MAIT cells contribute to a protective antiviral innate response to influenza infection
T. Hinks (Oxford, United Kingdom), B. Van Wilgenburg (Oxford, United Kingdom), L. Loh (Melbourne, Australia), Z. Chen (Melbourne, Australia), T. Pediongco (Melbourne, Australia), H. Wang (Melbourne, Australia), M. Shi (Melbourne, Australia), Z. Zhao (Melbourne, Australia), M. Koutsakos (Melbourne, Australia), S. Nussing (Melbourne, Australia), S. Sant (Melbourne, Australia), Z. Wang (Melbourne, Australia), C. D'Souza (Melbourne, Australia), C. Almeida (Melbourne, Australia), P. Reading (Melbourne, Australia), A. Corbett (Melbourne, Australia), J. Mccluskey (Melbourne, Australia), P. Klenerman (Oxford, United Kingdom), K. Kedzierska (Melbourne, United Kingdom)
Source: International Congress 2018 – New therapies for respiratory infections: experimental and translational studies
Disease area: Respiratory infections
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T. Hinks (Oxford, United Kingdom), B. Van Wilgenburg (Oxford, United Kingdom), L. Loh (Melbourne, Australia), Z. Chen (Melbourne, Australia), T. Pediongco (Melbourne, Australia), H. Wang (Melbourne, Australia), M. Shi (Melbourne, Australia), Z. Zhao (Melbourne, Australia), M. Koutsakos (Melbourne, Australia), S. Nussing (Melbourne, Australia), S. Sant (Melbourne, Australia), Z. Wang (Melbourne, Australia), C. D'Souza (Melbourne, Australia), C. Almeida (Melbourne, Australia), P. Reading (Melbourne, Australia), A. Corbett (Melbourne, Australia), J. Mccluskey (Melbourne, Australia), P. Klenerman (Oxford, United Kingdom), K. Kedzierska (Melbourne, United Kingdom). MAIT cells contribute to a protective antiviral innate response to influenza infection. 5459
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