26 high-performance-computing Postdoctoral positions at University of Maryland, Baltimore
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; Embraces and actively promotes an inclusive and equitable work environment. Experience conducting mixed-methods research, including quantitative and qualitative analytical skills; Proficient computer skills
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. Qualifications a. Qualifications A PhD in Computer Science or Electrical Engineering with biomedical data analysis emphasis or related fields is required. Previous experience in developing novel data mining
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Ambitious with a desire to pursue academic research Ability to creatively follow their own ideas in addition to working on a high impact project Prior experience in immunological and molecular assays
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experimental procedures and results in a detailed laboratory notebook and computer databases. Analyze data using statistical software. Prepare graphics to present data at conferences and in manuscripts
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hypothesis that editing of MP lowers blood pressure in models of hypertension and heart failure, and will determine the mechanism(s) by which it does so. The post-doc will perform experiments in animal models
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possess strong communication and organizational skills. Qualifications a..Qualifications A PhD in Computer Science or Electrical Engineering with biomedical data analysis emphasis or related fields is
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at the University of Maryland, School of Medicine is an interdisciplinary, multi-departmental team of collaborative investigators with a broad research program related to the basic and translational sciences
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collaborative projects. Selected candidates will perform highly interdisciplinary and translational scientific research involves human cell lines, mouse models, and clinical samples. Interested applicants should
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; 2) perform neuromodulation in preclinical models of substance use disorders. Preference will be given to candidates with a demonstrated track record of prior experience conducting research with
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cells (hiPSCs). The Hong laboratory has identified small molecules that enhance cardiac performance in human IPSC-derived cardiomyocytes (iPSC-CMs). The first goal is to examine the mechanism of action