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system using mouse models. Techniques may include confocal imaging, brain slice electrophysiology, in vivo manipulations, molecular biology, and behavioral analysis. Genetic mouse models will be applied
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Medicine and is primarily a patch clamp electrophysiology, calcium imaging, and immunohistochemistry lab. Who we are As one of the fastest-growing academic health centers in the nation, Texas A&M Health
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. Required Education Appropriate doctoral degree Preferred Qualifications PhD in Neuroscience Prior experience with electrophysiology and/or two-photon microscopy imaging Data analytical skills including
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confocal imaging, brain slice electrophysiology, in vivo manipulations, molecular biology, drug discovery and behavioral analysis. Applies genetic mouse models. Conducts experiments, analysis, preparation
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security, and reproducible experiments. Strong programming skills (e.g., Python/C++); ability to prototype and evaluate security controls on cloud-native stacks (Docker, Kubernetes, Helm). Records
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figures for publications and grants. Calcium imaging: Utilizing calcium dyes or genetically encoded calcium sensors (i.e. GCaMP) to measure and quantify intracellular calcium levels in a live brain slice
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with animal husbandry and special housing. In vitro electrophysiology techniques such as patch clamping and brain slice preparation. Immunohistochemistry experience with confocal imaging and 3
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) for protein analysis and interaction studies Microscopy techniques, including fluorescence microscopy, confocal microscopy, and immunofluorescence imaging Chromatin immunoprecipitation (ChIP) assays to assess