The positioning of DNA on nucleosomes is critical to both the organization and expression of the genetic message. Here we focus on DNA conformational signals found in the growing library of known high-resolution core-particle structures and the ways in which these features may contribute to the positioning of nucleosomes on specific DNA sequences. We survey the chemical composition of the protein-DNA assemblies and extract features along the DNA superhelical pathway - the minor-groove width and the deformations of successive base pairs - determined with reasonable accuracy in the structures. We also examine the extent to which the various nucleosome core-particle structures accommodate the observed settings of the crystallized sequences and the known positioning of the high-affinity synthetic '601' sequence on DNA. We 'thread' these sequences on the different structural templates and estimate the cost of each setting with knowledge-based potentials that reflect the conformational properties of the DNA base-pair steps in other high-resolution protein-bound complexes.
Rutgers, State University of New Jersey, Department of Chemistry and Chemical Biology, BioMaPS Institute for Quantitative Biology, Wright-Rieman Laboratories, 610 Taylor Road, Piscataway, NJ 08854, USA.
