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Stabilization of DNA triple helices by a series of mono- and disubstituted amidoanthraquinones

Stabilization of DNA triple helices by a series of mono- and disubstituted amidoanthraquinones
Stabilization of DNA triple helices by a series of mono- and disubstituted amidoanthraquinones

We have used quantitative DNase I footprinting to measure the relative affinities of four disubstituted and two monosubstituted amidoanthraquinone compounds for intermolecular DNA triplexes, and have examined how the position of the attached base-functionalized substituents affects their ability to stabilize DNA triplexes. All four isomeric disubstituted derivatives examined stabilize DNA triplexes at micromolar or lower concentrations. Of the compounds studied the 2,7-disubstituted amidoanthraquinone displayed the greatest triplex affinity. The order of triplex affinity for the other disubstituted ligands decreases in the order 2,7 > 1,8 = 1,5 > 2,6, with the equivalent monosubstituted compounds being at least an order of magnitude less efficient. The 1,5-disubstituted derivative also shows some interaction with duplex DNA. These results have been confirmed by molecular modelling studies, which provide a rational basis for the structure-activity relationships. These suggest that, although all of the compounds bind through an intercalative mode, the 2,6, 2,7 and 1,5 disubstituted isomers bind with their two side groups occupying adjacent triplex grooves, in contrast with the 1,8 isomer which is positioned with both side groups in the same triplex groove.

Anthraquinone, Antigene, DNA recognition, Triple helix, Triplex-binding ligand
0014-2956
817-825
Keppler, Melanie D.
6452c8eb-268a-47f4-955d-e1819df05333
Read, Martin A.
925ffc56-ffac-42f9-a28a-1ff63f0621ff
Perry, Philip J.
a3632f6e-8f9d-4e3d-aaf9-46d9f43d0130
Trent, John O.
aabd4141-64bf-4107-9e61-e1407c09d430
Jenkins, Terence C.
87f02eac-6560-4f66-92fa-c87a7d55d558
Reszka, Anthony P.
609ecf8e-24d6-4617-a2a8-aedc7646a5db
Neidle, Stephen
edf2d7ee-a257-4d4c-a3ea-b3c9c42b5ff3
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f
Keppler, Melanie D.
6452c8eb-268a-47f4-955d-e1819df05333
Read, Martin A.
925ffc56-ffac-42f9-a28a-1ff63f0621ff
Perry, Philip J.
a3632f6e-8f9d-4e3d-aaf9-46d9f43d0130
Trent, John O.
aabd4141-64bf-4107-9e61-e1407c09d430
Jenkins, Terence C.
87f02eac-6560-4f66-92fa-c87a7d55d558
Reszka, Anthony P.
609ecf8e-24d6-4617-a2a8-aedc7646a5db
Neidle, Stephen
edf2d7ee-a257-4d4c-a3ea-b3c9c42b5ff3
Fox, Keith R.
9da5debc-4e45-473e-ab8c-550d1104659f

Keppler, Melanie D., Read, Martin A., Perry, Philip J., Trent, John O., Jenkins, Terence C., Reszka, Anthony P., Neidle, Stephen and Fox, Keith R. (1999) Stabilization of DNA triple helices by a series of mono- and disubstituted amidoanthraquinones. European Journal of Biochemistry, 263 (3), 817-825. (doi:10.1046/j.1432-1327.1999.00566.x).

Record type: Article

Abstract

We have used quantitative DNase I footprinting to measure the relative affinities of four disubstituted and two monosubstituted amidoanthraquinone compounds for intermolecular DNA triplexes, and have examined how the position of the attached base-functionalized substituents affects their ability to stabilize DNA triplexes. All four isomeric disubstituted derivatives examined stabilize DNA triplexes at micromolar or lower concentrations. Of the compounds studied the 2,7-disubstituted amidoanthraquinone displayed the greatest triplex affinity. The order of triplex affinity for the other disubstituted ligands decreases in the order 2,7 > 1,8 = 1,5 > 2,6, with the equivalent monosubstituted compounds being at least an order of magnitude less efficient. The 1,5-disubstituted derivative also shows some interaction with duplex DNA. These results have been confirmed by molecular modelling studies, which provide a rational basis for the structure-activity relationships. These suggest that, although all of the compounds bind through an intercalative mode, the 2,6, 2,7 and 1,5 disubstituted isomers bind with their two side groups occupying adjacent triplex grooves, in contrast with the 1,8 isomer which is positioned with both side groups in the same triplex groove.

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More information

Published date: 1 August 1999
Keywords: Anthraquinone, Antigene, DNA recognition, Triple helix, Triplex-binding ligand
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Identifiers

Local EPrints ID: 476362
URI: http://eprints.soton.ac.uk/id/eprint/476362
DOI: doi:10.1046/j.1432-1327.1999.00566.x
ISSN: 0014-2956
PURE UUID: a2eb652b-6fee-4c22-98b2-6b5929c3e37b
ORCID for Keith R. Fox: ORCID iD orcid.org/0000-0002-2925-7315

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Date deposited: 19 Apr 2023 16:46
Last modified: 17 Mar 2024 02:34

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Contributors

Author: Melanie D. Keppler
Author: Martin A. Read
Author: Philip J. Perry
Author: John O. Trent
Author: Terence C. Jenkins
Author: Anthony P. Reszka
Author: Stephen Neidle
Author: Keith R. Fox ORCID iD

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