Jobs in Structural Biology and Related Fields

PhD on Structural Mechanisms of T Cell Receptor Recognition of Peptide Antigen via pMHC Complexes

University of Oxford, United Kingdom

Application deadline: 19 Jun 2026

Project Overview

Immune surveillance is critical for eliminating cancer cells and cells infected with viruses. Central to this process is the interaction between the T cell receptor (TCR) on T cells and peptide–major histocompatibility complex (pMHC) molecules on target cells. The biochemical and structural features of TCR–pMHC engagement dictate the immune response, yet the fundamental rules governing TCR specificity and sensitivity remain poorly understood. This project will use cryo-electron microscopy (cryoEM) and structural biology to define the structural “fingerprints” of productive TCR–pMHC interactions that drive T cell activation. We have recently made a key technical breakthrough and determined the first high-resolution structures of native, unmodified TCR–pMHC complexes from SARS-CoV2–infected individuals, despite their low affinity and conformational flexibility. This advance establishes a robust cryoEM pipeline to characterize native TCRs—tumour-reactive or pathogen-specific—in complex with natural pMHCs. We will compare diverse complexes to identify conserved features and structural variations linked to specificity, sensitivity, and affinity using recombinant protein complexes. We will further advance this work to native TCR/CD3–pMHC assemblies in the context of membranes, as formed within the immunological synapse, using in situ cryo-electron tomography. These studies will uncover the molecular basis of TCR recognition and provide critical insights for selecting TCRs with optimal specificity and safety for TCR-based immunotherapies.

Disease Relevance

• Virus infections
• Cancer
• Autoimmune diseases

Key Technology

• Molecular biology
• Protein biochemistry
• cryoEM single particle analysis
• cryo-electron tomography
• in situ structural biology
• cryoFIB/SEM lamella preparation
• Correlative fluorescence and electron microscopy

Training Opportunities

We are located in the Division of Structural Biology, Wellcome Trust Centre for Human Genetics, which provides an ideal environment for multidisciplinary and integrative studies. We also have regular access to eBIC at Diamond Light Source for data collection and computation. Individual projects are tailored to particular student’s interests and cover techniques in molecular, cellular and structural biology. Through the projects, students will be trained in:

• Molecular cloning, protein expression and protein purification
• Protein biochemical/biophysical characterization
• CryoEM single particle structure determination 
• Cryo-electron tomography and sub-tomogram averaging
• Correlative light and cryoEM imaging of virus infection
• Cryo-FIB/SEM lamella preparation and volume imaging
• Data analysis and image reconstruction
• Computer molecular dynamics simulations

Contacts

Prof. Peijun Zhang (peijun.zhang@strubi.ox.ac.uk) & Dr. Ricardo A. Fernandes (ricardo.fernandes@ndm.ox.ac.uk)

For more information and to apply, see here. Deadline for applications is Friday 19th June 2026, 12:00 PM (UK Time, Noon).