Senior Bioinformatician
Contact information
emanuele.marchi@immonc.ox.ac.uk
emanuele.marchi@ndm.ox.ac.uk
Emanuele Marchi
Senior Bioinformatician
Researcher Profile
My background is in molecular biology, and I began my career studying the effect of BRCA1/2 polymorphisms in breast cancer before moving into bioinformatics during my PhD at the University of Surrey.
At the Weatherall Institute of Molecular Medicine in Oxford, I developed a clinical and molecular database for leukaemia patients and used machine learning to show that cancer cells in myeloid leukaemia originate from progenitors rather than stem cells. Later, at the Department of Zoology, I built tools to detect novel endogenous retrovirus integrations in the human genome, with implications for both cancer and viral infections such as HIV.
In immunology, I’ve applied multi-omics approaches to study T cell biology, uncovering mechanisms of exhaustion and the contrasting phenomenon of T cell inflation, and I also worked on hepatitis C infection, identifying transcriptomic signatures of disease progression and highlighting sex-specific molecular differences relevant to conditions like asthma and COVID-19.
More recently, my work has focused on respiratory and cancer immunology. In asthma, I integrated metagenomic and proteomic data to identify microbe-specific immune responses, and in nasopharyngeal carcinoma, I’m using single-cell and spatial transcriptomics to identify biomarkers and therapeutic targets. I recently joined Cancer Immunology in Oxford, where I focus on finding both classical and non-classical antigens for cancer vaccine development.
Broadly, my research aims to understand the mechanisms of sex-biased conditions in infectious and immune-related diseases, including asthma and EBV-driven cancers. I was awarded an NIHR Oxford BRC grant on sex differences in asthma and a John Fell Fund Award on nasopharyngeal carcinoma in Southeast Asia.
Recent publications
Association of Diabetes Mellitus With a Shared Hyperinflammatory Immune Response in Patients With Melioidosis and Patients With Tuberculosis: An Observational Case-Control Study
Journal article
Rongkard P. et al, (2026), Open Forum Infectious Diseases, 13
Genome-wide association and gene-virus interaction study of liver disease in hepatitis C virus-infected patients
Preprint
Quistrebert J. et al, (2025)
Airway proteomics reveals broad residual anti-inflammatory effects of prednisolone in mepolizumab-treated asthma
Journal article
Howell I. et al, (2024), Journal of Allergy and Clinical Immunology, 154, 1146 - 1158
Species‐level, metagenomic and proteomic analysis of microbe‐immune interactions in severe asthma
Journal article
Jabeen MF. et al, (2024), Allergy, 79, 2966 - 2980
Dysregulated immunologic landscape of the early host response in melioidosis
Journal article
Rongkard P. et al, (2024), JCI Insight, 9
