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understand the basic mechanisms of cell metabolism that includes: biochemistry, cell biology, mouse genetics, and human validation-based approaches to dissect the role of OPN signaling in the different disease
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robotics expertise in the medical fields are strongly preferred. This is a 3-year contract opportunity to contribute to innovative research at the intersection of technology and medicine. The University
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experience required Knowledge, Skills and Attitudes: Skill in collecting, organizing, and analyzing data. Ability to recognize, analyze, and solve a variety of problems. Ability to exercise sound judgment in
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required Knowledge, Skills and Attitudes: • Skill in collecting, organizing, and analyzing data. • Ability to recognize, analyze, and solve a variety of problems. • Ability to exercise sound judgment in
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to include other duties or responsibilities as necessary. CORE QUALIFICATIONS Education: MD or Ph.D. in relevant field Experience: No prior experience required knowledge, Skills and Attitudes: • Skill in
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or responsibilities as necessary. CORE QUALIFICATIONS Education: Ph.D. required Experience: No prior experience required Knowledge, Skills and Attitudes: Skill in collecting, organizing, and analyzing data. Ability
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the mentorship of Dr. Rai to contribute to the basic research of the lab Perform routine and complex laboratory experiments, including the planning and conducting of projects involving molecular / cell biology and
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competitive salaries and a comprehensive benefits package including medical, dental, tuition remission and more. UHealth-University of Miami Health System, South Florida's only university-based health system
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local agency funded projects Potentially design new projects Perform biochemical experiments, including Western blotting and immunohistochemical staining. Perform molecular biology experiments, including
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, which will include the use of biochemistry, cell biology, immunology, molecular biology, proteomics, genomics, animal modeling and mouse genetics, and/or the use of human tumor xenograft models. A prior