Author: Carding, S. R.; Davis, N.; Hoyles, L.
Title: Review article: the human intestinal virome in health and disease Cord-id: 6oyw5sqv Document date: 2017_9_4
ID: 6oyw5sqv
Snippet: BACKGROUND: The human virome consists of animalâ€cell viruses causing transient infections, bacteriophage (phage) predators of bacteria and archaea, endogenous retroviruses and viruses causing persistent and latent infections. Highâ€throughput, inexpensive, sensitive sequencing methods and metagenomics now make it possible to study the contribution dsDNA, ssDNA and RNA virusâ€like particles make to the human virome, and in particular the intestinal virome. AIM: To review and evaluate the pion
Document: BACKGROUND: The human virome consists of animalâ€cell viruses causing transient infections, bacteriophage (phage) predators of bacteria and archaea, endogenous retroviruses and viruses causing persistent and latent infections. Highâ€throughput, inexpensive, sensitive sequencing methods and metagenomics now make it possible to study the contribution dsDNA, ssDNA and RNA virusâ€like particles make to the human virome, and in particular the intestinal virome. AIM: To review and evaluate the pioneering studies that have attempted to characterise the human virome and generated an increased interest in understanding how the intestinal virome might contribute to maintaining health, and the pathogenesis of chronic diseases. METHODS: Relevant viromeâ€related articles were selected for review following extensive language†and dateâ€unrestricted, electronic searches of the literature. RESULTS: The human intestinal virome is personalised and stable, and dominated by phages. It develops soon after birth in parallel with prokaryotic communities of the microbiota, becoming established during the first few years of life. By infecting specific populations of bacteria, phages can alter microbiota structure by killing host cells or altering their phenotype, enabling phages to contribute to maintaining intestinal homeostasis or microbial imbalance (dysbiosis), and the development of chronic infectious and autoimmune diseases including HIV infection and Crohn's disease, respectively. CONCLUSIONS: Our understanding of the intestinal virome is fragmented and requires standardised methods for virus isolation and sequencing to provide a more complete picture of the virome, which is key to explaining the basis of viromeâ€disease associations, and how enteric viruses can contribute to disease aetiologies and be rationalised as targets for interventions.
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