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, primarily dedicated to understanding the cause and development of cancer with a special emphasis on animal models. The successful candidate will join an experienced 4-person team that supports CSHL’s basic
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and the microbiome affect tissue fitness or cancer outcomes. We utilize state-of-the-art experimental and computational approaches to integrate genetic, epigenetic, metabolism and microbiome data
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tissue fitness or cancer outcomes. We utilize state-of-the-art experimental and computational approaches to integrate genetic, epigenetic, metabolism and microbiome data to identify causal targets that can
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Forecast short- and long-term cash needs with a high degree of accuracy, taking into account grant cycles, philanthropic revenue, capital projects, and program expenditures. Maintain and monitor daily
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and nurture during the development of cortical neural circuits. We also examine their alterations in mouse models of neurodevelopmental disorders. More specifically, we focus on the various
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mouse models of cancer in a highly collaborative environment. Position Responsibilities You will perform a variety of wet lab and managerial tasks, including maintaining an experimental mouse colony
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the development of cortical neural circuits. We also examine their alterations in mouse models of neurodevelopmental disorders. More specifically, we focus on the various neuromodulator cues to which cortical
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program into a highly successful online subscription-based protocols journal • The transformation of its renowned print monograph series into two highly cited subscriptionbased online review journals
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candidates should be highly motivated, have research skills with CRISPR functional genomics, disease animal models, flow cytometry or metabolomics analysis, and have effective communication skills as
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laboratory settings. Our lab, using this novel model system, seeks to pursue two complementary questions. First, how does the auditory system interact with the motor system to generate the sensorimotor loop