Login / Signup

Computational scoring and experimental evaluation of enzymes generated by neural networks.

Sean R JohnsonXiaozhi FuSandra ViknanderClara GoldinSarah MonacoAleksej ZelezniakKevin K Yang
Published in: Nature biotechnology (2024)
In recent years, generative protein sequence models have been developed to sample novel sequences. However, predicting whether generated proteins will fold and function remains challenging. We evaluate a set of 20 diverse computational metrics to assess the quality of enzyme sequences produced by three contrasting generative models: ancestral sequence reconstruction, a generative adversarial network and a protein language model. Focusing on two enzyme families, we expressed and purified over 500 natural and generated sequences with 70-90% identity to the most similar natural sequences to benchmark computational metrics for predicting in vitro enzyme activity. Over three rounds of experiments, we developed a computational filter that improved the rate of experimental success by 50-150%. The proposed metrics and models will drive protein engineering research by serving as a benchmark for generative protein sequence models and helping to select active variants for experimental testing.
Keyphrases
  • amino acid
  • protein protein
  • neural network
  • binding protein
  • gene expression
  • dna methylation
  • quality improvement