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Molecular level understanding of Mycobacterium tuberculosis

Principal Supervisor: Dr Helen O HareLink opens in a new window

Co-supervisor: depending on the sub-topic chosen by the applicant: Dr Nat Garton (cell envelope topic) or Prof Russell Wallis (signalling topic)

PhD project title: Molecular level understanding of Mycobacterium tuberculosis

University of Registration: University of Leicester

Project outline:

Mycobacterium tuberculosis has evolved to survive and replicate inside macrophages. The project will investigate the molecular mechanisms underpinning adaptation to this specialised intracellular niche. Our laboratory has made advances in understanding how bacteria sense amino acid availability and respond, via a conserved protein kinase signalling pathway, to synthesise or consume amino acids accordingly. We have also made advances in understanding how natural gene deletions occurring in evolution of outbreak strains can lead to changes in the specialised cell envelope. We use a combination of approaches including structural biology, enzymology, fluorescence and electron microscopy, and genetic modification of Mycobacteria to understand Mycobacterial behaviour at a molecular level, and to investigate the pathways that are conserved in related industrial microorganisms (used for fermentation to produce animal feed, and antibiotics). Key goals are: (1) understanding the structure and function of the PknG signalling complex, which is one of the most widespread of bacterial serine threonine protein kinases; and (2) understanding the function of fadB4 and its relationship to bacterial cell surface hydrophobicity.


An Aspartate-Specific Solute-Binding Protein Regulates Protein Kinase G Activity To Control Glutamate Metabolism in Mycobacteria (2018) Nkumama et al, mBio doi: 10.1128/mBio.00931-18

A persistent tuberculosis outbreak in the UK is characterised by hydrophobic fadB4-deficient Mycobacterium tuberculosis that replicate rapidly in macrophages (2022 in revision) Farzand et al *please may we have the opportunity to add the link to the advertisement when available?

BBSRC Strategic Research Priority: Understanding the rules of life Structural Biology, and Microbiology.


Techniques that will be undertaken during the project:

Recombinant protein production, purification and analysis

Protein biophysics (protein stability, ligand binding, protein-protein interaction)

Enzyme assay

Analysis of cell envelope lipid composition (thin layer chromatograph)

Culture of Actinobacteria

Genetic modification of Actinobacteria

Structure determination by X-ray crystallography or Cryo-EM


Contact: Dr Helen O HareLink opens in a new window