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evaluation process etc please visit: ambercofund.eu Qualification requirements Minimum requirements are: candidate needs to have a maximum of 8 years after a doctoral degree (PhD), as required by the project
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A postdoc position in the Torben Heick Jensen lab, Aarhus University, Denmark: Mammalian Nuclear ...
Biology and Innovation, Protein Science, Cellular Health, Intervention and Nutrition. There are currently 75 full time scientific staff and 95 PhD students. The department is responsible for two educations
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the mechanisms of neurovascular survival during oxidative stress. Qualifications EDUCATION: PhD or MD. Proficiency in vascular physiology or a related field is required. EXPERIENCE: Experience in molecular biology
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. Qualifications PhD, MD, DO, or equivalent degree. Education and research experience in the areas of outcomes research. Successful applicants will have demonstrated success in research, scholarship, and/or grant
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, Belgium and Brazil. Your profile You have a PhD degree in chemistry, materials science, nanoscience, physics or biology, or a related subject and are interested in interdisciplinary research. The ideal
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candidate who just completed the PhD) and innovative Postdocs/Laser Scientists to join the IGNYTe project which is funded by the German Ministry of Research, Technology and Space in the scope of the Fusion
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Full time, 2 years fixed term position. Located at the School of Chemistry on the Camperdown Campus The project seeks to design and synthesis bioactive peptides targeting the mycobacterial protein
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and/or Training: A doctoral degree (PhD, MD, or equivalent) in a relevant field. Special Skills, Knowledge, and Abilities: Required: Candidates must hold a doctoral degree (PhD, MD, or equivalent
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. Your qualifications Need to have: A PhD in molecular biology, medicine, or a related discipline Hands-on expertise with cell culture and molecular biology techniques (e.g., RNAseq) High motivation
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candidate will work closely with a team of engineers and biologists to design, clone, and test synthetic circuits in primary human T cells, and help translate these circuits into functional cellular therapies