Universitat Pompeu Fabra. Departament de Ciències Experimentals i de la Salut
Programa de doctorat en Biomedicina
This thesis focuses on Human herpesvirus 4 and 6, two ubiquitous viruses with a long list of putative disease associations, ranging from malignancies such as lymphomas and carcinomas to multiple sclerosis. To date, the relatively limited genetic data on these organisms hinders the understanding of their variability and their genetic structure at a population level. We here explore wet lab techniques for the production of genetic data in a cost-effective manner in order to reach the order of magnitude that is required to unravel the genetics these viruses. After successfully identifying individuals affected by integrated chromosomally inherited human herpesvirus 6 from public datasets of sequencing data, the sequences of the infecting virus were produced by target enrichment means from the source biological sample. The testing of an in-house target enrichment protocol followed, aiming to target latently infecting virus in human saliva. While the protocol still needs optimization and the aid of alternative techniques to be suitable for cost-effective, large-scale studies, the results were very satisfactory (up to >800-fold enrichment). In parallel, long range PCRs were used to produce human herpesvirus 4 latency genes sequences from one large human healthy saliva panel including populations previously unexplored in terms of human herpesvirus 4 isolates. Thanks to the combination of wet lab techniques and data analysis, the presence of genetic patterns in the two studied viruses is emerging, with human herpesvirus 6 presenting differences in diversity between its two species, as well as signs of geographical patterns possibly in part hidden by recombination events. Different bioinformatics approaches showed instead a stronger geographical stratification in human herpesvirus 4, with regional-driven clades. This information would allow us for a correct study design when addressing the relationship between virus and disease, taking into account the natural variation of the virus, as well as help to pinpoint genetic features that might be determinant for disease triggering or development. The strong geographical patterns presented by the diseases associated to these viruses strengthen the notion of the importance of this investigation and opens an avenue of research focused on disclosing the putative relationship between viruses strain variation and the risk for these virus–associated diseases.
Human herpesvirus 4; Human Herpesvirus 6; Variability; Diversity; Virus; Viral latency; Target enrichment; Inherited chromosomally integrated human; Phylogenetics; Selection; Viral load
575 - General genetics. General cytogenetics. Immunogenetics. Evolution. Phylogeny
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