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Abstract
In this study, we evaluated the resistance of a synthetic collection of wheat to stripe rust disease in an artificial inoculation field for local races and selected synthetic wheat genotypes with high resistance to yellow rust. As a result of the study, a different level of resistance to yellow rust of synthetic collection lines of wheat was determined. Synthetic wheat genotypes were divided into 4 groups according to resistance to yellow rust disease. Twenty-two percent (24) of the samples were found to be highly resistant to yellow rust (R-10MR). Among the synthetic wheat genotypes of selected varieties, along with yellow rust resistant lines, lines with a high productivity were recommended for use in the next stages of breeding.
References
Casey LW, Lavrencic P, Bentham AR, Cesari S, Ericsson DJ, Croll T, et al. The CC domain structure from the wheat stem rust resistance protein Sr33 challenges paradigms for dimerization in plant NLR proteins. Proc Natl Acad Sci USA 2016;113(45):12856–61.
Chen, X.M., Line, R.F., Shi, Z.X., and Leung, H. Genetics of wheat resistance to stripe rust. In Proceedings of the 9th International Wheat Genetics Symposium. 2–7 August 1998, University of Saskatchewan, Saskatoon, Sask. Edited by A.E.Slinkard. University Extension Press, University of Saskatchewan, Saskatoon, Sask. 1998a. Vol. 3. pp. 237–239.
Chen XM. 2005. Epidemiology and control of stripe rust (Puccinia striiformis f. sp. tritici) on wheat. Can J Plant Pathol. 27:314–337.
Hovmuller MS, Justesen AF, Brown JKM. 2002. Clonality and long-distance migration of Puccinia striiformis tritici in north-west Europe. Plant Pathol. 51:24–32
Del Blanco IA, Rajaram S, Kronstad WE. Agronomic potential of synthetic hexaploid wheat-derived populations. Crop Sci 2001;41(3):670
Mujeeb-Kazi A. 2003. Wheat improvement facilitated by novel genetic diversity and in vitro technology. Plant Cell Tissue Organ Culture. 13:179–210.
Roelfs A.P, Singh R.P and Saari