A specific class of DNA sequences, the inverted repetitive sequences, forms hairpin-like structures in denatured DNA by the folding back of a single linear chain. The reassociation process of these sequences is unimolecular and the rate is extremely fast. Inverted repetitive sequences comprise 6% of the total human genome. They appear to be heterogeneous in length with an overall average length of 190 nucleotides. The inverted sequences are represented in almost all families of repetition frequencies, highly repetitive as well as very few copies per genome. They are not localized at unique sites on metaphase chromosomes. It is estimated that there are approximately 2 X 10(6) inverted repeats per haploid human genome. The biological function of this class of sequences is unknown.