Building and breaking bridges between sister chromatids
- 17 November 2003
- Vol. 25 (12) , 1178-1191
- https://doi.org/10.1002/bies.10361
Abstract
Eukaryotic chromosomes undergo dramatic changes and movements during mitosis. These include the individualization and compaction of the two copies of replicated chromosomes (the sister chromatids) and their subsequent segregation to the daughter cells. Two multisubunit protein complexes termed ‘cohesin’ and ‘condensin’, both composed of SMC (Structural Maintenance of Chromosomes) and kleisin subunits, have emerged as crucial players in these processes. Cohesin is required for holding sister chromatids together whereas condensin, together with topoisomerase II, has an important role in organizing individual axes of sister chromatids prior to their segregation during anaphase. SMC and kleisin complexes also regulate the compaction and segregation of bacterial nucleoids. New research suggests that these ancient regulators of chromosome structure might function as topological devices that trap chromosomal DNA between 50 nm long coiled coils. BioEssays 25:1178–1191, 2003.Keywords
This publication has 97 references indexed in Scilit:
- Distinct Cohesin Complexes Organize Meiotic Chromosome DomainsScience, 2003
- A role of topoisomerase II in linking DNA replication to chromosome condensationThe Journal of cell biology, 2003
- Eco1 Is a Novel Acetyltransferase that Can Acetylate Proteins Involved in CohesionCurrent Biology, 2002
- Disseminating the Genome: Joining, Resolving, and Separating Sister Chromatids During Mitosis and MeiosisAnnual Review of Genetics, 2001
- Crystal structure of the SMC head domain: an ABC ATPase with 900 residues antiparallel coiled-coil insertedJournal of Molecular Biology, 2001
- SMC proteins in bacteria: Condensation motors for chromosome segregation?Biochimie, 2001
- Structural Biology of Rad50 ATPaseCell, 2000
- Pds1p is required for faithful execution of anaphase in the yeast, Saccharomyces cerevisiaeThe Journal of cell biology, 1996
- ScII: an abundant chromosome scaffold protein is a member of a family of putative ATPases with an unusual predicted tertiary structure.The Journal of cell biology, 1994
- SMC1: an essential yeast gene encoding a putative head-rod-tail protein is required for nuclear division and defines a new ubiquitous protein family.The Journal of cell biology, 1993