从此,蜜蜂研究进入后基因组时代。
Therefore, the research on the honey bee has entered into a post-genomic era.
来迎接后基因组时代数量遗传领域的挑战。
This is a major challenge for quantitative genetics in the post-genome era.
干细胞技术是人类后基因组计划的一部分。
The stem cells technology is a part of the plan of human beings postnatal gene groups.
在后基因组时代,蛋白质组学成为新的研究热点。
In post - genomic era, proteomics becomes the focus of research.
该计划完成以后的基因研究进入了后基因组时代。
After that, gene research entered the era of post-genomic. Th...
蛋白质组是后基因组时代出现的一个新兴研究领域。
比较基因组学是后基因组时代基因组研究的一项重要内容。
Comparative genomics is an important content in post-genome era.
随着越来越多的模式生物测序完成,开始进入后基因组时代。
The post genome era starts with more and more model organisms sequenced.
表明三个枇杷品种的多倍体在多倍化后基因组均发生了变异。
The results indicate all the three loquat cultivars polyploid occurred genomic variation after polyploidy.
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.
基因组学已经进入到后基因组学时代,破解基因功能是当前的主要任务。
The genomics has entered the Postgenomics Era, and the most important task is to interpret the genome function.
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.
随着人类基因组计划的基本完成,生命科学研究进入了”后基因组”时代。
With the human genome project's basic completion, scientific research of life indicates that it has entered a "post-genomic" era.
后基因组时代的到来,预示着生命科学将从研究基因转向对基因功能的探索。
Upon the coming of post-genomics era, the life science will from the study of gene switch to explore the function of gene.
灰霉,研究最充分的植物病原菌和最主要的葡萄病原真菌,进入后基因组时代。
Botrytis cinerea, one of the most studied necrotrophic phytopathogens and one of the main fungal parasites of grapevine, enters the post-genomic era.
结论:?DEN诱发大鼠肝癌的后基因组变化中168个基因值得优先关注。
CONCLUSION: DEN-induced up-regulations of genes in liver cancer are fairly complicated, of which 168 ones need paying more attention to.
基因敲除技术的广泛应用,极大地推动了后基因组时代对于基因功能研究的进程。
The widespread use of gene knockout technology promotes the course of the research of gene function in post genomic era greatly.
科学技术不断迅猛发展,DNA芯片已成为生命科学后基因组时代研究的重要工具。
As the science and technology developed rapidly, DNA chips have become an important tool in the research of life science in the era of post genome project.
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.
在后基因组时代的植物生物学研究的一个主要挑战是确定植物基因组中所有基因的功能。
A major challenge in the post-genome era of plant biology is to determine the functions of all the genes in the plant genome.
随着人类基因组计划的完成,完整地了解基因组功能,成为了后基因组时代的主要目标。
With the human genome project to be completed, the function of the human genome to be completely understood is becoming an essential target in the post-genome time.
着重指出,理解大量生物学数据所包括的生物学意义已成为后基因组时代极其重要的课题。
I point out that it is extremely important to understand the biological significance of a variety of sequence and structure data in the post-genome era.
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.
蛋白质组研究是近来兴起的生命科学的前沿领域,是生命科学进入后基因组时代的标志之一。
Proteomic research, as a new frontier developed recently in life science, has become one of the landmarks for era of post-genome.
蛋白质组学研究是近年来兴起的生命科学的前沿领域,是生命科学进入后基因组时代的标志之一。
Proteomics research, as a new frontier developed recently in life science, has become one of the landmarks for the post genome era.
蛋白质组学以蛋白质组为研究对象,从整体上对生命载体进行研究,已成为后基因组时代的研究热点。
Proteomics, aiming to analyze the proteome and research the carrier of life on a whole level, has become a focus of life science in the era of post-genomics.
RNA干扰作为后基因组时代的一种下调基因表达的工具已被广泛用于基因功能的研究以及疾病的治疗。
The use of the RNA interference (RNAi) to eliminate specific gene products has greatly facilitated the understanding of gene function and the therapy of diseases.
随着人类基因组计划的完成,应用生物信息学技术预测蛋白质结构与功能将成为后基因组时代的一项重要任务。
With the completion of human genome project, prediction and analysis of protein structure and function by using informatics has become one of the most important tasks of after the genome project.
随着后基因组时代的来临,蛋白质序列信息增长迅速,而利用实验手段分析蛋白亚细胞定位的不易大规模进行。
With the advent of the post-genome era, the rapid enlarge of protein sequence information, it is difficult to use experimental methods in large-scale analysis of protein subcellular location.
本文概述了人类基因组及后基因组的研究进展及依此开展基因治疗及基因(组)药物研制等应用开发研究的现状。
The article expounds the progress of the study of human genome and post-genome and the current situation of the study of gene therapy and gene drugs.
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