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bacteria. This research project will use computational models to explore the bidirectional relationship between an organism’s motility and its adaptable environment, investigating how microorganisms not only
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(specificity, sensitivity and predictive values) of various pm imaging diagnostic tools for the use in forensic odontology -and Disaster Victim Identification (DVI) casework. A key focus of this project is to
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• Experience in working with advanced gene-editing technology • Demonstrated experience with any of the following techniques is desirable: Bacterial transformation, cloning, virus-like-particle generation, and
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pluripotent stem cells is beneficial. Working knowledge of stem cell biology, epigenetics and/or metabolism is advantageous. Highly motivated and ambitious candidates are encouraged to apply. The position
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‘Apply now’ below. The application must include the following documents in PDF format: 1. Motivated letter of application (max. one page) 2. CV incl. education, experience, language skills and other skills
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of the NAD+ generating and consuming pathways for maintaining tissue function and adaptability in response to metabolic stress. We employ innovative preclinical models to manipulate NAD-related metabolites
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this challenge, we are 1) developing new assays and 2) computational frameworks to resolve gene regulatory activities in single cells and 3) apply these to map regulatory activities across cell types