Downloads provided by UsageCountsAccurate and Rigorous Prediction of the Changes in Protein Free Energies in a Large‐Scale Mutation Scan
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Carsten Kutzner; Szilárd Páll; Martin Fechner; Ansgar Esztermann; Bert L. de Groot; Helmut Grubmüller;
Accurate and Rigorous Prediction of the Changes in Protein Free Energies in a Large‐Scale Mutation Scan
AbstractThe prediction of mutation‐induced free‐energy changes in protein thermostability or protein–protein binding is of particular interest in the fields of protein design, biotechnology, and bioengineering. Herein, we achieve remarkable accuracy in a scan of 762 mutations estimating changes in protein thermostability based on the first principles of statistical mechanics. The remaining error in the free‐energy estimates appears to be due to three sources in approximately equal parts, namely sampling, force‐field inaccuracies, and experimental uncertainty. We propose a consensus force‐field approach, which, together with an increased sampling time, leads to a free‐energy prediction accuracy that matches those reached in experiments. This versatile approach enables accurate free‐energy estimates for diverse proteins, including the prediction of changes in the melting temperature of the membrane protein neurotensin receptor 1.
Germany
- Max Planck Society Germany
- BOEHRINGER INGELHEIM PHARMA GMBH &CO KG Germany
- Boehringer Ingelheim Fonds Germany
- Max Planck Institute for Biophysical Chemistry Germany
- University of Göttingen Germany
Protein Stability, Mutation, Receptors, Neurotensin, Thermodynamics, Communications, Protein Binding
Protein Stability, Mutation, Receptors, Neurotensin, Thermodynamics, Communications, Protein Binding
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This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
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