基因、染色体与基因组的结构和功能。
植物基因组序列的注释能够被分成结构注释和功能注释。
Annotation of plant genomic sequences can be separated into structural and functional annotation.
随着人类和一些重要模式生物测序任务的相继完成,其相应的研究任务已经由结构基因组学研究转向功能基因组学研究。
With the sequencing completion of human and model biology, their study had come into functional genome research from structural genome research.
摘要 :基因组和蛋白质结构与功能方面已积累了海量数据。
Abstract : Massive data is accumulated in the aspects of genome, structure and function of protein.
反转录转座子是植物中最不稳定的遗传元件之一,它们对基因组的大小、结构、功能和进化都有重要作用。
Retrotransposons are one of the most unstable genetic elements in the plant kingdom, they have the potential to dramatically affect gene function and host genome structure.
分子标记连锁图的构建为植物基因组的结构和功能分析提供了有力的工具。
Molecular linkage maps provide a powerful tool for the analysis of plant genome structure and function including the detection of quantitative trait loci (QTL).
微生物结构基因组学和功能基因组学研究试图揭示基因结构与功能的内在联系,绘制出基因调控网络图。
Microbial structural genomics and functional genomics try to illuminate the inner relation between gene structure and function, and constructed gene regulatory networks.
借助比较基因组学、模拟分析和具体试验,快速获取直向同源序列结构和功能信息。
The objective of this study is to efficiently obtain the structural and functional information of orthologs .
糖组学是继基因组学和蛋白质组学后的新兴研究领域,主要研究聚糖结构与功能。
Glycomics is an emerging field of life science that proposed as a new concept to follow genomics and proteomics, which focus on glycan structures and function.
以一种比较方式进行跨基因组的联合结构注释和功能注释促进了更准确的注释以及对基因和基因组进化的一个理解。
Coupling structural and functional annotation across genomes in a comparative manner promotes more accurate annotation as well as an understanding of gene and genome evolution.
植物近缘物种之间的基因组结构和序列比较分析可以为研究植物基因功能和进化提供参考。
Comparative analyses of genome structure and sequence of closely related species have yielded insights into the evolution and function of plant genomes.
基因组学时代已经使得科学家能够更容易地提出有关突变、进化、基因和基因组结构、功能和调控的真实地全局问题。
The genomics era has enabled scientists to more readily pose truly global questions regarding mutation, evolution, gene and genome structure, function, and regulation.
基因组学时代已经使得科学家能够更容易地提出有关突变、进化、基因和基因组结构、功能和调控的真实地全局问题。
The genomics era has enabled scientists to more readily pose truly global questions regarding mutation, evolution, gene and genome structure, function, and regulation.
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