The use of antinucleoside antibodies to probe the organization of chromosomes denatured by ultraviolet irradiation

Ultraviolet irradiation of methanol: acetic acid-fixed human and mouse metaphase chromosomes rendered them capable of binding antibodies specific for purine or pyrimidine bases. Since these antibodies react with single-stranded but not with native DNA, our results indicate that UV irradiation generated single-stranded regions in chromosomal DNA. Using an indirect immuno-fluorescence technique to detect antibody binding, highly characteristic, nonrandom patterns of antibody binding were observed. Antibodies to adenosine (anti-A) and thymidine (anti-T) produced identical patterns of binding which in most respects matched the chromosome banding patterns produced by quinacrine. However, additional foci of intense fluorescence were seen in the paracentromeric regions of constitutive heterochromatin on chromosomes 1, 9 and 16, regions which had been shown by in situ DNA-RNA hybridization to be the locations of AT-rich human satellite DNA. Antibodies to cytidine also bound to the same region of chromosome 9. In mouse chromosome preparations, both anti-A and anti-T produced bright fluorescence of the region containing centromeric heterochromatin, which had been shown to be the location of the AT-rich satellite DNA of this species.