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Literature DB >> 3731941

High-order structure of metaphase chromosomes: evidence for a multiple coiling model.

Abstract

When chromosome preparations made by the conventional air-drying method were processed with the OSO4/TCH technique and examined by scanning electron microscopy (SEM), spiral structures in chromatids, which have been frequently observed to be present by light microscopy, were found to be composed of 30 nm fibres. In some portions these fibres appeared to be arranged in coils to form thicker fibres. When chromosome preparations were processed for SEM without air drying, chromosomes appeared to consist of fairly homogeneous thick fibrous structures measuring about 200 nm in diameter. In relatively condensed chromosomes, these 200 nm fibres appeared to be arranged perpendicular to the long axis of the chromatid. These findings suggest that chromatid spiral structures represent a regularly loosened state of the compactly spiralized 200 nm fibres which in turn consist of spiralized 30 nm fibres.

Entities: Chemical

Mesh：

Year: 1986 PMID： 3731941 DOI： 10.1007/bf00386792

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

24 in total

5. Effects of bromodeoxyuridine substitution on metaphase chromosome structures examined by scanning electron microscopy.

Authors: T Taniguchi; S Takayama
Journal: Chromosoma Date: 1987 Impact factor: 4.316

High-order structure of metaphase chromosomes: evidence for a multiple coiling model.

1. Electron microscopic and biochemical evidence that chromatin structure is a repeating unit.

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

3. The chromosome fiber: evidence for an ordered superstructure of nucleosomes.

4. Spheroid chromatin units (v bodies).

5. Architecture of the Chinese hamster metaphase chromosome.

6. Macromolecular organization of nuclei and chromosomes: a folded fibre model based on whole-mount electron microscopy.

7. Use of direct current sputtering for improved visualization of chromosome topology by scanning electron microscopy.

Review 8. Mechanisms of chromosome banding and implications for chromosome structure.

9. Isolation and structural organization of human mitotic chromosomes.

10. Evidence for a 'folded-fibre' organization in human chromosomes.

1. Structural elements of bulk chromatin within metaphase chromosomes.

2. Dense chromatin plates in metaphase chromosomes.

3. Three-dimensional reconstruction of a human metaphase chromosome from electron micrographs.

4. Packing of the 30 nm chromatin fiber in the human metaphase chromosome.

5. Effects of bromodeoxyuridine substitution on metaphase chromosome structures examined by scanning electron microscopy.

6. The three-dimensional structure of in vitro reconstituted Xenopus laevis chromosomes by EM tomography.

Review 7. Effects of DNA supercoiling on chromatin architecture.

Review 8. Effects of DNA supercoiling on chromatin architecture.