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develop advanced next generation antibody engineering as well as cellular and molecular glycoengineering technologies to elucidate the role of glycosylation's within complex immunological and disease
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will be evaluated using biophysical techniques (such as SPR and BLI) and cell-based assays. Additionally, the structural determination of the complexes will be performed using cryo-Electron Microscopy
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generation antibody engineering as well as cellular and molecular glycoengineering technologies to elucidate the role of glycosylation's within complex immunological networks and disease and to generate novel
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aiming to examine the factors and complexes governing the production and turnover of eukaryotic transcriptomes. What we offer The successful applicant is offered: Access to a well-equipped research
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protein interactions with small molecule ligands and light, uncovering fundamental design principles. This knowledge enhances our capability to develop complex protein functions and innovative
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advanced next generation antibody engineering as well as cellular and molecular glycoengineering technologies to elucidate the role of glycosylation's within complex immunological networks and disease and to
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mentor PhD students and technicians. Independently develop and employ state-of-the-art bioinformatic pipelines to analyze and integrate complex multiomics datasets. Perform and report quantitative
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organometallic chemistry and the synthesis of organometallic complexes. The candidate must be familiar with cold plasma technologies. The candidate must have good communication skills and experience in writing