A rapid FISH technique for quantitative microscopy.

Results of quantitative microscopy for fluorescence in situ hybridization (FISH) signals with repetitive DNA probes (pUC 1.77 and D15Z1) are reported. A nonenzymatic hybridization technique was applied using fluorescein-12-dUTP labeled DNA probes and a buffer system not containing any formamide or equivalent chemical denaturing agents. Following thermal denaturation, the renaturation time was reduced to less than 30 min. The number of wash steps was reduced to one. For the pUC 1.77 probe, the major binding sites (chromosome 1) were distinguished from the minor binding sites by means of fluorescence intensity and spot size. The intensity variation of the two brightest FISH spots (major binding sites) in the same metaphase was 19% for 15 min renaturation time and 16% for 30 min renaturation time. For the D15Z1 probe, generally four bright spots were visible and tentatively assigned according to chromosome length and centromere position (chromosomes 15 and 9). The intensity variation of each two homologues in the same metaphase spread showed a coefficient of variation of 47% (15 min) and 22% (30 min) for chromosome 15, and 19% (15 min) and 15% (30 min) for chromosome 9. The results indicate that the applied technique can considerably accelerate the FISH procedure and is suited for quantitative microscopy.