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Literature DB >> 8534830

Anaphase chromatid motion: involvement of type II DNA topoisomerases.

Abstract

Sister chromatids are topologically intertwined at the onset of anaphase: their segregation during anaphase is known to require strand-passing activity by type II DNA topoisomerase. We propose that the removal of the intertwinings involves at the same time the traction of the mitotic spindle and the activity of topoisomerases. This implies that the velocity of the chromatids is compatible with the kinetic constraints imposed by the enzymatic reaction. We show that the greatest observed velocities (about 0.1 microns s-1) are close to the theoretical upper bound compatible with both the diffusion rate (calculated here within a probabilistic model) and the measured reaction rate of the enzyme.

Mesh：

Substances：

Year: 1995 PMID： 8534830 PMCID： PMC1236390 DOI： 10.1016/S0006-3495(95)80032-9

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

30 in total

1. Inhibitors of DNA topoisomerase II prevent chromatid separation in mammalian cells but do not prevent exit from mitosis.

Authors: C S Downes; A M Mullinger; R T Johnson
Journal: Proc Natl Acad Sci U S A Date: 1991-10-15 Impact factor: 11.205

2. Evolution of enzyme function and the development of catalytic efficiency.

Authors: W J Albery; J R Knowles
Journal: Biochemistry Date: 1976-12-14 Impact factor: 3.162

3. DNA topoisomerase II is required at the time of mitosis in yeast.

Authors: C Holm; T Goto; J C Wang; D Botstein
Journal: Cell Date: 1985-06 Impact factor: 41.582

4. Metaphase chromosome structure. Involvement of topoisomerase II.

Authors: S M Gasser; T Laroche; J Falquet; E Boy de la Tour; U K Laemmli
Journal: J Mol Biol Date: 1986-04-20 Impact factor: 5.469

5. Sgs1: a eukaryotic homolog of E. coli RecQ that interacts with topoisomerase II in vivo and is required for faithful chromosome segregation.

Authors: P M Watt; E J Louis; R H Borts; I D Hickson
Journal: Cell Date: 1995-04-21 Impact factor: 41.582

6. Radial loops and helical coils coexist in metaphase chromosomes.

Authors: J B Rattner; C C Lin
Journal: Cell Date: 1985-08 Impact factor: 41.582

7. A structural analysis of the role of the nuclear matrix and DNA loops in the organization of the nucleus and chromosome.

Authors: K J Pienta; D S Coffey
Journal: J Cell Sci Suppl Date: 1984

8. DNA topoisomerase II from Drosophila melanogaster. Relaxation of supercoiled DNA.

Authors: N Osheroff; E R Shelton; D L Brutlag
Journal: J Biol Chem Date: 1983-08-10 Impact factor: 5.157

9. Arrest of segregation leads to accumulation of highly intertwined catenated dimers: dissection of the final stages of SV40 DNA replication.

Authors: O Sundin; A Varshavsky
Journal: Cell Date: 1981-09 Impact factor: 41.582

6. Synergy of topoisomerase and structural-maintenance-of-chromosomes proteins creates a universal pathway to simplify genome topology.

Authors: Enzo Orlandini; Davide Marenduzzo; Davide Michieletto
Journal: Proc Natl Acad Sci U S A Date: 2019-04-08 Impact factor: 11.205

6 in total

Anaphase chromatid motion: involvement of type II DNA topoisomerases.

1. Inhibitors of DNA topoisomerase II prevent chromatid separation in mammalian cells but do not prevent exit from mitosis.

2. Evolution of enzyme function and the development of catalytic efficiency.

3. DNA topoisomerase II is required at the time of mitosis in yeast.

4. Metaphase chromosome structure. Involvement of topoisomerase II.

5. Sgs1: a eukaryotic homolog of E. coli RecQ that interacts with topoisomerase II in vivo and is required for faithful chromosome segregation.

6. Radial loops and helical coils coexist in metaphase chromosomes.

7. A structural analysis of the role of the nuclear matrix and DNA loops in the organization of the nucleus and chromosome.

8. DNA topoisomerase II from Drosophila melanogaster. Relaxation of supercoiled DNA.

9. Arrest of segregation leads to accumulation of highly intertwined catenated dimers: dissection of the final stages of SV40 DNA replication.

10. Cryo-electron microscopy of vitrified chromosomes in situ.

1. Topoisomerase II can unlink replicating DNA by precatenane removal.

2. Numerical simulation of gel electrophoresis of DNA knots in weak and strong electric fields.

Review 3. Forces on chromosomal DNA during anaphase.

4. Control of the flow properties of DNA by topoisomerase II and its targeting inhibitor.

5. A polymer model for the structural organization of chromatin loops and minibands in interphase chromosomes.

6. Synergy of topoisomerase and structural-maintenance-of-chromosomes proteins creates a universal pathway to simplify genome topology.