汉赛巴尔通体的分子分型研究进展

赵帆 刘起勇

赵帆, 刘起勇. 汉赛巴尔通体的分子分型研究进展[J]. 疾病监测, 2011, 26(6): 471-474. doi: 10.3784/j.issn.1003-9961.2011.06.015
引用本文: 赵帆, 刘起勇. 汉赛巴尔通体的分子分型研究进展[J]. 疾病监测, 2011, 26(6): 471-474. doi: 10.3784/j.issn.1003-9961.2011.06.015
ZHAO Fan, LIU Qi-yong. Progress in molecular typing research for Bartonella henselae[J]. Disease Surveillance, 2011, 26(6): 471-474. doi: 10.3784/j.issn.1003-9961.2011.06.015
Citation: ZHAO Fan, LIU Qi-yong. Progress in molecular typing research for Bartonella henselae[J]. Disease Surveillance, 2011, 26(6): 471-474. doi: 10.3784/j.issn.1003-9961.2011.06.015

汉赛巴尔通体的分子分型研究进展

doi: 10.3784/j.issn.1003-9961.2011.06.015
基金项目: 

国家科技重大专项(艾滋病和病毒性肝炎等重大传染病防治专项)课题(No.2008ZX10004-010,No.2009ZX10004-203)

详细信息
    作者简介:

    赵帆,女,四川省自贡市人,博士研究生,主要从事巴尔通体的分子流行病学研究工作

    通讯作者:

    刘起勇,Tel:010-58900738,Email:liuqiyong@icdc.cn

  • 中图分类号: 

    R376

Progress in molecular typing research for Bartonella henselae

  • 摘要: 汉赛巴尔通体是一种新发的人兽共患病病原,呈全球性分布。随着分子生物学技术的发展,多种分子分型方法应用于其流行病学调查,加深了研究者们对汉赛巴尔通体种内变异和系统发育关系的了解。本文就几种常见的分子分型方法在汉赛巴尔通体分子流行病学研究中的应用做一综述。
  • [1]


    [1] Regnery RL,Olson JG,Perkins BA,et al. Serological response to "Rochalimaea henselae" antigen in suspected cat-scratch disease
    [J]. Lancet,1992,339(8807):1443-1445.

    [2] McGrath N,Wallis W,Ellis-Pegler R,et al. Neuroretinitis and encephalopathy due to Bartonella henselae infection
    [J]. Aust N Z J Med,1997,27(4):454.

    [3] Bergmans AM,Schellekens JF,van Embden JD,et al. Predominance of two Bartonella henselae variants among cat-scratch disease patients in the Netherlands
    [J]. J Clin Microbiol,1996,34(2):254-260.

    [4] Upholt WB. Estimation of DNA sequence divergence from comparison of restriction endonuclease digests
    [J]. Nucleic Acids Res,1977,4(5):1257-1265.

    [5] Matar GM,Swaminathan B,Hunter SB,et al. Polymerase chain reaction-based restriction fragment length polymorphism analysis of a fragment of the ribosomal operon from Rochalimaea species for subtyping
    [J]. J Clin Microbiol,1993,31(7):1730-1734.

    [6] Roux V,Raoult D. Inter-and intraspecies identification of Bartonella (Rochalimaea) species
    [J]. J Clin Microbiol,1995,33(6):1573-1579.

    [7] Schwartz DC,Cantor CR. Separation of yeast chromosome-sized DNAs by pulsed field gradient gel electrophoresis
    [J]. Cell,1984,37(1):67-75.

    [8] Sander A,Ruess M,Bereswill S,et al. Comparison of different DNA fingerprinting techniques for molecular typing of Bartonella henselae isolates
    [J]. J Clin Microbiol,1998,36(10):2973-2981.

    [9] Arvand M,Viezens J. Evaluation of pulsed-field gel electrophoresis and multi-locus sequence typing for the analysis of clonal relatedness among Bartonella henselae isolates
    [J]. Int J Med Microbiol,2007,297(4):255-262.

    [10] Xu C,Liu Q,Diao B,et al. Optimization of pulse-field gel electrophoresis for Bartonella subtyping
    [J]. J Microbiol Methods,2009,76(1):6-11.

    [11] Maiden MC,Bygraves JA,Feil E,et al. Multilocus sequence typing:a portable approach to the identification of clones within populations of pathogenic microorganisms
    [J]. Proc Natl Acad Sci USA,1998,95(6):3140-3145.

    [12] Enright MC,Spratt BG. A multilocus sequence typing scheme for Streptococcus pneumoniae:identification of clones associated with serious invasive disease
    [J]. Microbiology,1998,144 (Pt 11):3049-3060.

    [13] Iredell J,Blanckenberg D,Arvand M,et al. Characterization of the natural population of Bartonella henselae by multilocus sequence typing
    [J]. J Clin Microbiol,2003,41(11):5071-5079.

    [14] Arvand M,Feil EJ,Giladi M,et al. Multi-locus sequence typing of Bartonella henselae isolates from three continents reveals hypervirulent and feline-associated clones
    [J]. PLoS One,2007,2(12):e1346.

    [15] Mietze A,Morick D,Kohler H,et al. Combined MLST and AFLP typing of Bartonella henselae isolated from cats reveals new sequence types and suggests clonal evolution
    [J]. Vet Microbiol,2011,148(2-4):238-245.

    [16] Drancourt M,Roux V,Dang LV,et al. Genotyping, Orientalis-like Yersinia pestis, and plague pandemics
    [J]. Emerg Infect Dis,2004,10(9):1585-1592.

    [17] Li W,Chomel BB,Maruyama S,et al. Multispacer typing to study the genotypic distribution of Bartonella henselae populations
    [J]. J Clin Microbiol,2006,44(7):2499-2506.

    [18] Li W,Raoult D,Fournier PE. Genetic diversity of Bartonella henselae in human infection detected with multispacer typing
    [J]. Emerg Infect Dis,2007,13(8):1178-1183.

    [19] Monteil M,Durand B,Bouchouicha R,et al. Development of discriminatory multiple-locus variable number tandem repeat analysis for Bartonella henselae
    [J]. Microbiology,2007,153(Pt 4):1141-1148.

    [20] Bouchouicha R,Durand B,Monteil M,et al. Molecular epidemiology of feline and human Bartonella henselae isolates
    [J]. Emerg Infect Dis,2009,15(5):813-816.

    [21] Holt KE,Parkhill J,Mazzoni CJ,et al. High-throughput sequencing provides insights into genome variation and evolution in Salmonella typhi
    [J]. Nat Genet,2008,40(8):987-993.

  • 加载中
计量
  • 文章访问数:  950
  • HTML全文浏览量:  6
  • PDF下载量:  448
  • 被引次数: 0
出版历程
  • 收稿日期:  2011-03-28
  • 刊出日期:  2011-06-25

目录

    /

    返回文章
    返回

    在线交流