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Literature DB >> 6157824

Dye binding mechanisms in G-banding of chromosomes.

Abstract

The mechanisms whereby Giemsa is bound to chromosomes to produce G-banding patterns have been studied. The magenta colour produced in chromosomes by Giemsa staining appears to be due to the same 2:1 thiazine-eosin compound that precipitates from Giemsa solutions. This precipitate is formed in chromosomes in regions in which DNA phosphates occur at the correct distance apart to bind two thiazine molecules, which are subsequently able to bind to the same eosin molecule. Banding appears to be produced as a result of this precipitation occurring preferentially in hydrophobic regions of chromosomes.

Entities: Chemical

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Year: 1980 PMID： 6157824 DOI： 10.1111/j.1365-2818.1980.tb04111.x

Source DB: PubMed Journal: J Microsc ISSN： 0022-2720 Impact factor: 1.758

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Cited

10 in total

1. Understanding Romanowsky staining. 2. The staining mechanism of suspension-fixed cells, including influences of specimen morphology on the Romanowsky-Giemsa effect.

Authors: R W Horobin; D Curtis; L Pindar
Journal: Histochemistry Date: 1989

Review 6. On the nature of Romanowsky--Giemsa staining and its significance for cytochemistry and histochemistry: an overall view.

Authors: D H Wittekind
Journal: Histochem J Date: 1983-10

7. Chromosome banding: specification of structural features of dyes giving rise to G-banding.

Authors: D Curtis; R W Horobin
Journal: Histochem J Date: 1982-11

8. Photosensitizing dyes and fluorochromes as substitutes for 33258 Hoechst in the fluorescence-plus-Giemsa (FPG) chromosome technique.

Authors: M J Hazen; A Villanueva; A Juarranz; M Cañete; J C Stockert
Journal: Histochemistry Date: 1985

9. Some observations on the mechanisms of blocking of nuclear staining by cisplatin.

Authors: A T Sumner
Journal: Histochem J Date: 1982-03

10. Understanding Romanowsky staining. I: The Romanowsky-Giemsa effect in blood smears.

Authors: R W Horobin; K J Walter
Journal: Histochemistry Date: 1987

10 in total

Dye binding mechanisms in G-banding of chromosomes.

1. Understanding Romanowsky staining. 2. The staining mechanism of suspension-fixed cells, including influences of specimen morphology on the Romanowsky-Giemsa effect.

2. Understanding microwave-stimulated Romanowsky--Giemsa staining of plastic embedded bone marrow.

3. Mechanisms of quinacrine binding and fluorescence in nuclei and chromosomes.

4. The involvement of nucleosomes in Giemsa staining of chromosomes. A new hypothesis on the banding mechanism.

5. Protein-depleted chromosomes. II. Experiments concerning the reality of chromosome scaffolds.

Review 6. On the nature of Romanowsky--Giemsa staining and its significance for cytochemistry and histochemistry: an overall view.

7. Chromosome banding: specification of structural features of dyes giving rise to G-banding.

8. Photosensitizing dyes and fluorochromes as substitutes for 33258 Hoechst in the fluorescence-plus-Giemsa (FPG) chromosome technique.

9. Some observations on the mechanisms of blocking of nuclear staining by cisplatin.

10. Understanding Romanowsky staining. I: The Romanowsky-Giemsa effect in blood smears.