Many ways to telomere dysfunction: in vivo studies using mouse models
- 21 January 2002
- journal article
- review article
- Published by Springer Nature in Oncogene
- Vol. 21 (4), 584-591
- https://doi.org/10.1038/sj.onc.1205085
Abstract
The existence of a capping structure at the extremities of chromosomes was first deduced in the 1930s by Herman Müller (Müller, 1938), who showed that X-irradiation of Drosophila rarely resulted in terminal deletions or inversions of chromosomes, suggesting that chromosome ends have protective structures that distinguish them from broken chromosomes, which he named telomeres. In this review, we will focus on mammalian telomeres and, in particular, on the analysis of different mouse models for proteins that are important for telomere function, such as telomerase and various telomere-binding proteins. These murine models are helping us to understand the consequences of telomere dysfunction for cancer, aging and DNA repair, as well as, the molecular mechanisms by which telomeres exert their protective function.Keywords
This publication has 98 references indexed in Scilit:
- Normal telomere length and chromosomal end capping in poly(ADP-ribose) polymerase–deficient mice and primary cells despite increased chromosomal instabilityThe Journal of cell biology, 2001
- DNA Ends RecQ-uire AttentionScience, 2001
- Telomeres and telomeraseGenes & Development, 1999
- Disease states associated with telomerase deficiency appear earlier in mice with short telomeresThe EMBO Journal, 1999
- Short Dysfunctional Telomeres Impair Tumorigenesis in the INK4aΔ2/3 Cancer-Prone MouseCell, 1999
- Atm selectively regulates distinct p53-dependent cell-cycle checkpoint and apoptotic pathwaysNature Genetics, 1997
- A survey of telomerase activity in human cancerEuropean Journal Of Cancer, 1997
- What Makes Us Tick?Science, 1997
- Requirement for Ku80 in growth and immunoglobulin V(D)J recombinationNature, 1996
- Telomeres shorten during ageing of human fibroblastsNature, 1990