酶分类

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  • enzyme classification
酶分类酶分类
  1. 本文的集成分类器基于投票的机制,最终预测结果集成了两种基分类器的分类结果,在公用数据集中取得了最佳的分类效果。(3)提出了基于多标签学习的双层酶分类模型。

    Our ensemble classifier is based on voting mechanism and its final result acquires a best accuracy on the common data set through integrating outcomes obtaining by the two basic classifiers . ( 3 ) Proposing a2-layer enzyme classification model based on multi-label learning .

  2. 多功能酶由于其特殊的性质成为了酶分类问题当中非常棘手的异类。

    Multifunction enzyme has become a very tricky heterogeneous because of its special properties when facing the problem of enzyme classification .

  3. DNA甲基转移酶分类、功能及其研究进展

    DNA methyltransferases : classification , functions and research progress

  4. 真菌聚酮合酶分类进展及其应用

    The Advance in Classification of Fungal Polyketide Synthases and its Applications

  5. 结论:酵母质粒PCR扩增,酶切分类的方法,不仅可以大大减轻阳性克隆进一步鉴定的工作量,避免不必要的浪费,而且还可以避免阳性克隆的丢失。

    Conclusions : The further identification workload was decreased greatly for positive clones and the lost of positive clones were avoided by applying this method .

  6. 超广谱β-内酰胺酶的分类与分子进化研究进展

    Advance on classification and molecular evolution of extended-spectrum β - lactamase

  7. 糖苷酶序列分类法和作用机理的研究进展

    Progress in Study of Classification and Mechanisms of Glycosidases

  8. 不动杆菌β-内酰胺酶的分类和分布研究

    Study on the classification and distribution of the β - lactamases produced by Acinetobacter

  9. β-内酰胺酶的分类及构效关系研究进展

    Progress of the Classification of β - lactamases and Its Relationship Between Structure and Function

  10. 铜绿假单胞菌诱导型β-内酰胺酶的分类检测及其临床意义

    Classification and Detection of Inducible β - Lactamases Produced by Pseudomonas aeruginosa and Their Clinical Significance

  11. 本文综述了该类酶的分类、晶体结构、作用机理及其基因改造等最新研究进展。

    The recent research advances on its classification , crystal structure , mechanism and gene modification are discussed in this paper .

  12. 本文介绍了超氧化物歧化酶的分类和活性中心分子结构,阐述了超氧化物歧化酶的制备工艺及其医学应用。

    The classification and active site structure of molecular of superoxide dismutase were introduced , and preparation technology and application of superoxide dismutases in medicine were elucidated .

  13. 本文综述了几丁质酶和β-1,3-葡聚糖酶结构分类、抗真菌机理,及其近年来在抗黄曲霉病研究中的应用研究,并对今后的研究及应用进行了预测。

    This paper summarized the constructs and anti-fungal mechanism of chitinase and β - 1,3-glucanase genes . In addition , the latest use and research in resistance to A. flavus , and prediction use in the future was introduced also .

  14. 目的:根据肺炎支原体(MP)P1蛋白基因限制性酶切图谱分类MP临床分离株,调查沈阳地区肺炎支原体流行情况。

    Objective : Our aims were to classify mycoplasma pneumoniae ( MP ) clinical isolated strain according to endonuclease map of the PCR products of the MP P1 protein gene and to investigate MP epidemic state in Shenyang .

  15. 根据整合酶不同进行分类,整合子主要分为Ⅰ~Ⅳ类。

    According to the kinds of integrase , there are main four kinds of integrons .

  16. 方法用双纸片扩散法和改良三相试验分析4株弗劳地柠檬酸杆菌所产β内酰胺酶,进行初步分类,再用聚合酶链反应(PCR)扩增和PCR产物测序方法确认β内酰胺酶基因。

    Methods Four strains of Citrobacter freundii were detected by K-B susceptibility method and three-dimensional test . The β - lactamase gene was identified by polymerase chain reaction ( PCR ) and sequencing .

  17. Frankia菌同功酶图谱分析和分类

    Classification and isoenzyme patterns analysis of Frankia strains

  18. 酯酶酶带籼粳分类法及稻种籼粳分类体系的讨论

    A Discussion on the Method and System of Rice Indica Japonica Classification

  19. 同功酶技术在真菌分类中的应用

    Application of Isozyme Technique to Fungi Classification

  20. 本文对β-1,3-葡聚糖酶的诱导,分类及其与病原真菌分泌物之间的相互作用,转基因研究及协同表达等进行了评述。

    Following contents were reviewed in the paper : inducing and classifying of β - 1,3-glucanase , interaction between secretion of fungi and β - 1,3-glucanase , its transgenic research and co-expressing .

  21. 本文以乌头酸酶为例,深入探讨了酶对对称底物分子进行选择的机理,同时对酶专一性分类系统进行了分析和重新调整。

    Studied the specificity of modification of amino and guandino groups by adopting sodium nitrite to react with amino groups , butadione to react with guandino groups .

  22. 方法:采用多位点酶电泳(MEE)法对江西铜鼓县及郑州近5a分离的59株志贺菌散发株进行多位点酶基因分类和群体遗传学研究。

    Methods : Multilocus enzyme electrophoresis was employed to study the genotype taxon and population genetics of 59 isolates of Shigella form Jiangxi and Zhengzhou in recent 5 years .