Analysis of the alpha-satellite DNA from African green monkey cells by restriction nucleases.

By the use of restriction endonucleases the organization of the alpha-satellite DNA from African green monkey cells (Cercopithecus aethiops) has been analyzed. With endo R-HindIII, endo R-AluI and with endo R-EcoRI at conditions of low salt and high pH (endo R-EcoRI) all of the satellite was digested while only a part of the satellite was cleaved with endo R-Bsu and endo R-EcoRI under standard conditions. With each of the four nucleases a series of fragments was formed which were multiplies in size of a basic repeat unit linked in tandem arrays in the intact satellite. The quantitative evaluation of the digestion with each nuclease as well as with combinations of two nucleases yielded information about the distribution of the cleavage sites. While the arrangement of the endo R-HindIII cleavage sites conforms to a random distribution across the entire satellite, the results from the endo R-Bsu and endo R-EcoRI cleavage patterns are consistent with a picture where the cleavage sites are clustered in fractions of the satellite. Since endo R-AluI recognizes the central four nucleotide pairs of the endo R-HindIII cleavage site, the redigestion of the endo R-HindIII dimer with endo R-AluI gave information about the distribution of mutations in the satellite. The results of these experiments together with the comparison of the sequence divergence determined from digestion with endo R-HindIII and endo R-EcoRI lend support to the hypothesis that mutations have affected all bases in the satellite evenly. The gamma-satellite, another fraction of the African green monkey DNA, could be separated by Ag+/CsSO4 density gradient centrifugation into two components. With the three restriction nucleases used both components gave a background of fragments of heterogenous length on gel electrophoresis with some faint bands of no apparent regularity in one case.