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We have 13 Microbiology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Bradford
Microbiology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Bradford
We have 13 Microbiology PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Bradford
A PhD in Microbiology would give you the opportunity to conduct an extended piece of research into microscopic organisms, including bacteria, viruses, and fungi. Most Microbiology projects are laboratory-based and cover a wide range of areas from developing novel therapeutics or innovating point of care tests for diagnosis to understanding the life cycle of a certain fungal species.
What’s it like to do a PhD in Microbiology?
Studying a PhD in Microbiology, you’ll develop a range of specialist laboratory skills particularly in microscopy, aseptic technique, and cell staining. You’ll also become proficient in techniques such as pouring agar plates and have a strong understanding of health and safety that is essential when working with Bunsen burners, which are commonly used in Microbiology. When out of the laboratory, you’ll read the literature surrounding your research topic to identify gaps in the knowledge and discover new methods.
Some typical research topics in Microbiology include:
- Development of novel antibiotics
- Studying bacteriophages and their potential use as therapeutics
- Characterising the microbiome
- Development of point of care tests for infection diagnosis
- Investigating fungi life cycle and metabolite production
- Studying a particular virus
The vast majority of Microbiology projects are advertised with the main aims and general span of the project determined by the supervisor in advance. Many of these have full funding attached, though some may request you find your own funding. Self-funding can be challenging due to the cost of bench fees as well as traditional PhD fees.
Proposing your own research project is rare in Microbiology, partly due to the challenge of self-funding, partly because you must find a supervisor with interests that overlap with your project and who has adequate equipment for practical work.
On a general workday, you’ll be performing experiments in the laboratory, planning out your upcoming work, writing up results and chatting to your supervisor and colleagues about your work. At the end of your PhD, you’ll submit a thesis of around 60,000 words and defend it during your viva exam.
Entry requirements
The entry requirements for most Microbiology 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 Microbiology funding options
The research council responsible for funding Microbiology 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.
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Nutritional support along the gut:lung:brain axis – targeting the human microbiome in Long-COVID.
As the COVID-19 pandemic recedes, it has left in its wake a toxic legacy of chronic disease in millions of people world-wide. Termed “Long-COVID”, symptoms include debilitating fatigue, cognitive impairment, pain, respiratory and cardiovascular issues. Read more
Clinical Gastroenterology: The regulation of GDH expression in Clostridioides difficile
Clostridioides difficile infection (CDI), the most common cause of infective antibiotic-associated diarrhea in the western world, is diagnosed by a combination of tests that firstly detect the organism, then the toxins that it produces (Planche 2013). Read more
Towards new antibacterial drugs to treat infections caused by multidrug-resistant bacteria: identification and characterization of novel natural product antibiotics
Antibiotics make possible the treatment and cure of life-threatening bacterial infections and have added over a decade to the average human lifespan. Read more
Therapeutic resolution of coronavirus (COVID-19) diseases by natural products
Research Group:
Pharmacology and Experimental Therapeutics
Coronavirus now labelled as Covid-19 has become a global pandemic affecting around 200 countries. Currently neither any cure nor any vaccine for Covid-19 has been established. Read more
Sustainable and controlled drug delivery to fight global antimicrobial resistance (AMR) using hybrid porous nano containers
Research Group:
Chemistry and Biosciences
Growing antimicrobial resistance (AMR) is one of the major global challenges and it is often linked to the use of unnecessarily high doses of orally administered antibiotics following medical surgeries and infections. Read more
Biodegradable composite materials (Bio-PolyMOFs) for applications in targeted delivery of drugs to improve healthcare and reduce antimicrobial resistance in developing countries and worldwide
Research Group:
Chemistry and Biosciences
Growing antimicrobial resistance (AMR) is one of the major global challenges and is linked to the use of unnecessarily high doses of orally administered antibiotics following medical surgery and infections. Read more
Inequality of timely Clostridioidies difficile infection testing, treatment and management in hospitalised and community patients
As part of the National Institute for Health Research funded, Leeds Biomedical Research Centre (BRC), one PhD scholarship is available for UK fee rated applicants only. Read more
Broadening the spectrum of antibacterial drugs to tackle multi-drug resistant Gram-negative pathogens
Research Group:
Astbury Centre for Structural Molecular Biology
Antibiotics make possible the treatment and cure of life-threatening bacterial infections and have added over a decade to average human lifespan. Read more
Use of Fermentation to solve current Food Science, Food Formulation and Sustainability challenges
The use of fermentation by humans dates from ancient times -8000BC- in the search for shelter and food. Fermentation is used nowadays in various areas. Read more
Clinical Gastroenterology: Investigation of Fidaxomicin Resistance Mechanisms in Clostridium difficile
Clostridium difficile is a leading pathogen in healthcare-associated diarrheal infections. C. difficile has a plastic genome with multiple mobile genetic elements and recognized capacity to acquire genes involved in resistance and virulence. 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
Delineating the antimicrobial resistome of Clostridioides difficile
Clostridioides difficile (C. diff) is an important human pathogen, responsible for life-threatening intestinal infection in both hospital and community settings. 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
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