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Abstract
The nucleosome remodeling activity of ISW1a was dependent on whether ISW1a was bound to one or both extranucleosomal DNAs. ISW1a preferentially bound nucleosomes with an optimal length of ∼33 to 35 bp of extranucleosomal DNA at both the entry and exit sites over nucleosomes with extranucleosomal DNA at only one entry or exit site. Nucleosomes with extranucleosomal DNA at one of the entry/exit sites were readily remodeled by ISW1a and stimulated the ATPase activity of ISW1a, while conversely, nucleosomes with extranucleosomal DNA at both entry/exit sites were unable either to stimulate the ATPase activity of ISW1a or to be mobilized. DNA footprinting revealed that a major conformational difference between the nucleosomes was the lack of ISW1a binding to nucleosomal DNA two helical turns from the dyad axis in nucleosomes with extranucleosomal DNA at both entry/exit sites. The Ioc3 subunit of ISW1a was found to be the predominant subunit associated with extranucleosomal DNA when ISW1a is bound either to one or to both extranucleosomal DNAs. These two conformations of the ISW1a-nucleosome complex are suggested to be the molecular basis for the nucleosome spacing activity of ISW1a on nucleosomal arrays. ISW1b, the other isoform of ISW1, does not have the same dependency for extranucleosomal DNA as ISW1a and, likewise, is not able to space nucleosomes.
This work was supported by Public Health Service grant GM 48413 from the National Institutes of Health.
We thank Toshio Tsukiyama for providing yeast strains YTT449, YTT2094, and YTT2092. We thank members of the Bartholomew laboratory for their suggestions and comments.