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and across species. - Implementing ATAC‑STARR‑seq to validate enhancer activity; mapping enhancer–promoter links via loop/TAD structures. - Perform comparative analyses versus Populus tremula; apply
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biology: Computational Biology and Bioinformatics, Microbiology and Immunology, Molecular Biology, Molecular Biophysics, Molecular Evolution, Molecular Systems Biology and Structural Biology. The scientific
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an independent and analytical researcher with a strong ability to plan, carry out and follow up research projects. You work in a structured and thorough manner and have good collaborative skills. Furthermore, you
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sequencing instruments into microscopes! Your mission You will join our team, a leading group in the field of DNA nanotechnology specialized in creating molecular tools for life-science research (http
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and international collaborations. The Benson group is focused on combining DNA nanotechnology with selection and sequencing to discover DNA structures that can act as pathogen binders or deliver drugs
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barrier; it is a sensory interface with the world. Yet many of the structures that allow vertebrates to detect mechanical stimuli remain poorly understood, especially outside mammalian models. Our recent
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group (www.bourginelab.com ) led by Paul Bourgine. The group specializes in the production of ossicles/bone tissue that recapitulate the structure and function of skeletal bone and bone marrow. In the
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within research and education. The following will strengthen your application: Familiarity with any of: molecular simulation methods (integrators, force fields, enhanced sampling), structural biology
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microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between SiC and graphene
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. Motivating examples include the spatio-temporal dynamics of sweat droplets, interacting cellular or tissue shapes, and geometric structures arising in vegetation such as tree canopies. The work combines