Precarious maintenance of simple DNA repeats in eukaryotes

, &
Bioessays 39 (9):1700077 (2017)
  Copy   BIBTEX

Abstract

In this review, we discuss how two evolutionarily conserved pathways at the interface of DNA replication and repair, template switching and break-induced replication, lead to the deleterious large-scale expansion of trinucleotide DNA repeats that cause numerous hereditary diseases. We highlight that these pathways, which originated in prokaryotes, may be subsequently hijacked to maintain long DNA microsatellites in eukaryotes. We suggest that the negative mutagenic outcomes of these pathways, exemplified by repeat expansion diseases, are likely outweighed by their positive role in maintaining functional repetitive regions of the genome such as telomeres and centromeres. Break-induced replication and template switching are conserved mechanisms of replication fork restart. They do not cause microsatellite instability in prokaryotes, but promote repeat expansion in eukaryotes. We suggest that TS and BIR persisted in eukaryotes despite their mutagenic potential because they help maintain long repetitive telomeres and centromeres.

Categories

Keywords

Reprint years

DOI

10.1002/bies.201700077

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,672

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Stalled replication forks: Making ends meet for recognition and stabilization.Hisao Masai, Taku Tanaka & Daisuke Kohda - 2010 - Bioessays 32 (8):687-697.
Inhibition of DNA synthesis facilitates expansion of low‐complexity repeats.Andrei Kuzminov - 2013 - Bioessays 35 (4):306-313.
Replication without replicators.Bence Nanay - 2011 - Synthese 179 (3):455-477.
Repeat performance: how do genome packaging and regulation depend on simple sequence repeats?Ram Parikshan Kumar, Ramamoorthy Senthilkumar, Vipin Singh & Rakesh K. Mishra - 2010 - Bioessays 32 (2):165-174.
PTEN in the maintenance of genome integrity: From DNA replication to chromosome segregation.Sheng-Qi Hou, Meng Ouyang, Andrew Brandmaier, Hongbo Hao & Wen H. Shen - 2017 - Bioessays 39 (10):1700082.
Replication, replication and replication: Some hard lessons from model alignment.Bruce Edmonds - unknown
What the papers say: The organization of replication centres in higher eukaryotes.Dean A. Jackson - 1990 - Bioessays 12 (2):87-89.
On the nature of origins of DNA replication in eukaryotes.Robert M. Benbow, Jiyong Zhao & Drena D. Larson - 1992 - Bioessays 14 (10):661-670.
Supercoiled loops and the organization of replication and transcription in eukaryotes.Barbara A. Zehnbauer & Bert Vogelstein - 1985 - Bioessays 2 (2):52-54.
Yeast as a model system for understanding the control of DNA replication in eukaryotes.Rachel Bartlett & Paul Nurse - 1990 - Bioessays 12 (10):457-463.
DNA replication joins the revolution: Whole‐genome views of DNA replication in budding yeast.Carol S. Newlon & James F. Theis - 2002 - Bioessays 24 (4):300-304.
Response to Fritz Allhoff, "Telomeres and the Ethics of Human Cloning".Jesse R. Steinberg - 2005 - American Journal of Bioethics 5 (1):W27-W28.
Telomeres and the ethics of human cloning.Fritz Allhoff - 2004 - American Journal of Bioethics 4 (2):29 – 31.
Epigenomic replication: Linking epigenetics to DNA replication.Adrian J. McNairn & David M. Gilbert - 2003 - Bioessays 25 (7):647-656.
Replication and mere replication.Michael Mulkay & G. Nigel Gilbert - 1986 - Philosophy of the Social Sciences 16 (1):21-37.

Analytics

Added to PP
2017-09-21

Downloads
18 (#828,704)

6 months
5 (#626,659)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

No citations found.

Add more citations

References found in this work

No references found.

Add more references