Abstract
Next-generation sequencing (NGS) is a revolutionary sequencing technology for analyzing genomes. However, preprocessing methods for mitochondrial DNA (mtDNA) sequencing remain complex, and it is required to develop an authenticated preprocessing method. Here, we developed a simple and easy preprocessing method based on isothermal rolling circle mtDNA amplification using commercially available reagents. Isothermal amplification of mtDNA was successfully performed using both nanoliter quantities of plasma directly and 25 ng of total DNA extracted from blood or tissue samples. Prior to mtDNA amplification, it was necessary to treat the extracted total DNA with Exonuclease V, but it was not required to treat plasma. The NGS libraries generated from the amplified mtDNA provided sequencing coverage of the entire human mitochondrial genome. Furthermore, the sequencing results successfully detected heteroplasmy in patient samples, with called mutations and variants matching those from previous, independent, Sanger sequencing analysis. Additionally, a novel single nucleotide variant was detected in a healthy volunteer. The successful analysis of mtDNA using very small samples from patients is likely to be valuable in clinical medicine, as it could reduce patient discomfort by reducing sampling-associated damage to tissues. Overall, the simple and convenient preprocessing method described herein may facilitate the future development of NGS-based clinical and forensic mtDNA tests.
Highlights
Next-generation sequencing (NGS) is a revolutionary sequencing technology for analyzing genomes
The accuracy of NGS analysis is affected by factors such as GC bias[11] and nuclear mitochondrial DNA sequences (Numts), which can vary in sequence and copy number[12,13,14]
Isothermal amplification directly using plasma amplified sequences spanning most of the mitochondrial DNA (mtDNA) with coverage of 50 reads at minimum, and as many as 95.99% of the reads mapped to mitochondrial sequence (Fig. 1A, Supplementary Fig. 3)
Summary
Next-generation sequencing (NGS) is a revolutionary sequencing technology for analyzing genomes. Preprocessing methods for mitochondrial DNA (mtDNA) sequencing remain complex, and it is required to develop an authenticated preprocessing method. Isothermal amplification of mtDNA was successfully performed using both nanoliter quantities of plasma directly and 25 ng of total DNA extracted from blood or tissue samples. The NGS libraries generated from the amplified mtDNA provided sequencing coverage of the entire human mitochondrial genome. The simple and convenient preprocessing method described may facilitate the future development of NGS-based clinical and forensic mtDNA tests. Next-generation sequencing (NGS) is a revolutionary[1] sequencing technology for analyzing genomes or transcripts on a large scale and is currently being used in many research fields. The accuracy of NGS analysis is affected by factors such as GC bias[11] and nuclear mitochondrial DNA sequences (Numts), which can vary in sequence and copy number[12,13,14]
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