Gallocyanin-Chrome Alum: I. Technique and Specificity

Abstract

Certain technical aspects of gallocyanin-chrome alum were examined relative to its supposed specificity for nucleic acids. Five different lake formulae were prepared using four different batches of gallocyanin. Spectrophotometric curves were made of each lake and of each dye in a simple water solution. Paraffin sections 6-8 μ thick of spinal cords from albino rats and from cats fixed in CaCl₂-formalin or plain formalin were stained 10 min to 48 hr with gallocyanin lakes made with chrome alum, ferric alum, strontium chloride and copper nitrate. Similar sections were treated with ribonuclease or perochloric acid and stained in the same manner. The spectrophotometric data indicates considerable variation in dye content between different batches and different lakes. Chrome alum was the best of the 4 mordants and a 12-15 hr staining time with Einarson's 1932 preparation was optimal. Neither perchloric acid nor ribonuclease destroyed cytoplasmic basophilia as revealed by gallocyaninchrome alum. Staining was more intense after CaCl₂-formalin fixation than after plain formalin. Variation of the dye content in the different batches of dyes, the poorly understood role of boiling in preparing the lakes, and the inability of ribonuclease or perchloric acid to destroy cytoplasmic basophilia indicates that we are not dealing with a histochemically specific reagent for nucleic acid, but only a desirable nuclear stain.