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therapeutic strategies, with a focus on precision and patient-oriented approaches. https://nastalylab.gumed.edu.pl THE RESPONSIBILITIES OF THE PERSON EMPLOYED IN THIS POSITION WILL INCLUDE: Conducting
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, and 3D such as Tomo-PIV and STB), hot-wire anemometry, high-speed imaging, Planar Laser Induced Fluorescence, dynamic pressure measurements. Experience writing journal papers in leading fluids journals
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a good team spirit are expected. Any experience in in vitro cell culture, RNA biology techniques, next-generation sequencing, fluorescent microscopy imaging, and involvement in studies
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decide the fate of their RNAs - whether to translate, store, or degrade them. Using biochemical reconstitution, fluorescent labeling, and single-molecule imaging, you will explore how molecular machines
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in simpler (2D culture) or more complex (animal) models. The imaging data will finally be transformed into quantitative measurements to be analyzed and modeled to understand these processes
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CeMM - Research Center for Molecular Medicine of the Austrian Academy of Sciences | Austria | 3 months ago
creation. Your tasks Cell culture (maintenance, drug treatment, and staining); High-throughput imaging and image analysis; High-resolution fluorescence microscopy; Cell-based assays (cell viability, flow
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fluorescence microscopy, image analysis, and sample preparation for sequencing and multi-omics analyses. The main model organism will be Bacillus subtilis, but other bacteria as well as fungal species including
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Essential: Proficiency in fluorescence microscopy techniques (confocal, wide-field, live-cell); experience with microfluidic systems or single-cell analysis; strong background in image analysis; demonstrated
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techniques (3D printing, photopolymerization, laser ablation, molding). - Knowledge of advanced imaging techniques (confocal microscopy, fluorescence microscopy etc.) will be highly appreciated. Website
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) the creation of new-based DNA nanostructures as a molecular template to hold proteins to facilitate molecular imaging by single-particle Cryo-Electron Microscopy (Cryo-EM) (2) the development of DNA-based nano