该蛋白质结构生物信息学网络服务有1600多种不同的功能。
This protein structure bioinformatics web service collection has over 1600 different functions.
利用结构生物信息学方法进行蛋白质的理性设计,将会在后基因组时代的生物学研究和蛋白药物开发中起到越来越重要的作用。
Structural bioinformatics based rational protein design will play important role in biological research and development of protein therapeutics in the post genome era.
蛋白质结构的研究已经成为了生物信息学中的一个重要课题。
The research of the structure of protein has become an important topic in bioinformatics.
并通过应用最新现代生物信息学、蛋白质组技术体系对此酶的部分信息结构进行了鉴定。
And through applying newest modern biological informatics and proteome technical system the partial informations and the structure of this new tapy DNAase are further appraised.
生物信息学是基因、基因结构、基因产物功能分析必不可少的技术手段。
Biological information was the essential technique for agricultural science, which could be used to analyze the gene, the gene structure, the function of gene product.
运用生物信息学方法,对鸭瘟病毒TK基因的基本元件和TK蛋白的理化性质、结构、功能进行分析。
The basic elements of Duck Plague Virus TK gene and physicochemical properties, structure, function of TK protein were analyzed by using bioinformatics method.
蛋白质结构预测是生物信息学的一个主要研究方向,而蛋白质关联图预测是其中的一个重要内容。
The protein structure prediction is a main direction in bioinformatics, and the prediction of protein contact maps is an important content in protein structure prediction.
蛋白质结构预测是生物信息学中的重要课题,而蛋白质序列是蛋白质结构预测的基础。
The structure prediction of proteins is the important problem of biology informatics. And the protein sequence is the base of the structure prediction of proteins.
RNA二级结构预测问题是生物信息学的一个研究重点。
One of the most important research areas in bioinformatics is RNA secondary structure prediction.
利用生物信息学技术分析HBVDNAPTP1BP基因的染色体定位与组织表达,以及编码蛋白的化学物理性质与结构特征。
Bioinformatics technique was used to analyze the chromosome mapping and tissue expression of HBVDNAPTP1BP gene, and the chemical-physical property and structural feature of HBVDNAPTP1BP.
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.
RNA序列结构比对是生物信息学中的基本问题。
RNA sequence-structure alignment is a basic problem in bioinformatics.
序列比对是生物信息学中的一项重要任务,通过序列比对可以发现生物序列中的功能、结构和进化的信息。
Sequence alignment is an important task in bioinformatics. We may discover functional, structural and evolutionary information in biological sequences by sequence comparing.
从生物信息学的结构层次来定义,它是一个学科领域,包含着基因组信息的获取、处理、存储、分配、分析和解释的所有方面。
Genome informatics is a scientific discipline that encompasses all aspects of genome information acquisition, processing, storage, distribution, analysis, and interpretation. The U. s.
利用生物信息学软件对TVBMV编码蛋白的结构进行了预测,结果表明6k2和P3蛋白为跨膜蛋白。
Structures prediction of TVBMV proteins using bioinformatics software showed that 6k2 and P3 were transmembrane proteins while others were not.
然后用生物信息学方法对其结构域和功能作用位点进行分析和预测,并绘制该蛋白的进化树。
The structure and functions of the protein were analyzed by bioinformatics method, and the phylogenetic tree of the protein was drawn.
并应用生物信息学方法分析该基因的同源性、蛋白结构域及跨膜拓扑结构。
Bioinformatic methods were employed to analyze the homology of the nucleotide and amino acids sequence of beta subunit gene and its possible protein domain and transmembrane topology.
应用计算机软件及生物信息学站点对抗体的结构功能进行分析。
The structure and function of antibody were analyzed with related computer software.
这个计算系统致力于对核糖核酸进行鉴定、分析、预测结构、设计核糖核酸分子。这个系统以生物信息学软件为基础,满足高性能,高吞吐量的需求。
This system is dedicated to identify, analyze, structurally predict and design RNA molecules on the basis of established bioinformatics software in a high-performance, high-throughput fashion.
序列比对是生物信息学领域一种重要的研究方法,进行比对可以根据已知序列对未知序列的结构和功能进行快速的预测。
Sequence alignment is an important research method in Bioinformatics. It can predict the structures and functions of unknown sequences by aligning them to the known similar sequences.
该中心的研究领域包括:细胞生物学和信号传导,遗传学和分子生物学,免疫学,结构生物学和生物信息学。
Its research programs include: Cell Biology and Signaling, Genetics and Molecular Biology, Immunology, and Structural Biology and Bioinformatics.
蛋白拓扑结构预测是生物信息学的研究热点之一。
The topology prediction of transmembrane protein is a hot in Bioinformatics.
在各种生态环境中筛选微生物新种,监测微生物群落结构,并结合生物信息学进行微生物元基因组研究。
Classification of novel isolates, analysis of microbial population, and study of metagenomics with the support of bioinformatics from variant environments.
特里·波尔是一个结构性的生物信息学平台,在重新建立一个蛋白质工程协助,以减少免疫原性和优化其他财产。
Tripole is a structural bioinformatics platform to assist in the re-engineering of a protein to reduce immunogenicity and optimize other properties.
特里·波尔是一个结构性的生物信息学平台,在重新建立一个蛋白质工程协助,以减少免疫原性和优化其他财产。
Tripole is a structural bioinformatics platform to assist in the re-engineering of a protein to reduce immunogenicity and optimize other properties.
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