Origins of polymorphism at a polypurine hypervariable locus.

We present characterisation of a hypervariable locus, D8S210, mapped to the telomeric region of the short arm of chromosome 8. The locus is highly polymorphic with alleles varying in size from 1.8 kb to 24 kb. Sequence data from 7 alleles shows that the variable region is entirely polypurine on one strand with a tetranucleotide repeating unit GGAA at the margins and diverged versions of this motif internally. The margins are conserved between alleles; polymorphism occurring in the internal regions of the repeat. Alleles are inherited in a Mendelian manner and one new mutation has been observed in analysis of 51 meioses. Use of single copy flanking sequences to elaborate the polymorphism revealed loss of single copy DNA in 3 unrelated families and in 2 other unrelated individuals. Restriction mapping shows that this loss is similar for different sized alleles in all three families suggesting that it was an early event that may have involved a flanking Alu sequence. We present evidence that the polypurine region can adopt triplex conformations in vitro. Such structures may facilitate loss or gain of unique sequences in the genome, contribute to mutation at conformation transition points and drive the hypervariability (> 99% heterozygosity) of this locus.