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Field
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model of flare vs remission with a 50% relapse rate. Initial data analysis has taken place using the 10x Chromium single cell sequencing identifying putative cellular subpopulations that determine
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imaging High level analytical capability Broad understanding of next generation sequencing (NGS) technologies and demonstration of proven experience in analysis of bulk and single cell transcriptomic data
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, Chemical Engineering, Materials Engineering, Applied Physics, Chemistry or another relevant field. This role will focus on multiple projects where the successful candidate will take a central role in
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remission as a model of flare vs remission with a 50% relapse rate. Initial data analysis has taken place using the 10x Chromium single cell sequencing identifying putative cellular subpopulations
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the origin of seed gene networks”. This project aims to use reverse genetics, cross-species complementation and single cell next-generation sequencing approaches to investigate how the gene networks
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project “Fern seed found? Testing a new hypothesis for the origin of seed gene networks”. This project aims to use reverse genetics, cross-species complementation and single cell next-generation sequencing
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Strategic Interest We welcome applications from all disciplines aligned with one of the strategic research priorities below: - Clean Technologies: Net zero innovation, sustainable energy, circular economy
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support for the fellowship (up to four pages) including (a) a description of your recent work and any planned research outputs; (b) the research work you will conduct in your fellowship aligned with
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not align perfectly with what is stated, we encourage you to contact us to discuss. You may be just the right candidate for this or other roles. Further information about the University and the School
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-recapture for demography and social network structure; genome re-sequencing for pedigree information and genomic prediction; diagnostic testing for infection status and prevalence of bTB. The Research Fellow