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High throughput screening for expanded CTG repeats in myotonic dystrophy type 1 using melt curve analysis
Author(s) -
Butterfield Russell J.,
Imburgia Carina,
Mayne Katie,
Newcomb Tara,
Dunn Diane M.,
Duval Brett,
Feldkamp Marcia L.,
Johnson Nicholas E.,
Weiss Robert B.
Publication year - 2021
Publication title -
molecular genetics and genomic medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.765
H-Index - 29
ISSN - 2324-9269
DOI - 10.1002/mgg3.1619
Subject(s) - myotonic dystrophy , amplicon , population , genetics , allele , microsatellite , trinucleotide repeat expansion , biology , microbiology and biotechnology , medicine , polymerase chain reaction , gene , environmental health
Background Myotonic dystrophy type 1 (DM1) is caused by CTG repeat expansions in the DMPK gene and is the most common form of muscular dystrophy. Patients can have long delays from onset to diagnosis, since clinical signs and symptoms are often nonspecific and overlapping with other disorders. Clinical genetic testing by Southern blot or triplet‐primed PCR (TP‐PCR) is technically challenging and cost prohibitive for population surveys. Methods Here, we present a high throughput, low‐cost screening tool for CTG repeat expansions using TP‐PCR followed by high resolution melt curve analysis with saturating concentrations of SYBR GreenER dye. Results We determined that multimodal melt profiles from the TP‐PCR assay are a proxy for amplicon length stoichiometry. In a screen of 10,097 newborn blood spots, melt profile analysis accurately reflected the tri‐modal distribution of common alleles from 5 to 35 CTG repeats, and identified the premutation and full expansion alleles. Conclusion We demonstrate that robust detection of expanded CTG repeats in a single tube can be achieved from samples derived from specimens with minimal template DNA such as dried blood spots (DBS). This technique is readily adaptable to large‐scale testing programs such as population studies and newborn screening programs.