Cytophotometric determination of the binding of basic dyes by DNA following acetylation

DNA was removed from various tissues by histochemical acetylation of amino groups in proteins using pure acetic anhydride, as demonstrated by cytophotometric (UV, Feulgen, gallocyanin chromalum) and biochemical techniques. Since new phosphate groups were simultaneously exposed, the intensity of methylene blue staining was increased in spite of the nucleic acid release. Under conditions where no extraction occurs the staining intensity increases for more than 30 per cent. On the other hand, the staining intensity of gallocyanin chromalum kept constant. As it had been demonstrated previously, that gallocyanin chromalum binds to about 86 per cent of the DNA phosphate groups, it was concluded that this dye binds to a higher percentage of phosphate groups than do the usual basic dyes. Since it is not possible under the conditions used to make all nucleic acid phosphate groups available for basic dye binding by blocking the amino groups of proteins it can be assumed that not only electrostatic, but also spatial and steric relationships influence the binding capacity of basic dyes to the phosphate groups of nucleoproteins.