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, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins that represent the majority of all current drug targets
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types. Within those problems, we are interested in considering different alternative fuels/technologies such as hydrogen, synthetic fuels, ammonia, electricity, etc. The scope of the project may encompass
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funded for four years by the recently awarded ERC Starting grant ‘ReCNNSTRCT’. Biocatalysis uses enzymes to replace traditional catalysts. This technology has already established sustainable enzymatic
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to economic and environmental benefits. Despite the growing impact of biocatalysis in industrial chemistry, the full potential of this technology is yet to be unlocked. Important current limitations
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carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins
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carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across their membranes using proteins
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of molecules and information across these membranes is carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential
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across these membranes is carried out by integral membrane protein channels, receptors, pumps and transporters. Living cells maintain chemical gradients and electrical potential differences across
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Would you like to contribute to the quality of academic research at the University of Groningen (UG)? Do you have affinity with research software management and engineering, and do you have a
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to diagnose and treat. Intestinal tissue is easy to access with nanoparticles, which offers excellent opportunities for therapy and diagnosis e.g. a theranostic approach. The current proposal aims to find (I