In the present study, we evaluated the ability of the Virtual Analysis Method for Phylogenomic fingerprint Estimation (VAMPhyRE) toolkit to classify human mitochondrial DNA (mtDNA) haplogroups. In total, 357 random mtDNA sequences were obtained from different haplogroups, based on the classification of PhyloTree. Additionally, we included a control group of five sequences (Pan paniscus, Pan troglodytes, Homo sapiens neanderthalensis, Yoruba15, and the revised Cambridge reference sequence). VAMPhyRE employs a virtual hybridization technique, using probes that specifically bind to their complementary sequences in the genome. We used 65,536 probes of 8 nucleotides to identify potential sites where hybridization occurs between the mtDNA and the specific probe, forming different heteroduplexes and thus, creating a unique and specific genomic fingerprint for each sequence. Genomic fingerprints were compared, and a table of distances was calculated to obtain a mitochondrial phylogenomic tree with the macrohaplogroups, L, N, M, and R, and their corresponding haplogroups, according to universal nomenclature. The results obtained suggest an accuracy of 97.25% for the distribution of the 357 mtDNA sequences in the four macrohaplogroups and their corresponding haplogroups when compared with other mtDNA classification tools that require reference sequences and do not offer an analysis based on an evolutionary approach. These data are available online at http://biomedbiotec.encb.ipn.mx/VAMPhyRE/.
Keywords: Haplogroup; Mitochondrial DNA; Phylogenomic tree; VAMPhyRE; Virtual genome fingerprints.
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