In this review, the progress and main methods in rice functional genomics is discussed.
本文将对水稻功能基因组的研究进展及其方法等进行简要概括。
The role of these mutants on plant physiology and rice functional genomics research were discussed.
最后讨论了这些突变体在生理学和功能基因组学研究中的作用。
It discusses the progress of transposon tagging technology, as well as its use in studying in functional genomics of rice.
并就转座子标签技术的研究新进展,转座子标签技术在水稻功能基因组学研究中的应用等方面进行了综述。
The japonica rice (Oryza sativa L.) variety Zhonghua 11, developed by anther culture technology, was irradiated by gamma rays to induce extensive mutation for functional genomics research use.
利用伽玛射线对粳稻品种中花11进行辐照,以诱导广泛的形态突变体,为水稻功能基因组研究提供基础材料。
The importance of developing rice SNPs for the rice breeding and functional genomics research was also elucidated.
最后阐述了SNP的开发对于水稻育种和功能基因组学研究的重要作用。
With the completion of the rice ge - Nome sequence in 2002, the study on functional genomics in rice has become a major task.
自2002年水稻基因组测序完成后,水稻功能基因组学研究正在成为水稻研究的重要内容。
Because of its small genome size, relatively well developed genetic maps and easily to be transferred, rice is a model plant for functional genomics research.
水稻在禾谷类作物中基因组最小,且易于体外操作与分化等优点,因此被确定为禾谷类作物功能基因组学研究的模式植物。
SNP has showed the huge potential in the establishing in the rice genetic maps, genes cloning and functional genomics, MAS in rice breeding and studying in classification and evolution of germplasm.
单核苷酸多态性在水稻遗传图谱的构建、基因克隆和功能基因组学研究、标记辅助选择育种、遗传资源分类及物种进化等方面的应用具有巨大潜力。
SNP has showed the huge potential in the establishing in the rice genetic maps, genes cloning and functional genomics, MAS in rice breeding and studying in classification and evolution of germplasm.
单核苷酸多态性在水稻遗传图谱的构建、基因克隆和功能基因组学研究、标记辅助选择育种、遗传资源分类及物种进化等方面的应用具有巨大潜力。
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