Abstract
Background: The genetic composition of human North African populations is an amalgam of different ancestral components coming from the Middle East, Europe, south-Saharan Africa and autochthonous to North Africa. This complex genetic pattern is the result of migrations and admixtures in the region since Palaeolithic times. Aims: The objective of the present study is to refine knowledge of the population history of North African populations through the analysis of complete mitochondrial sequences. Subjects and methods: This study has sequenced complete mitochondrial DNAs (mtDNAs) in several North African and neighbouring individuals. Results: The mtDNA haplogroup classification and phylogeny shows a high genetic diversity in the region as a result of continuous admixture. The phylogenetic analysis allowed us to identify a new haplogroup characterised by positions 10 101 C and 146 C (H1v2), a sub-branch of H1v, which is restricted to North Africa and whose origins are estimated as ∼4000 years ago. Conclusions: The analysis of the complete mtDNA genome has allowed for the identification of a North African sub-lineage that might be ignored by the analysis of partial mtDNA control region sequences, highlighting the phylogeographic relevance of mtDNA complete sequence analysis.
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Font-Porterias, N., Solé-Morata, N., Serra-Vidal, G., Bekada, A., Fadhlaoui-Zid, K., Zalloua, P., … Comas, D. (2018). The genetic landscape of Mediterranean North African populations through complete mtDNA sequences. Annals of Human Biology, 45(1), 98–104. https://doi.org/10.1080/03014460.2017.1413133
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