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bone marrow transplantation. We are looking for a highly motivated candidate with a PhD degree interested in using microbiological methods with the aim of developing novel strategies to improve bone
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data and health record information, to develop predictive models for drug response. Furthermore, we work on creating new treatment stratification methods to personalize treatment for individual patients
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Biophysical methods (SPR, ITC, structural biology) o Antibody or scaffold display technologies · Track record of first-author publications in peer-reviewed journals · Strong data-analysis
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medical oncology is preferred · A solid understanding of statistical methods and clinical and translational research procedures. · Proficient in written and spoken English City of Hope
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discipline such as cellular or tumor immunology or related fields · Interest and knowledge in vaccine research (poxvirus especially) and neoantigen-based vaccine methods utilizing bioinformatics
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presentation, ability to work efficiently in a team and with collaborators · Experience in Single Cell Multi-omics techniques and multiple component analysis programs is an advantage · Previous
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laboratory focuses on developing physics-based computational methods to study protein structure, dynamics, and drug design. For more information about Dr. Vaidehi’s lab, please visit here. As a successful
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biochemistry, molecular biology, and cell biology methods with state-of-the-art technologies such as comprehensive mouse phenotyping, 3D tissue clearing & imaging, in vivo transplantation and 3D imaging
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setting. Proficiency in purification techniques for small organic molecules, such as chromatography (HPLC, LCMS), and characterization methods, including NMR and mass spectrometry. City of Hope employees
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single cell methods preferred. City of Hope employees pay is based on the following criteria: work experience, qualifications, and work location. City of Hope is an equal opportunity employer. To learn