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Postdoctoral Researcher in Synthetic Organic Chemistry and Photochemistry, IBMM, Montpellier, France
at the resolution of a single cell. Unlike conventional photopolymerization, this new chemistry will enable selective photoactivation of a single precursor in a multicomponent ink. This will allow to choose the
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sequencing output. This project brings together chemical biology, molecular biology, and computational science to achieve direct, single-molecule resolution of RNA cap structures. Job-ID: V000015123 Field
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and in-depth-knowledge in synthesizing small molecules, oligomers and polymers. High knowledge in identifying by-products and purifying synthesized molecules. Excellent knowledge in organic/inorganic
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hormones act via nuclear receptors, proteins that combine the functions of receptor and TF in a single molecule. The deployment of different nuclear receptor isoforms and co-factors likely plays an important
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including super-resolution STORM microscopy, TIRF microscopy, fluorometry, single molecule imaging capabilities, and a newly acquired LUMICKS C-Trap (the only one in the state of NJ). Further, the department
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contribute to the structure of filopodia and cell motility. The successful candidate will employ a broad range of biophysical and biochemical approaches, including site-directed mutagenesis, single-molecule
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I position is available in the RSP Lab led by Dr. Sklavenitis Pistofidis. The RSP Lab (https://rsplab.org ) leverages advanced multi-omic technologies, coupled with experimental perturbations and
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nanomedicine alongside a collaborative, interdisciplinary group. You can get a sense of our work here: https://bhattacharya-lab.faculty.unlv.edu/publications/ Key Responsibilities • Design, synthesize, purify
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². Understanding how these repeat sequences alter DNA structure and affect DNA-binding proteins is key to developing targeted therapies. In this project, you will use state-of-the-art single-molecule techniques
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analytical methodologies to investigate disease-relevant structures and mechanisms across all biological scales - from single molecules to entire organisms. Our vision is to translate fundamental discoveries