Page 4 |
1 - Small Grains Fungal Disease Laboratory
2 - Page 2 3 - Page 3 4 - Page 4 5 - Page 5 6 - Page 6 |
ABSTRACTS OF PAPERS PRESENTED AT MEETINGS
Sujkowski, L. S., S. B. Goodwin, and W. E. Fry. 1995. Changes in specific pathogenicity in Phytophthora infestans populations in Poland. Phytopathology85: 1132.
Zhang, G., and S. B. Goodwin. 1996. Enzyme polymorphism among isolates of Mycosphaerella graminicola (anamorph Septoria tritici) and Septoria passerinii. Phytopathology86: S90.Goodwin, S. B. 1997. Wright's fixation index analysis reveals the probable mating system for 16 species of Phytophthora. Proceedings of the 19th Fungal Genetics Conference, Abstract 120, Asilomar, CA.
Goodwin, S. B. 1997. Origin of the A2 mating type of Phytophthora infestans outside Mexico. Phytopathology87: S34.
Hu, X., and S. B. Goodwin. 1998. Cloning and characterization of resistance gene analogs from wheat. Abstract P175, Plant & Animal Genome VI, San Diego, CA.
Hu, X., S. B. Goodwin, and G. Shaner. 1998. Molecular mapping of a gene for resistance to Septoria tritici blotch in wheat. Abstract P176, Plant & Animal Genome VI, San Diego, CA.
Goodwin, S. B., and G. H. J.Kema. 1998. Population genetics of RAPD variation and the development of SCARs in Mycosphaerella graminicola. 7th International Congress of Plant Pathology, Edinburgh, Scotland, UK.
Goodwin, S. B. 1998. Probable sympatric speciation in Phytophthora mediated by changes in host specificity. Abstracts of the international one day symposium, Advances in Phytophthora Molecular Genetics, Edinburgh, Scotland, UK.
Goodwin, S. B. 1998. High genetic similarity among cloned resistance gene analogs from wheat, rice and barley. Phytopathology88: S33.
Goodwin, S. B. 1999. High evolutionary conservation of resistance gene analogs from diverse plant hosts. Plant & Animal Genome VII, Abstract P435, San Diego, CA .
Kema, G. H. J., S. B.Goodwin, S. Hamza, E. C. P.Verstappen, J. R. Cavaletto, T. A. J. van der Lee, M. Hagenaar-de Weerdt, P. J. M. Bonants, and C. Waalwijk. 1999. Mapping the Mycosphaerella graminicolagenome. Abstracts of the Twentieth Fungal Genetics Conference, Abstract 325, Asilomar, CA.Goodwin, S. B., and F. I. Urmeev. 1999. Genes expressed during the resistance response of wheat to the fungal pathogen Mycosphaerella graminicola. Phytopathology89: S28.
Goodwin, S. B. 1999. Molecular tracking new migrations of an old pathogen: the re-emergence of potato late blight. Abstracts of the 91st annual congress of the Quebec Society of Plant Protection, Saint-Jean-sur-Richelieu, Quebec, Canada, p. 24.
Goodwin, S. B., and F. I. Urmeev. 2000. Differential display analysis identifies possible genes for resistance against septoria tritici blotch in wheat. Plant & Animal Genome VIII, Abstract P67, San Diego, CA.
Anderson, J. M., Williams, C. E., and Goodwin, S. B. 2000. Analysis of an EST database reveals a probable Cf2 resistance gene homolog in wheat. Plant & Animal Genome VIII, Abstract P584, San Diego, CA.
Goodwin, S. B., J. R. Cavaletto, and G. H. J. Kema. 2000. A transposable element in Mycosphaerella graminicola is active during sexual and asexual reproduction. Abstracts of the 5th European Conference on Fungal Genetics, Arcachon, France.
<< Previous 1 2 3 [4] 5 6 Next >> |