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The immune system leverages immense molecular diversity in the T, B, and NK cell receptor repertoires to distinguish between normal cells and cells altered by infection or cancer. This molecular diversity often makes understanding exactly what is recognized during the course of an immune response extremely challenging. As a result, efforts to study antigen recognition have often been limited to working with model antigens.
Our group focuses on understanding and manipulating ‘natural’ adaptive immune responses in the context of cancer and infection. We use a variety of strategies and techniques including protein biochemistry, protein engineering, sequencing, and bioinformatics to 1) identify immune cells of interest, 2) determine the sequences of their antigen receptors, 3) directly determine what the immune response is ‘seeing’ in response to cancer or infection, and 4) answer questions about how the immune system composition and dynamics affect the success or failure of an immune response. This type of systematic, unbiased examination of the antigen recognition repertoire of any given T or NK cell receptor has, until recently, been extremely difficult. With this information, we will be able to rationally engineer new methods to more specifically and potently mount a potent immune response.
Our group focuses on understanding and manipulating ‘natural’ adaptive immune responses in the context of cancer and infection. We use a variety of strategies and techniques including protein biochemistry, protein engineering, sequencing, and bioinformatics to 1) identify immune cells of interest, 2) determine the sequences of their antigen receptors, 3) directly determine what the immune response is ‘seeing’ in response to cancer or infection, and 4) answer questions about how the immune system composition and dynamics affect the success or failure of an immune response. This type of systematic, unbiased examination of the antigen recognition repertoire of any given T or NK cell receptor has, until recently, been extremely difficult. With this information, we will be able to rationally engineer new methods to more specifically and potently mount a potent immune response.
Research Interests
Papers共 98 篇Author StatisticsCo-AuthorSimilar Experts
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Caleb R. Perez,Andrea Garmilla,Avlant Nilsson, Hratch M. Baghdassarian,Khloe S. Gordon, Louise G. Lima,Blake E. Smith,Marcela V. Maus,Douglas A. Lauffenburger,Michael E. Birnbaum
bioRxiv the preprint server for biology (2024)
Cell reports Methodsno. 1 (2024): 100694-100694
Ellen J K Xu,Blake E Smith,Winiffer D Conce Alberto,Michael J Walsh, Birkley Lim,Megan T Hoffman,Li Qiang, Jiayi Dong, Andrea Garmilla, Qingyang Henry Zhao,Caleb R Perez,Stephanie A Gaglione, Connor S Dobson,Michael Dougan, Stephanie K Dougan,Michael E Birnbaum
bioRxiv the preprint server for biology (2024)
CELL REPORTS METHODSno. 1 (2024): 100694-100694
Jiao Shen,Blake E. Smith,Winiffer Conce Alberto,Ellen J. Kim,Michael L. Dougan,Harshabad Singh,Michael E. Birnbaum, Stephanie K. Dougan
Cancer Researchno. 17_Supplement_2 (2024)
Proceedings of the National Academy of Sciences of the United States of Americano. 31 (2024): e2406615121-e2406615121
bioRxiv (Cold Spring Harbor Laboratory) (2024)
Ri Lu,Yan Shan Ang, Ka-Wai Cheung,Kai Yun Quek, Wei-Xiang Sin,Elizabeth Lee, Shir Lynn Lim,Lin-Yue Lanry Yung,Michael E. Birnbaum,Jongyoon Han, Lih Feng Cheow,Kerwin Kwek Zeming
ADVANCED SCIENCE (2024)
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Author Statistics
#Papers: 99
#Citation: 3593
H-Index: 23
G-Index: 59
Sociability: 6
Diversity: 0
Activity: 1
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