生物信息技术

  • 网络bioinformatics;Biological Information Technology
生物信息技术生物信息技术
  1. 它极大地推动了DNA芯片技术、生物信息技术、生命科学工业的兴起与发展;开辟了后基因组时代的新纪元。

    It not only cause a prominent initiation and development of DNA chips technology , bioinformatics technique and bioscience industry , but also initiate the new era of post-genome .

  2. 长期以来,生物信息技术被认为是辅助研究复杂的生物学现象、加速生物医学研究最具潜力的方法之一。

    For a long time , the Bioinformatics technology is considered to be one of most potential methods to study this Biologic system .

  3. 鉴于格林比特(天津)生物信息技术有限公司的质量、服务、信誉的整体水平,被国家授予“全国质量、服务、信誉AAA”殊荣。

    Green Bit ( Tianjin ) Biometric Systems JV , in view of the general level of its quality , services and credit , has been rewarded the title of " National AAA Enterprise of Quality , Service and Credit " .

  4. 美国国家生物信息技术中心(NCBI)提供了具有生物意义上的非冗余的基因和蛋白质序列的RefSeq参考序列数据库。

    The NCBI Reference Sequence ( RefSeq ) database aimed to provide a biologically non-redundant collection of DNA , RNA , and protein sequences and to promote the research on genes and proteins of human beings and other species .

  5. 包装中生物信息技术应用研究

    Study of Biology Information Technology Applied in Packaging

  6. 《光-磁量子生物信息技术》预防与治疗慢性苯中毒的研究

    Technique of photomagnetic quantum bio - information in prevention and treatment of chronic benzene poisoning

  7. 远程医疗是医学和家庭保健在互联网和计算机技术广泛应用下所出现的一门新兴技术,是本世纪生物信息技术的产物。

    Telemedicine as a new technology appear after widely using of internet and computer application technology .

  8. 生物信息技术与杂交品种选育相结合,加速新品种的选育研究;

    The combination of bio-information technology and cross-breeding is used to accelerate the research of new breeds .

  9. 生物信息技术在ITS信息处理中的应用成为其中新兴的研究方向。

    The biological information technology has become a new research area which can be useful in the information processing for ITS .

  10. 将生物信息技术的应用拓展到包装领域,为包装技术的发展起到了促进作用。

    The concept of packaging information technology is introduced to widen the application space of packaging technology and promote the development of packaging technology .

  11. 然而生物信息技术具有跨学科的特点,其中复杂的数学计算、逻辑推导、数据可视化往往令生物学家望而却步。

    But the interdisciplinary characteristic of Bioinformatics technology , such as complicated mathematics counting 、 logic analysis , visual data , Often makes biologists hang back .

  12. 蛋白质折叠问题是当前生物信息技术研究的核心问题之一,它所要解决的是蛋白质一级结构中的氨基酸序列如何折叠成三维空间结构的问题。

    Protein folding problem is one of the core research areas in bioinformatics , and describes how an amino acid sequence folds into a specific spatial protein .

  13. 图像变换广泛应用于景象匹配、机器人、模式识别、遥感、生物信息技术、工业控制等研究领域。

    They have extensive applications in the fields of scene matching , robotics , pattern recognition , remote sensing , bioinformatics , industry control and so on .

  14. 数据密集型超级计算作为一种新兴的计算模式,在高能物理、生物信息技术、天文计算、地震预报以及商业计算等数据密集型应用领域发挥着极其重要的作用。

    As a new computing paradigm , data-intensive super computing ( DISC ) plays an important role in the field of high-energy physics , biology information technology , astronomy , meteorology , earthquake prediction and commercial computing .

  15. 许多医药公司在采用生物信息技术、计算机技术和组合化学方法开发新品种医药,但重要的是首先要找到主要化合物,研究的重点应更多地放在示构药物设计方面。

    Many pharmaceutical companies are looking into biological and information technology , computer-based approaches and combinatorial chemistry to develop new pharmaceuticals . It is essential for the companies first to find major compounds and greater emphasis has been placed on rational drug design .

  16. 方法应用生物信息分析技术、RACE以及cDNA文库筛选。

    Methods Molecular database search , RACE and cDNA library screen were applied .

  17. 应用生物信息学技术对植物表达序列标签(EST)的大规模分析

    A Large Scale Analysis of Expressed Sequence Tags ( EST ) in Plants Using Bioinformatics Approaches

  18. 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 .

  19. 方法:运用基因芯片及生物信息分析技术检测分析MAPK信号通路中96种相关信号分子的表达。

    Methods : Apply gene chip inspection and bioinformation analytical technique to detect the 96 sorts of signal molecule of MAPK pathway .

  20. MLST方法和生物信息学技术可以将MRSA克隆株、遗传背景和进化路线有机地联系起来。

    MLST and bioinformation technology can link the clones , types and evolution of MRSA .

  21. 运用生物信息学技术分析预测抗氨基末端脂多糖结合蛋白(NH-LBP)单链抗体的结构

    Predicating the Molecular Structure of Single Chain Fragment Variable Antibody against NH_2-terminal Lipopolysaccharide Binding Protein by Bioinformation Technique

  22. 结合生物信息学技术预测miR-155的靶基因,为理解miR-155在乳腺癌发生发展中的作用机制提供依据。

    To predict the target genes of miR-155 using bioinformatics methods and provide theoretical support for further research on mechanism of miR-155 in breast cancer occurrence development . 4 .

  23. 本研究运用抑制差减杂交(SSH)技术构建cDNA文库,应用EST技术并结合生物信息学技术,通过对南瓜抗疫病相关基因的表达分析,从基因水平来研究南瓜抗病机制。

    In this study , a suppression subtractive hybridization ( SSH ) cDNA library was first constructed . Then using expression sequence tags ( ESTs ) and bioinformatics to analyze the expression of related gene resisted pumpkin loemia . To study the resistance mechanism about pumpkin at molecule level .

  24. 本研究利用基因同源序列克隆技术、cDNA-AFLP技术和生物信息学技术,一方面,进行黑麦草和玉米漆酶基因的克隆与分析;

    In the present study , the laccase genes in ryegrass and maize were cloned and compared , while the gene expression of four maize inbred lines under water stress were analyzed , based on gene homology sequence cloning , cDNA-AFLP and bioinformation techniques .

  25. 生物信息学技术克隆人类神经髓鞘蛋白零家族基因

    Cloning of Human Myelin Protein Zero - like Genes by Bioinformatics Strategy

  26. 基于本体的生物信息集成技术发展现状

    A Survey of Ontology-Based Approaches in Bio-Information Integration

  27. 生物信息学技术在筛查绒毛膜癌相关基因中的应用研究

    Selection of choriocarcinoma-associated genes by using bioinformatics

  28. 首先通过生物信息学技术选定了18种可能重要的毒力相关基因作为拟克隆和表达的目的基因。

    In this study , 18 virulence associated genes were selected after analyzing the sequence of plasmids .

  29. 研究方法:(1)通过生物信息学技术遴选高保守优势T细胞表位。

    Method : ( 1 ) Highly conserved immunodominant T cell epitopes were selected by biological informatics technology .

  30. 生物信息学技术进展

    Progress of bioinformatics technology