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ability to work independently Preferred Qualifications Experience with translational profiling, splicing analysis, or RNA editing Background in pluripotency, 3D embryo models, hematopoietic or cancer model
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of metabolic diseases. We employ untargeted and targeted metabolomic analysis and isotope tracing studies using newly vested in-house Thermo Exploris 480 LC/MS instrument. Along with this powerful analytical
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neuromodulation targets and electrophysiological biomarkers of affective dysfunction. The ideal candidate will have prior experience with time series analysis, intracranial or scalp electroencephalography, and
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immune cell co-culture systems to investigate mechanisms of chronic rejection. Evaluates and analyzes data: Performs quantitative analysis of flow cytometry, bulk and single-cell RNA sequencing, and
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survival surgery, two-photon microscopy and analysis, patch-clamp, intracranial EEG monitoring and analysis, optogenetic techniques, mouse models of epilepsy. Coding skills (Python). Baylor College
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designs scientific experiments to test these hypotheses. Performs mouse surgeries and collect data from various experiments, including metabolic characterizations, behavior tests and molecular analysis
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-, and post-procedural data collection, CTA measurements, and ultrasound interpretation. Develops clinical research studies and conducts data collection, data analysis and interpretation in advance aortic
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immunology, flow cytometry, and or cellular metabolism, and should have a strong foundation in bioinformatic analysis. (Examples of previous work includes PMID 35169026, 35256539, 32125282). The position is
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, and mouse models combined with multiple-omics and bioinformatics analysis. We are particularly interested in metabolic diseases research including MASH and MASLD/MASH related HCC. We are particularly
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knowledge of intestinal biology and bioinformatic analysis pipelines and be able to creative think. A desire to join and work with a large highly collaborative research team exploring human intestinal biology