Research Associate (Molecular Biology)
| Posting date: | 07 November 2025 |
|---|---|
| Hours: | Full time |
| Closing date: | 07 December 2025 |
| Location: | Sheffield, S10 2TN |
| Company: | University of Sheffield |
| Job type: | Temporary |
| Job reference: | 1819-43769445 |
Summary
University of Sheffield
The laboratory of Professor Matt Johnson in the School of Biosciences seeks a Research Associate to work on a collaborative project funded by a BBSRC award.
The aims of the BBSRC funded project relevant to this position are to: (1) characterise the structural and functional properties of a range of engineered algal strains containing modified photosynthetic complexes using a variety of biophysical and spectroscopic methods; (2) purify a range of native and engineered protein complexes involved in photosynthesis; (3) use cryo-electron microscopy to determine the high-resolution structures of these complexes, using the latest approaches at all stages, including making grids, data analysis and model building.
Applicants must have a PhD (or equivalent experience) with a strong background in protein structure determination by cryo-electron microscopy, specifically with experience with large, multisubunit membrane protein complexes. Experience in gene manipulation, general protein engineering and purification of membrane and membrane-extrinsic proteins is also required.
We build teams of people from different heritages and lifestyles from across the world, whose talent and contributions complement each other to greatest effect. We believe diversity in all its forms delivers greater impact through research, teaching and student experience.
The laboratory of Professor Matt Johnson in the School of Biosciences seeks a Research Associate to work on a collaborative project funded by a BBSRC award.
The aims of the BBSRC funded project relevant to this position are to: (1) characterise the structural and functional properties of a range of engineered algal strains containing modified photosynthetic complexes using a variety of biophysical and spectroscopic methods; (2) purify a range of native and engineered protein complexes involved in photosynthesis; (3) use cryo-electron microscopy to determine the high-resolution structures of these complexes, using the latest approaches at all stages, including making grids, data analysis and model building.
Applicants must have a PhD (or equivalent experience) with a strong background in protein structure determination by cryo-electron microscopy, specifically with experience with large, multisubunit membrane protein complexes. Experience in gene manipulation, general protein engineering and purification of membrane and membrane-extrinsic proteins is also required.
We build teams of people from different heritages and lifestyles from across the world, whose talent and contributions complement each other to greatest effect. We believe diversity in all its forms delivers greater impact through research, teaching and student experience.