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opportunity to work on developing and validating smartphone and smartwatch applications aimed at improving human movement, rehabilitation, and fitness engagement. An important component of this position will be
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on characterizing non-coding regulatory elements in humans and understanding how these elements change across different conditions. The project will involve developing new modeling approaches for coupling functional
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methods at the density-functional and dynamical mean-field-theory levels, metal-insulator and structural phase transitions, quantum critical points, nonlinear and anomalous responses, optical traps, quantum
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(RBHS). The primary purpose of the Postdoctoral Associate is to perform investigations on regulation of utilization of dietary fiber and host glycans by Hybrid Two-Component System (HTCS) transcription
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applications aimed at improving human movement, rehabilitation, and fitness engagement. An important component of this position will be to work as part of an interdisciplinary team spanning across colleges