Relative stability of triplexes containing different numbers of T·AT and C+·GC triplets
Relative stability of triplexes containing different numbers of T·AT and C+·GC triplets
We have used DNase I footprinting to compare the stability of parallel triple helices containing different numbers of T·AT and C+·GC triplets. We have targeted a fragment containing the 17 mer sequence 5'-AGGAAGAGAAAAAAGAA with the 9 mer oligonucleotides 5'-TCCTTCTCT, 5'-TTCTCTTTT and 5'-TTTTTTCTT, which form triplexes at the 5'-end, centre and 5'-end of the target site respectively. Quantitative DNase I footprinting has shown that at pH 5.0 the dissociation constants of these oligonucleotides are 0.13, 4.7 and > 30 μM respectively, revealing that increasing the proportion of C+·GC triplets increases triplex stability. The results suggest that the positive charge on the protonated cytosine contributes to triplex stability, either by a favourable interaction with the stacked π system or by screening the charge on the phosphate groups. In the presence of a naphthylquinoline triplex binding ligand all three oligonucleotides bind with similar affinities. At pH 6.0 these triplexes only form in the presence of the triplex binding ligand, while at pH 7.5 footprints are only seen with the oligonucleotide which generates the fewest number of C+·GC triplets (TTTTTTCTT) in the presence of the ligand.
4644-4649
Keppler, Melanie D.
6452c8eb-268a-47f4-955d-e1819df05333
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
1997
Keppler, Melanie D.
6452c8eb-268a-47f4-955d-e1819df05333
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
Keppler, Melanie D. and Fox, Keith R.
(1997)
Relative stability of triplexes containing different numbers of T·AT and C+·GC triplets.
Nucleic Acids Research, 25 (22), .
(doi:10.1093/nar/25.22.4644).
Abstract
We have used DNase I footprinting to compare the stability of parallel triple helices containing different numbers of T·AT and C+·GC triplets. We have targeted a fragment containing the 17 mer sequence 5'-AGGAAGAGAAAAAAGAA with the 9 mer oligonucleotides 5'-TCCTTCTCT, 5'-TTCTCTTTT and 5'-TTTTTTCTT, which form triplexes at the 5'-end, centre and 5'-end of the target site respectively. Quantitative DNase I footprinting has shown that at pH 5.0 the dissociation constants of these oligonucleotides are 0.13, 4.7 and > 30 μM respectively, revealing that increasing the proportion of C+·GC triplets increases triplex stability. The results suggest that the positive charge on the protonated cytosine contributes to triplex stability, either by a favourable interaction with the stacked π system or by screening the charge on the phosphate groups. In the presence of a naphthylquinoline triplex binding ligand all three oligonucleotides bind with similar affinities. At pH 6.0 these triplexes only form in the presence of the triplex binding ligand, while at pH 7.5 footprints are only seen with the oligonucleotide which generates the fewest number of C+·GC triplets (TTTTTTCTT) in the presence of the ligand.
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Published date: 1997
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Funding Information:
This work was supported by grants from the Cancer Research Campaign and the Medical Research Council.
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Local EPrints ID: 476346
URI: http://eprints.soton.ac.uk/id/eprint/476346
ISSN: 0305-1048
PURE UUID: 928d32b4-74fb-4757-999c-f31d36b7e257
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Date deposited: 19 Apr 2023 16:46
Last modified: 18 Mar 2024 02:32
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Author:
Melanie D. Keppler
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