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Parallel in-depth analysis of repeat expansions in ataxia patients by long-read sequencing. | LitMetric

AI Article Synopsis

  • Simple DNA repeats are linked to hereditary ataxias, but traditional genetic diagnostics are often imprecise due to reliance on PCR-based methods.
  • The study developed a new method called clinical nanopore Cas9-targeted sequencing, which uses CRISPR-Cas9 and long-read sequencing for a more accurate analysis of 10 repeat loci associated with ataxias, simultaneously assessing various parameters like sequence and methylation.
  • In testing 100 undiagnosed ataxia patients, this method identified repeat expansions in 28 cases, highlighting biallelic expansions in RFC1 as the most common cause, and discovered a novel repeat motif, AGGGG.

Article Abstract

Instability of simple DNA repeats has been known as a common cause of hereditary ataxias for over 20 years. Routine genetic diagnostics of these phenotypically similar diseases still rely on an iterative workflow for quantification of repeat units by PCR-based methods of limited precision. We established and validated clinical nanopore Cas9-targeted sequencing, an amplification-free method for simultaneous analysis of 10 repeat loci associated with clinically overlapping hereditary ataxias. The method combines target enrichment by CRISPR-Cas9, Oxford Nanopore long-read sequencing and a bioinformatics pipeline using the tools STRique and Megalodon for parallel detection of length, sequence, methylation and composition of the repeat loci. Clinical nanopore Cas9-targeted sequencing allowed for the precise and parallel analysis of 10 repeat loci associated with adult-onset ataxia and revealed additional parameter such as FMR1 promotor methylation and repeat sequence required for diagnosis at the same time. Using clinical nanopore Cas9-targeted sequencing we analysed 100 clinical samples of undiagnosed ataxia patients and identified causative repeat expansions in 28 patients. Parallel repeat analysis enabled a molecular diagnosis of ataxias independent of preconceptions on the basis of clinical presentation. Biallelic expansions within RFC1 were identified as the most frequent cause of ataxia. We characterized the RFC1 repeat composition of all patients and identified a novel repeat motif, AGGGG. Our results highlight the power of clinical nanopore Cas9-targeted sequencing as a readily expandable workflow for the in-depth analysis and diagnosis of phenotypically overlapping repeat expansion disorders.

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Source
http://dx.doi.org/10.1093/brain/awac377DOI Listing

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