Interspersion of repetitive and non-repetitive DNA sequences in the sea urchin genome

Abstract

Measurements are reported which lead to the conclusion that repetitive and nonrepetitive sequences are intimately interspersed in the majority of the DNA of the sea urchin, Strongylocentrotus purpuratus. Labeled DNA was sheared to various lengths, reassociated with a great excess of 450 nucleotide-long fragments to cot 20, and the binding of the labeled DNA to hydroxyapatite was measured. Repetitive sequences measured in this way are present on about 42% of the 450 nucleotide-long fragments. As the DNA fragment length is increased, larger and larger fractions of the fragments contain repetitive sequences. Analysis of the measurements leads to the following estimate of the quantitative features of the pattern of interspersion of repetitive and nonrepetitive sequences. About 50% of the genome consists of a short-period pattern with 300–400 nucleotide average length repetitive segments interspersed with about 1000 nucleotide average length nonrepetitive segments. Another 20% or more consists of a longer period interspersed pattern. About 6% of the genome is made up of relatively long regions of repetitive sequences. The remaining 22% of the genome may be uninterrupted single copy DNA, or may have more widely spaced repeats interspersed. The similarity of these results to previous measurements with the DNA of an amphibian suggests that this interspersion pattern is of general occurrence and selective importance.