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approaches to study the molecular changes that occur in susceptible and resistant genotypes of crop and model plant species. The plant and pathogen genes identified in these studies are providing insight
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-machines and nano-robots as a drug delivery vehicles. As a core research activities, the postdoc candidate activities are the: - Design and in silico modeling of DNA origami nanostructures with high
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disease. The molecular mechanisms driving the individual endotypes of severe asthma have not been fully characterized, and in vitro model to develop endotype-specific therapeutic interventions or biomarkers
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methods for single-cell data analysis (tools developed by the team : https://github.com/cantinilab ). Single-cell high-throughput sequencing, extracting huge amounts molecular data from a cell, is creating
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 3 hours ago
. Required Qualifications, Competencies, and Experience Previous training in top labs in virology, molecular biology, gene delivery, immune cell therapy, computational modeling, immunology, bioengineering
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: Computational biophysics, drug delivery, protein design Keywords:Computer simulations, coarse-grained model, molecular dynamics, membrane fusion, fusion protein, protein design Funding of the PhD candidate: ERC
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: (1) epigenetic analysis in a mouse models of Parkinson’s disease related exposures, (2) elucidating molecular mechanisms of pesticide-induced changes in DNA methylation in a 3D neurosphere model in
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are major drivers of biogeochemical cycles in the sea, but molecular detail on how they impact on particular element cycles remains largely unknown. The postdoctoral studies will investigate the role
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that are differentially expressed in genome-sequenced marine model bacteria and natural marine bacterial assemblages. Analyses will involve state-of-the-art techniques in microbial ecology and molecular biology (e.g. gene
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: 10.1038/s41467-023-39181-2 Research area: Computational biophysics, drug delivery, protein design Keywords:Computer simulations, coarse-grained model, molecular dynamics, membrane fusion, fusion protein