Article Synopsis
- Fine-tuning protein-protein interactions occurs naturally through coevolution, but replicating this in lab settings is challenging.
- A new platform facilitates synthetic protein-protein coevolution, allowing isolation of matched interacting muteins from diverse libraries to analyze molecular recognition.
- The study combines experimental data with pretrained protein language models to enhance amino acid diversity, enabling predictions of remodeled protein interfaces for applications in biotechnology and synthetic biology.
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Article Abstract
Fine-tuning of protein-protein interactions occurs naturally through coevolution, but this process is difficult to recapitulate in the laboratory. We describe a platform for synthetic protein-protein coevolution that can isolate matched pairs of interacting muteins from complex libraries. This large dataset of coevolved complexes drove a systems-level analysis of molecular recognition between Z domain-affibody pairs spanning a wide range of structures, affinities, cross-reactivities, and orthogonalities, and captured a broad spectrum of coevolutionary networks. Furthermore, we harnessed pretrained protein language models to expand, in silico, the amino acid diversity of our coevolution screen, predicting remodeled interfaces beyond the reach of the experimental library. The integration of these approaches provides a means of simulating protein coevolution and generating protein complexes with diverse molecular recognition properties for biotechnology and synthetic biology.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10403280 | PMC |
| http://dx.doi.org/10.1126/science.adh1720 | DOI Listing |
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