Sort by
Refine Your Search
-
Category
-
Program
-
Employer
-
Field
-
an additional paragraph in your supporting statement. The University of Oxford is committed to equality and valuing diversity. All applicants will be judged on merit, according to the selection criteria
-
, please explain this by providing an additional paragraph in your supporting statement. The University of Oxford is committed to equality and valuing diversity. All applicants will be judged on merit
-
genomics/transcriptomics, computational biology and machine learning. The overarching aim of the project is to develop strategies to treat patients with rare genetic disorders at scale. Duties will include
-
within the team with both senior and junior researchers, whilst also being able to work independently while using personal initiative and judgement. How to apply The University of Oxford is committed
-
interest in DNA repair and recombination, with an established track record in applying cell biology, molecular genetics (e.g. directed and/or genome-wide CRISPR approaches) and advanced microscopy techniques
-
Translational Discovery Immunology Unit (TIDU), Weatherall Institute of Molecular Medicine, University of Oxford. Contract Type: Fixed-Term for 2 years Hours: Full-Time – Flexible working arrangements could be
-
We are seeking to appoint a Research Assistant to join the Molecular Immunology group led by Prof Omer Dushek and Prof Anton van der Merwe at the Sir William Dunn School of Pathology, University
-
where appropriate. You will also contribute to other complementary research in the lab group. Essential selection criteria Have a PhD/DPhil in Biochemistry, in Molecular or Cellular Biology or
-
and to participate in the development and application of computational methods for RNA targeting. The successful candidate should hold, or be close to completion of, a PhD/DPhil in computational biology
-
successful in this role, you will hold a BSc degree in cell biology, biochemistry, neuroscience, or stem cell-related field, along with experience in human primary cell culture and standard molecular biology