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Microbial evolution is driven by rapid changes in gene content mediated by horizontal gene transfer (HGT). These rapid changes are promoted by mobile genetic elements (MGEs), entities that evolved to persist and replicate by moving DNA within and between microbial cells. MGEs are often considered to be on a continuum between parasitism and mutualism, sometimes benefitting their host, and sometimes merely replicating for their own gain. The precise relationships between MGEs and their hosts are complex, ever-changing, and highly dependent upon ecological context. In our team, we build multi-level models of microbial evolution, for example to understand how MGEs co-evolve with microbial populations and how these interactions affect the health of plants, animals, and ecosystems.
For this PhD position, you will build and analyze computational models on the co-evolution between MGEs and their microbial hosts (supervised by co-promotor Dr. Bram van Dijk). The goal is to understand which types of MGEs are linked to the emergence of plant or animal pathogens, for example by carrying virulence factors as cargo, or by silencing genes that are recognized by the immune system. For this, the first step will be to adopt existing in-house models of microbial evolution, and build-upon them by (i) including interactions with plant/animal hosts and (ii) incorporate MGEs that potentiate gene transfer of ecologically relevant genes. It will also be interesting to understand why other host-beneficial traits (such as antimicrobial resistance) are less often associated with those same mobile elements, which is likely related to their lifestyle (parasitic vs. mutualistic). Depending on your own interests, this position may involve additional approaches and research questions, collaborations with other research groups of Theoretical Biology and Bioinformatics, and collaborations with other researchers at Utrecht Science Park.
This PhD position in the area of multi-level modelling will grant you an appreciation and understanding of complex biological systems and biodiversity. You will get the opportunity to learn about both simple and complex biological models, computer programming, data visualization, and bioinformatic methods to cross-compare insights from your simulations with real-world data. Additionally, this position will grant you opportunities to pick up on additional skills such as teaching and science communication, and enables you to build a strong scientific network. Finally, our goal is to help you pursue scientific ambitions while also maintaining a healthy work-life balance.
You will join a new research group headed by Dr. Bram van Dijk, which will be established 1 September 2023. The team will specialize on building multi-scale simulations of microbial ecosystems (“virtual laboratories”), and use these to unpack fundamental rules that govern microbial life. The group is embedded in the Theoretical Biology and Bioinformatics group within the department of Biology.
We are looking for an enthusiastic colleague with a drive to tease apart the intricacies of the microbial world. To apply to this PhD position you need:
It is considered a pro if you have:
Note: women, ethnic minorities, and people from any other minority group are especially encouraged to apply.
Please do not feel demotivated when you feel like you do not meet all the listed criteria. When in doubt, please reach out to us.
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The research will be performed at a new research group headed by Dr. Bram van Dijk, which will be established 1 September 2023. The team will specialise on building multi-scale simulations of microbial ecosystems (“virtual laboratories”), and use these to unpack fundamental rules that govern microbial life. Current interests are geared towards understanding why various vehicles of gene transfer (MGEs like phages, plasmids, and transposons) have different impacts on microbial evolution, for example by driving the horizontal transfer of different types of genes. However, many other interesting topics are ongoing, including:
The team is embedded in the Theoretical Biology and Bioinformatics group (department of Biology), which uses computational biology, bioinformatics, modelling, and big data to address both fundamental and applied questions in the life sciences. A selection of ongoing research lines includes the evolution of genomes, protein complexes, systems genetics, metagenomics, host-microbe interactions, and the basic principles of ecology and evolution. Together with more than 35 research groups distributed over five research and educational institutes, we form the Utrecht Bioinformatics Centre that combines world-class bioinformatics research and coordinates bioinformatics education at all levels at the Utrecht Science Park.
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