结论表达序列标签法、步移法测序和生物信息学技术有利于发现日本血吸虫新基因。
Conclusion It is a feasible method to discover and acquire novel genes of S. japonicum by ESTs, combination of primer-walking sequncing and bioinformatics technique.
目的:探讨砷化物与基因的相互作用,克隆砷相关基因,利用生物信息学技术分析克隆基因。
Objective: To explore the interaction of gene with arsenic compounds, arsenic related gene was cloned and its function was analyzed by bioinformatics.
方法采用基因克隆、测序及生物信息学技术,分析HLA新等位基因与HLA已知基因序列的差异。
Methods Molecular cloning, sequencing and bioinformatics techniques were used to identify the difference between the new HLA allele and other known alleles.
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.
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.
结果:通过酵母双杂交技术获得了人ns5abp37的编码基因。利用生物信息学技术确定了小鼠ns5abp37的基因序列。
RESULTS: human NS5ABP37 was screened and cloned from human liver cDNA library by yeast-two hybrid system 3. The murine NS5ABP37 was deduced by bioinformatics methods.
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.
A 7掌握现代生物技术包括基因工程、细胞工程、酶工程、发酵工程、生物信息学等相关学科的专业理论知识。
A7 Grasp theory of modern biotechnology such as gene engineering, cell engineering, enzyme engineering, fermentation engineering, and bioinformatics etc.
这些实验方法已资助在高通量的基因组和表观基因技术,集成系统生物学和生物信息学的巨大进步。
These experimental approaches have been aided by tremendous advances in high-throughput genomic and epigenomic technologies, integrated systems biology and bioinformatics.
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.
生物信息学指的是:被设计成处理这些极大量信息的计算机软件技术。
Bioinformatics is the name given to the computer software technologies that are being devised to manage this information overload.
蛋白质组研究技术主要包括双向电泳、质谱和生物信息学。
Proteomic techniques mainly include two-dimensional electrophoresis, mass spectrometry and bioinformatics.
本文主要对适用于生物序列数据上的后缀树索引技术和生物信息学中的多序列比对算法进行了分析和研究。
This thesis mainly focuses on the study of suffix tree index technical dealing with bio-sequences and multiple sequences alignment problem in bioinformatics.
内容、特色、意义运用分子生物学技术和生物信息学分析方法,比较研究动物基因、基因组的演化,揭示动物类群的进化和系统生物学关系。
The researches are focus on comparison of the animal genes or genomes evolution for revealing phylogenetic relationships among lineages using the molecular biotechnique and bioinformatics method.
生物信息学是蛋白质组研究不可缺少的技术,通过比较质谱分析结果与蛋白质数据库中的氨基酸序列可实现蛋白质的鉴定。
Bioinformatics which is an indispensable technique can evaluate the protein by comparing the results of mass spectrometry and the amino acid rank in protein databank.
我希望可以专注于生物信息学,数据库和数据挖掘技术。
I would like to focus on bio-informatics, database and data mining technology.
作为基因功能预测的主要手段,序列相似性查询技术是生物信息学领域的研究热点。
As a main method for predicting the functionality of genes, the sequence similarity querying technique is becoming one of the research hotspots in bioinformatics.
生物信息学是利用计算机技术处理和研究生物数据的一门新兴交叉学科。
Bioinformatics is a new crossing discipline which utilizes modern computational technology to handle and research the data of biology.
人类分子遗传学、基因与疾病、基因芯片技术和应用、基因工程及相关生物信息学研究。
Main interests in Human Molecular Genetics, relationship between genes and diseases, technology and application of gene chip.
生物信息学自诞生之日起,其技术手段便在生物学、医学、农学和药学等领域的研究中得到广泛应用。
Bioinformatics has been extensively applied in the fields of Biology, Medicine, Agronomy, and Pharmacy since it was proposed.
分子生物学软件链接是由丹麦技术大学生物序列分析中心提供的有关生物信息学的链接。
Molecular Biology Software Links is the molecular biology software links provided by the Center for Biological Sequence Analysis at the Technical University of Denmark .
这是耶拿分子生物学技术研究院生物信息学研究中心的网站。
This is the website of the Jena Centre for Bioinformatics, Institute of Molecular Biotechnology, Jena.
生物信息学是一门新兴交叉学科,被称为2 1世纪生物技术的核心。
Bioinformatics, an emerging interdiscipline, is called the core of biotechnology in the 21st century.
序列比对是生物信息学中最常见的问题之一,也是一种重要的生物信息处理技术。
A Study on the Technology of Information Processing in Optoelectronic Imaging System for Biology;
序列比对是生物信息学中最常见的问题之一,也是一种重要的生物信息处理技术。
A Study on the Technology of Information Processing in Optoelectronic Imaging System for Biology;
应用推荐