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Literature DB >> 6179905

Physico-chemical mechanism of the argyrophil III reaction.

Abstract

Because there are several points of physico-chemical similarity between the argyrophil I reaction (formation of metallic silver grains by reducing groups of the tissue) and the argyrophil III reaction (formation of metallic silver grains by reducing groups existing in a dissolved state) a similarity between their mechanisms is also assumed. The electrochemical half processes of the argyrophil III reaction (i.e. the transformation of tissue-adsorbed reducing molecules into their oxidized form, and the reduction of silver ions to silver atoms) take place separately in space, while the electrons released in the former half reaction are transported by the semiconduction bands of the tissue to the catalytic points where the metallic silver grains are forming.

Entities: Chemical

Mesh：

Substances：
Silver

Year: 1982 PMID： 6179905 DOI： 10.1007/BF00493440

Source DB: PubMed Journal: Histochemistry ISSN： 0301-5564

19 in total

Review 1. Formation of "dark" (argyrophilic) neurons of various origin proceeds with a common mechanism of biophysical nature (a novel hypothesis).

Authors: F Gallyas; G Zoltay; W Dames
Journal: Acta Neuropathol Date: 1992 Impact factor: 17.088

5. A silver-reducing component in rat striated muscle. I. Selective localization at the level of the terminal cistern/transverse tubule system. Light and electron microscope studies with a new histochemical procedure.

Authors: C J Tandler; A Pellegrino de Iraldi
Journal: Histochemistry Date: 1989

6. An immediate light microscopic response of neuronal somata, dendrites and axons to non-contusing concussive head injury in the rat.

Authors: F Gallyas; G Zoltay
Journal: Acta Neuropathol Date: 1992 Impact factor: 17.088

7. Oxalate pretreatment and use of a physical developer render the Kossa method selective and sensitive for calcium.

Authors: F Gallyas; J R Wolff
Journal: Histochemistry Date: 1985

7 in total

Physico-chemical mechanism of the argyrophil III reaction.

1. [Histochemistry of islands of Langerhans].

2. [The histochemical demonstration of normal heavy metals in the liver].

3. [Colloidal chemistry of Giroud-Leblond's ascorbic acid test].

4. Kinetics of formation of metallic silver and binding of silver ions by tissue components.

5. Factors affecting the formation of metallic silver and the binding of silver ions by tissue components.

6. Chemical nature of the first products (nuclei) of the argyrophil staining.

7. The study of bone tissue with new argyrophilic techniques.

8. Physico-chemical mechanism of the argyrophil I reaction.

9. An argyrophil III method for the demonstration of fibrous neuroglia.

10. An argyrophil III method for the demonstration of micro- and oligodendroglia.

Review 1. Formation of "dark" (argyrophilic) neurons of various origin proceeds with a common mechanism of biophysical nature (a novel hypothesis).

2. Golgi-like demonstration of "dark" neurons with an argyrophil III method for experimental neuropathology.

3. Physico-chemical mechanism of the argyrophil I reaction.

4. Equations of the mass-time relationship of the argyrophil I and argyrophil III reactions.

5. A silver-reducing component in rat striated muscle. I. Selective localization at the level of the terminal cistern/transverse tubule system. Light and electron microscope studies with a new histochemical procedure.

6. An immediate light microscopic response of neuronal somata, dendrites and axons to non-contusing concussive head injury in the rat.

7. Oxalate pretreatment and use of a physical developer render the Kossa method selective and sensitive for calcium.