János Sági scite author profile

8-Oxoguanine is a ubiquitous oxidative base lesion. We report here on the effect of this lesion on the structure and stability of quadruplexes formed by the human telomeric DNA sequence 5¢-dG 3 (TTAG 3 ) 3 in NaCl and KCl. CD, PAGE and absorption-based thermodynamic stability data showed that replacement of any of the tetrad-forming guanines by 8-oxoguanine did not hinder the formation of monomolecular, antiparallel quadruplexes in NaCl. The modified quadruplexes were, however, destabilized in both salts, the extent of this depending on the position of the lesion. These results and the results of previous studies on guanine-to-adenine exchanges and guanine abasic lesions in the same quadruplex show a noticeable trend: it is not the type of the lesion but the position of the modification that determines the effect on the conformation and stability of the quadruplex. The type of lesion only governs the extent of changes, such as of destabilization. Most sensitive sites were found in the middle tetrad of the three-tetrad quadruplex, and the smallest alterations were observed if guanines of the terminal tetrad with the diagonal TTA loop were substituted, although even these substitutions brought about unfavorable enthalpic changes. Interestingly, the majority of these base-modified quadruplexes did not adopt the rearranged folding induced in the unmodified dG 3 (TTAG 3 ) 3 by potassium ions, an observation that could imply biological relevance of the results.

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Loss of loop adenines alters human telomere d[AG3(TTAG3)3] quadruplex folding

Babinský¹,

Fiala²,

Kejnovská³

et al. 2014

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Abasic (AP) lesions are the most frequent type of damages occurring in cellular DNA. Here we describe the conformational effects of AP sites substituted for 2′-deoxyadenosine in the first (ap7), second (ap13) or third (ap19) loop of the quadruplex formed in K+ by the human telomere DNA 5′-d[AG3(TTAG3)3]. CD spectra and electrophoresis reveal that the presence of AP sites does not hinder the formation of intramolecular quadruplexes. NMR spectra show that the structural heterogeneity is substantially reduced in ap7 and ap19 as compared to that in the wild-type. These two (ap7 and ap19) sequences are shown to adopt the hybrid-1 and hybrid-2 quadruplex topology, respectively, with AP site located in a propeller-like loop. All three studied sequences transform easily into parallel quadruplex in dehydrating ethanol solution. Thus, the AP site in any loop region facilitates the formation of the propeller loop. Substitution of all adenines by AP sites stabilizes the parallel quadruplex even in the absence of ethanol. Whereas guanines are the major determinants of quadruplex stability, the presence or absence of loop adenines substantially influences quadruplex folding. The naturally occurring adenine-lacking sites in the human telomere DNA can change the quadruplex topology in vivo with potentially vital biological consequences.

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Substitution of adenine for guanine in the quadruplex-forming human telomere DNA sequence G3(T2AG3)3

Tomaško

Vorlı́čková

Sági³

2009

Biochimie

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Clustered abasic lesions profoundly change the structure and stability of human telomeric G-quadruplexes

Kejnovská

Bednářová

Renčiuk

et al. 2017

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Ionizing radiation produces clustered damage to DNA which is difficult to repair and thus more harmful than single lesions. Clustered lesions have only been investigated in dsDNA models. Introducing the term ‘clustered damage to G-quadruplexes’ we report here on the structural effects of multiple tetrahydrofuranyl abasic sites replacing loop adenines (A/AP) and tetrad guanines (G/AP) in quadruplexes formed by the human telomere d[AG3(TTAG3)3] (htel-22) and d[TAG3(TTAG3)3TT] (htel-25) in K+ solutions. Single to triple A/APs increased the population of parallel strands in their structures by stabilizing propeller type loops, shifting the antiparallel htel-22 into hybrid or parallel quadruplexes. In htel-25, the G/APs inhibited the formation of parallel strands and these adopted antiparallel topologies. Clustered G/AP and A/APs reduced the thermal stability of the wild-type htel-25. Depending on position, A/APs diminished or intensified the damaging effect of the G/APs. Taken together, clustered lesions can disrupt the topology and stability of the htel quadruplexes and restrict their conformational space. These in vitro results suggest that formation of clustered lesions in the chromosome capping structure can result in the unfolding of existing G-quadruplexes which can lead to telomere shortening.

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János Sági

Circular dichroism and guanine quadruplexes

8‐Oxoguanine in a quadruplex of the human telomere DNA sequence

Loss of loop adenines alters human telomere d[AG3(TTAG3)3] quadruplex folding

Substitution of adenine for guanine in the quadruplex-forming human telomere DNA sequence G3(T2AG3)3

Clustered abasic lesions profoundly change the structure and stability of human telomeric G-quadruplexes

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