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Publications

Publications from the Centre for Immuno-Oncology

Regulation of the cell surface expression of classical and non-classical MHC proteins by the human cytomegalovirus UL40 and rhesus cytomegalovirus Rh67 proteins.

Brackenridge S. et al, (2024), Journal of virology, 98

A high affinity monoclonal antibody against HLA-E-VL9 enhances natural killer cell anti-tumor killing.

Hwang JK. et al, (2024)

The antibodies 3D12 and 4D12 recognise distinct epitopes and conformations of HLA-E.

Brackenridge S. et al, (2024), Frontiers in immunology, 15

Intracellular trafficking of HLA-E and its regulation.

He W. et al, (2023), The Journal of experimental medicine, 220

HLA-E-restricted SARS-CoV-2-specific T cells from convalescent COVID-19 patients suppress virus replication despite HLA class Ia down-regulation.

Yang H. et al, (2023), Science immunology, 8

Autoimmunity-associated T cell receptors recognize HLA-B*27-bound peptides.

Yang X. et al, (2022), Nature, 612, 771 - 777

Mouse and human antibodies bind HLA-E-leader peptide complexes and enhance NK cell cytotoxicity.

Li D. et al, (2022), Communications biology, 5

HLA variants have different preferences to present proteins with specific molecular functions which are complemented in frequent haplotypes.

Karnaukhov V. et al, (2022), Frontiers in immunology, 13

Mapping the epitopes of the Human Leukocyte Antigen E antibodies 3D12 and 4D12

Brackenridge S. et al, (2022)

Regulation of the cell surface expression of classical and non-classical MHC proteins by the human cytomegalovirus UL40 and rhesus cytomegalovirus rh67 proteins

Brackenridge S. et al, (2022)

HLA-E-restricted, Gag-specific CD8+ T cells can suppress HIV-1 infection, offering vaccine opportunities.

Yang H. et al, (2021), Science immunology, 6

HLA binding of self-peptides is biased towards proteins with specific molecular functions.

Karnaukhov V. et al, (2021), bioRxiv

Interrogating the recognition landscape of a conserved HIV-specific TCR reveals distinct bacterial peptide cross-reactivity.

Mendoza JL. et al, (2020), eLife, 9

HLA-E restricted, HIV-1 suppressing, Gag specific CD8+ T cells offer universal vaccine opportunities

Yang H. et al, (2020)

Mouse and Human Antibodies that Bind HLA-E-Leader Peptide Complexes and Enhance NK Cell Cytotoxicity

Li D. et al, (2020)

Contribution of proteasome-catalyzed peptide cis-splicing to viral targeting by CD8+ T cells in HIV-1 infection.

Paes W. et al, (2019), Proceedings of the National Academy of Sciences of the United States of America, 116, 24748 - 24759

HLA-E: exploiting pathogen-host interactions for vaccine development.

Sharpe HR. et al, (2019), Clinical and experimental immunology, 196, 167 - 177

Author Correction: Pathogen-derived HLA-E bound epitopes reveal broad primary anchor pocket tolerability and conformationally malleable peptide binding.

Walters LC. et al, (2018), Nature communications, 9

Identification of novel HIV-1-derived HLA-E-binding peptides.

Hannoun Z. et al, (2018), Immunology letters, 202, 65 - 72

Pathogen-derived HLA-E bound epitopes reveal broad primary anchor pocket tolerability and conformationally malleable peptide binding.

Walters LC. et al, (2018), Nature communications, 9

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