1. Telomeric repeat mutagenicity in human somatic cells is modulated by repeat orientation and G-quadruplex stability.
- Author
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Damerla RR, Knickelbein KE, Kepchia D, Jackson A, Armitage BA, Eckert KA, and Opresko PL
- Subjects
- Base Sequence, Cell Line, DNA biosynthesis, DNA Breaks, DNA Replication genetics, DNA, Z-Form chemistry, Genetic Vectors genetics, Humans, Molecular Sequence Data, Oxytricha genetics, Sequence Deletion genetics, Temperature, Tetrahymena thermophila genetics, DNA chemistry, DNA genetics, G-Quadruplexes, Mutagenesis genetics, Repetitive Sequences, Nucleic Acid genetics, Telomere genetics
- Abstract
Telomeres consisting of tandem guanine-rich repeats can form secondary DNA structures called G-quadruplexes that represent potential targets for DNA repair enzymes. While G-quadruplexes interfere with DNA synthesis in vitro, the impact of G-quadruplex formation on telomeric repeat replication in human cells is not clear. We investigated the mutagenicity of telomeric repeats as a function of G-quadruplex folding opportunity and thermal stability using a shuttle vector mutagenesis assay. Since single-stranded DNA during lagging strand replication increases the opportunity for G-quadruplex folding, we tested vectors with G-rich sequences on the lagging versus the leading strand. Contrary to our prediction, vectors containing human [TTAGGG]₁₀ repeats with a G-rich lagging strand were significantly less mutagenic than vectors with a G-rich leading strand, after replication in normal human cells. We show by UV melting experiments that G-quadruplexes from ciliates [TTGGGG]₄ and [TTTTGGGG]₄ are thermally more stable compared to human [TTAGGG]₄. Consistent with this, replication of vectors with ciliate [TTGGGG]₁₀ repeats yielded a 3-fold higher mutant rate compared to the human [TTAGGG]₁₀ vectors. Furthermore, we observed significantly more mutagenic events in the ciliate repeats compared to the human repeats. Our data demonstrate that increased G-quadruplex opportunity (repeat orientation) in human telomeric repeats decreased mutagenicity, while increased thermal stability of telomeric G-quadruplexes was associated with increased mutagenicity., (Copyright © 2010 Elsevier B.V. All rights reserved.)
- Published
- 2010
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