Sort by
Refine Your Search
-
The Radcliffe Department of Medicine (RDM) within the Medical Sciences Division is one of the largest departments in the University of Oxford. Headed by Professor Keith Channon, RDM is a multi-disciplinary
-
protein crystallography/structural biology, or a related subject together with experience in protein production using bacteria, insect cells and mammalian expression systems. You will be able to manage your
-
-disciplinary team comprising experts in sleep and circadian science, occupational medicine, health psychology, primary care, health economics, and clinical trial methodology. Principal duties include reviewing
-
A postdoctoral position is available in Dr Ivan Ahel’s group at the Sir William Dunn School of Pathology, University of Oxford to study ADP-ribosylation signalling and its role in genome stability
-
-work sleep disorder in NHS workers. The post-holder will be part of a multi-disciplinary team comprising experts in sleep and circadian science, occupational medicine, health psychology, primary care
-
that are precisely matched to the patients most likely to benefit. The post is based in the Big Data Institute, University of Oxford. The post is for a fixed term (funded for 4 years) and is full-time although
-
that are precisely matched to the patients most likely to benefit. The post is based in the Big Data Institute, University of Oxford. The post is for a fixed term (funded for 4 years) and is full-time although
-
forward, including cancer biology and radiobiology aspects. This involves project management to co-ordinate your research to meet deadlines as well as test hypotheses and analyse data from a variety of
-
microenvironment in the bone marrow. You will be working in an interdisciplinary team across the Medical Sciences (Old Road) Campus at Oxford University within the Oxford Translational Myeloma Centre (OTMC). As a
-
Musculoskeletal Sciences at the University of Oxford. You will be a member of a research group with responsibility for carrying out research to understand the mechanistic of tumour escape by downregulating IFNg