The segmented worms, Annelida, are such a system. Recently the phylogeny of Annelida has been robustly solved. Moreover, Annelida have both extreme conservatism in mitochondrial gene order and subgroups with extreme flexibility. Moreover, up to 100 mitochondrial genomes are available in our laboratory across the whole annelid tree of life providing coverage for all degrees of gene order evolution. Hence, using Annelida as model system and based on a phylogenetic framework the mitochondrial genome evolution can be investigated in relation to both molecular and ecological factors. The effect of differences in habitat preferences or life histories can be assessed quite similar to molecular properties such as frequency of specific nucleotides or amino acids of both the mitochondrial and nuclear genomes. The sequences of the small ribosomal subunit (18S) can thereby serve as a proxy for the nuclear genome and is available as well.
Aim of this Master project:
The aim in this Master project is to understand the evolution of the mitochondrial genome in large animal group and what factors could possible have driven the evolution. Therefore, you will first annotate all mitochondrial genomes anew to ensure that all have the same highest standard of annotation. The next step will be to compile for each species with an annotated mitochondrial genome large datasets comprising different ecological factors of the species as well as molecular properties of the mitochondrial and nuclear genomes. The evolution of these properties will be modeled on the annelid phylogeny in comparison to the model for evolution for the gene order using different macroevolutionary methods. This will reveal if their evolution strongly correlates with the evolution of the gene order and hence provide first insight into what could be possible drivers of the evolution of mitochondrial gene order. This could provide the methodological basis for future and more ambitious projects tackling the evolution of whole nuclear genomes.
Supervision and teaching
The student will be supervised by Torsten Struck and José Cerca de Oliveira (NHM Oslo) as well as Asmaa Haris Elgetany (Damietta University, Egypt), Kjetil Voje (UiO) and Dimitar Dimitrov (UiB). You will be provided with a broad training in different aspects of biology, which includes, among others, bioinformatics, phylogenetic reconstructions, statistics, comparative genomics, as well as metazoan evolution and systematics. All of these techniques are state-of-the-art techniques, which are relevant for both academic and non-academic positions including medical fields as mitochondrial malfunction is the cause some human diseases.
For further inquiries feel free to contact Torsten Struck.
Torsten Hugo Struck - t.h.struck@nhm.uio.no
José Cerca de Oliveira – josece@nhm.uio.no