The Feulgen banded karyotype of the mouse: analysis of the mechanisms of banding

The chromosomes of the mouse have been identified by specific banding patterns revealed by the Feulgen stain. Comparison of the patterns of the Feulgen-stained karyotype with those of acetic-saline-Giemsa stain and quinacrinemustard-fluorescence demonstrates a high order of similarity among the three, with the localization of Feulgen dense bands and regions closely paralleling that of Giemsa dark and fluorescence bright bands. Since the stained substrate of the Feulgen reaction is known to be DNA, it is suggested that all three banding methods reveal the distribution of DNA or of some moiety that closely follows DNA distribution in metaphase chromosomes. The preparative procedure of the Feulgen banding method consists of a 15 to 20 minute exposure to PO₄ buffer at pH 10 and a prolonged (60–72 hrs) exposure to 12xSSC. Omission or curtailment of either step results in preparations with chromosome sets that are not karyotypable, although some stain differentiation is produced. HCl extraction prior to the preparative treatment blocks banding, but acid extraction following the preparative treatment, either that of the HCl hydrolysis of the Feulgen reaction of that of an almost fourfold extension of the standard hydrolysis time, does not obliterate bands already formed. By extrapolation from biochemical studies of chromatin, it is postulated that the localization of Feulgen dark and light stain, representing relative DNA densities, reflects the regional protein association of the DNA; the Feulgen dense regions may result from aggregation of a specific class of histones by the alkaline buffer with consequent condensation of the DNA bound to those histones; the Feulgen pale or negative regions may represent those in which non-aggregated proteins, histone and non-histone, have been solubilized in the saline incubation, rendering the DNA of those regions subject to diffusion or vulnerable to fragmentation in the Feulgen hydrolysis.