Waardenburg Syndrome Expression and Penetrance

Journal of rare diseases research & treatment Pub Date : 2017-12-10 DOI:10.29245/2572-9411/2017/6.1118

M. Shelby

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引用次数: 5

Abstract

Through a combination of in silico research and reviews of previous work, mechanisms by which nonsense-mediated mRNA decay (NMD) affects the inheritance and expressivity of Waardenburg syndrome is realized. While expressivity and inheritance both relate to biochemical processes underlying a gene’s function, this research explores how alternative splicing and premature termination codons (PTC’s) within mRNAs mutated in the disease are either translated into deleterious proteins or decayed to minimize expression of altered proteins. Elucidation of splice variants coupled with NMD perpetuating the various symptoms and inheritance patterns of this disease represent novel findings. By investigating nonsense mutations that lie within and outside the NMD boundary of these transcripts we can evaluate the effects of protein truncation versus minimized protein expression on the variable expressivity found between Type I and Type III Waardenburg syndrome, PAX3, while comparatively evaluating EDN3 and SOX10’s role in inheritance of Type IV subtypes of the disease. This review will demonstrate how alternative splicing perpetuates or limits NMD activity by way of PTC positioning, thereby affecting the presentation of Waardenburg syndrome.

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Waardenburg综合征的表达和外显率

通过结合计算机研究和对以往工作的回顾，了解了无意义介导的mRNA衰变(NMD)影响Waardenburg综合征遗传和表达的机制。虽然表达性和遗传都与基因功能的生化过程有关，但本研究探讨了在疾病中突变的mrna中的选择性剪接和过早终止密码子(PTC)如何被翻译成有害蛋白或腐烂以最小化改变蛋白的表达。阐明与NMD相结合的剪接变异使这种疾病的各种症状和遗传模式永续存在，代表了新的发现。通过研究这些转录本NMD边界内外的无意义突变，我们可以评估蛋白质截断与最小化蛋白表达对I型和III型Waardenburg综合征PAX3之间可变表达的影响，同时比较评估EDN3和SOX10在疾病IV型亚型遗传中的作用。这篇综述将展示选择性剪接如何通过PTC定位延续或限制NMD活性，从而影响Waardenburg综合征的表现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of rare diseases research & treatment

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