1) genotype ×environment interaction
基因型与环境的互作
2) G×E interaction
基因型与环境互作
1.
Japonica sterile lines and restore lines were used in incomplete diallel crosses to analyze the genetic effects of agronomic traits in japonica hybrid rice by using the genetic model and analysis method for agronomic traits in G×E interaction.
利用粳型不育系及恢复系配制的不完全双列杂交F1组合及其亲本进行两年试验,应用基因型与环境互作模型分析杂交粳稻8个主要农艺性状的遗传特点。
2.
The results showed that the AMMI model could interpret G×E interaction in the absence of conditions necessary for the conventional linear regression analysis.
通过AMM I模型双标图和稳定性参数可以比较基因型与环境互作的大小,进而评价各参试品种的稳定性与适应性。
3.
The analysis of G×E interaction and its stability is an important content of the theory and application in plant breeding.
在植物育种中 ,分析基因型与环境互作及其稳定性是育种理论和实践的重要内容。
4) genotypic effect
环境与基因型互作
5) Gene×environment interaction
基因与环境互作
6) genotype × environment interaction
基因型×环境互作
1.
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
2.
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。
3.
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。
补充资料:基因型
分子式:
CAS号:
性质: 用基因组或互补染色体的碱基序列来定义的生物遗传特征和遗传表现。
CAS号:
性质: 用基因组或互补染色体的碱基序列来定义的生物遗传特征和遗传表现。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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