Study of genomics from structural genomics era have entered to functional genomics era.
基因组学的研究已从结构基因组时代进入功能基因组时代。
Nuclear Magnetic resonance is a key technique in structural biology and structural genomics.
核磁共振波谱技术是结构生物学与结构基因组研究中的关键技术。
Structural genomics aims to use the data and computer simulation technique to set up models in order to serve human beings.
结构基因组学就是利用这些数据和计算机模拟技术建立模型来为人类服务。
LD mapping is an effective approach to discovering novel genes and a bridge for connecting structural genomics to phenomics.
基于LD的作图方法不仅是新基因发掘的有效途径,而且也是联系结构基因组学和表型组学的一座桥梁。
This paper introduces the main contents and progress of structural genomics research of DNA and RNA and discusses commercial future of structural genomics.
介绍了DNA和RNA的结构基因组学的主要研究内容和进展,讨论了结构基因组学的商业应用前景。
This book presents various structural genomics approaches and explores novel technologies that will potentially accelerate breakthroughs in drug discovery.
这书提出各种各样架构遗传学接近并且探索将潜在加速在药发现的突破的小说技术。
Microbial structural genomics and functional genomics try to illuminate the inner relation between gene structure and function, and constructed gene regulatory networks.
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。
Other fields seek to enhance knowledge about the bacterium itself. Structural genomics, for example, aims to uncover the three-dimensional structure of every protein in Mtb.
其他领域寻求强化关于这种细菌本身的知识。例如,结构基因组学著眼于发现结核分枝杆菌的每一个蛋白的三维结构。
The authors review the research advance of structural genomics, the current researching situation of cancer at the level of genomics, and its application to cancer research.
综述了结构基因组学的研究进展,在基因组学水平上对癌症的研究现状及其在癌症研究中的应用。
X-ray structures of catalogs of proteins have also provided useful information on the types of protein structures, folds and domains found in nature; this is sometimes termed structural genomics.
蛋白质X射线结构的目录也为蛋白质结构类型、自然状态下的折叠和域提供了有用信息。有时这被称为结构基因组学。
The Central Dogma of Genomics derives from structural biology.
这个基因组学的中心法则源于结构生物学。
Genomics — the field of genetics concerned with structural and functional studies of the genome.
研究生物体基因组的组成、结构与功能的学科。
Structural annotation is the foundation of all genomics as without accurate gene models understanding gene function or evolution of genes across taxa can be impeded.
结构注释是所有基因组学的基础,因为没有准确的基因模型,跨分类群理解基因功能或基因进化可能是受阻碍的。
Structural annotation is the foundation of all genomics as without accurate gene models understanding gene function or evolution of genes across taxa can be impeded.
结构注释是所有基因组学的基础,因为没有准确的基因模型,跨分类群理解基因功能或基因进化可能是受阻碍的。
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