Principal Supervisor: Dr David Grainger - School of Biosciences
Co-supervisor: Jessica Blair
PhD project title: Understanding Multiple Antibiotic Resistance in Gram-negative Bacteria
University of Registration: Birmingham
Antibiotics have transformed medical practice, increased life expectancy and, together with vaccination, led to the near eradication of many bacterial diseases1. However, overuse, including in animals, has potentiated the emergence of resistant bacteria. Such bacteria now cause millions of infections annually, with thousands of lives lost at a societal cost of billions of dollars. Moreover, the occurrence of untreatable infections is increasingly common. This disturbing trend is an immediate threat to health in every region of the world; antibiotic-resistant bacteria have the potential to affect anyone, of any age, in any country. The multiple antibiotic resistance (mar) regulon, and homologous systems, are continually implicated. Briefly, the mar operon encodes a global gene regulatory system that controls expression of genetic determinants which confer antibiotic resistance. We hypothesise that the majority of targets for MarA, and the underlying molecular mechanisms of antibiotic resistance, are undefined. This project will combine genomic tools with focused molecular biology to identify new mechanisms of antibiotic resistance and new drug targets.
- Alekshun MN, Levy SB. (2007) Molecular mechanisms of antibacterial multidrug resistance. Cell. 128:1037-50.
- Blair JM, Webber MA, Baylay AJ, Ogbolu DO, Piddock LJ. (2015) Molecular mechanisms of antibiotic resistance. Nat Rev Microbiol. 13:42-51.
BBSRC Strategic Research Priority: Food Security
Techniques that will be undertaken during the project:
- Protein purification
- Chromatin Immunoprecipitation
- Illuminia Sequencing and associated bioinformatics
- PCR, Radioisotopes
- In vitro DNA binding assays
- Reporter assays
- Microbial cell culture
- Drug uptake assays
- Antibiotic sensitivity assays
Contact: Dr David Grainger, University of Birmingham