@article{guo_yu_li_zhang_zhu_flint-garcia_mcmullen_holland_szalma_wisser_et al._2019, title={Optimal Designs for Genomic Selection in Hybrid Crops}, volume={12}, ISSN={["1752-9867"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85061008767&partnerID=MN8TOARS}, DOI={10.1016/j.molp.2018.12.022}, abstractNote={Improved capacity of genomics and biotechnology has greatly enhanced genetic studies in different areas. Genomic selection exploits the genotype-to-phenotype relationship at the whole-genome level and is being implemented in many crops. Here we show that design-thinking and data-mining techniques can be leveraged to optimize genomic prediction of hybrid performance. We phenotyped a set of 276 maize hybrids generated by crossing founder inbreds of nested association mapping populations for flowering time, ear height, and grain yield. With 10 296 310 SNPs available from the parental inbreds, we explored the patterns of genomic relationships and phenotypic variation to establish training samples based on clustering, graphic network analysis, and genetic mating scheme. Our analysis showed that training set designs outperformed random sampling and earlier methods that either minimize the mean of prediction error variance or maximize the mean of generalized coefficient of determination. Additional analyses of 2556 wheat hybrids from an early-stage hybrid breeding system and 1439 rice hybrids from an established hybrid breeding system validated the approaches. Together, we demonstrated that effective genomic prediction models can be established with a training set 2%-13% of the size of the whole set, enabling an efficient exploration of enormous inference space of genetic combinations.}, number={3}, journal={MOLECULAR PLANT}, author={Guo, Tingting and Yu, Xiaoqing and Li, Xianran and Zhang, Haozhe and Zhu, Chengsong and Flint-Garcia, Sherry and McMullen, Michael D. and Holland, James B. and Szalma, Stephen J. and Wisser, Randall J. and et al.}, year={2019}, month={Mar}, pages={390–401} }
 @article{stokes_fraser_morgan_o'neill_dreos_magusin_szalma_bancroft_2010, title={An association transcriptomics approach to the prediction of hybrid performance}, volume={26}, number={1}, journal={Molecular Breeding}, author={Stokes, D. and Fraser, F. and Morgan, C. and O'Neill, C. M. and Dreos, R. and Magusin, A. and Szalma, S. and Bancroft, I.}, year={2010}, pages={91–106} }