364 molecular-modeling-or-molecular-dynamic-simulation positions at Rutgers University
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biochemistry, cell biology, molecular biology and/or neuroscience. Applicants must have the ability to work collaboratively and independently, be able to conduct independent experiments, and prepare written and
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Position Details Position Information Recruitment/Posting Title Laboratory Researcher IV Job Category Staff & Executive - Research (Laboratory/Non-Laboratory) Department DLS Molecular Biology
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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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of the Principal Investigator, the Research Associate III will participate in experiments to investigate the molecular and cellular mechanisms involved in the development and maintenance of chronic itch. Among
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of this position are the following: Assists in performing experiments related to cell biology, biochemistry, molecular biology, and/or neuroscience. Assists in maintaining laboratory instrumentation such as
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studies with wild-type and genetically modified mice, including handling, injection and tissue collection. Perform cell culture studies with human and primary mouse cells. Perform molecular biology
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, National Institute of General Medical Sciences. These projects involve the synthesis and biological applications of molecular tools (small molecules and oligonucleotides) to establish new-generation
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researcher will be responsible for the design, analysis, interpretation, and presentation of experiments regarding the study of the disease mechanisms of various brain disorders using murine models and iPSC
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to wound healing, salivary gland development and regeneration, and saliva–bacteria/host–microbe interactions, using molecular, cellular, and in vivo mouse approaches in a collaborative research environment
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-based genomic and molecular markers to identify therapeutic vulnerabilities. Research areas span DNA repair and replication fidelity, chromosome segregation, cancer genome evolution, and gene expression