Calculation of Genetic Linkage Maps. Wageningen, the Netherlands: Plant Research International.
  • Parisi L, Lespinasse Y. 1996. Pathogenicity of Venturia inaequalis strains of race 6 on apple clones (Malus sp.). Plant Disease 80: 11791183.
  • Parker DM, Hilber UW, Bodmer M, Smith FD, Yao C, Köller W. 1995. Production and transformation of conidia of Venturia inaequalis. Phytopathology 85: 8791.
  • Parlevliet JE. 2002. Durability of resistance against fungal, bacterial and viral pathogens; present situation. Euphytica 124: 147156.
  • Patocchi A, Bigler B, Koller B, Kellerhals M, Gessler C. 2004. Vr2: a new apple scab resistance gene. Theoretical and Applied Genetics 109: 10871092.
  • Pedersen WL, Leath S. 1988. Pyramiding major genes for resistance to maintain residual effects. Annual Review of Phytopathology 26: 369378.
  • Roach FA. 1988. History and evolution of fruit crops. Hortscience 23: 5155.
  • Ross RG, Hamlin SA. 1965. Influence of nutrients on perithecial production of Venturia inaequalis (Cke.) Wint. Canadian Journal of Botany 43: 959965.
  • Shay JR, Hough LF. 1952. Evaluation of apple scab resistance in selections of Malus. American Journal of Botany 39: 288297.
  • Shay JR, Williams EB. 1956. Identification of three physiological races of Venturia inaequalis. Phytopathology 46: 190193.
  • Sidhu GS. 1987. Host–parasite genetics. Plant Breeding Reviews 5: 393433.
  • Sierotzki H, Gessler C. 1998. Genetic analysis of a cross of two Venturia inaequalis strains that differ in virulence. Journal of Phytopathology 146: 515520.
  • Van der Biezen EA, Jones JDG. 1998. Plant disease-resistance proteins and the gene-for-gene concept. Trends in Biochemical Sciences 23: 454456.
  • Vanderplank JE. 1984. Disease Resistance in Plants, 2nd edn. San Diego, CA, USA: Academic Press.
  • Vinatzer BA, Patocchi A, Gianfranceschi L, Tartarini S, Zhang HB, Gessler C, Sansavini S. 2001. Apple contains receptor-like genes homologous to the Cladosporium fulvum resistance gene family of tomato with a cluster of genes cosegregating with Vf apple scab resistance. Molecular Plant–Microbe Interactions 14: 508514.
  • Williams EB, Shay JR. 1957. The relationship of genes for pathogenicity and certain other characters in Venturia inaequalis (Cke.) Wint. Genetics 42: 704711.
  • Win J, Greenwood DR, Plummer KM. 2003. Characterisation of a protein from Venturia inaequalis that induces necrosis in Malus carrying the Vm resistance gene. Physiological and Molecular Plant Pathology 62: 193202.
  • Xu M, Korban SS. 2002. A cluster of four receptor-like genes resides in the Vf locus that confers resistance to apple scab disease. Genetics 162: 19952006.
  • Young ND. 2000. The genetic structure of resistance. Current Opinion in Plant Biology 3: 285290.