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facilities. This role will be central to building and integrating our core facility expertise in spatial technologies to generate combined spatial omic methodologies. These include transcriptomics, proteomics
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(DC2, DC3, DC12 or DC13) with expected synergies between DC2-DC3 (in vitro models, proteomics methodology) and DC12-DC13 (receptor modelling and engineering). The students will also collaborate with
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proteomics. Particular emphasis will be placed on the role of the lysosomal protein LIMP-2 in disease progression. The successful candidate will lead this project – planning and performing experiments
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expected synergies between DC2-DC3 (in vitro models, proteomics methodology) and DC12-DC13 (receptor modelling and engineering). The students will also collaborate with consortium partners
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, cell biology and infection biology. Project description Biochemical, proteomics and structural studies of apicomplexan parasites and tick-borne RNA viruses. Qualifications The successful candidate shall
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vectors studies, including vector design and cloning. RNA sequencing. Proteomics/transcriptomics and bioinformatics. PLA. Immunohistochemistry on brain sections. Surgery to implant electrodes and EEG
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for Knowledge Translation (ImPaKT) Facility with Containment Level 2+ and 3 cell culture laboratories and animal housing. We have world-class facilities in genomics, proteomics and transcriptomics at the single
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TR333, SFB 1454, or iBehave). Expertise in proteomic analyses is desirable. In addition, the professorship is expected to actively contribute to conducting and further developing teaching within
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Students (f/m/x) Research Focus IMPRS-GS: Projects span experimental (genomics, transcriptomics, proteomics, etc.) and theoretical (bioinformatics, computational biology, etc.) disciplines. GönomiX: Focuses
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. This project will utilise a combination of molecular and cell biology approaches, microbiology and advanced quantitative proteomic methods. ZDHHC5 knockout cells will be used to study the perturbed cell surface