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National Institutes of Health/National Library of Medicine | Bethesda, Maryland | United States | 12 days ago
genomics, develop novel machine learning methodologies, and create programs addressing critical questions in gene regulation under the guidance of Dr. Ivan Ovcharenko. This position is located at the NIH
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the updated variant classification for genetic disorders and will train members of the community on ClinGen processes for curating the scientific literature for gene curation. The work is done using the web
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systems with the expectation that they can provide immediate assistance, education, and training for colleagues, contractors, and visitors on an as needed basis. With your deep knowledge in the discipline
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company and team with a desire to bring new, cutting-edge medicines to patients around the world. As a member of our team, you'll use science and technology to design, characterize and develop the solid
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, sealants and functional coatings. With our trusted brands, our cutting-edge technologies and our disruptive solutions, you will have countless opportunities to explore new paths and develop your skills. Grow
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establishing an overall plan for maintaining fleet of NMR and Open Access NMR/Mass Spec/Spectroscopy instruments. You will develop new methods for using NMR and Mass Spec to drive drug discovery and you will
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to CM research projects in support of Pfizer's portfolio. Train colleagues in CM and other Research and Development lines in techniques and principles which promote 3Rs, in particular anesthesia and
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collaborate with process chemists, engineers, and process supervisors to develop an acceptable basis for safety to support scale-up and technology transfer of new chemical processes to Pfizer's research and
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consulting others. Serve as an SME. Train analysts on assays, provide mentorship and technical guidelines. Independently plan and prioritize their own workload to ensure timelines are met. Collaborate with and
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RESPONSIBILITIES A successful candidate will be required to develop and execute kinetic and mechanistic enzyme assays to understand epigenetic protein targets, their function and regulation, along with determining