Literatur A
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Beyer M, Verreet J-A (2005): Germination of Gibberella zeae ascospores as affected by age of spores after discharge and environmental factors. European Journal of Plant Pathology 111: 381-389. Beyer M, Röding S, Ludewig A, Verreet J-A (2004): Germination and survival of Fusarium graminearum macroconidia as affected by environmental factors. Journal of Phytopathology 152: 92-97 Goodwin S.B., Ben M'Barek S., Dhillon B., Wittenberg A.H.J., Crane C.F., et al. (2011). "Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis". PLoS Genetics 7(6) Weste, G.(1972) The process of root infection by Ophiobolus graminis. Transactions of the British Mycological Society. 59(1): 133. www.hannafords.com Dangl, J. L.; Horvath, D. M.; Staskawicz, B. J. (2013). "Pivoting the Plant Immune System from Dissection to Deployment". Science 341 (6147): 746 Lutz, Diana (2012). Key part of plants' rapid response system revealed. Washington University in St. Louis. Bryant, Tracy (2008). When under attack, plants can signal microbial friends for help. University of Delaware. Jones, J. D.; Dangl, J.L. (2006). "The plant immune system". Nature 444 (7117): 323– 329 Dodds, P. N.; Rathjen, J. P. (2010). "Plant immunity: Towards an integrated view of plant–pathogen interactions". Nature Reviews Genetics 11 (8): 539. Friedman, A. R.; Baker, B. J. (2007). "The evolution of resistance genes in multi-protein plant resistance systems". Current Opinion in Genetics & Development 17 (6): 493–9. Ding, S. W.; Voinnet, O. (2007). "Antiviral Immunity Directed by Small RNAs". Cell 130 (3): 413–426
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Literatur A
Transcript of Literatur A
Beyer M, Verreet J-A (2005): Germination of Gibberella zeae ascospores as affected by age of spores after discharge and environmental factors. European Journal of Plant Pathology 111: 381-389.
Beyer M, Röding S, Ludewig A, Verreet J-A (2004): Germination and survival of Fusarium graminearum macroconidia as affected by environmental factors. Journal of Phytopathology 152: 92-97
Goodwin S.B., Ben M'Barek S., Dhillon B., Wittenberg A.H.J., Crane C.F., et al. (2011). "Finished Genome of the Fungal Wheat Pathogen Mycosphaerella graminicola Reveals Dispensome Structure, Chromosome Plasticity, and Stealth Pathogenesis". PLoS Genetics 7(6)
Weste, G.(1972) The process of root infection by Ophiobolus graminis. Transactions of the British Mycological Society. 59(1): 133.
www.hannafords.com
Dangl, J. L.; Horvath, D. M.; Staskawicz, B. J. (2013). "Pivoting the Plant Immune System from Dissection to Deployment". Science 341 (6147): 746
Lutz, Diana (2012). Key part of plants' rapid response system revealed. Washington University in St. Louis.
Bryant, Tracy (2008). When under attack, plants can signal microbial friends for help. University of Delaware.
Jones, J. D.; Dangl, J.L. (2006). "The plant immune system". Nature 444 (7117): 323–329
Dodds, P. N.; Rathjen, J. P. (2010). "Plant immunity: Towards an integrated view of plant–pathogen interactions". Nature Reviews Genetics 11 (8): 539.
Friedman, A. R.; Baker, B. J. (2007). "The evolution of resistance genes in multi-protein plant resistance systems". Current Opinion in Genetics & Development 17 (6): 493–9.
Ding, S. W.; Voinnet, O. (2007). "Antiviral Immunity Directed by Small RNAs". Cell 130 (3): 413–426
www.phys.org/news/2015-02-characterizes-genetic-resistance-wheat-disease.html
www.agroscope.admin.ch/biosicherheit/06948/06951/07260/index.html?lang=en
