Chromatin folding modulates nucleosome positioning in yeast minichromosomes.

Based on the chromatin structures of the yeast URA3 gene and the TRP1ARS1 circle, we have designed circular minichromosomes of different sizes that should each form a tight tetranucleosome. This structure was assumed to be stiff and bulky and therefore likely to be sensitive to packaging into a three-dimensional structure. The structures of the minichromosomes were determined using micrococcal nuclease. Only one of the minichromosomes showed a protected region of about 570 bp, compatible with the predicted tight tetranucleosome, while all other constructs showed alternative structures. A comparison of the structures revealed that neither histone-DNA interactions nor influences from flanking boundaries are sufficient determinants of nucleosome positions. The data strongly suggest that chromatin folding modulates the nucleosome arrangement along the DNA.