The relationship between gene-environment interaction and human diseases;
基因-环境相互作用与人类疾病的关系
Stability of rice grain’s milling quality in relation to genotype × environment interaction and climatic factors;
水稻碾磨品质稳定性及基因型×环境互作与气候因子的关系
Unbiased prediction can be applied for predicting genotype effects and genotype × environment interaction effects, which can then be further used for mapping QTL or developmental QTL with genetic main effects and GE interaction effects by interval mapping or composite interval mapping approaches.
采用混合线性模型随机效应的无偏预测方法,可以预测基因型值和基因型×环境互作效应值,再运用区间作图法或复合区间作图法间接分析QTL的加性、显性遗传主效应及其与环境的互作效应,还能定位在特定发育阶段表达的QTL。
Genotype × environment interactions were expressed mainly as endosperm genotype × envi- ronment and maternal genotype × environment, while no cytoplasm × environment were detected signifi- c.
用包括基因型×环境互作效应的种子性状遗传模型研究了稻米淀粉粘滞性谱(RVA谱)的3个特征参数(最高粘度、热浆粘度和冷胶粘度)的遗传基础。
An additive-dominance genetic model with genotype by environment interaction, combined with unconditional and conditional variances approaches, was applied to analyze the developmental genetic behavior in leaf stay-green trait at different developmental stages in maize inbred lines under different environmental conditions.
采用包括基因型×环境互作效应的加性-显性遗传模型及非条件和条件的分析方法,研究多环境条件下玉米自交系叶片保绿度不同发育时期的遗传效应及与环境互作效应。
An additive-dominance-maternal genetic model with genotype by environment interactions by Zhu Jun were applied to analyze genetic main effects and genotype by environment interactions for leaf protein content in maize under different environment conditions and different developmental stages.
采用朱军包括基因型×环境互作效应的加性-显性-母体效应遗传模型(ADM模型)分析方法,研究了不同环境条件下不同发育时期玉米叶片蛋白质含量的遗传主效应及其与环境互作遗传效应。
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