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Enhancing Enzyme Activity With Mutation Combinations Guided by Few-Shot Learning and Causal Inference

ANGEWANDTE CHEMIE International Edition. 2026-06; 
Lin Guo, Xiaoguang Yan, Yali Lu, Shengxin Nie, Mingyue Ge, Yukun Li, Weiguo Li, Xiaochun Zhang, Dongmei Liang, Yihan Zhao, Hongxiao Tan, Xiling Chen, Shilong Fan, Yefeng Tang, Jianjun Qiao, Boxue Tian
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Protein and Antibody Isolation The clarified supernatants (obtained by centrifugation at 16,000 g for 10 min at 4 °C) were used for affinity purification on an Ni-NTA Resin column (Genescript, Nanjing, China) according to the manufacturers’ instructions. Get A Quote

摘要

Designing enzyme sequences to enhance product yield represents a fundamental challenge in metabolic engineering. Here, we established a workflow that integrates computational predictions with efficient experimental iteration to obtain outsized gains in product yield. Based on causal inference and examination of published datasets, we realized and ultimately experimentally confirmed that in vivo unit yield (yield/expression) can serve as an attractive surrogate for aqueous kcat/Km when optimizing for activity. In our workflow, we initially predict activity-enhancing single mutants by calculating the binding affinities of reactive intermediates, followed by experimental investigations of unit yield. Subsequently,... More

关键词

causal inference; mutagenesis; physics‐inspired few‐shot learning; protein design; protein language models.