Excess copper is highly toxic and forms part of the host innate immune system’s antimicrobial arsenal, accumulating at sites of infection and acting within macrophages to kill engulfed pathogens.
All bacteria possess mechanisms to resist the toxicity of the essential micronutrient copper. However, our recent publications show that methicillin resistant Staphylococcus aureus (MRSA) have acquired additional copper hyper-resistance mechanisms (Purves et al., 2018, Zapotoczna, 2018) that increase survival during their interaction with human immune cells.
The highly virulent community acquired MRSA USA300 has acquired a novel copper resistance locus that is uniquely associated with the methicillin resistance element (Purves et al., 2018). This locus confers copper hyper-resistance and is required for S. aureus USA300 intracellular survival within macrophages. These genes are additional to existing core genome copper resistance mechanisms, and are not found in typical S. aureus lineages, but are increasingly identified in other emerging pathogenic isolates and other pathogenic bacteria.
Our current transcriptional data show that the presence of excess copper alters the expression of several metabolic pathways and virulence genes.
The aim of this project is to investigate the role of copper resistance mechanisms in the increased infectivity of CA-MRSA.
Objectives are to:
- Establish the molecular mechanisms involved in the copper-responsive regulation of virulence factors.
- Determine the importance of copper-regulated metabolic pathways in
- (a) resistance to copper toxicity, infection and antimicrobial resistance
- (b) survival against human innate immunity.
The student will be part of a lively and friendly interdisciplinary research group and will be trained in a wide range of molecular microbiology techniques including transcriptional analysis, proteomics, tissue culture, advanced imaging and flow cytometry to investigate the impact of additional copper resistance mechanisms on host-pathogen interactions.
BBSRC Midlands Innovative Biosciences Training Partnership | Postgraduate research | University of Leicester
Entry Requirements:
- Those who have a 1st or a 2.1 undergraduate degree in a relevant field are eligible.
- Evidence of quantitative training is required. For example, AS or A level Maths, IB Standard or Higher Maths, or university level maths/statistics course.
- Those who have a 2.2 and an additional Masters degree in a relevant field may be eligible.
- Those who have a 2.2 and at least three years post-graduate experience in a relevant field may be eligible.
- Those with degrees abroad (perhaps as well as postgraduate experience) may be eligible if their qualifications are deemed equivalent to any of the above.
For further information please contact [Email Address Removed]
Application advice:
To apply please refer the application instructions at
BBSRC Midlands Innovative Biosciences Training Partnership | Postgraduate research | University of Leicester
You will need to apply for the PhD place at University of Leicester and also submit your online application notification to MIBTP. Links for both are on the above web page.
Project / Funding Enquiries: For further information please contact [Email Address Removed]
Application enquiries to [Email Address Removed]