Cell Type Regulates Selective Segregation of Mouse Chromosome 7 DNA Strands in Mitosis
- 24 February 2006
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 311 (5764) , 1146-1149
- https://doi.org/10.1126/science.1120519
Abstract
After chromosome replication, sister chromatid copies are generally thought to segregate randomly to daughter cells. However, sister chromatids differ in their DNA strands, with each chromatid inheriting one older strand that is paired to a newly synthesized strand. Genetic analysis with a homologous chromosome pair indicated nonrandom chromatid distribution in embryonic stem cells. Biased segregation pattern was also found in all 100 endoderm cells examined, but not in any of the 165 neuroectoderm cells. In contrast, the mesoderm, cardiomyocyte, and pancreatic cells exhibited a random mode of segregation. Strand distribution mechanisms regulated by cell type may have consequences for cellular differentiation and for evolving strategies for developmental mechanisms.Keywords
This publication has 17 references indexed in Scilit:
- Support for the immortal strand hypothesis: neural stem cells partition DNA asymmetrically in vitroThe Journal of cell biology, 2005
- Label-retaining epithelial cells in mouse mammary gland divide asymmetrically and retain their template DNA strandsDevelopment, 2005
- A Genetic Mechanism Implicates Chromosome 11 in Schizophrenia and Bipolar DiseasesGenetics, 2004
- Efficient Cre-loxP–induced mitotic recombination in mouse embryonic stem cellsNature Genetics, 2001
- A model for specification of the left-right axis in vertebratesTrends in Genetics, 1994
- Paternal DNA strands segregate to both trophectoderm and inner cell mass of the developing mouse embryo.Genes & Development, 1988
- Parental DNA strands segregate randomly during embryonic development of Caenorhabditis elegansCell, 1987
- The segregation of DNA in epithelial stem cellsCell, 1978
- Segregation of Sister Chromatids in Mammalian CellsScience, 1966
- Molecular Structure of Nucleic Acids: A Structure for Deoxyribose Nucleic AcidNature, 1953