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candidate with: A PhD degree in Life Science, preferable Cell Biology, Biomedicine, or Computational Biology Curious mind-set with a strong interest in fundamental Cell cycle, DNA replication and Genome
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 4 hours ago
the technology. The candidate will collaborate with industry and national labs to meet the milestones. Minimum Education and Experience Requirements PhD in STEM or related field Required Qualifications
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Center for Advancement of Blood Cancer Therapies (CABCT) (https://icahn.mssm.edu/research/cabct ). The successful candidate will work on projects involving human induced pluripotent stem cells (iPSCs) and
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, contributing to study design, and assisting with the development of manuscripts, grant applications, and reports. This position provides the opportunity to apply advanced skills in stem cell biology and
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tissue and stem-cell based models of the developing human brain. Applicants with a PhD in a biological discipline with wet lab experience running sequencing based genomics assays are encouraged to apply
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ranging between 15 and 30%. The necessity to find additional source of organs for transplantation has boosted research on the generation of organs from pluripotent stem cells (PSCs). We develop new
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expertise in macrophage/stroma interactions. Applicants must hold a PhD (or be close to completion: thesis submitted at the time of application) in immunology, stem cell biology, or stromal cell biology
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for utilizing human induced pluripotent stem cell-derived models and animal models to study molecular mechanisms of arrhythmias, the effects of current treatments and identify new therapeutic targets. This person
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well as at the Faculty of Health and Medical Sciences: https://healthsciences.ku.dk/research/corefacilities/. Driving Discoveries towards Stem Cell-Based Therapies and Regenerative Medicine reNEW is committed
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the field of computational morphodynamics in plants. The work will be within the BBSRC-funded project "Tipping the balance: utilising hormonal crosstalk to control stem cell plasticity", with the aim