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Field
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. Polymer-stabilized lipid nanodiscs are a recently developed system for extracting membrane proteins from cell membranes and stabilizing them in solution, in the presence of the native lipids
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–membrane system. The position offers a unique opportunity to collaborate closely with leading industrial and academic partners to deliver groundbreaking results in sustainable hydrogen and carbon production
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 4 days ago
students and 50 undergraduate students. Position Summary The successful candidate will perform research investigating molecular-level processes in reverse osmosis (RO) membranes and how these processes
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glycoproteins and antibodyantigen interactions. Experience with membrane protein expression and purification, including reconstitution in nanodiscs (preferred but not required). WORKING CONDITIONS: This position
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biology of rhomboid-like membrane proteins, with an emphasis on cellular signalling mechanisms. You will also be expected to provide guidance to less experienced members of the research group, including
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of polymer-lipid interactions. Polymer-stabilized lipid nanodiscs are a recently developed system for extracting membrane proteins from cell membranes and stabilizing them in solution, in the presence
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required in Biophysics, biochemistry Additional Information Work Location(s) Number of offers available1Company/InstituteInstitut Européen des Membranes (IEM)CountryFranceGeofield Contact City Montpellier
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biophysical (e.g., FRET, ITC, SPR) and structural techniques (e.g. cryoEM) to characterize protein interactions Background in membrane biology or lipid biochemistry. Knowledge of neuroscience or synaptic
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/anion exchange membrane systems). The successful candidate will contribute to the design, fabrication, testing, and characterization of materials and devices for clean energy conversion and storage
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ionomer membranes under diverse real-world operating conditions, using operando electrochemical and spectroscopic methods. Lead synchrotron campaigns aiming at unveiling the degradation mechanism