2020
DOI: 10.1101/2020.02.05.935809
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Large-scalein silicomutagenesis experiments reveal optimization of genetic code and codon usage for protein mutational robustness

Abstract: The question of how natural evolution acts on DNA and protein sequences to ensure mutational robustness and evolvability has been asked for decades without definitive answer. We tackled this issue through a structurome-scale computational investigation, in which we estimated the change in folding free energy upon all possible single-site mutations introduced in more than 20,000 protein structures. The validity of our results are supported by a very good agreement with experimental mutagenesis data. At the amin… Show more

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Cited by 1 publication
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References 82 publications
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“…As an example, SNPMuSiC is unable to predict a mutation to be deleterious if its molecular effect is to disrupt a protein-protein or protein-ligand interaction necessary for function. However, its contributions perfectly integrate into the MutaFrame framework and provide fundamental information about the variant effects, since stability is well known to be one of the main contributions to folded protein fitness [24]. 3: List of all the features used in the SNPMuSiC model to predict variant deleteriousness.…”
Section: Interpretation Utilitymentioning
confidence: 99%
“…As an example, SNPMuSiC is unable to predict a mutation to be deleterious if its molecular effect is to disrupt a protein-protein or protein-ligand interaction necessary for function. However, its contributions perfectly integrate into the MutaFrame framework and provide fundamental information about the variant effects, since stability is well known to be one of the main contributions to folded protein fitness [24]. 3: List of all the features used in the SNPMuSiC model to predict variant deleteriousness.…”
Section: Interpretation Utilitymentioning
confidence: 99%