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Literature DB >> 51710

Mechanisms of chromosome banding. VII. Interaction of methylene blue with DNA and chromatin.

Abstract

The binding of methylene blue to DNA and chromatin treated in various ways was examined by equilibrium dialysis. The maximum r value (moles of bound dye/mole of nucleotide) was 1.0 for DNA, 0.6 for unfixed chromatin, and 0.83 for chromatin fixed in methanol-acetic acid. When fixed chromatin was treated with saline-citrate at 60 degrees C for 3 hours, as used for G-banding chromosomes, the r value decreased from 0.83 to 0.55. When unfixed chromatin was treated as for R-banding the r values also dropped. Equilibrium dialysis indicated there was no disproportionate increase of dye binding as the concentration of DNA increased. -- These results, and others, suggest that some of the Giemsa negative regions of G- and R-banded chromosomes are due to the denaturation of non-histone proteins so that they more effectively cover the DNA and prevent side binding of the thiazin dyes.

Entities: Chemical

Mesh：

Substances：

Year: 1975 PMID： 51710 DOI： 10.1007/bf00326323

Source DB: PubMed Journal: Chromosoma ISSN： 0009-5915 Impact factor: 4.316

40 in total

10. Mechanisms of chromosome banding. VI. Whole mount electron microscopy of banded metaphase chromosomes and a comparison with pachytene chromosomes.

Authors: D E Comings; T A Okada
Journal: Exp Cell Res Date: 1975-07 Impact factor: 3.905

14 in total

1. Configurational changes in chromatids from helical to banded structures.

Authors: S Takayama
Journal: Chromosoma Date: 1976-06-30 Impact factor: 4.316

2. Mechanisms of chromosome banding. X. Chromosome and nuclear changes induced by photo-oxidation and their relation to R-banding with anti-C antibodies.

Authors: M E Drets; G A Folle; D E Comings
Journal: Chromosoma Date: 1978-10-20 Impact factor: 4.316

Mechanisms of chromosome banding. VII. Interaction of methylene blue with DNA and chromatin.

1. Electron microscopic visualisation of chromosomes banded with trypsin.

2. Microfluorometric detection of deoxyribonucleic acid replication in human metaphase chromosomes.

3. New technique for distinguishing between human chromosomes.

4. Effects of 5-bromo-2'-deoxyuridine and dimethyl sulfoxide on properties and structure of chromatin.

5. Similarity of chromatin from different tissues.

6. Pachytene analysis in a human reciprocal (10;11) translocation.

7. Structure of deoxyribonucleoprotein as revealed by its binding to polylysine.

8. Giemsa technique for the detection of sister chromatid exchanges.

9. Differential Giemsa staining of sister chromatids and the study of chromatid exchanges without autoradiography.

10. Mechanisms of chromosome banding. VI. Whole mount electron microscopy of banded metaphase chromosomes and a comparison with pachytene chromosomes.

1. Configurational changes in chromatids from helical to banded structures.

2. Mechanisms of chromosome banding. X. Chromosome and nuclear changes induced by photo-oxidation and their relation to R-banding with anti-C antibodies.

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

4. Tissue-specific changes in nuclear RNA content during early development of Triturus vulgaris.

5. The mechanism of C-binding: depurination and beta-elimination.

6. CT banding of human chromosomes: description of the banding technique and some of its modifications.

7. G-bands without pretreatment of slides, in chemically defined conditions.

8. Banding of human chromosomes with basic fuchsin.

9. Effects of acetic acid-alcohol, trypsin, histone 1 and histone fragments on Giemsa staining patterns in chromosomes.

10. Nomarski-optical studies of human chromosomes R-banded with barium hydroxide.