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French National Research Institute for Agriculture, Food, and the Environment (INRAE) | Versailles, le de France | France | 2 months ago
editing using CRISPR technology. Your recruitment aims to strengthen the key theme of the IJPB and to invest fully in a new field of research at the interface between RNAi, chromatin, and DNA repair
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their relevance to ALS disease mechanisms. For more information about the project, or to discuss a potential application, please contact Dr Chun Guo (https://www.sheffield.ac.uk/biosciences/people
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: https://labs.vagelos.columbia.edu/hengstlab/ Responsibilities: · Will be leading an NIH-funded project that focuses on structure-function studies of Sorl1 · Designing, setting up, validating
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, thermodynamics of solvation shells, constant-pH simulation methods, Markovian thermodynamics, as well as functional mechanisms of the ribosome, fatty acid synthase, CRISPR/Cas or intrinsically disordered proteins
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specializes in precision cardiovascular medicine, leveraging cutting-edge approaches such as human iPSC-derived 2D cardiovascular cells, 3D vascularized cardioids, CRISPR gene editing, high-throughput CRISPRko
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omics integration; CRISPR and advanced gene editing technologies; epigenetic profiling and modulation; biomarker discovery and validation; personalized therapeutic design; clinical decision support
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consequences of its mutation in cancers. Summary aim: This project will investigate the nuclear function of TPL-2 kinase. Techniques: Cell culture, protein-protein interaction studies, CRISPR/Cas9 gene editing
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 16 days ago
Center at the University of North Carolina School of Medicine (https://www.antonlab.org) is seeking highly motivated post-doctoral fellows interested in investigating the molecular and cellular mechanisms
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into natural environments to track plants’ remarkable capacity to optimize development to their surroundings now and in the future. More information about ongoing research can be found on our website: https
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the molecular regulation of dendritic cell subsets, function, and differentiation using novel approaches, such as CRISPR Cas9, single-cell and tissue analyses. The work will contribute to our overall goal