Abstract
Mitochondrial DNA (mtDNA) serves as a powerful tool for exploring matrilineal phylogeographic ancestry, as well as for analyzing highly degraded samples, because of its polymorphic nature and high copy numbers per cell. The recent advent of complete mitochondrial genome sequencing has led to improved techniques for phylogenetic analyses based on mtDNA, and many multiplex genotyping methods have been developed for the hierarchical analysis of phylogenetically important mutations. However, few high-resolution multiplex genotyping systems for analyzing East-Asian mtDNA can be applied to extremely degraded samples. Here, we present a multiplex system for analyzing mitochondrial single nucleotide polymorphisms (mtSNPs), which relies on a novel amplified product-length polymorphisms (APLP) method that uses inosine-flapped primers and is specifically designed for the detailed haplogrouping of extremely degraded East-Asian mtDNAs. We used fourteen 6-plex polymerase chain reactions (PCRs) and subsequent electrophoresis to examine 81 haplogroup-defining SNPs and 3 insertion/deletion sites, and we were able to securely assign the studied mtDNAs to relevant haplogroups. Our system requires only 1×10−13 g (100 fg) of crude DNA to obtain a full profile. Owing to its small amplicon size (<110 bp), this new APLP system was successfully applied to extremely degraded samples for which direct sequencing of hypervariable segments using mini-primer sets was unsuccessful, and proved to be more robust than conventional APLP analysis. Thus, our new APLP system is effective for retrieving reliable data from extremely degraded East-Asian mtDNAs.
Highlights
Mitochondrial DNA is a powerful tool for exploring matrilineal phylogeographic ancestry, as well as for analyzing highly degraded samples, because of its polymorphic nature and high copy numbers per cell
The results of the preliminary analyses revealed that 3 out of 12 samples could be assigned to relevant haplogroups using the conventional amplified product-length polymorphisms (APLP) system: sample B192 assigned to haplogroup N9b, sample B516C to haplogroup M7a, and sample B516D to haplogroup M7a; only one sample (B192), which is ascribed to the early Kofun period, could be analyzed by direct sequencing
Electrophoresis, our new APLP system correctly identified the genealogy of the Mitochondrial DNA (mtDNA) with known haplogroups
Summary
Mitochondrial DNA (mtDNA) is a powerful tool for exploring matrilineal phylogeographic ancestry, as well as for analyzing highly degraded samples, because of its polymorphic nature and high copy numbers per cell. Few multiplex genotyping systems for analyzing East-Asian mtDNA lineage can be applied to extremely degraded samples [2, 5,6,7]. Even in these studies, haplogroup D, which exhibits the highest frequency and incidence of variations in many East-Asian populations, is not sufficiently classified. Conventional mtAPLP systems examine 35 haplogroup-diagnostic mtSNPs and a 9-bp repeat variation in the non-coding cytochrome oxidase II/tRNALys intergenic region This number of polymorphic sites is too small for classifying mtDNAs to sub-haplogroup level without using the sequence data of the hypervariable segments (HVS). We present a novel multiplex inosine-flapped APLP system that is designed for haplogrouping extremely degraded East-Asian mtDNAs
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