While the current distribution of lactase persistence in Eurasia and the African Fulbe seems to be due to the dispersion of a single mutation, it is still unclear what is the significance of the recent finding that –13910*T allele is absent from most African populations in which high frequencies of lactase persistence have been previously found with physiological tests (Mulcare et al. 2004).Human Genetics (online first)
Microsatellite variation and evolution of human lactase persistence
Margarida Coelho et al.
Abstract The levels of haplotype diversity within the lineages defined by two single-nucleotide polymorphisms (SNPs) (–13910 C/T and –22018 G/A) associated with human lactase persistence were assessed with four fast-evolving microsatellite loci in 794 chromosomes from Portugal, Italy, Fulbe from Cameroon, São Tomé and Mozambique. Age estimates based on the intraallelic microsatellite variation indicate that the –13910*T allele, which is more tightly associated with lactase persistence, originated in Eurasia before the Neolithic and after the emergence of modern humans outside Africa. We detected significant departures from neutrality for the –13910*T variant in geographically and evolutionary distant populations from southern Europe (Portuguese and Italians) and Africa (Fulbe) by using a neutrality test based on the congruence between the frequency of the allele and the levels of intraallelic variability measured by the number of mutations in adjacent microsatellites. This result supports the role of selection in the evolution of lactase persistence, ruling out possible confounding effects from recombination suppression and population history. Reevaluation of the available evidence on variation of the –13910 and –22018 loci indicates that lactase persistence probably originated from different mutations in Europe and most of Africa, even if 13910*T is not the causal allele, suggesting that selective pressure could have promoted the convergent evolution of the trait. Our study shows that a limited number of microsatellite loci may provide sufficient resolution to reconstruct key aspects of the evolutionary history of lactase persistence, providing an alternative to approaches based on large numbers of SNPs.