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Faradaic currents below the detection limit to electrogenerated fluorescence. We will focus on model electrode processes of electroactive molecules immobilized at nanoelectrodes and reactions catalyzed by
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research, combining state-of-the-art single-cell biology, epigenomics, and zebrafish disease models to uncover the regulatory mechanisms of development and disease. Where to apply Website https
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interactions, in silico molecular modeling, molecular biology, in vitro plant cultures, Medicago. Principal Investigator: Professor Michał Jasiński Research topic
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“Investigation of the 3-D distribution of Hard X-ray sources related to solar eruptions: verification of the standard flare model scenario.”, funded by the Polish National Science Center (NCN) we are currently
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, including RNA-seq, and basic knowledge of biostatics. • knowledge of cell culture techniques, particularly hPSCs (human pluripotent stem cells), practical knowledge and experience working with animal models
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. Specific Requirements experience in analysing non-flint stone artefacts, e.g. quartzite; experience in statistical analyses; experience in analysing stone artefacts from Asia; ability to create 3D models
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and polymers and test them against model phages (T1, T4, T7, M13, MS2, phi6, PhiX174, QBeta), bacteria, and eukaryotic cells. We will tune the composition of the “mixed” domains to ensure efficacy
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knowledge and experience in working with animal models such as Mus musculus, knowledge of confocal microscopy techniques, including software and automatic image analysis, knowledge of flow cytometry
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the zebrafish model, ex ovo studies using the chick embryo chorioallantoic membrane model (CAM), and in vivo studies in rats. Therefore, this project will allow for a comprehensive characterization of the
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to confirm the safety of the (nano)hormonechemotherapeutics. A key phase will be the development of a translational organoid model derived from patient tumor tissues that reflects the realistic tumor