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Integrating Machine-learning and Ultra-high-throughput Screening for Enzyme spaces exploration

Created on 25 Jun 2026

Authors

Ke, Y., Zhang, Y., Fang, M., Zhao, J., Zhu, H., Xu, Z., Cao, L.

Abstract

The systematic navigation of biocatalyst space is constrained by elusive structure-activity rules and a lack of evolutionary history. Here, we present IMUSE, a strategy integrating machine learning with ultra-high-throughput screening. By screening millions of droplet-encapsulated de novo enzymes, we generated massive synthetic sequence-structure datasets to train models that capture their complex fitness landscapes and biophysical principles. These models effectively guide functional exploration across both sequence and novel structure spaces. IMUSE identified synergistic triple mutations yielding ~5-fold activity improvements and discovered active second-generation designs with novel catalytic pockets, boosting the experimental success rate >4.9-fold (~30%). This work demonstrates how synthetic fitness landscapes bridge the data gap in de novo enzyme space, transforming stochastic search into deterministic navigation to unlock highly proficient biocatalysts beyond natural boundaries.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 25 Jun 2026.

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