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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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understanding of the mechanisms and phenomena underlying unconventional superconductivity. Job duties 70%: Research 10% Supervision of graduate students and/or undergraduates participating in relevant research
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other sciences field by the time of hire and experience in a laboratory environment. Background in fluid mechanics and laboratory experiments is preferred. Data and image processing skills are also
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development and future formation of his/her own career as well as should be willing to seek for research funding. He/she should have experience of working in a research team environment and have experience
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maintenance of equipment and coordination of research supplies Qualifications Required: Ph.D. in biomedical, electrical, computing, or mechanical engineering, neuroscience, computational biology, or a closely
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have a PhD in environmental engineering, earth or environmental engineering, or related fields, with a background in ecohydrology. Experience in ecohydrological modeling and remote sensing is desired
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Regular Job Code 9546 Employee Class Acad Prof and Admin Add to My Favorite Jobs Email this Job About the Job A funded postdoctoral position with an emphasis on studying the synaptic mechanisms of cognitive
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include: -PhD (or equivalent terminal degree) in relevant discipline, in biological sciences, microbiology, chemical engineering, biomedical engineering, or mechanical engineering -Experience with funded
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to investigate the underlying DNA damage response mechanisms in cancers. One area of active research is to investigate mechanisms of sensing and resolving R-loops in cancers to provide molecular insight
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to uncover immune-regulatory mechanisms with relevance to infection, vaccination, and chronic inflammation. Responsibilities: • Design and conduct in vivo experiments using murine models to study immune