Mechanisms of giemsa banding of chromosomes. I. Giemsa-11 banding with azure and eosin.

Two components of Giemsa are necessary to obtain Giemsa-11 banding. These are an azure (either azure A or B) and eosin Y. The conditions under which azure and eosin interact to differentiate 9qh and other magenta-colored regions involve: (1) the absolute concentrations and ratio of the two dyes; (2) the pH and, to a lesser extent (3) the buffer composition of the staining solution. Differentiation is accompanied by the presence of magenta-colored precipitate, the formation of which is altered by any of the above-mentioned conditions. The absorption spectra of magentacolored and adjacent pale blue regions, measured in situ, show a significant change from those of dye mixtures and dye components in solution. These changes suggest the formation of an azure-eosinate complex. At neutral pH, differentiation of magenta-colored regions is not successful under conditions which denature DNA; e.g. (1) high temperatures; or (2) incubation in formamide. At alkaline pH (11.6), neither moderately high temperature nor fixation of chromosomes with formalin appears to affect Giemsa-11 banding. Thus, differential denaturation of DNA does not appear to play a key role.