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biopolymer structure/functional properties with advanced biofabrication techniques to develop three-dimensional tissue models, by combining physiological architecture, physical stimuli, and native
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motivated and creative Postdoc for a combined wet and dry lab project in the Gilsbach lab. Job-ID: V000014326 Field of application: Institut für Experimentelle Kardiologie Location: Heidelberg Job Category
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microinjections and confocal and live-cell microscopy techniques is advantageous Good communication and time management skills are vital Ability to conduct research independently combined with a strong ability to
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potential infectivity of environmental fungal pathogens. Combining experimental approaches (e.g. environmental microcosm) with cutting edge bioinformatics, we will investigate the impact of climate change
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how plants control gene expression across different tissues and stress conditions by combining single-cell genomics, artificial intelligence, and synthetic biology. Apart from shedding light on
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. Within the ERC-funded multiCODE project, we aim to unravel how plants control gene expression across different tissues and stress conditions by combining single-cell genomics, artificial intelligence, and
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, international research environment that combines high academic standards with an informal and supportive atmosphere. We value accountability, curiosity, flexibility, and teamwork in everything we do. An inclusive
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Postdoctoral position in structural and biophysical analysis of plant hormone transporters within...
to investigate the molecular mechanisms of plant hormone transport. The position offers the opportunity to work within an international, interdisciplinary environment, combining structural biology, biophysics, and
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an exciting, emerging topic. The position will focus on integration and device fabrication based on combinations of 2D materials and freestanding complex oxides, aiming at discovering, engineering and unlocking
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clinical applications of novel cell and gene therapies in one integrated setting. In this environment, our research group focuses on combining novel genome engineering tools (e.g., CRISPR-based) and