Primary Supervisor: Dr Iain Macaulay - email@example.com
Secondary Supervisor: Chris Quince (EI)
Microbiomes are integral to many of the fundamental processes affecting society – from healthcare to agriculture - but the complexity and diversity harboured within these microbiomes and the roles of individual cells/species in adaptation to new environments/stresses is still largely unexplored. Traditionally, microbiome complexity is assessed using a metagenomic approach, where DNA extracted from bulk microbial pools is sequenced and the relative abundance of individual species is inferred from the data.
In this project, we will bring single-cell genomics techniques to the study of complex, real-world microbiomes. This will enable access to rare, unculturable cells, from which we can generate detailed, rich genomic information. Such cells may only constitute a tiny subfraction of the overall population but may be critical for the overall impact or function of the microbial community. We hypothesise that the detailed whole-genome sequencing of rare microbiome components will reveal genetic diversity that cannot be observed by classical metagenomics approaches. Recent work from our lab has demonstrated the feasibility of single-cell, whole bacterial genome sequencing - with near complete genomes and single nucleotide variation data being attainable from single cells (Bawn et al. 2020).
Using a range of techniques, including FACS, single-cell genomics, next generation sequencing and bioinformatics, the student will develop tools to isolate and analyse the genomes of individual cells from complex microbiomes and will apply these advances to the study of rare components of human microbiomes, revealing the extent of genetic diversity in these populations, beyond what could be observed with classical metagenomics.
Based in the Macaulay lab at the Earlham Institute, the student will work in an active and collaborative research group, developing skills in cellular genomics, including cell sorting, single-cell genomics and next generation sequencing and bioinformatics, and will be encouraged to engage with the thriving, rapidly developing field of single-cell genomics through visits to collaborator labs.
The Norwich Research Park (NRP) Biosciences Doctoral Training Programme (DTP) is offering fully-funded studentships for October 2022 entry. The programme offers postgraduates the opportunity to undertake a 4-year PhD research project whilst enhancing professional development and research skills through a comprehensive training programme. You will join a vibrant community of world-leading researchers. All NRPDTP students undertake a three-month professional internship placement (PIPS) during their study. The placement offers exciting and invaluable work experience designed to enhance professional development. Full support and advice will be provided by our Professional Internship team. Students with, or expecting to attain, at least an upper second class honours degree, or equivalent, are invited to apply.
Please note that all international awards have been made for our programme for 2022 entry so we will not be accepting applications from international candidates, as defined by UKRI’s International Eligibility criteria for UKRI funded studentships (Annex B).
This project has been shortlisted for funding by the NRPDTP. Shortlisted applicants will be interviewed on 27 July 2022.
You can visit the Norwich Research Park Biosciences Doctoral Training Partnership pages for further information on eligibility and how to apply.
Our partners value diverse and inclusive work environments that are positive and supportive. Students are selected for admission without regard to gender, marital or civil partnership status, disability, race, nationality, ethnic origin, religion or belief, sexual orientation, age or social background.