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of niacin by employing a combination of hydrolyses and structure identification using LC-MS. Additionally, the impact of bioprocessing of niacin will be examined, and the bioaccessibility of niacin in
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-based products. The work will involve the quantification of available niacin and the potential bound forms of niacin by employing a combination of hydrolyses and structure identification using LC-MS
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of geological hydrogen reservoirs, combining geochemistry, microbiology, isotope analysis, and modelling. The doctoral researcher will focus on the geological hydrogen aspects of the project by integrating
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some mechanistic studies in the laboratory. The study species will be either Scots pine or silver birch, or a combination of the two. The aim will to be to gain new knowledge on the chemical species
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groups at FIMM during a 6–9-month period before selecting a research group for their doctoral research. The program provides an exciting opportunity to explore and combine different research areas as
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provides an exciting opportunity to explore and combine different research areas as well as to learn a variety of scientific skills and technologies while making connections within and beyond the institute
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research group for their doctoral research. The program provides an exciting opportunity to explore and combine different research areas as well as to learn a variety of scientific skills and technologies
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integrating our core facility expertise in spatial technologies to generate combined spatial omic methodologies. These include transcriptomics, proteomics, multiplex immunohistochemistry, metabolomics, and