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teichoic acid synthesis in Streptococcus pneumoniae (NANOWALL project) (super-resolution fluorescence microscopy dSTORM; biochemistry) The bacterial cell wall is a critical structure that provides mechanical
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genetics, evolutionary analysis, mammalian cell culture, and live-cell imaging. Through collaborations, we use cryo-electron microscopy and cryo-electron tomography for structural studies. For more
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dissections; tissue fixation and sectioning; immunohistochemical staining and immunofluorescent staining; digital fluorescence microscopy; image analysis using software such as ImageJ, QuPath, and analytical
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Where to apply Website https://www.rfgi.es/ConvocatoriasPropiasFIMABIS/es/Convocatorias/VerConvocatori… Requirements Research FieldMedical sciences » Health sciencesEducation LevelPhD or equivalent Skills
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Australia) and forests in North America or Europe. They will have the opportunity to contribute to anatomical (e.g. electron microscopy), physiological (e.g., electrophysiology), and/or behavioural
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university institutes and research centers. Our facilities include state-of-the-art scientific core services such as protein analytics (including mass spectrometry), advanced light microscopy, and flow
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-protein interactions using SPR and BLI), cell biology (including analysis of signal transduction in cells, proliferation and measurements of apoptosis progression, cell migration, fluorescence microscopy
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modified organisms (lineage tracing, conditional knockouts, engineering of new genetically modified strains etc.), advanced imaging techniques including confocal, light sheet or super-resolution microscopy
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between nanomaterial science, nanoplasmonics, nanofluidics, label free single-molecule optical microscopy, single particle catalysis and hydrogen nanosensors. For that purpose, we continuously develop and
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fertilizer formulas. Characterize produced fertilizer formulas using various physicochemical and analytical tools such as spectroscopy, microscopy, porosity analysis, to assess structure-property relationships