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We have 9 Biochemistry PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Cambridge
Biochemistry PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Cambridge
We have 9 Biochemistry PhD Projects, Programmes & Scholarships PhD Projects, Programmes & Scholarships in Cambridge
A PhD in Biochemistry would provide you with the time and resources to undertake an in-depth research project into one area of biochemistry. These projects are almost always laboratory-based and can range from investigating the structure and role of a protein or receptor to developing and optimising current detection methods.
What’s it like to do a PhD in Biochemistry?
Doing a PhD in Biochemistry, you’ll develop wide-spread laboratory skills including protein purification, western blotting, chromatography, and polymerase chain reaction (PCR). The use of cutting-edge equipment such as nuclear magnetic resonance (NMR) is common in Biochemistry and consequently you’ll become proficient with these fine instruments.
Some typical research topics in Biochemistry include:
- Engineering enzymes for industry
- Characterising the structure and function of proteins
- Developing novel therapeutics
- Understanding the role of redox in a system or disease
- Investigation of a specific receptor
- Developing and optimising methods (such as NMR)
Day-to-day you’ll be in the laboratory performing experiments, writing up and analysing data from previous experiments and discussing your results and research plans with colleagues.
Biochemistry programmes are almost always advertised research projects, with the key aim pre-determined by the supervisor. Although the aim is set, you are still free to influence the direction of the project along the way. These advertised programmes usually come with full funding attached.
It is uncommon to propose your own research in Biochemistry as you must find a supervisor with research goals that overlap with your project, who also has adequate equipment for your experimental work, and you must find sufficient funding for bench and PhD fees.
Regardless of being funded or not, your PhD will end with a thesis of around 60,000 words, which contributes significantly to the knowledge of the field. To be awarded your PhD, you’ll then need to defend your thesis during your viva exam.
Entry requirements
The entry requirements for most Biochemistry PhD programmes involve a Masters in a subject directly related to Biochemistry such as Biology or Chemistry, 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 Biochemistry funding options
The Research Council responsible for funding Biochemistry 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 Biochemistry 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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Evolution and biochemistry of photosynthesis - electron transfer reactions, renewable energy production, biotechnology, and chloroplast genomes
The common theme of our work is the biochemistry and evolution of photosynthesis. Read more
Small G proteins and their effectors as therapeutic targets in cancer
For the majority of cancers the acquisition of invasive and metastatic characteristics leads to incurable disease in the host. Read more
Mechanosensing drives migration and invasion of pancreatic cancer
Tumour cells constantly are required to adapt to a changing environment, including increased mechanical stiffness and starvation for nutrients and oxygen. … Read more
Structure, regulation and dynamics of small G proteins and their interactions with membranes and effector proteins
Our lab are interested in cell signalling via small G proteins of the Ras superfamily. We use a range of biochemical, biophysical and structural approaches to understand these fascinating proteins, which are involved in multiple cellular processes and are often deregulated in diseases such as cancer. Read more
Mapping the conformational signalling landscape of G protein-coupled receptors (GPCRs)
As a research group we are interested in the role that G protein-coupled receptors (GPCRs) play in cellular signalling. We aim at understanding how these membrane embedded receptors function and what external factors influence their behaviour as sensors of the cell. Read more
Molecular mechanism of innate immunity mediated by the Toll/IL1 receptor signalling pathways
Our research aims to elucidate the molecular and cellular regulation of innate immune signal transduction in the context of infectious, inflammatory and autoimmune disease. Read more
Regulation of virulence and biofilm formation by quorum sensing and the "stress alarmone" ppGpp in gram-negative pathogenic bacteria.
We are investigating the complex interplay between cell-cell signalling (quorum sensing), microbial lifestyle (i.e., free-living planktonic cultures vs sessile biofilm communities), growth phase and virulence in gram-negative bacteria. Read more
Structural and functional analysis of DNA double strand break repair.
Eukaryotic cells have evolved complex molecular systems in order to detect and repair double-strand breaks (DSBs) of the DNA helix, which can arise from exposure to genotoxic agents or during normal nucleic acid metabolism. Read more
Molecular mechanisms and evolution of apicomplexan parasite/host interaction
Apicomplexan parasites include disease agents responsible for malaria, toxoplasmosis, and other major diseases of humans and livestock. Read more
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