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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 6 days ago
Comprehensive Cancer Center. The Brown Lab uses cutting-edge structural biology techniques (e.g., cryo-EM) to understand mechanisms of ubiquitin ligases that drive the cell cycle. Ultimately, these studies will
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properties, chemistry, physical, structural and microstructural properties. New compositions will be designed and characterized to improve the thermal behavior under cooling. Moreover, the activity will
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experimental research on structural and functional characterization of Hybrid-Two-Component Systems (HTCSs) in Bacteroides. Uses molecular biology and molecular genetic techniques to engineer plasmids
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for structure–function studies in collaboration with chemical biology partners. The work will be conducted at the Department of Chemistry, with access to state-of-the-art organic synthesis laboratories, microwave
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at the postdoctoral and more senior research levels in the areas of biochemistry, biophysics, cell biology, structural biology, microbiology, developmental biology, virology, genetics and cancer biology. The term
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to produce solutions to a range of challenges within human, microbial and plant biochemistry; chemical biology; structural biology; molecular genetics; ’omics technologies; synthetic biology; synthetic organic
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networks are rewired in response to physiological or pathophysiological stimuli. The project will be conducted jointly with the 'Structural Interactomics Group' led by Prof. Fan Liu (https
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revolutionized our ability to obtain large scale RNA structure and RNA-RNA interactome information in the cell (Aw et al., 2016). This greatly expands our understanding of how RNAs are organized within the cell
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strengths in nuclear architecture, genomics, ancient DNA, structural biology, infectious disease, biophysics, and quantitative biology. In addition to a highly collaborative environment, UTMB offers many
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to produce solutions to a range of challenges within human, microbial and plant biochemistry; chemical biology; structural biology; molecular genetics; ’omics technologies; synthetic biology; synthetic organic