Browsing by Author "Springfield, Lezaan Sevone"
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- ItemPyramiding of rust resistance genes in wheat utilizing male sterility mediated marker-assisted recurrent selection(Stellenbosch : Stellenbosch University, 2014-12) Springfield, Lezaan Sevone; Botes, Willem; Stellenbosch University. Faculty of AgriSciences. Dept. of Genetics.ENGLISH ABSTRACT: Wheat production is globally affected by several different wheat rust diseases. The rust diseases can effectively be controlled by the deployment of multiple resistance genes that confer durable resistance. One of the most effective strategies to incorporate resistance genes is by the implementation of recurrent mass selection as it maximizes opportunities for gene pyramiding. The implementation of a recurrent mass selection program in wheat can effectively be enhanced with the use of genetic male sterility and the incorporation of maker assisted-selection (MAS). The aim of the study was to pyramid wheat rust resistance genes in wheat lines by utilizing a male sterile mediated marker-assisted recurrent selection breeding (MS-MARS) scheme. An existing segregating MS-MARS base population and resistance donor lines carrying genes of interest (Sr26, Sr35 and Sr45) were used as female and male crossing parents. Potential markers for the genes of interest were first identified and validated on the male population. PCR based markers tested for Sr26 and Sr45 easily distinguished between resistant and non-resistant plants in the study, while markers tested for the detection of Sr35 and Sr45 in most instances failed to do so. The identified Sr26 marker (Sr26#43) was successfully added to the SU-PBL’s standardized marker set in a multiplex reaction. The standardized marker set and the co-dominant PCR marker for Sr45 were used to screen male and female populations before and after cross-pollination. Several wheat rust resistance genes were present in various frequencies in both male and female populations prior to the first crossing cycle, except Sr26 and Sr45. Increases in gene frequencies and combinations were obtained after the first crossing cycle, highlighting the effectiveness of the MS-MARS breeding strategy to improve gene frequencies of desirable genes. Two MS-MARS crossing cycles were successfully completed and large numbers of hybrid seeds were produced in a short period of time by selecting male sterile plants based on distinct characteristics induced by the dominant male sterility gene. Future studies will include the wide deployment of Sr26 and Sr45 in the MS-MARS breeding program as markers are now available and can be included in the SU-PBL’s standardized marker set for the effective detection of these genes, the development of gene-specific markers for Sr35 to ascertain the presence of the gene in the MS-MARS population and the specific selection of male sterile plants with wide open glumes to maximize outcrossing rates.