Slipped-strand mispairing at noncontiguous repeats in Poecilia reticulata: a model for minisatellite birth

The standard slipped-strand mispairing (SSM) model for the formation of variable number tandem repeats (VNTRs) proposes that a few tandem repeats, produced by chance mutations, provide the "raw material" for VNTR expansion. However, this model is unlikely to explain the formation of VNTRs with long motifs (e.g., minisatellites), because the likelihood of a tandem repeat forming by chance decreases rapidly as the length of the repeat motif increases. Phylogenetic reconstruction of the birth of a mitochondrial (mt) DNA minisatellite in guppies suggests that VNTRs with long motifs can form as a consequence of SSM at noncontiguous repeats. VNTRs formed in this manner have motifs longer than the noncontiguous repeat originally formed by chance and are flanked by one unit of the original, noncontiguous repeat. SSM at noncontiguous repeats can therefore explain the birth of VNTRs with long motifs and the "imperfect" or "short direct" repeats frequently observed adjacent to both mtDNA and nuclear VNTRs.

Estimating African American admixture proportions by use of population-specific alleles

We analyzed the European genetic contribution to 10 populations of Africans descent in the United States (Maywood, Illinois; Detroit; New York; Philadelphia; Pittsburgh; Baltimore; Charleston, South Carolina; New Orleans; and Houston) and in Jamaica, using nine autosomal DNA markers. These markers either are population-specific or show frequency differences >45 percent between the parental populations and are thus especially informative for admixture. European genetic ancestry ranged from 6.8 percent (Jamaica) to 22.5 percent (New Orleans). The unique utility of these markers is reflected in the low variance associated with these admixture estimates (SEM 1.3 percent -2.7 percent). We also estimated the male and female European contribution to African Americans. on the basis of informative mtDNA (haplogroups H and L) and Y Alu polymorphic markers. Results indicate a sex-biased gene flow from Europeans, the male contribution being substantially greater that the female contribution. mtDNA haplogroups analysis shows no evidence of a significant maternal Amerindian contribution to any of the 10 populations. We detected significant nonrandom association between two markers located 22 cM apart (FY-null and AT3), most likely due to admixture linkage disequilibrium created in the interbreeding of the two parental populations. The strength of this association and the substantial genetic distance between FY and AT3 emphasize the importance of admixed populations as a useful resources for mapping traits with different prevalence in two parental populations (AU)

Mitochondrial DNA polymorphis in three Antillean island populations of the fruit bat, Artibeus jamaicensis

The Neotropical fruit bat, Artibeus jamaicensis, occurs throughout Latin America and on many islands in the Caribbean. Populations from Jamaica (in the Greater Antilles) to Barbados (in the Lesser Antilles) have been classified as a subspecies (A. J. jamaicensis) separate from that on the Lesser Antillean island of St. Vincent (A. j. schwartz). Mitochondrial DNA (mtDNA) was isolated from 54 individuals collected on these islands, analyzed by digestion with restriction endonucleases, and the restriction sites were mapped. Three different mtDNA genotypes (16,000 ñ 200 bp) were identified: J-i (16 animals from Jamaica, one from St. Vincent, 15 from Barbados), 1-2 (two animals from Jamaica), and SV -1 (18 animals from St. Vincent, two from Barbdos). The J-1 and J-2 genotypes were estimated to differ from each other by only 0.4 percent, but the SV-1 genotype differ from J-1 and J-2 by 8.1 percent-10.5 percent. The estimated sequence divergence between SV-1 and J-1 unusually large for mammals that are regarded as conspecific. Restriction mapping showed that the differences among the genotypes (presence or abscence of particular restriction site) were located throughout the genome. The presence of the J-1 mtDNA genotype on Jamaica and on St. Vincent and Barbados (1,400 km away) demonstrates that maternal lineages in these bats are not necessarily confined to single islands or limited geographic regions. The presence of the J-1 mt DNA genotype within the A. j. schwartzi population on St. Vincent and the presence of the SV-1 genotype in two specimens of A. j. jamaicensis from Barbados document genetic exchange between subspecific populations on these islands, which are separated by 180 km of open water (AU)