玉米茎粗主基因+多基因遗传模型分析  被引量:7

Mixed major gene plus polygene inheritance model for stem diameter in maize

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作  者:王铁固[1] 马娟[1] 张怀胜[1] 陈士林[1] 

机构地区:[1]河南科技学院生命科技学院,河南新乡453003

出  处:《江苏农业学报》2012年第3期467-471,共5页Jiangsu Journal of Agricultural Sciences

基  金:河南省科技攻关项目(102102110165);河南科技学院高层次人才启动项目(2009012)

摘  要:以玉米杂交组合PH4CV×昌7-2(组合I)和PH6WC×7873(组合Ⅱ)的6个群体P1、P2、F1、B1、B2、F2为材料,研究了春播和夏播条件下玉米茎粗的主基因+多基因遗传规律。结果显示,组合Ⅰ的茎粗在2种环境下均受D-2模型控制。组合Ⅱ的茎粗在春播环境下符合E-1模型,在夏播环境下符合D-2模型。在春播环境下,组合Ⅰ和组合Ⅱ的茎粗均以主基因遗传为主,可以采用单交重组或简单回交转育的方法来提高育种的效率。在夏播环境下,组合Ⅰ和组合Ⅱ的茎粗均表现为多基因遗传,可以采用聚合回交或轮回选择来累积微效基因,从而提高育种效率。The six populations (PI, P2, F1, B1, B2 and F2 ) of maize cross I (PH4CVxChang 7-2) and crosss 11 (PH6WCx7873) were used to study the genetic rules for the stem diameter of maize in spring and summer. The results showed that stem diameter of cross I was controlled by model D-2 in spring and summer. The optimal model for stem diame- ter of cross Ⅱ was model E-1 in spring, and model D-2 in summer. In spring, the stem diameters of cross I and cross Ⅱ were mainly controlled by major genes, and single cross recombination or simple backcross could be adopted to improve the efficiency of maize breeding. In summer, the stem diameters of cross I and cross Ⅱ were mainly governed by polygenes, and polymerization backcross or recurrent selection could be adopted to accumulate positive alleles and improve the efficien- cy of maize breeding.

关 键 词:玉米 茎粗 主基因+多基因 遗传分析 

分 类 号:S513.035.3[农业科学—作物学]

 

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