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We have 5 Cancer Biology PhD Projects, Programmes & Scholarships in Nottingham
Cancer Biology PhD Projects, Programmes & Scholarships in Nottingham
We have 5 Cancer Biology PhD Projects, Programmes & Scholarships in Nottingham
A PhD in Cancer Biology would provide you with the opportunity to research a specific cancer in great detail. Whether you’re developing a new treatment, understanding the factors that allow a tumour to arise or innovating better diagnostic tests, you’ll be improving our understanding of cancer and saving lives.
What’s it like to do a PhD in Cancer Biology?
Doing a PhD in Cancer Biology, you’ll develop excellent laboratory skills, particularly in cell culture, working with RNA and studying the proteome. Most Cancer Biology projects link to other subjects and as such, you’ll have experience working with techniques from Cell Biology, Immunology and Genetics.
Some typical research topics in Cancer Biology include:
- Developing novel diagnostic tests
- Understanding a potential trigger of metastasis
- Developing novel therapeutics to treat a specific cancer
- The immune system and cancer interactions
- Characterising the role of a specific tumour suppressor or oncogene in a certain cancer
Generally, Cancer Biology programmes are advertised on the university website with the research proposal, including the scope and primary aim of the research pre-determined by the supervisor. These projects are usually fully-funded.
It’s uncommon to propose your own research in Cancer Biology since the additional bench fees make self-funding difficult. It can also be tricky to find a supervisor with the interests that line up well with your suggested project that also have the equipment and expertise to supervise you through your PhD.
In your daily life you’ll be in the laboratory conducting experiments, reading the literature for new methods you could try, analysing old data, and talking to colleagues and your supervisor about your work. In the final year of your PhD you’ll submit a thesis of around 60,000 words that will contribute to the knowledge of your field and you’ll defend your work during your viva exam.
Entry requirements
The entry requirements for most Cancer Biology PhD programmes involve a Masters in a subject directly related to Biology, with at least a Merit or Distinction. If English isn’t your first language, you’ll also need to show that you have the right level of language proficiency.
PhD in Cancer Biology funding options
The Research Council responsible for funding Cancer Biology PhDs in the UK is the Biotechnology and Biological Sciences Research Council (BBSRC). They provide fully-funded studentships including a stipend for living costs, a consumables budget for bench fees and a tuition fee waiver. Students don’t apply directly to the BBSRC, you apply for advertised projects with this funding attached.
It’s uncommon for Cancer Biology PhD students to be ‘self-funded’ due to the additional bench fees. However, if you were planning to fund yourself it might be achievable (depending on your project) through the UK government’s PhD loan and part-time work.
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Understanding what makes a new class of memory natural killer (NK) cells an optimal candidate for cancer immunotherapy
Immunotherapies have changed the paradigm of cancer treatment away from conventional cytotoxic chemotherapy. However, immunotherapy outcomes remain more limited in acute myeloid leukaemia (AML) than in other settings, e.g., acute lymphoblastic leukaemia. Read more
Insulin-related intracellular trafficking: role of AGAP2
Insulin is a key hormone regulating glucose metabolism and the intracellular pathways activated by this hormone are still an area of intensive study. . Read more
Understanding transcription factor complexes controlling endothelial cell quiescence and escape from quiescence
Endothelial cell proliferation and lymphatic cell proliferation is initiated during angiogenesis and lymphangiogenesis respectively and are both regulated by the VEGF signalling pathway. With some exceptions, endothelial and lymphatic cells in healthy individuals are quiescent and do not proliferate. Read more
Investigating the communication between cancer cells and cells in the tumour microenvironment to improve our understanding of epigenetic regulatory mechanisms and identify new targets for cancer therapy
It is well-established that the molecular mechanisms controlling gene expression are disrupted in cancer cells and work in this area has laid the foundations for targeted cancer therapies. We are interested in the regulatory pathways that control cell proliferation and cell migration and the events that disrupt this control in multiple types of cancer. Read more
Understanding transcription factor complexes in endothelial quiescence
Endothelial cell proliferation and lymphatic cell proliferation known as angiogenesis and lymphangiogenesis respectively are both regulated by ligands in the VEGF signalling pathway. Read more
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