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sulfate-reducing bacteria (SRB), enabling the anaerobic turnover of hydrocarbons in marine sediments. Despite their global importance, the mechanistic basis of this metabolic coupling remains unresolved
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sulfate-reducing bacteria (SRB), enabling the anaerobic turnover of hydrocarbons in marine sediments. Despite their global importance, the mechanistic basis of this metabolic coupling remains unresolved
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mechanistic understanding of starter cultures, enzymes, and microbial metabolism during fermentation and ripening. Research Direction The work directly supports sustainable food production while addressing
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emissions and ecosystem metabolism. The postdoctoral researcher will primarily contribute to the landscape-scale modelling component of the project. This includes integrating national and global spatial
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emissions and ecosystem metabolism. The postdoctoral researcher will primarily contribute to the landscape-scale modelling component of the project. This includes integrating national and global spatial
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, including metabolic fluctuations, transcription–replication conflicts, and chromatin-based barriers. These challenges give rise to replication stress, a hallmark of virtually all cancer types and many
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The Department of Biological and Chemical Engineering, Aarhus University, invites applications for a postdoctoral position offering an exciting opportunity to contribute to the work on reactor
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performance. To investigate the ecophysiological consequences of an ice-free Arctic for marine fishes, the post-doc will estimate the field metabolic rates for a range of marine fish species using a novel
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biochemistry. Experience in anaerobic cultivation is an asset, but not essential. A background in microbial metabolism and biochemistry is desirable Demonstrated teamwork and interpersonal skills, with a