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, gastrointestinal and renal physiology, water and electrolyte balance, reproduction, immune function and the special senses. Physiological mechanisms underlying pathologies related to these systems will be explored
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: Developing an innovative growth process (CVD and/or sputtering) to synthesize ultra‑thin 2D films. Transferring these films onto appropriate substrates. Characterizing their electrical, mechanical, thermal
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mechanisms of injury; common pathologies associated with physical activity; and prevention, recognition, initial management and rehabilitation of injuries occurring in sport and physical activities. It also
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BioFlux and the CDC bioreactor. These approaches will allow for a deeper understanding of the mechanisms of biofilm formation, adhesion, and resistance under conditions closely resembling real-world
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | about 11 hours ago
reception for action • Cleans pits and drainage areas as required • Cleans and inspects roofs, including drains and gutters • Cleans and maintains mechanical rooms • Removes graffiti utilizing appropriate
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specifications for mechanical/electrical systems Coordinate with contractors, regulatory bodies, and University units to ensure operational excellence Qualifications Education: Degree in Mechanical or Electrical
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website at https://hr.ubc.ca/health-and-wellbeing/workplace-accessibility/centre-workplace-accessibility or contact the Centre at workplace.accessibility@ubc.ca . UBC - One of the World's Leading
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: Investigate mechanisms of T-cell development, aging, and thymic involution using in vitro and in vivo models. Characterize and modulate the T-cell receptor (TCR) repertoire, including repertoire diversity
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or accessibility during the recruitment and hiring process or for more information and support, please visit UBC’s Centre for Workplace Accessibility website at https://hr.ubc.ca/health-and-wellbeing/workplace
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candidate will translate new insights into identifying new drug targets for improved patient outcomes in periodontal health. Dr. McCulloch’s laboratory is described here: https://discover.research.utoronto.ca