42 computational-solid-mechanics Postdoctoral positions at University of Washington in United States
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fellow to study the cell fate decision mechanisms in hematopoietic stem and multipotent progenitor cells using primary mouse and human bone marrow cells and patient samples. The successful candidate should
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mechanisms and disease outcomes. This work involves a multidisciplinary approach, including next-generation sequencing, bacterial genetics, host genetics and metabolomics. Job Description Primary Duties
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Position Summary Dr. Masatoshi Inoue’s lab is currently searching for a Postdoctoral position. Our lab focuses on exploring the neural circuit mechanisms of maladaptive social behaviors. We
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the biological mechanisms underlying immune tolerance in HSCT. The laboratory has the additional goal of using a bench-to-bedside approach to develop novel cellular therapies for GVHD prevention and for targeting
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researcher to work on Cellular Regulation and Mechanisms of Protein Arginylation Modification. Our research is aiming to elucidate the biological functions of arginylation, discover the protein substrates
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repository and computer servers. Run existing PET/MR brain image processing pipelines on the computer servers, produce the results, and communicate with the group members. Write computer codes for the above
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. Computational and bioinformatic skills. Experience in microscopy. Generation and analysis of mouse models. Handling of human samples. Molecular biology skills including CRISPR, cloning and qPCR. In vitro cell
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-of-use water filter during use. Methods are expected to use LC-MS/MS and GC-MS workflow. These methods would be applied for laboratory testing and in a pilot testing program. Job Description Primary Duties
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the Required Qualifications section. Work Experience: No additional work experience beyond what is stated in the Required Qualifications section. Skills: Collaboration, Computational Biology, Data Analysis, Data
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milieu of host cells (T cell subsets, etc.) responsible for responding to this organism, both in acute and adaptive models of infection. Additionally, we are dissecting mechanisms of infection, including