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Minor groove binding ligands alter the rotational positioning of DNA fragments on nucleosome core particles

Minor groove binding ligands alter the rotational positioning of DNA fragments on nucleosome core particles
Minor groove binding ligands alter the rotational positioning of DNA fragments on nucleosome core particles

We have used hydroxyl radical and DNase I footprinting to examine the interaction of four AT-selective minor groove binding ligands (Hoechst 33258, distamycin, netropsin and berenil) with DNA fragments which have been reconstituted with nucleosome core particles. Hydroxyl radical footprints of reconstituted tyrT DNA show that all four ligands induce changes in the phased cleavage pattern, consistent with the suggestion that they cause the DNA to rotate by 180° on the nucleosome surface. This observation was confirmed by a series of hydroxyl radical and DNase I footprinting experiments on a synthetic DNA fragment containing five different (A/T)4 sites spaced ten bases apart, in phase with the nucleosomal repeat. This fragment produces a phased cleavage pattern when bound to the nucleosome cores, with minima in the AT regions, suggesting that these regions are positioned with their narrow minor grooves facing towards the protein surface. In the presence of the minor groove binding ligands the hydroxyl radical cleavage maxima are shifted by about five base-pairs. It appears that the ligands have caused the DNA to rotate by about 180° on the protein surface; those DNA regions which were facing out are turned in and vice versa. Regions to which the ligands are bound are turned away from the protein surface, thereby minimising electrostatic repulsion between the cationic charges on the ligand and protein. The absence of any observable footprints in the AT-regions suggests that these changes are induced at low levels of occupancy.

Distamycin, DNA rotational positioning, Hoechst 33258, Minor groove binding ligands, Nucleosome core particles
0022-2836
671-685
Brown, Philip M.
c910b8df-2849-4b26-8f69-3ca330836e9b
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
Brown, Philip M.
c910b8df-2849-4b26-8f69-3ca330836e9b
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f

Brown, Philip M. and Fox, Keith R. (1996) Minor groove binding ligands alter the rotational positioning of DNA fragments on nucleosome core particles. Journal of Molecular Biology, 262 (5), 671-685. (doi:10.1006/jmbi.1996.0544).

Record type: Article

Abstract

We have used hydroxyl radical and DNase I footprinting to examine the interaction of four AT-selective minor groove binding ligands (Hoechst 33258, distamycin, netropsin and berenil) with DNA fragments which have been reconstituted with nucleosome core particles. Hydroxyl radical footprints of reconstituted tyrT DNA show that all four ligands induce changes in the phased cleavage pattern, consistent with the suggestion that they cause the DNA to rotate by 180° on the nucleosome surface. This observation was confirmed by a series of hydroxyl radical and DNase I footprinting experiments on a synthetic DNA fragment containing five different (A/T)4 sites spaced ten bases apart, in phase with the nucleosomal repeat. This fragment produces a phased cleavage pattern when bound to the nucleosome cores, with minima in the AT regions, suggesting that these regions are positioned with their narrow minor grooves facing towards the protein surface. In the presence of the minor groove binding ligands the hydroxyl radical cleavage maxima are shifted by about five base-pairs. It appears that the ligands have caused the DNA to rotate by about 180° on the protein surface; those DNA regions which were facing out are turned in and vice versa. Regions to which the ligands are bound are turned away from the protein surface, thereby minimising electrostatic repulsion between the cationic charges on the ligand and protein. The absence of any observable footprints in the AT-regions suggests that these changes are induced at low levels of occupancy.

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More information

Published date: 11 October 1996
Additional Information: Funding Information: This work was supported by grants from the Medical Research Council and the Cancer Research Campaign.
Keywords: Distamycin, DNA rotational positioning, Hoechst 33258, Minor groove binding ligands, Nucleosome core particles
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Identifiers

Local EPrints ID: 475869
URI: http://eprints.soton.ac.uk/id/eprint/475869
DOI: doi:10.1006/jmbi.1996.0544
ISSN: 0022-2836
PURE UUID: 5024215f-bc6e-476b-8c9a-73dec0bd1a48
ORCID for Keith R. Fox: ORCID iD orcid.org/0000-0002-2925-7315

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Date deposited: 29 Mar 2023 16:47
Last modified: 18 Mar 2024 02:32

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Author: Philip M. Brown
Author: Keith R. Fox ORCID iD

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