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育种专题:基因定位和育种设计

点击数:  |  发表时间:2014-03-12

主要内容

经典数量遗传;植物育种和数量遗传;数量性状基因定位; 育种模拟原理;育种模拟工具;建模和模拟的育种应用;模拟软件QuLine演示

课件第一部分   课件第二部分 

练习题               答案和软件

参考文献
 
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Wang, J., M. van Ginkel, R. Trethowan, G. Ye, I. DeLacy, D. Podlich, and M. Cooper. 2004. Simulating the effects of dominance and epistasis on selection response in the CIMMYT Wheat Breeding Program using QuCim. Crop Science 44: 2006-2018.
Wang, J., H.A. Eagles, R. Trethowan, and M. van Ginkel. 2005. Using computer simulation of the selection process and known gene information to assist in parental selection in wheat quality breeding. Aus. J. Agric. Res. 56: 465-473.
Wang, J., X. Wan, H. Li, W. Pfeiffer, J. Crouch, J. Wan. 2007. Application of identified QTL-marker associations in rice quality improvement through a design breeding approach. Theor. Appl. Genet. 15: 87-100.
Wang, J., S.C. Chapman, D.B. Bonnett, G.J. Rebetzke, and J. Crouch. 2007. Application of population genetic theory and simulation models to efficiently pyramid multiple genes via marker-assisted selection. Crop Science 47: 580-588.
王建康,Wolfgang H. Pfeiffer2007。植物育种模拟的原理和应用。中国农业科学,401-12
Wang, J., S. C. Chapman, D. G. Bonnett, and G. J. Rebetzke. 2009. Simultaneous selection of major and minor genes: use of QTL to increase selection efficiency of coleoptile length of wheat (Triticum aestivum L.). Theor. Appl. Genet.119: 65-74.
Wang, J., R. P. Singh, H.-J. Braun, and W. H. Pfeiffer. 2009. Investigating the efficiency of the single backcrossing breeding strategy through computer simulation. Theor. Appl. Genet. 118: 683-694.
王建康、李慧慧、张鲁燕。基因定位与育种设计,第8和9章。北京:科学出版社,2014