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基于DNA特征的蓝藻分类方法研究进展 被引量:2

Reseach Advances in Cyanobacterial Taxonomy Based on DNA Character
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摘要 传统的形态学分类标准较模糊以及蓝藻的形态易变等问题造成了传统形态分类方法难以准确地对蓝藻进行分类。新的分子生物学的方法已经被用于解读遗传信息和完善蓝藻的分类系统。当今,蓝藻的系统分类研究及其基因型研究主要依靠基于DNA特征的分子分类方法,并且获得了很好的结果。本文归纳总结了多种基因DNA特征的分子分类方法及特征性标记基因在蓝藻分类中的应用,并且对蓝藻的分类研究进行了展望。 Accurate classification of cyanobacteria using traditional morphological taxonomy is challenging due to the obscurity of morphological criteria and morphous variability. New approaches from molecular biology have been utilized to decode genetic information and to improve cyanobacterial taxonomy. Nowadays , use of taxonomy based on DNA character to classify cyanobacteria and further to study their genotypic relationships are underway, and obtained results are promising. The application of various molecular classification methods and distinctive mark genes in cyanobacterial categorization have been reviewed , and also recent advances in cyanobacterial categorization.
出处 《食品研究与开发》 CAS 北大核心 2015年第5期146-152,共7页 Food Research and Development
基金 国家自然科学基金(31270050) 天津市高等学校创新团队项目(TD12-5049) 国家大学生创新训练计划项目
关键词 蓝藻 分子分类 DNA指纹识别 标记基因 cyanobacteria Molecular taxonomy DNA fingerprinting marker gene
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  • 1Komaek J, Cepak V, Kastovsky, J, et al. What are the cyanobacterial genera Cyanothece and Cyanobacterium Contribution to the com- bined molecular and phenotype taxonomic evaluation of eyanobae- tefial diversity[J]. Algologieal Studies, 2004, 113(1): 1-36.
  • 2师德强,王素英,王妮,丁煜卿,丛禹.培养条件对纺锤螺旋藻TJSD生长量和形态的影响[J].水产科学,2009,28(3):146-149. 被引量:3
  • 3Anagnostidis K, Kom6rek J. Modem approach to the classification system of cyanophytes. 1-Introduction[J]. Algological Studies/Archiv fttr Hydrobiologie, Supplement Volumes, 1985, 38:291-302.
  • 4Romano I, Bellitti M R, Nicolaus B, et al. Lipid profile: a useful chemo taxonomic marker for classification of a new cyanobacterium in Spirulina genus[J]. Phytochemistry, 2000, 54 (3): 289-294.
  • 5Gugger M, Lyra C, Henriksen P, et al. Phylogenetic comparison of the cyanobacterial genera Anabaena and Aphanizomenon[J]. Inter- national Journal of Systematic and Evolutionary Microbiology, 2002, 52(5): 1867-1880.
  • 6Lyra C, Suomalainen S, Gugger M, et al. Molecular characterization of planktic cyanobacteria of Anabaena, Aphanizomenon, Micmeystis and Planktothrix genera[J]. International Journal of Systematic and Evolutionary Microbiology, 2001, 51(2): 513-526.
  • 7Valerio E, Chambel L, Paulino S, Faria N, Pereira P, Tenreiro R. Molecular identification, typing and traceability of cyanobacteria from freshwater reservoirs[J]. Microbiology, 2009, 155(2): 642-656.
  • 8Jeffreys A J, Wilson V, Thein S L. Individual-specific'fingerprints" of human DNA[J]. Nature, 1985, 316(6023): 76-79.
  • 9WenTso L, Stahl D A, Hurst C J, et al. Molecular approaches for the measurement of density, diversity, and phylogeny[J]. Manual of en- vironmental microbiology, 2007 (Ed. 3): 139-156.
  • 10Ntibel U, Garcia - Pichel F, Clavero E, et al. Matching molecular di- versity and ecophysiology of benthic cyanobacteria and diatoms in communities along a salinity gradient[J]. Environmental microbiolo- gy, 2000, 2(2): 217-226.

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