Sequence selective binding of bis-daunorubicin WP631 to DNA
Sequence selective binding of bis-daunorubicin WP631 to DNA
We have used footprinting techniques on a wide range of natural and synthetic footprinting substrates to examine the sequence-selective interaction of the bis-daunorubicin antibiotic WP631 with DNA. The ligand produces clear DNase I footprints that are very different from those seen with other anthracycline antibiotics such as daunorubicin and nogalamycin. Footprints are found in a diverse range of sequences, many of which are rich in GT (AC) or GA (TC) residues. As expected, the ligand binds well to the sequences CGTACG and CGATCG, but clear footprints are also found at hexanucleotide sequences such GCATGC and GCTAGC. The various footprints do not contain any particular unique di-, tri- or tetranucleotide sequences, but are frequently contain the sequence (G/C)(A/T)(A/T)(G/C). All sequences with this composition are protected by the ligand, though it can also bind to some sites that differ from this consensus by one base pair.
WP631, anthracycline antibiotic, daunorubicin, footprinting, sequence recognition
3556-3566
Fox, K.R.
9da5debc-4e45-473e-ab8c-550d1104659f
Webster, R.
dc5a4997-e7db-4d88-929c-d4308a3a07a9
Phelps, R.J.
60ac9d86-6748-4951-bb6f-ec2d80e734f2
Fokt, I.
bc4e40f0-d3cd-4460-9992-fea76cc889b7
Priebe, W.
ba24910d-9aaf-4cc1-9bec-8d5c451a301b
11 August 2004
Fox, K.R.
9da5debc-4e45-473e-ab8c-550d1104659f
Webster, R.
dc5a4997-e7db-4d88-929c-d4308a3a07a9
Phelps, R.J.
60ac9d86-6748-4951-bb6f-ec2d80e734f2
Fokt, I.
bc4e40f0-d3cd-4460-9992-fea76cc889b7
Priebe, W.
ba24910d-9aaf-4cc1-9bec-8d5c451a301b
Fox, K.R., Webster, R., Phelps, R.J., Fokt, I. and Priebe, W.
(2004)
Sequence selective binding of bis-daunorubicin WP631 to DNA.
European Journal of Biochemistry, 271 (17), .
(doi:10.1111/j.0014-2956.2004.04292.x).
Abstract
We have used footprinting techniques on a wide range of natural and synthetic footprinting substrates to examine the sequence-selective interaction of the bis-daunorubicin antibiotic WP631 with DNA. The ligand produces clear DNase I footprints that are very different from those seen with other anthracycline antibiotics such as daunorubicin and nogalamycin. Footprints are found in a diverse range of sequences, many of which are rich in GT (AC) or GA (TC) residues. As expected, the ligand binds well to the sequences CGTACG and CGATCG, but clear footprints are also found at hexanucleotide sequences such GCATGC and GCTAGC. The various footprints do not contain any particular unique di-, tri- or tetranucleotide sequences, but are frequently contain the sequence (G/C)(A/T)(A/T)(G/C). All sequences with this composition are protected by the ligand, though it can also bind to some sites that differ from this consensus by one base pair.
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Published date: 11 August 2004
Keywords:
WP631, anthracycline antibiotic, daunorubicin, footprinting, sequence recognition
Identifiers
Local EPrints ID: 56318
URI: http://eprints.soton.ac.uk/id/eprint/56318
ISSN: 0014-2956
PURE UUID: 182a89c2-2bca-44ab-9508-3894f5242222
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Date deposited: 08 Aug 2008
Last modified: 16 Mar 2024 02:36
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Contributors
Author:
R. Webster
Author:
R.J. Phelps
Author:
I. Fokt
Author:
W. Priebe
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