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individuals who are passionate about science, learning, and collaboration. Candidates with a strong background in molecular and cellular biology, and/or experience in bioinformatics, will find this an ideal
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, preserving its mechanical properties is crucial. Tissue engineering (TE) and xenotransplantation, particularly using pig models, offer promising solutions. This project aims to advance meniscus TE and
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Article) PMID: 23811687 Nature Cell Biology 13: 310-316 (2011) (Cover Article) PMID: 21336310 Molecular Cell 37: 668-678 (2010) (Cover Article) PMID: 20227371 Lab website: https://www.med.upenn.edu/apps
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techniques, confocal microscopy, and molecular genetics using the model organism Drosophila melanogaster. Advanced knowledge in gene expression regulation will also be valued. 5. Eligibility: Applicants
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Number: R135396 The Chandler Laboratory is seeking a highly motivated and skilled Research Associate to investigate the molecular mechanisms of alternative splicing in cancer, with a particular focus on
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. Our mission is to move beyond descriptive biology and develop predictive, mechanistic models that connect molecular regulation to cellular and systems-level phenotypes. The Laboratory of Computational
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approaches to study the molecular changes that occur in susceptible and resistant genotypes of crop and model plant species. The plant and pathogen genes identified in these studies are providing insight
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highly motivated post-doc to finalize a research project on the molecular mechanisms of gene control in bacteria. The person to be recruited will study the transcriptional control of gene expression in
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disease modelling skills to join our team. About the project The ultimate goal of this project is to develop and apply advanced human iPSC-based models to study complex genetic architecture
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investigates how radiation therapy shapes tumor–immune interactions, leveraging preclinical models and clinical samples from phase 1 trials. Our goal is to bridge molecular insight with clinical translation