因此,功能基因组系统学应运而生。
功能基因组学另一个研究重点是人类疾病相关基因。
Another important aspect of functional genomics is the research on human disease - related genes.
植物蛋白质的亚细胞定位是功能基因组学的重要内容。
Protein subcellular localization is one of the key questions for functional genomics.
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。
Study of genomics from structural genomics era have entered to functional genomics era.
鸡基因组测序草图的完成标志着禽类功能基因组时代的到来。
The publication of draft sequence of the chicken genome in early 2004 marks expressly the start of functional genomics of poultry.
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。
In this review, the progress and main methods in rice functional genomics is discussed.
该实验室主要将统计方法和计算机技术应用于功能基因组数据。
The lab applies statistical and computational methods to functional genomics data.
有关选择性剪接的调控机制是功能基因组时代的重要前沿问题之一。
Problems about mechanisms control alternative splicing is a leading research endeavors in functional genome era.
蛋白质组学是后基因组时代功能基因组学研究的新兴学科和热点领域。
Proteomics is one of the most active research fields in the post_genomic era.
后基因组时代,功能基因组学研究的目标就是破译基因的功能并控制它们。
In post-genome era, the objective of functional genomics study is to decode the functions of genes and control them.
本文结果可用于禾谷类植物比较基因组学分析和植物功能基因组学的研究。
The data described in this paper shows a great potential in the comparative genomics of cereal crops and plant function genomics.
综述了T-DNA标签法的特点及其在水稻功能基因组研究中应用的进展。
The features of T-DNA tagging and the progress of its application in the research of rice functional genome were reviewed in the paper.
简要介绍了目前我国在食品相关的功能基因组学将要和正在进行的相关工作。
This thesis briefly introduced the correlation work of the function genome of food in China.
随着测序工作的完成,水稻基因组研究的重点随即转移到功能基因组研究上。
The main task of rice genome research has been shifted to functional genome study since rice sequencing was completed.
在人类基因组完成工作框架图以后,人类功能基因组学成为最重要的任务之一。
After the human genome project (HGP) was completed, one of the most import ant tasks is to explore human functional genomics.
因此对水稻功能基因组的研究不仅关乎人们的吃饭问题,还能揭示植物发育的机理。
The research of rice functional genomes is not only related about people's food, but also a great impulse on the realization of plant development mechanisms.
随着人类基因组测序工作的完成,功能基因组的全面展开,后基因组的时代已经到来。
Since the human genome sequence has been finished and the function-genome was developed roundly, the post-genome era is coming.
T - DNA标签法转化植物建立突变体库是植物功能基因组研究的重要而有效的方法。
Using T-DNA tagging approach for transforming plant is a powerful tool for the study of plant functional genome.
同时,展望了VIGS技术作为植物功能基因组学功能分析的高通量技术平台的美好前景。
The review provides the prospects for VIGS as a powerful and high-through tool for assessing and characterizing the function in plant function genomics.
尽管目前只解出了约3%的序列,但功能基因组的研究已经开始,后基因组的时代已经到来。
Although only 3 % of the total DNA sequence have been analyzed, the study of the functional genome is already on the agenda and the post genomic era is already with us.
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。
With the completion of the rice ge - Nome sequence in 2002, the study on functional genomics in rice has become a major task.
功能基因组学研究最直接最有效的方法是构建饱和的基因突变群体,通过突变体分析鉴定基因功能。
To confirm gene function by mutant analysis based on a saturated mutant population is a straight and efficient way.
鱼类病毒分子生物学和功能基因组学,海洋环境微生物功能基因组学,细胞生物学和鱼类分子免疫学。
Molecular biology and functional genomics of fish viruses; functional genomics of Marine environmental microbes; Cellular and molecular fish immunology.
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.
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。
It discusses the progress of transposon tagging technology, as well as its use in studying in functional genomics of rice.
随着拟南芥、水稻等模式植物基因组测序的完成,植物基因组学的研究重点已经转变为功能基因组学研究。
With the completeness of the two model plants, Arabidopsis and rice, genomic sequencing project, the emphasis of plant genomic research has focused on functional genome research.
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 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.
功能基因组研究不仅是2 1世纪整体细胞生物学最重要的内容,而且将为医药、农业和工业的革新提供崭新的思路。
And functional genomics research not only is the most important part of whole cell biology in 21 century, but also can provide medicine, agriculture, and industry with new ideas.
功能基因组研究不仅是2 1世纪整体细胞生物学最重要的内容,而且将为医药、农业和工业的革新提供崭新的思路。
And functional genomics research not only is the most important part of whole cell biology in 21 century, but also can provide medicine, agriculture, and industry with new ideas.
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