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Data science and machine learning are revolutionizing enzyme engineering; however, high-throughput simulations for screening large libraries of enzyme variants remain a challenge. Here, we present a novel but highly simple approach to comparing enzyme variants with fully atomistic classical molecular dynamics (MD) simulations on a tractable timescale. Our method greatly simplifies the problem by restricting sampling only to the reaction transition state, and we show that the resulting measurements of transition-state stability are well correlated with experimental activity measurements across two highly distinct enzymes, even for mutations with effects too small to resolve with free energy methods. This method will enable atomistic simulations to achieve sampling coverage for enzyme variant prescreening and machine learning model training on a scale that was previously not possible.
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Agrawal, Ayushi; Bandi, Chandra Kanth; Burgin, Tucker; Woo, Youngwoo; Mayes, Heather B.; Chundawat, Shishir P. (, ACS Chemical Biology)
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Yang, Jiyuan; Bak, Gwangbae; Burgin, Tucker; Barnes, William J.; Mayes, Heather B.; Peña, Maria J.; Urbanowicz, Breeanna R.; Nielsen, Erik (, The Plant Cell)
