Detection and discovery of repeat expansions in ataxia enabled by next-generation sequencing: present and future.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Emerging Topics in Life Sciences Pub Date : 2023-12-14 DOI:10.1042/ETLS20230018
Haloom Rafehi, Mark F Bennett, Melanie Bahlo
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Abstract

Hereditary cerebellar ataxias are a heterogenous group of progressive neurological disorders that are disproportionately caused by repeat expansions (REs) of short tandem repeats (STRs). Genetic diagnosis for RE disorders such as ataxias are difficult as the current gold standard for diagnosis is repeat-primed PCR assays or Southern blots, neither of which are scalable nor readily available for all STR loci. In the last five years, significant advances have been made in our ability to detect STRs and REs in short-read sequencing data, especially whole-genome sequencing. Given the increasing reliance of genomics in diagnosis of rare diseases, the use of established RE detection pipelines for RE disorders is now a highly feasible and practical first-step alternative to molecular testing methods. In addition, many new pathogenic REs have been discovered in recent years by utilising WGS data. Collectively, genomes are an important resource/platform for further advancements in both the discovery and diagnosis of REs that cause ataxia and will lead to much needed improvement in diagnostic rates for patients with hereditary ataxia.

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通过下一代测序检测和发现共济失调的重复扩增:现在和未来。
遗传性小脑共济失调是一组异质性的进行性神经疾病,由短串联重复序列(STR)的重复扩增(RE)不成比例地引起。对共济失调等RE疾病的遗传诊断很困难,因为目前的诊断金标准是重复启动的PCR检测或Southern印迹,这两种方法都不可扩展,也不容易用于所有STR基因座。在过去的五年里,我们在短读测序数据中检测STR和RE的能力,特别是全基因组测序方面取得了重大进展。鉴于基因组学在罕见病诊断中的依赖性越来越高,使用已建立的RE检测管道来检测RE疾病现在是分子检测方法的高度可行和实用的第一步替代方案。此外,近年来通过利用WGS数据发现了许多新的致病性RE。总的来说,基因组是在发现和诊断导致共济失调的RE方面取得进一步进展的重要资源/平台,并将大大提高遗传性共济失调患者的诊断率。
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