Sequence motifs and free energies of selected natural and non-natural nucleosome positioning DNA sequences

Our laboratories recently completed SELEX experiments to isolate DNA sequences that most-strongly favor or disfavor nucleosome formation and positioning, from the entire mouse genome or from even more diverse pools of chemically synthetic random sequence DNA. Here we directly compare these selected...

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Veröffentlicht in:	Journal of molecular biology 1999-04, Vol.288 (2), p.213-229
Hauptverfasser:	Thåström, A, Lowary, P.T, Widlund, H.R, Cao, H, Kubista, M, Widom, J
Format:	Artikel
Sprache:	eng
Schlagworte:	affinity Animals Base Pairing Base Sequence chromatin Chromatin - metabolism DNA - genetics Fourier Analysis histone Histones - metabolism Mice Nucleic Acid Conformation nucleosome Nucleosomes - physiology positioning Protein Binding Regulatory Sequences, Nucleic Acid Thermodynamics
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container_issue	2
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container_title	Journal of molecular biology
container_volume	288
creator	Thåström, A Lowary, P.T Widlund, H.R Cao, H Kubista, M Widom, J
description	Our laboratories recently completed SELEX experiments to isolate DNA sequences that most-strongly favor or disfavor nucleosome formation and positioning, from the entire mouse genome or from even more diverse pools of chemically synthetic random sequence DNA. Here we directly compare these selected natural and non-natural sequences. We find that the strongest natural positioning sequences have affinities for histone binding and nucleosome formation that are sixfold or more lower than those possessed by many of the selected non-natural sequences. We conclude that even the highest-affinity sequence regions of eukaryotic genomes are not evolved for the highest affinity or nucleosome positioning power. Fourier transform calculations on the selected natural sequences reveal a special significance for nucleosome positioning of a motif consisting of ∼10 bp periodic placement of TA dinucleotide steps. Contributions to histone binding and nucleosome formation from periodic TA steps are more significant than those from other periodic steps such as AA (=TT), CC (=GG) and more important than those from the other YR steps (CA (=TG) and CG), which are reported to have greater conformational flexibility in protein-DNA complexes even than TA. We report the development of improved procedures for measuring the free energies of even stronger positioning sequences that may be isolated in the future, and show that when the favorable free energy of histone-DNA interactions becomes sufficiently large, measurements based on the widely used exchange method become unreliable.
doi_str_mv	10.1006/jmbi.1999.2686
format	Article
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source	MEDLINE; Access via ScienceDirect (Elsevier)
subjects	affinity Animals Base Pairing Base Sequence chromatin Chromatin - metabolism DNA - genetics Fourier Analysis histone Histones - metabolism Mice Nucleic Acid Conformation nucleosome Nucleosomes - physiology positioning Protein Binding Regulatory Sequences, Nucleic Acid Thermodynamics
title	Sequence motifs and free energies of selected natural and non-natural nucleosome positioning DNA sequences
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