☆ 4.8 Article

High-throughput determination of the antigen specificities of T cell receptors in single cells

NATURE BIOTECHNOLOGY (2018)

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NATURE BIOTECHNOLOGY

卷 36, 期 12, 页码 1156-1159

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NATURE PUBLISHING GROUP

DOI: 10.1038/nbt.4282

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Biotechnology & Applied Microbiology

资金

NIH [R00AG040149, S10OD020072, R33CA225539]
NSF CAREER Award [1653866]
Welch Foundation [F1785]
Robert J. Kleberg, Jr. and Helen C. Kleberg Foundation
National Natural Science Foundation of China [81220108006]
NSFC-NHMRC [81561128016]
Thrust 2000 - Archie W. Straiton Endowed Graduate Fellowship in Engineering [1]
Cockrell School of Engineering fellowship
Thrust 2000 - Mario E. Ramirez Endowed Graduate Fellowship in Engineering
NATIONAL CANCER INSTITUTE [R33CA225539] Funding Source: NIH RePORTER

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We present tetramer-associated T-cell receptor sequencing (TetTCR-seq) to link T cell receptor (TCR) sequences to their cognate antigens in single cells at high throughput. Binding is determined using a library of DNA-barcoded antigen tetramers that is rapidly generated by in vitro transcription and translation. We applied TetTCR-seq to identify patterns in TCR cross-reactivity with cancer neoantigens and to rapidly isolate neoantigen-specific TCRs with no cross-reactivity to the wild-type antigen.

High-throughput determination of the antigen specificities of T cell receptors in single cells

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NATURE BIOTECHNOLOGY

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NATURE PUBLISHING GROUP

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High-throughput determination of the antigen specificities of T cell receptors in single cells

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NATURE BIOTECHNOLOGY

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NATURE PUBLISHING GROUP

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