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Field
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pioneered new conceptual and technological frameworks to interrogate these mechanisms, including inducible and reversible global microRNA loss-of-function, cell type–specific microRNA–target interaction
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targeted hands-on training for regional partners; host capacity-exchange workshops at NYU Abu Dhabi; and develop data and metadata platforms to support mission research across the region. The Post-doctroral
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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 17 hours ago
-associated complications. We seek to discover new anti-HIV latency therapeutic targets that will ultimately lead to the eradication of HIV, including kick and kill, direct killing, and deep latency. Various
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The University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 17 hours ago
-associated complications. We seek to discover new anti-HIV latency therapeutic targets that will ultimately lead to the eradication of HIV, including kick and kill, direct killing, and deep latency. Various
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environments. Additionally, we have identified key gene families and their specific targets that can be enhanced through genome editing technologies. Our mission is to accelerate the adoption of these resilient
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pathogens, with a focus on both existing and novel vaccine products, models that incorporate immunity at multiple scales, age- and risk-group targeting, and combination vaccine schedules. This role provides
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, ultimately supporting the development of targeted therapeutics and precision medicines. Through a collaboration with the Stanford Cardiovascular Institute, the lab has access to one of the largest iPSC
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relevant areas. Preferred Qualifications Proven track record of creativity and established track record of publishing in peer-reviewed journals. FLSA Exempt Full Time/Part Time Full Time Number of Hours
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significant potential for adaptation to these challenging environments. Additionally, we have identified key gene families and their specific targets that can be enhanced through genome editing technologies
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to understand genomic targets of selection to heat stress in mytilid mussels. The research aims to better understand, whether heat resistant populations already populate European coasts (from Portugal