20 phd-computational-mechanics-"FEMTO-ST"-"FEMTO-ST" Fellowship positions at University of Maryland, Baltimore
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research focusing on the molecular and cellular mechanisms causing malformations of brain development. Specifically, we are interested in new gene discovery, establishing in vitro, and in vivo models, and
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models, and clinical cohorts to uncover mechanisms by which early-life gut microbial metabolism shapes host immunity. We welcome applicants with backgrounds in computational biology, molecular microbiology
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on: Glymphatic & Lymphatic Dynamics in brain injury, sleep, and neurodegenerative diseases. Traumatic Brain Injury mechanisms, including cerebral edema and glymphatic impairment. Neuroimmunology
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(PSHOR) PATIENTS Program has an exciting Postdoctoral Fellowship opportunity. Fellowships within P-SHOR provide multidisciplinary, advanced training and prepare fellows for positions in academia
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Baltimore, Maryland Position Description: The Division of Endocrinology, Diabetes, and Nutrition (EDN) at the University of Maryland School of Medicine, Baltimore (UMB), is recruiting a computational
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://www.umaryland.edu/hrs/benefits/ For more information regarding benefits for postdoctoral fellows, please visit the UMB Benefits Summary . Job Summary: We are seeking a recent or prospective doctoral graduate (PhD
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multidisciplinary research team supported by an advanced data management and computational infrastructure to perform data analyses, develop and/or implement novel statistical methodology, and publish research results
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at the Institute for Genome Sciences (IGS) of the University of Maryland School of Medicine seeks to hire an outstanding postdoctoral fellow. The Ament lab studies the molecular and cellular mechanisms underlying
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. Qualifications Qualifications: The candidate for this position is expected to be a highly self-motivated, PhD or equivalent with a strong background in immunology and molecular/cell biology. Additionally
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therapy, and underlying mechanisms; 2) glycol-engineered neural stem cells to improve brain outcome after cardiac arrest. 3) Stem cell surface modification to promote nerve regeneration after peripheral