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. These studies will initially be performed in tractable cell lines to leverage insights gained in the molecular mechanism of protein complex formation, before moving into an iPSC-derived neuronal model and patient
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crack propagation. The dynamic nature of cell-cell adhesion, where binding and unbinding events occur continuously, adds complexity to the tissue’s mechanical response. Additionally, intracellular
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samples without the need for expensive or mechanical devices. The project requires familiarity with CL2/CL3 pathogen manipulation and handling, molecular cloning and preferably experience with working with
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Scholar position is available immediately at the Institute for Vision Research and the Department of Ophthalmology and Visual Sciences. The research position is focused on i) retinal cell biology ii) human
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antimicrobials. We are investigating microbial stress responses that help bacteria and fungi to adapt to and overcome cell envelope stress and examine whether these defense systems could be exploited as accessory
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position for a Research Assistant to investigate the molecular mechanisms and complex social behaviors associated with rapid-acting antidepressant treatments. The project involves the implementation
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technologies (lipidomics, proteomics), cell biology, molecular biology and bioinformatics to clarify the mechanisms of key molecular interactions, and support the development of early diagnostic and intervention
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been established. This position will focus on the further development of various, machine learning and deep learning models to study molecular mechanisms and cellular phenotypes caused by the etiology
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: Pediatric Surgery Postdoc Appointment Term: 2 Years Appointment Start Date: 02/01/2026 Group or Departmental Website: https://pediatricsurgery.stanford.edu/ (link is external) https://med.stanford.edu
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have a passion for genome engineering, biochemistry and molecular cell biology? Are you looking for an opportunity to challenge and grow your organizational and technical skills? Join us and contribute