Evolutionary correlation between control region sequence and restriction polymorphisms in the mitochondrial genome of a large senegalese mandenka sample

Abstract

We present here the first comparative analysis at the population level between Restriction Fragment Length Polymorphism (RFLP) and control region sequence polymorphism in a large and homogeneous Senegalese Mandenka sample. Eleven RFLP haplotypes and 60 different sequences are found in 119 individuals, revealing that a very high level mtDNA diversity can be maintained in a small population. A sequence neighbor-joining tree and an analysis of molecular variance show thai sequences associated with a given restriction haplotype are evolutionarily highly correlated: sequencing generally leads to the subtyping of RFLP haplotypes. Evolutionary relationships among RFLP haplotypes inferred from restriction site differences are in good agreement with those inferred from sequence data. A single difference is observed and is likely due to a single restriction homoplasy having occurred in the control region. Selective neutrality tests on both RFLP and sequence data accept the hypotheses of mtDNA neutrality and population equilibrium. The deep coalescence times (exceeding 50,000 yr) of sequences associated with the two most frequent restriction haplotypes confirm that the Niokolo Mandenka population has not passed through a recent bottleneck and thai gene flow is maintained among West African populations despite ethnic differences.