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clinical pulmonologists and immunologists to study the molecular mechanisms that underly airway tissue homeostasis and asthma pathogenesis. In addition, our group aims to develop new computational algorithms
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the intersection between quantum information and particle physics. The successful applicant will work in Professor Carlos Argüelles’ group on the development of new algorithms to encode and process particle physics
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, genetically modified, organisms. A major focus is toward studying electrical signaling in the nervous system. We developed fluorescent reporters of membrane voltage and associated instrumentation to map
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, electrophysiology, simulation, and theory. We work at the levels of individual molecules, single cells, and whole, genetically modified, organisms. A major focus is toward studying electrical signaling in the nervous
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light-averse diamondback moths (Plutella xylostella) via artificial selection for use in comparative behavioral and genetic analyses; (ii) leveraging techniques from the fields of behavioral ecology and
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pseudostratified epithelial architecture, and its role in tissue behavior. It will also involve use of advanced live imaging, genetic manipulations, computational modeling, and mentoring junior team members. A
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, that package random sections of the host genome for use in genetic exchange. These virus-like entities are non-infectious and cannot replicate themselves, but are able to transduce random sections of the genome