Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
opportunity to explore an essential question:- how does chromatin move and behave to control genes? To do so, you will lead an exciting HFSP-funded collaboration to apply single molecule imaging and genomics
-
. Experience in working with animal models, transcriptomics (long read, single cell), multi-parameter flow cytometry, molecular biology and fluorescence imaging will be preferred. We offer an interdisciplinary
-
immune system in health and disease. We are looking for a candidate with expertise in immunology. Your main tasks and responsibilities: Leverage advanced methodologies to integrate imaging with genomics
-
physics, applied mathematics, machine learning, bioinformatics, biophysics, spectroscopy, image processing, ecological modeling, molecular biology, plant physiology, marine biology or an interest in gaining
-
engineering, with a particular focus on AI, data science and decision-making The candidate's research will focus on code quality assurance, code analysis and more generally on the engineering of TrustWorthy
-
focus on large-scale biobank imaging and histopathology in a range of diseases (example publications: 1 , 2 & 3 ). The lab welcomes applicants with interests in any of the following areas: Supervised
-
facilities in imaging, immunology, tissue engineering, and bioinformatics. Qualifications We seek applicants with the following qualifications: Essential: PhD in molecular biology, immunology, biochemistry
-
genomics, virtual cell models Graph-based neural networks, optimal transport Biomedical imaging, deep learning, virtual reality, AI-driven image analysis Agentic systems, large language models Generative AI
-
tissue samples, multi-parameter flow cytometry, molecular biology and fluorescence imaging will be preferred. We offer an interdisciplinary research environment that fosters innovation and collaboration
-
Postdoc position: mechanisms of autoimmunity & autoinflammation in inborn errors of immunity (m/f/d)
erythematosus (SLE). This project will integrate biochemical, immunological, and imaging techniques, along with co-culture of patient-derived organoids and model organisms combined with various –omics approaches