65 post-doc-image-engineering-computer-vision Postdoctoral positions at Baylor College of Medicine
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of the BCM program is to prepare our fellows to function as independent scientist-clinicians and to provide an advanced comprehensive training opportunity for fellows to gain competence in adult
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calcium imaging, and histology. Performs functional and phenotyping analysis in living animals. Prepares samples and perform validation studies for omics analysis. Performs bioinformatics analysis and data
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of Neurosurgery, Psychiatry, Neurology, and Neuroscience at BCM as well as the Department of Electrical and Computer Engineering and Neuroengineering Initiative at Rice University. Job Duties Decodes
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or scholarships to help support their salary will be highly recruited. PhD or MD with previous training in biochemistry or cell biology and possess exceptional computational skills. Baylor College of Medicine is an
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projects. They will be accountable to deliver established goals, utilize good judgment, knowledge and skills in the area of expertise while maintaining expected quality standards. This position is for MD
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must have an MD, PhD or MD/PhD degree, and experience in clinical research. This position also the opportunity to contribute to cutting-edge research in advanced endovascular aortic research within a
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, leading to post-infectious morbidity and mortality. Single cell technology will be implemented to identify drivers of post-infectious inflammation. Excellent applicants will need wet lab experience in
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, in vivo calcium imaging, viral gene delivery, opto- and chemical genetic and pharmacological methods, transgenic rodents, molecular/cellular neurobiology, omics (transcriptomics, proteomics and
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identify new strategies for preventing and treating infections. Candidates should have a strong background in computational biology, microbiology wet lab skills, and a collaborative mindset. The position
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to join our dynamic research team investigating post-transcriptional and epigenetic mechanisms that control cell fate, stem cell plasticity, and cancer progression. Research Focus We employ cutting