Synopsis
The coloured components in the high-iron diamine dye bath were separated into three fractions using column chromatography on Sephadex G-10. These fractions were called Fraction I, II and III in order of their emergence from the column. From atomic absorption measurements, part of Fraction I was found to be free of iron. Most of Fraction II and the whole of Fraction III contained only trace amounts of iron. Therefore, the three Fractions were investigated further. All experiments were carried out at pH 1.4 (corresponding to the pH of the original high-iron diamine bath).
Fraction I was violet, Fraction II red-violet and Fraction III aniline-red; the extinction maxima in the visible region were 560, 526 and 540 nm respectively. On electrophoresis, the Fractions were not quite homogeneous, although most of Fractions I and II migrated in the same front and much faster than Fraction III. The high-iron diamine solution separated into two main fractions, one of which corresponded in colour and velocity to Fractions I and II and the other to Fraction III.
In histochemical experiments, Fractions I, II and III bound to tissue sites containing sulphated mucosaccharides or nucleic acids; from histochemical enzyme digestion tests or by using purified materials in spot tests on cellulose acetate membrane, it was confirmed that the diamines were bound to RNA and DNA. However, when ferric chloride was added to any of the Fractions in an amount corresponding to that in the original high-iron diamine dye bath, the binding to tissue sites containing nucleic acids was inhibited but the reaction with sulphated mucosubstances was not affected. Also, in the presence of added ferric chloride, the ‘anomalous’ binding of Fraction I to carboxyl groups of mouse sublingual gland sialomucin was prevented.
It is concluded that ferric chloride in the high-iron diamine dye bath prevents diamine complexes from binding with nucleic acids, and apparently with carboxymucins too. Further, this conclusion substantiates our previous observations of the central role ferric chloride plays in making the histochemical high-iron diamine technique specific for sulphated mucosubstances.
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Sorvari, T.E., Arvilommi, H.S. Some chemical, physical and histochemical properties of three diamine fractions obtained by gel chromatography from the high-iron diamine staining solution used for localizing sulphated mucosaccharides. Histochem J 5, 119–130 (1973). https://doi.org/10.1007/BF01012554
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DOI: https://doi.org/10.1007/BF01012554