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We have 8 Virology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Leeds
Virology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Leeds
We have 8 Virology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Leeds
PhD in Virology
A PhD in Virology would provide you with the chance to lead your own research project that will further our current understanding of viruses. Whether you’re researching the response of the human immune system to a given virus, attempting to use viruses to deliver therapeutics, or working on a vaccine, you’ll be aiming to improve and save lives.
What’s it like to do a PhD in Virology?
Doing a PhD in Virology, you’ll become proficient in the laboratory with techniques including fluorescent antibody staining, polymerase chain reaction (PCR) and cell culture. You’ll spend time reading around your research area and gain inspiration for methods to improve your experimental work.
Some typical research topics in Virology include:
- Investigating viral replication
- Assessing the impact of co-infection on an organism
- Vaccine development
- Developing novel therapies using viruses
- Improving methods of viral detection
- Studying the immune response to a certain virus
Almost all Virology PhD projects are advertised with the main research goal pre-determined. Many of these projects come with full funding attached, though some may require you to self-fund. Finding your own funding can be challenging since you must pay both PhD and bench fees. Self-funding and the difficulty finding a supervisor with research interest similar to yours, who also has the right equipment for your work.
During an ordinary workday, you’ll be in the laboratory performing, preparing or planning experiments, writing up sections of your thesis, and chatting to your colleagues and supervisor about your current and upcoming work.
To be awarded your PhD, you’ll need to submit a thesis of approximately 60,000 words and you’ll defend this during your viva exam.
Entry requirements
The entry requirements for most Virology PhD programmes involve a Masters in a subject directly related to Biology, with some experience in microbiology, at Merit or Distinction level. If English isn’t your first language, you’ll also need to show that you have the right level of language proficiency.
PhD in Virology funding options
The research council responsible for funding Virology 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 Virology 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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Virology: Unique Antiviral Therapy targeting Zika and Related Viruses
Zika Virus (ZIKV) has emerged as a new mosquito-borne threat to public health after the devastating South American outbreak. Read more
Virology: Sun exposure as a novel risk factor for Zika virus infection
Mosquito-borne disease is now receiving unprecedented attention due to major outbreaks in new geographic areas including Brazil, Mexico, India, China, the Middle East and SE Asia. Read more
Employing molecular virology to investigate hepatitis E virus replication
Hepatitis E virus (HEV), is a major causative agent of acute, severe hepatitis. The infection can also be chronic, particular in immunocompromised people, and fatal in pregnant women or those with existing liver diseases. Read more
Control and inhibition of virus replication
The Tuplin laboratory utilises a range of cutting-edge approaches to investigate how arboviruses - specifically Chikungunya, Dengue and Zika viruses - control replication and translation of their genomes through interactions between RNA structures, host cell proteins and non-coding RNA, and the potential of such RNA elements/interactions as novel therapeutic targets. Read more
Cancer: Understanding the immunosuppressive role of fibroblast and macrophages in Breast cancer
Oncolytic viruses (OVs) preferentially infect and kill cancer cells, and their clinical efficacy has been demonstrated against a number of different cancers. The most clinically advanced OV is a genetically engineered herpes simplex virus (T-VEC) which expresses GMCSF to aid the development of anti-tumour immune responses; T-VEC is approved for the treatment of metastatic melanoma. Read more
Cancer: Complex 3D modelling of the tumour microenvironment for immunotherapy combination screening
Cancer immunotherapy holds significant promise for the treatment of a range of cancers. Read more
Immunotherapy: Killing Cancer using Dead Virus
It is now accepted that our immune systems can hold the key to treating otherwise incurable cancers. So-called “immunotherapy” is an increasingly common method of treating tumours, leading to impressive increases in patient responses. . Read more
Cryo-electron microscopy of influenza virus and bunyaviruses
As demonstrated by SARS-CoV-2, viruses have the potential to cause devastating economic and healthcare disruption on a global scale. Read more
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