| 15779908 |
Zein SS, Levene SD: Structural aspects of RecA-dependent homologous strand exchange involving human telomeric DNA. Biochemistry. 2005 Mar 29;44(12):4817-28.
Telomeric DNA sequences in human cells and those of other vertebrates consist of long d (TTAGGG) repeats. In somatic cells, telomeres shorten every cell division with shortening serving as a mitotic clock that counts cell divisions and ultimately results in cellular senescence. Telomere length is principally maintained by a ribonucleoprotein, telomerase. However, a non-negligible proportion of human cells use a recombination-based mechanism for telomere maintenance, termed alternative maintenance of telomeres (ALT). Although the molecular mechanism of ALT is not known, GT-rich sequences in prokaryotes and eukaryotes display high levels of recombination relative to those of non-GT-rich DNA. We show that human telomeric strand-exchange complexes mediated by Escherichia coli RecA protein differ from those formed with nontelomeric sequences. Moreover, telomeric strand-exchange intermediates, unlike those involving nontelomeric sequences, exhibit a tendency to form higher-order nucleoprotein structures. We propose that the strong DNA unwinding activity inherent in the assembly of the RecA strand-exchange complex promotes the formation of alternative DNA structures at human telomeric loci. Organization of these noncanonical structures into higher-order complexes involving multiple DNA duplexes could facilitate the search for homology on different DNA molecules and provide a framework for understanding recombination-dependent mechanisms of telomere maintenance. |
1(0,0,0,1) |