Book chapter
Large population with low marker density verse small population with high marker density for QTL mapping: A case study for mapping QTL controlling barley net blotch resistance
Advance in Barley Sciences. Proceedings of 11th International Barley Genetics Symposium, pp.301-315
Springer
2012
Abstract
The development of array-based high-throughput genotyping methods created significant opportunities to increase the number of genetic populations for linkage analysis. In the present study, a strategy was proposed for mapping QTLs (quantitative trait loci) based on DArT (diversity arrays technology) genotyping system. A consensus linkage map was constructed with both DArT and SSR markers by utilizing a subgroup DH population, and a second linkage map was constructed with SSR markers alone and a more extensive full DH population. Resistance to barley net-type net blotch disease was analyzed using the subpopulation data with the high-density consensus linkage map and the full-population data with the low-density SSR linkage map, respectively. Two interactive QTLs were detected either by the sub- or full population. Simulation studies were conducted to validate the strategy presented in this chapter. In addition, a computer program written in C++ is freely available on the web to deal with the data files. Based on both real data analysis and simulation studies, we concluded that high-density molecular markers, small population size, and precise phenotyping can improve the precision of mapping major-effect QTL and the efficiency of conducting QTL mapping experiment.
Details
- Title
- Large population with low marker density verse small population with high marker density for QTL mapping: A case study for mapping QTL controlling barley net blotch resistance
- Authors/Creators
- J. Yang (Author/Creator)C. Li (Author/Creator)X. Gong (Author/Creator)S. Gupta (Author/Creator)R. Lance (Author/Creator)G. Zhang (Author/Creator)R. Loughman (Author/Creator)J. Zhu (Author/Creator)
- Contributors
- G. Zhang (Editor)C. Li (Editor)L. Xu (Editor)
- Publication Details
- Advance in Barley Sciences. Proceedings of 11th International Barley Genetics Symposium, pp.301-315
- Publisher
- Springer
- Identifiers
- 991005545125607891
- Murdoch Affiliation
- State Agricultural Biotechnology Centre
- Language
- English
- Resource Type
- Book chapter
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