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with a ~100 nm resolution limit. Going beyond this limit and dissecting the single molecule-level organisation of paraspeckle complexes should answer important questions of paraspeckle biology and
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thin films (e.g. polymer, small molecules, COFs) by solution-processing methods, and produce transistor device structures using such thin films characterize the resulting devices and potentially circuits
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varying from analytical chemistry to biochemistry and molecular biology we study how plants use signaling molecules to affect the behavior of other organisms in the rhizosphere. This includes communication
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thin films (e.g. polymer, small molecules, COFs) by solution-processing methods, and produce transistor device structures using such thin films characterize the resulting devices and potentially circuits
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to understand the mechanical and structure-function properties of milk fat globules and to reverse-engineer them using plant-sourced molecules? Then, this joint PhD position at Biobased Chemistry and Technology
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, both theorists and experimentalists. Fellows will join our highly interactive group, with interests ranging from the dynamics of single molecules to neural computation, and from biochemical and genetic
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tweezers technology. The position focuses on quantitative single-molecule measurements and mechanical manipulation of biomolecular complexes to investigate fundamental biological processes. The successful
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by animal models that optimize for single causes or treatments, without reflecting the diversity and complexity seen in patients. This Marie Skłodowska-Curie Actions (MSCA) doctoral network PhD project
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Posting Number req24589 Department Physiology Department Website Link https://physiology.arizona.edu/ Location University of Arizona Health Sciences Address 1501 N. Campbell Avenue, Tucson, AZ 85724 USA
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, comparative, and synthetic genomics approached from a mechanistic angle Quantitative and integrative methods combining high-resolution imaging, functional genomics, single-molecule biophysics, and computational