Identification and localization of DNA markers for selected powdery mildew resistance genes in oats and the pyramidization of effective resistance genes in the oat genome
Sylwia Okoń
sylwia.okon@up.lublin.plUniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin (Poland)
Tomasz Ociepa
Uniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin (Poland)
Aleksandra Nucia
Uniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin (Poland)
Supporting Agencies
Prace zostały wykonane w ramach badań podstawowych na rzecz postępu biologicznego w produkcji roślinnej na podstawie decyzji Ministra Rolnictwa i Rozwoju Wsi nr HOR.hn.802.9.2018, Zadanie 91.
Keywords:
B. graminis f.sp. avenae, efektywność genów, markery molekularne, owies, odpornośćReferences
Aung T., Thomas H., Jones T. 1977. The transfer of the gene for mildew resistance from Avena barbata (4x) into the cultivated oat A. sativa by an induced translocation. Euphytica 26: 623 — 632.
Banyal D. K., Sood V. K., Singh A., Mawar R. 2016. Integrated management of oat diseases in north-western Himalaya. Range Management and Agroforestry 37 (1): 84 — 87.
Clifford B. C. 1995. Diseases, pest and disorders of oat. In: R. W. Welch (Ed), The Oat Crop, Chapman & Hall, London: 252 — 278.
Feuillet C., Keller B. 1998. Molecular aspects of biotic stress resistance in wheat. Proc. 9th Int. Wheat Genet. Symp., Saskatoon, Saskatchewan, Canada, Oral Presentations. 1: 171 — 177.
Hsam S. L. K., Peters N., Paderina E. V., Felsenstein F., Oppitz K., Zeller F. J. 1997. Genetic studies of powdery mildew resistance in common oat (Avena sativa L.). I. Cultivars and breeding lines grown in Western Europe and North America. Euphytica 96: 42 1 — 427.
Okoń S., Ociepa T., Nucia A. 2018. Molecular identification of Pm4 powdery mildew resistant gene in oat. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2018 46 (2): 350 — 355.
Pietrusińska A. Czembor J. H. 2015. Gene pyramiding — a tool commonly used in breeding programs breeding programs. Biul. IHAR 278: 3 — 16.
Xue L H., Li, C. J., Zhao G. Q. 2017. First Report of Powdery Mildew Caused by Blumeria graminison Avena sativa in China. Plant Disease 101, 11: 1954. Google Scholar
Banyal D. K., Sood V. K., Singh A., Mawar R. 2016. Integrated management of oat diseases in north-western Himalaya. Range Management and Agroforestry 37 (1): 84 — 87.
Clifford B. C. 1995. Diseases, pest and disorders of oat. In: R. W. Welch (Ed), The Oat Crop, Chapman & Hall, London: 252 — 278.
Feuillet C., Keller B. 1998. Molecular aspects of biotic stress resistance in wheat. Proc. 9th Int. Wheat Genet. Symp., Saskatoon, Saskatchewan, Canada, Oral Presentations. 1: 171 — 177.
Hsam S. L. K., Peters N., Paderina E. V., Felsenstein F., Oppitz K., Zeller F. J. 1997. Genetic studies of powdery mildew resistance in common oat (Avena sativa L.). I. Cultivars and breeding lines grown in Western Europe and North America. Euphytica 96: 42 1 — 427.
Okoń S., Ociepa T., Nucia A. 2018. Molecular identification of Pm4 powdery mildew resistant gene in oat. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2018 46 (2): 350 — 355.
Pietrusińska A. Czembor J. H. 2015. Gene pyramiding — a tool commonly used in breeding programs breeding programs. Biul. IHAR 278: 3 — 16.
Xue L H., Li, C. J., Zhao G. Q. 2017. First Report of Powdery Mildew Caused by Blumeria graminison Avena sativa in China. Plant Disease 101, 11: 1954. Google Scholar
Okoń, S. ., Ociepa, T. . and Nucia, A. . (2019) “Identification and localization of DNA markers for selected powdery mildew resistance genes in oats and the pyramidization of effective resistance genes in the oat genome”, Bulletin of Plant Breeding and Acclimatization Institute, (286), pp. 181–182. doi: 10.37317/biul-2019-0040.
Authors
Sylwia Okońsylwia.okon@up.lublin.pl
Uniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin Poland
Authors
Tomasz OciepaUniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin Poland
Authors
Aleksandra NuciaUniwersytet Przyrodniczy w Lublinie, Instytut Genetyki, Hodowli i Biotechnologii Roślin Poland
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