基因组注释

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  • genome annotation
基因组注释基因组注释
  1. 完整的基因组注释可以为后续的比较基因组学、重测序和转录组学研究提供更可靠的信息。

    A completed genome annotation would provide more reliable information for subsequent study of comparative genomics , resequencing , and transcriptomics .

  2. 而在微观水平,基因组注释能够帮助描述基因调控,变异和转录多样性的完全复杂性。

    While at a micro level , genome annotation can help to describe the full complexity of gene regulation , variation , and transcript diversity .

  3. 平行的视图水平的显示了两个基因组注释,通过一个面板显示梯形的局部比对。

    The parallel view displays two genome annotations horizontally , synchronized through a panel displaying local alignments as trapezoids .

  4. 高质量、完整的基因组注释是转录组下游分析的基础,包括基因表达分析、表观遗传分析、系统发育分析等。

    A high quality and complete genome annotation is the basis of transcriptome downstream analysis , such as the analyses of gene expression , epigenetic regulation , and phylogeny .

  5. 该工具特别高效,并允许用户用公开的和定制的基因组注释轨道比较大的数据集(例如,下一代测序数据)。

    The tools are extremely efficient and allow the user to compare large datasets ( e.g. , next-generation sequencing data ) with both public and custom genome annotation tracks .

  6. 基因组功能注释是后基因组时代功能基因组学研究的热点领域。

    Genome annotation using bioinformatics tools becomes one of the most active research fields in the postgenome era .

  7. 这些新基因可以修复基因组的注释,是对基因组自动注释系统的有效补充。

    Those novel genes can recover genome annotation , which is an effective complement of automate genome annotation system .

  8. 以基因组结构注释元件为核心建立了数据库概念模型,可有效存储和管理基因组结构注释数据。

    Central with the annotated features in genomes , the database conceptual model can be created to effective store and manage the results of the genome annotation .

  9. 此外,由于基因组结构注释系统的计算量庞大,还需要基于高性能计算资源进行基因组结构注释计算。

    Moreover , on account of the huge demanding for computing power , the annotation system based on a set of analysis softwares must be based on high performance computing environment .

  10. 为此,需要独立研制和开发高精度的基因组结构大规模注释系统,获取具有自主版权的基因组结构注释数据。

    Thus , we independently developed a high-precision annotation system and obtained genome structure annotation data having our own copyright .

  11. 采用基于网格计算和集群计算的两级调度体系结构完成了基因组结构自动注释系统在高性能计算环境下的部署。

    A computational framework , which is characteristics by a two-level job load system based on grid and cluster computing , to complete the large-scale computing tasks involve in high performance computing resources has also been presented .

  12. 家蚕基因组测序及注释工作于2004年完成,对家蚕体内的硒以及硒蛋白的研究也更加深入。

    The silkworm genome sequencing and annotation have been accomplished in 2004 , and the researchers are paying more attention to selenium and selenoproteins in the silkworm now . Selenium-rich silkworms were screened out and the distribution of selenium in vivo was studied in this paper .

  13. 以一种比较方式进行跨基因组的联合结构注释和功能注释促进了更准确的注释以及对基因和基因组进化的一个理解。

    Coupling structural and functional annotation across genomes in a comparative manner promotes more accurate annotation as well as an understanding of gene and genome evolution .

  14. 本文综合讨论了目前基因组中基因功能注释存在的问题及解决这些问题的策略与方法。

    In this paper , drawbacks in the annotation of gene function currently used in genomics and some strategies beneficial to the annotation of gene function are discussed .

  15. 后基因组时代已经来临,基因组序列注释是其主要目标之一。

    A post-genomic era has come , one of its important t Arg ETS is to annotate the genome sequences .

  16. 基因组测序工作快速发展,基因组结构注释成为破译基因组秘密的首要问题。

    With the rapid development of genome sequencing , genome structure annotation becomes the first important question of revealing genome secret .

  17. 本文综述了微生物全基因组测序的基本方法,数据收集和组装,序列缺口的填充、全基因组序列注释。

    The strategies for whole microbial genome sequence , the data collection and assembly , the gap closure and the genome annotation were reviewed in this article .