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The genome and transcriptome of the enteric parasite Entamoeba invadens, a model for encystation
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  • 作者:Gretchen M Ehrenkaufer (7)
    Gareth D Weedall (8)
    Daryl Williams (8)
    Hernan A Lorenzi (6)
    Elisabet Caler (6)
    Neil Hall (7) (8)
    Upinder Singh (7) (8)
  • 刊名:Genome Biology
  • 出版年:2013
  • 出版时间:July 2013
  • 年:2013
  • 卷:14
  • 期:7
  • 全文大小:1,127 KB
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  • 作者单位:Gretchen M Ehrenkaufer (7)
    Gareth D Weedall (8)
    Daryl Williams (8)
    Hernan A Lorenzi (6)
    Elisabet Caler (6)
    Neil Hall (7) (8)
    Upinder Singh (7) (8)

    7. Faculty of Science, King Abdulaziz University, Jeddah, 21589, Saudi Arabia
    8. Department of Microbiology and Immunology, Stanford University, Stanford, California, 94305, USA
    6. J Craig Venter Institute, Rockville, Maryland, L697ZB, USA
  • ISSN:1465-6906
文摘
Background Several eukaryotic parasites form cysts that transmit infection. The process is found in diverse organisms such as Toxoplasma, Giardia, and nematodes. In Entamoeba histolytica this process cannot be induced in vitro, making it difficult to study. In Entamoeba invadens, stage conversion can be induced, but its utility as a model system to study developmental biology has been limited by a lack of genomic resources. We carried out genome and transcriptome sequencing of E. invadens to identify molecular processes involved in stage conversion. Results We report the sequencing and assembly of the E. invadens genome and use whole transcriptome sequencing to characterize changes in gene expression during encystation and excystation. The E. invadens genome is larger than that of E. histolytica, apparently largely due to expansion of intergenic regions; overall gene number and the machinery for gene regulation are conserved between the species. Over half the genes are regulated during the switch between morphological forms and a key signaling molecule, phospholipase D, appears to regulate encystation. We provide evidence for the occurrence of meiosis during encystation, suggesting that stage conversion may play a key role in recombination between strains. Conclusions Our analysis demonstrates that a number of core processes are common to encystation between distantly related parasites, including meiosis, lipid signaling and RNA modification. These data provide a foundation for understanding the developmental cascade in the important human pathogen E. histolytica and highlight conserved processes more widely relevant in enteric pathogens.

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