Objectives: To analyze the mitochondrial diversity in three admixed populations and evaluate the historical migration effect of native southern population movement to Santiago (capital of Chile). The intensity of migration was quantified using three mitochondrial lineages restricted to South-Central native groups.
Methods: D-loop sequences were genotyped in 550 unrelated individuals from San Felipe-Los Andes (n = 108), Santiago (n = 217), and Concepción (n = 225). Sequence processing, alignment, and haplogroup inference were carried out, and different genetic structure analyses were performed for haplogroup frequencies and D-loop sequences.
Results: The Native lineages B2i2, C1b13, and D1g were the most frequent haplogroups, especially in Santiago (71.8%). Despite the distance, this city showed a high-genetic affinity with southern populations, including Concepción (~500 km distant) and native groups, rather than with those from San Felipe-Los Andes (<100 km distant). In fact, there was a negative correlation between geographical and genetic distance among these cities (r corr = -0.5593, p value = 0.8387). Network analysis revealed shared haplotypes between Santiago, Concepción, and other southern populations. Finally, we found lineages from Concepción acting as ancestral nodes in the northern clade.
Conclusions: Considering the geographic distances from these cities, the results were not consistent with a model of genetic isolation by geographic distance, revealing the effects of a historical migration process from the south to the capital. We also show evidence of possible north-to-south migration during admixture onset in Concepción and in addition, we were able to identify previously unreported mitochondrial diversity in urban populations that became lost in Native groups post-European contact.
Keywords: D‐loop; genetic flow; mitochondrial haplogroups; native groups; present‐day populations.
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