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Generation of antigen-specific paired-chain antibodies using large language models

Cell. 2025-11; 
Perry T Wasdin, Nicole V Johnson, Alexis K Janke, Sofia Held, Toma M Marinov, Gwen Jordaan, Rebecca A Gillespie, Léna Vandenabeele, Fani Pantouli, Olivia C Powers, Matthew J Vukovich, Clinton M Holt, Jeongryeol Kim, Grant Hansman, Jennifer Logue, Helen Y Chu, Sarah F Andrews, Masaru Kanekiyo, Giuseppe A Sautto, Ted M Ross, Daniel J Sheward, Jason S McLellan, Alexandra A Abu-Shmais, Ivelin S Georgiev Program in Chemical and Physical Biology, Vanderbilt University Medical Center
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Abstract

The traditional process of antibody discovery is limited by inefficiency, high costs, and low success rates. Recent approaches employing artificial intelligence (AI) have been developed to optimize existing antibodies and generate antibody sequences in a target-agnostic manner. In this work, we present MAGE (monoclonal antibody generator), a sequence-based protein language model (PLM) fine-tuned for the task of generating paired human variable heavy- and light-chain antibody sequences against targets of interest. We show that MAGE can generate novel and diverse antibody sequences with experimentally validated binding specificity against SARS-CoV-2, an emerging avian influenza H5N1, and respiratory syncytial vir... More

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