| |
| Monitoring of Venturia
inaequalis virulences |
|
|
|
 |
|
|
 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| Nomenclature of Venturia
inaequalis races |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Monitoring of Venturia inaequalis virulences
References
-
Peil, A., Howard, N. P., Bühlmann-Schütz, S., Hiller, I., Schouten, H., Flachowsky, H., Patocchi, A. (2023).
Rvi4 and Rvi15 are the same apple scab resistance genes. Molecular Breeding, 43(10), 1-11.
-
Patocchi, A., Wehrli, A., Dubuis, P. H., Auwerkerken, A., Leida, C., Cipriani, G., Passey, T., Staples, M., Diddelot, F., Philion, V., Peil, A., Laszakovits, H., Rühmer, T., Boeck, K., Baniulis, D, Strasser, K., VAvra, R., Guerra, W., Masny, S., Ruess, F., Le Berre, F., Nybom, H., Tartarini, S., Spornberger, A., Pikunova, A., and Bus, V. G. (2020).
Ten years of VINQUEST: first insight for breeding new apple cultivars with durable apple scab resistance. Plant Disease, 104(8), 2074-2081.
- Bénaouf G, and Parisi L (2000).
Genetics of the host-pathogen relationship between Venturia inaequalis races 6 and 7 and Malus species.
Phytopathology 90:236–242.
- Bus VGM, Laurens FND, Van de Weg E, Rusholme RL, Rikkerink EHA, Gardiner SE, Bassett HCM and Plummer KM
(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 Phytol. 166:1035–1049.
- Bus VGM, Bassett HCM, Bowatte D, Chagné D, Ranatunga CA, Ulluwishewa D, Wiedow C and Gardiner SE (2010)
Genome mapping of an apple scab, a powdery mildew and a woolly apple aphid resistance gene from open-pollinated Mildew Immune Selection. Tree Genet. Genomes 6:477–487
- Bus V, Rikkerink E, Aldwinckle HS, Caffier V, Durel C-E, Gardiner S, Gessler C, Groenwold R, Laurens F, Le Cam B, Luby J, MacHardy W, Meulenbroek B, Kellerhals M, Parisi ., Patocchi A, Plummer ., Schouten HJ, Tartarini S and van de Weg E(2008)
A proposal for the nomenclature of Venturia inaequalis races: Acta Hortic 814:739-746
- Dunemann F and Egerer J (2010)
A major resistance gene from Russian apple ‘Antonovka’ conferring field immunity against apple scab is closely linked to the Vf locus. Tree Genet. Genomes 6:727-633
- Gessler
C, Patocchi A, Sansavini S, Tartarini S, Gianfranceschi L (2006)
Venturia inaequalis Resistance in Apple, Cri. Rev. Plant Sci; 25(6):473-503
- Lateur M, Populer C (1994)
Screening fruit tree genetic resources in Belgium for disease resistance and other desirable characters. Euphytica 77:147-153
- McDonald B and Linde C (2002)
Pathogen population genetics, evolutionary potential and durable resistance. Annu. Rev. Phytopathology 40:349-79
- Mesterházy A, Bartos P, Goyeau H, Niks RE, Gsösz M, Anderson O, Casulli F, Ittu M, Jones E, Manisterski J, Manninger K, Pasquini M, Rubiales D, Schachermayr G, Strzembicka A, Szunics L, Todorova M, Unger o, Vanco B, Vida G, Walther U (2000)
European virulence survey for leaf rust in wheat. Agronomie 20:793-804
- Parisi L, Lespinasse Y, Guillaumes J, and Kruger J (1993).
A new race of Venturia inaequalis virulent to apples with resistance due to the Vf gene. Phytopathology, 83: 533–537.
- Shay J R and Williams EB (1956)
Identification of three physiologic races of Venturia inaequalis. Phytopathology 46:190-193
- Shay JR, Williams EB and Janick J (1962)
Disease resistance in apple and pear. Proc. Amer. Soc. Hortic. Sci. 80:97-104
- Williams EB, and Brown AG (1968).
A new physiological race of Venturia inaequalis incitant of apple scab. Plant Dis. Rep. 52:799–801.
|
|
|
