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-modal single-cell, spatial and genome editing technologies; and applies these methods to study regulatory genomics of cell function and cell-cell interactions, with a focus on immunology and cancer
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manipulate immune cell behavior at the single-cell level in live animals. This groundbreaking approach has enabled real-time study of distinct macrophage populations, providing new insights into how
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manipulate immune cell behavior at the single-cell level in live animals. This groundbreaking approach has enabled real-time study of distinct macrophage populations, providing new insights into how
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research levels in the areas of biochemistry, biophysics, cell biology, structural biology, microbiology, developmental biology, virology, genetics and cancer biology. The term of appointment is based
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information about the lab can be found at www.princeton.edu/~cmngroup. Applicants must have a recent doctorate with appropriate research experience in cell biology, developmental biology, microfabrication
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/~cmngroup. Applicants must have a recent doctorate with appropriate research experience in cell biology, developmental biology, microfabrication, or mechanobiology, strong organizational and communications
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one or more of the following cell biology, molecular biology, biochemistry, genetics, immunology, and/or microbiology; excellent oral communication and writing skills, preferred. The Term of appointment
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laser spectrometer. The resulting instrument will have many applications; notably, it will allow the spectroscopic characterization of nanoscale volumes in frozen cell sections, providing unprecedented