Application of Long-Read Nanopore Sequencing to the Search for Mutations in Hypertrophic Cardiomyopathy

Author:

Salakhov Ramil R.ORCID,Golubenko Maria V.,Valiakhmetov Nail R.,Pavlyukova Elena N.,Zarubin Aleksei A.,Babushkina Nadezhda P.,Kucher Aksana N.,Sleptcov Aleksei A.ORCID,Nazarenko Maria S.

Abstract

Increasing evidence suggests that both coding and non-coding regions of sarcomeric protein genes can contribute to hypertrophic cardiomyopathy (HCM). Here, we introduce an experimental workflow (tested on four patients) for complete sequencing of the most common HCM genes (MYBPC3, MYH7, TPM1, TNNT2, and TNNI3) via long-range PCR, Oxford Nanopore Technology (ONT) sequencing, and bioinformatic analysis. We applied Illumina and Sanger sequencing to validate the results, FastQC, Qualimap, and MultiQC for quality evaluations, MiniMap2 to align data, Clair3 to call and phase variants, and Annovar’s tools and CADD to assess pathogenicity of variants. We could not amplify the region encompassing exons 6–12 of MYBPC3. A higher sequencing error rate was observed with ONT (6.86–6.92%) than with Illumina technology (1.14–1.35%), mostly for small indels. Pathogenic variant p.Gln1233Ter and benign polymorphism p.Arg326Gln in MYBPC3 in a heterozygous state were found in one patient. We demonstrated the ability of ONT to phase single-nucleotide variants, enabling direct haplotype determination for genes TNNT2 and TPM1. These findings highlight the importance of long-range PCR efficiency, as well as lower accuracy of variant calling by ONT than by Illumina technology; these differences should be clarified prior to clinical application of the ONT method.

Funder

Russian Science Foundation

Publisher

MDPI AG

Subject

Inorganic Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Computer Science Applications,Spectroscopy,Molecular Biology,General Medicine,Catalysis

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