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, dynamics) Cryo-EM of large macromolecular assemblies Biochemistry and molecular biology Current projects include: Bacterial proteases that manipulate host pathways, with emphasis on conformational exchange
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on the structural dynamics of molecular machines. This is an exciting opportunity to help shape the scientific direction of a growing lab at the interface of structural biology, biophysics, and virology, while
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transgenic, cell culture, molecular biological, genetics, biochemical and other physiological approaches. Successful applicants will need to demonstrate a strong work ethic, to have the ability to work both
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-doctoral experience PhD in immunology, cancer biology, or a closely related field. Preferred Qualifications: Experience with rodent models and/or human specimens Basic molecular biology and cell culture
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Proficiency with high-parameter flow cytometry Familiarity with bioinformatics workflows (e.g., single-cell RNA-seq analysis) Strong background in cell culture, molecular cloning, viral transduction, and
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sgRNA design. · Perform molecular and cellular assays to investigate gene regulation, extracellular vesicle signaling, and therapeutic efficacy. · Analyze and interpret data, prepare
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biology or immunology. Experience with microscopy techniques, molecular biology, omics analyses, and tissue culture is highly desirable. The successful candidate will contribute to projects supported by
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will conduct research focused on biochemical, cellular, and molecular mechanisms underlying gynecologic cancer progression and therapy resistance. The primary focus of experiments will include, but
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: Minimum Qualifications: MD or PhD in the field of pharmacology, physiology, molecular biology, and/or neuroscience. Applicants must meet minimum qualifications at the time of hire. Preferred Qualifications
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conduct research focused on biochemical, cellular, and molecular mechanisms underlying human placental angiogenesis and development, with a primary focus on severe, early-onset fetal growth restriction