Literature DB >> 26584803

Protein Destabilization as a Common Factor in Diverse Inherited Disorders.

Rachel L Redler1, Jhuma Das1, Juan R Diaz1, Nikolay V Dokholyan2.   

Abstract

Protein destabilization by amino acid substitutions is proposed to play a prominent role in widespread inherited human disorders, not just those known to involve protein misfolding and aggregation. To test this hypothesis, we computationally evaluate the effects on protein stability of all possible amino acid substitutions in 20 disease-associated proteins with multiple identified pathogenic missense mutations. For 18 of the 20 proteins studied, substitutions at known positions of pathogenic mutations are significantly more likely to destabilize the native protein fold (as indicated by more positive values of ∆∆G). Thus, positions identified as sites of disease-associated mutations, as opposed to non-disease-associated sites, are predicted to be more vulnerable to protein destabilization upon amino acid substitution. This finding supports the notion that destabilization of native protein structure underlies the pathogenicity of broad set of missense mutations, even in cases where reduced protein stability and/or aggregation are not characteristic of the disease state.

Entities:  

Keywords:  Aggregation; Destabilization; Inherited disorder; Pathogenic mutation; Stability

Mesh:

Substances:

Year:  2015        PMID: 26584803      PMCID: PMC4712097          DOI: 10.1007/s00239-015-9717-5

Source DB:  PubMed          Journal:  J Mol Evol        ISSN: 0022-2844            Impact factor:   2.395


  26 in total

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5.  Mistranslation-induced protein misfolding as a dominant constraint on coding-sequence evolution.

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7.  A method and server for predicting damaging missense mutations.

Authors:  Ivan A Adzhubei; Steffen Schmidt; Leonid Peshkin; Vasily E Ramensky; Anna Gerasimova; Peer Bork; Alexey S Kondrashov; Shamil R Sunyaev
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8.  Emergence of protein fold families through rational design.

Authors:  Feng Ding; Nikolay V Dokholyan
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9.  Functionality and the evolution of marginal stability in proteins: inferences from lattice simulations.

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10.  SNAP: predict effect of non-synonymous polymorphisms on function.

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  18 in total

1.  Quantifying the Mutational Robustness of Protein-Coding Genes.

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Journal:  J Mol Evol       Date:  2021-05-02       Impact factor: 2.395

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3.  Stabilization of μ-opioid receptor facilitates its cellular translocation and signaling.

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4.  Ensemble variant interpretation methods to predict enzyme activity and assign pathogenicity in the CAGI4 NAGLU (Human N-acetyl-glucosaminidase) and UBE2I (Human SUMO-ligase) challenges.

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Review 5.  The role of protein complexes in human genetic disease.

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8.  The structure-based cancer-related single amino acid variation prediction.

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9.  Phosphorylation in Novel Mitochondrial Creatine Kinase Tyrosine Residues Render Cardioprotection against Hypoxia/Reoxygenation Injury.

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10.  KEAP1 Cancer Mutants: A Large-Scale Molecular Dynamics Study of Protein Stability.

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