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Previous Job Job Title Post-Doctoral Associate - Intelligent Neurotechnology for Translational Medicine Next Job Apply for Job Job ID 368999 Location Twin Cities Job Family Academic Full/Part Time
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the pathways and mechanisms by which fungi interact with selenium, an essential toxin, in the environment. Specifically, this research examines the reductive transformation of soluble, toxic Se
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, on both a day-to-day and long-term basis. 10% Participate in Lab/Department Activies Present research findings at lab meetings and departmental symposia. Attend seminars and interact with laboratory
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should be open to learning new techniques and have a strong interest in using next-generation sequencing-based techniques to study virus-host interactions. Specifically, Individuals will perform epigenetic
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host interactions through network analysis, machine learning. - Ability to map microbial genes to biochemical pathway analysis - Excellence in research, communication and collaboration skills, as
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portfolio at the UMN, #2 NIH funding among UMN schools and colleges, and $1.1M average grant funding per faculty member. The school is ranked nationally by the U.S. News & World Report, #6 public school
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concepts to device fabrication, measurements, data discussion and analysis. The successful candidate will interact extensively with the PI, graduate and undergraduate students. Job Duties: 35 % experiment
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learning new techniques and have a strong interest in using next-generation sequencing-based techniques to study virus-host interactions. Specifically, Individuals will perform epigenetic (Including histone
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Microsoft Word, Excel, and Power Point, and specialized scientific software, including Geneious and GraphPad Prism, will be a part of daily duties. The successful candidate will be expected to co-author
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responsible for degradation, and quantify microbial responses to fluorinated pesticides and pharmaceuticals using cell sorting and sequencing techniques. The individual will also interact with, lead, and assist