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预测RPE65基因突变的致病性。

Predicting the pathogenicity of RPE65 mutations.

作者信息

Philp A R, Jin M, Li S, Schindler E I, Iannaccone A, Lam B L, Weleber R G, Fishman G A, Jacobson S G, Mullins R F, Travis Gabriel H, Stone Edwin M

机构信息

Department of Ophthalmology and Visual Sciences, University of Iowa Hospitals and Clinics, Iowa City, Iowa.

出版信息

Hum Mutat. 2009 Aug;30(8):1183-8. doi: 10.1002/humu.21033.

DOI:10.1002/humu.21033
PMID:19431183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2717180/
Abstract

To assist in distinguishing disease-causing mutations from nonpathogenic polymorphisms, we developed an objective algorithm to calculate an "estimate of pathogenic probability" (EPP) based on the prevalence of a specific variation, its segregation within families, and its predicted effects on protein structure. Eleven missense variations in the RPE65 gene were evaluated in patients with Leber congenital amaurosis (LCA) using the EPP algorithm. The accuracy of the EPP algorithm was evaluated using a cell-culture assay of RPE65-isomerase activity The variations were engineered into plasmids containing a human RPE65 cDNA and the retinoid isomerase activity of each variant was determined in cultured cells. The EPP algorithm predicted eight substitution mutations to be disease-causing variants. The isomerase catalytic activities of these RPE65 variants were all less than 6% of wild-type. In contrast, the EPP algorithm predicted the other three substitutions to be non-disease-causing, with isomerase activities of 68%, 127%, and 110% of wild-type, respectively. We observed complete concordance between the predicted pathogenicities of missense variations in the RPE65 gene and retinoid isomerase activities measured in a functional assay. These results suggest that the EPP algorithm may be useful to evaluate the pathogenicity of missense variations in other disease genes where functional assays are not available.

摘要

为了帮助区分致病突变和非致病性多态性,我们开发了一种客观算法,根据特定变异的发生率、其在家族中的分离情况以及对蛋白质结构的预测影响来计算“致病概率估计值”(EPP)。使用EPP算法对患有莱伯先天性黑蒙(LCA)的患者的RPE65基因中的11个错义变异进行了评估。使用RPE65异构酶活性的细胞培养测定法评估了EPP算法的准确性。将这些变异构建到含有人类RPE65 cDNA的质粒中,并在培养细胞中测定每个变异体的类视黄醇异构酶活性。EPP算法预测8个替代突变是致病变异体。这些RPE65变异体的异构酶催化活性均低于野生型的6%。相比之下,EPP算法预测其他三个替代为非致病的,其异构酶活性分别为野生型的68%、127%和野生型的110%。我们观察到RPE65基因错义变异的预测致病性与功能测定中测得的类视黄醇异构酶活性之间完全一致。这些结果表明,EPP算法可能有助于评估在无法进行功能测定的其他疾病基因中错义变异的致病性。

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本文引用的文献

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