This project is focused on the discovery of the variability and composition of gut virome in babies, in shaping the gut ecosystem during the first year of life, and on the effect of gut virome on health.
Gut microbiome (community of all microorganisms in the gut) is associated with many health conditions and traits. The role of the development of gut microbiome during infancy for long-term health is being studied by several groups. The methods of microbiome studies mainly involve analysis of gut bacteria; however, it has been established that viruses, in particular, bacterial viruses (bacteriophages) form the major component of the gut ecosystem. The studies of viruses are laying behind the bacterial analyses for several reasons: first, viruses have small size therefore they are rather underrepresented in broad microbiome analyses, such as metagenomics sequencing. Therefore, enrichment protocols are necessary to obtain a sufficient quantity of material. Next, the classification and reference databases of viruses are not developed, therefore annotation of virome is challenging. Finally, no well-established bioinformatics pipelines are available for the virome analysis, therefore analysis requires a lot of de-novo developments in the field of bioinformatics.
The objecties of this project was to characterize the gut microbiome and virome composition in a large longitudinal mother-baby cohort from pre-pregnancy till the first year of life, to describe the dynamics of microbiome and virome development, factors that influence abundances and dynamics of gut bacteria and viruses, and to link it with host, environmental factors and diseases.
Identification the contribution of virome to the development of the gut ecosystem and its relation to babies health will add to our understanding of how the early life and inborn factors influence individual health. Identification of bacteriophages that specifically tag particular bacteria and/or are linked to health-related outcomes will pave the path to the development of phage-based prebiotics