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PhD degree in medical sciences, biological sciences, chemical sciences, or a related field, knowledge of tissue specimen preparation and imaging techniques, experience in working with cell cultures (in
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sensitive fluorescent probes to identify, localise and quantitatively assess the activity of selected proteases in cancer cells, neutrophils, PBMCs and tissue samples. The use of advanced confocal microscopy
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sequencing methods including DNA-sequencing, RNA-sequencing (RNA-seq), ATAC-seq, ChIP-seq, CUT&RUN, CUT&TAG, single-cell ATAC+RNA-seq, among other approaches), analysis of functional screening datasets (i.e
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— Formalization of the applications: 2.1 — The Applications must be accompanied by the following documents: a) Application minute for the competition addressed to the Rector of the University of Aveiro; b) Copy
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interaction in cell membranes, as energy source and in cellular signalling and function. As such, they also play decisive roles in cardiovascular disease, chronic kidney disease, cancer and chronic inflammatory
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to exercise, assesses symptom correlation if any, and interprets ECG findings. Enters data into computer and forwards hard copy to physicians/director for review. Sends out final reports in a timely manner and
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radioprotection. These include the formation of DNA strand breaks by ionising radiation, DNA repair, radiosensitisation by metal nanoparticles, cell survival and radioresistance. The MS-RADAM research programme
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Offer Description KEY WORDS: RNA biology, non-coding RNAs, regulatory RNAs, miRNAs, circRNAs, neuroscience, pituitary gland, neuroendocrine cells, transcriptomics, scRNA-seq, bulk RNA-seq. Research topic
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for high-dimensional datasets, including spatial bulk and single-cell RNA sequencing, mass and flow cytometry, and imaging data derived from both patient samples and experimental models. The overarching aim
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information about our institute here: https://www.fz-juelich.de/en/ias/ias-8 Your Job: Develop physics-aware simulations of growing cell populations, including their spatiotemporal manipulation in microfluidic