Why do harmful genes persist in populations instead of being removed by natural selection? One answer lies in sexual antagonism: when a genetic variant benefits males but harms females, or vice versa. This genetic tug-of-war is one of evolution’s most intriguing puzzles. It can create a burden on populations, influence human health, and even help maintain the variation needed for species to adapt to new environments.
Recent work from the supervisor’s lab has, for the first time, revealed consistent sets of sexually antagonistic genes in the fruit fly Drosophila melanogaster. This project will take the next big step: moving from finding sexually antagonistic genes to uncovering what makes them special, how they affect fitness and life history traits, and the molecular mechanisms of the sexual conflict and its resolution.
You will combine cutting-edge bioinformatics, genome engineering, and state-of-the-art sequencing technologies to:
1. Identify and characterise consistent sexually antagonistic loci across multiple studies.
2. Validate their effects on sex-specific fitness and traits using CRISPR-Cas9 allele swaps in fruit flies.
3. Probe underlying mechanisms, from gene regulation to alternative splicing.
This PhD offers the scope to develop independence – pursing promising leads on interesting biology – while addressing one of evolution’s most longstanding challenges. Beyond advancing fundamental evolutionary biology, the project has broad relevance to conservation, pest management, aging, and human health. For example, many sex-specific diseases are thought to arise from mutations that benefit fitness in the opposite sex.
You will receive outstanding interdisciplinary training in computational biology, experimental genetics, and molecular biology. The supervisory team offers expertise spanning evolutionary genetics, bioinformatics, biological statistics, CRISPR genome engineering, and cutting-edge sequencing technologies. Additional training and collaborative opportunities are available at neighbouring institutes throughout the broader Norwich Research Park in areas such as long-read sequencing and single-cell transcriptomics.
The Norwich Research Park Biosciences Doctoral Training Programme (NRPDTP) is offering fully funded studentships for October 2026 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.
This project has been shortlisted for funding by the NRPDTP. Shortlisted applicants will be interviewed on 3,4 or 5 February 2026.
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.
To maximise accessibility and attract students from underrepresented groups to our programme we have introduced bespoke templates for applicant Personal and Research statements which will enable every applicant to fully represent themselves through providing suitable examples and evidence. These forms are on the NRPDTP website and must be used for these sections of the application form.