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Merck

Staining of macromolecules: possible mechanisms and examples.

Biotechnic & histochemistry : official publication of the Biological Stain Commission (2009-04-23)
P Prentø
RESUMEN

This review is based on a presentation given at the Biological Stain Commission meeting in June 2008. I discuss staining as an interaction between dye, solvent, and biological macromolecules. Most staining takes place in water, where the physico-chemical properties of the macromolecules are particularly important. Staining from aqueous solution is summarized. The first step is diffusion-ion exchange, which builds up the dye ion concentration close to the appropriately charged tissue constituents. While charge interactions are important for selectivity and build-up of dye ions around specific tissue and cell constituents, they have in most cases little to do with actual dye binding. The next step, actual binding, is predominantly between aromatic and other non-polar parts of the dye and corresponding groups in the tissue constituent. This results in a reduction of the total hydrophobic area exposed to water, hence the term hydrophobic interaction. Because dye binding is predominantly by dispersive forces, the larger the aromatic dye system and the fewer the number of charges on the dye, the greater the substantivity or affinity. Some relatively straightforward anionic or cationic one-step staining systems are discussed also. These include amyloid staining with Congo red, elastin staining with orceins, collagen staining with picrofuchsin, DNA-RNA staining with methyl green-pyronin Y, acid heteroglycan staining with Alcian blue, and metachromatic staining.

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Sigma-Aldrich
Alcian Blue 8GX, for microscopy (Bact., Bot., Hist.)