Publications by authors named "Jordan C K Epstein"
Computational free energy-based methods have the potential to significantly improve throughput and decrease costs of protein design efforts. Such methods must reach a high level of reliability, accuracy, and automation to be effectively deployed in practical industrial settings in a way that impacts protein design projects. Here, we present a benchmark study for the calculation of relative changes in protein-protein binding affinity for single point mutations across a variety of systems from the literature, using free energy perturbation (FEP+) calculations.
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- Computational free energy-based methods can enhance the efficiency and reduce the costs in protein design by requiring high reliability, accuracy, and automation for practical use in industry.
- This study benchmarks the calculation of changes in protein-protein binding affinity due to single point mutations and utilizes free energy perturbation (FEP+) for improved outcomes.
- The authors introduce a new method for evaluating protonation states and develop an automated script to identify and correct outlier cases, demonstrating the application of FEP+ in real-world protein design alongside identifying areas for future research.