2022
DOI: 10.1038/s41467-022-31686-6
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Loss-of-function, gain-of-function and dominant-negative mutations have profoundly different effects on protein structure

Abstract: Most known pathogenic mutations occur in protein-coding regions of DNA and change the way proteins are made. Taking protein structure into account has therefore provided great insight into the molecular mechanisms underlying human genetic disease. While there has been much focus on how mutations can disrupt protein structure and thus cause a loss of function (LOF), alternative mechanisms, specifically dominant-negative (DN) and gain-of-function (GOF) effects, are less understood. Here, we investigate the prote… Show more

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Cited by 147 publications
(159 citation statements)
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References 87 publications
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“…Moreover, pathogenic variants in predicted non-LOF genes show strong 3D clustering in their respective protein structures, consistent with previous observations (Gerasimavicius, Livesey, and Marsh 2022;Lelieveld et al 2017). In Figure S4F/G, we provide further support that, between thresholds T1 and T2, both ΔΔG and EDC exhibit the expected trend with an increasing effect size.…”
Section: Training and Assessing A Classifier For The Prioritisation O...supporting
confidence: 90%
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“…Moreover, pathogenic variants in predicted non-LOF genes show strong 3D clustering in their respective protein structures, consistent with previous observations (Gerasimavicius, Livesey, and Marsh 2022;Lelieveld et al 2017). In Figure S4F/G, we provide further support that, between thresholds T1 and T2, both ΔΔG and EDC exhibit the expected trend with an increasing effect size.…”
Section: Training and Assessing A Classifier For The Prioritisation O...supporting
confidence: 90%
“…As an unbiased approach to assess the model, we analysed the ΔΔG of pathogenic mutations and their extent of disease clustering (EDC) after removing genes used for training, and AR genes, whose biallelic LOF mutations would bias the trend. In Figure 5C we show the result of this analysis at threshold T2, demonstrating that missense mutations in predicted non-LOF genes exhibit a milder impact on protein structure (Gerasimavicius, Livesey, and Marsh 2022; McEntagart et al 2016). Moreover, pathogenic variants in predicted non-LOF genes show strong 3D clustering in their respective protein structures, consistent with previous observations (Gerasimavicius, Livesey, and Marsh 2022; Lelieveld et al 2017).…”
Section: Resultsmentioning
confidence: 89%
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“…These analyses suggest that the duplicated genes might have gained the capacity to bind and process different substrates by changing their flexibility throughout the radiation of Heliconiini. This is consistent with the hypothesis that, in order to obtain a gain-of-function and to give rise to new interactions, a protein needs to change few sites in intrinsically disordered regions 40 . Our combined results present a more complex story than previously described, and both the high copy number variation and patterns of selection within Heliconiinae appear inconsistent with these genes playing a critical role in the evolution of pollen feeding.…”
Section: Candidate Genes For the Derived Traits Of Heliconiussupporting
confidence: 90%