Extensive telomere repeat arrays in mouse are hypervariable.
AUTOR(ES)
Starling, J A
RESUMO
In this study we have analysed mouse telomeres by Pulsed Field Gel Electrophoresis (PFGE). A number of specific restriction fragments hybridising to a (TTA-GGG)4 probe in the size range 50-150kb can be detected. These fragments are devoid of sites for most restriction enzymes suggesting that they comprise simple repeats; we argue that most of these are likely to be (TTAGGG)n. Each discrete fragment corresponds to the telomere of an individual chromosome and segregates as a Mendelian character. However, new size variants are being generated in the germ line at very high rates such that inbred mice are heterozygous at all telomeres analysable. In addition we show that specific small (approximately 4-12kb) fragments can be cleaved within some terminal arrays by the restriction enzyme MnII which recognises 5'(N7)GAGG3'. Like the complete telomere-repeat arrays (TRA's) these fragments form new variants at high rates and possibly by the same process. We speculate on the mechanisms that may be involved.
ACESSO AO ARTIGO
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=332745Documentos Relacionados
- Mechanisms underlying telomere repeat turnover, revealed by hypervariable variant repeat distribution patterns in the human Xp/Yp telomere.
- Repeat arrays in cellular DNA related to the Epstein-Barr virus IR3 repeat.
- Molecular Basis for Telomere Repeat Divergence in Budding Yeast
- Long tandem arrays of complex repeat units in Chironomus telomeres.
- Improved telomere detection using a telomere repeat probe (TTAGGG)n generated by PCR.