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assist in mechanistic experiments on the role of perivascular stem cells on tendon and ligament development and healing, as well as therapeutic experiments, in small animal models. The candidate will also
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biology approaches to uncover the pathobiological mechanisms of cardiovascular diseases with the following in vitro and in vivo studies using disease models and cutting-edge research laboratory techniques
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therapeutic drugs based on the disease mechanism. We are seeking highly motivated researchers with a PhD degree in related area, with an interest in developing animal models for human diseases and potential
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, molecular biology, cell biology, modulation of mouse models, and state of the art inhalation exposure techniques. We are looking for an enthusiastic and highly self-motivated individual to conduct research
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to characterize and test these including in animal models is advantageous. Characterizing mechanism(s) is advantageous. Other skills of interest include familiarity with imaging, such as with PET, MR, and optical
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in animal models. Other skills of interest include familiarity with imaging, such as with PET, MR, and optical imaging. The candidates will have the opportunity to work with others and independently
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contractility in the regulation of blood flow in development and disease models. The focus is on the myosin phosphatase (MP), a critical target of signals that regulate blood flow. Experiments will test the
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. graduate with a strong background in molecular and cell biology, genetically altered mouse models, animal physiology, and metabolic phenotyping of mice. Candidates with additional experience in the following
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desirable. Ability to characterize and test these including in animal models is advantageous. Other skills of interest include familiarity with working with small animals as well as imaging, such as with PET
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, transplantation, and 2-photon Imaging in the mouse model of ischemic stroke. A major focus of the laboratory is to apply the long-term intravital single-cell tracking (LIST) under 2-photon microscopy to study the