Skip to main content

Translating Deep Learning protein bioinformatics methods to accelerate structural determination by X-ray crystallography

Funding
Self-funded
Study mode
Full-time
Apply by
Start date
Year round
Subject area
Biological and Biomedical Sciences
How to apply
Change country or region

We’re currently showing entry requirements and other information for applicants with qualifications from United Kingdom.

Please select from our list of commonly chosen countries below or choose your own.

If your country or region isn’t listed here, please contact us with any questions about studying with us.

Overview

The successful candidate will develop new bioinformatics methods to guide crystallographers towards proteins and protein constructs that stand the best chance of crystallising.

About this opportunity

Even after the AlphaFold 2 (AF2) revolution, experimental structural biology contributes enormously to advances across all areas of biology. X-ray crystallography is the major structure determination workhorse and is served for decades by the CCP4 software suite. This project involves working at the intersection of structural bioinformatics and structural biology and will result in new methods and software, aiming for distribution via CCP4.

In the area of protein crystallography the project will improve methods for predicting proteins that will crystallise, obviously an absolute prerequisite for the field. It is known that flexible surface loops and termini are linked to a reluctance to crystallise. Recent Deep Learning methods, both structure modelling methods like AlphaFold 2/3 and protein Language Models such as ProteinMPNN, offer new routes to predict the existence of problematic flexibility. Such flexible regions, especially at the protein termini can often be removed by genetic engineering without affecting protein function, but bioinformatics also offers the option of looking across different species to find a protein that is predicted to be more tractable or protein design of more stable context for key functional determinants. Separately, it is known that thermostable proteins often crystallise more easily and Deep Learning methods and resources can help to identify such sequences.

Once suitable diffraction data have been obtained for a crystal, structure solution (typically using AlphaFold models for Molecular Replacement) is attempted. The success of these depends on accurate estimates of the number of protein molecules in each crystal unit. There is an opportunity to use Machine Learning methods to develop new methods for this, thereby saving time and environmental impact.

The successful candidate will develop new bioinformatics methods to guide crystallographers towards proteins and protein constructs that stand the best chance of crystallising. The student will also develop new methods to estimate crystal structure content. Finally, there may also be opportunities to spend time in a crystallographic lab with exposure to practical methods relevant to protein crystallography. The student will develop a range of valuable skills and benefit from abundant networking opportunities in the context of the premier UK consortium for crystallography software.

Who is this opportunity for?

This project is open to self-funded UK and international applicants.

Further reading

  1. Tertiary structure assessment at CASP15. (2023) Proteins, doi: 10.1002/prot.26593
  2. Predicted models and CCP4. (2023) Acta Cryst D 79, 806-819. doi: 10.1107/S2059798323006289.
  3. MrParse: finding homologues in the PDB and the EBI AlphaFold database for molecular replacement and more. (2022) Acta Cryst D 78, 553-559. doi: 10.1107/S2059798322003576.
  4. The CCP4 suite: integrative software for macromolecular crystallography. (2023) Acta Cryst D 79, 449-461
  5. Machine-Learned Fragment-Based Energies for Crystal Structure Prediction. (2019) J. Chem. Theory Comput. 15, 4, 2743-2758 doi: https://doi.org/10.1021/acs.jctc.9b00038
Back to top

How to apply

  1. 1. Contact supervisors

  2. 2. Prepare your application documents

    You may need the following documents to complete your online application:

    • A research proposal (this should cover the research you’d like to undertake)
    • University transcripts and degree certificates to date
    • Passport details (international applicants only)
    • English language certificates (international applicants only)
    • A personal statement
    • A curriculum vitae (CV)
    • Contact details for two proposed supervisors
    • Names and contact details of two referees.

  3. 3. Apply

    Finally, register and apply online. You'll receive an email acknowledgment once you've submitted your application. We'll be in touch with further details about what happens next.

Back to top

Fees and funding

Your tuition fees, funding your studies, and other costs to consider.

Tuition fees

UK fees (applies to Channel Islands, Isle of Man and Republic of Ireland)

Full-time place, per year - £5,006

International fees

Full-time place, per year - £31,250

Fees stated are for the 2025-26 academic year.

Additional costs

We understand that budgeting for your time at university is important, and we want to make sure you understand any costs that are not covered by your tuition fee. This could include buying a laptop, books, or stationery.

Find out more about the additional study costs that may apply to this project.

Funding your PhD

The project is open to both UK and international students. It is UNFUNDED and applicants are encouraged to contact the Principal Supervisor directly to discuss their application and the project.

Assistance will be given to those who are applying to international funding schemes.

If you're a UK national, or have settled status in the UK, you may be eligible to apply for a Postgraduate Doctoral Loan worth up to £30,301 to help with course fees and living costs.

There’s also a variety of alternative sources of funding. These include funded research opportunities and financial support from UK research councils, charities and trusts. Your supervisor may be able to help you secure funding.

My qualifications are from United Kingdom.

Scholarships and bursaries

We offer a range of scholarships and bursaries that could help pay your tuition fees and living expenses.

Duncan Norman Research Scholarship

If you’re awarded this prestigious scholarship, you’ll receive significant funding to support your postgraduate research. This includes full payment of your PhD fees and a cash bursary of £17,000 per year while you study. One award is available in each academic year.

John Lennon Memorial Scholarship

If you’re a UK student, either born in or with strong family connections to Merseyside, you could be eligible to apply for financial support worth up to £12,000 per year for up to three years of full-time postgraduate research (or up to five years part-time pro-rata).

Sport Liverpool Performance Programme

Apply to receive tailored training support to enhance your sporting performance. Our athlete support package includes a range of benefits, from bespoke strength and conditioning training to physiotherapy sessions and one-to-one nutritional advice.

Discover our full range of scholarships and bursaries.
Back to top

Contact us

Have a question about this research opportunity or studying a PhD with us? Please get in touch with us, using the contact details below, and we’ll be happy to assist you.

Professor Daniel Rigden
Back to top