Despite their differences in shape, size, and function, all the cells in an animal share the same genome and are created from the same fertilised egg. This incredible diversity of cell types is orchestrated by a complex regulatory apparatus, which guides cell populations towards different fates as development progresses. The mechanisms which change and maintain cell type identity are fundamental for multicellular organisms, shared between species to a remarkable degree, and often dysregulated in ageing or disease.
In this project we studied the early development of a marine worm in order to document how cell types emerge and understand the mechanisms that control cellular differentiation. We gathered snapshots of gene expression with single-cell resolution for various time points during development and tried to stitch them together. We intended to supplement this with data of different types that would provide more context, such as the location of the cell types in the body of the developing worm or the characteristic morphology of each cell type.
Shortly before the mid-point of the fellowship, the fellow received an offer for a permanent position elsewhere. Considering the precarity of employment in research and higher education the fellow felt compelled to accept the offer, and had to give up the fellowship as a result. Both the fellow and the host remain committed to finishing the project despite the formal interruption of the fellowship, and data acquisition has already restarted in the host lab.