192 density-functional-theory-molecular-dynamics Postdoctoral positions at University of Oxford
Sort by
Refine Your Search
-
Listed
-
Field
-
will also have experience in vivo/in vitro experimental models, functional genomics (CRISPR, shRNA), molecular biology. You will possess a strong skills in decision-making, problem-solving, planning and
-
of their impact on cellular and molecular phenotype of iPSC-derived neurons and glia. The work will involve (i) establishment of cultures of iPSC-derived neuronal and glial cells (ii) design of CRISPRa/i strategies
-
guiding undergraduate and graduate students; About the project Unperturbed gene expression is vital for correct functioning of cells. RNA polymerase II is the enzyme that transcribes genes into mRNA
-
molecular biology. A PhD/DPhil in Biochemistry, Cell/Molecular Biology, or a related field is essential with relevant laboratory experience. The candidate must hold a Home Office Personal Licence (PIL A/B
-
polyphenism at the molecular level, using techniques such as ATAC-seq and Cut&Run, coupled with gene expression analysis by RNA-seq. You will be a highly motivated individual, with experience in molecular
-
molecular evolution, particularly in viruses with epidemic and pandemic potential, as well as those with significant implications for plant and animal health. This post is part of a Wellcome Trust-funded
-
of Rheumatology. This post will be part of a research group with responsibility for carrying out research on mechanisms regulating immunological synapse formation and function. The post holder provides guidance
-
, genetics or other related discipline, and have experience of the genetic/molecular analysis of human diseases, such as cancer. You will be able to work with a high degree of independence, to learn rapidly
-
’, multidimensional datasets. These data are part of a research project aiming to decipher the molecular basis of the sexual dimorphism establishment in schistosomes. In particular, the PDRA will focus
-
analysis and is increasingly used in cancer research to uncover morphological features linked to disease pathology and severity. Similarly, molecular profiling through ‘omics technologies has provided new